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<h1>80 FR 69079 - Chlorpyrifos; Tolerance Revocations</h1>
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<h2><td>ENVIRONMENTAL PROTECTION AGENCY</td><h2><h3>Federal Register Volume 80, Issue 215                (November 6, 2015)</h3>
<table class=table>
<tr><td>Page Range</td><td><td>69079-69110</td></td></tr>
<tr><td>FR Document</td><td><td>2015-28083</td></td></tr>
</table>
<p><td>On August 10, 2015, the U.S. Court of Appeals for the Ninth Circuit ordered EPA to respond to an administrative Petition to revoke all tolerances for the insecticide chlorpyrifos by October 31, 2015, by either denying the Petition or issuing a proposed or final tolerance revocation. At this time, the agency is unable to conclude that the risk from aggregate exposure from the use of chlorpyrifos meets the safety standard of section 408(b)(2) of the Federal Food, Drug, and Cosmetic Act (FFDCA). Accordingly, EPA is proposing to revoke all tolerances for chlorpyrifos. EPA is specifically soliciting comment on whether there is an interest in retaining any individual tolerances, or group of tolerances, and whether information exists to demonstrate that such tolerance(s) meet(s) the FFDCA section 408(b) safety standard. EPA encourages interested parties to comment on the tolerance revocations proposed in this document and on the proposed time frame for tolerance revocation. Issues not raised during the comment period may not be raised as objections to the final rule, or in any other challenge to the final rule.</td></p>
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<title>Federal Register, Volume 80 Issue 215 (Friday, November 6, 2015)</title>
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<body><pre>[Federal Register Volume 80, Number 215 (Friday, November 6, 2015)]
[Proposed Rules]
[Pages 69079-69110]
From the Federal Register Online  [<a href="http://www.thefederalregister.org">www.thefederalregister.org</a>]
[FR Doc No: 2015-28083]



[[Page 69079]]

Vol. 80

Friday,

No. 215

November 6, 2015

Part IV





Environmental Protection Agency





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40 CFR Part 180





Chlorpyrifos; Tolerance Revocations; Proposed Rule

Federal Register / Vol. 80 , No. 215 / Friday, November 6, 2015 / 
Proposed Rules

[[Page 69080]]


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ENVIRONMENTAL PROTECTION AGENCY

40 CFR Part 180

[EPA-HQ-OPP-2015-0653; FRL-9935-92]


Chlorpyrifos; Tolerance Revocations

AGENCY: Environmental Protection Agency (EPA).

ACTION: Proposed rule.

-----------------------------------------------------------------------

SUMMARY: On August 10, 2015, the U.S. Court of Appeals for the Ninth 
Circuit ordered EPA to respond to an administrative Petition to revoke 
all tolerances for the insecticide chlorpyrifos by October 31, 2015, by 
either denying the Petition or issuing a proposed or final tolerance 
revocation. At this time, the agency is unable to conclude that the 
risk from aggregate exposure from the use of chlorpyrifos meets the 
safety standard of section 408(b)(2) of the Federal Food, Drug, and 
Cosmetic Act (FFDCA). Accordingly, EPA is proposing to revoke all 
tolerances for chlorpyrifos. EPA is specifically soliciting comment on 
whether there is an interest in retaining any individual tolerances, or 
group of tolerances, and whether information exists to demonstrate that 
such tolerance(s) meet(s) the FFDCA section 408(b) safety standard. EPA 
encourages interested parties to comment on the tolerance revocations 
proposed in this document and on the proposed time frame for tolerance 
revocation. Issues not raised during the comment period may not be 
raised as objections to the final rule, or in any other challenge to 
the final rule.

DATES: Comments must be received on or before January 5, 2016.

ADDRESSES: Submit your comments, identified by docket identification 
(ID) number EPA-HQ-OPP-2015-0653 by one of the following methods:
    <bullet> Federal eRulemaking Portal: <a href="http://www.regulations">http://www.regulations</a>.gov. 
Follow the online instructions for submitting comments. Do not submit 
electronically any information you consider to be Confidential Business 
Information (CBI) or other information whose disclosure is restricted 
by statute.
    <bullet> Mail: OPP Docket, Environmental Protection Agency Docket 
Center (EPA/DC), (28221T), 1200 Pennsylvania Ave. NW., Washington, DC 
20460-0001.
    <bullet> Hand Delivery: To make special arrangements for hand 
delivery or delivery of boxed information, please follow the 
instructions at <a href="http://www.epa.gov/dockets/contacts.html">http://www.epa.gov/dockets/contacts.html</a>.
    Additional instructions on commenting or visiting the docket, along 
with more information about dockets generally, is available at <a href="http://www.epa.gov/dockets">http://www.epa.gov/dockets</a>.

FOR FURTHER INFORMATION CONTACT: Dana Friedman, Pesticide Re-Evaluation 
Division (7508P), Office of Pesticide Programs, Environmental 
Protection Agency, 1200 Pennsylvania Ave NW., Washington, DC 20460-
0001; telephone number: (703) 347-8827; email address: 
<a href="/cdn-cgi/l/email-protection#7d1b0f141819101c1353191c131c3d180d1c531a120b"><span class="__cf_email__" data-cfemail="ea8c98838f8e878b84c48e8b848baa8f9a8bc48d859c">[email&#160;protected]</span></a>.

SUPPLEMENTARY INFORMATION:

I. General Information

A. Does this action apply to me?

    You may be potentially affected by this action if you are an 
agricultural producer, food manufacturer, or pesticide manufacturer. 
The following list of North American Industrial Classification System 
(NAICS) codes is not intended to be exhaustive, but rather provides a 
guide to help readers determine whether this document applies to them. 
Potentially affected entities may include:
    <bullet> Crop production (NAICS code 111).
    <bullet> Animal production (NAICS code 112).
    <bullet> Food manufacturing (NAICS code 311).
    <bullet> Pesticide manufacturing (NAICS code 32532).

B. What should I consider as I prepare my comments for EPA?

    1. Submitting CBI. Do not submit this information to EPA through 
<a href="https://regulations.gov">regulations.gov</a> or email. Clearly mark the part or all of the 
information that you claim to be CBI. For CBI information in a disk or 
CD-ROM that you mail to EPA, mark the outside of the disk or CD-ROM as 
CBI and then identify electronically within the disk or CD-ROM the 
specific information that is claimed as CBI. In addition to one 
complete version of the comment that includes information claimed as 
CBI, a copy of the comment that does not contain the information 
claimed as CBI must be submitted for inclusion in the public docket. 
Information so marked will not be disclosed except in accordance with 
procedures set forth in 40 CFR part 2.
    2. Tips for preparing your comments. When preparing and submitting 
your comments, see the commenting tips at <a href="http://www.epa.gov/dockets/comments.html">http://www.epa.gov/dockets/comments.html</a>.

C. What can I do if I wish the Agency to maintain a tolerance that the 
Agency proposes to revoke?

    This proposed rule provides a comment period of 60 days for any 
interested person to submit comments on the agency's proposal. EPA will 
issue a final rule after considering the comments that are submitted. 
Comments should be limited only to the pesticide and tolerances subject 
to this proposal.
    EPA's finding that it cannot determine if aggregate exposure from 
all existing uses of chlorpyrifos are safe, does not necessarily mean 
that no individual tolerance or group of tolerances could meet the 
FFDCA 408(b)(2) safety standard and be maintained. EPA's risk 
assessment supporting this proposed rule indicates that the primary 
source of risk comes from chlorpyrifos and chlorpyrifos oxon in 
drinking water in highly vulnerable watersheds (generally small 
watersheds where the land is agricultural and could be treated with 
chlorpyrifos (i.e., heavily cropped areas)). However, as explained in 
this proposed rule, some uses of chlorpyrifos do not by themselves 
present risks of concern from either food or drinking water and are 
only a concern when aggregated with all exposures to chlorpyrifos. EPA 
therefore invites comments that address whether some tolerances or 
groups of tolerances can be retained. In that regard, in addition to 
information related to the safety of such tolerances, use site specific 
information pertaining to the pests targeted by chlorpyrifos, and the 
alternatives to chlorpyrifos for these pests, may help to inform the 
agency's final decision if EPA is able to conclude that some tolerances 
may be retained under the FFDCA safety standard. In addition, if EPA 
receives information that would allow it to better refine the location 
of at risk watersheds and protect such watersheds through appropriate 
product labeling restrictions, it is possible EPA could conclude that 
such mitigation would eliminate the need for some or all of the 
proposed tolerance revocations. It is important to stress, however, 
that because the FFDCA is a safety standard, EPA can only retain 
chlorpyrifos tolerances if it is able to conclude that such tolerances 
are safe.
    After consideration of comments, EPA will issue a final regulation 
determining whether revocation of some or all of the tolerances is 
appropriate under section 408(b)(2). Such regulation will be subject to 
objections pursuant to section 408(g) (21 U.S.C. 346a(g)) and 40 CFR 
part 178.
    In addition to submitting comments in response to this proposal, 
you may also submit an objection at the time of the final rule. If you 
anticipate that you may wish to file objections to the final rule, you 
must raise those issues in your comments on this proposal. EPA received 
numerous comments on its

[[Page 69081]]

December 2014 Revised Human Health Risk Assessment (RHHRA) (Ref. 1) 
related to the scientific bases underlying this proposed rule. In light 
of the U.S Court of Appeals for the Ninth Circuit's August 10, 2015 
order in Pesticide Action Network North America (PANNA) v. EPA, No. 14-
72794 (PANNA), compelling EPA to take this action by October 31, 2015, 
EPA has not addressed these prior comments in this proposed rule. 
Persons wishing to have EPA consider previously submitted comments on 
the RHHRA in connection with this proposal should submit a comment 
indicating that intention and identifying their earlier comments on the 
RHHRA. EPA will treat as waived any issue not raised or referenced in 
comments submitted on this proposal. Similarly, if you fail to file an 
objection to the final rule within the time period specified, you will 
have waived the right to raise any issues resolved in the final rule. 
After the specified time, issues resolved in the final rule cannot be 
raised again in any subsequent proceedings on this rule making.

II. Background

A. What action is the Agency taking?

    EPA is proposing to revoke all tolerances for residues of the 
insecticide chlorpyrifos as contained in 40 CFR 180.342. This includes 
tolerances for residues of chlorpyrifos on specific food commodities 
(180.342(a)(1)); on all food commodities treated in food handling and 
food service establishments in accordance with prescribed conditions 
(180.342(a)(2) and(a)(3)); and on specific commodities when used under 
regional registrations (180.342(c)).
    The agency is proposing to revoke all of these tolerances because 
EPA cannot, at this time, determine that aggregate exposure to residues 
of chlorpyrifos, including all anticipated dietary exposures and all 
other non-occupational exposures for which there is reliable 
information, are safe.
    EPA's full risk conclusions supporting this proposal are set forth 
in the 2014 RHHRA for chlorpyrifos that EPA issued for public comment. 
That document, supporting materials, and the public comments on those 
documents are available in the chlorpyrifos registration review docket, 
EPA-HQ-OPP-2008-0850. While EPA's assessment indicates that 
contributions to dietary exposures to chlorpyrifos from food and 
residential exposures are safe, when those exposures are combined with 
estimated exposures from drinking water, as required by the FFDCA, EPA 
has determined that safe levels of chlorpyrifos in the diet may be 
exceeded for people whose drinking water is derived from certain 
vulnerable watersheds throughout the United States. This primarily 
includes those populations consuming drinking water from small water 
systems in heavily cropped areas where chlorpyrifos may be used widely.

B. What is the Agency's authority for taking this action?

    EPA is taking this action, pursuant to the authority in FFDCA 
sections 408(b)(1)(A), 408(b)(2)(A), and 408(d)(4)(A)(ii). 21 U.S.C. 
346a(b)(1)(A), (b)(2)(A), (d)(4)(A)(ii).

III. Statutory and Regulatory Background

    A ``tolerance'' represents the maximum level for residues of 
pesticide chemicals legally allowed in or on raw agricultural 
commodities and processed foods. Section 408 of FFDCA, 21 U.S.C. 346a, 
authorizes the establishment of tolerances, exemptions from tolerance 
requirements, modifications of tolerances, and revocation of tolerances 
for residues of pesticide chemicals in or on raw agricultural 
commodities and processed foods. Without a tolerance or exemption, food 
containing pesticide residues is considered to be unsafe and therefore 
``adulterated'' under FFDCA section 402(a), 21 U.S.C. 342(a). Such food 
may not be distributed in interstate commerce, 21 U.S.C. 331(a). For a 
food-use pesticide to be sold and distributed, the pesticide must not 
only have appropriate tolerances under the FFDCA, but also must be 
registered under FIFRA, 7 U.S.C. 136a(a); 40 CFR 152.112(g). Food-use 
pesticides not registered in the United States must have tolerances in 
order for commodities treated with those pesticides to be imported into 
the United States.
    Section 408(d) of the FFDCA, 21 U.S.C. 346a(d), authorizes EPA to 
revoke tolerances in response to administrative petitions submitted by 
any person. Because EPA is unable to determine at this time that 
aggregate exposures to chlorpyrifos are safe, EPA is proposing to 
revoke these tolerances in response to a Petition from PANNA and the 
Natural Resources Defense Council (NRDC) to revoke all chlorpyrifos 
tolerances (Ref. 2). The timing of this proposal is the result of the 
August 10, 2015 order in the PANNA decision to respond to that petition 
by October 31, 2015. This proposal also implements the agency findings 
made during the registration review process required by section 3(g) of 
FIFRA (7 U.S.C. 136(a)(g)) which EPA is conducting in parallel with its 
petition response. That process requires EPA to re-evaluate existing 
pesticides every 15 years to determine whether such pesticides meet the 
FIFRA registration standard set forth in FIFRA section 3(c)(5), 7 
U.S.C. 136a(c)(5). In part, that standard requires EPA to ensure that 
dietary risks from the pesticide meet the FFDCA section 408 safety 
standard. Section 408 directs that EPA may establish or leave in effect 
a tolerance for pesticide only if it finds that the tolerance is safe, 
and EPA must revoke or modify tolerances determined to be unsafe. FFDCA 
408(b)(2)(A)(i) (21 U.S.C. 346a(b)(2)(A)(i)). Section 408(b)(2)(A)(ii) 
defines ``safe'' to mean that ``there is a reasonable certainty that no 
harm will result from aggregate exposure to the pesticide chemical 
residue, including all anticipated dietary exposures and all other 
exposures for which there is reliable information.'' This includes 
exposure through drinking water and all non-occupational exposures 
(e.g. in residential settings), but does not include occupational 
exposures to workers (i.e., occupational).
    Risks to infants and children are given special consideration. 
Specifically, pursuant to section 408(b)(2)(C), EPA must assess the 
risk of the pesticide chemical based on available information 
concerning the special susceptibility of infants and children to the 
pesticide chemical residues, including neurological differences between 
infants and children and adults, and effects of in utero exposure to 
pesticide chemicals; and available information concerning the 
cumulative effects on infants and children of such residues and other 
substances that have a common mechanism of toxicity.
    (21 U.S.C. 346a(b)(2)(C)(i)(II) and (III)).
    This provision further directs that ``in the case of threshold 
effects, . . . an additional tenfold margin of safety for the pesticide 
chemical residue and other sources of exposure shall be applied for 
infants and children to take into account potential pre- and post-natal 
toxicity and completeness of the data with respect to exposure and 
toxicity to infants and children.'' (21 U.S.C. 346a(b)(2)(C)). EPA is 
permitted to ``use a different margin of safety for the pesticide 
chemical residue only if, on the basis of reliable data, such margin 
will be safe for infants and children.'' (21 U.S.C. 346a(b)(2)(C)). Due 
to Congress's focus on both pre- and post-natal toxicity, EPA has 
interpreted this additional safety factor as pertaining to risks to 
infants and children that arise due to pre-natal exposure as well as to 
exposure during childhood years. For

[[Page 69082]]

convenience sake, the legal requirements regarding the additional 
safety margin for infants and children in section 408(b)(2)(C) are 
referred to throughout this proposed rule as the ``FQPA safety factor 
for the protection of infants and children'' or simply the ``FQPA 
safety factor.''

IV. Chlorpyrifos Background, Regulatory History, and Litigation

    Chlorpyrifos (0,0-diethyl-0-3,5,6-trichloro-2-pyridyl 
phosphorothioate) is a broad-spectrum, chlorinated organophosphate (OP) 
insecticide that has been registered for use in the United States since 
1965. Currently registered use sites include a large variety of food 
crops (including fruit and nut trees, many types of fruits and 
vegetables, and grain crops), and non-food use settings (e.g., golf 
course turf, industrial sites, greenhouse and nursery production, sod 
farms, and wood products). Public health uses include aerial and 
ground-based fogger mosquito adulticide treatments, roach bait products 
and individual fire ant mound treatments. In 2000, the chlorpyrifos 
registrants reached an agreement with EPA to voluntarily cancel all 
residential use products except those registered for ant and roach 
baits in child-resistant packaging and fire ant mound treatments.
    In 2006, EPA completed FIFRA section 4 reregistration and FFDCA 
tolerance reassessment for chlorpyrifos and the OP class of pesticides. 
Given ongoing scientific developments in the study of the OPs 
generally, EPA chose to prioritize the FIFRA section 3(g) registration 
review (the next round of re-evaluation following reregistration) of 
chlorpyrifos and the OP class. The registration review of chlorpyrifos 
and the OPs has presented EPA with numerous novel scientific issues 
that have been the subject of multiple FIFRA Scientific Advisory Panel 
(SAP) meetings since the completion of reregistration that have 
resulted in significant developments in the conduct of EPA's risk 
assessments generally, and, more specifically, in the study of 
chlorpyrifos's effects. These SAP meetings included review of new 
worker and non-occupational exposure methods, experimental toxicology 
and epidemiology, risk assessment approaches for semi-volatile 
pesticides and the evaluation of a chlorpyrifos-specific 
pharmacokinetic-pharmacodynamic (PBPK-PD) model.

A. Registration Review

    In 2011, in connection with FIFRA registration review, EPA issued 
its Preliminary Human Health Risk Assessment (PHHRA) (Ref. 3) for 
chlorpyrifos that evaluated exposures from food, drinking water, other 
non-occupational sources, and occupational risk (such as risks to 
farmworkers applying chlorpyrifos and working in treated fields). At 
the time of the PHHRA, EPA had not yet performed an integrated weight 
of evidence analysis on the lines of evidence related to the potential 
for neurodevelopmental effects. The PHHRA indicated that for food 
alone, the acute and chronic dietary risk estimates for all populations 
assessed were below the level of concern. The residue of concern in 
treated drinking water is the chlorpyrifos oxon because chlorpyrifos 
transforms to the more toxic chlorpyrifos oxon in treated drinking 
water (e.g. chlorination). For drinking water alone, EPA had a concern 
for infant exposures to the chlorpyrifos oxon.
    In December 2014, EPA completed the RHHRA for registration review 
(Ref. 1). The RHHRA represents a highly sophisticated assessment of 
hazard and exposure to chlorpyrifos and its oxon. The dietary risk 
assessment in the RHHRA provides the scientific support for this 
proposed rule. The approach EPA used for the chlorpyrifos dietary 
assessment and for this proposed rule can be described as follows: EPA 
conducted dietary exposure modeling using the Dietary Exposure 
Evaluation Model (DEEM) and the Calendex models (Ref. 4) to develop a 
probabilistic evaluation of human dietary consumption. Most of the 
pesticide food residue values used in those models were based upon U.S. 
Department of Agriculture's (USDA) Pesticide Data Program (PDP) 
monitoring data. Percent crop treated and empirical food processing 
factors were used where available. EPA then utilized a PBPK-PD model to 
calculate both acute (24 hour) and steady state (21 days (i.e., the 
approximate time to reach steady state for most OPs)) points of 
departure (PoD) dose levels that represent the minimum amount of 
chlorpyrifos that presents a risk concern. (OPs exhibit a phenomenon 
known as steady state AChE inhibition. After repeated dosing at the 
same dose level, the degree of inhibition comes into equilibrium with 
the production of new, uninhibited enzyme. OP AChE studies of 2-3 weeks 
generally show the same degree of inhibition as those of longer 
duration (i.e., up to 2 years of exposure). Therefore, a steady state 
assessment based on 21 days of exposure may be conducted in place of 
the traditional chronic assessment).
    For chlorpyrifos, the risk of concern is 10% acetylcholinesterase 
inhibition (AChE) in red blood cells (RBC)--a precursor for adverse 
neurological symptoms--for both acute and steady state exposure 
durations. The PBPK-PD PoD predictions for each human lifestage 
exposure route and pathway were modeled separately (e.g., for 
residential exposure i.e. dermal, inhalation and incidental oral 
calculations). PoDs are divided by the total uncertainty factors (which 
are used to account for potential differences in sensitivities within 
populations or extrapolations from test results in animals to effects 
on humans) to derive a population adjusted dose (PAD). There are 
potential risks of concern when the estimated dietary exposures exceed 
100% of the PAD. For the food intake portion of the dietary assessment, 
the only potential residue of concern is chlorpyrifos (the oxon 
metabolite is not an expected residue on foods). EPA incorporated total 
uncertainty factors of 100X for adult females (a 10X FQPA safety factor 
and another 10X intra-species extrapolation factor since the PBPK-PD 
model does not include a component that specifically models pregnant 
women) and 40X for the other relevant populations (a 10X FQPA safety 
factor and another 4X intra-species data derived extrapolation factor) 
using the PBPK-PD model to account for potential metabolic and 
physiological differences between populations. The chlorpyrifos 
exposure values resulting from dietary modeling are then compared to 
the PAD to determine the portion of the ``risk cup'' that is taken up 
by exposures from food. In the case of chlorpyrifos, the RHHRA 
concluded that food and non-occupational exposures by themselves take 
up only a small portion of the risk cup and are therefore not a risk 
concern when considered in isolation.
    For the drinking water portion of the dietary assessment, the 
chlorpyrifos oxon, which is more toxic than chlorpyrifos, is the 
residue of concern assumed to occur in drinking water. Based on 
available information regarding the potential effects of certain water 
treatments (e.g., chlorination appears to hasten transformation of 
chlorpyrifos to chlorpyrifos oxon), EPA believes it is appropriate to 
assume that all chlorpyrifos in water is converted to chlorpyrifos oxon 
upon treatment. The chlorpyrifos oxon total uncertainty factors are 
100X for adult females (10X FQPA safety factor and 10X intra-species 
extrapolation factor to account for potential differences between 
populations) and 50X for the other

[[Page 69083]]

relevant populations (10X FQPA safety factor and 5X intra-species data 
derived extrapolation factor) using the PBPK-PD model to account for 
potential metabolic and physiological differences between populations. 
See Unit VI.5 for how the intra-species factors for chlorpyrifos and 
chlorpyrifos oxon were derived. After considering food and residential 
contributions to the risk cup, EPA determined that drinking water 
concentrations to chlorpyrifos oxon greater than 3.9 ppb for a 21-day 
average would exceed EPA's Drinking Water Level of Comparison (DWLOC) 
and present a risk of concern. EPA's water exposure assessment 
indicated that multiple labeled use scenarios for chlorpyrifos exceed 
the DWLOC and therefore present a risk concern. On January 14 2015, EPA 
published a Federal Register Notice seeking public comment on the 
RHHRA.
    EPA's drinking water analysis in the RHHRA also showed that the 
DWLOC exceedances are not expected to be uniformly distributed across 
the country. As a result, EPA began to conduct further analysis to look 
at the spatial distribution of Estimated Drinking Water Concentrations 
(EDWCs) at more refined geographic levels. This exercise demonstrated 
that chlorpyrifos applications will result in variable drinking water 
exposures that are highly localized and that the highest exposures 
generally occur in small watersheds where there is a high percent 
cropped area on which chlorpyrifos use could occur. Accordingly, 
following the development of the RHHRA in December 2014, EPA has 
continued working to develop a more refined assessment to examine EDWCs 
on a regional and/or watershed scale to pinpoint community drinking 
water systems where exposure to chlorpyrifos oxon as a result of 
chlorpyrifos applications may pose an exposure concern. At this time 
this more refined drinking water assessment that will allow EPA to 
better identify where at-risk watersheds are located throughout the 
country is not completed. Thus, we are not currently able to determine 
with any great specificity which uses in which areas of the country do 
or do not present a risk concern. EPA intends to update this action, as 
warranted, with any significant refinements to its drinking water 
assessment, and intends, to the extent practicable, to provide the 
public an opportunity to comment on the refined drinking water 
assessment prior to a final rule.

B. PANNA-NRDC Petition and Associated Litigation

    In September 2007, PANNA and NRDC submitted to EPA a Petition 
seeking revocation of all chlorpyrifos tolerances and cancellation of 
all FIFRA registrations of products containing chlorpyrifos. In 
connection with both EPA's response to the Petition and the FIFRA 
registration review of chlorpyrifos, EPA has taken most of the complex 
and novel science questions raised in the Petition to the SAP for 
review and EPA has developed numerous new methodologies (including 
approaches to address pesticide drift, volatility, and the integration 
of experimental toxicology and epidemiology) to consider these issues.
    While EPA agreed that these new methodologies were necessary to 
properly evaluate PANNA and NRDC's (Petitioners') claims, Petitioners 
have been dissatisfied with the pace of EPA's response efforts and have 
sued EPA in federal court on three separate occasions to compel a 
prompt response to the Petition. Although EPA has to date addressed 7 
of the 10 claims asserted in the Petition by either issuing a 
preliminary denial or approving label mitigation to address the claim, 
on June 10, 2015, in the PANNA decision, the U.S. Court of Appeals for 
the Ninth Circuit signaled its intent to order EPA to complete its 
response to the Petition and directed EPA to inform the court how--and 
by when--EPA intended to respond. On June 30, 2015, EPA informed the 
court that, based on the results of its drinking water assessment, EPA 
intended to propose by April 15, 2016, the revocation of all 
chlorpyrifos tolerances in the absence of pesticide label mitigation 
that ensures that drinking water exposures will be safe. EPA proposed 
this time frame in part to accommodate the completion of a refined 
drinking water assessment that might allow EPA to identify high risk 
areas of the country where additional label mitigation could be put in 
place to address drinking water concerns. On August 10, 2015, the court 
rejected EPA's time line and issued a mandamus order directing EPA to 
``issue either a proposed or final revocation rule or a full and final 
response to the administrative Petition by October 31, 2015.'' As a 
result of this order, EPA is issuing this proposed rule in advance of 
completing its refined drinking water assessment. In addition, EPA has 
had insufficient time to address comments received on the RHHRA. As a 
result, EPA may update this action with new or modified analyses as EPA 
completes additional work after this proposal. For any significant new 
or modified analyses, to the extent practicable, EPA intends to provide 
the public an opportunity to comment on that work prior to issuing a 
final rule.

V. EPA's Approach to Dietary Risk Assessment

    EPA performs a number of analyses to determine the risks from 
aggregate exposure to pesticide residues. A short summary is provided 
below to aid the reader. For further discussion of the regulatory 
requirements of section 408 of the FFDCA and a complete description of 
the risk assessment process, refer to References 5 and 6 respectively. 
To assess the risk of a pesticide tolerance, EPA combines information 
on pesticide toxicity with information regarding the route, magnitude, 
and duration of exposure to the pesticide. The risk assessment process 
involves four distinct steps: (1) Identification of the toxicological 
hazards posed by a pesticide; (2) determination of the exposure ``level 
of concern'' for humans; (3) estimation of human exposure; and (4) 
characterization of human risk based on comparison of human exposure to 
the level of concern.

A. Hazard Identification and Selection of Toxicological Endpoint

    Any risk assessment begins with an evaluation of a chemical's 
inherent properties, and whether those properties have the potential to 
cause adverse effects (i.e., a hazard identification). EPA then 
evaluates the hazards to determine the most sensitive and appropriate 
adverse effect of concern, based on factors such as the effect's 
relevance to humans and the likely routes of exposure.
    Once a pesticide's potential hazards are identified, EPA determines 
a toxicological level of concern for evaluating the risk posed by human 
exposure to the pesticide. In this step of the risk assessment process, 
EPA essentially evaluates the levels of exposure to the pesticide at 
which effects might occur. An important aspect of this determination is 
assessing the relationship between exposure (dose) and response (often 
referred to as the dose-response analysis). In evaluating a chemical's 
dietary risks, EPA uses a reference dose (RfD) approach, which first 
involves establishing a PoD--or the value from a dose-response curve 
that is at the low end of the observable data and that is the toxic 
dose that serves as the starting point in extrapolating a risk to the 
human population. In typical risk assessments, PoDs are derived 
directly

[[Page 69084]]

from laboratory animal studies, and then EPA extrapolates to potential 
effects on humans and human populations by applying both inter and 
intra-species uncertainty factors. Traditionally, EPA has used a 10X 
factor to address each of these uncertainties. In the case of 
chlorpyrifos and its oxon, however, EPA has used PBPK-PD modeling to 
estimate PoDs for all age groups using Data-Derived Extrapolation 
Factors (DDEF) rather than default uncertainty factors to address 
intraspecies extrapolation for some groups (Ref. 1). The PBPK-PD model 
accounts for PK (pharmacokinetic) and PD (pharmacodynamic) 
characteristics to derive age, duration, and route specific PoDs. 
Specifically, the following characteristics have been evaluated: 
exposure (acute, 21-day (steady state); routes of exposure (dermal, 
oral, inhalation); body weights which vary by lifestage; exposure 
duration (hours per day, days per week); and exposure frequency (e.g., 
eating and drinking events per day). While the current PBPK-PD model 
accounts for age-related growth from infancy to adulthood by using 
polynomial equations to describe tissue volumes and blood flows as a 
function of age, the model does not include any descriptions on 
physiological, anatomical, and biochemical changes associated with 
pregnancy. Due to the uncertainty in extrapolating the current model 
predictions among women who may be pregnant, the agency is applying the 
standard 10X intra-species extrapolation factor for women of 
childbearing age.
    Although the PBPK-PD model's use of data-derived extrapolation 
factors renders unnecessary the use of traditional inter- and intra- 
species uncertainty factors for evaluating most populations, as 
required by FFDCA section 408(b)(2)(C), EPA must also address the need 
for an additional safety factor to protect infants and children. That 
provision requires EPA to retain an additional 10-fold margin of safety 
unless EPA concludes, based on reliable data, that a different safety 
factor will be safe for infants and children. The PoDs calculated by 
the PBPK-PD model are then divided by the uncertainty factors to derive 
a PAD. There are potential risks of concern when the estimated dietary 
exposure exceeds 100% of the PAD.

B. Estimating Human Exposure Levels

    Pursuant to section 408(b) of the FFDCA, EPA evaluated dietary 
risks for chlorpyrifos based on ``aggregate exposure'' to chlorpyrifos. 
By ``aggregate exposure,'' EPA is referring to exposure to chlorpyrifos 
residues by multiple pathways of exposure. EPA uses available data, 
together with assumptions designed to be protective of public health, 
and standard analytical methods to produce separate estimates of 
exposure for a highly exposed subgroup of the general population, for 
each potential pathway and route of exposure. For both acute and steady 
state risks, EPA then calculates potential aggregate exposure and risk 
by using probabilistic techniques to combine distributions of potential 
exposures in the population for each route or pathway. (Probabilistic 
analysis is used to predict the frequency with which variations of a 
given event will occur. By taking into account the actual distribution 
of possible consumption and pesticide residue values, probabilistic 
analysis for pesticide exposure assessments ``provides more accurate 
information on the range and probability of possible exposure and their 
associated risk values.'' (Ref. 7). In capsule, a probabilistic 
pesticide exposure analysis constructs a distribution of potential 
exposures based on data on consumption patterns and residue levels and 
provides a ranking of the probability that each potential exposure will 
occur. People consume differing amounts of the same foods, including 
none at all, and a food will contain differing amounts of a pesticide 
residue, including none at all). For dietary analyses, the relevant 
sources of potential exposure to chlorpyrifos are from the ingestion of 
residues in food and drinking water. EPA uses a combination of 
monitoring data and predictive models to evaluate environmental 
exposure of humans to chlorpyrifos.
    1. Exposure from food. Acute and steady state dietary (food only) 
exposure analyses for chlorpyrifos were conducted using the Dietary 
Exposure Evaluation Model (DEEM) and Calendex software with the Food 
Commodity Intake Database (FCID). The DEEM-FCID model uses 2003-2008 
food consumption data from the USDA National Health and Nutrition 
Examination Survey, What We Eat in America (NHANES/WWEIA). These 
current analyses reflect the latest available consumption data as well 
as more recent food monitoring and percent crop treated data. Both the 
acute and steady state dietary exposure analyses are highly refined. 
The large majority of food residues used were based upon USDA's PDP 
monitoring data except in a few instances where no appropriate PDP data 
were available. In those cases, field trial data or tolerance level 
residues were assumed.
    DEEM-FCID also compares exposure estimates to appropriate RfD or 
PAD values to estimate risk. EPA uses these models to estimate exposure 
for the general U.S. population as well as subpopulations based on age, 
sex, ethnicity, and region. For its chlorpyrifos assessment, EPA used 
DEEM-FCID to calculate risk estimates based on a probabilistic 
distribution that combines the full range of residue values for each 
food with the full range of data on individual consumption amounts to 
create a distribution of exposure and risk levels. More specifically, 
DEEM-FCID creates this distribution by calculating an exposure value 
for each reported day of consumption per person (``person/day'') in the 
food survey, assuming that all foods potentially bearing the pesticide 
residue contain such residue at the chosen value. The exposure amounts 
for the thousands of person/days in the food survey are then collected 
in a frequency distribution.
    The probabilistic technique that DEEM-FCID uses to combine 
differing levels of consumption and residues involves the following 
steps:
    (1) identification of any food(s) that could possibly bear the 
residue in question for each person/day in the USDA food survey;
    (2) calculation of an exposure level for each of the thousands of 
person/days in the USDA food survey database, based on the foods 
identified in Step #1 by randomly selecting residue values for the 
foods from the residue database;
    (3) repetition of Step #2 one thousand times for each person/day; 
and
    (4) collection of all of the hundreds of thousands of potential 
exposures estimated in Steps # 2 and 3 in a frequency distribution.
    The resulting probabilistic assessment presents a range of 
exposure/risk estimates that can be compared to appropriate PADs to 
determine the safety of food exposures.
    2. Exposure from water. EPA may use field monitoring data and/or 
simulation water exposure models to generate pesticide exposure 
estimates in drinking water. Monitoring and modeling are both important 
tools for estimating pesticide concentrations in water and can provide 
different types of information. Monitoring data can provide estimates 
of pesticide concentrations in water that are representative of the 
specific agricultural or residential pesticide practices in specific 
locations, under the environmental conditions associated with a 
sampling design (i.e., the

[[Page 69085]]

locations of sampling, the times of the year samples were taken, and 
the frequency by which samples were collected). Further, monitoring 
data can reflect the actual use of a pesticide rather than the label 
rates. Although monitoring data can provide a direct measure of the 
concentration of a pesticide in water, it generally does not provide a 
reliable basis for estimating spatial and temporal variability in 
exposures because sampling may not occur in areas with the highest 
pesticide use, and/or when the pesticides are being used and/or at an 
appropriate sampling frequency to detect high concentrations of a 
pesticide that occur over the period of a day to several days.
    Because of the limitations in most monitoring studies, EPA's 
standard approach is to use water exposure models as the primary means 
to estimate pesticide exposure levels in drinking water. EPA's computer 
models use detailed information on soil properties, crop 
characteristics, and weather patterns to estimate exposure in 
vulnerable locations where the pesticide could be used according to its 
label. (Ref. 8). These models calculate estimated water concentrations 
of pesticides using laboratory data that describe how fast the 
pesticide breaks down to other chemicals and how it moves in the 
environment at these vulnerable locations. The modeling provides an 
estimate of pesticide concentrations in ground and surface water. 
Depending on the modeling algorithm (e.g., surface water modeling 
scenarios), daily concentrations can be estimated continuously over 
long periods of time, and for places that are of most interest for any 
particular pesticide.
    As discussed in Unit VI.B. in greater detail, EPA relied on models 
developed for estimating exposure in both surface water and ground 
water. A detailed description of the models routinely used for exposure 
assessment is available from the EPA Office of Pesticide Programs (OPP) 
Water Models Web site: <a href="http://www.epa.gov/oppefed1/models/water/">http://www.epa.gov/oppefed1/models/water/</a>. The 
Surface Water Concentration Calculator provides a means for EPA to 
estimate daily pesticide concentrations in surface water sources of 
drinking water (a reservoir) using local soil, site, hydrology, and 
weather characteristics along with pesticide applications and 
agricultural management practices, and pesticide environmental fate and 
transport properties. EPA also considers percent cropped area (PCA) 
factors which take into account the potential extent of cropped areas 
that could be treated with pesticides in a particular area.
    In modeling potential surface water concentrations, EPA attempts to 
model areas of the country that are highly vulnerable to surface water 
contamination rather than simply model ``typical'' concentrations 
occurring across the nation. Consequently, EPA models exposures 
occurring in small watersheds in different growing areas throughout the 
country over a 30-year period. The scenarios are designed to capture 
residue levels in vulnerable drinking water sources and are adjusted by 
PCA factors. The PCA is calculated from satellite derived land cover 
data to account for the area of watershed that is cropped.
    EPA believes these assessments are likely reflective of a subset of 
the watersheds across the country that are used for drinking water 
supply, representing a drinking water source generally considered to be 
more vulnerable to frequent high concentrations of pesticides than most 
locations. For this reason, in its evaluation of chlorpyrifos, EPA has 
also begun to refine its assessment to evaluate drinking water risk at 
a regional and drinking water intake scale. While it is currently 
challenging to assess exposure on a local scale due to the 
unavailability of data and wide range of characteristics (i.e., 
environmental factors such as soil, weather, etc. or others (e.g., 
drinking water treatment process)) that affect the vulnerability of a 
given community drinking water system to chlorpyrifos oxon 
contamination, EPA developed a method to examine the potential 
geospatial concentration differences using specific examples for two 
Hydrological Unit Code (HUC) 2 Regions--HUC 2 Region 17: Pacific 
Northwest and HUC 2 Region 3: South Atlantic-Gulf, in order to identify 
use patterns in those regions that may result in EDWCs that exceed the 
DWLOC on a regional basis. There are 21 HUC 2 regions with 18 in the 
conterminous United States. These areas contain either the drainage 
area of a major river, or a combined drainage of a series of rivers. 
The average size is 177,560 square miles. Additional information can be 
found at <a href="https://water.usgs.gov/GIS/huc.html">https://water.usgs.gov/GIS/huc.html</a>. The analysis used a 
number of modeling scenarios to represent all potential chlorpyrifos 
agricultural use sites. This analysis showed an overlap of potential 
chlorpyrifos use sites that may result in an exceedance of the DWLOC 
with watersheds that supply source water for community drinking water 
systems. In addition, this analysis shows that exposure is not uniform 
within a HUC 2 Region and that some watersheds present risk concerns 
while others do not. In general, the refined analysis confirms that 
smaller watersheds with high percent cropped areas are much more 
vulnerable than large watersheds. When this assessment is complete 
(i.e., when EPA has completed this analysis for the rest of the 
country), it may provide EPA with a basis for tailoring its drinking 
water risk mitigation efforts through pesticide product labeling rather 
than revoking tolerances nationwide. Because of the PANNA decision on 
August 10, 2015 compelling EPA to respond to the PANNA-NRDC Petition by 
October 31, 2015, EPA has not been able to complete its refined 
drinking water assessment for chlorpyrifos in advance of this proposed 
rule. As a result, this proposal relies only on the results of the 
national screen that do not provide a basis for more tailored risk 
mitigation. EPA is continuing to conduct its regional and water-intake 
level assessment and intends to update this action if warranted with 
the results of that assessment when it is completed. For any 
significant new or modified drinking water analyses, to the extent 
practicable, EPA intends to provide the public an opportunity to 
comment on the work prior to issuing a final rule.
    3. Residential and Other Non-Occupational Exposures. EPA's 
``residential'' assessments actually examine exposure to pesticides in 
both residential and other non-occupational settings (e.g., homes, 
parks, schools, athletic fields or any other areas frequented by the 
general public). All residential uses of chlorpyrifos except ant and 
roach baits (in child resistant packaging) and fire ant mound 
treatments were voluntary cancelled by registrants in 2000. As such, 
the use of the term ``residential'' throughout this document does not 
connote there are residential uses, rather it is used interchangeable 
with ``non-occupational'' exposures. Exposures to pesticides may occur 
to persons who apply pesticides or to persons who enter areas 
previously treated with pesticides. Such exposures may occur through 
oral, inhalation, or dermal routes. For chlorpyrifos, the uses that 
could result in non-occupational exposures are the public health uses 
as an aerial and ground-based ultra-low volume (ULV) fogger for adult 
mosquito control, the fire ant mound treatments, the use in ant and 
roach bait stations, and foliar use on golf course turfgrass.
    Non-occupational assessments are conducted through examination of 
significant exposure scenarios (e.g.,

[[Page 69086]]

children playing on treated lawns or homeowners spraying their gardens) 
using a combination of generic and pesticide-specific data. To 
regularize this process, OPP has prepared Standard Operating Procedures 
(SOPs) for conducting ``residential'' assessments on a wide array of 
scenarios that are intended to address all major possible means by 
which individuals could be exposed to pesticides in a non-occupational 
environment (e.g. homes, schools, parks, athletic fields, or other 
publicly accessible locations). The SOPs identify relevant generic data 
and construct algorithms for calculating exposure amounts using these 
generic data in combination with pesticide-specific information. The 
generic data generally involve survey data on behavior patterns (e.g., 
activities conducted on turf and time spent on these activities), unit 
exposure, and transfer coefficient data to evaluate the transfer of 
pesticide to humans from a treated surface.
    Typically, non-occupational risks are quantified by comparison of 
estimates of exposure to toxicological PoDs for each route of exposure 
as selected from laboratory animal studies. In the case of 
chlorpyrifos, the PBPK-PD model was used to derive age-, duration-, and 
route-specific human equivalent doses. Separate PoDs were calculated 
for residential exposures by varying inputs on types of exposures and 
populations exposed. Residential risk estimates, or margins of exposure 
(MOEs) were calculated with use of the scenario- and lifestage-specific 
PoDs by comparison to exposure estimates (doses) quantified with use of 
standard occupational and residential exposure assessment 
methodologies.

C. Selection of Acute and Steady State Dietary Exposure Level of 
Concern

    Because probabilistic assessments generally present a realistic 
range of residue values to which the population may be exposed, EPA's 
starting point for estimating exposure and risk for its aggregate risk 
assessments is the 99.9th percentile of the population under 
evaluation. When using a probabilistic method of estimating acute and 
steady state dietary exposure, EPA typically assumes that, when the 
99.9th percentile of exposure is equal to or less than the PAD, the 
level of concern has not been exceeded and dietary exposures are safe.

D. Aggregating Exposures and Deriving a Risk Estimate

    In an aggregate risk assessment, pesticide exposures from relevant 
sources (i.e., food, drinking water and non-occupational uses) are 
added together and compared to quantitative estimates of hazard (e.g., 
PAD), or the risks themselves can be aggregated. When aggregating 
exposures and risks from various sources, both the route and duration 
of exposures are considered. For chlorpyrifos, EPA has considered 
aggregate exposures and risks from combined food, drinking water, and 
non-occupational exposures. Residues in food consist of parent compound 
chlorpyrifos only, while concentrations in water are assumed to consist 
of chlorpyrifos oxon only. The acute aggregate assessment includes only 
food and drinking water while the steady state aggregate assessment 
includes exposures from food, drinking water, and non-occupational 
scenarios. Typically, in aggregate assessments, total dietary exposure 
(food and drinking water combined) are derived by incorporating both 
food residues and EDWCs in the dietary exposure model. In the 
chlorpyrifos RHHRA, only food exposures were derived from the dietary 
model. For drinking water exposure and risk, a DWLOC approach was used 
to calculate the amount of exposure which could occur without exceeding 
the risk level of concern (i.e., the available space in the total 
aggregate risk cup for exposures to chlorpyrifos oxon in drinking water 
after accounting for exposures to parent chlorpyrifos from food and 
non-occupational scenarios). The calculated DWLOCs were then compared 
to the EDWCs of oxon modeled under a variety of conditions. When the 
EDWC is less than the DWLOC, there are no risk concerns for exposures 
to the pesticide in drinking water which also indicates aggregate 
exposures are not of concern. Conversely, when the EDWC is greater than 
the DWLOC, then potential risks of concern are identified.

VI. Aggregate Risk Assessment and Conclusions Regarding Safety

    Consistent with section 408(b)(2)(D) of FFDCA, EPA has reviewed the 
available scientific data and other relevant information in support of 
this action. EPA's assessment of exposures and risks associated with 
chlorpyrifos use follows.

A. Hazard Identification and Endpoint Selection

    This unit summarizes EPA's review of relevant data for 
extrapolating risk and its integrative analysis using multiple lines of 
evidence from experimental toxicology and epidemiology with respect to 
AChE/ChE inhibition (acetylcholinesterase/cholinesterase) and 
neurodevelopmental outcomes. This section also describes EPA's use of a 
robust PBPK-PD model for deriving PoDs and refined intra-species 
factors. Finally, this unit provides the quantitative results of the 
end-point selection process, including EPA's evaluation and application 
of the FQPA safety factor.
    1. Background. Mode of action (MOA) and adverse outcome pathways 
(AOPs) provide important concepts and organizing tools for risk 
assessment. MOAs/AOPs describe a set of measureable key events that 
make up the biological processes leading to an adverse outcome and the 
causal linkages between such events. An AOP further defines the initial 
step in the process as the molecular initiating event. Fundamentally, 
MOA and AOP are different terms for basically the same concept.
    It is well established that AChE inhibition is the mode of action/
adverse outcome pathway (MOA/AOP) for the cholinergic toxicity of OP 
pesticides, including chlorpyrifos. AChE breaks down acetylcholine 
(ACh), a compound that assists in transmitting signals through the 
nervous system. When AChE is inhibited at nerve endings by chlorpyrifos 
or another AChE inhibiting pesticide, the inhibition prevents the ACh 
from being degraded and results in prolonged stimulation of nerves and 
muscles. If a person has enough exposure to chlorpyrifos for poisoning 
to occur the physical signs and symptoms include headache, nausea, 
dizziness, blurred vision, slurred speech, excessive perspiration, 
salivation, vomiting, diarrhea, and muscle twitching. Severe exposure 
to chlorpyrifos can lead to convulsions, loss of bladder and bowel 
control, coma, difficulty breathing, pulmonary edema, muscle paralysis, 
and death from respiratory failure. Because AChE inhibition is the 
initiating event for this MOA/AOP, using AChE inhibition as a 
regulatory endpoint is protective of downstream cholinergic effects. 
Moreover, given the sensitivity of AChE inhibition data for OPs, using 
AChE inhibition to establish a regulatory point of departure has 
historically been considered to be protective of other potential 
toxicities. EPA uses a value of 10% AChE inhibition as a point of 
departure in its regulation of AChE inhibiting pesticides, including 
chlorpyrifos. EPA's analyses have demonstrated that 10% is a level that 
can be reliably measured in the majority of animal toxicity studies; is 
generally at or near the limit of sensitivity for discerning a 
statistically significant decrease in AChE activity across the brain 
compartment; and is a response

[[Page 69087]]

level close to the background AChE level.
    Newer lines of research on chlorpyrifos, notably epidemiological 
studies, have raised some uncertainty about EPA's historical risk 
assessment approach for chlorpyrifos with regard to the potential for 
neurodevelopmental effects that may arise from prenatal exposure to 
chlorpyrifos. This research is summarized in Unit VI.A.6.iii.
    2. Summary of data evaluated for deriving PoDs. Chlorpyrifos and 
its oxon are widely studied and thus have an extensive database of 
scientific studies. Included in the database are: Studies developed by 
registrants pursuant to EPA guidelines, special studies conducted by 
the registrants, and studies in the public literature. These studies 
reflect different levels of biological organization (e.g., metabolism, 
MOA/AOP, in vitro and in vivo experimental toxicology, biomonitoring, 
and epidemiology), various species (mouse, rabbit, dog, non-rodent, and 
human) and address multiple lifestages (fetal, postnatal, pregnant, and 
non-pregnant adult). The metabolism and pharmacokinetic (PK) profile of 
chlorpyrifos and its oxon have been extensively studied in in vitro 
systems, in vivo laboratory animals, as well as humans. Chlorpyrifos is 
bioactivated to the more toxic and potent AChE inhibitor, the oxon 
form. 3,5,6-trichloro-2-pyridinol (TCPy) is the major excreted 
metabolite and is used as the biomarker in PK, biomonitoring, and 
epidemiology studies. Diethylphosphate (DEP) is another metabolite 
often used in biomonitoring studies, but since it is produced by a 
number of OPs, DEP is not a specific marker for chlorpyrifos.
    Summarized below are key findings from experimental toxicology 
studies on AChE inhibition as presented in detail in the June 2011 
PHHRA and the December 2014 RHHRA. Readers should refer to those 
documents (Refs. 3 and 1) and their appendices in the public docket for 
this proposed rule for a complete summary of EPA's data review. 
Chlorpyrifos has also been evaluated for other adverse outcomes such as 
reproductive toxicity, developmental toxicity, cancer, genotoxicity, 
dermal toxicity, inhalation toxicity, and immunotoxicity. These adverse 
outcomes are less sensitive (i.e., are likely to occur at higher doses) 
than AChE inhibition and neurodevelopmental effects, which form the 
scientific foundation of this proposed rule, and are thus not discussed 
in detail here. Concerns for neurodevelopmental effects provide the 
basis for retention of the FQPA safety factor and are summarized in 
Unit VI.A.6.
    AChE inhibition remains the most robust quantitative dose response 
data for chlorpyrifos and thus continues to be the critical effect for 
the quantitative risk assessment. This approach is consistent with the 
advice EPA received from the FIFRA SAP in both 2008 and 2012 (Refs. 9 
and 10) when EPA sought input specifically on the agency's approach to 
evaluating the toxicity of chlorpyrifos. EPA has conducted benchmark 
dose (BMD) analysis of numerous studies using empirical approaches 
previously endorsed by the FIFRA SAP (Ref. 11) and consistent with the 
2006 OP cumulative risk assessment (Ref. 12) and other single chemical 
OP risk assessments. Details on AChE studies and related analyses can 
be found in Appendix 1 of the PHHRA (Ref. 3).
    There are many chlorpyrifos studies evaluating AChE inhibition in 
red blood cell (RBC) or brain in multiple lifestages (gestational, 
fetal, post-natal, and non-pregnant adult), multiple species (rat, 
mouse, rabbit, dog, human), methods of oral administration (oral gavage 
with corn oil, dietary, gavage via milk), and routes of exposure (oral, 
dermal, inhalation via vapor, and via aerosol). In addition, 
chlorpyrifos is unique in the availability of ChE data from peripheral 
tissues in some studies (e.g., heart, lung, liver). There are also 
literature studies comparing the in vitro ChE response to a variety of 
tissues (Ref. 13) which show similar sensitivity and intrinsic 
activity. Across the database, brain AChE tends to be less sensitive 
than RBC AChE or peripheral ChE. In oral studies, RBC AChE inhibition 
is generally similar in response to peripheral tissues (e.g., liver, 
heart, and lung). Thus, the in vitro data and oral studies combined 
support the continued use of RBC AChE inhibition as the critical effect 
for quantitative dose-response assessment.
    As with many OPs, female rats tend to be more sensitive than males 
to these AChE effects. For chlorpyrifos, there are data from multiple 
studies which provide robust RBC AChE data in pregnant, lactating, and 
non-pregnant female rats from oral exposure (e.g., DNT, reproductive, 
and subchronic rats), respectively. The BMD<INF>10</INF>/
BMDL<INF>10</INF> values from these studies range from 0.05/0.04 to 
0.15/0.09 mg/kg/day. (BMD<INF>10</INF> is the estimated dose to yield 
10% inhibition in RBC AChE inhibition compared to controls or 
background levels. The BMDL<INF>10</INF> is the lower 95% confidence 
limit on the BMD<INF>10</INF>). Studies are available in juvenile pups 
which show age-dependent differences, particularly following acute 
exposures, in sensitivity to chlorpyrifos and its oxon. As discussed 
above, this sensitivity is not derived from differences in the AChE 
enzyme itself but instead is derived largely from the immature 
metabolic clearance capacity in the juveniles.
    Multiple route-specific laboratory animal studies for the dermal 
and inhalation routes are available. Dermal AChE data are available 
from a 21-day study and 4-day probe study (Ref. 14) in rats which 
together establish a No Observed Adverse Effect Level (NOAEL) of 5 mg/
kg/day and a Lowest Observed Adverse Effect Level (LOAEL) of 10 mg/kg/
day. Two subchronic inhalation toxicity studies (Refs. 15, 16, and 17) 
in the rat are available using vapor phase chlorpyrifos which show no 
ChE effects up to a concentration of 20.6 ppb (287 [micro]g/m\3\ or 
0.082 mg/kg/day). Multiple acute inhalation studies are also available. 
In a special acute inhalation study, female rats were exposed by nose 
only (mass median aerodynamic diameter/geometric standard deviation was 
1.9/1.51, respectively) to atmospheric concentrations of up to 53.9 mg/
m\3\ of particulate chlorpyrifos for six hours and allowed an 
additional 72 hours to recover (Refs. 18 and 19). Consistent and 
significant lung ChE inhibition were noted at the lowest concentration 
tested of 3.7 mg/m\3\, which is a LOAEL. RBC and brain ChE inhibition 
were noted at >= 12.9 mg/m\3\ and 53.9 mg/m\3\, respectively, 
indicating they are less sensitive than lung and plasma ChE inhibition 
following acute inhalation exposures.
    Since the 2011 PHHRA, two acute inhalation studies on the saturated 
vapor have been performed on the parent chlorpyrifos and chlorpyrifos 
oxon (Refs. 20 and 21). In these studies, female rats were exposed by 
nose only to a saturated vapor of chlorpyrifos or its oxon for 6 hours 
to a time-weighted concentration of 17.7 ppb (0.254 mg/m\3\) (Ref. 20) 
or 2.58 ppb (35.3 [mu]g/m\3\) (Ref. 21), respectively. There were no 
statistically-significant decreases in ChE activity in the RBC, lung, 
brain, or plasma tissues. These acute studies along with the subchronic 
inhalation studies with vapor phase chlorpyrifos support a conclusion 
that acute exposure to the saturated vapor of chlorpyrifos or its oxon 
do not result in hazard due to AChE inhibition.
    3. Durations of Exposure, Critical Windows of Exposure, & 
Temporality of Effects Relevant for AChE Inhibition. In risk 
assessment, exposure is evaluated in conjunction with the toxicology 
profile. More specifically, a variety of pharmacokinetic and 
pharmacodynamic factors are considered. In the case of

[[Page 69088]]

chlorpyrifos, exposure can occur from a single exposure (e.g., eating a 
meal) or from repeated days of exposure (e.g., worker, residential).
    With respect to AChE inhibition, these effects can occur from a 
single exposure or from repeated exposures. Generally, for OPs, 
repeated exposures result in more AChE inhibition at a given 
administered dose compared to acute studies. Moreover, AChE inhibition 
in repeated dosing guideline toxicology studies with OPs show a 
consistent pattern of inhibition reaching steady state at or around 2-3 
weeks of exposure in adult laboratory animals (Ref. 22). This pattern 
is observed with repeated dosing and is a result of an equilibrium 
between the amount of AChE inhibition and the production of new enzyme. 
As such, AChE studies of 2-3 weeks generally show the same degree of 
inhibition with those of longer duration (i.e., up to 2 years of 
exposure). Thus, for most of the single chemical human health risk 
assessments for the OPs, EPA is focusing on the critical duration range 
from a single day up to 21 days (i.e., the approximate time to reach 
steady state for most OPs). As described below, PoDs for various 
lifestages, routes, and scenarios have been derived at the acute and 
steady state durations. For this proposed rule, PoDs for various 
lifestages, routes, and scenarios have been derived at the acute and 
steady state durations.
    4. Use of the Chlorpyrifos PBPK-PD Model to Establish PoDs. As 
described in detail in EPA's 2006 document entitled, ``Approaches for 
the Application of Physiologically Based Pharmacokinetic (PBPK) Models 
and Supporting Data in Risk Assessment,'' (Ref. 23) PBPK modelling is a 
scientifically sound and robust approach to estimating the internal 
dose of a chemical at a target site and as a means to evaluate and 
describe the uncertainty in risk assessments. PBPK models consist of a 
series of mathematical representations of biological tissues and 
physiological processes in the body that simulate the absorption, 
distribution, metabolism, and excretion (ADME) of chemicals that enter 
the body. Examples of PBPK model applications in risk assessments 
include interspecies extrapolation, intra-species extrapolation, route-
to-route extrapolation, estimation of response from varying exposure 
conditions, and high-to-low dose extrapolation. PBPK models can be used 
in conjunction with an exposure assessment to improve the quantitative 
characterization of the dose-response relationship and the overall risk 
assessment. These models can also be used to evaluate the relationship 
between an applied dose and biomonitoring data.
    For a full discussion of the development and evaluation of the 
chlorpyrifos PBPK-PD model, please refer to the December 2014 RHHRA 
(Ref. 1) in the public docket for this rule.
    As discussed above, in typical risk assessments, PoDs are derived 
directly from laboratory animal studies and inter- and intra-species 
extrapolation is accomplished by use of ``default''10X factors. In the 
case of chlorpyrifos and its oxon, EPA is using a PBPK-PD model as a 
data-derived approach to estimate PoDs. This model was originally 
developed by Timchalk and coworkers in 2002 (Refs. 24 and 25), 
partially funded by EPA Star Grants, and most recently supported by Dow 
AgroSciences. The PBPK-PD model for chlorpyrifos has been heavily peer 
reviewed through numerous scientific publications and a review by the 
FIFRA SAP (Ref. 26). All model code for the PBPK-PD model are provided 
in the public docket for the chlorpyrifos risk assessment. Developers 
of the chlorpyrifos PBPK-PD model sponsored a third-party quality 
assurance assessment to verify model parameter values and their 
respective sources. EPA has also done a quality assurance assessment of 
the model for human health risk assessment applications. (Ref. 27).
    The chlorpyrifos PBPK-PD model includes the description of a 
molecular initiating event in the cholinergic toxicity MOA/AOP: AChE 
inhibition. Thus, the PBPK-PD model can be used to predict the dose 
metrics associated with cholinergic toxicity following chlorpyrifos 
exposure, i.e., RBC and brain AChE inhibition. The model also predicts 
levels of chlorpyrifos, its oxon, and TCPy in various tissues, such as 
plasma and urine. Age-specific parameters are incorporated allowing for 
lifestage-specific evaluations from infant through adulthood. The model 
can be run in two modes: deterministic and variation. In the 
deterministic mode, the output accounts for human specific metabolism 
and physiology, thus obviating the need for the inter-species 
extrapolation factor for all age groups. In variation mode, 
distributions for 16 parameters, which are critical for determining 
human variations in RBC AChE inhibition, are incorporated and thus the 
output accounts for intra-species extrapolation for infants, toddler, 
youths, and non-pregnant adults. The approach to intra-species 
extrapolation is described in Unit VI.A.5.
    With respect to AChE inhibition, as noted, EPA typically uses a 10% 
response level in its human health risk assessments. This response 
level is consistent with EPA's 2006 OP cumulative risk assessment (Ref. 
12) and other single chemical OP risk assessments. As such, EPA has 
used the PBPK-PD model to estimate exposure levels resulting in 10% RBC 
AChE inhibition following single day (acute; 24 hours) and 21-day 
exposures for a variety of exposure scenarios. The model accounts for 
PK and PD characteristics to derive age, duration, and route specific 
PoDs (see Table 1 below). Separate PoDs have been calculated for 
dietary (food, drinking water) and residential exposures by varying 
inputs on types of exposures and populations exposed. Specifically, the 
following characteristics have been evaluated: Duration (acute, 21-day 
(steady state)); route (dermal, oral, inhalation); body weights which 
vary by lifestage; exposure duration (hours per day, days per week); 
and exposure frequency (events per day (eating, drinking)).
    For each exposure scenario, the appropriate body weight for each 
age group or sex was modeled as identified from the Exposure Factors 
Handbook (Ref. 28) for residential exposures and from the NHANES/WWEIA 
Survey (Ref. 29) for dietary exposures.
    EPA evaluated the following scenarios: dietary exposure to the oxon 
exposures via drinking water (24-hour and 21-day exposures for infants, 
children, youths, and female adults); exposure to chlorpyrifos 
exposures via food (24-hour and 21-day exposures for infants, children, 
youths, and female adults); 21-day residential exposures to 
chlorpyrifos via skin for children, youths, and female adults; 21-day 
residential exposures to chlorpyrifos via hand-to-mouth ingestion for 
children 1-2 years old; and 21-day residential exposures to 
chlorpyrifos via inhalation for children 1-2 years old and female 
adults.
    For all residential dermal exposures to chlorpyrifos, EPA set the 
fraction of skin in contact with chlorpyrifos to 50% and assumed a 
daily shower (i.e., washing off the chlorpyrifos) following 
chlorpyrifos exposure. All residential exposures were set to be 
continuous for 21 days. For residential exposures via golfing on 
treated turf, the daily exposure time is assumed to be 4 hours/day; for 
residential exposures via contact with turf following public health 
mosquitocide application, the daily exposure duration is assumed to be 
1.5 hours. For residential inhalation exposures following public health

[[Page 69089]]

mosquitocide application, the exposure duration was set to 1 hour per 
day for 21 days. The exposure times selected are based on those 
recommended in the 2012 Standard Operating Procedures for Residential 
Pesticide Exposure Assessment (2012 Residential SOPs). (Ref. 30).
    Summarized in Table 1 are the PBPK-PD model results used to 
estimate exposure levels resulting in 10% RBC AChE inhibition for each 
evaluated population.

                                                  Table 1--Chlorpyrifos PBPK Modeled Doses (PoDs) Corresponding to 10% RBC AChE Inhibition \1\
------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
                                                                                      Infants ( < 1 yr     Young Children (1-2        Children        Youths (Residential:  Females (13-49 years
                                                                                            old)               years old)        (Residential: 6-11     11-16 years old;            old)
                                                                                   --------------------------------------------  years old; Dietary:  Dietary: 13-19 years ---------------------
                                                       Exposure pathway (all                                                       6-12 years old)            old)
                    RA Type                         chlorpyrifos  unless noted)                  Steady                Steady  --------------------------------------------              Steady
                                                                                      Acute    state (21    Acute    state (21               Steady                Steady     Acute    state (21
                                                                                                  day)                  day)      Acute    state (21    Acute    state (21                day)
                                                                                                                                              day)                  day)
------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
Dietary........................................  Drinking Water (oxon conc, ppb)..      1,183        217      3,004        548      7,700      1,358      4,988        878      5,285        932
                                                 Food (ug/kg/day).................        600        103        581         99        530         90        475         80        467         78
Residential (Golfers)..........................  Dermal (ug/kg/day)...............  .........  .........  .........  .........  .........     25,150  .........     16,370  .........     14,250
Residential (Mosquitocide Application).........  Dermal (ug/kg/day)...............  .........  .........  .........    187,000  .........  .........  .........  .........  .........     38,650
                                                 Oral (ug/kg/day).................  .........  .........  .........        101  .........  .........  .........  .........  .........  .........
                                                 Inhalation (concn. in air mg/m3).  .........  .........  .........       2.37  .........  .........  .........  .........  .........       6.15
------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
\1\ Empty cells are not populated because these exposure scenarios are either not relevant for the age group (e.g., infants or 1-2 year olds golfing), or do not represent the most health
  protective life stage for assessment of a particular exposure scenario as recommended in the 2012 SOPs (e.g., for mosquitocide exposure assessment, children 1 to < 2 years old result in a
  more protective assessment than infants).

    5. Use of the Chlorpyrifos PBPK-PD Model to Extrapolate from 
Animals to Humans (Inter-species) and Among the Human Population 
(Intra-species). Once EPA determines the appropriate toxicological PoDs 
(Table 1), it then applies appropriate uncertainty factors or DDEFs to 
account for inter-species and intra-species variation, and to address 
the requirements of section 408(b)(2)(C) regarding the need for an 
additional margin of safety for infants and children. Specifically, the 
modeled doses (PoDs) in this table are divided by appropriate factors 
to establish PADs that are used for regulatory purposes. The PADs are 
presented in Unit VI.B.2.ii and iii, Tables 2 and 3.
    In a typical risk assessment, the agency uses PoDs derived from 
laboratory animal studies. For these typical assessments, the agency 
must then extrapolate from animals to humans which is generally 
performed with a 10X inter-species factor. As noted above in Unit V.A., 
the output of the chlorpyrifos PBPK-PD model accounts for human 
specific metabolism and physiology, thus obviating the need for the 
inter-species extrapolation factor for all age groups.
    EPA has, however, calculated a DDEF to address intra-species 
variation not accounted for in the output of the PBPK-PD model. 
Consistent with EPA's ``Guidance for Applying Quantitative Data to 
Develop Data-Derived Extrapolation Factors for Interspecies and 
Intraspecies Extrapolation'' (Ref. 31), when calculating a DDEF, EPA 
compares the administered doses leading to the response level of 
interest (10% change in RBC AChE inhibition) between a measure of 
average response and response at the tail of the distribution 
representing sensitive individuals. Dow AgroSciences has conducted an 
analysis to derive the oral doses that cause 10% RBC AChE inhibition in 
both adults and 6-month old infants. (Ref. 1 at 69-70). The ratio of 
the adult ED<INF>10</INF> (effective dose) to the infant 
ED<INF>10</INF> was then used to derive intraspecies extrapolation 
factors. In the subsequent Monte Carlo simulations, the target age 
group is six month old individuals. Based on the 1st percentile of the 
distributions being used to extrapolate human health, the DDEF for 
intraspecies extrapolation is 4X for chlorpyrifos and 5X for the oxon 
(Ref. 32) for all groups except women who are pregnant or may become 
pregnant.
    While the current PBPK-PD model accounts for age-related growth 
from infancy to adulthood by using polynomial equations to describe 
tissue volumes and blood flows as a function of age, the model does not 
include any descriptions on physiological, anatomical and biochemical 
changes associated with pregnancy. Due to the uncertainty in 
extrapolating the current model predictions among women who may be 
pregnant, EPA is applying the standard 10X intra-species extrapolation 
factor for women of child bearing age.
    6. Retention of the statutory 10X FQPA Safety Factor for purposes 
of this proposed rule for infants, children, youths, and women of 
childbearing age for all exposure scenarios. Section 408 of FFDCA 
provides that EPA shall apply an additional tenfold margin of safety 
for infants and children in the case of threshold effects to account 
for prenatal and postnatal toxicity and the completeness of the data 
base on toxicity and exposure unless EPA determines that a different 
margin of safety will be safe for infants and children. Margins of 
safety are incorporated into EPA assessments either directly through 
use of a margin of exposure analysis or through using uncertainty 
(safety) factors in calculating a dose level that poses acceptable risk 
to humans.
    In applying the FQPA safety factor provision, EPA has interpreted 
the statutory language as imposing a presumption in favor of applying 
an additional 10X safety factor (Ref. 33). Thus, EPA generally refers 
to the additional 10X factor as a presumptive or default 10X factor. 
EPA has also made clear, however, that the presumption can be overcome 
if reliable data demonstrate that a different factor is safe for 
infants and children. (Ref. 33). In determining whether a different 
factor is safe for infants and children, EPA focuses on the three 
factors listed in section 408(b)(2)(C)--the completeness of the 
toxicity database, the completeness of the exposure database, and 
potential pre- and post-natal toxicity.
    In examining these factors, EPA strives to make sure that its 
choice of a safety factor, based on its weight-of-evidence evaluation, 
does not understate the risk to infants and

[[Page 69090]]

children. New lines of research on chlorpyrifos, notably 
epidemiological studies, have raised some uncertainty about EPA's risk 
assessment approach for chlorpyrifos with regard to the potential for 
neurodevelopmental effects that may arise from prenatal exposure to 
chlorpyrifos. Over the last several years, the agency has taken a 
stepwise, objective and transparent approach to evaluate, interpret, 
and characterize the strengths and uncertainties associated with all 
the lines of scientific information related to the potential for 
adverse neurodevelopmental effects in infants and children as a result 
of prenatal exposure to chlorpyrifos. The agency has evaluated multiple 
lines of evidence with regard to the potential for neurodevelopmental 
outcomes associated with exposure to chlorpyrifos. These are summarized 
below; full details of this analysis can be found in the RHHRA. Given 
the degree of uncertainty EPA has in the human dose-response 
relationship for neurodevelopmental effects, EPA is retaining the 
statutory 10X FQPA Safety Factor for purposes of this proposed rule for 
infants, children (including youths), and women of childbearing age (to 
address prenatal exposure to the fetus) for all exposure scenarios.
    i. Neurodevelopmental outcomes in laboratory animals. There is a 
considerable and still-growing body of literature on the effects of 
chlorpyrifos on the developing brain of laboratory animals (rats and 
mice) indicating that gestational and/or postnatal exposure may cause 
persistent behavioral effects into adulthood. These data provide 
support for the susceptibility of the developing mammalian brain to 
chlorpyrifos exposure. Literature searches have been conducted and 
periodically updated by EPA to review papers addressing long-term 
outcomes from developmental exposure. This review has focused on 
studies in which chlorpyrifos was administered during gestation and/or 
the pre-weaning period and the offspring are examined at some time 
after weaning, and on studies using relatively low doses (e.g., 1 mg/
kg/day) that would not be expected to produce considerable brain AChE 
inhibition and resultant cholinergic toxicity.
    There are substantial differences in the studies, including 
critical features of experimental design such as developmental period 
of exposure, dosing scenarios, testing methods, age at testing, and 
statistical analyses. Despite these differences, behavioral changes of 
some sort were reported in most studies. Given the wide array of 
testing that has been conducted, some variability is not unexpected and 
in fact, the consistency of finding neurological effects is striking. 
After presentation of these reviews, FIFRA SAP Panels (Refs. 9 and 10) 
have agreed that exposure to doses of 1 mg/kg/d and greater, during 
some developmental period, produce significant and long-term effects on 
animal behavior.
    Many of these studies using various cognitive tests report 
perturbations of learning and/or memory, even though in a few cases 
these may be manifested as improved function. Several findings using 
specific test methods have been replicated across studies and 
laboratories, increasing confidence in the outcomes. Likewise, 
alterations in some domains, such as those describing anxiety and 
social interactions, are not fully consistent, but are still suggestive 
of long-term impacts on these behaviors. Motor activity measures, on 
the other hand, produce results as varied as the different measures of 
assessment. Taken together, these data provide evidence for more global 
alterations in neurobehavioral function rather than a specific profile 
of effects.
    In these papers, testing was conducted at various times after 
weaning (adolescents to adults), and there is a presumption that the 
effects are permanent; however, no study has directly addressed this 
issue. Dose-response is not always evident, since many studies only use 
one dose, and of those using two or more doses, there is not always a 
monotonic response. There are differences in route of administration 
(oral, subcutaneous) and vehicle (corn oil, DMSO), but the outcomes do 
not provide obvious differences due to these factors. Likewise, the 
experimental literature has not consistently shown that any specific 
developmental period is critical overall to the long-term outcomes. For 
example, using one specific test cognitive changes were observed 
following gestational and early postnatal, but not late postnatal, 
exposures (Refs. 34, 35, 36, and 37). On the other hand, deficits have 
been reported using a different cognitive test following both 
gestational and late postnatal exposures (Refs. 38, 39, and 40). 
Similarly, some changes in anxiety and social behaviors were reported 
at both gestational and postnatal exposure periods. Unfortunately, no 
laboratory has provided systematic comparisons across exposure period, 
dosing regimen, and age of testing; such studies would improve 
understanding of the impact of these critical factors.
    These studies have almost exclusively focused on doses that could 
produce some degree, however minimal, of AChE inhibition. For example, 
a number of papers use a dose of 1 mg/kg/d administered 1-4 days after 
birth, and this dose inhibits 5-10% of brain AChE in the pups when 
measured 2 hours after the last dose (e.g., Refs. 34, 37, and 41). In 
another study of chlorpyrifos administered in feed to pregnant rats, 
the lowest intake of 0.36 mg/kg/d produced about 20-25% RBC ChE 
inhibition in the dams (Ref. 42). Currently there are no animal studies 
that support or dispute the potential for adverse neurodevelopmental 
outcomes at lower doses that do not inhibit AChE at any time, since 
this has not been adequately studied.
    Overall, across the literature on neurodevelopmental outcomes and 
including most recent publications, there continue to be reports of 
effects on cognitive, anxiety/social behaviors, and motor activity. 
There are, however, inconsistencies in these effects with regards to 
dosing paradigms and gender-specificity. Studies report effects at 
doses that inhibit fetal/pup brain AChE activity to some degree, but 
there are also studies with no effects at the same doses. The broad 
profile of neurological effects that has been reported do not aid in 
the development of a specific AOP (AChE inhibition or other 
mechanisms), and existing experimental studies have not been designed 
to examine and track possible mechanisms from early initiating events 
to the final neurological outcome.
    ii. Modes of action/adverse outcome pathways (MOA/AOP). Mode of 
action (MOA) and adverse outcome pathways (AOPs) describe a set of 
measureable key events that make up the biological processes leading to 
an adverse outcome and the causal linkages between such events. A 
review of the scientific literature on potential MOA/AOP leading to 
effects on the developing brain was conducted for the 2012 FIFRA SAP 
meeting (Ref. 10) and updated for the December 2014 chlorpyrifos RHHRA 
(Ref. 1). In short, multiple biologically plausible hypotheses and 
pathways are being pursued by researchers including: AChE as a 
morphogen; cholinergic system; endocannabinoid system; reactive oxygen 
species; serotonergic system; tubulin, microtubule associated proteins, 
and axonal transport. However, no one pathway has sufficient data to be 
considered more plausible than the others. Among the available studies, 
there are effects which are either as or more sensitive than AChE 
inhibition. The fact that there are, however, sparse data to support 
the in vitro to in vivo extrapolation, or the extrapolation from 
biological perturbation to adverse consequence significantly limits 
their quantitative

[[Page 69091]]

use in risk assessment. The SAP concurred with the agency in 2008 and 
2012 about the lack of definable key events in a MOA/AOP leading to 
developmental neurobehavioral effects. The lack of an established MOA/
AOP makes quantitative use of the epidemiology study in risk assessment 
challenging, particularly with respect to dose-response, critical 
duration of exposure, and window(s) of susceptibility. The agency will 
continue to monitor the scientific literature for studies on the MOA/
AOP for neurodevelopmental effects.
    iii. Epidemiology studies in mothers and children. In the 
chlorpyrifos RHHRA, EPA included epidemiologic research results from 
three prospective birth cohort studies. These include: (1) The Mothers 
and Newborn Study of North Manhattan and South Bronx performed by the 
Columbia Children's Center for Environmental Health (CCCEH) at Columbia 
University; (2) the Mt. Sinai Inner-City Toxicants, Child Growth and 
Development Study or the ``Mt. Sinai Child Growth and Development 
Study'' (Mt. Sinai); and (3) the Center for Health Assessment of 
Mothers and Children of Salinas Valley (CHAMACOS) conducted by 
researchers at University of California Berkeley. In these epidemiology 
studies, mother-infant pairs were recruited for the purpose of studying 
the potential health effects of environmental exposures during 
pregnancy on subsequent child development. Importantly, each of these 
cohorts evaluated the association between prenatal chlorpyrifos or OP 
exposure with adverse neurodevelopmental outcomes in children through 
age 7 years.
    These studies reflect different types of exposed groups in the 
total population which strengthens the weight of the evidence 
considerations regarding this stream of information. The CCCEH Mother's 
and Newborn study and the Mt. Sinai Child Growth and Development study 
participants were likely exposed to OPs through the diet and through 
residential use of the pesticide for indoor pest control. In the 
residential setting, study populations were most likely exposed through 
indoor residential use of the pesticide during the study time period 
and additionally exposed to OPs via the oral route through ingesting 
residues in the diet and from hand-to-mouth contact with in-home 
surfaces, as well as possible dermal or inhalation exposure through 
contact with treated areas in the home environment (Refs. 43, 44, 45, 
and 46). In contrast, CHAMACOS cohort participants were employed as 
farm laborers or were residing in homes with farm laborers. The 
CHAMACOS study participants likely experienced exposure to OPs through 
the diet and from occupational exposure (primarily inhalation and 
dermal routes), as well as probable indirect take-home exposures (the 
``tracking in'' of pesticide residues through shoes and clothing, 
augmented by poor hygiene practices) (Ref. 47). In each of the three 
U.S. children's health cohorts, EPA has considered the strengths and 
limitations of these studies, and believes that random or systematic 
errors in the design, conduct or analysis of these studies were 
unlikely to fully explain observed positive associations between in 
utero OP exposure and adverse neurodevelopmental effects observed at 
birth and through childhood (age 7 years). EPA believes these are 
strong studies which support a conclusion that OPs likely played a role 
in these outcomes.
    These cohort studies each enrolled pregnant women during roughly 
the same time period, measured both environmental exposure to the 
pesticide during pregnancy and also measured biomarkers representing 
internal dose during pregnancy and at delivery, and prospectively 
assessed associations in their newborns and young children through age 
7 years. Each study includes several hundred (approximately 100-400) 
mother-infant pairs; these sample sizes are sufficient to perform 
statistically valid analyses. Investigators from each study cohort 
utilized a similarly strong study design (prospective birth cohort); 
measured pesticide exposure using several different methods including 
environmental indicators as well as specific and non-specific 
biomarkers of OPs; ascertained developmental outcomes using validated 
assessment tools well-established in both clinical and research 
settings; and, measured, analyzed, selected and statistically adjusted 
for potentially confounding variables including socio-economic status 
and other environmental exposures using reasonable and appropriate 
methods. Limitations exist as well. These studies utilized a one-time 
measure (or the average of two measures) of chlorpyrifos or OP exposure 
to assess prenatal pesticide exposure throughout the gestational 
period, were unable to assess the influence of mixtures (co-occurring 
exposures in the relevant biological time window), and reflect a small 
sample size to fully evaluate the effect of more than one simultaneous 
exposure on neurodevelopment, i.e., evidence of effect modification.
    As noted, two major uncertainties in environmental epidemiology 
studies are the accurate and reliable measurement of exposure and 
potential confounding variables such as the influence of mixtures. The 
researchers with each of the three cohorts have provided supplemental 
methodological research to address these areas to the extent possible. 
Across the three children's health cohorts, study authors measured 
biomarkers of OP exposure. There is uncertainty as to the extent 
measurement of non-specific metabolites of OP or chlorpyrifos 
accurately reflects OP exposure; CCCEH and Mt. Sinai studies do not 
estimate post-natal exposure to chlorpyrifos among child participants, 
therefore the influence of early life and childhood OP exposure is 
unaccounted for in these analyses. The CHAMACOS cohort measured urinary 
levels of dialkyl phosphates (DAPs) in young children and did not 
observe negative significant associations in relation to 
neurodevelopment from post-natal exposure (Ref. 48). The CHAMACOS 
cohort investigators also measured AChE and butyl ChE as supplemental 
indicators of OP exposure.
    Potential confounding bias is another major uncertainty within 
environmental epidemiology studies. Confounding variables, exposures 
that could be related to OP exposure and neurodevelopmental outcomes 
such as blood lead, may result in an incorrect epidemiological risk 
estimate. Across these cohort studies, investigators collected relevant 
information concerning demographic characteristics and other 
environmental exposures, and were, to the extent possible with the 
existing information, able to effectively hold constant the influence 
of these other variables when estimating the association between 
prenatal chlorpyrifos and adverse neurodevelopmental outcomes. Control 
of these variables is important to reduce the chances of a false 
positive study result. Overall, statistical analyses were judged to be 
appropriate and reasonable (not overly large number of statistical 
model variables) to the research question by EPA and expert Panel 
reviews (Refs. 9 and 10).
    Researchers with both the Mt. Sinai and CHAMACOS cohorts evaluated 
neonatal neurological functioning in association with prenatal OP 
exposure; CCCEH did not conduct these measurements. To measure indices 
of abnormal neonatal behavior and/or neurological integrity, the Mt. 
Sinai and CHAMACOS authors used outcome measures derived from the 
Brazelton Neonatal Behavioral Assessment Scale

[[Page 69092]]

(BNBAS), a neurological assessment of 28 behavioral items and 18 
primitive reflexes. This tool was administered to infants 2-5 days 
post-partum by trained neonatologists in the hospital setting using 
similar environmental conditions. The authors with both study groups 
observed an increased number of abnormal reflexes in relation to 
increasing measures of OP exposure (Refs. 49 and 50). Among the other 
27 measures in the BNBAS, neither study group reported evidence of any 
other positive associations. The authors also observed evidence of 
potential effect modification by PON1 activity level in the relation 
between DAPs and neonatal neurodevelopment in which infants of mothers 
who are slower metabolizers have greater risk of abnormal reflexes 
(Refs. 49 and 50). However, EPA notes these studies are likely under-
powered to make a statistically robust estimate of this statistical 
interaction.
    Researchers across the three children's health cohorts utilized the 
Bayley Scales of Infant Development II (BSID-II) to generate a Mental 
Development Index (MDI) and a Psychomotor Development Index (PDI) to 
assess neurodevelopment in early childhood. In the CCCEH Mothers and 
Newborn study, Rauh et al. (Ref. 51) investigated MDI and PDI at 12, 
24, and 36 months of age. Children were categorized as having either 
high (>6.17 pg/g) or low (<=6.17 pg/g) prenatal chlorpyrifos exposure, 
using categories informed by results of the previous study on birth 
characteristics (Ref. 52). Authors reported that the difference in MDI 
scores was ``marginally significant'' (p = 0.06) between the ``high'' 
and ``low'' exposed groups; the high exposed group scoring an average 
of 3.3 points lower than the low exposed (Ref. 51). Regarding the PDI 
score (motor skills), none of the 12 or 24 month PDI scores showed 
significant effects, but the 36 month score was significantly related 
to chlorpyrifos exposure. Researchers noted that the effects were most 
pronounced at the 36 month testing period. Within the 36 month testing 
period, the likelihood of highly exposed children developing mental 
delays were significantly greater (MDI: 2.4 times greater (95% CI: 
1.12-5.08, p = 0.02) and PDI: 4.9 times greater (95% CI: 1.78-13.72; p 
= 0.002)) than those with lower prenatal exposure (Id.). Within the Mt. 
Sinai study, authors administered the BSID-II to participating children 
at 12 and 24 months and observed that prenatal total DAP metabolite 
level was associated with a decrement in mental development at 12 
months among blacks and Hispanic children; however, these associations 
either attenuated or were non-existent at the 24-month visit (Ref. 52). 
In the CHAMACOS cohort, Eskenazi et al. (Ref. 53) observed that 
prenatal DAP levels were adversely associated with MDI, and at 24 
months of age these associations reached statistical significance. In 
this study, neither prenatal DAPs nor maternal TCPy were associated 
with PDI (motor skills), nor did authors observe evidence of different 
risk by PON1 status. (Ref. 54).
    With respect to the findings related to the autism spectrum, from 
CCCEH, Rauh et al. (Ref. 51) reported a statistically significant odds 
ratio for pervasive developmental disorder (PDD) (OR = 5.39; 95% CI: 
1.21-24.11) when comparing high to low chlorpyrifos exposure groups. As 
described above, among 7-9 years old children in the Mt. Sinai Cohort 
(Ref. 55), there was no overall statistically significant association 
between maternal third trimester urinary DAP metabolite levels and 
reciprocal social responsiveness. However, some evidence of 
modification of the association between prenatal OP pesticide exposure 
and impaired social responsiveness in early childhood was observed by 
both race/ethnicity and child sex, with an association between diethyl 
alkylphosphate (DEAP) and poorer social responsiveness observed among 
black participants and boys. No association was observed among whites 
or Hispanics, among girls, or for DAP or dimethyl alkylphosphate (DMAP) 
biomarker levels. In the CHAMACOS cohort, Eskenazi et al. (Ref. 54) 
reported non-significant, but suggestive, increased odds of PDD of 2.0 
(0.8 to 5.1; p = 0.14), whereas Eskenazi et al. (Ref. 53) reported a 
statistically significant association between total DAP exposure and 
increased odds of PDD.
    With respect to attention problems, Rauh et al. (Ref. 50) also 
investigated 36-month child behavior checklist (CBCL) (behavioral) 
scores. Significant differences were observed between the high and low 
chlorpyrifos exposure groups in the general category of attention-
problems (p = 0.010), and in the more specific DSM-IV (Diagnostic and 
Statistical Manual of Mental Disorders version IV) scale for ADHD 
problems (p = 0.018). The CHAMACOS cohort also investigated attention 
problems in early childhood using three different assessment tools: 
maternal report of child behavior at 3.5 and 5 years of age; direct 
assessment of the child at 3.5 and 5 years; and by a psychometrician's 
report of the behavior of the child during testing at 5 years. In this 
study population, higher concentrations of OP metabolites in the urine 
of pregnant women were associated with increased odds of attention 
problems and poorer attention scores in their children at age 5 years. 
(Ref. 53).
    To measure intelligence among school aged children, authors from 
each of the three children's health cohorts used the Wechsler 
Intelligence Scale for Children, 4th edition (WISC-IV). The instrument 
measures four areas of mental functioning: The Verbal Comprehension 
Index, the Perceptual Reasoning Index, the Working Memory Index, and 
the Processing Speed Index. A Full-Scale IQ score combines the four 
composite indices. WISC-IV scores are standardized against U.S. 
population-based norms for English and Spanish-speaking children. In 
the CCCEH Mothers and Newborn Study, Rauh et al. (Ref. 56) evaluated 
the relationship between prenatal chlorpyrifos exposure and 
neurodevelopment among 265 of the cohort participants who had reached 
the age of 7 years and had a complete set of data including prenatal 
maternal interview data, prenatal chlorpyrifos marker levels from 
maternal and/or cord blood samples at delivery, postnatal covariates, 
and neurodevelopmental outcome data (Ref. 56). While models were 
developed using continuous measures of both prenatal chlorpyrifos 
exposure and Wechsler scores, for ease of interpretation, investigators 
reported that for each standard deviation increase in exposure (4.61 
pg/g) there is a 1.4% reduction in Full-Scale IQ and a 2.8% reduction 
in Working Memory. In the Mt. Sinai study, prenatal maternal DEP 
urinary metabolite concentrations were associated with slight 
decrements in Full Scale Intelligence Quotient (FSIQ), Perceptual 
Reasoning, and Working Memory between the ages of 6 and 9 years, and 
difference in intelligence measures by putative PON1 status were also 
noted. (Ref. 52). Similarly, in the CHAMACOS cohort, Bouchard et al. 
(Ref. 57) observed evidence of an association between prenatal 
exposures to OPs as measured by urinary DAP (total DAP, DEP, and DMP) 
metabolites in women during pregnancy, and decreased cognitive 
functioning in children at age 7. In this study, children in the 
highest quintile of maternal DAP concentrations had a statistically 
significant 7 point difference in IQ points compared with those in the 
lowest quintile.
    To ascertain whether observed differences in neurodevelopment after 
prenatal chlorpyrifos exposure may be explained by differences in brain 
morphology between exposed groups,

[[Page 69093]]

the CCCEH study investigators compared MRI brain images between high 
and low chlorpyrifos exposed child study participants. (Ref. 58). 
Authors determined there were distinct morphological differences in 
brain areas associated with these neurodevelopmental outcomes. The 
pilot study included 40 child participants due to strict inclusion and 
exclusion criteria, and the high cost of performing the imaging studies 
on each child. EPA convened a Federal Panel of experts to perform a 
written peer-review of this study. (Ref. 59). The Federal Panel 
concurred with the authors' conclusions in general; however the Federal 
Panel also noted that significantly greater and more sophisticated MRI 
imaging studies would be needed to link the morphological changes 
indicated in this study with specific functional outcomes noted in the 
CCCEH IQ study. Therefore, while generally supportive of the 
epidemiologic findings, additional study is needed to make specific 
links with areas of brain development change.
    In sum, across these three children's environmental health studies, 
authors consistently identified associations with neurodevelopmental 
outcomes in relation to OP exposure. There is evidence of delays in 
mental development in infants (24-36 months), attention problems and 
autism spectrum disorder in early childhood, and intelligence 
decrements in school age children who were exposed to chlorpyrifos or 
OPs during gestation. Investigators reported strong measures of 
statistical association across several of these evaluations (odds 
ratios 2-4 fold increased in some instances), and observed evidence of 
exposures-response trends in some instances, e.g., intelligence 
measures.
    7. Weight-of-Evidence Analysis Across Multiple Lines of Evidence. 
The discussion above summarized key scientific information on two 
different adverse health outcomes: AChE inhibition and potential 
neurodevelopmental effects. The agency has conducted a weight-of-
evidence (WOE) analysis utilizing the draft ``Framework for 
Incorporating Human Epidemiologic & Incident Data in Health Risk 
Assessment'' in an effort to integrate this information in the 
development of an appropriate PoD for chlorpyrifos. That assessment 
focuses on two key scientific questions: (1) The degree to which 
scientific data suggest that chlorpyrifos causes long-term 
neurodevelopmental effects from fetal or early life exposure and (2) 
the degree to which adverse effects can be attributed to doses lower 
than those which elicit 10% inhibition of AChE, i.e., the dose levels 
previously used for regulatory decision making.
    i. Dose-response relationships and temporal concordance. Since the 
MOA(s)/AOP(s) is/are not established for neurodevelopmental outcomes, 
it is not possible to describe the concordance in key events or 
biological steps leading to neurodevelopmental outcomes. As such, the 
quantitative linkages between molecular initiating events, intermediate 
steps, and ultimately the adverse outcome (i.e., neurodevelopmental 
effects) cannot be determined. Experimental toxicology studies in 
rodents suggest that long-term effects from chlorpyrifos exposure may 
occur. Due to the dose selections in most of these in vivo studies 
evaluating effects such as behavior and cognition, it is not known 
whether such adverse effects would be shown at doses lower than those 
which elicit 10% RBC AChE inhibition. It is notable, however, that 
comparing the lowest NOAEL observed in the in vivo animal studies (0.2 
mg/kg/day; Ref. 60) for the neurodevelopmental outcomes to the repeated 
dosing reliable BMDL<INF>10</INF> ranging from 0.05-0.17 mg/kg/day for 
RBC AChE inhibition suggests that neurodevelopmental outcomes may occur 
in the same range as AChE inhibition in rat.
    Within the epidemiology studies, the relationship in time between 
prenatal chlorpyrifos exposure and adverse neurodevelopmental outcomes 
is concordant. Specifically, with regard to the children's 
environmental health epidemiology studies, each of the three study 
cohorts utilized a prospective birth cohort study design in which 
mothers were recruited into study prior to the birth of the infants and 
development and identification of adverse effects; therefore, it is 
known with certainty that exposure preceded effect. In addition, 
because the time period under study within these cohorts, and 
specifically the CCCEH study, spanned the point in time in which 
pesticide manufacturers voluntarily cancelled the use of chlorpyrifos 
in the home environment, researchers were able to show the change in 
exposure before (high use period) and after (low/no use period) the 
period of removal of chlorpyrifos products from the residential 
marketplace. Moreover, prior to the voluntary cancellation there were 
>80% detectable levels of chlorpyrifos in cord blood but in the time 
period after the cancellation only 16% of the measured values were 
greater than the LOD; there was only one child born in the time period 
subsequent to the voluntary cancellation of chlorpyrifos in the 
residential marketplace for whom the cord blood chlorpyrifos level was 
in the upper-tertile of pre-cancellation exposure levels. The 
significantly reduced proportion of measured values greater than the 
limit of detection as well as the observation of an absence of an 
association between prenatal chlorpyrifos exposure and 
neurodevelopmental outcomes among infants born after the voluntary 
cancellation of chlorpyrifos support the hypothesis that chlorpyrifos 
is related to these outcomes. However, as noted by study authors, EPA, 
and the FIFRA SAP (Ref. 10), this could also be due to an inadequate 
sample size to detect a small to modest effect among the group of 
infants born after the voluntary cancellation.
    With respect to the timing of exposure, the cord blood and other 
(meconium) measures from the CCCEH study provide evidence that exposure 
did occur to the fetus during gestation but the actual level of such 
exposure during the critical window(s) of susceptibility is not known. 
While significant uncertainties remain about the actual exposure levels 
experienced by mothers and infant participants in the three children's 
health cohorts, particularly during the time period prior to the 
voluntary cancellation of indoor residential uses of chlorpyrifos, 
exposures measured in the range reported in the epidemiology studies 
(pg/g plasma) are likely low enough that they were unlikely to have 
resulted in AChE inhibition. The FIFRA SAP (Ref. 10) concurred with the 
conclusion that measured levels of chlorpyrifos among epidemiology 
study participants were unlikely to have resulted in AChE inhibition. 
The urinary TCPy concentrations among mothers were comparable to the 
general population levels measured in NHANES. Comparing cord blood 
concentrations with the concentrations in which AChE inhibition was 
observed in adult volunteers indicates AChE inhibition would likely not 
have occurred at levels observed in the epidemiology studies (6.17 pg/
g). Therefore, while uncertainty exists as to actual chlorpyrifos 
exposure at (unknown) critical windows of exposure, EPA believes it is 
unlikely mothers enrolled in the birth cohort studies experienced RBC 
AChE inhibition (greater than 10%).
    The biomarker data from the CCCEH studies are supported by EPA's 
dose reconstruction analysis using the PBPK-PD model, which support a 
conclusion that indoor application of chlorpyrifos, when used as 
allowed prior to cancellation from the residential

[[Page 69094]]

marketplace in 2000, likely would not have resulted in RBC AChE 
inhibition greater than 10% in pregnant women or young children.
    ii. Strength, consistency, and specificity. As stated in the EPA 
neurotoxicity guidelines (Ref. 61), direct extrapolation of 
developmental neurotoxicity results from laboratory animals to humans 
is limited by the lack of knowledge about underlying toxicological 
mechanisms and the relevance of these results to humans. EPA notes 
consistencies across these two databases, although challenges of making 
a direct comparison between neurodevelopmental domain inter-species 
remain. It can be assumed that developmental neurotoxicity effects in 
animal studies indicate the potential for altered neurobehavioral 
development in humans, although the specific types of developmental 
effects seen in experimental animal studies may not be the same as 
those that may be produced in humans. However, considering the 
toxicological and epidemiological data in the context of three major 
neurodevelopmental domains (specifically, cognition, motor control, and 
social behavior), insights can be gained. For example, chlorpyrifos 
studies in rats and/or mice have reported impaired cognition (spatial 
learning and working memory; e.g., Refs. 35 and 38); changes in 
locomotor activity levels (exploration, rearing; e.g., Refs. 36 and 
62); altered social interaction (aggression, maternal behavior; Refs. 
63 and 64); and effects on brain morphometrics (Refs. 65 and 66). 
Similarly, epidemiologic investigations have reported effects on 
cognition (Bayley scale indices; Refs. 50 and 53), abnormal motor 
development in neonates (reflexes, Brazelton score; Refs. 49 and 48), 
altered social development (e.g., ADHD; Refs. 50 and 67), and MRI brain 
scans (Ref. 68). It is notable that the laboratory animal studies vary 
in experimental designs such as species, strain, gender, dosing 
regimens (age, routes, vehicle), and test parameters (age, protocol). 
Likewise, observational epidemiology studies vary by population 
characteristics (race/ethnicity, socio-economic status (SES), and 
pesticide use/exposure profile), co-exposures (mix of chemicals, 
windows of exposure), and method of exposure and outcome assessment. 
Given the differences across laboratory animal and epidemiology 
studies, the qualitative similarity in research findings is striking.
    In contrast, quantitatively, there are notable differences between 
animals and humans. Specifically, in animals, the doses most often used 
in the behavior studies (1 and 5 mg/kg/day) are sufficient to elicit 
approximately >=10% brain AChE inhibition and >=30% in RBC AChE 
inhibition, depending on the study design, age of the animal, and 
sampling time. In the epidemiology studies, based on the comparisons 
with biomonitoring data and the results of the dose-reconstruction 
analysis, it is unlikely that RBC AChE would have been inhibited by any 
meaningful or measurable amount, if any at all, and most likely none in 
the brain. This key difference in dose response between the 
experimental toxicology and epidemiology studies poses challenges in 
interpreting such data. There are a number of possible hypotheses such 
as: (1) Limitations of experimental laboratory studies which have 
limited statistical power due to relatively small sample sizes; (2) 
humans display a broader array of behaviors and cognitive abilities 
than rats, thus limiting the sensitivity of the rat studies; and (3) in 
the epidemiology studies, the timing of chlorpyrifos application and 
blood collections are not coupled--thus higher levels of blood 
chlorpyrifos were likely missed (albeit the results of the dose 
reconstruction analysis reduce the likelihood of this hypothesis).
    In making a weight-of-the-evidence analysis, it is important to 
consider the strength of the statistical measures of association 
between prenatal chlorpyrifos exposure and adverse neurodevelopmental 
outcomes through childhood (epidemiology) and possibly into adulthood 
(animal studies). It is also important to consider the strength of the 
integrated qualitative and quantitative evidence, the consistency of 
the observed associations across epidemiology studies and considering 
both animal and human data support the conclusion that chlorpyrifos 
plays a role in adverse neurodevelopmental outcomes. While it cannot be 
stated that chlorpyrifos alone is the sole contributor to the observed 
outcomes (specificity), since other environmental, demographic or 
psychosocial exposures may also play a part in these outcomes, this 
does not obviate the contribution of prenatal chlorpyrifos exposure in 
the development of adverse neurodevelopmental outcomes as echoed by the 
FIFRA SAP (Ref. 10).
    The CCCEH study, which measures chlorpyrifos specifically, provides 
a number of notable associations. Regarding infant and toddler 
neurodevelopment, the CCCEH authors also reported statistically 
significant deficits of 6.5 points on the Bayley Psychomotor 
Development Index (PDI) at 3 years of age when comparing high to low 
exposure groups (Ref. 50). Notably these decrements in PDI persist even 
after adjustment for group and individual level socioeconomic variables 
(Ref. 69). These investigators also observed increased odds of mental 
delay (OR = 2.4; 95% CI: 1.1-5.1) and psychomotor delay (OR = 4.9; 95% 
CI: 1.8-13.7) at age three when comparing high to low exposure groups. 
(Ref. 50). Rauh et al. (Ref. 50) also reported large odds ratios for 
attention disorders (OR = 11.26; 95% CI: 1.79-70.99), ADHD (OR = 6.50; 
95% CI: 1.09-38.69), and PDD (OR = 5.39; 95% CI: 1.21-24.11) when 
comparing high to low chlorpyrifos exposure groups. (Ref. 50). EPA 
notes that the magnitude of these results are so large that they are 
unlikely to be affected by residual confounding although limited sample 
sizes resulted in imprecise estimates.
    Decrements in intelligence measures were identified in relation to 
increasing levels of prenatal chlorpyrifos exposure. The CCCEH study 
reported statistically significant decreases of 1.4% in full scale IQ 
and 2.8% in working memory among seven-year olds for each standard 
deviation increase in chlorpyrifos exposure. (Ref. 56). These results 
persist even when performing sensitivity analyses including only those 
with detectable chlorpyrifos levels.
    iii. Biological plausibility and coherence. Although MOA(s)/AOP(s) 
has/have not been established for neurodevelopmental outcomes, the 
growing body of literature does demonstrate that chlorpyrifos and/or 
its oxon are biologically active on a number of processes that affect 
the developing brain. Moreover, there is a large body of in vivo 
laboratory studies which show long-term behavioral effects from early 
life exposure. EPA considers the results of the toxicological studies 
relevant to the human population, as qualitatively supported by the 
results of epidemiology studies. The lack of established MOA/AOP does 
not undermine or reduce the confidence in the findings of the 
epidemiology studies. The CCCEH study data are not considered in 
isolation, but rather are strengthened when considered in concert with 
the results from the other two cohort studies, as noted by the FIFRA 
SAP. (Ref. 10). As noted above, the CHAMACOS and Mt. Sinai cohorts that 
measured neurological effects at birth (the Brazelton index), observed 
a putative association with chlorpyrifos. (Ref. 48 and 49). Similarly, 
while not consistent by age at time of testing (ranging from 6 months 
to 36 months across the three cohorts), each cohort reported evidence 
of impaired mental and psychomotor development. Attentional problems 
and ADHD were

[[Page 69095]]

reported by both Columbia and CHAMACOS investigators. Finally, each of 
the three cohort study authors observed an inverse relation between the 
respective prenatal measures of OP and intelligence measures at age 7 
years.
    iv. Weight of evidence conclusions. Key issues being considered by 
the Agency in its weight-of-evidence evaluation of chlorpyrifos 
toxicity are (1) whether chlorpyrifos causes long-term effects from 
fetal or early life exposure and (2) whether adverse effects can be 
attributed to doses lower than those which elicit 10% inhibition of 
AChE--EPA's current regulatory point of departure for chlorpyrifos and 
other OPs. When taken together the evidence from (1) the experimental 
toxicology studies evaluating outcomes such as behavior and cognitive 
function; (2) mechanistic data on possible adverse outcome pathways/
modes of action; and (3) epidemiologic and biomonitoring studies leads 
the agency to the following conclusions:
    <bullet> Qualitatively, these lines of evidence together support a 
conclusion that exposure to chlorpyrifos results in adverse 
neurodevelopmental outcomes in humans, at least under some conditions.
    <bullet> Quantitatively, the dose-response relationship of AChE 
inhibition across different life stages is established, but MOAs/AOPs 
for neurodevelopmental outcomes are not established.
    <bullet> The database of in vivo animal toxicology 
neurodevelopmental studies on adverse outcomes includes only a small 
number of studies at doses lower than 1 mg/kg/day. Despite this, the 
agency noted that the BMD values in adult (pregnant and nonpregnant) 
female rats (0.05-0.15 mg/kg/day) are generally 10-fold or more lower 
than the doses where effects on neurodevelopmental outcomes in 
laboratory rats are observed.
    <bullet> With respect to the mechanistic data, there are sparse 
data to support the in vitro to in vivo extrapolation, or the 
extrapolation from biological perturbation to adverse consequence, 
which significantly limits their quantitative use in risk assessment.
    <bullet> As noted above, the lack of an established MOA/AOP makes 
quantitative use of the epidemiology study in risk assessment 
challenging, particularly with respect to dose-response, critical 
duration of exposure, and window(s) of susceptibility. Despite this 
uncertainty, the cord blood and other measures (meconium) provide 
evidence of exposure to the fetus during gestation. Moreover, exposure 
levels in the range measured in the epidemiology studies (pg/g) are 
likely low enough that they are unlikely to result in AChE inhibition, 
as supported by the dose reconstruction analysis of residential use 
prior to 2000 (although the agency has not investigated the degree to 
which exposure to multiple AChE-inhibiting pesticides indoors 
simultaneously could impact this conclusion).
    <bullet> Given the totality of the evidence, the agency concludes 
that chlorpyrifos likely played a role in the neurodevelopmental 
outcomes reported in the CCEH study but uncertainties such as the lack 
of an established MOA/AOP for neurodevelopmental effects and the 
exposure to multiple AChE-inhibiting pesticides precludes definitive 
causal inference.
    <bullet> In light of the uncertainties regarding the relationship 
of observed neurodevelopmental outcomes to AChE inhibition, EPA is 
retaining the 10X FQPA safety factor.
    Following publication of the December 2014 RHHRA, EPA received 
public comments suggesting that the uncertainty surrounding the dose-
response relationship for neurodevelopmental effects warranted the 
application of a larger safety factor than the statutory default 10X 
factor. The commenters suggested that EPA's assessment had failed to 
establish that, even with the retained 10X FQPA safety factor, 
exposures to chlorpyrifos will not result in adverse neurodevelopmental 
outcomes. Some of the commenters suggested that EPA evaluate available 
biomonitoring from the epidemiologic data to help assess whether these 
outcomes could in fact be occurring at levels below EPA's PAD that it 
is using for purposes of this proposed rule. EPA is currently in the 
process of evaluating the available biomonitoring; however, in light of 
the August 10, 2015 PANNA decision that orders EPA to respond to the 
PANNA-NRDC Petition not later than October 31, 2015, EPA has not been 
able to complete that evaluation in advance of this proposal. EPA is 
continuing its evaluation of the available biomonitoring and will 
update this action to reflect the results of that review, if warranted.
    Further, EPA is aware that some commenters on EPA's RHHRA believe 
the PBPK-PD model used to derive PoDs is inappropriate for the 
evaluation of neurodevelopmental effects, given that there is no 
established association between AChE inhibition and long term adverse 
neurodevelopmental outcomes observed in recent epidemiology studies. 
While EPA's evaluation of biomonitoring from available human 
epidemiology studies will not help to further determine the MOA/AOP for 
these adverse neurodevelopmental outcomes, as noted, it will help EPA 
better assess whether the doses (PADs) EPA is proposing to use for 
regulatory purposes in this proposed rule are protective for potential 
adverse neurodevelopmental effects. While, as noted, that assessment is 
still not complete, because EPA is proposing to revoke all tolerances 
in this proposed rule based on its concern regarding AChE inhibition, 
it is unnecessary for EPA to determine at this time whether its current 
PADs bound the chlorpyrifos exposures measured in the epidemiology 
studies. In any case, as EPA completes its further evaluation it will 
update this action, as warranted.

B. Dietary Exposure and Risk Assessment.

    The general approach for the chlorpyrifos dietary exposure and risk 
assessment is as follows: The PBPK-PD model was used to predict acute 
(24 hour) and steady state (21-day) PoDs which correspond to 10% RBC 
AChE inhibition for the lifestages relevant to chlorpyrifos risk 
assessment. The PoDs are then divided by the total uncertainty factor 
to determine the PAD.
    For the dietary risk assessment for food only, the exposure values 
resulting from Dietary Exposure Evaluation Model (DEEM) and the 
Calendex model are compared to the PBPK-PD-based acute PAD and steady 
state PAD, respectively. When estimated dietary risk estimates exceeds 
100% of the PAD there is generally a risk concern.
    For the dietary assessment for water, a drinking water level of 
comparison (DWLOC) approach to aggregate risk was used to calculate the 
amount of exposure available in the total `risk cup' for chlorpyrifos 
oxon in drinking water after accounting for any chloropyrifos exposures 
from food and/or residential use.
    1. Residues of concern. The qualitative nature of the residue in 
plants and livestock is adequately understood based on acceptable 
metabolism studies with cereal grain (corn), root and tuber vegetable 
(sugar beets), and poultry and ruminants. The residue of concern, for 
tolerance expression and risk assessment, in plants (food and feed) and 
livestock commodities is the parent compound chlorpyrifos.
    Based on evidence (various crop field trials and metabolism 
studies) indicating that the metabolite chlorpyrifos oxon would be not 
be present in edible portions of the crops (particularly at periods 
longer than the currently registered PHIs), it is not a residue of 
concern in food or feed at this

[[Page 69096]]

time. Also, the chlorpyrifos oxon is not found on samples in the USDA 
PDP monitoring program. In fact, from 2007 to 2012, out of several 
thousand samples of various commodities, only one sample of potato 
showed presence of the oxon at trace levels, 0.003 ppm where the LOD 
was 0.002 ppm, even though there are no registered uses of chlorpyrifos 
on potato in the U.S.
    The oxon metabolite was not found in milk or livestock tissues in 
cattle and dairy cow feeding studies, at all feeding levels tested, and 
is not a residue of concern in livestock commodities.
    Oxidation of chlorpyrifos to chlorpyrifos oxon can occur through 
photolysis, aerobic metabolism, and chlorination as well as other 
oxidative processes. Because of the toxicity of the oxon and data 
indicating that chlorpyrifos rapidly converts to the oxon during 
typical drinking water treatment (chlorination), the drinking water 
risk assessment considers the oxon as the residue of concern in treated 
drinking water and assumes 100% conversion of chlorpyrifos to 
chlorpyrifos oxon. (Ref. 70). This approach of assuming 100% conversion 
of chlorpyrifos to the more toxic chlorpyrifos oxon, is a conservative 
approach and thus protective of other likely exposure scenarios of 
chlorpyrifos only and chlorpyrifos and chlorpyrifos oxon.
    The chlorpyrifos degradate TCPy is not considered a residue of 
concern for this assessment as it does not inhibit cholinesterase (a 
separate human health risk assessment has been performed for TCPy, 
which has its own toxicity database). TCPy (derived from triclopyr, 
chlorpyrifos, and chlorpyrifos-methyl) was previously assessed on June 
6, 2002. (Ref. 71).
    2. Dietary (food only) risk assessment. The general approach for 
the chlorpyrifos (food only) exposure and risk assessment can be 
described as follows: The PBPK-PD model was used to predict acute (24 
hour) and steady state (21-day) PoDs which correspond to 10% RBC AChE 
inhibition for the index lifestages relevant to chlorpyrifos risk 
assessment (children of various ages which differ due to exposure 
pattern, and adult females of childbearing age). The PoDs are then 
divided by the total uncertainty factor to determine the PAD. For food, 
the residue of concern is chlorpyrifos (the oxon metabolite is not an 
expected residue on foods). The chlorpyrifos total uncertainty factors 
are 100X for adult females (10X FQPA SF and 10X intra-species 
extrapolation factor) and 40X for the other populations (10X FQPA SF 
and 4X intra-species extrapolation factor). For the dietary risk 
assessment for food only, the exposure values resulting from Dietary 
Exposure Evaluation Model (DEEM) and the Calendex model are compared to 
the PBPK-PD-based acute PAD and steady state PAD, respectively. The 
chlorpyrifos exposure values resulting from dietary modeling are 
compared to the PAD. Dietary exposures greater than 100% of the PAD are 
generally cause for concern and would be considered ``unsafe'' within 
the meaning of FFDCA section 408(b)(2)(B).
    i. Description of residue data used in dietary (food only) 
assessment. Acute and steady state dietary (food only) exposure 
analyses for chlorpyrifos were conducted using the Dietary Exposure 
Evaluation Model (DEEM) and Calendex software with the Food Commodity 
Intake Database (FCID) (Ref. 90). This software uses 2003-2008 food 
consumption data from NHANES/WWEIA. The most recent previous dietary 
assessment was conducted in support of the 2011 PHHRA and the ongoing 
chlorpyrifos registration review. (Ref. 72). This current analysis 
reflect the latest consumption data as well as more recent food 
monitoring and percent crop treated data. These analyses were performed 
for the purpose of obtaining food exposure values for comparison to the 
chlorpyrifos doses predicted by the PBPK-PD model to cause RBC ChEI. 
The acute and steady state exposure analyses do not include drinking 
water which is assessed separately as discussed in Unit VI.2.B.
    Both the acute and steady state dietary exposure analyses are 
highly refined. The large majority of food residues used were based 
upon U.S. Department of Agriculture's PDP monitoring data except in a 
few instances where no appropriate PDP data were available. In those 
cases, field trial data were used or tolerance level residues were 
assumed. The same data were used for both the acute and steady state 
analyses. EPA also considered percent crop treated information. Food 
processing factors from submitted studies were used as appropriate.
    The acute and steady state dietary exposure assessment used percent 
crop treated information from EPA's Screening Level Usage Analysis 
(Ref. 73) to estimate chlorpyrifos exposures from the consumption of 
food. Reported percent crop treated ranged from <2.5% to 70%. 100% crop 
treated was assumed for many crops for which no usage data were 
available.
    ii. Acute dietary (food only) risk assessment. Chlorpyrifos acute 
(food only) dietary exposure assessments were conducted using the 
Dietary Exposure Evaluation Model software with the Food Commodity 
Intake Database DEEM-FCID<SUP>TM</SUP>, Version 3.16, which 
incorporates consumption data from NHANES/WWEIA. This dietary survey 
was conducted from 2003 to 2008. Acute dietary risk estimates are 
presented below for the sentinel population subgroups for acute risk 
assessment: infants (<1 year old), children (1-2 years old), youths (6-
12 years old) and adults (females 13-49 years old). The assessment of 
these index lifestages will be protective for the other population 
subgroups.
    As Table 2 indicates, EPA believes that acute dietary risk from 
food only does not present a significant risk, as estimates are all far 
below 100% of the acute PAD for food (aPADfood) at the 99.9th 
percentile of exposure. The subgroup with the highest risk estimate was 
females (13-49 years old) at 3.2% aPADfood.

                 Table 2--Acute Dietary (Food Only) Exposure and Risk Estimates for Chlorpyrifos
----------------------------------------------------------------------------------------------------------------
                                                                                   Food exposure
               Population subgroup                 aPoDfood \1\    aPADfood \2\     \3\ (ug/kg/     Percent of
                                                    (ug/kg/day)     (ug/kg/day)        day)          aPADfood
----------------------------------------------------------------------------------------------------------------
Infants (<1 yr).................................             600              15           0.273             1.8
Children (1-2 yrs)..............................             581              14           0.423             3.0
Youths (6-12 yrs)...............................             530              13           0.189             1.4
Adults (Females 13-49 yrs)......................             469             4.7           0.150             3.2
----------------------------------------------------------------------------------------------------------------
\1\ Acute point of departure; daily dose predicted by PBPK-PD model to cause RBC ChEI of 10% for acute dietary
  (food) exposures.
\2\ aPAD = acute PAD = PoD (Dose predicted by PBPK-PD model to cause 10% RBC ChEI) / total UF; Total uncertainty
  factor = 100X for females 13-49 years (10X intraspecies factor and 10X FQPA safety factor) and 40X for other
  populations (4X intraspecies factor and 10X FQPA safety factor).
\3\ Acute food only exposure estimates from DEEM (at 99.9th percentile). Refined with monitoring data and %CT.


[[Page 69097]]

    iii. Steady state detary (food only) risk assessment. A 
chlorpyrifos steady state dietary (food only) exposure analysis was 
conducted using Calendex-FCID<SUP>TM</SUP>. EPA's steady state 
assessment considers the potential risk from a 21-day exposure duration 
using a 3-week rolling average (sliding by day) across the year. For 
this assessment, the same food residue values used in the acute 
assessment were used for the 21-day duration. In the Calendex software, 
one diary for each individual in the WWEIA is selected to be paired 
with a randomly selected set of residue values for each food consumed. 
The steady state analysis calculated exposures for the sentinel 
populations for infant, child, youths, and adult (infants <1 year, 
children 1-2 years, youths 6-12 years, females 13-49 years).
    Calendex reported dietary exposures for each population subgroup at 
several percentiles of exposure ranging from 10th percentile to 99.9th 
percentile. Similar to acute risks, the dietary (food only) exposures 
for chlorpyrifos were all well below 100% ssPADfood (all populations, 
at all percentiles of exposure). Only the 99.9th percentile of exposure 
is presented in Table 3. For the steady state dietary (food only) 
exposure analyses, children (1-2 years old) was the population subgroup 
with the highest risk estimate at 9.7% of the ssPADfood at the 99.9th 
percentile of exposure.

             Table 3--Steady State Dietary (Food Only) Exposure and Risk Estimates for Chlorpyrifos
----------------------------------------------------------------------------------------------------------------
                                                                                   Food exposure
               Population subgroup                SS PoDfood \1\   ssPADfood \2\    \3\ (ug/kg/     Percent of
                                                    (ug/kg/day)     (ug/kg/day)        day)          ssPADfood
----------------------------------------------------------------------------------------------------------------
Infants (<1 yr).................................             103             2.6           0.186             7.2
Children (1-2 yrs)..............................              99             2.5           0.242             9.7
Youths (6-12 yrs)...............................              90             2.2           0.128             5.8
Adults (Females 13-49 yrs)......................              78            0.78           0.075             9.6
----------------------------------------------------------------------------------------------------------------
\1\ Steady state point of departure; daily dose predicted by PBPK-PD model to cause RBC ChEI of 10% for steady
  state (21-day) dietary (food) exposures.
\2\ ssPAD = Steady state PAD = PoD (Dose predicted by PBPK-PD model to cause 10% RBC ChEI) / total UF; Total
  uncertainty factor = 100X for females 13-49 years (10X intraspecies factor and 10X FQPA safety factor) and 40X
  for other populations (4X intraspecies factor and 10X FQPA safety factor).
\3\ Steady state (21-day) food only exposure estimates from Calendex (at 99.9th percentile). Refined with
  monitoring data and %CT.

    As Tables 2 and 3 make clear, EPA does not believe that food 
exposures to chlorpyrifos by themselves present a significant risk of 
AChE inhibition. Based on the analysis above, EPA would therefore not 
be proposing the revocation of chlorpyrifos if dietary exposures were 
confined to food. As outlined below, however, EPA believes that for 
some portions of the country, food exposures, when aggregated with 
residential exposures and potentially more significant drinking water 
exposures, do present a significant risk concern and support revocation 
of all chlorpyrifos tolerances.
    iv. Residential (non-occupational) exposure/risk characterization. 
As explained above in Unit V.B.3., in assessing dietary risk under the 
FFDCA, EPA must consider not only direct dietary exposure from food and 
drinking water, but also non-occupational exposures to the pesticide, 
such as residential exposure and bystander exposure from the use of 
agricultural pesticides. For simplicity, EPA refers to its assessment 
of all such exposures as its ``residential exposure assessment.'' For 
chlorpyrifos, the vast majority of residential use products were 
cancelled as of 2001. Current chlorpyrifos residential uses now include 
a granular fire ant mound use (commercial applicator only) and ant and 
roach bait in child-resistant packaging (homeowner applicator). 
Additionally, chlorpyrifos is labeled for public health aerial and 
ground-based fogger ULV mosquito adulticide applications and for golf 
course turf applications. For the purpose of residential exposure 
assessment, the parent compound chlorpyrifos is the residue of concern.
    With respect to bystander exposure, EPA's worker protection 
standard prohibits using any pesticide in a way that will contact 
either workers or bystanders through spray drift. Further, in 
connection with EPA's 2012 spray drift evaluation, EPA imposed 
additional no-spray buffers to limit deposition of chlorpyrifos through 
drift in areas adjacent to agricultural fields where bystanders may be 
present following application. With respect to bystander exposure to 
volatilized (vapor form) chlorpyrifos following application, as noted 
in Unit VI.A., recently submitted rat acute toxicity studies of vapor 
phase chlorpyrifos along with available subchronic vapor phase 
inhalation studies support a conclusion that acute exposure to the 
saturated vapor of chlorpyrifos or its oxon do not result in hazard due 
to AChE inhibition. Accordingly, EPA concludes that with the additional 
no spray buffer restrictions, risk concerns to bystanders from spray 
drift have been eliminated and therefore bystander exposures are not 
included as part of EPA's aggregate risk assessment.
    Residential Handler Exposure. EPA uses the term ``handlers'' to 
describe those individuals who are involved in the pesticide 
application process. EPA believes that there are distinct tasks related 
to applications and that exposures can vary depending on the specifics 
of each task. Residential (non-occupational) handlers are addressed 
somewhat differently by EPA as homeowners are assumed to complete all 
elements of an application without use of any protective equipment.
    Based upon review of all chlorpyrifos registered uses, only the ant 
and roach bait products can be applied by a homeowner in a residential 
setting. Because the ant and roach bait products are designed such that 
the active ingredient is contained within a bait station, the potential 
for contact with the chlorpyrifos-containing bait material has been 
eliminated and therefore these products do not pose a risk concern.
    Residential Post-Application Exposure. There is the potential for 
post-application exposures as a result of being in an environment that 
has been previously treated with chlorpyrifos. Chlorpyrifos can be used 
in areas frequented by the general population including golf courses 
and as an aerial and ground-based ULV mosquito adulticide applications 
made directly in

[[Page 69098]]

residential areas. Post-application exposure from residential fire ant 
mound treatment is not quantitatively assessed here as exposures are 
considered to be negligible and do not pose a risk concern; these 
products can only be applied professionally and EPA therefore does not 
anticipate direct non-occupational exposure with treated ant mounds.
    In the RHHRA which supports this rule, EPA has updated the post-
application exposure assessment to reflect: (1) Use of the PBPK-PD 
model for determining toxicological PoDs; (2) use of the 2012 
Residential SOPs (Ref. 28); (3) use of the AgDISP model for estimation 
of airborne concentrations and residue dissipation following 
chlorpyrifos mosquito adulticide applications; (4) updated methodology 
for determining the airborne concentration of active ingredient 
following ground-based mosquito adulticide applications; and (5) use of 
updated body weights for all residential populations assessed.
    In addition, EPA utilized only steady state durations of exposure 
in the updated residential assessment. The steady state endpoint 
selection for chlorpyrifos overlaps EPA's traditional short-term 
exposure duration endpoint selection and is considered health 
protective for both short- and intermediate-term exposures.
    The quantitative exposure/risk assessment for residential post-
application exposures is based on the following scenarios:
Golf Course Use (Emusifiable Concentrate (EC) and Granular (G) 
Formulations)
    <bullet> Children 6 to <11 years old, youths 11 to <16 years old, 
and adult post-application dermal exposure from contact with treated 
turf while golfing.
Public Health Mosquito Adulticide Use (Aerial and Ground Applications)
    <bullet> Children 1 to <2 years old and adult post-application 
dermal exposure from contact with turf following the deposition of 
chlorpyrifos residues from public health mosquito adulticide 
application.
    <bullet> Children 1 to <2 years old and adult post-application 
inhalation exposure from airborne chlorpyrifos following public health 
mosquito adulticide application.
    <bullet> Children 1 to <2 years old post-application incidental 
oral (hand-to-mouth) exposure from contact with turf following the 
deposition of chlorpyrifos residues from public health mosquito 
adulticide application.
    <bullet> Children 1 to <2 years old post-application incidental 
oral (object-to-mouth) exposure from contact with toys containing 
residues from turf following the deposition of chlorpyrifos residues 
from public health mosquito adulticide application.
    The following assumptions and exposure factors served as the basis 
for completing the residential post-application risk assessment. These 
assumptions and factors are described in detail in the updated 
occupational and residential exposure and risk assessment. (Ref. 74).
    Exposure Duration: Residential post-application exposures to 
chlorpyrifos are assumed to be steady state (i.e., 21 days or longer).
    The application of mosquitocide in residential areas may result in 
the potential for post-application inhalation exposures. The 
aerosolized particulate remaining following application is assumed to 
persist for no longer than one hour in proximity of the application 
source and, accordingly, would be most appropriately defined as acute 
in duration. However, this assessment assumes that post-application 
inhalation exposures are steady state which is a highly conservative 
approach given how infrequently mosquitocides are repeatedly applied to 
the same locations and how rapidly aerosols dissipate after these types 
of applications. The parameters used to define this exposure scenario 
in the PBPK-PD model conservatively reflect daily, one hour exposures 
for 21 days.
    Application Rates: In order to seek clarification of chlorpyrifos 
usage, the agency compiled a master use summary document reflective of 
the use profile of all active product labels. The document, among other 
information, presents all registered uses of chlorpyrifos and 
corresponding maximum single application rates, equipment types, 
restricted entry intervals (REIs), etc. This assessment assumes that 
the detailed information on application rates and use patterns 
presented in Appendix 9 (Master Use Summary Document) in support of the 
2014 RHHRA will be implemented on all chlorpyrifos labels and is the 
basis of the occupational and residential risk assessment. If, for any 
reason, the final chlorpyrifos labels contain higher application rates, 
the actual risks posed by those products may exceed the risks estimated 
in this assessment.
    Body Weights: The body weights assumed for this assessment differ 
from those used in 2011 residential exposure assessment and are based 
on the recommendations of the 2012 Residential SOPs. These body weights 
are the same as selected for derivation of PBPK-PD PoDs for use in 
assessment of residential exposures.
    The standard body weights are as follows: Youths 11 to <16 years 
old, 57 kg; children 6 to <11 years old, 32 kg; and children 1 to <2 
years old, 11 kg. For adults when an endpoint is not sex-specific 
(i.e., the endpoints are not based on developmental or fetal effects) a 
body weight of 80 kg is typically used in risk assessment. However, in 
this case, a female-specific body weight of 69 kg was used. While the 
endpoint of concern, RBC AChE inhibition, is not sex-specific, the 
female body weight was used due to concerns for neurodevelopmental 
effects related to early life exposure to chlorpyrifos.
    Post-application exposures from golfing have been assessed using 
the 2012 Residential SOPs and with use of exposure data from a 
chemical-specific turf transferable residue (TTR) study. The study was 
conducted with an emulsifiable concentrate, a granular, and a wettable 
powder formulation. Only the emulsifiable concentrate and granular data 
were used because there are no currently registered wettable powder 
formulations. The study was conducted in 3 states, California, Indiana 
and Mississippi, with use of the emulsifiable concentrate and wettable 
powder formulations. Exposure was estimated by normalizing Day 0 TTR 
measures from study application rates to the current maximum 
application rate allowable by the label. Chlorpyrifos oxon residues 
were not analyzed.
    The post-application exposure potential from public health mosquito 
adulticide applications has been considered for both ground based truck 
foggers and aerial applications. For assessment of the mosquito 
adulticide use, the algorithms and inputs presented in the 2012 
Residential SOP Lawns/Turf section were used coupled with the available 
TTR data described above. The deposition of chlorpyrifos from these 
applications are not based on the application rate alone, but also 
using the AgDISP (v8.2.6) model (aerial applications, the currently 
recommended model for assessment of mosquito adulticide applications) 
or empirical data (ground applications) to determine how much pesticide 
is deposited on residential lawns as a result of mosquito adulticide 
treatments at the maximum application rates for each. The TTR data are 
then used to determine the fraction of the total residue deposited 
following the mosquitocide application which can result in exposures to 
impacted individuals. Inhalation exposures are also estimated using 
AgDrift for aerial

[[Page 69099]]

application and a recently developed well-mixed box (WMB) model 
approach for outdoor foggers.
    EPA used the AgDISP (v8.2.6) model to estimate the deposition of 
chlorpyrifos from aerial applications and the airborne concentration of 
chlorpyrifos following public health mosquitocide application. AgDISP 
predicts the motion of spray material released from aircraft, and 
determines the amount of application volume that remained aloft and the 
amount of the resulting droplets deposited on the surfaces in the 
treatment area, as well as downwind from the treatment area. The model 
also allows for the estimation of air concentrations in the breathing 
zones of adults and children for use in calculating the post-
application inhalation risks to individuals residing in areas being 
treated by aerial application of chlorpyrifos. The aerial fraction of 
the mosquito adulticide application rate applied (0.010 lb ai/A) is 
0.35 (i.e., 35 percent of application rate is deposited on turf); and 
the airborne concentration at the breathing height of adults and 
children of chlorpyrifos 1 hour following aerial mosquito adulticide 
application is 0.00060 mg/m3.
    EPA used empirical data to derive the ground-based deposition of 
chlorpyrifos following public health mosquitocide application. These 
data, conducted by Moore et al. (Ref. 75) and Tietze et al. (Ref. 76), 
measured the deposition of malathion via ULV ground equipment as 
applied for mosquito control. Based on these data, EPA used an off-
target deposition rate of 5 percent of the application rate to evaluate 
ground-based ULV applications (i.e., 5 percent of the target 
application rate deposits on turf). A value slightly higher than the 
mean values for both studies was selected because of the variability in 
the data and the limited number of data points. The adjusted 
application rate was then used to define TTR levels by scaling the 
available TTR data as appropriate.
    In order to calculate airborne concentrations from ULV truck fogger 
applications, EPA used the 2012 Residential SOPs for Outdoor Fogging/
Misting Systems, with minimal modification to the well-mixed box (WMB) 
model. The WMB model allows for the estimation of air concentrations in 
the breathing zones of adults and children for use in calculating the 
post-application inhalation exposure to individuals residing in areas 
being treated by ground application of chlorpyrifos. This methodology 
is a modification of the previous method used in the 2011 occupational 
and residential exposure assessment to evaluate post-application 
inhalation exposure resulting from truck mounted mosquito fogger. The 
revised methodology more accurately accounts for dilution.
    Combining Residential Exposure and Risk Estimates. Since dermal, 
incidental oral, and inhalation exposure routes share a common 
toxicological endpoint, RBC AChE inhibition risk estimates have been 
combined for those routes. The incidental oral scenarios (i.e., hand-
to-mouth, object-to-mouth, and soil ingestion) should be considered 
inter-related, as it is likely that these exposures are interspersed 
over time and are not each occurring simultaneously. Combining all 
three of these scenarios with the dermal and inhalation exposure 
scenarios would be unrealistic because of the conservative nature of 
each individual assessment. Therefore, the post-application exposure 
scenarios that were combined for children 1 <2 years old are the 
dermal, inhalation, and hand-to-mouth scenarios (the highest incidental 
oral exposure expected). This combination should be considered a 
protective estimate of children's exposure to pesticides.
    Summary of Residential Post-application Non-Cancer Exposure and 
Risk Estimates. The assessment of steady state golfer post-application 
exposures (dermal only) to chlorpyrifos treated turf for the lifestages 
adults, children 6 to <11 years old, and youths 11 to <16 years old, 
results in no risks of concern (i.e., children 6 to <11 and youths 11 
to <16 years old, MOEs are >=40; adults, MOEs are >=100). For the 
assessment of post-application exposures from public health 
mosquitocide applications, no combined risks of concern were identified 
for adults (dermal and inhalation) and children 1 to <2 years old 
(dermal, incidental oral, and inhalation). A summary of risk estimates 
is presented in Table 4.

                                                  Table 4--Residential Post-Application Non-Cancer Exposure and Risk Estimates for Chlorpyrifos
------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
                                         Post-application exposure scenario
             Lifestage             ----------------------------------------------  Application rate \1\    State (TTR data)     Dose  (mg/kg/day) \3\       MOEs \4\       Combined    Combined
                                           Use site          Route of exposure                                                                                            routes \5\   MOEs \6\
------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
Adult (Females)...................  Golf Course Turf.....  Dermal...............  1.0 (Emulsifiable      CA.................  0.010....................           1,400          NA           NA
                                    .....................  .....................   Concentrate).         IN.................  0.0069...................           2,100  ...........  ..........
                                    .....................  .....................  .....................  MS.................  0.012....................           1,200  ...........  ..........
                                    .....................  .....................  .....................  Mean...............  0.0095...................           1,500  ...........  ..........
Youths 11 to <16 yrs old..........  .....................  .....................  .....................  CA.................  0.010....................           1,600  ...........  ..........
                                                                                                         IN.................  0.0069...................           2,300  ...........  ..........
                                                                                                         MS.................  0.012....................           1,400  ...........  ..........
                                                                                                         Mean...............  0.0096...................           1,700  ...........  ..........
Children 6 to <11 years old.......  .....................  .....................  .....................  CA.................  0.012....................           2,100  ...........  ..........
                                                                                                         IN.................  0.0082...................           3,100  ...........  ..........
                                                                                                         MS.................  0.014....................           1,800  ...........  ..........
                                                                                                         Mean...............  0.011....................           2,200  ...........  ..........
Adult (Females)...................  .....................  .....................  1.0 (Granular).......  CA.................  0.0088...................           1,600  ...........  ..........
Youths 11 to <16 yrs old..........  .....................  .....................  .....................  ...................  0.0088...................           1,900  ...........  ..........
Children 6 to <11 years old.......  .....................  .....................  .....................  ...................  0.010....................           2,400  ...........  ..........
Adult (Females)...................  Aerial and Ground      Dermal...............  0.010 (Aerial).......  MS.................  0.00052..................          75,000           X        9,100
                                     Based ULV             Inhalation...........                         NA.................  0.00060 (mg/m\3\)........          10,300           X
                                     Mosquitocide
                                     Applications.
Children 1 to <2 yrs old..........  Mosquitocide           Dermal...............  .....................  MS.................  0.00088..................         210,000           X        2,300
                                     Applications.         Inhalation...........                         NA \2\.............  0.00060 (mg/m\3\)........           4,000           X

[[Page 69100]]

 
                                                           Hand-to-Mouth........  .....................  MS.................  0.000018.................           5,600           X
                                                           Object-to-Mouth......  .....................  MS.................  5.5 x 10-7...............         180,000          NA           NA
                                                           Soil Ingestion.......  .....................  NA \2\.............  1.2 x 10-7...............       4,900,000          NA           NA
Adult (Females)...................  .....................  Dermal...............  0.010 (Ground).......  MS.................  0.000074.................         520,000           X        1,200
                                                           Inhalation...........  .....................  NA.................  0.0051 (mg/m\3\).........           1,200           X
Children 1 to <2 yrs                .....................  Dermal...............  .....................  MS.................  0.00013..................       1,500,000           X          460
 old.                               .....................  Inhalation...........  .....................  NA.................  0.0051 (mg/m\3\).........             460           X   ..........
                                                           Hand-to-Mouth........  .....................  MS.................  2.6 x 10-6...............          39,000           X
                                                           Object-to-Mouth......  .....................  MS.................  7.9 x 10-8...............       1,300,000          NA           NA
                                                           Soil Ingestion.......  .....................  NA \2\.............  1.7 x 10-8...............      34,000,000          NA           NA
------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
\1\ Based on the maximum application rates registered for golf course turf and ULV mosquito adulticide uses.
\2\ The airborne concentrations of chlorpyrifos following ULV mosquito adulticide applications was determined with use of the AgDISP (v8.2.6) model.
\3\ Dose (mg/kg/day) equations for golfing and mosquitocide applications are provided in Appendices B and C (Ref. 1) of the updated occupational and residential exposures assessment. For
  calculation of doses (i.e., dermal, hand-to-mouth, and object-to-mouth) from exposure to ULV mosquito adulticide, TTR data was used. The MS TTR data was selected for use because it is the
  worst case and, as a result, most protective of human health. Additionally, the fraction of chlorpyrifos residue deposited following mosquitocide application, 35% (0.35), was determined with
  use of the AgDISP (v8.2.6) model and used for dose calculation. The fraction of chlorpyrifos deposited following ground ULV application, 5% (0.050), is based on surrogate exposure data
  (malathion). For dose estimation from exposures to golfing on treated turf, on the TTR data was used. Doses have been presented for all State sites, including the mean of all State sites.
\4\ MOE = PoD (mg/kg/day) / Dose (mg/kg/day).
\5\ X indicates the exposure scenario is included in the combined MOE; NA = Not applicable.
\6\ Combined MOE = 1 / (1/dermal MOE) + (1/inhalation MOE) + (1/incidental oral MOE), where applicable.

    v. Aggregating exposures and developing the drinking water level of 
concern. Consistent with FFDCA section 408(b)(2)(D)(vi), EPA considers 
and aggregates (adds) pesticide exposures and risks from three major 
sources: Food, drinking water, and residential exposures. In an 
aggregate assessment, exposures from relevant sources are added 
together and compared to quantitative estimates of hazard, or the risks 
themselves can be aggregated. The durations of exposure identified for 
chlorpyrifos uses are acute and steady state. The acute aggregate 
assessment includes high end exposure values for food and drinking 
water but does not include residential exposure estimates. The steady 
state aggregate assessment includes food, drinking water, and 
residential exposures and for chlorpyrifos it is protective of the 
acute aggregate risks because examination indicates it results in 
higher risk estimates for all situations--so in effect acute 
residential exposures have also been considered in the aggregate risk 
assessment process.
    For purposes of this proposed rule, EPA is using a DWLOC approach 
to aggregate risk. Under this approach, EPA calculates the amount of 
exposure available in the total `risk cup' for chlorpyrifos oxon in 
drinking water after accounting for any chlorpyrifos exposures from 
food and/or residential use.
    The DWLOC approach for this proposed rule uses a reciprocal MOE 
calculation method for adults (females of childbearing age) since the 
target MOEs are the same for all relevant sources of exposure, i.e., 
100X for residential dermal and for dietary food and water. This 
entails calculating the MOE for water (MOEwater) by deducting the 
contributions from food (MOEfood) and residential dermal exposure 
(MOEdermal) from the aggregate MOE (MOEagg) of 100. The aggregate MOE 
value is the same as target MOE (level of concern). The DWLOC is then 
calculated by dividing the PoDwater by the MOEwater. The general 
reciprocal MOE formula is as follows:

MOEagg = 1/((1/MOEwater) + (1/MOEfood) + (1/MOEdermal))
MOEwater = 1/((1/MOEagg)-((1/MOEfood) + (1/MOEdermal)))
DWLOC= PoDwater/MOEwater

    When target MOEs (levels of concern) are not the same across the 
relevant sources of exposure, the reciprocal MOE approach for 
calculating DWLOCs is not appropriate; instead an aggregate risk index 
(ARI) method is used. For purposes of this proposed rule, EPA therefore 
employed the ARI method for infants, children, and youths because the 
target MOEs for the relevant sources of exposure are not the same i.e., 
the target MOE for dietary food and for residential dermal exposures is 
40X while the target MOE for drinking water exposure is 50X. In this 
approach, the aggregate, or `total', ARI value is assigned as 1 (EPA is 
generally concerned when any calculated ARIs are less than 1). Similar 
to the reciprocal MOE approach, the ARIs for food and dermal are 
deducted from the aggregate ARI to determine the ARI for water. The 
water ARI is multiplied by the target MOE for water to determine the 
calculated water MOE (MOEwater). The DWLOC is then calculated by 
dividing the PoDwater by the MOEwater. The general ARI method formula 
is as follows:
    ARIs for food or dermal are calculated as ARIfood or dermal = 
(MOEfood or dermal)/(MOEtarget for food or dermal)).

ARIagg = 1/((1/ARIwater) + (1/ARIfood) + (1/ARIdermal))
ARIwater = 1/((1/ARIagg)-((1/ARIfood) + (1/ARIdermal))); Where ARIagg = 
1
MOEwater = ARIwater x MOEtarget.
DWLOC = PoDwater/MOEwater

    Determination of Acute DWLOC. The acute aggregate assessment 
includes only food and drinking water. The acute DWLOCs were calculated 
for infants, children, youths, and adults and are presented in Table 5. 
The lowest acute DWLOC calculated was for infants (<1 year old) at 24 
ppb. Acute exposures greater than 24 ppb are generally considered a 
risk concern and unsafe for purposes of FFDCA section 408(b).

[[Page 69101]]



                                    Table 5--Acute Aggregate (Food and Drinking Water) Calculation of DWLOCs \1\ \2\
--------------------------------------------------------------------------------------------------------------------------------------------------------
                                                                  Food exposure  (chlorpyrifos)      Drinking water exposure
                                                                               \3\                     (chlorpyrifos) \4\         Acute DWLOC \5\  (ppb
                           Population                           ----------------------------------------------------------------    chlorpyrifos oxon)
                                                                       MOE             ARI             MOE             ARI
--------------------------------------------------------------------------------------------------------------------------------------------------------
Infants \1\ (<1 yr)............................................            2200              55              50             1.0                       24
Children \1\ (1-2 yrs).........................................            1400              35              50             1.0                       60
Youths \1\ (6-12 yrs)..........................................            2800              70              50             1.0                      150
Adults \2\ (Females 13-49 yrs).................................            3100              NA             100              NA                       53
--------------------------------------------------------------------------------------------------------------------------------------------------------
\1\ DWLOCs for infants, children and youths are calculated using the ARI (Aggregate Risk Index) approach since target MOEs are different for drinking
  water (chlorpyrifos oxon target MOE = 50) and for food and residential (chlorpyrifos target MOE = 40) exposure.
\2\ DWLOCs for adults (females 13-49 years) are calculated using the reciprocal MOE approach since the target MOEs are the same for drinking water
  (chlorpyrifos oxon target MOE = 100) and for food and residential (chlorpyrifos target MOE = 100) exposure.
\3\ FOOD: MOEfood = PoDfood (ug/kg/day) (from Table 4.8.4)/Food Exposure (ug/kg/day) (from Table 5.4.3). ARIfood = ((MOEfood)/(MOEtarget)).
\4\ WATER (ARI approach): ARIwater = 1/((1/ARIagg)-((1/ARIfood) + (1/ARIdermal))); Where ARIagg = 1 (Note: EPA is generally concerned when calculated
  ARIs are less than 1). MOEwater = ARIwater x MOEtarget. WATER (Reciprocal MOE approach): MOEwater = 1/((1/MOEagg)-((1/MOEfood) + (1/MOEdermal)));
  Where MOEagg =Target MOE.
\5\ DWLOC: DWLOC ppb = PoDwater (ppb; from Table 4.8.4)/MOEwater.

    Determination of Steady State DWLOC. The steady state aggregate 
assessment includes dietary exposures from food and drinking water and 
dermal exposures from residential uses (dermal exposures represent the 
highest residential exposures). The steady state DWLOCs were calculated 
for infants, children, youths, and adults and are presented in Table 6. 
The lowest steady state DWLOC calculated was for infants (<1 year old) 
at 3.9 ppb. Exposures to chlorpyrifos oxon in drinking water at levels 
that exceed the steady state DWLOC of 3.9 ppb are therefore a risk 
concern and are considered unsafe for purposes of FFDCA section 408(b).

                            Table 6--Steady State Aggregate (Food, Drinking Water, Residential) Calculation of DWLOCs \1\ \2\
--------------------------------------------------------------------------------------------------------------------------------------------------------
                                           Food exposure (chlorpyrifos)   Dermal exposure (chlorpyrifos)      Drinking water exposure      Steady state
                                                        \3\                             \4\                   (chlorpyrifos oxon) \5\     DWLOC \6\ (ppb
               Population                ------------------------------------------------------------------------------------------------  chlorpyrifos
                                                MOE             ARI             MOE             ARI             MOE             ARI            oxon)
--------------------------------------------------------------------------------------------------------------------------------------------------------
Infants \1\ (<1 yr).....................             550              14              NA              NA              55             1.1             3.9
Children \1\ (1-2 yrs)..................             410              10              NA              NA              55             1.1              10
Youths \1\ (6-12 yrs)...................             700              18            1800              45              55             1.1              16
Adults \2\ (Females 13-49 yrs)..........            1000              NA            1200              NA             120              NA             7.8
--------------------------------------------------------------------------------------------------------------------------------------------------------
\1\ DWLOCs for infants, children and youths are calculated using the ARI (Aggregate Risk Index) approach since target MOEs are different for drinking
  water (chlorpyrifos oxon target MOE = 50) and for food and residential (chlorpyrifos target MOE = 40) exposure.
\2\ DWLOCs for adults (females 13-49 years) are calculated using the reciprocal MOE approach since the target MOEs are the same for drinking water
  (chlorpyrifos oxon target MOE = 100) and for food and residential (chlorpyrifos target MOE = 100) exposure.
\3\ FOOD: MOEfood = PoDfood (ug/kg/day) (from Table 4.8.4)/Food Exposure (ug/kg/day) (from Table 5.4.4). ARIfood = ((MOEfood)/(MOEtarget)).
\4\ DERMAL: MOEdermal = PoDdermal (ug/kg/day) (from Table 4.8.4)/Dermal Exposure (ug/kg/day) (from Table 6.2). ARIdermal = ((MOE dermal)/(MOEtarget)).
\5\ WATER (ARI approach): ARIwater = 1/((1/ARIagg)-((1/ARIfood) + (1/ARIdermal))); Where ARIagg = 1 (Note: EPA is generally concerned when calculated
  ARIs are less than 1). MOEwater = ARIwater x MOEtarget. WATER (Reciprocal MOE approach): MOEwater = 1/((1/MOEagg)-((1/MOEfood) + (1/MOEdermal)));
  Where MOEagg = Target MOE.
\6\ DWLOC: DWLOC ppb = PoDwater (ppb; from Table 4.8.4)/MOEwater.

    vi. Estimating aggregate risk--comparing DWLOCs to estimated 
drinking water concentrations. In a DWLOC aggregate risk assessment, 
the calculated DWLOC is compared to the EDWC. When the EDWC is less 
than the DWLOC, there are no risk concerns for exposures to the 
pesticide in drinking water. Conversely, when the EDWC is greater than 
the DWLOC, there may be a risk concern. For chlorpyrifos, DWLOCs were 
calculated for both the acute and steady state aggregate assessments 
for infants, children, youths and adult females. However, for the 
national screening level drinking water assessment, only the steady 
state DWLOCs were compared to the modeled EDWCs (based on a national 
screen). The calculated steady state DWLOCs are much lower than those 
for the acute. For example, for infants, the lowest acute DWLOC is 24 
ppb while the lowest steady state DWLOC is 3.9 ppb (Tables 5 and 6). 
Since the lowest DWLOC calculated for any duration or population was 
the 3.9 ppb steady state exposure value (infants), it is the 
concentration used for comparison to EPA's modeled EDWCs. Drinking 
water concentrations of chlorpyrifos oxon above 3.9 ppb may therefore 
be unsafe. Were EPA to conduct further analyses that compared all acute 
exposures to EDWC, it is possible that for some limited numbers of use 
scenarios, the EDWC could result in an exceedance of the acute DWLOC, 
but not the steady state DWLOC. However, because EPA is proposing to 
revoke all tolerances based on the steady state DWLOC, it is 
unnecessary to address that issue at this time.
    EDWCs in Groundwater and Surface Water. EPA conducted a national 
screening level drinking water assessment for both groundwater and 
surface water, with focus on the agricultural uses. For both 
assessments, EPA calculated EDWCs for chlorpyrifos and chlorpyrifos 
oxon. Chlorpyrifos

[[Page 69102]]

EDWCs were multiplied by 0.9541 (molecular weight correction factor) 
and 100% (maximum conversion during water purification) to generate 
chlorpyrifos oxon EDWCs. EPA used a 100% conversion factor for the 
oxidation of chlorpyrifos to chlorpyrifos oxon as an approximation 
based on empirical bench scale laboratory data that indicate 
chlorpyrifos rapidly oxidizes to form chlorpyrifos oxon almost 
completely during typical water treatment (chlorination). (Ref. 77). 
There are limited data available on the removal efficiency of 
chlorpyrifos prior to oxidation or the removal efficiency of 
chlorpyrifos oxon during the drinking water treatment process. Based on 
community water systems survey showing that more than 75 percent of 
community water systems use chlorination to disinfect drinking water in 
the United States (Ref. 78), the assumption of exposure to chlorpyrifos 
oxon equivalent to 100% conversion of chlorpyrifos is not considered 
overly conservative. It is possible that some drinking water treatment 
procedures, such as granular activated carbon filtration and water 
softening (increased rate of chlorpyrifos oxon hydrolysis at pH > 9) 
could reduce the amount of chlorpyrifos oxon in finished drinking 
water; however, these treatment methods are not typical practices 
across the country for surface water.
    While there is the potential to have both chlorpyrifos and 
chlorpyrifos oxon present in finished drinking water, no information is 
available to readily quantify how much of each form remains in the 
finished water. In the absence of available information, EPA 
conservatively assumes that 100% of chlorpyrifos that enters a drinking 
water treatment facility exists after treatment and that during 
treatment 100% of it converts to chlorpyrifos oxon.
    Although chlorpyrifos oxon has a hydrolysis half-life of 5 days, 
the drinking water treatment simulation half-life for chlorpyrifos oxon 
is approximately 12 days. (Refs. 79, 80, and 81). Hydrolysis of 
chlorpyrifos oxon under simulated drinking water treatment processes is 
slower when compared to hydrolysis of chlorpyrifos oxon in water only; 
thus, the use of a half-life of 12 days under simulation. Therefore, 
once chlorpyrifos oxon forms during treatment, little transformation is 
expected to occur before consumption (during drinking water 
distribution). There are a wide range of treatment processes and 
sequences of treatment processes employed at community water systems 
across the country and there are limited data available on a community-
water-system-specific basis to assess the removal or transformation of 
chlorpyrifos during treatment. These processes are not specifically 
designed to remove pesticides and pesticide transformation products 
including chlorpyrifos and chlorpyrifos oxon. In general, drinking 
water treatment processes, with the exception of activated carbon (Ref. 
82), have been shown to have little impact on removal of conventional 
pesticides.
    To illustrate the range of EDWC, two maximum label rate application 
scenarios were selected to represent high and low end exposures, i.e., 
tart cherries at 5 applications totaling 14.5 pounds per acre per year, 
and bulb onions at a single application of one pound per acre per year, 
respectively. To estimate groundwater EDWCs for chlorpyrifos and 
chlorpyrifos oxon, EPA conducted a conservative Tier I assessment using 
SCI-GROW (Screening Concentration in Groundwater, version 2.3, August 
8, 2003) and PRZM-Groundwater (PRZM-GW version 1.0, December 11, 2012), 
using the GW-GUI (Graphical User Interface, version 1.0, December 11, 
2012). (Ref. 83). For this assessment, EPA used the results from the 
model (either SCI-GROW or PRZM-GW) that provided the highest EDWCs. 
Despite the conservative assumptions used in the Tier I models, as 
presented below in Table 7 estimated groundwater EDWCs are well below 
the DWLOCs and therefore do not represent a risk concern.
    To calculate the national screening level surface water EDWCs for 
chlorpyrifos and chlorpyrifos oxon, EPA used the Tier II Surface Water 
Concentration Calculator (SWCC) version 1.106. The SWCC uses PRZM 
version 5.0+ (PRZM5) and the Variable Volume Water Body Model (VVWM). 
PRZM is used to simulate pesticide transport as a result of runoff and 
erosion from an agricultural field. VVWM estimates environmental fate 
and transport of pesticides in surface water. For the national screen, 
upper and lower bound exposure scenarios for surface water were modeled 
using the highest application rate (tart cherries), and the lowest 
application rate (bulb onions). This analysis showed that even with 
only one application, several chlorpyrifos uses may exceed the DWLOC at 
rates lower than maximum labeled rates (both single as well as yearly), 
including an application rate of one pound per acre per year. The 
analysis also showed that the DWLOC exceedances are not expected to be 
uniformly distributed across the country. The application of 
chlorpyrifos to tart cherries in Michigan resulted in concentrations 
that exceeded the drinking water level of concern (DWLOC); whereas, 
chlorpyrifos applications to bulb onions in Georgia resulted in 
concentrations below the DWLOC. To investigate with more specificity 
whether other chlorpyrifos application scenarios may result in 
concentrations that exceed the DWLOC, a screen (A risk assessment 
screen is a procedure designed to quickly separate out pesticides uses 
patterns that meet the safety standard from those that may not meet the 
safety standard) of all available surface water modeling scenarios was 
completed considering three different application dates and a single 
application at several different application rates that ranged from one 
to six pounds.
    EPA also conducted a refined, but limited analysis of the spatial 
distribution of EDWCs at a regional level and at the drinking water 
intake level. This exercise demonstrated that chlorpyrifos applications 
will result in variable drinking water exposures that are highly 
localized, with concentrations of concern generally occurring in small 
watersheds where there is a high percent cropped area where 
chlorpyrifos use is expected.
    Finally, EDWCs were also compared to monitoring data. This analysis 
showed that when modeling scenarios are parameterized to reflect 
reported use and EDWCs are adjusted to reflect percent cropped area, 
the EDWCs are within a range of 10x of the measured concentrations 
reported in the monitoring data. In addition, evaluation of the 
monitoring data further illustrates that exposures are highly 
localized. EPA is currently conducting a broader refined assessment 
that examines EDWCs on a regional and/or watershed scale to pin-point 
community drinking water systems where exposure to chlorpyrifos oxon as 
a result of chlorpyrifos applications may pose an exposure concern. As 
a result of the PANNA decision ordering EPA to respond to the PANNA-
NRDC Petition by October 31, 2015, EPA has not been able to complete 
that assessment in advance of this proposed rule. EPA is continuing 
that assessment and will update this action with the results of that 
assessment, as warranted.
    Estimated Aggregate Risk--National Drinking Water Screen Results. 
To determine whether the EDWC exceeds the steady state DWLOC of 3.9 
ppb, as noted above, EPA initially conducted a bounding estimate of 
exposure using a screening level national assessment approach. The 
results of that exercise are reported in Table 7 for Tier I groundwater 
and Tier II surface water model simulations.

[[Page 69103]]



                                 Table 7--Estimated Drinking Water Concentrations Resulting From the Use of Chlorpyrifos
--------------------------------------------------------------------------------------------------------------------------------------------------------
                                                                                         Surface water                                    Groundwater
                                                         -----------------------------------------------------------------------------------------------
                         Residue                                                                    1-in-10 Year      30 Year annual
                                                           1-in-10 Year peak    21-Day average     annual average        average        SCI-GROW Tier I
                                                           concentration ppb  concentration ppb  concentration ppb  concentration ppb  concentration ppb
--------------------------------------------------------------------------------------------------------------------------------------------------------
                                                                 Michigan Tart Cherries
--------------------------------------------------------------------------------------------------------------------------------------------------------
Chlorpyrifos............................................               129                 83.8               39.2               29.7               0.16
Chlorpyrifos-oxon.......................................               123                 80.0               37.4               28.3               0.15
--------------------------------------------------------------------------------------------------------------------------------------------------------
                                                                      Georgia Onion
--------------------------------------------------------------------------------------------------------------------------------------------------------
Chlorpyrifos............................................                 6.2                3.1                1.2                0.8               0.01
Chlorpyrifos-oxon.......................................                 5.9                3.0                1.1                0.8               0.01
--------------------------------------------------------------------------------------------------------------------------------------------------------
SCI-GROW resulted in higher EDWCs than PRZM-GW simulations.

    As Table 7 makes clear, the surface water EDWCs for the high 
application rate Michigan tart cherry scenario significantly exceed the 
steady state DWLOC of 3.9 ppb for chlorpyrifos oxon, while the low 
application rate Georgia bulb onion scenario results in EDWC below the 
DWLOC. Given that the results of the initial bounding estimate showed 
these mixed results, EPA conducted a further evaluation of additional 
use scenarios to determine which chlorpyrifos uses do and do not exceed 
the DWLOC, based on a single application of chlorpyrifos per year at 1 
and 4 pounds (where permitted by labeling) of chlorpyrifos per acre. 
The results for 1 and 4 pounds per acre are reported here as a 
representation of what EPA believes to be the range of likely 
chlorpyrifos applications, bearing in mind that chlorpyrifos can be 
applied at lower and higher single rates (e.g., an application rate of 
6 pounds per acre on citrus). This analysis showed that the current 
maximum application rate scenarios, as well as maximum single 
application rates for a wide range of chlorpyrifos use scenarios, may 
result in a 21-day average concentration that exceeds the DWLOC. Table 
8 represents the use scenarios that resulted in exceedances of the 
DWLOC from a single application to the crop and it shows the estimated 
percentage of 21-day intervals over a 30-year period for which the 
average concentration is expected to exceed the DWLOC.

  Table 8--National Screening Results Using DWLOC Approach--Scenario Representation and Labeled Rate Comparison
                                     for Example Uses That Exceed the DWLOC
----------------------------------------------------------------------------------------------------------------
                                                                       21-Day
                                          Highest 21-day average     exceedance    Represented use site examples
               Scenario                     concentration ppb           count        (maximum single application
                                            (application date)    ----------------             rate)
                                                                     Percent \a\
----------------------------------------------------------------------------------------------------------------
                                                   1 lb a.i./A
----------------------------------------------------------------------------------------------------------------
MScornSTD.............................  16.5 at 1.0 lb a.i./A....              21  Corn [2 lb a.i./A (aerial and
TXcornOP..............................  13.9 at 1.0 lb a.i./A....              13   ground)].
                                                                                   Soybean [1 lb a.i./A
                                                                                    (aerial); 2.2 (ground)].
ILcornSTD.............................  14.6 at 1.0 lb a.i./A....              16
MScotton..............................  19.8 at 1.0 lb a.i./A \e\              16  Cotton [1 lb a.i./A (foliar
NCcotton..............................  14.4 at 1.0 lb a.i./A....              25   aerial and ground); seed
                                                                                    treatment permitted at 2.2
                                                                                    lb a.i./A].
TXcotton..............................  15.1 at 1.0 lb a.i./A....               8
NYgrape...............................  15.7 at 1.0 lb a.i./A....              27  Grape [2.25 lab a.i./A
                                                                                    (ground)].
TXsorghumOP...........................  25.8 at 1.0 lb a.i./A....              12  Wheat [1 lb a.i./A (aerial
                                                                                    and ground)].
                                                                                   Sunflower [2 lb a.i./A
                                                                                    (aerial and ground)].
TXwheatOP.............................  21.0 at 1.0 lb a.i./A....               6  Other Grains:
                                                                                   Sorghum [3.3 lb a.i./A
                                                                                    (granular) \b\].
                                                                                   Alfalfa [1 lb a.i./A (aerial
                                                                                    and ground)].
PAVegetableNMC........................  21.1 at 1.0 lb a.i./A....              18  Vegetables and Ground Fruit:
                                                                                   Strawberry [2 lb a.i./A
                                                                                    (aerial and ground)].
                                                                                   Radish [3 lb a.i./A (ground)
                                                                                    \d\].
                                                                                   Pepper [1 lb a.i./A (ground)]
                                                                                    Onion [1 lb a.i./A
                                                                                    (ground)].
CAlettuce.............................  12.8 at 1.0 lb a.i./A....               8
MEpotato..............................  10.7 at 1.0 lb a.i./A....              17  Other Row Crops:
NCsweetpotatoSTD......................  13.5at 1.0 lb a.i./A.....               9  Tobacco [2 lb a.i./A (aerial
                                                                                    and ground)].
                                                                                   Sugarbeets [2 lb a.i./A
                                                                                    (granular) \b\].
                                                                                   Peanuts [4 lb a.i./A
                                                                                    (granular) \c\] Sweet Potato
                                                                                    [2 lb a.i./A (aerial and
                                                                                    ground)].
----------------------------------------------------------------------------------------------------------------
                                                   2 lb a.i./A
----------------------------------------------------------------------------------------------------------------
MIcherriesSTD.........................  19.6 at 2.0 lb a.i./A....              42  Orchards and Vineyards (Tree
GApecansSTD...........................  20.7 at 2.0 lb a.i./A....              12   fruit and Nuts):
                                                                                   Fruit and Nuts [4 lb a.i./A
                                                                                    (ground)].
                                                                                   Pecans [2 lb a.i./A (air);
                                                                                    4.3 (ground)].

[[Page 69104]]

 
PAapples..............................  29.1 at 2.0 lb a.i./A....              11  Apple [2 lb a.i./A (air and
                                                                                    ground)].
                                                                                   Peach [2 lb a.i./A (air); 3
                                                                                    (ground)].
NCPeanutSTD...........................  21.0 at 2.0 lb a.i./A....              21  Peanut:
                                                                                   2.0 lb a.i./A (aerial and
                                                                                    ground)
                                                                                   4 lb a.i./A (granular
                                                                                    ground).
FLCitrusSTD...........................  10.1 at 2.0 lb a.i./A....               6  Citrus:
                                                                                   6.0 lb a.i./A [ground
                                                                                    including airblast].
                                                                                   2.3 lb a.i./A (aerial).
----------------------------------------------------------------------------------------------------------------
\a\ The highest percent of 21-day time periods where the average concentration exceeds the DWLOC. There are
  approximately 10,000 21-day time periods per 30 year simulation; however, it should be noted that not all
  scenarios contain exactly 30 years of weather data.
\b\ (1.0 (air and ground)).
\c\ (2.0 (air and ground)).
\d\ Incorporated or in furrow otherwise (1.0 (air and ground)).
\e\ A preplant seed treatment is permitted at 2.2 lb a.i./A and assumes 100% of the applied material washes off
  the seed coat in the field and is available for transport.

    In summary, EPA's analysis shows that the current maximum single 
application rates for a wide range of chlorpyrifos use scenarios result 
in a 21-day average concentration that exceeds the DWLOC. And the 
analysis makes clear that exceedances may occur with considerable 
frequency.
    Regional Screen. Although Table 8 makes clear that numerous labeled 
chlorpyrifos uses result in exceedances of the DWLOC on a national 
basis, EPA analysis indicates that exposure is likely to be highly 
localized. While it is currently challenging to assess exposure on a 
local scale due to the unavailability of data and wide range of 
characteristics (e.g., environmental characteristics such as soil, 
weather, etc. or other variables such as drinking water treatment 
processes) that affect the vulnerability of a given community drinking 
water system to chlorpyrifos oxon contamination, EPA developed a method 
to examine the potential geospatial concentration differences for two 
Hydrological Unit Code (HUC) 2 Regions--HUC 2 Region 17: Pacific 
Northwest and HUC 2 Region 3: South Atlantic-Gulf, in order to identify 
use patterns that may result in EDWCs that exceed the DWLOC on a 
regional basis. (Ref. 84). This analysis considered all potential 
chlorpyrifos use sites within the HUC 2 regions based on the National 
Agricultural Statistics Service cropland data layers and survey data. 
For HUC 2 Region 17, only four chlorpyrifos use patterns were 
identified as a potential concern based on maximum single application 
rates of 1 and 4 pounds per acre. However, for HUC 2 Region 3, several 
chlorpyrifos use scenarios were identified that could exceed the DWLOC, 
based on the use of available scenarios.
    Watershed Screen. The uses that exceeded the DWLOC from the 
regional screening exercise for HUC 2 Region 3 were further explored by 
utilizing the DWI watershed database. This analysis shows an overlap of 
potential chlorpyrifos use sites that may result in an exceedance of 
the DWLOC with watersheds that supply source water for community 
drinking water systems. In addition, this analysis shows that exposure 
is not uniform within a HUC 2 Region and that some watersheds are more 
vulnerable than others. Watershed vulnerability is expected to be 
greatest for smaller watersheds with high percent cropped areas. 
Smaller community water systems are generally more vulnerable due to 
short distribution times and the reliance of chlorination to treat 
source surface water as well as limited access to other treatment 
methods such as granular activated carbon.
    As noted above, on August 10, 2015, the PANNA decision ordered EPA 
to issue either a proposed or final revocation rule or a full and final 
response to PANNA-NRDC administrative Petition by October 31, 2015. As 
a result of that order, EPA is issuing this proposed revocation in 
advance of completing its refined drinking water assessment. As a 
result, EPA may update this action with a new or modified drinking 
water analyses as EPA completes additional work after this proposal.
    Monitoring Data Analysis. In EPA's PHHRA in 2011, the agency 
evaluated water monitoring data from the USGS National Water Quality 
Assessment Program (NAWQA), USEPA/USGS Pilot Reservoir Monitoring 
Program, USDA PDP, and California Department of Pesticide Regulation 
(CDPR). The monitoring data showed chlorpyrifos detections at low 
concentrations, generally not exceeding 0.5 [micro]g/L. For example, 
USGS NAWQA, which contains an extensive monitoring dataset for 
chlorpyrifos and chlorpyrifos oxon, reports a peak chlorpyrifos 
detection of 0.57 [micro]g/L in surface water with a detection 
frequency of approximately 15%. CDPR has detected chlorpyrifos 
concentrations greater than 1 [micro]g/L in surface water on several 
occasions, with an observed peak chlorpyrifos concentration of 3.96 
[micro]g/L. Sampling frequencies in these monitoring programs were 
sporadic, however, and generally range from only once per year to twice 
per month.
    Since the preliminary assessment, EPA has evaluated additional 
water monitoring data from Washington State Department of Ecology and 
Agriculture (WSDE/WSDA) Cooperative Surface Water Monitoring Program 
(Refs. 85 and 86), Dow AgroSciences (Ref. 87), and Oregon Department of 
Environmental Quality. The previously referenced data have also been 
re-examined to consider short-term exposure (i.e., 21-day average 
concentrations) considering the importance of the single day exposure 
and the temporal relationship of exposure. A summary of all surface 
water monitoring data examined to date for chlorpyrifos are presented 
in Table 9. Some of the monitoring programs analyzed for chlorpyrifos 
oxon; however, the number of detections as well as the concentrations 
were generally much lower. Since the majority of the conversion of 
chlorpyrifos to chlorpyrifos oxon is

[[Page 69105]]

assumed to occur during drinking water treatment, and not in the 
environment, the monitoring data presented in Table 9 are limited to 
chlorpyrifos and not its oxon.

                         Table 9--Surface Water Monitoring Data Summary for Chlorpyrifos
----------------------------------------------------------------------------------------------------------------
                                                       Years of sampling                            Maximum
         Monitoring data                 Scale            (number of           Detection         concentration
                                                           samples)          frequency (%)       ([micro]g/L)
----------------------------------------------------------------------------------------------------------------
USGS NAWQA......................  National..........  1991-2012 (30,542)                15                 0.57
California Department of          State.............  1991-2012 (13,121)                20                 3.96
 Pesticide Regulation.
Washington State Department of    State.............  2003-2013 (4,091).                 8.4               0.4
 Ecology and Agriculture
 Cooperative Surface Water
 Monitoring Program.
USDA Pesticide Data Program.....  National..........  2004-2009 (raw                     0                na
                                                       water; 1,178).
                                                      2001-2009
                                                       (finished water;
                                                       2,918).
USGS-EPA Pilot Drinking Water     National..........  1999-2000 (323)...                 5.3               0.034
 Reservoir.
Oregon Department of              Watershed.........  2005-2011 (363)...                13                 2.4
 Environmental Quality.           (Clackamas).......
MRID 44711601 (Ref. 87).........  Watershed.........  1996-1997 (1,089).                61                 2.22
                                  (Orestimba Creek).
----------------------------------------------------------------------------------------------------------------

    In general, the monitoring data include sampling sites that 
represent a wide range of aquatic environments including small and 
large water bodies, rivers, reservoirs, and urban and agricultural 
locations, but are limited for some areas of the United States where 
chlorpyrifos use occurs. Also, the sampling sites, as well as the 
number of samples, vary by year. In addition, the vulnerability of the 
sampling site to chlorpyrifos contamination varies substantially due to 
use, soil characteristics, weather and agronomic practices. While 
almost all samples in the monitoring results are below EPA's lowest 
DWLOC (infant steady state exposures) of 3.9 ppb, none of the 
monitoring programs examined to date were specifically designed to 
target chlorpyrifos use (except the Registrant Monitoring Program Ref. 
87); therefore, peak concentrations (and likely 21-day average 
concentrations) of chlorpyrifos and chlorpyrifos oxon likely went 
undetected in these programs. See Table 9 for a summary of the 
chlorpyrifos surface water monitoring data.
    As a general matter, sampling frequency needs to be approximately 
equal to the duration of exposure concern. (Ref. 88). The chlorpyrifos 
monitoring data evaluated thus far also show that as sample frequency 
increases, so does the detection frequency. This is evident in the 
registrant-submitted monitoring data, as well as examination of 
individual sampling sites within the various datasets. The highest 
detection frequency noted for chlorpyrifos is for Marion Drain (a 
sample site in Washington), where 103 samples were collected between 
2006 and 2008, with 53 chlorpyrifos detections (51%).
    Therefore, while there is a large number of individual samples 
collected and analyzed for chlorpyrifos (or chlorpyrifos oxon) across 
the United States, it would not be appropriate to combine these data 
sources to generate exposure estimates or to use these datasets to 
represent exposure on a national or even regional basis. Thus, 
comparing the monitoring data results to the DWLOC would not be a 
reasonable approach for the reasons given above, including limited 
sample frequency, limited use information, and sampling site 
variability, on a national or even a regional basis. EPA believes that 
model estimated concentrations provide more suitable upper bound 
concentrations for chlorpyrifos and chlorpyrifos oxon.
    Additionally, model simulations were completed to represent two 
different water monitoring datasets--WSDE/WSDA Cooperative Surface 
Water Monitoring Program (Refs. 85 and 86) and Dow AgroSciences (Ref. 
87) Orestimba Creek. For both of these water monitoring programs, 
enough information was available, including chlorpyrifos use 
information as well as the PCA, to parameterize the model. In these 
simulations, the modeled EDWCs were similar to the measured 
concentrations. This suggests that the modeling results are not overly 
conservative and supports the use of the model to estimate chlorpyrifos 
oxon concentrations in drinking water.
    As noted above, EPA is continuing to work to refine its drinking 
water assessment with the goal of pinpointing regions or watersheds 
where EDWCs may exceed the DWLOC. This effort would include completing 
the regional assessment presented here for all HUC 2 Regions and crop 
uses, as well as considering multiple applications per year. Because of 
the PANNA decision ordering EPA to respond to the PANNA-NRDC Petition 
by October 31, 2015, EPA has not been able to complete this more 
refined drinking water assessment for chlorpyrifos in advance of this 
proposed rule. As a result, this proposal does not provide a basis for 
supporting a more tailored approach to risk mitigation. EPA is 
continuing to conduct its regional and water-intake level assessment 
and may update this action with the results of that assessment when it 
is completed.
    Summary. EPA's examination of chlorpyrifos agricultural use across 
the country indicates that there are multiple uses of chlorpyrifos that 
may result in exposure to chlorpyrifos oxon in finished drinking water 
at levels that exceed the 21-day steady state DWLOC of 3.9 ppb for 
infants and children. EPA therefore believes that infants and children 
in some portions of the country are at some risk from cholinesterase 
inhibition. While there are uncertainties associated with the model 
input parameters for which conservative assumptions were made (e.g., 
one aerobic aquatic metabolism half-life value multiplied by the 
uncertainty factor of three, stable to hydrolysis, 100% of the cropped 
watershed is treated, and use of the Index Reservoir as the receiving 
waterbody), the

[[Page 69106]]

modeling is sufficiently representative of some vulnerable water bodies 
that we cannot make a safety finding based on drinking water exposure. 
Comparison of model estimated concentrations with measured 
concentrations suggests that model estimates are consistent with 
measured concentrations when actual application rates and 
representative SWCC scenarios are considered and a PCA adjustment 
factor is applied to the model estimates. This modeling/monitoring 
comparison suggests that when growers use maximum application rates, or 
even rates much lower than maximum, chlorpyrifos oxon concentrations in 
drinking water could pose an exposure concern for a wide range of 
chlorpyrifos uses. However, these exposures are not expected to be 
uniformly distributed across the country. As noted, additional analyses 
are still being conducted in an effort to determine the community water 
systems where concentrations may be of concern. While that evaluation 
may ultimately lead to a more tailored approach to risk mitigation, at 
this point in time, based on the information before EPA, EPA cannot 
determine that current dietary exposures to chlorpyrifos are safe 
within the meaning of FFDCA section 408(b)(2)(A). Additionally, 
although EPA's current assessment indicates that the tolerances for 
food service and food handling establishments by themselves would not 
present an unsafe risk (since they do not result in drinking water 
exposure), because EPA must aggregate all dietary and non-occupational 
exposures to chlorpyrifos in making a safety finding under the FFDCA, 
EPA cannot find that any current tolerances are safe and is therefore 
proposing to revoke all chlorpyrifos tolerances. As noted, however, EPA 
is soliciting comment on whether it may be possible to retain some 
group of tolerances.
    vii. Cumulative exposure/risk characterization. Section 
408(b)(2)(D)(v) of the FFDCA provides that when determining the safety 
of a pesticide chemical, EPA shall base its assessment of the risk 
posed by the chemical on, among other things, available information 
concerning the cumulative effects to human health that may result from 
the pesticide's residues when considered together with other substances 
that have a common mechanism of toxicity. Chlorpyrifos is a member of 
the OP class of pesticides, which share AChE inhibition as a common 
mechanism of toxicity. The agency completed a cumulative risk 
assessment for OPs in connection with FIFRA reregistration and FFDCA 
tolerance reassessment (Ref. 10) which can be found on EPA's Web site 
<a href="http://www.epa.gov/pesticides/cumulative/rraop/">http://www.epa.gov/pesticides/cumulative/rraop/</a>. To the extent that 
chlorpyrifos tolerances and uses remain following this action, prior to 
the completion of the FIFRA registration review for chlorpyrifos and 
the OP class, OPP will update the OP cumulative assessment to ensure 
that cumulative dietary exposures to the OPs are safe.

C. When do these actions become effective?

    EPA is proposing that the revocation of the chlorpyrifos tolerances 
for all commodities become effective 180 days after a final rule is 
published. The agency believes this revocation date will allow users to 
exhaust stocks and allow sufficient time for passage of treated 
commodities through the channels of trade. However, if EPA is presented 
with information that unused stocks would still be available and that 
information is verified, the agency will consider extending the 
expiration date of associated tolerances. If you have comments 
regarding stocks of remaining chlorpyrifos products and whether the 
effective date allows sufficient time for treated commodities to clear 
the channels of trade, please submit comments as described under 
SUPPLEMENTARY INFORMATION.
    Any commodities listed in this proposal treated with the pesticides 
subject to this proposal, and in the channels of trade following the 
tolerance revocations, shall be subject to FFDCA section 408(1)(5), as 
established by FQPA. That section provides that, any residues of the 
subject pesticide in or on such food shall not render the food 
adulterated so long as it is shown to the satisfaction of the Food and 
Drug Administration that:
    1. The residue is present as the result of an application or use of 
the pesticide at a time and in a manner that was lawful under FIFRA, 
and
    2. The residue does not exceed the level that was authorized at the 
time of the application or use to be present on the food under a 
tolerance or exemption from tolerance. Evidence to show that food was 
lawfully treated may include records that verify the dates when the 
pesticide was applied to such food.

VII. International Residue Limits and Trade Considerations

    The tolerance revocations in this proposal are not discriminatory 
and are designed to ensure that both domestically-produced and imported 
foods meet the food safety standard established by the FFDCA. The same 
food safety standards apply to domestically produced and imported 
foods.
    In making its tolerance decisions, EPA seeks to harmonize U.S. 
tolerances with international standards whenever possible, consistent 
with U.S. food safety standards and agricultural practices. EPA 
considers the international maximum residue limits (MRLs) established 
by the Codex Alimentarius Commission (Codex), as required by FFDCA 
section 408(b)(4). The Codex Alimentarius is a joint United Nations 
Food and Agriculture Organization/World Health Organization food 
standards program, and it is recognized as an international food safety 
standards-setting organization in trade agreements to which the United 
States is a party.
    EPA also ensures that its tolerance decisions are in keeping with 
the World Trade Organization's Sanitary and Phytosanitary Measures 
Agreement. Consistent with that agreement, the effective date EPA is 
proposing for the revocation of chlorpyrifos tolerances in this 
proposed rule ensures that the tolerances will remain in effect for a 
period sufficient to allow a reasonable interval for producers in the 
exporting countries to adapt to the requirements of these modified 
tolerances.

VIII. Statutory and Executive Order Reviews

    In this proposed rule, EPA is proposing to revoke specific 
tolerances established under FFDCA section 408. The Office of 
Management and Budget (OMB) has exempted this type of action (e.g., 
tolerance revocation for which extraordinary circumstances do not 
exist) from review under Executive Order 12866, entitled ``Regulatory 
Planning and Review'' (58 FR 51735, October 4, 1993). Because this 
proposed rule has been exempted from review under Executive Order 
12866, this proposed rule is not subject to Executive Order 13211, 
entitled ``Actions Concerning Regulations That Significantly Affect 
Energy Supply, Distribution, or Use'' (66 FR 28355, May 22, 2001).
    This proposed rule does not contain any information collections 
subject to OMB approval under the Paperwork Reduction Act (PRA) (44 
U.S.C. 3501 et seq.), or impose any enforceable duty or contain any 
unfunded mandate as described under Title II of the Unfunded Mandates 
Reform Act (UMRA) (2 U.S.C. 1501 et seq.). Nor does it require any 
special considerations as required by Executive Order 12898, entitled 
``Federal Actions to Address Environmental Justice in Minority 
Populations and Low-Income

[[Page 69107]]

Populations'' (59 FR 7629, February 16, 1994); or OMB review or any 
other Agency action under Executive Order 13045, entitled ``Protection 
of Children from Environmental Health Risks and Safety Risks'' (62 FR 
19885, April 23, 1997). However, EPA considered the best available 
science in order to protect children against environmental health risks 
and this proposed rule is consistent with EPA's 1995 Policy on 
Evaluating Health Risks to Children (http://www2.epa.gov/sites/
production/files/2014 05/documents/
1995_childrens_health_policy_statement.pdf), reaffirmed in 2013 (http:/
/www2.epa.gov/sites/production/files/2014 05/documents/
reaffirmation_memorandum.pdf).
    This proposed rule does not involve any technical standards that 
would require Agency consideration of voluntary consensus standards 
pursuant to section 12(d) of the National Technology Transfer and 
Advancement Act (NTTAA) (15 U.S.C. 272 note). In addition, the Agency 
has determined that this proposed rule will not have a substantial 
direct effect on States, on the relationship between the national 
government and the States, or on the distribution of power and 
responsibilities among the various levels of government, as specified 
in Executive Order 13132, entitled ``Federalism'' (64 FR 43255, August 
10, 1999). This proposed rule directly regulates growers, food 
processors, food handlers, and food retailers, not States. This 
proposed rule does not alter the relationships or distribution of power 
and responsibilities established by Congress in the preemption 
provisions of FFDCA section 408(n)(4). For these same reasons, the 
Agency has determined that this proposed rule does not have any 
``tribal implications'' as described in Executive Order 13175, entitled 
``Consultation and Coordination with Indian Tribal Governments'' (65 FR 
67249, November 9, 2000).
    I certify that this action will not have a significant economic 
impact on a substantial number of small entities under the Regulatory 
Flexibility Act (RFA), 5 U.S.C. 601 et seq. The small entities subject 
to this proposed action, which directly regulates growers, food 
processors, food handlers, and food retailers, include small businesses 
but not small government jurisdiction or small not-for-profit 
organizations as defined by the RFA.
    For purposes of assessing the impacts of this proposed revocation 
on small businesses, a small business is defined either by the number 
of employees or by the annual dollar amount of sales/revenues. The 
level at which an entity is considered small is determined for each 
NAICS code by the Small Business Administration (SBA). Farms are 
classified under NAICS code 111, Crop Production, and the SBA defines 
small entities as farms with total annual sales of $750,000 or less.
    Based upon the screening analysis completed (Ref. 89), EPA has 
determined that less than 39,000 of the 1.2 million small farms 
nationwide, or approximately 3% of all small farms, may be impacted by 
this proposed revocation. Of these, 38,000 have potential impacts of 
less than 1% of gross farm revenue. The analysis indicates that fewer 
than 1,000 small farms, or 0.1% percent of all small farms, may 
experience impacts greater than 1%, depending on the availability and 
cost of alternatives. Based on this analysis, EPA concludes that 
revoking all tolerances for chlorpyrifos will not have a significant 
economic impact on a substantial number of small entities. Details of 
this analysis are presented in EPA's analyses which can be found in the 
docket (Ref. 89).

IX. References

    EPA has established an official record for this rulemaking. The 
official record includes all information considered by EPA in 
developing this proposed rule including documents specifically 
referenced in this action and listed below, any public comments 
received during an applicable comment period, and any other information 
related to this action, including any information claimed as CBI. This 
official record includes all information physically located in docket 
ID number EPA-HQ-OPP-2015-0653, any documents identified in this 
proposal, and documents referenced in documents in the docket. The 
public version of the official record does not include any information 
claimed as CBI.

1. U.S. EPA (2014). Chlorpyrifos: Revised Human Health Risk 
Assessment for Registration Review. Available in docket number EPA-
HQ-OPP-2008-0850, <a href="http://www.regulations">http://www.regulations</a> gov/#!documentDetail;D=EPA-
HQ-OPP-2008-0850-0195.
2. The Petition from NRDC and PANNA and EPA's various responses to 
it are available in docket number EPA-HQ-OPP-2007-1005 available at 
<a href="https://www.regulations.gov">www.regulations.gov</a>.
3. U.S. EPA (2011). Chlorpyrifos: Preliminary Human Health Risk 
Assessment for Registration Review. Available in docket number EPA-
HQ-OPP-2008-0850, <a href="http://www.regulations">http://www.regulations</a>.gov/#!documentDetail;D=EPA-
HQ-OPP-2008-0850-0025.
4. Information and software related to Dietary Exposure Evaluation 
Model and the Calendex models is available at <a href="http://www.epa.gov/pesticides/science/deem/">http://www.epa.gov/pesticides/science/deem/</a>.
5. For information related to Section 408 of FFDCA see <a href="http://www2.epa.gov/laws-regulations/summary-federal-food-drug-and-cosmetic-act">http://www2.epa.gov/laws-regulations/summary-federal-food-drug-and-cosmetic-act</a>.
6. For information on the EPA's Office of Pesticide Programs risk 
assessment process see <a href="http://www.epa.gov/pesticides/about/overview_risk_assess.htm">http://www.epa.gov/pesticides/about/overview_risk_assess.htm</a>.
7. U.S. EPA (2000). Choosing a Percentile of Acute Dietary Exposure 
as a Threshold of Regulatory Concern. Available at <a href="http://www.epa.gov/oppfead1/trac/science/trac2b054.pdf">http://www.epa.gov/oppfead1/trac/science/trac2b054.pdf</a>.
8. Information on the water exposure models used by EPA's Office of 
Pesticide Programs is available at <a href="http://www.epa.gov/oppefed1/models/water/models4.htm">http://www.epa.gov/oppefed1/models/water/models4.htm</a>.
9. FIFRA Scientific Advisory Panel (2008). ``The Agency's Evaluation 
of the Toxicity Profile of Chlorpyrifos.'' Report from the FIFRA 
Scientific Advisory Panel Meeting of September 16-19, 2008. 
Available: <a href="http://www2.epa.gov/sap/fifra-scientific-advisory-panel-meetings">http://www2.epa.gov/sap/fifra-scientific-advisory-panel-meetings</a>.
10. FIFRA Scientific Advisory Panel (2012). ``Scientific Issues 
Associated with Chlorpyrifos''. Available at: <a href="http://www2.epa.gov/sap/meeting-materials-april-10-12-2012-scientific-advisory-panel">http://www2.epa.gov/sap/meeting-materials-april-10-12-2012-scientific-advisory-panel</a>.
11. FIFRA Scientific Advisory Panel (2002). ``Organophosphate 
Pesticides: Preliminary OP Cumulative Risk Assessment.'' Information 
on how to obtain the meeting report is available at <a href="http://www2.epa.gov/sap/fifra-scientific-advisory-panel-meetings">http://www2.epa.gov/sap/fifra-scientific-advisory-panel-meetings</a>.
12. U.S. EPA (2006). Revised Organophosphorous Pesticide Cumulative 
Risk Assessment. Available at <a href="http://www.epa.gov/pesticides/cumulative/2006-op/index.htm">http://www.epa.gov/pesticides/cumulative/2006-op/index.htm</a>.
13. Chambers, J.E. (2013). In vitro Sensitivity of Cholinesterase to 
Inhibition by Chlorpyrifos-oxon in Several Tissues of the Rat. 
College of Veterinary Medicine, Mississippi State University.
14. Calhoun LL, Johnson KA. (1988) Chlorpyrifos: 4-Day Dermal Probe 
and 21-Day Dermal Toxicity Studies in Fischer 344 Rats. MRID 
40972801.
15. Corley, R.; Landry, T.; Calhoun, L.; et al. (1986) Chlorpyrifos: 
13-Week Nose-only Vapor Inhalation Exposure Study in Fischer 344 
Rats. MRID 40013901.
16. Corley, R.; Landry, T.; Calhoun, L.; et al. (1986) Chlorpyrifos: 
13-Week Nose-only Vapor Inhalation Exposure Study in Fischer 344 
Rats: Supplemental Data: Lab. MRID 40166501.
17. Newton, P. (1988) AThirteen Week Nose-Only Inhalation Toxicity 
Study of Chlorpyrifos Technical (Pyrinex) in the Rat. MRID 40908401.
18. Hotchkiss, J.; Krieger, S.; Brzak, K.; et al. (2010) Acute 
Inhalation Exposure of Adult Crl: CD (SD) Rats to Particulate 
Chlorpyrifos Aerosols: Kinetics of Concentration-Dependent 
Cholinesterase (ChE) Inhibition in Red Blood Cells, Plasma, Brain, 
and Lung. MRID 48139303.

[[Page 69108]]

19. U.S. EPA (2011) Chlorpyrifos: Review of the Comparative 
Cholinesterase (including chlorpyrifos oxon), special acute 
inhalation study and immunotoxicity studies (MRIDs 48139301, 
48139303, 48139304). TXR No. 0055409.
20. Hotchkiss, J.; Krieger, S.; Mahoney, K.; et al. (2013) Nose-only 
Inhalation of Chlorpyrifos Vapor: Limited Toxicokinetics and 
Determination of Time-dependent Effects on Plasma, Red Blood Cell, 
Brain and Lung Cholinesterase Activity in Femal CD(SD): Crl Rats. 
MRID 49119501.
21. Hotchkiss, J.; Krieger, S.; Mahoney, K.; et al. (2013) Nose-Only 
Inhalation of Chlorpyrifos-Oxon Vapor: Limited Toxicokinetics and 
Determination of Time-Dependent Effects on Plasma, Red Blood Cell, 
Brain and Lung Cholinesterase Activity in Female CD(SD): Crl Rats. 
MRID 49210101.
22. U.S. EPA (2002). Revised Organophosphorous Pesticide Cumulative 
Risk Assessment. Available at <a href="http://www.epa.gov/pesticides/cumulative/rra-op/">http://www.epa.gov/pesticides/cumulative/rra-op/</a>.
23. U.S. EPA (2006). Approaches for the Application of 
Physiologically Based Pharmacokinetic (PBPK) Models and Supporting 
Data in Risk Assessment. Available at <a href="http://cfpub.epa.gov/ncea/cfm/recordisplay.cfm?deid=157668">http://cfpub.epa.gov/ncea/cfm/recordisplay.cfm?deid=157668</a>.
24. Timchalk, C., et al., 2002a. Monte Carlo analysis of the human 
chlorpyrifos-oxonase (PON1) polymorphism using a physiologically 
based pharmacokinetic and pharmacodynamic (PBPK/PD) model. 
Toxicology Letters. 135, 51.
25. Timchalk, C., et al., 2002b. A Physiologically based 
pharmacokinetic and pharmacodynamic (PBPK/PD) model for the 
organophosphate insecticide chlorpyrifos in rats and humans. 
Toxicological Sciences. 66, 34-53.
26. U.S EPA FIFRA Scientific Advisory Panel. (2011). ``Chlorpyrifos 
Physiologically Based Pharmacokinetic and Pharmacodynamic (PBPK-PD) 
Modeling linked to Cumulative and Aggregate Risk Evaluation System 
(CARES).'' Report from the FIFRA Scientific Advisory Panel Meeting 
of February 15-18, 2011. Available at <a href="http://www2.epa.gov/sap/fifra-scientific-advisory-panel-meetings">http://www2.epa.gov/sap/fifra-scientific-advisory-panel-meetings</a>.
27. U.S. EPA 2014. Chlorpyrifos: Quality Assurance Assessment of the 
Chlorpyrifos Physiologically Based Pharmacokinetic/Pharmacodynamic 
Model for Human Health Risk Assessment Applications. TXR No. 
0056896. Available at <a href="http://www.regulations">http://www.regulations</a>.gov/
#!documentDetail;D=EPA-HQ-OPP-2008-0850-0843.
28. U.S. EPA. Exposure Factors Handbook 2011 Edition (Final). U.S. 
Environmental Protection Agency, Washington, DC, EPA/600/R-09/052F, 
2011. Available at <a href="http://cfpub.epa.gov/ncea/risk/recordisplay.cfm?deid=236252">http://cfpub.epa.gov/ncea/risk/recordisplay.cfm?deid=236252</a>.
29. NHANES/WWEIA survey and supporting documentation is available at 
<a href="http://www.ars.usda.gov/Services/docs.htm?docid=13793">http://www.ars.usda.gov/Services/docs.htm?docid=13793</a>.
30. US EPA (2012). Standard Operating Procedures for Residential 
Pesticide Exposure Assessment available at <a href="http://www.epa.gov/pesticides/science/USEPA-OPP-HED_Residential%20SOPs_Oct2012.pdf">http://www.epa.gov/pesticides/science/USEPA-OPP-HED_Residential%20SOPs_Oct2012.pdf</a>.
31. Guidance for Applying Quantitative Data to Develop Data-Derived 
Extrapolation Factors for Interspecies and Intraspecies 
Extrapolation Available at <a href="http://www2.epa.gov/osa/guidance-applying-quantitative-data-develop-data-derived-extrapolation-factors-interspecies-and">http://www2.epa.gov/osa/guidance-applying-quantitative-data-develop-data-derived-extrapolation-factors-interspecies-and</a>.
32. Dow AgroSciences (2014), P. Price. Development of Chemical 
Specific Adjustment Factors for Chlorpyrifos and Chlorpyrifos Oxon 
Using Target Red Blood Cell Acetyl Cholinesterase Inhibition Levels 
of 10%, 5%, and 1%. Available at <a href="http://www.regulations">http://www.regulations</a>.gov/
#!documentDetail;D=EPA-HQ-OPP-2008-0850-0218.
33. U.S. EPA (2002). Determination of the Appropriate FQPA Safety 
Factor(s) in Tolerance Assessment. Available at <a href="http://www.epa.gov/oppfead1/trac/science/determ.pdf">http://www.epa.gov/oppfead1/trac/science/determ.pdf</a>).
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(2005). Developmental exposure of rats to chlorpyrifos leads to 
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alterations in adolescent and adult rats caused by a brief subtoxic 
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children from the CHAMACOS study exposed to organophosphate 
pesticides in utero. Environ Health Perspect, 118(12), 1775-1781. 
doi: 10.1289/ehp.1002234.
55. Furlong, Melissa A., Engel, Stephanie M., Boyd Barr, Dana, 
Wolff, Mary S. Prenatal exposure to organophosphate pesticides and 
reciprocal social behavior in childhood. 2014. Environment 
International 70:125-131.
56. Rauh, V., Arunajadai, S., Horton, M., Perera, F., Hoepner, L., 
Barr, D. B., & Whyatt, R. (2011). Seven-year neurodevelopmental 
scores and prenatal exposure to chlorpyrifos, a common agricultural 
pesticide. Environ Health Perspect, 119(8), 1196-1201.
57. Bouchard, M. F., Chevrier, J., Harley, K. G., Kogut, K., Vedar, 
M., Calderon, N., . . . Eskenazi, B. (2011). Prenatal exposure to 
organophosphate pesticides and IQ in 7-year-old children. Environ 
Health Perspect, 119(8), 1189-1195. doi: 10.1289/ehp.1003185.
58. Rauh, V. A., Perera, F. P., Horton, M. K., Whyatt, R. M., 
Bansal, R., Hao, X., . . . Peterson, B. S. (2012). Brain anomalies 
in children exposed prenatally to a common organophosphate 
pesticide. Proc Natl Acad Sci U S A, 109(20), 7871-7876. doi: 
10.1073/pnas.1203396109.
59. The Federal Letter- Review of Chlorpyrifos Epidemiology Studies 
is available at <a href="http://www.regulations">http://www.regulations</a>.gov/#!documentDetail;D=EPA-
HQ-OPP-2008-0850-0170.
60. Billauer-Haimovitch, H., Slotkin, T. A., Dotan, S., Langford, 
R., Pinkas, A., & Yanai, J. (2009). Reversal of chlorpyrifos 
neurobehavioral teratogenicity in mice by nicotine administration 
and neural stem cell transplantation. Behav Brain Res, 205(2), 499-
504.
61. U.S.EPA (1998). Guidelines for Neurotoxicity RiskAssessment. 
Available at <a href="http://archive.epa.gov/raf/web/pdf/neurotox.pdf">http://archive.epa.gov/raf/web/pdf/neurotox.pdf</a>.
62. Ricceri, L., Markina, N., Valanzano, A., Fortuna, S., Cometa, M. 
F., Meneguz, A., et al. (2003). Developmental exposure to 
chlorpyrifos alters reactivity to environmental and social cues in 
adolescent mice. Toxicol Appl Pharmacol, 191(3), 189-201.
63. Venerosi, A., Calamandrei, G., & Ricceri, L. (2006). A social 
recognition test for female mice reveals behavioral effects of 
developmental chlorpyrifos exposure. Neurotoxicol Teratol, 28(4), 
466-471.
64. Venerosi, A., Ricceri, L., Rungi, A., Sanghez, V., & 
Calamandrei, G. (2010). Gestational exposure to the organophosphate 
chlorpyrifos alters social-emotional behaviour and impairs 
responsiveness to the serotonin transporter inhibitor fluvoxamine in 
mice. Psychopharmacology (Berl), 208(1), 99-107.
65. Hoberman, A. (1999) Developmental Neurotoxicity Study of 
Chlorpyrifos Administered Orally via Gavage to Crl: CDBR VAF/Plus 
Presumed Pregnant Rats: Report Supplement 2: Lab Project Number: 
301-001: K-044739-109. Unpublished study prepared by Argus Research 
Laboratories, Inc. (MRID 44787301).
66. Chen X-P, Chen W-Z, Wang F-;S, Liu J-X. (2012) Selective 
cognitive impairments are related to selective hippocampus and 
prefrontal cortex deficits after prenatal chlorpyrifos exposure. 
Brain Res. 1474:19-28.
67. Bouchard MF, Bellinger DC, Wright RO, Weisskopf MG. (2010). 
Attention-deficit/hyperactivity disorder and urinary metabolites of 
organophosphate pesticides.Pediatrics. 2010 Jun;125(6):e1270-7. doi: 
10.1542/peds.2009-3058.
68. Rauh, V. A., Perera, F. P., Horton, M. K., Whyatt, R. M., 
Bansal, R., Hao, X., . . . Peterson, B. S. (2012). Brain anomalies 
in children exposed prenatally to a common organophosphate 
pesticide. Proc Natl Acad Sci U S A, 109(20), 7871-7876.
69. Lovasi, G. S., Quinn, J. W., Rauh, V. A., Perera, F. P., 
Andrews, H. F., Garfinkel, R., . . . Rundle, A. (2011). Chlorpyrifos 
exposure and urban residential environment characteristics as 
determinants of early childhood neurodevelopment. Am J Public 
Health, 101(1), 63-70.
70. U.S. EPA (2014). Chlorpyrifos: Updated Drinking Water Assessment 
for Registration Review. Available in docket number EPA-HQ-OPP-2008-
0850, <a href="http://www.regulations">http://www.regulations</a>.gov/#!documentDetail;D=EPA-HQ-OPP-2008-
0850-0198.
71. U.S. EPA (2002). Aggregate Risk Assessment for 
Trichloropyridinol (TCP) Metabolite of Triclopyr (PC Code 116001), 
Chlorpyrifos (PC Code 059101), and Chlorpyrifos-methyl (PC Code 
059102). Barcode D283101.
72. U.S. EPA (2011). Chlorpyrifos: Revised Acute (Probabilistic) and 
Chronic Dietary Exposure and Risk Assessments for Food only (with 
and without Food Handling Use included) and for Water Only for the 
Registration Review Action--Typical Use Rates/Water Included. 
D388166.
73. U.S. EPA (2014). Usage Report in Support of Chlorpyrifos 
(059101). Available at <a href="https://www.regulations.gov">www.regulations.gov</a> in docket number EPA-HQ-
OPP-2008-0850.
74. U.S. EPA (2014). Chlorpyrifos: Updated Occupational and 
Residential Exposure Assessment for Registration Review. D424484. 
Available at <a href="http://www.regulations">http://www.regulations</a>.gov/#!documentDetail;D=EPA-HQ-
OPP-2008-0850-0196.
75. J.C. Moore, J.C. Dukes, J.R. Clark, J. Malone, C.F. Hallmon, and 
P.G. Hester. Downwind Drift and Deposition of Malathion on Human 
Targets From Ground Ultra-Low Volume Mosquito Sprays; Journal of the 
American Mosquito Control Association; Vol. 9, No. 2 (June, 1993).
76. N.S. Tietze, P.G. Hester, and K.R. Shaffer. Mass Recovery of 
Malathion in Simulated Open Field Mosquito Adulticide Tests: 
Archives of Environmental Contamination and Toxicology; 26: 473-477 
(1994).
77. Duirk, S. E.; Collette, T. W.; Degradation of Chlorpyrifos in 
Aqueous Chlorine Solutions: Pathways, Kinetics, and Modeling. 
Environ. Sci. Technol., 2006, 40(2), 546-550.
78. Community Water System Survey 2006; U.S. Environmental 
Protection Agency, Washington, DC 20460 May 2009 (survey data) 
available at <a href="http://www.epa.gov/oppefed1/models/water/Development_and_Use_of_Community_Water_System.pdf">http://www.epa.gov/oppefed1/models/water/Development_and_Use_of_Community_Water_System.pdf</a>.
79. Tunink, A. Chlorpyrifos-oxon: Determination of hydrolysis as a 
function of pH, 2010. (MRID 48355201)
80. Wu, J.; Laird, D. A. Abiotic Transformation of Chlorpyrifos to 
Chlorpyrifos Oxon in Chlorinated Water. Environ. Toxcol. Chem., 
2003, 22(2), 261-264.
81. Tierney, D. P.; Christensen, B. R.; Culpepper, V. C. Chlorine 
Degradation of Six Organophosphate Insecticides and Four Oxons in 
Drinking Water Matrix. Submitted by Syngenta Crop Protection, Inc. 
2001. (MRID 45513501)
82. Progress Report on Estimating Pesticide Concentrations in 
Drinking Water and Assessing Water Treatment Effects on Pesticide 
Removal and Transformation: A Consultation. FIFRA Scientific 
Advisory Panel Meeting, September 29, 2000. Information on obtaining 
the report is available at <a href="http://www2.epa.gov/sap/fifra-scientific-advisory-panel-meetings">http://www2.epa.gov/sap/fifra-scientific-advisory-panel-meetings</a>.
83. To access EPA's water models go to <a href="http://www.epa.gov/oppefed1/models/water/">http://www.epa.gov/oppefed1/models/water/</a>.
84. Additional information related to HUCs can be found at <a href="http://water.usgs.gov/GIS/huc.html">http://water.usgs.gov/GIS/huc.html</a>.
85. Sargeant, D., Dugger, D., Newell, E., Anderson, P., Cowles, J. 
Surface Water Monitoring Program for Pesticides in Salmonid-Bearing 
Streams 2006-2008 Triennial Report, February 2010 (Washington State 
Department of Ecology and Washington State Department of 
Agriculture) <a href="https://fortress.wa.gov/ecy/publications/summarypages/1003008.html">https://fortress.wa.gov/ecy/publications/summarypages/1003008.html</a>; <a href="http://agr.wa.gov/PestFert/natresources/docs/swm/2008_swm_report.pdf">http://agr.wa.gov/PestFert/natresources/docs/swm/2008_swm_report.pdf</a>.
86. Sargeant, D., Newell, E., Anderson, P., Cook, A. Surface Water 
Monitoring Program for Pesticides in Salmonid-Bearing Streams 2009-
2011 Triennial

[[Page 69110]]

Report, February 2013 (Washington State Department of Ecology and 
Washington State Department of Agriculture) <a href="http://agr.wa.gov/FP/Pubs/docs/377-SWM2009-11Report.pdf">http://agr.wa.gov/FP/Pubs/docs/377-SWM2009-11Report.pdf</a>.
87. Poletika, N.; Robb, C. (1998) A Monitoring Study to Characterize 
Chlorpyrifos Concentration Patterns and Ecological Risk in an 
Agriculturally Dominated Tributary of San Joaquin River: Lab Project 
Number: ENV96055. Unpublished study prepared by Dow AgroSciences and 
Paragon Research. (MRID 44711601).
88. U.S. EPA (2012). FIFRA SAP: Problem Formulation for the 
Reassessment of Ecological Risks from the Use of Atrazine, June 12-
14, 2012, Docket Number: EPA-HQ-OPP-2012-0230 at 
<a href="https://www.regulations.gov">www.regulations.gov</a>.
89. U.S. EPA (2015). Analysis of the Small Business Impacts of 
Revoking Chlorpyrifos Food Tolerances. Available at 
<a href="https://www.regulations.gov">www.regulations.gov</a> in docket number EPA-HQ-OPP-2015-0653.
90. U.S. EPA (2014). Chlorpyrifos Acute and Steady State Dietary 
(Food Only) Exposure Analysis to Support Registration Review. 
Available at <a href="https://www.regulations.gov">www.regulations.gov</a> in docket number EPA-HQ-OPP-2008-
0850.

List of Subjects in 40 CFR Part 180

    Environmental protection, Administrative practice and procedure, 
Agricultural commodities, Pesticides and pests, Reporting and 
recordkeeping requirements.

    Dated: October 28, 2015.
Jack E. Housenger,
Director, Office of Pesticide Programs.

    Therefore, it is proposed that 40 CFR chapter I be amended as 
follows:

PART 180--[AMENDED]

0
1. The authority citation for part 180 continues to read as follows:

    Authority: 21 U.S.C. 321(q), 346a and 371.


Sec.  180.342  [Removed]

0
2. Remove Sec.  180.342.

[FR Doc. 2015-28083 Filed 11-5-15; 8:45 am]
 BILLING CODE 6560-50-P


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                                                                                                          Part IV


                                                                                                          Environmental Protection Agency
                                                                                                          40 CFR Part 180
                                                                                                          Chlorpyrifos; Tolerance Revocations; Proposed Rule
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                                                                                                          No. 215                           November 6, 2015




                                                                                                          Part IV


                                                                                                          Environmental Protection Agency
                                                                                                          40 CFR Part 180
                                                                                                          Chlorpyrifos; Tolerance Revocations; Proposed Rule
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				onerror="this.src='https://thefederalregister.org/doc/80_FR_69294/page/2.png'; this.onerror=null" alt="                                                     69080                  Federal Register / Vol. 80, No. 215 / Friday, November 6, 2015 / Proposed Rules

                                                     ENVIRONMENTAL PROTECTION                                along with more information about                     on the agency&rsquo;s proposal. EPA will issue
                                                     AGENCY                                                  dockets generally, is available at http://            a final rule after considering the
                                                                                                             www.epa.gov/dockets.                                  comments that are submitted.
                                                     40 CFR Part 180                                         FOR FURTHER INFORMATION CONTACT:                      Comments should be limited only to the
                                                                                                             Dana Friedman, Pesticide Re-Evaluation                pesticide and tolerances subject to this
                                                     [EPA&ndash;HQ&ndash;OPP&ndash;2015&ndash;0653; FRL&ndash;9935&ndash;92]
                                                                                                             Division (7508P), Office of Pesticide                 proposal.
                                                     Chlorpyrifos; Tolerance Revocations                     Programs, Environmental Protection                       EPA&rsquo;s finding that it cannot determine
                                                                                                             Agency, 1200 Pennsylvania Ave NW.,                    if aggregate exposure from all existing
                                                     AGENCY:  Environmental Protection                       Washington, DC 20460&ndash;0001; telephone                  uses of chlorpyrifos are safe, does not
                                                     Agency (EPA).                                           number: (703) 347&ndash;8827; email address:                necessarily mean that no individual
                                                     ACTION: Proposed rule.                                  friedman.dana@epa.gov.                                tolerance or group of tolerances could
                                                                                                                                                                   meet the FFDCA 408(b)(2) safety
                                                                                                             SUPPLEMENTARY INFORMATION:
                                                     SUMMARY:    On August 10, 2015, the U.S.                                                                      standard and be maintained. EPA&rsquo;s risk
                                                     Court of Appeals for the Ninth Circuit                  I. General Information                                assessment supporting this proposed
                                                     ordered EPA to respond to an                                                                                  rule indicates that the primary source of
                                                                                                             A. Does this action apply to me?
                                                     administrative Petition to revoke all                                                                         risk comes from chlorpyrifos and
                                                     tolerances for the insecticide                             You may be potentially affected by                 chlorpyrifos oxon in drinking water in
                                                     chlorpyrifos by October 31, 2015, by                    this action if you are an agricultural                highly vulnerable watersheds (generally
                                                     either denying the Petition or issuing a                producer, food manufacturer, or                       small watersheds where the land is
                                                     proposed or final tolerance revocation.                 pesticide manufacturer. The following                 agricultural and could be treated with
                                                     At this time, the agency is unable to                   list of North American Industrial                     chlorpyrifos (i.e., heavily cropped
                                                     conclude that the risk from aggregate                   Classification System (NAICS) codes is                areas)). However, as explained in this
                                                     exposure from the use of chlorpyrifos                   not intended to be exhaustive, but rather             proposed rule, some uses of chlorpyrifos
                                                     meets the safety standard of section                    provides a guide to help readers                      do not by themselves present risks of
                                                     408(b)(2) of the Federal Food, Drug, and                determine whether this document                       concern from either food or drinking
                                                     Cosmetic Act (FFDCA). Accordingly,                      applies to them. Potentially affected                 water and are only a concern when
                                                     EPA is proposing to revoke all                          entities may include:                                 aggregated with all exposures to
                                                     tolerances for chlorpyrifos. EPA is                        &bull; Crop production (NAICS code 111).                chlorpyrifos. EPA therefore invites
                                                     specifically soliciting comment on                         &bull; Animal production (NAICS code                    comments that address whether some
                                                     whether there is an interest in retaining               112).                                                 tolerances or groups of tolerances can be
                                                     any individual tolerances, or group of                     &bull; Food manufacturing (NAICS code                   retained. In that regard, in addition to
                                                     tolerances, and whether information                     311).                                                 information related to the safety of such
                                                     exists to demonstrate that such                            &bull; Pesticide manufacturing (NAICS                   tolerances, use site specific information
                                                     tolerance(s) meet(s) the FFDCA section                  code 32532).                                          pertaining to the pests targeted by
                                                     408(b) safety standard. EPA encourages                  B. What should I consider as I prepare                chlorpyrifos, and the alternatives to
                                                     interested parties to comment on the                    my comments for EPA?                                  chlorpyrifos for these pests, may help to
                                                     tolerance revocations proposed in this                                                                        inform the agency&rsquo;s final decision if
                                                     document and on the proposed time                          1. Submitting CBI. Do not submit this              EPA is able to conclude that some
                                                     frame for tolerance revocation. Issues                  information to EPA through                            tolerances may be retained under the
                                                     not raised during the comment period                    regulations.gov or email. Clearly mark                FFDCA safety standard. In addition, if
                                                     may not be raised as objections to the                  the part or all of the information that               EPA receives information that would
                                                     final rule, or in any other challenge to                you claim to be CBI. For CBI                          allow it to better refine the location of
                                                     the final rule.                                         information in a disk or CD&ndash;ROM that                  at risk watersheds and protect such
                                                                                                             you mail to EPA, mark the outside of the              watersheds through appropriate product
                                                     DATES: Comments must be received on
                                                                                                             disk or CD&ndash;ROM as CBI and then                        labeling restrictions, it is possible EPA
                                                     or before January 5, 2016.                              identify electronically within the disk or            could conclude that such mitigation
                                                     ADDRESSES: Submit your comments,                        CD&ndash;ROM the specific information that                  would eliminate the need for some or all
                                                     identified by docket identification (ID)                is claimed as CBI. In addition to one                 of the proposed tolerance revocations. It
                                                     number EPA&ndash;HQ&ndash;OPP&ndash;2015&ndash;0653 by                          complete version of the comment that                  is important to stress, however, that
                                                     one of the following methods:                           includes information claimed as CBI, a                because the FFDCA is a safety standard,
                                                        &bull; Federal eRulemaking Portal: http://                copy of the comment that does not                     EPA can only retain chlorpyrifos
                                                     www.regulations.gov. Follow the online                  contain the information claimed as CBI                tolerances if it is able to conclude that
                                                     instructions for submitting comments.                   must be submitted for inclusion in the                such tolerances are safe.
                                                     Do not submit electronically any                        public docket. Information so marked                     After consideration of comments, EPA
                                                     information you consider to be                          will not be disclosed except in                       will issue a final regulation determining
                                                     Confidential Business Information (CBI)                 accordance with procedures set forth in               whether revocation of some or all of the
                                                     or other information whose disclosure is                40 CFR part 2.                                        tolerances is appropriate under section
                                                     restricted by statute.                                     2. Tips for preparing your comments.               408(b)(2). Such regulation will be
                                                        &bull; Mail: OPP Docket, Environmental                    When preparing and submitting your                    subject to objections pursuant to section
                                                     Protection Agency Docket Center (EPA/                   comments, see the commenting tips at                  408(g) (21 U.S.C. 346a(g)) and 40 CFR
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                                                     DC), (28221T), 1200 Pennsylvania Ave.                   http://www.epa.gov/dockets/                           part 178.
                                                     NW., Washington, DC 20460&ndash;0001.                         comments.html.                                           In addition to submitting comments
                                                        &bull; Hand Delivery: To make special                                                                           in response to this proposal, you may
                                                     arrangements for hand delivery or                       C. What can I do if I wish the Agency                 also submit an objection at the time of
                                                     delivery of boxed information, please                   to maintain a tolerance that the Agency               the final rule. If you anticipate that you
                                                     follow the instructions at http://www.                  proposes to revoke?                                   may wish to file objections to the final
                                                     epa.gov/dockets/contacts.html.                            This proposed rule provides a                       rule, you must raise those issues in your
                                                        Additional instructions on                           comment period of 60 days for any                     comments on this proposal. EPA
                                                     commenting or visiting the docket,                      interested person to submit comments                  received numerous comments on its


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				onerror="this.src='https://thefederalregister.org/doc/80_FR_69294/page/3.png'; this.onerror=null" alt="                                                                            Federal Register / Vol. 80, No. 215 / Friday, November 6, 2015 / Proposed Rules                                           69081

                                                     December 2014 Revised Human Health                      exceeded for people whose drinking                    petition response. That process requires
                                                     Risk Assessment (RHHRA) (Ref. 1)                        water is derived from certain vulnerable              EPA to re-evaluate existing pesticides
                                                     related to the scientific bases underlying              watersheds throughout the United                      every 15 years to determine whether
                                                     this proposed rule. In light of the U.S                 States. This primarily includes those                 such pesticides meet the FIFRA
                                                     Court of Appeals for the Ninth Circuit&rsquo;s                populations consuming drinking water                  registration standard set forth in FIFRA
                                                     August 10, 2015 order in Pesticide                      from small water systems in heavily                   section 3(c)(5), 7 U.S.C. 136a(c)(5). In
                                                     Action Network North America                            cropped areas where chlorpyrifos may                  part, that standard requires EPA to
                                                     (PANNA) v. EPA, No. 14&ndash;72794                            be used widely.                                       ensure that dietary risks from the
                                                     (PANNA), compelling EPA to take this                                                                          pesticide meet the FFDCA section 408
                                                                                                             B. What is the Agency's authority for
                                                     action by October 31, 2015, EPA has not                                                                       safety standard. Section 408 directs that
                                                                                                             taking this action?
                                                     addressed these prior comments in this                                                                        EPA may establish or leave in effect a
                                                     proposed rule. Persons wishing to have                    EPA is taking this action, pursuant to              tolerance for pesticide only if it finds
                                                     EPA consider previously submitted                       the authority in FFDCA sections                       that the tolerance is safe, and EPA must
                                                     comments on the RHHRA in connection                     408(b)(1)(A), 408(b)(2)(A), and                       revoke or modify tolerances determined
                                                     with this proposal should submit a                      408(d)(4)(A)(ii). 21 U.S.C. 346a(b)(1)(A),            to be unsafe. FFDCA 408(b)(2)(A)(i) (21
                                                     comment indicating that intention and                   (b)(2)(A), (d)(4)(A)(ii).                             U.S.C. 346a(b)(2)(A)(i)). Section
                                                     identifying their earlier comments on                   III. Statutory and Regulatory                         408(b)(2)(A)(ii) defines &lsquo;&lsquo;safe&rsquo;&rsquo; to mean
                                                     the RHHRA. EPA will treat as waived                     Background                                            that &lsquo;&lsquo;there is a reasonable certainty that
                                                     any issue not raised or referenced in                                                                         no harm will result from aggregate
                                                                                                                A &lsquo;&lsquo;tolerance&rsquo;&rsquo; represents the                     exposure to the pesticide chemical
                                                     comments submitted on this proposal.
                                                                                                             maximum level for residues of pesticide               residue, including all anticipated
                                                     Similarly, if you fail to file an objection             chemicals legally allowed in or on raw
                                                     to the final rule within the time period                                                                      dietary exposures and all other
                                                                                                             agricultural commodities and processed                exposures for which there is reliable
                                                     specified, you will have waived the                     foods. Section 408 of FFDCA, 21 U.S.C.
                                                     right to raise any issues resolved in the                                                                     information.&rsquo;&rsquo; This includes exposure
                                                                                                             346a, authorizes the establishment of                 through drinking water and all non-
                                                     final rule. After the specified time,                   tolerances, exemptions from tolerance
                                                     issues resolved in the final rule cannot                                                                      occupational exposures (e.g. in
                                                                                                             requirements, modifications of                        residential settings), but does not
                                                     be raised again in any subsequent                       tolerances, and revocation of tolerances
                                                     proceedings on this rule making.                                                                              include occupational exposures to
                                                                                                             for residues of pesticide chemicals in or             workers (i.e., occupational).
                                                     II. Background                                          on raw agricultural commodities and                      Risks to infants and children are given
                                                                                                             processed foods. Without a tolerance or               special consideration. Specifically,
                                                     A. What action is the Agency taking?                    exemption, food containing pesticide                  pursuant to section 408(b)(2)(C), EPA
                                                        EPA is proposing to revoke all                       residues is considered to be unsafe and               must assess the risk of the pesticide
                                                     tolerances for residues of the insecticide              therefore &lsquo;&lsquo;adulterated&rsquo;&rsquo; under FFDCA                 chemical based on available information
                                                     chlorpyrifos as contained in 40 CFR                     section 402(a), 21 U.S.C. 342(a). Such                concerning the special susceptibility of
                                                     180.342. This includes tolerances for                   food may not be distributed in interstate             infants and children to the pesticide
                                                     residues of chlorpyrifos on specific food               commerce, 21 U.S.C. 331(a). For a food-               chemical residues, including
                                                     commodities (180.342(a)(1)); on all food                use pesticide to be sold and distributed,             neurological differences between infants
                                                     commodities treated in food handling                    the pesticide must not only have                      and children and adults, and effects of
                                                     and food service establishments in                      appropriate tolerances under the                      in utero exposure to pesticide
                                                     accordance with prescribed conditions                   FFDCA, but also must be registered                    chemicals; and available information
                                                     (180.342(a)(2) and(a)(3)); and on specific              under FIFRA, 7 U.S.C. 136a(a); 40 CFR                 concerning the cumulative effects on
                                                     commodities when used under regional                    152.112(g). Food-use pesticides not                   infants and children of such residues
                                                     registrations (180.342(c)).                             registered in the United States must                  and other substances that have a
                                                        The agency is proposing to revoke all                have tolerances in order for                          common mechanism of toxicity.
                                                     of these tolerances because EPA cannot,                 commodities treated with those                           (21 U.S.C. 346a(b)(2)(C)(i)(II) and
                                                     at this time, determine that aggregate                  pesticides to be imported into the                    (III)).
                                                     exposure to residues of chlorpyrifos,                   United States.                                           This provision further directs that &lsquo;&lsquo;in
                                                     including all anticipated dietary                          Section 408(d) of the FFDCA, 21                    the case of threshold effects, . . . an
                                                     exposures and all other non-                            U.S.C. 346a(d), authorizes EPA to                     additional tenfold margin of safety for
                                                     occupational exposures for which there                  revoke tolerances in response to                      the pesticide chemical residue and other
                                                     is reliable information, are safe.                      administrative petitions submitted by                 sources of exposure shall be applied for
                                                        EPA&rsquo;s full risk conclusions supporting               any person. Because EPA is unable to                  infants and children to take into account
                                                     this proposal are set forth in the 2014                 determine at this time that aggregate                 potential pre- and post-natal toxicity
                                                     RHHRA for chlorpyrifos that EPA issued                  exposures to chlorpyrifos are safe, EPA               and completeness of the data with
                                                     for public comment. That document,                      is proposing to revoke these tolerances               respect to exposure and toxicity to
                                                     supporting materials, and the public                    in response to a Petition from PANNA                  infants and children.&rsquo;&rsquo; (21 U.S.C.
                                                     comments on those documents are                         and the Natural Resources Defense                     346a(b)(2)(C)). EPA is permitted to &lsquo;&lsquo;use
                                                     available in the chlorpyrifos registration              Council (NRDC) to revoke all                          a different margin of safety for the
                                                     review docket, EPA&ndash;HQ&ndash;OPP&ndash;2008&ndash;                         chlorpyrifos tolerances (Ref. 2). The                 pesticide chemical residue only if, on
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                                                     0850. While EPA&rsquo;s assessment indicates                  timing of this proposal is the result of              the basis of reliable data, such margin
                                                     that contributions to dietary exposures                 the August 10, 2015 order in the                      will be safe for infants and children.&rsquo;&rsquo;
                                                     to chlorpyrifos from food and                           PANNA decision to respond to that                     (21 U.S.C. 346a(b)(2)(C)). Due to
                                                     residential exposures are safe, when                    petition by October 31, 2015. This                    Congress&rsquo;s focus on both pre- and post-
                                                     those exposures are combined with                       proposal also implements the agency                   natal toxicity, EPA has interpreted this
                                                     estimated exposures from drinking                       findings made during the registration                 additional safety factor as pertaining to
                                                     water, as required by the FFDCA, EPA                    review process required by section 3(g)               risks to infants and children that arise
                                                     has determined that safe levels of                      of FIFRA (7 U.S.C. 136(a)(g)) which EPA               due to pre-natal exposure as well as to
                                                     chlorpyrifos in the diet may be                         is conducting in parallel with its                    exposure during childhood years. For


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				onerror="this.src='https://thefederalregister.org/doc/80_FR_69294/page/4.png'; this.onerror=null" alt="                                                     69082                  Federal Register / Vol. 80, No. 215 / Friday, November 6, 2015 / Proposed Rules

                                                     convenience sake, the legal                             Assessment (PHHRA) (Ref. 3) for                          For chlorpyrifos, the risk of concern is
                                                     requirements regarding the additional                   chlorpyrifos that evaluated exposures                 10% acetylcholinesterase inhibition
                                                     safety margin for infants and children in               from food, drinking water, other non-                 (AChE) in red blood cells (RBC)&mdash;a
                                                     section 408(b)(2)(C) are referred to                    occupational sources, and occupational                precursor for adverse neurological
                                                     throughout this proposed rule as the                    risk (such as risks to farmworkers                    symptoms&mdash;for both acute and steady
                                                     &lsquo;&lsquo;FQPA safety factor for the protection of              applying chlorpyrifos and working in                  state exposure durations. The PBPK&ndash;PD
                                                     infants and children&rsquo;&rsquo; or simply the                    treated fields). At the time of the                   PoD predictions for each human
                                                     &lsquo;&lsquo;FQPA safety factor.&rsquo;&rsquo;                                 PHHRA, EPA had not yet performed an                   lifestage exposure route and pathway
                                                     IV. Chlorpyrifos Background,                            integrated weight of evidence analysis                were modeled separately (e.g., for
                                                     Regulatory History, and Litigation                      on the lines of evidence related to the               residential exposure i.e. dermal,
                                                                                                             potential for neurodevelopmental                      inhalation and incidental oral
                                                        Chlorpyrifos (0,0-diethyl-0-3,5,6-                   effects. The PHHRA indicated that for                 calculations). PoDs are divided by the
                                                     trichloro-2-pyridyl phosphorothioate) is                food alone, the acute and chronic                     total uncertainty factors (which are used
                                                     a broad-spectrum, chlorinated                           dietary risk estimates for all populations            to account for potential differences in
                                                     organophosphate (OP) insecticide that                   assessed were below the level of                      sensitivities within populations or
                                                     has been registered for use in the United               concern. The residue of concern in                    extrapolations from test results in
                                                     States since 1965. Currently registered                 treated drinking water is the                         animals to effects on humans) to derive
                                                     use sites include a large variety of food               chlorpyrifos oxon because chlorpyrifos                a population adjusted dose (PAD). There
                                                     crops (including fruit and nut trees,                   transforms to the more toxic                          are potential risks of concern when the
                                                     many types of fruits and vegetables, and                chlorpyrifos oxon in treated drinking                 estimated dietary exposures exceed
                                                     grain crops), and non-food use settings                 water (e.g. chlorination). For drinking               100% of the PAD. For the food intake
                                                     (e.g., golf course turf, industrial sites,              water alone, EPA had a concern for                    portion of the dietary assessment, the
                                                     greenhouse and nursery production, sod                  infant exposures to the chlorpyrifos                  only potential residue of concern is
                                                     farms, and wood products). Public                       oxon.                                                 chlorpyrifos (the oxon metabolite is not
                                                     health uses include aerial and ground-                                                                        an expected residue on foods). EPA
                                                     based fogger mosquito adulticide                           In December 2014, EPA completed the
                                                                                                             RHHRA for registration review (Ref. 1).               incorporated total uncertainty factors of
                                                     treatments, roach bait products and                                                                           100X for adult females (a 10X FQPA
                                                     individual fire ant mound treatments. In                The RHHRA represents a highly
                                                                                                             sophisticated assessment of hazard and                safety factor and another 10X intra-
                                                     2000, the chlorpyrifos registrants                                                                            species extrapolation factor since the
                                                     reached an agreement with EPA to                        exposure to chlorpyrifos and its oxon.
                                                                                                             The dietary risk assessment in the                    PBPK&ndash;PD model does not include a
                                                     voluntarily cancel all residential use
                                                                                                             RHHRA provides the scientific support                 component that specifically models
                                                     products except those registered for ant
                                                                                                             for this proposed rule. The approach                  pregnant women) and 40X for the other
                                                     and roach baits in child-resistant
                                                                                                             EPA used for the chlorpyrifos dietary                 relevant populations (a 10X FQPA
                                                     packaging and fire ant mound
                                                                                                             assessment and for this proposed rule                 safety factor and another 4X intra-
                                                     treatments.
                                                        In 2006, EPA completed FIFRA                         can be described as follows: EPA                      species data derived extrapolation
                                                     section 4 reregistration and FFDCA                      conducted dietary exposure modeling                   factor) using the PBPK&ndash;PD model to
                                                     tolerance reassessment for chlorpyrifos                 using the Dietary Exposure Evaluation                 account for potential metabolic and
                                                     and the OP class of pesticides. Given                   Model (DEEM) and the Calendex models                  physiological differences between
                                                     ongoing scientific developments in the                  (Ref. 4) to develop a probabilistic                   populations. The chlorpyrifos exposure
                                                     study of the OPs generally, EPA chose                   evaluation of human dietary                           values resulting from dietary modeling
                                                     to prioritize the FIFRA section 3(g)                    consumption. Most of the pesticide food               are then compared to the PAD to
                                                     registration review (the next round of re-              residue values used in those models                   determine the portion of the &lsquo;&lsquo;risk cup&rsquo;&rsquo;
                                                     evaluation following reregistration) of                 were based upon U.S. Department of                    that is taken up by exposures from food.
                                                     chlorpyrifos and the OP class. The                      Agriculture&rsquo;s (USDA) Pesticide Data                   In the case of chlorpyrifos, the RHHRA
                                                     registration review of chlorpyrifos and                 Program (PDP) monitoring data. Percent                concluded that food and non-
                                                     the OPs has presented EPA with                          crop treated and empirical food                       occupational exposures by themselves
                                                     numerous novel scientific issues that                   processing factors were used where                    take up only a small portion of the risk
                                                     have been the subject of multiple FIFRA                 available. EPA then utilized a PBPK&ndash;PD                cup and are therefore not a risk concern
                                                     Scientific Advisory Panel (SAP)                         model to calculate both acute (24 hour)               when considered in isolation.
                                                     meetings since the completion of                        and steady state (21 days (i.e., the                     For the drinking water portion of the
                                                     reregistration that have resulted in                    approximate time to reach steady state                dietary assessment, the chlorpyrifos
                                                     significant developments in the conduct                 for most OPs)) points of departure (PoD)              oxon, which is more toxic than
                                                     of EPA&rsquo;s risk assessments generally,                    dose levels that represent the minimum                chlorpyrifos, is the residue of concern
                                                     and, more specifically, in the study of                 amount of chlorpyrifos that presents a                assumed to occur in drinking water.
                                                     chlorpyrifos&rsquo;s effects. These SAP                       risk concern. (OPs exhibit a                          Based on available information
                                                     meetings included review of new                         phenomenon known as steady state                      regarding the potential effects of certain
                                                     worker and non-occupational exposure                    AChE inhibition. After repeated dosing                water treatments (e.g., chlorination
                                                     methods, experimental toxicology and                    at the same dose level, the degree of                 appears to hasten transformation of
                                                     epidemiology, risk assessment                           inhibition comes into equilibrium with                chlorpyrifos to chlorpyrifos oxon), EPA
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                                                     approaches for semi-volatile pesticides                 the production of new, uninhibited                    believes it is appropriate to assume that
                                                     and the evaluation of a chlorpyrifos-                   enzyme. OP AChE studies of 2&ndash;3 weeks                  all chlorpyrifos in water is converted to
                                                     specific pharmacokinetic-                               generally show the same degree of                     chlorpyrifos oxon upon treatment. The
                                                     pharmacodynamic (PBPK&ndash;PD) model.                        inhibition as those of longer duration                chlorpyrifos oxon total uncertainty
                                                                                                             (i.e., up to 2 years of exposure).                    factors are 100X for adult females (10X
                                                     A. Registration Review                                  Therefore, a steady state assessment                  FQPA safety factor and 10X intra-
                                                       In 2011, in connection with FIFRA                     based on 21 days of exposure may be                   species extrapolation factor to account
                                                     registration review, EPA issued its                     conducted in place of the traditional                 for potential differences between
                                                     Preliminary Human Health Risk                           chronic assessment).                                  populations) and 50X for the other


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				onerror="this.src='https://thefederalregister.org/doc/80_FR_69294/page/5.png'; this.onerror=null" alt="                                                                            Federal Register / Vol. 80, No. 215 / Friday, November 6, 2015 / Proposed Rules                                          69083

                                                     relevant populations (10X FQPA safety                   B. PANNA&plusmn;NRDC Petition and                            additional work after this proposal. For
                                                     factor and 5X intra-species data derived                Associated Litigation                                 any significant new or modified
                                                     extrapolation factor) using the PBPK&ndash;PD                    In September 2007, PANNA and                       analyses, to the extent practicable, EPA
                                                     model to account for potential metabolic                NRDC submitted to EPA a Petition                      intends to provide the public an
                                                     and physiological differences between                   seeking revocation of all chlorpyrifos                opportunity to comment on that work
                                                     populations. See Unit VI.5 for how the                  tolerances and cancellation of all FIFRA              prior to issuing a final rule.
                                                     intra-species factors for chlorpyrifos and              registrations of products containing                  V. EPA&rsquo;s Approach to Dietary Risk
                                                     chlorpyrifos oxon were derived. After                   chlorpyrifos. In connection with both                 Assessment
                                                     considering food and residential                        EPA&rsquo;s response to the Petition and the
                                                                                                                                                                     EPA performs a number of analyses to
                                                     contributions to the risk cup, EPA                      FIFRA registration review of                          determine the risks from aggregate
                                                     determined that drinking water                          chlorpyrifos, EPA has taken most of the               exposure to pesticide residues. A short
                                                     concentrations to chlorpyrifos oxon                     complex and novel science questions                   summary is provided below to aid the
                                                     greater than 3.9 ppb for a 21-day average               raised in the Petition to the SAP for                 reader. For further discussion of the
                                                     would exceed EPA&rsquo;s Drinking Water                       review and EPA has developed                          regulatory requirements of section 408
                                                     Level of Comparison (DWLOC) and                         numerous new methodologies                            of the FFDCA and a complete
                                                     present a risk of concern. EPA&rsquo;s water                  (including approaches to address                      description of the risk assessment
                                                     exposure assessment indicated that                      pesticide drift, volatility, and the                  process, refer to References 5 and 6
                                                     multiple labeled use scenarios for                      integration of experimental toxicology                respectively. To assess the risk of a
                                                     chlorpyrifos exceed the DWLOC and                       and epidemiology) to consider these                   pesticide tolerance, EPA combines
                                                                                                             issues.                                               information on pesticide toxicity with
                                                     therefore present a risk concern. On
                                                                                                                While EPA agreed that these new                    information regarding the route,
                                                     January 14 2015, EPA published a                        methodologies were necessary to
                                                     Federal Register Notice seeking public                                                                        magnitude, and duration of exposure to
                                                                                                             properly evaluate PANNA and NRDC&rsquo;s                    the pesticide. The risk assessment
                                                     comment on the RHHRA.                                   (Petitioners&rsquo;) claims, Petitioners have               process involves four distinct steps: (1)
                                                        EPA&rsquo;s drinking water analysis in the                 been dissatisfied with the pace of EPA&rsquo;s              Identification of the toxicological
                                                     RHHRA also showed that the DWLOC                        response efforts and have sued EPA in                 hazards posed by a pesticide; (2)
                                                     exceedances are not expected to be                      federal court on three separate occasions             determination of the exposure &lsquo;&lsquo;level of
                                                     uniformly distributed across the                        to compel a prompt response to the                    concern&rsquo;&rsquo; for humans; (3) estimation of
                                                     country. As a result, EPA began to                      Petition. Although EPA has to date                    human exposure; and (4)
                                                     conduct further analysis to look at the                 addressed 7 of the 10 claims asserted in              characterization of human risk based on
                                                     spatial distribution of Estimated                       the Petition by either issuing a                      comparison of human exposure to the
                                                     Drinking Water Concentrations (EDWCs)                   preliminary denial or approving label                 level of concern.
                                                     at more refined geographic levels. This                 mitigation to address the claim, on June
                                                                                                             10, 2015, in the PANNA decision, the                  A. Hazard Identification and Selection
                                                     exercise demonstrated that chlorpyrifos                                                                       of Toxicological Endpoint
                                                     applications will result in variable                    U.S. Court of Appeals for the Ninth
                                                     drinking water exposures that are highly                Circuit signaled its intent to order EPA                 Any risk assessment begins with an
                                                                                                             to complete its response to the Petition              evaluation of a chemical&rsquo;s inherent
                                                     localized and that the highest exposures
                                                                                                             and directed EPA to inform the court                  properties, and whether those properties
                                                     generally occur in small watersheds
                                                                                                             how&mdash;and by when&mdash;EPA intended to                       have the potential to cause adverse
                                                     where there is a high percent cropped                   respond. On June 30, 2015, EPA                        effects (i.e., a hazard identification).
                                                     area on which chlorpyrifos use could                    informed the court that, based on the                 EPA then evaluates the hazards to
                                                     occur. Accordingly, following the                       results of its drinking water assessment,             determine the most sensitive and
                                                     development of the RHHRA in                             EPA intended to propose by April 15,                  appropriate adverse effect of concern,
                                                     December 2014, EPA has continued                        2016, the revocation of all chlorpyrifos              based on factors such as the effect&rsquo;s
                                                     working to develop a more refined                       tolerances in the absence of pesticide                relevance to humans and the likely
                                                     assessment to examine EDWCs on a                        label mitigation that ensures that                    routes of exposure.
                                                     regional and/or watershed scale to                      drinking water exposures will be safe.                   Once a pesticide&rsquo;s potential hazards
                                                     pinpoint community drinking water                       EPA proposed this time frame in part to               are identified, EPA determines a
                                                     systems where exposure to chlorpyrifos                  accommodate the completion of a                       toxicological level of concern for
                                                     oxon as a result of chlorpyrifos                        refined drinking water assessment that                evaluating the risk posed by human
                                                     applications may pose an exposure                       might allow EPA to identify high risk                 exposure to the pesticide. In this step of
                                                     concern. At this time this more refined                 areas of the country where additional                 the risk assessment process, EPA
                                                     drinking water assessment that will                     label mitigation could be put in place to             essentially evaluates the levels of
                                                     allow EPA to better identify where at-                  address drinking water concerns. On                   exposure to the pesticide at which
                                                     risk watersheds are located throughout                  August 10, 2015, the court rejected                   effects might occur. An important aspect
                                                     the country is not completed. Thus, we                  EPA&rsquo;s time line and issued a mandamus                 of this determination is assessing the
                                                     are not currently able to determine with                order directing EPA to &lsquo;&lsquo;issue either a               relationship between exposure (dose)
                                                     any great specificity which uses in                     proposed or final revocation rule or a                and response (often referred to as the
                                                     which areas of the country do or do not                 full and final response to the                        dose-response analysis). In evaluating a
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                                                     present a risk concern. EPA intends to                  administrative Petition by October 31,                chemical&rsquo;s dietary risks, EPA uses a
                                                     update this action, as warranted, with                  2015.&rsquo;&rsquo; As a result of this order, EPA is             reference dose (RfD) approach, which
                                                     any significant refinements to its                      issuing this proposed rule in advance of              first involves establishing a PoD&mdash;or the
                                                                                                             completing its refined drinking water                 value from a dose-response curve that is
                                                     drinking water assessment, and intends,
                                                                                                             assessment. In addition, EPA has had                  at the low end of the observable data
                                                     to the extent practicable, to provide the
                                                                                                             insufficient time to address comments                 and that is the toxic dose that serves as
                                                     public an opportunity to comment on                     received on the RHHRA. As a result,                   the starting point in extrapolating a risk
                                                     the refined drinking water assessment                   EPA may update this action with new                   to the human population. In typical risk
                                                     prior to a final rule.                                  or modified analyses as EPA completes                 assessments, PoDs are derived directly


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                                                     from laboratory animal studies, and                     to chlorpyrifos residues by multiple                  those cases, field trial data or tolerance
                                                     then EPA extrapolates to potential                      pathways of exposure. EPA uses                        level residues were assumed.
                                                     effects on humans and human                             available data, together with                            DEEM&ndash;FCID also compares exposure
                                                     populations by applying both inter and                  assumptions designed to be protective                 estimates to appropriate RfD or PAD
                                                     intra-species uncertainty factors.                      of public health, and standard analytical             values to estimate risk. EPA uses these
                                                     Traditionally, EPA has used a 10X factor                methods to produce separate estimates                 models to estimate exposure for the
                                                     to address each of these uncertainties. In              of exposure for a highly exposed                      general U.S. population as well as
                                                     the case of chlorpyrifos and its oxon,                  subgroup of the general population, for               subpopulations based on age, sex,
                                                     however, EPA has used PBPK&ndash;PD                           each potential pathway and route of                   ethnicity, and region. For its
                                                     modeling to estimate PoDs for all age                   exposure. For both acute and steady                   chlorpyrifos assessment, EPA used
                                                     groups using Data-Derived Extrapolation                 state risks, EPA then calculates potential            DEEM&ndash;FCID to calculate risk estimates
                                                     Factors (DDEF) rather than default                      aggregate exposure and risk by using                  based on a probabilistic distribution that
                                                     uncertainty factors to address                          probabilistic techniques to combine                   combines the full range of residue
                                                     intraspecies extrapolation for some                                                                           values for each food with the full range
                                                                                                             distributions of potential exposures in
                                                     groups (Ref. 1). The PBPK&ndash;PD model                                                                            of data on individual consumption
                                                                                                             the population for each route or
                                                     accounts for PK (pharmacokinetic) and                                                                         amounts to create a distribution of
                                                                                                             pathway. (Probabilistic analysis is used
                                                     PD (pharmacodynamic) characteristics                                                                          exposure and risk levels. More
                                                                                                             to predict the frequency with which                   specifically, DEEM&ndash;FCID creates this
                                                     to derive age, duration, and route
                                                                                                             variations of a given event will occur.               distribution by calculating an exposure
                                                     specific PoDs. Specifically, the
                                                                                                             By taking into account the actual                     value for each reported day of
                                                     following characteristics have been
                                                     evaluated: exposure (acute, 21-day                      distribution of possible consumption                  consumption per person (&lsquo;&lsquo;person/day&rsquo;&rsquo;)
                                                     (steady state); routes of exposure                      and pesticide residue values,                         in the food survey, assuming that all
                                                     (dermal, oral, inhalation); body weights                probabilistic analysis for pesticide                  foods potentially bearing the pesticide
                                                     which vary by lifestage; exposure                       exposure assessments &lsquo;&lsquo;provides more                  residue contain such residue at the
                                                     duration (hours per day, days per week);                accurate information on the range and                 chosen value. The exposure amounts for
                                                     and exposure frequency (e.g., eating and                probability of possible exposure and                  the thousands of person/days in the
                                                     drinking events per day). While the                     their associated risk values.&rsquo;&rsquo; (Ref. 7). In          food survey are then collected in a
                                                     current PBPK&ndash;PD model accounts for                      capsule, a probabilistic pesticide                    frequency distribution.
                                                     age-related growth from infancy to                      exposure analysis constructs a                           The probabilistic technique that
                                                     adulthood by using polynomial                           distribution of potential exposures                   DEEM&ndash;FCID uses to combine differing
                                                     equations to describe tissue volumes                    based on data on consumption patterns                 levels of consumption and residues
                                                     and blood flows as a function of age, the               and residue levels and provides a                     involves the following steps:
                                                     model does not include any                              ranking of the probability that each                     (1) identification of any food(s) that
                                                     descriptions on physiological,                          potential exposure will occur. People                 could possibly bear the residue in
                                                     anatomical, and biochemical changes                     consume differing amounts of the same                 question for each person/day in the
                                                     associated with pregnancy. Due to the                   foods, including none at all, and a food              USDA food survey;
                                                     uncertainty in extrapolating the current                will contain differing amounts of a                      (2) calculation of an exposure level for
                                                     model predictions among women who                       pesticide residue, including none at all).            each of the thousands of person/days in
                                                     may be pregnant, the agency is applying                 For dietary analyses, the relevant                    the USDA food survey database, based
                                                     the standard 10X intra-species                          sources of potential exposure to                      on the foods identified in Step #1 by
                                                     extrapolation factor for women of                       chlorpyrifos are from the ingestion of                randomly selecting residue values for
                                                     childbearing age.                                       residues in food and drinking water.                  the foods from the residue database;
                                                        Although the PBPK&ndash;PD model&rsquo;s use                     EPA uses a combination of monitoring                     (3) repetition of Step #2 one thousand
                                                     of data-derived extrapolation factors                   data and predictive models to evaluate                times for each person/day; and
                                                     renders unnecessary the use of                          environmental exposure of humans to                      (4) collection of all of the hundreds of
                                                     traditional inter- and intra- species                   chlorpyrifos.                                         thousands of potential exposures
                                                     uncertainty factors for evaluating most                                                                       estimated in Steps # 2 and 3 in a
                                                                                                               1. Exposure from food. Acute and                    frequency distribution.
                                                     populations, as required by FFDCA
                                                                                                             steady state dietary (food only) exposure                The resulting probabilistic assessment
                                                     section 408(b)(2)(C), EPA must also
                                                     address the need for an additional safety               analyses for chlorpyrifos were                        presents a range of exposure/risk
                                                     factor to protect infants and children.                 conducted using the Dietary Exposure                  estimates that can be compared to
                                                     That provision requires EPA to retain an                Evaluation Model (DEEM) and Calendex                  appropriate PADs to determine the
                                                     additional 10-fold margin of safety                     software with the Food Commodity                      safety of food exposures.
                                                     unless EPA concludes, based on reliable                 Intake Database (FCID). The DEEM&ndash;                        2. Exposure from water. EPA may use
                                                     data, that a different safety factor will be            FCID model uses 2003&ndash;2008 food                        field monitoring data and/or simulation
                                                     safe for infants and children. The PoDs                 consumption data from the USDA                        water exposure models to generate
                                                     calculated by the PBPK&ndash;PD model are                     National Health and Nutrition                         pesticide exposure estimates in drinking
                                                     then divided by the uncertainty factors                 Examination Survey, What We Eat in                    water. Monitoring and modeling are
                                                     to derive a PAD. There are potential                    America (NHANES/WWEIA). These                         both important tools for estimating
                                                     risks of concern when the estimated                     current analyses reflect the latest                   pesticide concentrations in water and
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                                                     dietary exposure exceeds 100% of the                    available consumption data as well as                 can provide different types of
                                                     PAD.                                                    more recent food monitoring and                       information. Monitoring data can
                                                                                                             percent crop treated data. Both the acute             provide estimates of pesticide
                                                     B. Estimating Human Exposure Levels                     and steady state dietary exposure                     concentrations in water that are
                                                       Pursuant to section 408(b) of the                     analyses are highly refined. The large                representative of the specific
                                                     FFDCA, EPA evaluated dietary risks for                  majority of food residues used were                   agricultural or residential pesticide
                                                     chlorpyrifos based on &lsquo;&lsquo;aggregate                       based upon USDA&rsquo;s PDP monitoring                      practices in specific locations, under the
                                                     exposure&rsquo;&rsquo; to chlorpyrifos. By &lsquo;&lsquo;aggregate              data except in a few instances where no               environmental conditions associated
                                                     exposure,&rsquo;&rsquo; EPA is referring to exposure                appropriate PDP data were available. In               with a sampling design (i.e., the


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                                                     locations of sampling, the times of the                 treated with pesticides in a particular               exposure is not uniform within a HUC
                                                     year samples were taken, and the                        area.                                                 2 Region and that some watersheds
                                                     frequency by which samples were                            In modeling potential surface water                present risk concerns while others do
                                                     collected). Further, monitoring data can                concentrations, EPA attempts to model                 not. In general, the refined analysis
                                                     reflect the actual use of a pesticide                   areas of the country that are highly                  confirms that smaller watersheds with
                                                     rather than the label rates. Although                   vulnerable to surface water                           high percent cropped areas are much
                                                     monitoring data can provide a direct                    contamination rather than simply model                more vulnerable than large watersheds.
                                                     measure of the concentration of a                       &lsquo;&lsquo;typical&rsquo;&rsquo; concentrations occurring                  When this assessment is complete (i.e.,
                                                     pesticide in water, it generally does not               across the nation. Consequently, EPA                  when EPA has completed this analysis
                                                     provide a reliable basis for estimating                 models exposures occurring in small                   for the rest of the country), it may
                                                     spatial and temporal variability in                     watersheds in different growing areas                 provide EPA with a basis for tailoring its
                                                     exposures because sampling may not                      throughout the country over a 30-year                 drinking water risk mitigation efforts
                                                     occur in areas with the highest pesticide               period. The scenarios are designed to                 through pesticide product labeling
                                                     use, and/or when the pesticides are                     capture residue levels in vulnerable                  rather than revoking tolerances
                                                     being used and/or at an appropriate                     drinking water sources and are adjusted               nationwide. Because of the PANNA
                                                     sampling frequency to detect high                       by PCA factors. The PCA is calculated                 decision on August 10, 2015 compelling
                                                     concentrations of a pesticide that occur                from satellite derived land cover data to             EPA to respond to the PANNA&ndash;NRDC
                                                     over the period of a day to several days.               account for the area of watershed that is             Petition by October 31, 2015, EPA has
                                                        Because of the limitations in most                   cropped.                                              not been able to complete its refined
                                                     monitoring studies, EPA&rsquo;s standard                         EPA believes these assessments are                 drinking water assessment for
                                                     approach is to use water exposure                       likely reflective of a subset of the                  chlorpyrifos in advance of this proposed
                                                                                                             watersheds across the country that are                rule. As a result, this proposal relies
                                                     models as the primary means to
                                                                                                             used for drinking water supply,                       only on the results of the national
                                                     estimate pesticide exposure levels in
                                                                                                             representing a drinking water source                  screen that do not provide a basis for
                                                     drinking water. EPA&rsquo;s computer models
                                                                                                             generally considered to be more                       more tailored risk mitigation. EPA is
                                                     use detailed information on soil
                                                                                                             vulnerable to frequent high                           continuing to conduct its regional and
                                                     properties, crop characteristics, and
                                                                                                             concentrations of pesticides than most                water-intake level assessment and
                                                     weather patterns to estimate exposure in
                                                                                                             locations. For this reason, in its                    intends to update this action if
                                                     vulnerable locations where the pesticide
                                                                                                             evaluation of chlorpyrifos, EPA has also              warranted with the results of that
                                                     could be used according to its label.
                                                                                                             begun to refine its assessment to                     assessment when it is completed. For
                                                     (Ref. 8). These models calculate
                                                                                                             evaluate drinking water risk at a                     any significant new or modified
                                                     estimated water concentrations of                       regional and drinking water intake
                                                     pesticides using laboratory data that                                                                         drinking water analyses, to the extent
                                                                                                             scale. While it is currently challenging              practicable, EPA intends to provide the
                                                     describe how fast the pesticide breaks                  to assess exposure on a local scale due
                                                     down to other chemicals and how it                                                                            public an opportunity to comment on
                                                                                                             to the unavailability of data and wide                the work prior to issuing a final rule.
                                                     moves in the environment at these                       range of characteristics (i.e.,                          3. Residential and Other Non-
                                                     vulnerable locations. The modeling                      environmental factors such as soil,                   Occupational Exposures. EPA&rsquo;s
                                                     provides an estimate of pesticide                       weather, etc. or others (e.g., drinking               &lsquo;&lsquo;residential&rsquo;&rsquo; assessments actually
                                                     concentrations in ground and surface                    water treatment process)) that affect the             examine exposure to pesticides in both
                                                     water. Depending on the modeling                        vulnerability of a given community                    residential and other non-occupational
                                                     algorithm (e.g., surface water modeling                 drinking water system to chlorpyrifos                 settings (e.g., homes, parks, schools,
                                                     scenarios), daily concentrations can be                 oxon contamination, EPA developed a                   athletic fields or any other areas
                                                     estimated continuously over long                        method to examine the potential                       frequented by the general public). All
                                                     periods of time, and for places that are                geospatial concentration differences                  residential uses of chlorpyrifos except
                                                     of most interest for any particular                     using specific examples for two                       ant and roach baits (in child resistant
                                                     pesticide.                                              Hydrological Unit Code (HUC) 2                        packaging) and fire ant mound
                                                        As discussed in Unit VI.B. in greater                Regions&mdash;HUC 2 Region 17: Pacific                      treatments were voluntary cancelled by
                                                     detail, EPA relied on models developed                  Northwest and HUC 2 Region 3: South                   registrants in 2000. As such, the use of
                                                     for estimating exposure in both surface                 Atlantic-Gulf, in order to identify use               the term &lsquo;&lsquo;residential&rsquo;&rsquo; throughout this
                                                     water and ground water. A detailed                      patterns in those regions that may result             document does not connote there are
                                                     description of the models routinely used                in EDWCs that exceed the DWLOC on                     residential uses, rather it is used
                                                     for exposure assessment is available                    a regional basis. There are 21 HUC 2                  interchangeable with &lsquo;&lsquo;non-
                                                     from the EPA Office of Pesticide                        regions with 18 in the conterminous                   occupational&rsquo;&rsquo; exposures. Exposures to
                                                     Programs (OPP) Water Models Web site:                   United States. These areas contain                    pesticides may occur to persons who
                                                     http://www.epa.gov/oppefed1/models/                     either the drainage area of a major river,            apply pesticides or to persons who enter
                                                     water/. The Surface Water                               or a combined drainage of a series of                 areas previously treated with pesticides.
                                                     Concentration Calculator provides a                     rivers. The average size is 177,560                   Such exposures may occur through oral,
                                                     means for EPA to estimate daily                         square miles. Additional information                  inhalation, or dermal routes. For
                                                     pesticide concentrations in surface                     can be found at https://water.usgs.gov/               chlorpyrifos, the uses that could result
                                                     water sources of drinking water (a                      GIS/huc.html. The analysis used a                     in non-occupational exposures are the
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                                                     reservoir) using local soil, site,                      number of modeling scenarios to                       public health uses as an aerial and
                                                     hydrology, and weather characteristics                  represent all potential chlorpyrifos                  ground-based ultra-low volume (ULV)
                                                     along with pesticide applications and                   agricultural use sites. This analysis                 fogger for adult mosquito control, the
                                                     agricultural management practices, and                  showed an overlap of potential                        fire ant mound treatments, the use in
                                                     pesticide environmental fate and                        chlorpyrifos use sites that may result in             ant and roach bait stations, and foliar
                                                     transport properties. EPA also considers                an exceedance of the DWLOC with                       use on golf course turfgrass.
                                                     percent cropped area (PCA) factors                      watersheds that supply source water for                  Non-occupational assessments are
                                                     which take into account the potential                   community drinking water systems. In                  conducted through examination of
                                                     extent of cropped areas that could be                   addition, this analysis shows that                    significant exposure scenarios (e.g.,


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                                                     children playing on treated lawns or                    non-occupational uses) are added                      This section also describes EPA&rsquo;s use of
                                                     homeowners spraying their gardens)                      together and compared to quantitative                 a robust PBPK&ndash;PD model for deriving
                                                     using a combination of generic and                      estimates of hazard (e.g., PAD), or the               PoDs and refined intra-species factors.
                                                     pesticide-specific data. To regularize                  risks themselves can be aggregated.                   Finally, this unit provides the
                                                     this process, OPP has prepared Standard                 When aggregating exposures and risks                  quantitative results of the end-point
                                                     Operating Procedures (SOPs) for                         from various sources, both the route and              selection process, including EPA&rsquo;s
                                                     conducting &lsquo;&lsquo;residential&rsquo;&rsquo; assessments                  duration of exposures are considered.                 evaluation and application of the FQPA
                                                     on a wide array of scenarios that are                   For chlorpyrifos, EPA has considered                  safety factor.
                                                     intended to address all major possible                  aggregate exposures and risks from                       1. Background. Mode of action (MOA)
                                                     means by which individuals could be                     combined food, drinking water, and                    and adverse outcome pathways (AOPs)
                                                     exposed to pesticides in a non-                         non-occupational exposures. Residues                  provide important concepts and
                                                     occupational environment (e.g. homes,                   in food consist of parent compound                    organizing tools for risk assessment.
                                                     schools, parks, athletic fields, or other               chlorpyrifos only, while concentrations               MOAs/AOPs describe a set of
                                                     publicly accessible locations). The SOPs                in water are assumed to consist of                    measureable key events that make up
                                                     identify relevant generic data and                      chlorpyrifos oxon only. The acute                     the biological processes leading to an
                                                     construct algorithms for calculating                    aggregate assessment includes only food               adverse outcome and the causal linkages
                                                     exposure amounts using these generic                    and drinking water while the steady                   between such events. An AOP further
                                                     data in combination with pesticide-                     state aggregate assessment includes                   defines the initial step in the process as
                                                     specific information. The generic data                  exposures from food, drinking water,                  the molecular initiating event.
                                                     generally involve survey data on                        and non-occupational scenarios.                       Fundamentally, MOA and AOP are
                                                     behavior patterns (e.g., activities                     Typically, in aggregate assessments,                  different terms for basically the same
                                                     conducted on turf and time spent on                     total dietary exposure (food and                      concept.
                                                     these activities), unit exposure, and                   drinking water combined) are derived                     It is well established that AChE
                                                     transfer coefficient data to evaluate the               by incorporating both food residues and               inhibition is the mode of action/adverse
                                                     transfer of pesticide to humans from a                  EDWCs in the dietary exposure model.                  outcome pathway (MOA/AOP) for the
                                                     treated surface.                                        In the chlorpyrifos RHHRA, only food                  cholinergic toxicity of OP pesticides,
                                                        Typically, non-occupational risks are                exposures were derived from the dietary               including chlorpyrifos. AChE breaks
                                                     quantified by comparison of estimates of                model. For drinking water exposure and                down acetylcholine (ACh), a compound
                                                     exposure to toxicological PoDs for each                 risk, a DWLOC approach was used to                    that assists in transmitting signals
                                                     route of exposure as selected from                      calculate the amount of exposure which                through the nervous system. When
                                                     laboratory animal studies. In the case of               could occur without exceeding the risk                AChE is inhibited at nerve endings by
                                                     chlorpyrifos, the PBPK&ndash;PD model was                     level of concern (i.e., the available space           chlorpyrifos or another AChE inhibiting
                                                     used to derive age-, duration-, and                     in the total aggregate risk cup for                   pesticide, the inhibition prevents the
                                                     route-specific human equivalent doses.                  exposures to chlorpyrifos oxon in                     ACh from being degraded and results in
                                                     Separate PoDs were calculated for                       drinking water after accounting for                   prolonged stimulation of nerves and
                                                     residential exposures by varying inputs                 exposures to parent chlorpyrifos from                 muscles. If a person has enough
                                                     on types of exposures and populations                   food and non-occupational scenarios).                 exposure to chlorpyrifos for poisoning
                                                     exposed. Residential risk estimates, or                 The calculated DWLOCs were then                       to occur the physical signs and
                                                     margins of exposure (MOEs) were                         compared to the EDWCs of oxon                         symptoms include headache, nausea,
                                                     calculated with use of the scenario- and                modeled under a variety of conditions.                dizziness, blurred vision, slurred
                                                     lifestage-specific PoDs by comparison to                When the EDWC is less than the                        speech, excessive perspiration,
                                                     exposure estimates (doses) quantified                   DWLOC, there are no risk concerns for                 salivation, vomiting, diarrhea, and
                                                     with use of standard occupational and                   exposures to the pesticide in drinking                muscle twitching. Severe exposure to
                                                     residential exposure assessment                         water which also indicates aggregate                  chlorpyrifos can lead to convulsions,
                                                     methodologies.                                          exposures are not of concern.                         loss of bladder and bowel control, coma,
                                                                                                             Conversely, when the EDWC is greater                  difficulty breathing, pulmonary edema,
                                                     C. Selection of Acute and Steady State                                                                        muscle paralysis, and death from
                                                                                                             than the DWLOC, then potential risks of
                                                     Dietary Exposure Level of Concern                                                                             respiratory failure. Because AChE
                                                                                                             concern are identified.
                                                       Because probabilistic assessments                                                                           inhibition is the initiating event for this
                                                     generally present a realistic range of                  VI. Aggregate Risk Assessment and                     MOA/AOP, using AChE inhibition as a
                                                     residue values to which the population                  Conclusions Regarding Safety                          regulatory endpoint is protective of
                                                     may be exposed, EPA&rsquo;s starting point for                  Consistent with section 408(b)(2)(D)                downstream cholinergic effects.
                                                     estimating exposure and risk for its                    of FFDCA, EPA has reviewed the                        Moreover, given the sensitivity of AChE
                                                     aggregate risk assessments is the 99.9th                available scientific data and other                   inhibition data for OPs, using AChE
                                                     percentile of the population under                      relevant information in support of this               inhibition to establish a regulatory point
                                                     evaluation. When using a probabilistic                  action. EPA&rsquo;s assessment of exposures                 of departure has historically been
                                                     method of estimating acute and steady                   and risks associated with chlorpyrifos                considered to be protective of other
                                                     state dietary exposure, EPA typically                   use follows.                                          potential toxicities. EPA uses a value of
                                                     assumes that, when the 99.9th                                                                                 10% AChE inhibition as a point of
                                                                                                             A. Hazard Identification and Endpoint                 departure in its regulation of AChE
                                                     percentile of exposure is equal to or less
                                                                                                             Selection
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                                                     than the PAD, the level of concern has                                                                        inhibiting pesticides, including
                                                     not been exceeded and dietary                              This unit summarizes EPA&rsquo;s review of               chlorpyrifos. EPA&rsquo;s analyses have
                                                     exposures are safe.                                     relevant data for extrapolating risk and              demonstrated that 10% is a level that
                                                                                                             its integrative analysis using multiple               can be reliably measured in the majority
                                                     D. Aggregating Exposures and Deriving                   lines of evidence from experimental                   of animal toxicity studies; is generally at
                                                     a Risk Estimate                                         toxicology and epidemiology with                      or near the limit of sensitivity for
                                                       In an aggregate risk assessment,                      respect to AChE/ChE inhibition                        discerning a statistically significant
                                                     pesticide exposures from relevant                       (acetylcholinesterase/cholinesterase)                 decrease in AChE activity across the
                                                     sources (i.e., food, drinking water and                 and neurodevelopmental outcomes.                      brain compartment; and is a response


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                                                     level close to the background AChE                      factor and are summarized in Unit                     in sensitivity to chlorpyrifos and its
                                                     level.                                                  VI.A.6.                                               oxon. As discussed above, this
                                                        Newer lines of research on                              AChE inhibition remains the most                   sensitivity is not derived from
                                                     chlorpyrifos, notably epidemiological                   robust quantitative dose response data                differences in the AChE enzyme itself
                                                     studies, have raised some uncertainty                   for chlorpyrifos and thus continues to                but instead is derived largely from the
                                                     about EPA&rsquo;s historical risk assessment                  be the critical effect for the quantitative           immature metabolic clearance capacity
                                                     approach for chlorpyrifos with regard to                risk assessment. This approach is                     in the juveniles.
                                                     the potential for neurodevelopmental                    consistent with the advice EPA received                  Multiple route-specific laboratory
                                                     effects that may arise from prenatal                    from the FIFRA SAP in both 2008 and                   animal studies for the dermal and
                                                     exposure to chlorpyrifos. This research                 2012 (Refs. 9 and 10) when EPA sought                 inhalation routes are available. Dermal
                                                     is summarized in Unit VI.A.6.iii.                       input specifically on the agency&rsquo;s                    AChE data are available from a 21-day
                                                        2. Summary of data evaluated for                     approach to evaluating the toxicity of                study and 4-day probe study (Ref. 14) in
                                                     deriving PoDs. Chlorpyrifos and its oxon                chlorpyrifos. EPA has conducted                       rats which together establish a No
                                                     are widely studied and thus have an                     benchmark dose (BMD) analysis of                      Observed Adverse Effect Level (NOAEL)
                                                     extensive database of scientific studies.               numerous studies using empirical                      of 5 mg/kg/day and a Lowest Observed
                                                     Included in the database are: Studies                   approaches previously endorsed by the                 Adverse Effect Level (LOAEL) of 10 mg/
                                                     developed by registrants pursuant to                    FIFRA SAP (Ref. 11) and consistent                    kg/day. Two subchronic inhalation
                                                     EPA guidelines, special studies                         with the 2006 OP cumulative risk                      toxicity studies (Refs. 15, 16, and 17) in
                                                     conducted by the registrants, and                       assessment (Ref. 12) and other single                 the rat are available using vapor phase
                                                     studies in the public literature. These                 chemical OP risk assessments. Details                 chlorpyrifos which show no ChE effects
                                                     studies reflect different levels of                     on AChE studies and related analyses                  up to a concentration of 20.6 ppb (287
                                                     biological organization (e.g.,                          can be found in Appendix 1 of the                     mg/m3 or 0.082 mg/kg/day). Multiple
                                                     metabolism, MOA/AOP, in vitro and in                    PHHRA (Ref. 3).                                       acute inhalation studies are also
                                                                                                                There are many chlorpyrifos studies                available. In a special acute inhalation
                                                     vivo experimental toxicology,
                                                                                                             evaluating AChE inhibition in red blood               study, female rats were exposed by nose
                                                     biomonitoring, and epidemiology),
                                                                                                             cell (RBC) or brain in multiple lifestages            only (mass median aerodynamic
                                                     various species (mouse, rabbit, dog,
                                                                                                             (gestational, fetal, post-natal, and non-             diameter/geometric standard deviation
                                                     non-rodent, and human) and address                      pregnant adult), multiple species (rat,               was 1.9/1.51, respectively) to
                                                     multiple lifestages (fetal, postnatal,                  mouse, rabbit, dog, human), methods of                atmospheric concentrations of up to
                                                     pregnant, and non-pregnant adult). The                  oral administration (oral gavage with                 53.9 mg/m3 of particulate chlorpyrifos
                                                     metabolism and pharmacokinetic (PK)                     corn oil, dietary, gavage via milk), and              for six hours and allowed an additional
                                                     profile of chlorpyrifos and its oxon have               routes of exposure (oral, dermal,                     72 hours to recover (Refs. 18 and 19).
                                                     been extensively studied in in vitro                    inhalation via vapor, and via aerosol). In            Consistent and significant lung ChE
                                                     systems, in vivo laboratory animals, as                 addition, chlorpyrifos is unique in the               inhibition were noted at the lowest
                                                     well as humans. Chlorpyrifos is                         availability of ChE data from peripheral              concentration tested of 3.7 mg/m3,
                                                     bioactivated to the more toxic and                      tissues in some studies (e.g., heart, lung,           which is a LOAEL. RBC and brain ChE
                                                     potent AChE inhibitor, the oxon form.                   liver). There are also literature studies             inhibition were noted at &ge; 12.9 mg/m3
                                                     3,5,6-trichloro-2-pyridinol (TCPy) is the               comparing the in vitro ChE response to                and 53.9 mg/m3, respectively, indicating
                                                     major excreted metabolite and is used as                a variety of tissues (Ref. 13) which show             they are less sensitive than lung and
                                                     the biomarker in PK, biomonitoring, and                 similar sensitivity and intrinsic activity.           plasma ChE inhibition following acute
                                                     epidemiology studies. Diethylphosphate                  Across the database, brain AChE tends                 inhalation exposures.
                                                     (DEP) is another metabolite often used                  to be less sensitive than RBC AChE or                    Since the 2011 PHHRA, two acute
                                                     in biomonitoring studies, but since it is               peripheral ChE. In oral studies, RBC                  inhalation studies on the saturated
                                                     produced by a number of OPs, DEP is                     AChE inhibition is generally similar in               vapor have been performed on the
                                                     not a specific marker for chlorpyrifos.                 response to peripheral tissues (e.g.,                 parent chlorpyrifos and chlorpyrifos
                                                        Summarized below are key findings                    liver, heart, and lung). Thus, the in vitro           oxon (Refs. 20 and 21). In these studies,
                                                     from experimental toxicology studies on                 data and oral studies combined support                female rats were exposed by nose only
                                                     AChE inhibition as presented in detail                  the continued use of RBC AChE                         to a saturated vapor of chlorpyrifos or
                                                     in the June 2011 PHHRA and the                          inhibition as the critical effect for                 its oxon for 6 hours to a time-weighted
                                                     December 2014 RHHRA. Readers should                     quantitative dose-response assessment.                concentration of 17.7 ppb (0.254 mg/m3)
                                                     refer to those documents (Refs. 3 and 1)                   As with many OPs, female rats tend                 (Ref. 20) or 2.58 ppb (35.3 mg/m3) (Ref.
                                                     and their appendices in the public                      to be more sensitive than males to these              21), respectively. There were no
                                                     docket for this proposed rule for a                     AChE effects. For chlorpyrifos, there are             statistically-significant decreases in ChE
                                                     complete summary of EPA&rsquo;s data                          data from multiple studies which                      activity in the RBC, lung, brain, or
                                                     review. Chlorpyrifos has also been                      provide robust RBC AChE data in                       plasma tissues. These acute studies
                                                     evaluated for other adverse outcomes                    pregnant, lactating, and non-pregnant                 along with the subchronic inhalation
                                                     such as reproductive toxicity,                          female rats from oral exposure (e.g.,                 studies with vapor phase chlorpyrifos
                                                     developmental toxicity, cancer,                         DNT, reproductive, and subchronic                     support a conclusion that acute
                                                     genotoxicity, dermal toxicity, inhalation               rats), respectively. The BMD10/BMDL10                 exposure to the saturated vapor of
                                                     toxicity, and immunotoxicity. These                     values from these studies range from                  chlorpyrifos or its oxon do not result in
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                                                     adverse outcomes are less sensitive (i.e.,              0.05/0.04 to 0.15/0.09 mg/kg/day.                     hazard due to AChE inhibition.
                                                     are likely to occur at higher doses) than               (BMD10 is the estimated dose to yield                    3. Durations of Exposure, Critical
                                                     AChE inhibition and                                     10% inhibition in RBC AChE inhibition                 Windows of Exposure, &amp; Temporality of
                                                     neurodevelopmental effects, which form                  compared to controls or background                    Effects Relevant for AChE Inhibition. In
                                                     the scientific foundation of this                       levels. The BMDL10 is the lower 95%                   risk assessment, exposure is evaluated
                                                     proposed rule, and are thus not                         confidence limit on the BMD10). Studies               in conjunction with the toxicology
                                                     discussed in detail here. Concerns for                  are available in juvenile pups which                  profile. More specifically, a variety of
                                                     neurodevelopmental effects provide the                  show age-dependent differences,                       pharmacokinetic and pharmacodynamic
                                                     basis for retention of the FQPA safety                  particularly following acute exposures,               factors are considered. In the case of


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                                                     chlorpyrifos, exposure can occur from a                 used to evaluate the relationship                        With respect to AChE inhibition, as
                                                     single exposure (e.g., eating a meal) or                between an applied dose and                           noted, EPA typically uses a 10%
                                                     from repeated days of exposure (e.g.,                   biomonitoring data.                                   response level in its human health risk
                                                     worker, residential).                                      For a full discussion of the                       assessments. This response level is
                                                        With respect to AChE inhibition,                     development and evaluation of the                     consistent with EPA&rsquo;s 2006 OP
                                                     these effects can occur from a single                   chlorpyrifos PBPK&ndash;PD model, please                    cumulative risk assessment (Ref. 12) and
                                                     exposure or from repeated exposures.                    refer to the December 2014 RHHRA (Ref.                other single chemical OP risk
                                                     Generally, for OPs, repeated exposures                  1) in the public docket for this rule.                assessments. As such, EPA has used the
                                                     result in more AChE inhibition at a                        As discussed above, in typical risk                PBPK&ndash;PD model to estimate exposure
                                                     given administered dose compared to                     assessments, PoDs are derived directly                levels resulting in 10% RBC AChE
                                                     acute studies. Moreover, AChE                           from laboratory animal studies and                    inhibition following single day (acute;
                                                     inhibition in repeated dosing guideline                 inter- and intra-species extrapolation is             24 hours) and 21-day exposures for a
                                                     toxicology studies with OPs show a                      accomplished by use of &lsquo;&lsquo;default&rsquo;&rsquo;10X                 variety of exposure scenarios. The
                                                     consistent pattern of inhibition reaching               factors. In the case of chlorpyrifos and              model accounts for PK and PD
                                                     steady state at or around 2&ndash;3 weeks of                  its oxon, EPA is using a PBPK&ndash;PD                      characteristics to derive age, duration,
                                                     exposure in adult laboratory animals                    model as a data-derived approach to                   and route specific PoDs (see Table 1
                                                     (Ref. 22). This pattern is observed with                estimate PoDs. This model was                         below). Separate PoDs have been
                                                     repeated dosing and is a result of an                   originally developed by Timchalk and                  calculated for dietary (food, drinking
                                                     equilibrium between the amount of                       coworkers in 2002 (Refs. 24 and 25),                  water) and residential exposures by
                                                     AChE inhibition and the production of                   partially funded by EPA Star Grants,                  varying inputs on types of exposures
                                                     new enzyme. As such, AChE studies of                    and most recently supported by Dow                    and populations exposed. Specifically,
                                                     2&ndash;3 weeks generally show the same                       AgroSciences. The PBPK&ndash;PD model for                   the following characteristics have been
                                                     degree of inhibition with those of longer               chlorpyrifos has been heavily peer                    evaluated: Duration (acute, 21-day
                                                     duration (i.e., up to 2 years of exposure).             reviewed through numerous scientific                  (steady state)); route (dermal, oral,
                                                     Thus, for most of the single chemical                   publications and a review by the FIFRA                inhalation); body weights which vary by
                                                     human health risk assessments for the                                                                         lifestage; exposure duration (hours per
                                                                                                             SAP (Ref. 26). All model code for the
                                                     OPs, EPA is focusing on the critical                                                                          day, days per week); and exposure
                                                                                                             PBPK&ndash;PD model are provided in the
                                                     duration range from a single day up to                                                                        frequency (events per day (eating,
                                                                                                             public docket for the chlorpyrifos risk
                                                     21 days (i.e., the approximate time to                                                                        drinking)).
                                                                                                             assessment. Developers of the
                                                     reach steady state for most OPs). As                                                                             For each exposure scenario, the
                                                                                                             chlorpyrifos PBPK&ndash;PD model sponsored
                                                     described below, PoDs for various                                                                             appropriate body weight for each age
                                                                                                             a third-party quality assurance
                                                     lifestages, routes, and scenarios have                                                                        group or sex was modeled as identified
                                                                                                             assessment to verify model parameter
                                                     been derived at the acute and steady                                                                          from the Exposure Factors Handbook
                                                                                                             values and their respective sources. EPA
                                                     state durations. For this proposed rule,                                                                      (Ref. 28) for residential exposures and
                                                                                                             has also done a quality assurance                     from the NHANES/WWEIA Survey (Ref.
                                                     PoDs for various lifestages, routes, and
                                                     scenarios have been derived at the acute                assessment of the model for human                     29) for dietary exposures.
                                                     and steady state durations.                             health risk assessment applications.                     EPA evaluated the following
                                                        4. Use of the Chlorpyrifos PBPK&plusmn;PD                   (Ref. 27).                                            scenarios: dietary exposure to the oxon
                                                     Model to Establish PoDs. As described                      The chlorpyrifos PBPK&ndash;PD model                     exposures via drinking water (24-hour
                                                     in detail in EPA&rsquo;s 2006 document                        includes the description of a molecular               and 21-day exposures for infants,
                                                     entitled, &lsquo;&lsquo;Approaches for the                          initiating event in the cholinergic                   children, youths, and female adults);
                                                     Application of Physiologically Based                    toxicity MOA/AOP: AChE inhibition.                    exposure to chlorpyrifos exposures via
                                                     Pharmacokinetic (PBPK) Models and                       Thus, the PBPK&ndash;PD model can be used                   food (24-hour and 21-day exposures for
                                                     Supporting Data in Risk Assessment,&rsquo;&rsquo;                   to predict the dose metrics associated                infants, children, youths, and female
                                                     (Ref. 23) PBPK modelling is a                           with cholinergic toxicity following                   adults); 21-day residential exposures to
                                                     scientifically sound and robust                         chlorpyrifos exposure, i.e., RBC and                  chlorpyrifos via skin for children,
                                                     approach to estimating the internal dose                brain AChE inhibition. The model also                 youths, and female adults; 21-day
                                                     of a chemical at a target site and as a                 predicts levels of chlorpyrifos, its oxon,            residential exposures to chlorpyrifos via
                                                     means to evaluate and describe the                      and TCPy in various tissues, such as                  hand-to-mouth ingestion for children 1&ndash;
                                                     uncertainty in risk assessments. PBPK                   plasma and urine. Age-specific                        2 years old; and 21-day residential
                                                     models consist of a series of                           parameters are incorporated allowing                  exposures to chlorpyrifos via inhalation
                                                     mathematical representations of                         for lifestage-specific evaluations from               for children 1&ndash;2 years old and female
                                                     biological tissues and physiological                    infant through adulthood. The model                   adults.
                                                     processes in the body that simulate the                 can be run in two modes: deterministic                   For all residential dermal exposures
                                                     absorption, distribution, metabolism,                   and variation. In the deterministic                   to chlorpyrifos, EPA set the fraction of
                                                     and excretion (ADME) of chemicals that                  mode, the output accounts for human                   skin in contact with chlorpyrifos to 50%
                                                     enter the body. Examples of PBPK                        specific metabolism and physiology,                   and assumed a daily shower (i.e.,
                                                     model applications in risk assessments                  thus obviating the need for the inter-                washing off the chlorpyrifos) following
                                                     include interspecies extrapolation,                     species extrapolation factor for all age              chlorpyrifos exposure. All residential
                                                     intra-species extrapolation, route-to-                  groups. In variation mode, distributions              exposures were set to be continuous for
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                                                     route extrapolation, estimation of                      for 16 parameters, which are critical for             21 days. For residential exposures via
                                                     response from varying exposure                          determining human variations in RBC                   golfing on treated turf, the daily
                                                     conditions, and high-to-low dose                        AChE inhibition, are incorporated and                 exposure time is assumed to be 4 hours/
                                                     extrapolation. PBPK models can be used                  thus the output accounts for intra-                   day; for residential exposures via
                                                     in conjunction with an exposure                         species extrapolation for infants,                    contact with turf following public
                                                     assessment to improve the quantitative                  toddler, youths, and non-pregnant                     health mosquitocide application, the
                                                     characterization of the dose-response                   adults. The approach to intra-species                 daily exposure duration is assumed to
                                                     relationship and the overall risk                       extrapolation is described in Unit                    be 1.5 hours. For residential inhalation
                                                     assessment. These models can also be                    VI.A.5.                                               exposures following public health


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				onerror="this.src='https://thefederalregister.org/doc/80_FR_69294/page/11.png'; this.onerror=null" alt="                                                                                    Federal Register / Vol. 80, No. 215 / Friday, November 6, 2015 / Proposed Rules                                                                                                                   69089

                                                     mosquitocide application, the exposure                                   Residential Pesticide Exposure                                                       exposure levels resulting in 10% RBC
                                                     duration was set to 1 hour per day for                                   Assessment (2012 Residential SOPs).                                                  AChE inhibition for each evaluated
                                                     21 days. The exposure times selected                                     (Ref. 30).                                                                           population.
                                                     are based on those recommended in the                                      Summarized in Table 1 are the PBPK&ndash;
                                                     2012 Standard Operating Procedures for                                   PD model results used to estimate
                                                               TABLE 1&mdash;CHLORPYRIFOS PBPK MODELED DOSES (PODS) CORRESPONDING TO 10% RBC ACHE INHIBITION 1
                                                                                                                      Infants                         Young Children                           Children                              Youths                              Females
                                                                                                                   ( &lt; 1 yr old)                      (1&ndash;2 years old)                     (Residential: 6&ndash;11                   (Residential: 11&ndash;16                   (13&ndash;49 years old)
                                                                                                                                                                                          years old; Dietary:                   years old; Dietary:
                                                                                   Exposure pathway                                                                                        6&ndash;12 years old)                       13&ndash;19 years old)
                                                            RA Type                 (all chlorpyrifos                           Steady                                Steady                                                                                                            Steady
                                                                                     unless noted)            Acute              state              Acute              state                                Steady                                Steady              Acute              state
                                                                                                                               (21 day)                              (21 day)             Acute              state              Acute              state                               (21 day)
                                                                                                                                                                                                           (21 day)                              (21 day)

                                                     Dietary ...................   Drinking Water                 1,183                 217             3,004                 548             7,700              1,358              4,988                 878             5,285                 932
                                                                                     (oxon conc, ppb).
                                                                                   Food (ug/kg/day) ...              600                103                581                  99               530              90                   475              80                   467               78
                                                     Residential                   Dermal (ug/kg/day)      ................   ................   ................   ................   ................       25,150         ................       16,370         ................        14,250
                                                       (Golfers).
                                                     Residential                   Dermal (ug/kg/day)      ................   ................   ................     187,000          ................   ................   ................   ................   ................       38,650
                                                       (Mosquitocide
                                                       Application).
                                                                                   Oral (ug/kg/day) ....   ................   ................   ................            101       ................   ................   ................   ................   ................   ................
                                                                                   Inhalation (concn.      ................   ................   ................            2.37      ................   ................   ................   ................   ................            6.15
                                                                                     in air mg/m3).
                                                       1 Empty cells are not populated because these exposure scenarios are either not relevant for the age group (e.g., infants or 1&ndash;2 year olds golfing), or do not rep-
                                                     resent the most health protective life stage for assessment of a particular exposure scenario as recommended in the 2012 SOPs (e.g., for mosquitocide exposure as-
                                                     sessment, children 1 to &lt; 2 years old result in a more protective assessment than infants).


                                                        5. Use of the Chlorpyrifos PBPK&plusmn;PD                                    leading to the response level of interest                                            of FFDCA provides that EPA shall apply
                                                     Model to Extrapolate from Animals to                                     (10% change in RBC AChE inhibition)                                                  an additional tenfold margin of safety
                                                     Humans (Inter-species) and Among the                                     between a measure of average response                                                for infants and children in the case of
                                                     Human Population (Intra-species). Once                                   and response at the tail of the                                                      threshold effects to account for prenatal
                                                     EPA determines the appropriate                                           distribution representing sensitive                                                  and postnatal toxicity and the
                                                     toxicological PoDs (Table 1), it then                                    individuals. Dow AgroSciences has                                                    completeness of the data base on
                                                     applies appropriate uncertainty factors                                  conducted an analysis to derive the oral                                             toxicity and exposure unless EPA
                                                     or DDEFs to account for inter-species                                    doses that cause 10% RBC AChE                                                        determines that a different margin of
                                                     and intra-species variation, and to                                      inhibition in both adults and 6-month                                                safety will be safe for infants and
                                                     address the requirements of section                                      old infants. (Ref. 1 at 69&ndash;70). The ratio                                            children. Margins of safety are
                                                     408(b)(2)(C) regarding the need for an                                   of the adult ED10 (effective dose) to the                                            incorporated into EPA assessments
                                                     additional margin of safety for infants                                  infant ED10 was then used to derive                                                  either directly through use of a margin
                                                     and children. Specifically, the modeled                                  intraspecies extrapolation factors. In the                                           of exposure analysis or through using
                                                     doses (PoDs) in this table are divided by                                subsequent Monte Carlo simulations,                                                  uncertainty (safety) factors in
                                                     appropriate factors to establish PADs                                    the target age group is six month old                                                calculating a dose level that poses
                                                     that are used for regulatory purposes.                                   individuals. Based on the 1st percentile                                             acceptable risk to humans.
                                                     The PADs are presented in Unit VI.B.2.ii                                 of the distributions being used to                                                      In applying the FQPA safety factor
                                                     and iii, Tables 2 and 3.                                                 extrapolate human health, the DDEF for                                               provision, EPA has interpreted the
                                                        In a typical risk assessment, the                                     intraspecies extrapolation is 4X for                                                 statutory language as imposing a
                                                     agency uses PoDs derived from                                            chlorpyrifos and 5X for the oxon (Ref.                                               presumption in favor of applying an
                                                     laboratory animal studies. For these                                     32) for all groups except women who                                                  additional 10X safety factor (Ref. 33).
                                                     typical assessments, the agency must                                     are pregnant or may become pregnant.                                                 Thus, EPA generally refers to the
                                                     then extrapolate from animals to                                           While the current PBPK&ndash;PD model                                                    additional 10X factor as a presumptive
                                                     humans which is generally performed                                      accounts for age-related growth from                                                 or default 10X factor. EPA has also
                                                     with a 10X inter-species factor. As noted                                infancy to adulthood by using                                                        made clear, however, that the
                                                     above in Unit V.A., the output of the                                    polynomial equations to describe tissue                                              presumption can be overcome if reliable
                                                     chlorpyrifos PBPK&ndash;PD model accounts                                      volumes and blood flows as a function                                                data demonstrate that a different factor
                                                     for human specific metabolism and                                        of age, the model does not include any                                               is safe for infants and children. (Ref. 33).
                                                     physiology, thus obviating the need for                                  descriptions on physiological,                                                       In determining whether a different
                                                     the inter-species extrapolation factor for                               anatomical and biochemical changes                                                   factor is safe for infants and children,
                                                     all age groups.                                                          associated with pregnancy. Due to the                                                EPA focuses on the three factors listed
                                                        EPA has, however, calculated a DDEF                                   uncertainty in extrapolating the current                                             in section 408(b)(2)(C)&mdash;the
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                                                     to address intra-species variation not                                   model predictions among women who                                                    completeness of the toxicity database,
                                                     accounted for in the output of the                                       may be pregnant, EPA is applying the                                                 the completeness of the exposure
                                                     PBPK&ndash;PD model. Consistent with EPA&rsquo;s                                     standard 10X intra-species extrapolation                                             database, and potential pre- and post-
                                                     &lsquo;&lsquo;Guidance for Applying Quantitative                                     factor for women of child bearing age.                                               natal toxicity.
                                                     Data to Develop Data-Derived                                               6. Retention of the statutory 10X                                                     In examining these factors, EPA
                                                     Extrapolation Factors for Interspecies                                   FQPA Safety Factor for purposes of this                                              strives to make sure that its choice of a
                                                     and Intraspecies Extrapolation&rsquo;&rsquo; (Ref.                                   proposed rule for infants, children,                                                 safety factor, based on its weight-of-
                                                     31), when calculating a DDEF, EPA                                        youths, and women of childbearing age                                                evidence evaluation, does not
                                                     compares the administered doses                                          for all exposure scenarios. Section 408                                              understate the risk to infants and


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                                                     children. New lines of research on                      of finding neurological effects is                    number of papers use a dose of 1 mg/
                                                     chlorpyrifos, notably epidemiological                   striking. After presentation of these                 kg/d administered 1&ndash;4 days after birth,
                                                     studies, have raised some uncertainty                   reviews, FIFRA SAP Panels (Refs. 9 and                and this dose inhibits 5&ndash;10% of brain
                                                     about EPA&rsquo;s risk assessment approach                    10) have agreed that exposure to doses                AChE in the pups when measured 2
                                                     for chlorpyrifos with regard to the                     of 1 mg/kg/d and greater, during some                 hours after the last dose (e.g., Refs. 34,
                                                     potential for neurodevelopmental effects                developmental period, produce                         37, and 41). In another study of
                                                     that may arise from prenatal exposure to                significant and long-term effects on                  chlorpyrifos administered in feed to
                                                     chlorpyrifos. Over the last several years,              animal behavior.                                      pregnant rats, the lowest intake of 0.36
                                                     the agency has taken a stepwise,                           Many of these studies using various                mg/kg/d produced about 20&ndash;25% RBC
                                                     objective and transparent approach to                   cognitive tests report perturbations of               ChE inhibition in the dams (Ref. 42).
                                                     evaluate, interpret, and characterize the               learning and/or memory, even though in                Currently there are no animal studies
                                                     strengths and uncertainties associated                  a few cases these may be manifested as                that support or dispute the potential for
                                                     with all the lines of scientific                        improved function. Several findings                   adverse neurodevelopmental outcomes
                                                     information related to the potential for                using specific test methods have been                 at lower doses that do not inhibit AChE
                                                     adverse neurodevelopmental effects in                   replicated across studies and                         at any time, since this has not been
                                                     infants and children as a result of                     laboratories, increasing confidence in                adequately studied.
                                                     prenatal exposure to chlorpyrifos. The                  the outcomes. Likewise, alterations in                   Overall, across the literature on
                                                     agency has evaluated multiple lines of                  some domains, such as those describing                neurodevelopmental outcomes and
                                                     evidence with regard to the potential for               anxiety and social interactions, are not              including most recent publications,
                                                     neurodevelopmental outcomes                             fully consistent, but are still suggestive            there continue to be reports of effects on
                                                     associated with exposure to                             of long-term impacts on these behaviors.              cognitive, anxiety/social behaviors, and
                                                     chlorpyrifos. These are summarized                      Motor activity measures, on the other                 motor activity. There are, however,
                                                     below; full details of this analysis can be             hand, produce results as varied as the                inconsistencies in these effects with
                                                     found in the RHHRA. Given the degree                    different measures of assessment. Taken               regards to dosing paradigms and gender-
                                                     of uncertainty EPA has in the human                     together, these data provide evidence for             specificity. Studies report effects at
                                                     dose-response relationship for                          more global alterations in                            doses that inhibit fetal/pup brain AChE
                                                     neurodevelopmental effects, EPA is                      neurobehavioral function rather than a                activity to some degree, but there are
                                                     retaining the statutory 10X FQPA Safety                 specific profile of effects.                          also studies with no effects at the same
                                                     Factor for purposes of this proposed                       In these papers, testing was                       doses. The broad profile of neurological
                                                     rule for infants, children (including                   conducted at various times after                      effects that has been reported do not aid
                                                     youths), and women of childbearing age                  weaning (adolescents to adults), and                  in the development of a specific AOP
                                                     (to address prenatal exposure to the                    there is a presumption that the effects               (AChE inhibition or other mechanisms),
                                                     fetus) for all exposure scenarios.                      are permanent; however, no study has                  and existing experimental studies have
                                                        i. Neurodevelopmental outcomes in                    directly addressed this issue. Dose-                  not been designed to examine and track
                                                     laboratory animals. There is a                          response is not always evident, since                 possible mechanisms from early
                                                     considerable and still-growing body of                  many studies only use one dose, and of                initiating events to the final
                                                     literature on the effects of chlorpyrifos               those using two or more doses, there is               neurological outcome.
                                                     on the developing brain of laboratory                   not always a monotonic response. There                   ii. Modes of action/adverse outcome
                                                     animals (rats and mice) indicating that                 are differences in route of                           pathways (MOA/AOP). Mode of action
                                                     gestational and/or postnatal exposure                   administration (oral, subcutaneous) and               (MOA) and adverse outcome pathways
                                                     may cause persistent behavioral effects                 vehicle (corn oil, DMSO), but the                     (AOPs) describe a set of measureable
                                                     into adulthood. These data provide                      outcomes do not provide obvious                       key events that make up the biological
                                                     support for the susceptibility of the                   differences due to these factors.                     processes leading to an adverse outcome
                                                     developing mammalian brain to                           Likewise, the experimental literature                 and the causal linkages between such
                                                     chlorpyrifos exposure. Literature                       has not consistently shown that any                   events. A review of the scientific
                                                     searches have been conducted and                        specific developmental period is critical             literature on potential MOA/AOP
                                                     periodically updated by EPA to review                   overall to the long-term outcomes. For                leading to effects on the developing
                                                     papers addressing long-term outcomes                    example, using one specific test                      brain was conducted for the 2012 FIFRA
                                                     from developmental exposure. This                       cognitive changes were observed                       SAP meeting (Ref. 10) and updated for
                                                     review has focused on studies in which                  following gestational and early                       the December 2014 chlorpyrifos RHHRA
                                                     chlorpyrifos was administered during                    postnatal, but not late postnatal,                    (Ref. 1). In short, multiple biologically
                                                     gestation and/or the pre-weaning period                 exposures (Refs. 34, 35, 36, and 37). On              plausible hypotheses and pathways are
                                                     and the offspring are examined at some                  the other hand, deficits have been                    being pursued by researchers including:
                                                     time after weaning, and on studies using                reported using a different cognitive test             AChE as a morphogen; cholinergic
                                                     relatively low doses (e.g., 1 mg/kg/day)                following both gestational and late                   system; endocannabinoid system;
                                                     that would not be expected to produce                   postnatal exposures (Refs. 38, 39, and                reactive oxygen species; serotonergic
                                                     considerable brain AChE inhibition and                  40). Similarly, some changes in anxiety               system; tubulin, microtubule associated
                                                     resultant cholinergic toxicity.                         and social behaviors were reported at                 proteins, and axonal transport.
                                                        There are substantial differences in                 both gestational and postnatal exposure               However, no one pathway has sufficient
                                                     the studies, including critical features of             periods. Unfortunately, no laboratory                 data to be considered more plausible
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                                                     experimental design such as                             has provided systematic comparisons                   than the others. Among the available
                                                     developmental period of exposure,                       across exposure period, dosing regimen,               studies, there are effects which are
                                                     dosing scenarios, testing methods, age at               and age of testing; such studies would                either as or more sensitive than AChE
                                                     testing, and statistical analyses. Despite              improve understanding of the impact of                inhibition. The fact that there are,
                                                     these differences, behavioral changes of                these critical factors.                               however, sparse data to support the in
                                                     some sort were reported in most studies.                   These studies have almost exclusively              vitro to in vivo extrapolation, or the
                                                     Given the wide array of testing that has                focused on doses that could produce                   extrapolation from biological
                                                     been conducted, some variability is not                 some degree, however minimal, of                      perturbation to adverse consequence
                                                     unexpected and in fact, the consistency                 AChE inhibition. For example, a                       significantly limits their quantitative


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				onerror="this.src='https://thefederalregister.org/doc/80_FR_69294/page/13.png'; this.onerror=null" alt="                                                                            Federal Register / Vol. 80, No. 215 / Friday, November 6, 2015 / Proposed Rules                                          69091

                                                     use in risk assessment. The SAP                         farm laborers. The CHAMACOS study                       As noted, two major uncertainties in
                                                     concurred with the agency in 2008 and                   participants likely experienced                       environmental epidemiology studies are
                                                     2012 about the lack of definable key                    exposure to OPs through the diet and                  the accurate and reliable measurement
                                                     events in a MOA/AOP leading to                          from occupational exposure (primarily                 of exposure and potential confounding
                                                     developmental neurobehavioral effects.                  inhalation and dermal routes), as well as             variables such as the influence of
                                                     The lack of an established MOA/AOP                      probable indirect take-home exposures                 mixtures. The researchers with each of
                                                     makes quantitative use of the                           (the &lsquo;&lsquo;tracking in&rsquo;&rsquo; of pesticide residues            the three cohorts have provided
                                                     epidemiology study in risk assessment                   through shoes and clothing, augmented                 supplemental methodological research
                                                     challenging, particularly with respect to               by poor hygiene practices) (Ref. 47). In              to address these areas to the extent
                                                     dose-response, critical duration of                     each of the three U.S. children&rsquo;s health              possible. Across the three children&rsquo;s
                                                     exposure, and window(s) of                              cohorts, EPA has considered the                       health cohorts, study authors measured
                                                     susceptibility. The agency will continue                strengths and limitations of these                    biomarkers of OP exposure. There is
                                                     to monitor the scientific literature for                studies, and believes that random or                  uncertainty as to the extent
                                                     studies on the MOA/AOP for                              systematic errors in the design, conduct              measurement of non-specific
                                                     neurodevelopmental effects.                             or analysis of these studies were                     metabolites of OP or chlorpyrifos
                                                        iii. Epidemiology studies in mothers                 unlikely to fully explain observed                    accurately reflects OP exposure; CCCEH
                                                     and children. In the chlorpyrifos                       positive associations between in utero                and Mt. Sinai studies do not estimate
                                                     RHHRA, EPA included epidemiologic                       OP exposure and adverse                               post-natal exposure to chlorpyrifos
                                                     research results from three prospective                 neurodevelopmental effects observed at                among child participants, therefore the
                                                     birth cohort studies. These include: (1)                birth and through childhood (age 7                    influence of early life and childhood OP
                                                     The Mothers and Newborn Study of                        years). EPA believes these are strong                 exposure is unaccounted for in these
                                                     North Manhattan and South Bronx                         studies which support a conclusion that               analyses. The CHAMACOS cohort
                                                     performed by the Columbia Children&rsquo;s                    OPs likely played a role in these                     measured urinary levels of dialkyl
                                                     Center for Environmental Health                         outcomes.                                             phosphates (DAPs) in young children
                                                     (CCCEH) at Columbia University; (2) the                                                                       and did not observe negative significant
                                                                                                                These cohort studies each enrolled
                                                     Mt. Sinai Inner-City Toxicants, Child                                                                         associations in relation to
                                                                                                             pregnant women during roughly the
                                                     Growth and Development Study or the                                                                           neurodevelopment from post-natal
                                                                                                             same time period, measured both
                                                     &lsquo;&lsquo;Mt. Sinai Child Growth and                                                                                  exposure (Ref. 48). The CHAMACOS
                                                                                                             environmental exposure to the pesticide
                                                     Development Study&rsquo;&rsquo; (Mt. Sinai); and (3)                                                                      cohort investigators also measured
                                                     the Center for Health Assessment of                     during pregnancy and also measured
                                                                                                                                                                   AChE and butyl ChE as supplemental
                                                     Mothers and Children of Salinas Valley                  biomarkers representing internal dose
                                                                                                                                                                   indicators of OP exposure.
                                                     (CHAMACOS) conducted by researchers                     during pregnancy and at delivery, and                   Potential confounding bias is another
                                                     at University of California Berkeley. In                prospectively assessed associations in                major uncertainty within environmental
                                                     these epidemiology studies, mother-                     their newborns and young children                     epidemiology studies. Confounding
                                                     infant pairs were recruited for the                     through age 7 years. Each study                       variables, exposures that could be
                                                     purpose of studying the potential health                includes several hundred                              related to OP exposure and
                                                     effects of environmental exposures                      (approximately 100&ndash;400) mother-infant                 neurodevelopmental outcomes such as
                                                     during pregnancy on subsequent child                    pairs; these sample sizes are sufficient              blood lead, may result in an incorrect
                                                     development. Importantly, each of these                 to perform statistically valid analyses.              epidemiological risk estimate. Across
                                                     cohorts evaluated the association                       Investigators from each study cohort                  these cohort studies, investigators
                                                     between prenatal chlorpyrifos or OP                     utilized a similarly strong study design              collected relevant information
                                                     exposure with adverse                                   (prospective birth cohort); measured                  concerning demographic characteristics
                                                     neurodevelopmental outcomes in                          pesticide exposure using several                      and other environmental exposures, and
                                                     children through age 7 years.                           different methods including                           were, to the extent possible with the
                                                        These studies reflect different types of             environmental indicators as well as                   existing information, able to effectively
                                                     exposed groups in the total population                  specific and non-specific biomarkers of               hold constant the influence of these
                                                     which strengthens the weight of the                     OPs; ascertained developmental                        other variables when estimating the
                                                     evidence considerations regarding this                  outcomes using validated assessment                   association between prenatal
                                                     stream of information. The CCCEH                        tools well-established in both clinical               chlorpyrifos and adverse
                                                     Mother&rsquo;s and Newborn study and the                      and research settings; and, measured,                 neurodevelopmental outcomes. Control
                                                     Mt. Sinai Child Growth and                              analyzed, selected and statistically                  of these variables is important to reduce
                                                     Development study participants were                     adjusted for potentially confounding                  the chances of a false positive study
                                                     likely exposed to OPs through the diet                  variables including socio-economic                    result. Overall, statistical analyses were
                                                     and through residential use of the                      status and other environmental                        judged to be appropriate and reasonable
                                                     pesticide for indoor pest control. In the               exposures using reasonable and                        (not overly large number of statistical
                                                     residential setting, study populations                  appropriate methods. Limitations exist                model variables) to the research
                                                     were most likely exposed through                        as well. These studies utilized a one-                question by EPA and expert Panel
                                                     indoor residential use of the pesticide                 time measure (or the average of two                   reviews (Refs. 9 and 10).
                                                     during the study time period and                        measures) of chlorpyrifos or OP                         Researchers with both the Mt. Sinai
                                                     additionally exposed to OPs via the oral                exposure to assess prenatal pesticide                 and CHAMACOS cohorts evaluated
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                                                     route through ingesting residues in the                 exposure throughout the gestational                   neonatal neurological functioning in
                                                     diet and from hand-to-mouth contact                     period, were unable to assess the                     association with prenatal OP exposure;
                                                     with in-home surfaces, as well as                       influence of mixtures (co-occurring                   CCCEH did not conduct these
                                                     possible dermal or inhalation exposure                  exposures in the relevant biological time             measurements. To measure indices of
                                                     through contact with treated areas in the               window), and reflect a small sample                   abnormal neonatal behavior and/or
                                                     home environment (Refs. 43, 44, 45, and                 size to fully evaluate the effect of more             neurological integrity, the Mt. Sinai and
                                                     46). In contrast, CHAMACOS cohort                       than one simultaneous exposure on                     CHAMACOS authors used outcome
                                                     participants were employed as farm                      neurodevelopment, i.e., evidence of                   measures derived from the Brazelton
                                                     laborers or were residing in homes with                 effect modification.                                  Neonatal Behavioral Assessment Scale


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                                                     (BNBAS), a neurological assessment of                   blacks and Hispanic children; however,                this study population, higher
                                                     28 behavioral items and 18 primitive                    these associations either attenuated or               concentrations of OP metabolites in the
                                                     reflexes. This tool was administered to                 were non-existent at the 24-month visit               urine of pregnant women were
                                                     infants 2&ndash;5 days post-partum by trained                 (Ref. 52). In the CHAMACOS cohort,                    associated with increased odds of
                                                     neonatologists in the hospital setting                  Eskenazi et al. (Ref. 53) observed that               attention problems and poorer attention
                                                     using similar environmental conditions.                 prenatal DAP levels were adversely                    scores in their children at age 5 years.
                                                     The authors with both study groups                      associated with MDI, and at 24 months                 (Ref. 53).
                                                     observed an increased number of                         of age these associations reached                        To measure intelligence among school
                                                     abnormal reflexes in relation to                        statistical significance. In this study,              aged children, authors from each of the
                                                     increasing measures of OP exposure                      neither prenatal DAPs nor maternal                    three children&rsquo;s health cohorts used the
                                                     (Refs. 49 and 50). Among the other 27                   TCPy were associated with PDI (motor                  Wechsler Intelligence Scale for
                                                     measures in the BNBAS, neither study                    skills), nor did authors observe evidence             Children, 4th edition (WISC&ndash;IV). The
                                                     group reported evidence of any other                    of different risk by PON1 status. (Ref.               instrument measures four areas of
                                                     positive associations. The authors also                 54).                                                  mental functioning: The Verbal
                                                     observed evidence of potential effect                      With respect to the findings related to            Comprehension Index, the Perceptual
                                                     modification by PON1 activity level in                  the autism spectrum, from CCCEH,                      Reasoning Index, the Working Memory
                                                     the relation between DAPs and neonatal                  Rauh et al. (Ref. 51) reported a                      Index, and the Processing Speed Index.
                                                     neurodevelopment in which infants of                    statistically significant odds ratio for              A Full-Scale IQ score combines the four
                                                     mothers who are slower metabolizers                     pervasive developmental disorder (PDD)                composite indices. WISC&ndash;IV scores are
                                                     have greater risk of abnormal reflexes                  (OR = 5.39; 95% CI: 1.21&ndash;24.11) when                  standardized against U.S. population-
                                                     (Refs. 49 and 50). However, EPA notes                   comparing high to low chlorpyrifos                    based norms for English and Spanish-
                                                     these studies are likely under-powered                  exposure groups. As described above,                  speaking children. In the CCCEH
                                                     to make a statistically robust estimate of              among 7&ndash;9 years old children in the Mt.               Mothers and Newborn Study, Rauh et
                                                     this statistical interaction.                           Sinai Cohort (Ref. 55), there was no                  al. (Ref. 56) evaluated the relationship
                                                                                                             overall statistically significant                     between prenatal chlorpyrifos exposure
                                                        Researchers across the three
                                                                                                             association between maternal third                    and neurodevelopment among 265 of
                                                     children&rsquo;s health cohorts utilized the
                                                                                                             trimester urinary DAP metabolite levels               the cohort participants who had reached
                                                     Bayley Scales of Infant Development II
                                                                                                             and reciprocal social responsiveness.                 the age of 7 years and had a complete
                                                     (BSID&ndash;II) to generate a Mental                          However, some evidence of                             set of data including prenatal maternal
                                                     Development Index (MDI) and a                           modification of the association between               interview data, prenatal chlorpyrifos
                                                     Psychomotor Development Index (PDI)                     prenatal OP pesticide exposure and                    marker levels from maternal and/or cord
                                                     to assess neurodevelopment in early                     impaired social responsiveness in early               blood samples at delivery, postnatal
                                                     childhood. In the CCCEH Mothers and                     childhood was observed by both race/                  covariates, and neurodevelopmental
                                                     Newborn study, Rauh et al. (Ref. 51)                    ethnicity and child sex, with an                      outcome data (Ref. 56). While models
                                                     investigated MDI and PDI at 12, 24, and                 association between diethyl                           were developed using continuous
                                                     36 months of age. Children were                         alkylphosphate (DEAP) and poorer                      measures of both prenatal chlorpyrifos
                                                     categorized as having either high (&gt;6.17                social responsiveness observed among                  exposure and Wechsler scores, for ease
                                                     pg/g) or low (&le;6.17 pg/g) prenatal                      black participants and boys. No                       of interpretation, investigators reported
                                                     chlorpyrifos exposure, using categories                 association was observed among whites                 that for each standard deviation increase
                                                     informed by results of the previous                     or Hispanics, among girls, or for DAP or              in exposure (4.61 pg/g) there is a 1.4%
                                                     study on birth characteristics (Ref. 52).               dimethyl alkylphosphate (DMAP)                        reduction in Full-Scale IQ and a 2.8%
                                                     Authors reported that the difference in                 biomarker levels. In the CHAMACOS                     reduction in Working Memory. In the
                                                     MDI scores was &lsquo;&lsquo;marginally significant&rsquo;&rsquo;               cohort, Eskenazi et al. (Ref. 54) reported            Mt. Sinai study, prenatal maternal DEP
                                                     (p = 0.06) between the &lsquo;&lsquo;high&rsquo;&rsquo; and                     non-significant, but suggestive,                      urinary metabolite concentrations were
                                                     &lsquo;&lsquo;low&rsquo;&rsquo; exposed groups; the high exposed                increased odds of PDD of 2.0 (0.8 to 5.1;             associated with slight decrements in
                                                     group scoring an average of 3.3 points                  p = 0.14), whereas Eskenazi et al. (Ref.              Full Scale Intelligence Quotient (FSIQ),
                                                     lower than the low exposed (Ref. 51).                   53) reported a statistically significant              Perceptual Reasoning, and Working
                                                     Regarding the PDI score (motor skills),                 association between total DAP exposure                Memory between the ages of 6 and 9
                                                     none of the 12 or 24 month PDI scores                   and increased odds of PDD.                            years, and difference in intelligence
                                                     showed significant effects, but the 36                     With respect to attention problems,                measures by putative PON1 status were
                                                     month score was significantly related to                Rauh et al. (Ref. 50) also investigated 36-           also noted. (Ref. 52). Similarly, in the
                                                     chlorpyrifos exposure. Researchers                      month child behavior checklist (CBCL)                 CHAMACOS cohort, Bouchard et al.
                                                     noted that the effects were most                        (behavioral) scores. Significant                      (Ref. 57) observed evidence of an
                                                     pronounced at the 36 month testing                      differences were observed between the                 association between prenatal exposures
                                                     period. Within the 36 month testing                     high and low chlorpyrifos exposure                    to OPs as measured by urinary DAP
                                                     period, the likelihood of highly exposed                groups in the general category of                     (total DAP, DEP, and DMP) metabolites
                                                     children developing mental delays were                  attention-problems (p = 0.010), and in                in women during pregnancy, and
                                                     significantly greater (MDI: 2.4 times                   the more specific DSM&ndash;IV (Diagnostic                  decreased cognitive functioning in
                                                     greater (95% CI: 1.12&ndash;5.08, p = 0.02)                   and Statistical Manual of Mental                      children at age 7. In this study, children
                                                     and PDI: 4.9 times greater (95% CI:                     Disorders version IV) scale for ADHD                  in the highest quintile of maternal DAP
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                                                     1.78&ndash;13.72; p = 0.002)) than those with                 problems (p = 0.018). The CHAMACOS                    concentrations had a statistically
                                                     lower prenatal exposure (Id.). Within                   cohort also investigated attention                    significant 7 point difference in IQ
                                                     the Mt. Sinai study, authors                            problems in early childhood using three               points compared with those in the
                                                     administered the BSID&ndash;II to                             different assessment tools: maternal                  lowest quintile.
                                                     participating children at 12 and 24                     report of child behavior at 3.5 and 5                    To ascertain whether observed
                                                     months and observed that prenatal total                 years of age; direct assessment of the                differences in neurodevelopment after
                                                     DAP metabolite level was associated                     child at 3.5 and 5 years; and by a                    prenatal chlorpyrifos exposure may be
                                                     with a decrement in mental                              psychometrician&rsquo;s report of the behavior              explained by differences in brain
                                                     development at 12 months among                          of the child during testing at 5 years. In            morphology between exposed groups,


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                                                     the CCCEH study investigators                           10% inhibition of AChE, i.e., the dose                cancellation of chlorpyrifos in the
                                                     compared MRI brain images between                       levels previously used for regulatory                 residential marketplace for whom the
                                                     high and low chlorpyrifos exposed child                 decision making.                                      cord blood chlorpyrifos level was in the
                                                     study participants. (Ref. 58). Authors                     i. Dose-response relationships and                 upper-tertile of pre-cancellation
                                                     determined there were distinct                          temporal concordance. Since the                       exposure levels. The significantly
                                                     morphological differences in brain areas                MOA(s)/AOP(s) is/are not established                  reduced proportion of measured values
                                                     associated with these                                   for neurodevelopmental outcomes, it is                greater than the limit of detection as
                                                     neurodevelopmental outcomes. The                        not possible to describe the concordance              well as the observation of an absence of
                                                     pilot study included 40 child                           in key events or biological steps leading             an association between prenatal
                                                     participants due to strict inclusion and                to neurodevelopmental outcomes. As                    chlorpyrifos exposure and
                                                     exclusion criteria, and the high cost of                such, the quantitative linkages between               neurodevelopmental outcomes among
                                                     performing the imaging studies on each                  molecular initiating events,                          infants born after the voluntary
                                                     child. EPA convened a Federal Panel of                  intermediate steps, and ultimately the                cancellation of chlorpyrifos support the
                                                     experts to perform a written peer-review                adverse outcome (i.e.,                                hypothesis that chlorpyrifos is related to
                                                     of this study. (Ref. 59). The Federal                   neurodevelopmental effects) cannot be                 these outcomes. However, as noted by
                                                     Panel concurred with the authors&rsquo;                       determined. Experimental toxicology                   study authors, EPA, and the FIFRA SAP
                                                     conclusions in general; however the                     studies in rodents suggest that long-term             (Ref. 10), this could also be due to an
                                                     Federal Panel also noted that                           effects from chlorpyrifos exposure may                inadequate sample size to detect a small
                                                     significantly greater and more                          occur. Due to the dose selections in                  to modest effect among the group of
                                                     sophisticated MRI imaging studies                       most of these in vivo studies evaluating              infants born after the voluntary
                                                     would be needed to link the                             effects such as behavior and cognition,               cancellation.
                                                     morphological changes indicated in this                 it is not known whether such adverse                     With respect to the timing of
                                                     study with specific functional outcomes                 effects would be shown at doses lower                 exposure, the cord blood and other
                                                     noted in the CCCEH IQ study.                            than those which elicit 10% RBC AChE                  (meconium) measures from the CCCEH
                                                     Therefore, while generally supportive of                inhibition. It is notable, however, that              study provide evidence that exposure
                                                     the epidemiologic findings, additional                  comparing the lowest NOAEL observed                   did occur to the fetus during gestation
                                                     study is needed to make specific links                  in the in vivo animal studies (0.2 mg/kg/             but the actual level of such exposure
                                                     with areas of brain development change.                 day; Ref. 60) for the                                 during the critical window(s) of
                                                        In sum, across these three children&rsquo;s                neurodevelopmental outcomes to the                    susceptibility is not known. While
                                                     environmental health studies, authors                   repeated dosing reliable BMDL10                       significant uncertainties remain about
                                                     consistently identified associations with               ranging from 0.05&ndash;0.17 mg/kg/day for                  the actual exposure levels experienced
                                                     neurodevelopmental outcomes in                          RBC AChE inhibition suggests that                     by mothers and infant participants in
                                                     relation to OP exposure. There is                       neurodevelopmental outcomes may                       the three children&rsquo;s health cohorts,
                                                     evidence of delays in mental                            occur in the same range as AChE                       particularly during the time period prior
                                                     development in infants (24&ndash;36 months),                  inhibition in rat.                                    to the voluntary cancellation of indoor
                                                     attention problems and autism spectrum                     Within the epidemiology studies, the               residential uses of chlorpyrifos,
                                                     disorder in early childhood, and                        relationship in time between prenatal                 exposures measured in the range
                                                     intelligence decrements in school age                   chlorpyrifos exposure and adverse                     reported in the epidemiology studies
                                                     children who were exposed to                            neurodevelopmental outcomes is                        (pg/g plasma) are likely low enough that
                                                     chlorpyrifos or OPs during gestation.                   concordant. Specifically, with regard to              they were unlikely to have resulted in
                                                     Investigators reported strong measures                  the children&rsquo;s environmental health                   AChE inhibition. The FIFRA SAP (Ref.
                                                     of statistical association across several               epidemiology studies, each of the three               10) concurred with the conclusion that
                                                     of these evaluations (odds ratios 2&ndash;4                   study cohorts utilized a prospective                  measured levels of chlorpyrifos among
                                                     fold increased in some instances), and                  birth cohort study design in which                    epidemiology study participants were
                                                     observed evidence of exposures-                         mothers were recruited into study prior               unlikely to have resulted in AChE
                                                     response trends in some instances, e.g.,                to the birth of the infants and                       inhibition. The urinary TCPy
                                                     intelligence measures.                                  development and identification of                     concentrations among mothers were
                                                        7. Weight-of-Evidence Analysis Across                adverse effects; therefore, it is known               comparable to the general population
                                                     Multiple Lines of Evidence. The                         with certainty that exposure preceded                 levels measured in NHANES.
                                                     discussion above summarized key                         effect. In addition, because the time                 Comparing cord blood concentrations
                                                     scientific information on two different                 period under study within these                       with the concentrations in which AChE
                                                     adverse health outcomes: AChE                           cohorts, and specifically the CCCEH                   inhibition was observed in adult
                                                     inhibition and potential                                study, spanned the point in time in                   volunteers indicates AChE inhibition
                                                     neurodevelopmental effects. The agency                  which pesticide manufacturers                         would likely not have occurred at levels
                                                     has conducted a weight-of-evidence                      voluntarily cancelled the use of                      observed in the epidemiology studies
                                                     (WOE) analysis utilizing the draft                      chlorpyrifos in the home environment,                 (6.17 pg/g). Therefore, while uncertainty
                                                     &lsquo;&lsquo;Framework for Incorporating Human                     researchers were able to show the                     exists as to actual chlorpyrifos exposure
                                                     Epidemiologic &amp; Incident Data in Health                 change in exposure before (high use                   at (unknown) critical windows of
                                                     Risk Assessment&rsquo;&rsquo; in an effort to                       period) and after (low/no use period)                 exposure, EPA believes it is unlikely
                                                     integrate this information in the                       the period of removal of chlorpyrifos                 mothers enrolled in the birth cohort
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                                                     development of an appropriate PoD for                   products from the residential                         studies experienced RBC AChE
                                                     chlorpyrifos. That assessment focuses                   marketplace. Moreover, prior to the                   inhibition (greater than 10%).
                                                     on two key scientific questions: (1) The                voluntary cancellation there were &gt;80%                   The biomarker data from the CCCEH
                                                     degree to which scientific data suggest                 detectable levels of chlorpyrifos in cord             studies are supported by EPA&rsquo;s dose
                                                     that chlorpyrifos causes long-term                      blood but in the time period after the                reconstruction analysis using the PBPK&ndash;
                                                     neurodevelopmental effects from fetal or                cancellation only 16% of the measured                 PD model, which support a conclusion
                                                     early life exposure and (2) the degree to               values were greater than the LOD; there               that indoor application of chlorpyrifos,
                                                     which adverse effects can be attributed                 was only one child born in the time                   when used as allowed prior to
                                                     to doses lower than those which elicit                  period subsequent to the voluntary                    cancellation from the residential


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                                                     marketplace in 2000, likely would not                   behavior studies (1 and 5 mg/kg/day)                  Notably these decrements in PDI persist
                                                     have resulted in RBC AChE inhibition                    are sufficient to elicit approximately                even after adjustment for group and
                                                     greater than 10% in pregnant women or                   &ge;10% brain AChE inhibition and &ge;30%                   individual level socioeconomic
                                                     young children.                                         in RBC AChE inhibition, depending on                  variables (Ref. 69). These investigators
                                                        ii. Strength, consistency, and                       the study design, age of the animal, and              also observed increased odds of mental
                                                     specificity. As stated in the EPA                       sampling time. In the epidemiology                    delay (OR = 2.4; 95% CI: 1.1&ndash;5.1) and
                                                     neurotoxicity guidelines (Ref. 61), direct              studies, based on the comparisons with                psychomotor delay (OR = 4.9; 95% CI:
                                                     extrapolation of developmental                          biomonitoring data and the results of                 1.8&ndash;13.7) at age three when comparing
                                                     neurotoxicity results from laboratory                   the dose-reconstruction analysis, it is               high to low exposure groups. (Ref. 50).
                                                     animals to humans is limited by the lack                unlikely that RBC AChE would have                     Rauh et al. (Ref. 50) also reported large
                                                     of knowledge about underlying                           been inhibited by any meaningful or                   odds ratios for attention disorders (OR
                                                     toxicological mechanisms and the                        measurable amount, if any at all, and                 = 11.26; 95% CI: 1.79&ndash;70.99), ADHD
                                                     relevance of these results to humans.                   most likely none in the brain. This key               (OR = 6.50; 95% CI: 1.09&ndash;38.69), and
                                                     EPA notes consistencies across these                    difference in dose response between the               PDD (OR = 5.39; 95% CI: 1.21&ndash;24.11)
                                                     two databases, although challenges of                   experimental toxicology and                           when comparing high to low
                                                     making a direct comparison between                      epidemiology studies poses challenges                 chlorpyrifos exposure groups. (Ref. 50).
                                                     neurodevelopmental domain inter-                        in interpreting such data. There are a                EPA notes that the magnitude of these
                                                     species remain. It can be assumed that                  number of possible hypotheses such as:                results are so large that they are unlikely
                                                     developmental neurotoxicity effects in                  (1) Limitations of experimental                       to be affected by residual confounding
                                                     animal studies indicate the potential for               laboratory studies which have limited                 although limited sample sizes resulted
                                                     altered neurobehavioral development in                  statistical power due to relatively small             in imprecise estimates.
                                                     humans, although the specific types of                  sample sizes; (2) humans display a                       Decrements in intelligence measures
                                                     developmental effects seen in                           broader array of behaviors and cognitive              were identified in relation to increasing
                                                     experimental animal studies may not be                  abilities than rats, thus limiting the                levels of prenatal chlorpyrifos exposure.
                                                     the same as those that may be produced                  sensitivity of the rat studies; and (3) in            The CCCEH study reported statistically
                                                     in humans. However, considering the                     the epidemiology studies, the timing of               significant decreases of 1.4% in full
                                                     toxicological and epidemiological data                  chlorpyrifos application and blood                    scale IQ and 2.8% in working memory
                                                     in the context of three major                           collections are not coupled&mdash;thus higher               among seven-year olds for each standard
                                                     neurodevelopmental domains                              levels of blood chlorpyrifos were likely              deviation increase in chlorpyrifos
                                                     (specifically, cognition, motor control,                missed (albeit the results of the dose                exposure. (Ref. 56). These results persist
                                                     and social behavior), insights can be                   reconstruction analysis reduce the                    even when performing sensitivity
                                                     gained. For example, chlorpyrifos                       likelihood of this hypothesis).                       analyses including only those with
                                                     studies in rats and/or mice have                           In making a weight-of-the-evidence                 detectable chlorpyrifos levels.
                                                     reported impaired cognition (spatial                    analysis, it is important to consider the                iii. Biological plausibility and
                                                     learning and working memory; e.g.,                      strength of the statistical measures of               coherence. Although MOA(s)/AOP(s)
                                                     Refs. 35 and 38); changes in locomotor                  association between prenatal                          has/have not been established for
                                                     activity levels (exploration, rearing; e.g.,            chlorpyrifos exposure and adverse                     neurodevelopmental outcomes, the
                                                     Refs. 36 and 62); altered social                        neurodevelopmental outcomes through                   growing body of literature does
                                                     interaction (aggression, maternal                       childhood (epidemiology) and possibly                 demonstrate that chlorpyrifos and/or its
                                                     behavior; Refs. 63 and 64); and effects                 into adulthood (animal studies). It is                oxon are biologically active on a number
                                                     on brain morphometrics (Refs. 65 and                    also important to consider the strength               of processes that affect the developing
                                                     66). Similarly, epidemiologic                           of the integrated qualitative and                     brain. Moreover, there is a large body of
                                                     investigations have reported effects on                 quantitative evidence, the consistency                in vivo laboratory studies which show
                                                     cognition (Bayley scale indices; Refs. 50               of the observed associations across                   long-term behavioral effects from early
                                                     and 53), abnormal motor development                     epidemiology studies and considering                  life exposure. EPA considers the results
                                                     in neonates (reflexes, Brazelton score;                 both animal and human data support                    of the toxicological studies relevant to
                                                     Refs. 49 and 48), altered social                        the conclusion that chlorpyrifos plays a              the human population, as qualitatively
                                                     development (e.g., ADHD; Refs. 50 and                   role in adverse neurodevelopmental                    supported by the results of
                                                     67), and MRI brain scans (Ref. 68). It is               outcomes. While it cannot be stated that              epidemiology studies. The lack of
                                                     notable that the laboratory animal                      chlorpyrifos alone is the sole                        established MOA/AOP does not
                                                     studies vary in experimental designs                    contributor to the observed outcomes                  undermine or reduce the confidence in
                                                     such as species, strain, gender, dosing                 (specificity), since other environmental,             the findings of the epidemiology
                                                     regimens (age, routes, vehicle), and test               demographic or psychosocial exposures                 studies. The CCCEH study data are not
                                                     parameters (age, protocol). Likewise,                   may also play a part in these outcomes,               considered in isolation, but rather are
                                                     observational epidemiology studies vary                 this does not obviate the contribution of             strengthened when considered in
                                                     by population characteristics (race/                    prenatal chlorpyrifos exposure in the                 concert with the results from the other
                                                     ethnicity, socio-economic status (SES),                 development of adverse                                two cohort studies, as noted by the
                                                     and pesticide use/exposure profile), co-                neurodevelopmental outcomes as                        FIFRA SAP. (Ref. 10). As noted above,
                                                     exposures (mix of chemicals, windows                    echoed by the FIFRA SAP (Ref. 10).                    the CHAMACOS and Mt. Sinai cohorts
                                                     of exposure), and method of exposure                       The CCCEH study, which measures                    that measured neurological effects at
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                                                     and outcome assessment. Given the                       chlorpyrifos specifically, provides a                 birth (the Brazelton index), observed a
                                                     differences across laboratory animal and                number of notable associations.                       putative association with chlorpyrifos.
                                                     epidemiology studies, the qualitative                   Regarding infant and toddler                          (Ref. 48 and 49). Similarly, while not
                                                     similarity in research findings is                      neurodevelopment, the CCCEH authors                   consistent by age at time of testing
                                                     striking.                                               also reported statistically significant               (ranging from 6 months to 36 months
                                                        In contrast, quantitatively, there are               deficits of 6.5 points on the Bayley                  across the three cohorts), each cohort
                                                     notable differences between animals                     Psychomotor Development Index (PDI)                   reported evidence of impaired mental
                                                     and humans. Specifically, in animals,                   at 3 years of age when comparing high                 and psychomotor development.
                                                     the doses most often used in the                        to low exposure groups (Ref. 50).                     Attentional problems and ADHD were


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				onerror="this.src='https://thefederalregister.org/doc/80_FR_69294/page/17.png'; this.onerror=null" alt="                                                                            Federal Register / Vol. 80, No. 215 / Friday, November 6, 2015 / Proposed Rules                                          69095

                                                     reported by both Columbia and                           they are unlikely to result in AChE                   these adverse neurodevelopmental
                                                     CHAMACOS investigators. Finally, each                   inhibition, as supported by the dose                  outcomes, as noted, it will help EPA
                                                     of the three cohort study authors                       reconstruction analysis of residential                better assess whether the doses (PADs)
                                                     observed an inverse relation between                    use prior to 2000 (although the agency                EPA is proposing to use for regulatory
                                                     the respective prenatal measures of OP                  has not investigated the degree to which              purposes in this proposed rule are
                                                     and intelligence measures at age 7 years.               exposure to multiple AChE-inhibiting                  protective for potential adverse
                                                        iv. Weight of evidence conclusions.                  pesticides indoors simultaneously could               neurodevelopmental effects. While, as
                                                     Key issues being considered by the                      impact this conclusion).                              noted, that assessment is still not
                                                     Agency in its weight-of-evidence                           &bull; Given the totality of the evidence,              complete, because EPA is proposing to
                                                     evaluation of chlorpyrifos toxicity are                 the agency concludes that chlorpyrifos                revoke all tolerances in this proposed
                                                     (1) whether chlorpyrifos causes long-                   likely played a role in the                           rule based on its concern regarding
                                                     term effects from fetal or early life                   neurodevelopmental outcomes reported                  AChE inhibition, it is unnecessary for
                                                     exposure and (2) whether adverse                        in the CCEH study but uncertainties                   EPA to determine at this time whether
                                                     effects can be attributed to doses lower                such as the lack of an established MOA/               its current PADs bound the chlorpyrifos
                                                     than those which elicit 10% inhibition                  AOP for neurodevelopmental effects                    exposures measured in the
                                                     of AChE&mdash;EPA&rsquo;s current regulatory                        and the exposure to multiple AChE-                    epidemiology studies. In any case, as
                                                     point of departure for chlorpyrifos and                 inhibiting pesticides precludes                       EPA completes its further evaluation it
                                                     other OPs. When taken together the                      definitive causal inference.                          will update this action, as warranted.
                                                     evidence from (1) the experimental                         &bull; In light of the uncertainties
                                                     toxicology studies evaluating outcomes                  regarding the relationship of observed                B. Dietary Exposure and Risk
                                                     such as behavior and cognitive function;                neurodevelopmental outcomes to AChE                   Assessment.
                                                     (2) mechanistic data on possible adverse                inhibition, EPA is retaining the 10X                     The general approach for the
                                                     outcome pathways/modes of action; and                   FQPA safety factor.                                   chlorpyrifos dietary exposure and risk
                                                     (3) epidemiologic and biomonitoring                        Following publication of the                       assessment is as follows: The PBPK&ndash;PD
                                                     studies leads the agency to the following               December 2014 RHHRA, EPA received                     model was used to predict acute (24
                                                     conclusions:                                            public comments suggesting that the                   hour) and steady state (21-day) PoDs
                                                        &bull; Qualitatively, these lines of                      uncertainty surrounding the dose-                     which correspond to 10% RBC AChE
                                                     evidence together support a conclusion                  response relationship for                             inhibition for the lifestages relevant to
                                                     that exposure to chlorpyrifos results in                neurodevelopmental effects warranted                  chlorpyrifos risk assessment. The PoDs
                                                     adverse neurodevelopmental outcomes                     the application of a larger safety factor             are then divided by the total uncertainty
                                                     in humans, at least under some                          than the statutory default 10X factor.                factor to determine the PAD.
                                                     conditions.                                             The commenters suggested that EPA&rsquo;s                      For the dietary risk assessment for
                                                        &bull; Quantitatively, the dose-response                  assessment had failed to establish that,              food only, the exposure values resulting
                                                     relationship of AChE inhibition across                  even with the retained 10X FQPA safety                from Dietary Exposure Evaluation
                                                     different life stages is established, but               factor, exposures to chlorpyrifos will                Model (DEEM) and the Calendex model
                                                     MOAs/AOPs for neurodevelopmental                        not result in adverse                                 are compared to the PBPK&ndash;PD-based
                                                     outcomes are not established.                           neurodevelopmental outcomes. Some of                  acute PAD and steady state PAD,
                                                        &bull; The database of in vivo animal                     the commenters suggested that EPA                     respectively. When estimated dietary
                                                     toxicology neurodevelopmental studies                   evaluate available biomonitoring from                 risk estimates exceeds 100% of the PAD
                                                     on adverse outcomes includes only a                     the epidemiologic data to help assess                 there is generally a risk concern.
                                                     small number of studies at doses lower                  whether these outcomes could in fact be                  For the dietary assessment for water,
                                                     than 1 mg/kg/day. Despite this, the                     occurring at levels below EPA&rsquo;s PAD                   a drinking water level of comparison
                                                     agency noted that the BMD values in                     that it is using for purposes of this                 (DWLOC) approach to aggregate risk
                                                     adult (pregnant and nonpregnant)                        proposed rule. EPA is currently in the                was used to calculate the amount of
                                                     female rats (0.05&ndash;0.15 mg/kg/day) are                   process of evaluating the available                   exposure available in the total &lsquo;risk cup&rsquo;
                                                     generally 10-fold or more lower than the                biomonitoring; however, in light of the               for chlorpyrifos oxon in drinking water
                                                     doses where effects on                                  August 10, 2015 PANNA decision that                   after accounting for any chloropyrifos
                                                     neurodevelopmental outcomes in                          orders EPA to respond to the PANNA&ndash;                   exposures from food and/or residential
                                                     laboratory rats are observed.                           NRDC Petition not later than October                  use.
                                                        &bull; With respect to the mechanistic                    31, 2015, EPA has not been able to                       1. Residues of concern. The
                                                     data, there are sparse data to support the              complete that evaluation in advance of                qualitative nature of the residue in
                                                     in vitro to in vivo extrapolation, or the               this proposal. EPA is continuing its                  plants and livestock is adequately
                                                     extrapolation from biological                           evaluation of the available                           understood based on acceptable
                                                     perturbation to adverse consequence,                    biomonitoring and will update this                    metabolism studies with cereal grain
                                                     which significantly limits their                        action to reflect the results of that                 (corn), root and tuber vegetable (sugar
                                                     quantitative use in risk assessment.                    review, if warranted.                                 beets), and poultry and ruminants. The
                                                        &bull; As noted above, the lack of an                        Further, EPA is aware that some                    residue of concern, for tolerance
                                                     established MOA/AOP makes                               commenters on EPA&rsquo;s RHHRA believe                     expression and risk assessment, in
                                                     quantitative use of the epidemiology                    the PBPK&ndash;PD model used to derive                      plants (food and feed) and livestock
                                                     study in risk assessment challenging,                   PoDs is inappropriate for the evaluation              commodities is the parent compound
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                                                     particularly with respect to dose-                      of neurodevelopmental effects, given                  chlorpyrifos.
                                                     response, critical duration of exposure,                that there is no established association                 Based on evidence (various crop field
                                                     and window(s) of susceptibility. Despite                between AChE inhibition and long term                 trials and metabolism studies)
                                                     this uncertainty, the cord blood and                    adverse neurodevelopmental outcomes                   indicating that the metabolite
                                                     other measures (meconium) provide                       observed in recent epidemiology                       chlorpyrifos oxon would be not be
                                                     evidence of exposure to the fetus during                studies. While EPA&rsquo;s evaluation of                    present in edible portions of the crops
                                                     gestation. Moreover, exposure levels in                 biomonitoring from available human                    (particularly at periods longer than the
                                                     the range measured in the epidemiology                  epidemiology studies will not help to                 currently registered PHIs), it is not a
                                                     studies (pg/g) are likely low enough that               further determine the MOA/AOP for                     residue of concern in food or feed at this


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				onerror="this.src='https://thefederalregister.org/doc/80_FR_69294/page/18.png'; this.onerror=null" alt="                                                     69096                          Federal Register / Vol. 80, No. 215 / Friday, November 6, 2015 / Proposed Rules

                                                     time. Also, the chlorpyrifos oxon is not                                 assessment (children of various ages                              Both the acute and steady state
                                                     found on samples in the USDA PDP                                         which differ due to exposure pattern,                          dietary exposure analyses are highly
                                                     monitoring program. In fact, from 2007                                   and adult females of childbearing age).                        refined. The large majority of food
                                                     to 2012, out of several thousand samples                                 The PoDs are then divided by the total                         residues used were based upon U.S.
                                                     of various commodities, only one                                         uncertainty factor to determine the PAD.                       Department of Agriculture&rsquo;s PDP
                                                     sample of potato showed presence of the                                  For food, the residue of concern is                            monitoring data except in a few
                                                     oxon at trace levels, 0.003 ppm where                                    chlorpyrifos (the oxon metabolite is not                       instances where no appropriate PDP
                                                     the LOD was 0.002 ppm, even though                                       an expected residue on foods). The                             data were available. In those cases, field
                                                     there are no registered uses of                                          chlorpyrifos total uncertainty factors are                     trial data were used or tolerance level
                                                     chlorpyrifos on potato in the U.S.                                       100X for adult females (10X FQPA SF                            residues were assumed. The same data
                                                        The oxon metabolite was not found in                                  and 10X intra-species extrapolation                            were used for both the acute and steady
                                                     milk or livestock tissues in cattle and                                  factor) and 40X for the other                                  state analyses. EPA also considered
                                                     dairy cow feeding studies, at all feeding                                populations (10X FQPA SF and 4X                                percent crop treated information. Food
                                                     levels tested, and is not a residue of                                   intra-species extrapolation factor). For                       processing factors from submitted
                                                     concern in livestock commodities.                                        the dietary risk assessment for food                           studies were used as appropriate.
                                                        Oxidation of chlorpyrifos to                                          only, the exposure values resulting from
                                                     chlorpyrifos oxon can occur through                                                                                                        The acute and steady state dietary
                                                                                                                              Dietary Exposure Evaluation Model
                                                     photolysis, aerobic metabolism, and                                                                                                     exposure assessment used percent crop
                                                                                                                              (DEEM) and the Calendex model are
                                                     chlorination as well as other oxidative                                                                                                 treated information from EPA&rsquo;s
                                                                                                                              compared to the PBPK&ndash;PD-based acute
                                                     processes. Because of the toxicity of the                                                                                               Screening Level Usage Analysis (Ref.
                                                                                                                              PAD and steady state PAD, respectively.
                                                     oxon and data indicating that                                                                                                           73) to estimate chlorpyrifos exposures
                                                                                                                              The chlorpyrifos exposure values
                                                     chlorpyrifos rapidly converts to the                                                                                                    from the consumption of food. Reported
                                                                                                                              resulting from dietary modeling are
                                                     oxon during typical drinking water                                                                                                      percent crop treated ranged from &lt;2.5%
                                                                                                                              compared to the PAD. Dietary exposures
                                                     treatment (chlorination), the drinking                                                                                                  to 70%. 100% crop treated was assumed
                                                                                                                              greater than 100% of the PAD are
                                                     water risk assessment considers the                                                                                                     for many crops for which no usage data
                                                                                                                              generally cause for concern and would
                                                     oxon as the residue of concern in treated                                                                                               were available.
                                                                                                                              be considered &lsquo;&lsquo;unsafe&rsquo;&rsquo; within the
                                                     drinking water and assumes 100%                                          meaning of FFDCA section 408(b)(2)(B).                            ii. Acute dietary (food only) risk
                                                     conversion of chlorpyrifos to                                                                                                           assessment. Chlorpyrifos acute (food
                                                     chlorpyrifos oxon. (Ref. 70). This                                         i. Description of residue data used in
                                                                                                                              dietary (food only) assessment. Acute                          only) dietary exposure assessments were
                                                     approach of assuming 100% conversion                                                                                                    conducted using the Dietary Exposure
                                                     of chlorpyrifos to the more toxic                                        and steady state dietary (food only)
                                                                                                                              exposure analyses for chlorpyrifos were                        Evaluation Model software with the
                                                     chlorpyrifos oxon, is a conservative                                                                                                    Food Commodity Intake Database
                                                     approach and thus protective of other                                    conducted using the Dietary Exposure
                                                                                                                              Evaluation Model (DEEM) and Calendex                           DEEM&ndash;FCIDTM, Version 3.16, which
                                                     likely exposure scenarios of chlorpyrifos                                                                                               incorporates consumption data from
                                                     only and chlorpyrifos and chlorpyrifos                                   software with the Food Commodity
                                                                                                                              Intake Database (FCID) (Ref. 90). This                         NHANES/WWEIA. This dietary survey
                                                     oxon.                                                                                                                                   was conducted from 2003 to 2008.
                                                        The chlorpyrifos degradate TCPy is                                    software uses 2003&ndash;2008 food
                                                                                                                              consumption data from NHANES/                                  Acute dietary risk estimates are
                                                     not considered a residue of concern for
                                                                                                                              WWEIA. The most recent previous                                presented below for the sentinel
                                                     this assessment as it does not inhibit
                                                                                                                              dietary assessment was conducted in                            population subgroups for acute risk
                                                     cholinesterase (a separate human health
                                                                                                                              support of the 2011 PHHRA and the                              assessment: infants (&lt;1 year old),
                                                     risk assessment has been performed for
                                                                                                                              ongoing chlorpyrifos registration                              children (1&ndash;2 years old), youths (6&ndash;12
                                                     TCPy, which has its own toxicity
                                                                                                                              review. (Ref. 72). This current analysis                       years old) and adults (females 13&ndash;49
                                                     database). TCPy (derived from triclopyr,
                                                                                                                              reflect the latest consumption data as                         years old). The assessment of these
                                                     chlorpyrifos, and chlorpyrifos-methyl)
                                                                                                                              well as more recent food monitoring and                        index lifestages will be protective for
                                                     was previously assessed on June 6,
                                                                                                                              percent crop treated data. These                               the other population subgroups.
                                                     2002. (Ref. 71).
                                                        2. Dietary (food only) risk assessment.                               analyses were performed for the                                   As Table 2 indicates, EPA believes
                                                     The general approach for the                                             purpose of obtaining food exposure                             that acute dietary risk from food only
                                                     chlorpyrifos (food only) exposure and                                    values for comparison to the                                   does not present a significant risk, as
                                                     risk assessment can be described as                                      chlorpyrifos doses predicted by the                            estimates are all far below 100% of the
                                                     follows: The PBPK&ndash;PD model was used                                      PBPK&ndash;PD model to cause RBC ChEI.                               acute PAD for food (aPADfood) at the
                                                     to predict acute (24 hour) and steady                                    The acute and steady state exposure                            99.9th percentile of exposure. The
                                                     state (21-day) PoDs which correspond to                                  analyses do not include drinking water                         subgroup with the highest risk estimate
                                                     10% RBC AChE inhibition for the index                                    which is assessed separately as                                was females (13&ndash;49 years old) at 3.2%
                                                     lifestages relevant to chlorpyrifos risk                                 discussed in Unit VI.2.B.                                      aPADfood.

                                                                             TABLE 2&mdash;ACUTE DIETARY (FOOD ONLY) EXPOSURE AND RISK ESTIMATES FOR CHLORPYRIFOS

                                                                                                                                                                           aPoDfood 1                             Food
                                                                                                                                                                                             aPADfood 2                       Percent of
                                                                                              Population subgroup                                                                                              exposure 3
                                                                                                                                                                          (ug/kg/day)       (ug/kg/day)                       aPADfood
                                                                                                                                                                                                               (ug/kg/day)
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                                                     Infants (&lt;1 yr) ..................................................................................................             600                 15            0.273            1.8
                                                     Children (1&ndash;2 yrs) ............................................................................................                581                 14            0.423            3.0
                                                     Youths (6&ndash;12 yrs) ............................................................................................                 530                 13            0.189            1.4
                                                     Adults (Females 13&ndash;49 yrs) ............................................................................                        469                4.7            0.150            3.2
                                                        1 Acute point of departure; daily dose predicted by PBPK&ndash;PD model to cause RBC ChEI of 10% for acute dietary (food) exposures.
                                                        2 aPAD  = acute PAD = PoD (Dose predicted by PBPK&ndash;PD model to cause 10% RBC ChEI) &divide; total UF; Total uncertainty factor = 100X for fe-
                                                     males 13&ndash;49 years (10X intraspecies factor and 10X FQPA safety factor) and 40X for other populations (4X intraspecies factor and 10X FQPA
                                                     safety factor).
                                                       3 Acute food only exposure estimates from DEEM (at 99.9th percentile). Refined with monitoring data and %CT.




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				onerror="this.src='https://thefederalregister.org/doc/80_FR_69294/page/19.png'; this.onerror=null" alt="                                                                                    Federal Register / Vol. 80, No. 215 / Friday, November 6, 2015 / Proposed Rules                                                               69097

                                                       iii. Steady state detary (food only) risk                              is selected to be paired with a randomly                       only) exposures for chlorpyrifos were all
                                                     assessment. A chlorpyrifos steady state                                  selected set of residue values for each                        well below 100% ssPADfood (all
                                                     dietary (food only) exposure analysis                                    food consumed. The steady state                                populations, at all percentiles of
                                                     was conducted using Calendex-FCIDTM.                                     analysis calculated exposures for the                          exposure). Only the 99.9th percentile of
                                                     EPA&rsquo;s steady state assessment considers                                  sentinel populations for infant, child,                        exposure is presented in Table 3. For
                                                     the potential risk from a 21-day                                         youths, and adult (infants &lt;1 year,                            the steady state dietary (food only)
                                                     exposure duration using a 3-week                                         children 1&ndash;2 years, youths 6&ndash;12 years,                         exposure analyses, children (1&ndash;2 years
                                                     rolling average (sliding by day) across                                  females 13&ndash;49 years).                                          old) was the population subgroup with
                                                     the year. For this assessment, the same                                     Calendex reported dietary exposures                         the highest risk estimate at 9.7% of the
                                                     food residue values used in the acute                                    for each population subgroup at several                        ssPADfood at the 99.9th percentile of
                                                     assessment were used for the 21-day                                      percentiles of exposure ranging from
                                                                                                                                                                                             exposure.
                                                     duration. In the Calendex software, one                                  10th percentile to 99.9th percentile.
                                                     diary for each individual in the WWEIA                                   Similar to acute risks, the dietary (food

                                                                     TABLE 3&mdash;STEADY STATE DIETARY (FOOD ONLY) EXPOSURE AND RISK ESTIMATES FOR CHLORPYRIFOS
                                                                                                                                                                                                                  Food
                                                                                                                                                                          SSPoDfood 1       ssPADfood 2                       Percent of
                                                                                              Population subgroup                                                                                              exposure 3
                                                                                                                                                                          (ug/kg/day)       (ug/kg/day)                       ssPADfood
                                                                                                                                                                                                               (ug/kg/day)

                                                     Infants (&lt;1 yr) ..................................................................................................             103                2.6            0.186            7.2
                                                     Children (1&ndash;2 yrs) ............................................................................................                 99                2.5            0.242            9.7
                                                     Youths (6&ndash;12 yrs) ............................................................................................                  90                2.2            0.128            5.8
                                                     Adults (Females 13&ndash;49 yrs) ............................................................................                         78               0.78            0.075            9.6
                                                       1 Steady state point of departure; daily dose predicted by PBPK&ndash;PD model to cause RBC ChEI of 10% for steady state (21-day) dietary (food)
                                                     exposures.
                                                       2 ssPAD = Steady state PAD = PoD (Dose predicted by PBPK&ndash;PD model to cause 10% RBC ChEI) &divide; total UF; Total uncertainty factor = 100X
                                                     for females 13&ndash;49 years (10X intraspecies factor and 10X FQPA safety factor) and 40X for other populations (4X intraspecies factor and 10X
                                                     FQPA safety factor).
                                                       3 Steady state (21-day) food only exposure estimates from Calendex (at 99.9th percentile). Refined with monitoring data and %CT.




                                                        As Tables 2 and 3 make clear, EPA                                     chlorpyrifos is labeled for public health                         Residential Handler Exposure. EPA
                                                     does not believe that food exposures to                                  aerial and ground-based fogger ULV                             uses the term &lsquo;&lsquo;handlers&rsquo;&rsquo; to describe
                                                     chlorpyrifos by themselves present a                                     mosquito adulticide applications and                           those individuals who are involved in
                                                     significant risk of AChE inhibition.                                     for golf course turf applications. For the                     the pesticide application process. EPA
                                                     Based on the analysis above, EPA would                                   purpose of residential exposure                                believes that there are distinct tasks
                                                     therefore not be proposing the                                           assessment, the parent compound                                related to applications and that
                                                     revocation of chlorpyrifos if dietary                                    chlorpyrifos is the residue of concern.                        exposures can vary depending on the
                                                     exposures were confined to food. As                                                                                                     specifics of each task. Residential (non-
                                                                                                                                 With respect to bystander exposure,
                                                     outlined below, however, EPA believes                                                                                                   occupational) handlers are addressed
                                                                                                                              EPA&rsquo;s worker protection standard
                                                     that for some portions of the country,                                                                                                  somewhat differently by EPA as
                                                                                                                              prohibits using any pesticide in a way
                                                     food exposures, when aggregated with                                                                                                    homeowners are assumed to complete
                                                     residential exposures and potentially                                    that will contact either workers or
                                                                                                                              bystanders through spray drift. Further,                       all elements of an application without
                                                     more significant drinking water
                                                                                                                              in connection with EPA&rsquo;s 2012 spray                            use of any protective equipment.
                                                     exposures, do present a significant risk
                                                     concern and support revocation of all                                    drift evaluation, EPA imposed                                    Based upon review of all chlorpyrifos
                                                     chlorpyrifos tolerances.                                                 additional no-spray buffers to limit                           registered uses, only the ant and roach
                                                        iv. Residential (non-occupational)                                    deposition of chlorpyrifos through drift                       bait products can be applied by a
                                                     exposure/risk characterization. As                                       in areas adjacent to agricultural fields                       homeowner in a residential setting.
                                                     explained above in Unit V.B.3., in                                       where bystanders may be present                                Because the ant and roach bait products
                                                     assessing dietary risk under the FFDCA,                                  following application. With respect to                         are designed such that the active
                                                     EPA must consider not only direct                                        bystander exposure to volatilized (vapor                       ingredient is contained within a bait
                                                     dietary exposure from food and drinking                                  form) chlorpyrifos following                                   station, the potential for contact with
                                                     water, but also non-occupational                                         application, as noted in Unit VI.A.,                           the chlorpyrifos-containing bait material
                                                     exposures to the pesticide, such as                                      recently submitted rat acute toxicity                          has been eliminated and therefore these
                                                     residential exposure and bystander                                       studies of vapor phase chlorpyrifos                            products do not pose a risk concern.
                                                     exposure from the use of agricultural                                    along with available subchronic vapor
                                                     pesticides. For simplicity, EPA refers to                                phase inhalation studies support a                                Residential Post-Application
                                                     its assessment of all such exposures as                                  conclusion that acute exposure to the                          Exposure. There is the potential for
                                                                                                                              saturated vapor of chlorpyrifos or its                         post-application exposures as a result of
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                                                     its &lsquo;&lsquo;residential exposure assessment.&rsquo;&rsquo;
                                                     For chlorpyrifos, the vast majority of                                   oxon do not result in hazard due to                            being in an environment that has been
                                                     residential use products were cancelled                                  AChE inhibition. Accordingly, EPA                              previously treated with chlorpyrifos.
                                                     as of 2001. Current chlorpyrifos                                         concludes that with the additional no                          Chlorpyrifos can be used in areas
                                                     residential uses now include a granular                                  spray buffer restrictions, risk concerns                       frequented by the general population
                                                     fire ant mound use (commercial                                           to bystanders from spray drift have been                       including golf courses and as an aerial
                                                     applicator only) and ant and roach bait                                  eliminated and therefore bystander                             and ground-based ULV mosquito
                                                     in child-resistant packaging                                             exposures are not included as part of                          adulticide applications made directly in
                                                     (homeowner applicator). Additionally,                                    EPA&rsquo;s aggregate risk assessment.


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				onerror="this.src='https://thefederalregister.org/doc/80_FR_69294/page/20.png'; this.onerror=null" alt="                                                     69098                  Federal Register / Vol. 80, No. 215 / Friday, November 6, 2015 / Proposed Rules

                                                     residential areas. Post-application                        &bull; Children 1 to &lt;2 years old post-                 are the same as selected for derivation
                                                     exposure from residential fire ant                      application incidental oral (object-to-               of PBPK&ndash;PD PoDs for use in assessment
                                                     mound treatment is not quantitatively                   mouth) exposure from contact with toys                of residential exposures.
                                                     assessed here as exposures are                          containing residues from turf following                  The standard body weights are as
                                                     considered to be negligible and do not                  the deposition of chlorpyrifos residues               follows: Youths 11 to &lt;16 years old, 57
                                                     pose a risk concern; these products can                 from public health mosquito adulticide                kg; children 6 to &lt;11 years old, 32 kg;
                                                     only be applied professionally and EPA                  application.                                          and children 1 to &lt;2 years old, 11 kg.
                                                     therefore does not anticipate direct non-                  The following assumptions and                      For adults when an endpoint is not sex-
                                                     occupational exposure with treated ant                  exposure factors served as the basis for              specific (i.e., the endpoints are not
                                                     mounds.                                                 completing the residential post-                      based on developmental or fetal effects)
                                                       In the RHHRA which supports this                      application risk assessment. These                    a body weight of 80 kg is typically used
                                                     rule, EPA has updated the post-                         assumptions and factors are described                 in risk assessment. However, in this
                                                     application exposure assessment to                      in detail in the updated occupational                 case, a female-specific body weight of
                                                     reflect: (1) Use of the PBPK&ndash;PD model                   and residential exposure and risk                     69 kg was used. While the endpoint of
                                                     for determining toxicological PoDs; (2)                 assessment. (Ref. 74).                                concern, RBC AChE inhibition, is not
                                                     use of the 2012 Residential SOPs (Ref.                     Exposure Duration: Residential post-               sex-specific, the female body weight
                                                     28); (3) use of the AgDISP model for                    application exposures to chlorpyrifos                 was used due to concerns for
                                                     estimation of airborne concentrations                   are assumed to be steady state (i.e., 21              neurodevelopmental effects related to
                                                     and residue dissipation following                       days or longer).                                      early life exposure to chlorpyrifos.
                                                                                                                The application of mosquitocide in                    Post-application exposures from
                                                     chlorpyrifos mosquito adulticide
                                                                                                             residential areas may result in the                   golfing have been assessed using the
                                                     applications; (4) updated methodology
                                                                                                             potential for post-application inhalation             2012 Residential SOPs and with use of
                                                     for determining the airborne
                                                                                                             exposures. The aerosolized particulate                exposure data from a chemical-specific
                                                     concentration of active ingredient
                                                                                                             remaining following application is                    turf transferable residue (TTR) study.
                                                     following ground-based mosquito
                                                                                                             assumed to persist for no longer than                 The study was conducted with an
                                                     adulticide applications; and (5) use of
                                                                                                             one hour in proximity of the application              emulsifiable concentrate, a granular,
                                                     updated body weights for all residential
                                                                                                             source and, accordingly, would be most                and a wettable powder formulation.
                                                     populations assessed.
                                                                                                             appropriately defined as acute in                     Only the emulsifiable concentrate and
                                                       In addition, EPA utilized only steady                 duration. However, this assessment                    granular data were used because there
                                                     state durations of exposure in the                      assumes that post-application inhalation              are no currently registered wettable
                                                     updated residential assessment. The                     exposures are steady state which is a                 powder formulations. The study was
                                                     steady state endpoint selection for                     highly conservative approach given how                conducted in 3 states, California,
                                                     chlorpyrifos overlaps EPA&rsquo;s traditional                 infrequently mosquitocides are                        Indiana and Mississippi, with use of the
                                                     short-term exposure duration endpoint                   repeatedly applied to the same locations              emulsifiable concentrate and wettable
                                                     selection and is considered health                      and how rapidly aerosols dissipate after              powder formulations. Exposure was
                                                     protective for both short- and                          these types of applications. The                      estimated by normalizing Day 0 TTR
                                                     intermediate-term exposures.                            parameters used to define this exposure               measures from study application rates to
                                                       The quantitative exposure/risk                        scenario in the PBPK&ndash;PD model                         the current maximum application rate
                                                     assessment for residential post-                        conservatively reflect daily, one hour                allowable by the label. Chlorpyrifos
                                                     application exposures is based on the                   exposures for 21 days.                                oxon residues were not analyzed.
                                                     following scenarios:                                       Application Rates: In order to seek                   The post-application exposure
                                                     Golf Course Use (Emusifiable                            clarification of chlorpyrifos usage, the              potential from public health mosquito
                                                     Concentrate (EC) and Granular (G)                       agency compiled a master use summary                  adulticide applications has been
                                                     Formulations)                                           document reflective of the use profile of             considered for both ground based truck
                                                                                                             all active product labels. The document,              foggers and aerial applications. For
                                                       &bull; Children 6 to &lt;11 years old, youths                 among other information, presents all                 assessment of the mosquito adulticide
                                                     11 to &lt;16 years old, and adult post-                    registered uses of chlorpyrifos and                   use, the algorithms and inputs
                                                     application dermal exposure from                        corresponding maximum single                          presented in the 2012 Residential SOP
                                                     contact with treated turf while golfing.                application rates, equipment types,                   Lawns/Turf section were used coupled
                                                     Public Health Mosquito Adulticide Use                   restricted entry intervals (REIs), etc.               with the available TTR data described
                                                     (Aerial and Ground Applications)                        This assessment assumes that the                      above. The deposition of chlorpyrifos
                                                                                                             detailed information on application                   from these applications are not based on
                                                       &bull; Children 1 to &lt;2 years old and adult                rates and use patterns presented in                   the application rate alone, but also using
                                                     post-application dermal exposure from                   Appendix 9 (Master Use Summary                        the AgDISP (v8.2.6) model (aerial
                                                     contact with turf following the                         Document) in support of the 2014                      applications, the currently
                                                     deposition of chlorpyrifos residues from                RHHRA will be implemented on all                      recommended model for assessment of
                                                     public health mosquito adulticide                       chlorpyrifos labels and is the basis of               mosquito adulticide applications) or
                                                     application.                                            the occupational and residential risk                 empirical data (ground applications) to
                                                       &bull; Children 1 to &lt;2 years old and adult                assessment. If, for any reason, the final             determine how much pesticide is
                                                     post-application inhalation exposure                    chlorpyrifos labels contain higher                    deposited on residential lawns as a
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                                                     from airborne chlorpyrifos following                    application rates, the actual risks posed             result of mosquito adulticide treatments
                                                     public health mosquito adulticide                       by those products may exceed the risks                at the maximum application rates for
                                                     application.                                            estimated in this assessment.                         each. The TTR data are then used to
                                                        &bull; Children 1 to &lt;2 years old post-                      Body Weights: The body weights                     determine the fraction of the total
                                                     application incidental oral (hand-to-                   assumed for this assessment differ from               residue deposited following the
                                                     mouth) exposure from contact with turf                  those used in 2011 residential exposure               mosquitocide application which can
                                                     following the deposition of chlorpyrifos                assessment and are based on the                       result in exposures to impacted
                                                     residues from public health mosquito                    recommendations of the 2012                           individuals. Inhalation exposures are
                                                     adulticide application.                                 Residential SOPs. These body weights                  also estimated using AgDrift for aerial


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                                                     application and a recently developed                                         deposition rate of 5 percent of the                                                     to-mouth, object-to-mouth, and soil
                                                     well-mixed box (WMB) model approach                                          application rate to evaluate ground-                                                    ingestion) should be considered inter-
                                                     for outdoor foggers.                                                         based ULV applications (i.e., 5 percent                                                 related, as it is likely that these
                                                        EPA used the AgDISP (v8.2.6) model                                        of the target application rate deposits on                                              exposures are interspersed over time
                                                     to estimate the deposition of                                                turf). A value slightly higher than the                                                 and are not each occurring
                                                     chlorpyrifos from aerial applications                                        mean values for both studies was                                                        simultaneously. Combining all three of
                                                     and the airborne concentration of                                            selected because of the variability in the                                              these scenarios with the dermal and
                                                     chlorpyrifos following public health                                         data and the limited number of data                                                     inhalation exposure scenarios would be
                                                     mosquitocide application. AgDISP                                             points. The adjusted application rate                                                   unrealistic because of the conservative
                                                     predicts the motion of spray material                                        was then used to define TTR levels by                                                   nature of each individual assessment.
                                                     released from aircraft, and determines                                       scaling the available TTR data as                                                       Therefore, the post-application exposure
                                                     the amount of application volume that                                        appropriate.
                                                                                                                                                                                                                          scenarios that were combined for
                                                     remained aloft and the amount of the                                            In order to calculate airborne
                                                     resulting droplets deposited on the                                          concentrations from ULV truck fogger                                                    children 1 &lt;2 years old are the dermal,
                                                     surfaces in the treatment area, as well as                                   applications, EPA used the 2012                                                         inhalation, and hand-to-mouth
                                                     downwind from the treatment area. The                                        Residential SOPs for Outdoor Fogging/                                                   scenarios (the highest incidental oral
                                                     model also allows for the estimation of                                      Misting Systems, with minimal                                                           exposure expected). This combination
                                                     air concentrations in the breathing                                          modification to the well-mixed box                                                      should be considered a protective
                                                     zones of adults and children for use in                                      (WMB) model. The WMB model allows                                                       estimate of children&rsquo;s exposure to
                                                     calculating the post-application                                             for the estimation of air concentrations                                                pesticides.
                                                     inhalation risks to individuals residing                                     in the breathing zones of adults and                                                       Summary of Residential Post-
                                                     in areas being treated by aerial                                             children for use in calculating the post-                                               application Non-Cancer Exposure and
                                                     application of chlorpyrifos. The aerial                                      application inhalation exposure to                                                      Risk Estimates. The assessment of
                                                     fraction of the mosquito adulticide                                          individuals residing in areas being                                                     steady state golfer post-application
                                                     application rate applied (0.010 lb ai/A)                                     treated by ground application of                                                        exposures (dermal only) to chlorpyrifos
                                                     is 0.35 (i.e., 35 percent of application                                     chlorpyrifos. This methodology is a                                                     treated turf for the lifestages adults,
                                                     rate is deposited on turf); and the                                          modification of the previous method                                                     children 6 to &lt;11 years old, and youths
                                                     airborne concentration at the breathing                                      used in the 2011 occupational and                                                       11 to &lt;16 years old, results in no risks
                                                     height of adults and children of                                             residential exposure assessment to
                                                                                                                                                                                                                          of concern (i.e., children 6 to &lt;11 and
                                                     chlorpyrifos 1 hour following aerial                                         evaluate post-application inhalation
                                                                                                                                                                                                                          youths 11 to &lt;16 years old, MOEs are
                                                     mosquito adulticide application is                                           exposure resulting from truck mounted
                                                     0.00060 mg/m3.                                                               mosquito fogger. The revised                                                            &ge;40; adults, MOEs are &ge;100). For the
                                                        EPA used empirical data to derive the                                     methodology more accurately accounts                                                    assessment of post-application
                                                     ground-based deposition of chlorpyrifos                                      for dilution.                                                                           exposures from public health
                                                     following public health mosquitocide                                            Combining Residential Exposure and                                                   mosquitocide applications, no
                                                     application. These data, conducted by                                        Risk Estimates. Since dermal, incidental                                                combined risks of concern were
                                                     Moore et al. (Ref. 75) and Tietze et al.                                     oral, and inhalation exposure routes                                                    identified for adults (dermal and
                                                     (Ref. 76), measured the deposition of                                        share a common toxicological endpoint,                                                  inhalation) and children 1 to &lt;2 years
                                                     malathion via ULV ground equipment                                           RBC AChE inhibition risk estimates                                                      old (dermal, incidental oral, and
                                                     as applied for mosquito control. Based                                       have been combined for those routes.                                                    inhalation). A summary of risk estimates
                                                     on these data, EPA used an off-target                                        The incidental oral scenarios (i.e., hand-                                              is presented in Table 4.
                                                            TABLE 4&mdash;RESIDENTIAL POST-APPLICATION NON-CANCER EXPOSURE AND RISK ESTIMATES FOR CHLORPYRIFOS
                                                                                 Post-application exposure scenario                                                                      State                     Dose                                 Combined             Combined
                                                          Lifestage                                                                               Application rate 1                                                                     MOEs 4
                                                                                                                                                                                      (TTR data)                (mg/kg/day) 3                            routes 5             MOEs 6
                                                                                     Use site                  Route of exposure

                                                     Adult (Females) .....   Golf Course Turf ..               Dermal ..................         1.0 (Emulsifiable                   CA ..............      0.010 ....................          1,400         NA                          NA
                                                                                                                                                   Concentrate).                     IN ................    0.0069 ..................           2,100   ..................   ..................
                                                                                                                                                                                     MS ..............      0.012 ....................          1,200   ..................   ..................
                                                                                                                                                                                     Mean ..........        0.0095 ..................           1,500   ..................   ..................
                                                     Youths 11 to &lt;16        ...............................   ...............................   ...............................     CA ..............      0.010 ....................          1,600   ..................   ..................
                                                       yrs old.
                                                                                                                                                                                    IN ................     0.0069 ..................           2,300   ..................   ..................
                                                                                                                                                                                    MS ..............       0.012 ....................          1,400   ..................   ..................
                                                                                                                                                                                    Mean ..........         0.0096 ..................           1,700   ..................   ..................
                                                     Children 6 to &lt;11       ...............................   ...............................   ...............................    CA ..............       0.012 ....................          2,100   ..................   ..................
                                                       years old.
                                                                                                                                                                                    IN ................     0.0082 ..................           3,100   ..................   ..................
                                                                                                                                                                                    MS ..............       0.014 ....................          1,800   ..................   ..................
                                                                                                                                                                                    Mean ..........         0.011 ....................          2,200   ..................   ..................
                                                     Adult (Females) .....   ...............................   ...............................   1.0 (Granular) .......             CA ..............       0.0088 ..................           1,600   ..................   ..................
                                                     Youths 11 to &lt;16        ...............................   ...............................   ...............................     ....................   0.0088 ..................           1,900   ..................   ..................
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                                                       yrs old.
                                                     Children 6 to &lt;11       ...............................   ...............................   ...............................     ....................   0.010 ....................          2,400   ..................   ..................
                                                       years old.
                                                     Adult (Females) .....   Aerial and Ground                 Dermal ..................         0.010 (Aerial) ........            MS ..............       0.00052 ................           75,000          X                      9,100
                                                                               Based ULV                       Inhalation ..............                                            NA ..............       0.00060 (mg/m3) ..                 10,300          X
                                                                               Mosquitocide
                                                                               Applications.
                                                     Children 1 to &lt;2 yrs    Mosquitocide Ap-                  Dermal ..................         ...............................     MS ..............      0.00088 ................          210,000          X                      2,300
                                                       old.                    plications.                     Inhalation ..............                                             NA 2 ............      0.00060 (mg/m3) ..                  4,000          X




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                                                           TABLE 4&mdash;RESIDENTIAL POST-APPLICATION NON-CANCER EXPOSURE AND RISK ESTIMATES FOR CHLORPYRIFOS&mdash;
                                                                                                      Continued
                                                                                 Post-application exposure scenario                                                               State                 Dose                              Combined    Combined
                                                          Lifestage                                                                         Application rate 1                 (TTR data)            (mg/kg/day) 3
                                                                                                                                                                                                                             MOEs 4        routes 5    MOEs 6
                                                                                     Use site                  Route of exposure

                                                                                                               Hand-to-Mouth .....         ...............................    MS ..............   0.000018 ..............         5,600       X
                                                                                                               Object-to-Mouth ....        ...............................    MS ..............   5.5 &times; 10&yen;7 ............       180,000      NA                  NA
                                                                                                               Soil Ingestion ........     ...............................    NA 2 ............   1.2 &times; 10&yen;7 ............     4,900,000      NA                  NA
                                                     Adult (Females) .....   ...............................   Dermal ..................   0.010 (Ground) .....               MS ..............   0.000074 ..............       520,000       X               1,200
                                                                                                               Inhalation ..............   ...............................    NA ..............   0.0051 (mg/m3) ....             1,200       X
                                                     Children 1 to &lt;2 yrs    ...............................   Dermal ..................   ...............................    MS ..............   0.00013 ................    1,500,000       X                   460
                                                       old.                  ...............................   Inhalation ..............   ...............................    NA ..............   0.0051 (mg/m3) ....               460       X       ..................
                                                                                                               Hand-to-Mouth .....         ...............................    MS ..............   2.6 &times; 10&yen;6 ............        39,000       X
                                                                                                               Object-to-Mouth ....        ...............................    MS ..............   7.9 &times; 10&yen;8 ............     1,300,000      NA                    NA
                                                                                                               Soil Ingestion ........     ...............................    NA 2 ............   1.7 &times; 10&yen;8 ............    34,000,000      NA                    NA
                                                       1 Based   on the maximum application rates registered for golf course turf and ULV mosquito adulticide uses.
                                                       2 The  airborne concentrations of chlorpyrifos following ULV mosquito adulticide applications was determined with use of the AgDISP (v8.2.6) model.
                                                       3 Dose  (mg/kg/day) equations for golfing and mosquitocide applications are provided in Appendices B and C (Ref. 1) of the updated occupational and residential ex-
                                                     posures assessment. For calculation of doses (i.e., dermal, hand-to-mouth, and object-to-mouth) from exposure to ULV mosquito adulticide, TTR data was used. The
                                                     MS TTR data was selected for use because it is the worst case and, as a result, most protective of human health. Additionally, the fraction of chlorpyrifos residue de-
                                                     posited following mosquitocide application, 35% (0.35), was determined with use of the AgDISP (v8.2.6) model and used for dose calculation. The fraction of
                                                     chlorpyrifos deposited following ground ULV application, 5% (0.050), is based on surrogate exposure data (malathion). For dose estimation from exposures to golfing
                                                     on treated turf, on the TTR data was used. Doses have been presented for all State sites, including the mean of all State sites.
                                                       4 MOE = PoD (mg/kg/day) &divide; Dose (mg/kg/day).
                                                       5 X indicates the exposure scenario is included in the combined MOE; NA = Not applicable.
                                                       6 Combined MOE = 1 &divide; (1/dermal MOE) + (1/inhalation MOE) + (1/incidental oral MOE), where applicable.




                                                        v. Aggregating exposures and                                             The DWLOC approach for this                                                  exposure is 50X. In this approach, the
                                                     developing the drinking water level of                                    proposed rule uses a reciprocal MOE                                            aggregate, or &lsquo;total&rsquo;, ARI value is
                                                     concern. Consistent with FFDCA section                                    calculation method for adults (females                                         assigned as 1 (EPA is generally
                                                     408(b)(2)(D)(vi), EPA considers and                                       of childbearing age) since the target                                          concerned when any calculated ARIs
                                                     aggregates (adds) pesticide exposures                                     MOEs are the same for all relevant                                             are less than 1). Similar to the reciprocal
                                                     and risks from three major sources:                                       sources of exposure, i.e., 100X for                                            MOE approach, the ARIs for food and
                                                     Food, drinking water, and residential                                     residential dermal and for dietary food                                        dermal are deducted from the aggregate
                                                     exposures. In an aggregate assessment,                                    and water. This entails calculating the                                        ARI to determine the ARI for water. The
                                                     exposures from relevant sources are                                       MOE for water (MOEwater) by                                                    water ARI is multiplied by the target
                                                     added together and compared to                                            deducting the contributions from food                                          MOE for water to determine the
                                                     quantitative estimates of hazard, or the                                  (MOEfood) and residential dermal                                               calculated water MOE (MOEwater). The
                                                     risks themselves can be aggregated. The                                   exposure (MOEdermal) from the                                                  DWLOC is then calculated by dividing
                                                     durations of exposure identified for                                      aggregate MOE (MOEagg) of 100. The                                             the PoDwater by the MOEwater. The
                                                     chlorpyrifos uses are acute and steady                                    aggregate MOE value is the same as                                             general ARI method formula is as
                                                     state. The acute aggregate assessment                                     target MOE (level of concern). The                                             follows:
                                                     includes high end exposure values for                                     DWLOC is then calculated by dividing                                             ARIs for food or dermal are calculated
                                                                                                                               the PoDwater by the MOEwater. The                                              as ARIfood or dermal = (MOEfood or
                                                     food and drinking water but does not
                                                                                                                               general reciprocal MOE formula is as                                           dermal)/(MOEtarget for food or
                                                     include residential exposure estimates.
                                                                                                                               follows:                                                                       dermal)).
                                                     The steady state aggregate assessment
                                                     includes food, drinking water, and                                        MOEagg = 1/((1/MOEwater) + (1/                                                 ARIagg = 1/((1/ARIwater) + (1/ARIfood)
                                                     residential exposures and for                                                  MOEfood) + (1/MOEdermal))                                                      + (1/ARIdermal))
                                                                                                                               MOEwater = 1/((1/MOEagg)&yen;((1/
                                                     chlorpyrifos it is protective of the acute                                                                                                               ARIwater = 1/((1/ARIagg)&yen;((1/ARIfood)
                                                                                                                                    MOEfood) + (1/MOEdermal)))
                                                     aggregate risks because examination                                                                                                                           + (1/ARIdermal))); Where ARIagg =
                                                                                                                               DWLOC= PoDwater/MOEwater
                                                     indicates it results in higher risk                                                                                                                           1
                                                                                                                                 When target MOEs (levels of concern)
                                                     estimates for all situations&mdash;so in effect                                                                                                                MOEwater = ARIwater &times; MOEtarget.
                                                     acute residential exposures have also                                     are not the same across the relevant
                                                                                                                               sources of exposure, the reciprocal MOE                                        DWLOC = PoDwater/MOEwater
                                                     been considered in the aggregate risk
                                                                                                                               approach for calculating DWLOCs is not                                           Determination of Acute DWLOC. The
                                                     assessment process.
                                                                                                                               appropriate; instead an aggregate risk                                         acute aggregate assessment includes
                                                        For purposes of this proposed rule,                                    index (ARI) method is used. For                                                only food and drinking water. The acute
                                                     EPA is using a DWLOC approach to                                          purposes of this proposed rule, EPA                                            DWLOCs were calculated for infants,
                                                     aggregate risk. Under this approach,                                      therefore employed the ARI method for                                          children, youths, and adults and are
                                                     EPA calculates the amount of exposure                                     infants, children, and youths because                                          presented in Table 5. The lowest acute
                                                     available in the total &lsquo;risk cup&rsquo; for                                     the target MOEs for the relevant sources                                       DWLOC calculated was for infants (&lt;1
                                                     chlorpyrifos oxon in drinking water
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                                                                                                                               of exposure are not the same i.e., the                                         year old) at 24 ppb. Acute exposures
                                                     after accounting for any chlorpyrifos                                     target MOE for dietary food and for                                            greater than 24 ppb are generally
                                                     exposures from food and/or residential                                    residential dermal exposures is 40X                                            considered a risk concern and unsafe for
                                                     use.                                                                      while the target MOE for drinking water                                        purposes of FFDCA section 408(b).




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                                                                              TABLE 5&mdash;ACUTE AGGREGATE (FOOD AND DRINKING WATER) CALCULATION OF DWLOCS 1 2
                                                                                                                                           Food exposure                     Drinking water exposure
                                                                                                                                           (chlorpyrifos) 3                       (chlorpyrifos) 4                Acute DWLOC 5
                                                                                Population                                                                                                                     (ppb chlorpyrifos oxon)
                                                                                                                                      MOE                  ARI               MOE               ARI

                                                     Infants 1 (&lt;1 yr) ....................................................                 2200                 55                 50                 1.0                          24
                                                     Children 1 (1&ndash;2 yrs) ..............................................                    1400                 35                 50                 1.0                          60
                                                     Youths 1 (6&ndash;12 yrs) ..............................................                     2800                 70                 50                 1.0                         150
                                                     Adults 2 (Females 13&ndash;49 yrs) ...............................                           3100                 NA                100                 NA                           53
                                                        1 DWLOCs for infants, children and youths are calculated using the ARI (Aggregate Risk Index) approach since target MOEs are different for
                                                     drinking water (chlorpyrifos oxon target MOE = 50) and for food and residential (chlorpyrifos target MOE = 40) exposure.
                                                        2 DWLOCs for adults (females 13&ndash;49 years) are calculated using the reciprocal MOE approach since the target MOEs are the same for drink-
                                                     ing water (chlorpyrifos oxon target MOE = 100) and for food and residential (chlorpyrifos target MOE = 100) exposure.
                                                        3 FOOD: MOEfood = PoDfood (ug/kg/day) (from Table 4.8.4)/Food Exposure (ug/kg/day) (from Table 5.4.3). ARIfood = ((MOEfood)/
                                                     (MOEtarget)).
                                                        4 WATER (ARI approach): ARIwater = 1/((1/ARIagg)&yen;((1/ARIfood) + (1/ARIdermal))); Where ARIagg = 1 (Note: EPA is generally concerned
                                                     when calculated ARIs are less than 1). MOEwater = ARIwater &times; MOEtarget. WATER (Reciprocal MOE approach): MOEwater = 1/((1/
                                                     MOEagg)&yen;((1/MOEfood) + (1/MOEdermal))); Where MOEagg =Target MOE.
                                                        5 DWLOC: DWLOC ppb = PoDwater (ppb; from Table 4.8.4)/MOEwater.




                                                        Determination of Steady State                                         residential exposures). The steady state               chlorpyrifos oxon in drinking water at
                                                     DWLOC. The steady state aggregate                                        DWLOCs were calculated for infants,                    levels that exceed the steady state
                                                     assessment includes dietary exposures                                    children, youths, and adults and are                   DWLOC of 3.9 ppb are therefore a risk
                                                     from food and drinking water and                                         presented in Table 6. The lowest steady                concern and are considered unsafe for
                                                     dermal exposures from residential uses                                   state DWLOC calculated was for infants                 purposes of FFDCA section 408(b).
                                                     (dermal exposures represent the highest                                  (&lt;1 year old) at 3.9 ppb. Exposures to

                                                              TABLE 6&mdash;STEADY STATE AGGREGATE (FOOD, DRINKING WATER, RESIDENTIAL) CALCULATION OF DWLOCS 1 2
                                                                                                       Food exposure                                Dermal exposure                   Drinking water exposure            Steady state
                                                                                                       (chlorpyrifos) 3                              (chlorpyrifos) 4                   (chlorpyrifos oxon) 5             DWLOC 6
                                                              Population                                                                                                                                                     (ppb
                                                                                                                                                                                                                         chlorpyrifos
                                                                                                 MOE                          ARI                MOE                   ARI             MOE                   ARI            oxon)

                                                     Infants 1 (&lt;1 yr) ............                       550                         14                 NA                  NA               55                   1.1             3.9
                                                     Children 1 (1&ndash;2 yrs) ......                          410                         10                 NA                  NA               55                   1.1             10
                                                     Youths 1 (6&ndash;12 yrs) ......                           700                         18               1800                  45               55                   1.1              16
                                                     Adults 2 (Females 13&ndash;
                                                        49 yrs) ......................                   1000                        NA                1200                  NA              120                   NA              7.8
                                                        1 DWLOCs   for infants, children and youths are calculated using the ARI (Aggregate Risk Index) approach since target MOEs are different for
                                                     drinking water (chlorpyrifos oxon target MOE = 50) and for food and residential (chlorpyrifos target MOE = 40) exposure.
                                                        2 DWLOCs for adults (females 13&ndash;49 years) are calculated using the reciprocal MOE approach since the target MOEs are the same for drink-
                                                     ing water (chlorpyrifos oxon target MOE = 100) and for food and residential (chlorpyrifos target MOE = 100) exposure.
                                                        3 FOOD: MOEfood = PoDfood (ug/kg/day) (from Table 4.8.4)/Food Exposure (ug/kg/day) (from Table 5.4.4). ARIfood = ((MOEfood)/
                                                     (MOEtarget)).
                                                        4 DERMAL: MOEdermal = PoDdermal (ug/kg/day) (from Table 4.8.4)/Dermal Exposure (ug/kg/day) (from Table 6.2). ARIdermal = ((MOE der-
                                                     mal)/(MOEtarget)).
                                                        5 WATER (ARI approach): ARIwater = 1/((1/ARIagg)&yen;((1/ARIfood) + (1/ARIdermal))); Where ARIagg = 1 (Note: EPA is generally concerned
                                                     when calculated ARIs are less than 1). MOEwater = ARIwater &times; MOEtarget. WATER (Reciprocal MOE approach): MOEwater = 1/((1/
                                                     MOEagg)&yen;((1/MOEfood) + (1/MOEdermal))); Where MOEagg = Target MOE.
                                                        6 DWLOC: DWLOC ppb = PoDwater (ppb; from Table 4.8.4)/MOEwater.




                                                        vi. Estimating aggregate risk&ETH;                                        DWLOCs were compared to the                            EDWC, it is possible that for some
                                                     comparing DWLOCs to estimated                                            modeled EDWCs (based on a national                     limited numbers of use scenarios, the
                                                     drinking water concentrations. In a                                      screen). The calculated steady state                   EDWC could result in an exceedance of
                                                     DWLOC aggregate risk assessment, the                                     DWLOCs are much lower than those for                   the acute DWLOC, but not the steady
                                                     calculated DWLOC is compared to the                                      the acute. For example, for infants, the               state DWLOC. However, because EPA is
                                                     EDWC. When the EDWC is less than the                                     lowest acute DWLOC is 24 ppb while                     proposing to revoke all tolerances based
                                                     DWLOC, there are no risk concerns for                                    the lowest steady state DWLOC is 3.9                   on the steady state DWLOC, it is
                                                     exposures to the pesticide in drinking                                   ppb (Tables 5 and 6). Since the lowest                 unnecessary to address that issue at this
                                                     water. Conversely, when the EDWC is                                      DWLOC calculated for any duration or                   time.
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                                                     greater than the DWLOC, there may be                                     population was the 3.9 ppb steady state                  EDWCs in Groundwater and Surface
                                                     a risk concern. For chlorpyrifos,                                        exposure value (infants), it is the                    Water. EPA conducted a national
                                                     DWLOCs were calculated for both the                                      concentration used for comparison to                   screening level drinking water
                                                     acute and steady state aggregate                                         EPA&rsquo;s modeled EDWCs. Drinking water                    assessment for both groundwater and
                                                     assessments for infants, children, youths                                concentrations of chlorpyrifos oxon                    surface water, with focus on the
                                                     and adult females. However, for the                                      above 3.9 ppb may therefore be unsafe.                 agricultural uses. For both assessments,
                                                     national screening level drinking water                                  Were EPA to conduct further analyses                   EPA calculated EDWCs for chlorpyrifos
                                                     assessment, only the steady state                                        that compared all acute exposures to                   and chlorpyrifos oxon. Chlorpyrifos


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                                                     EDWCs were multiplied by 0.9541                         to assess the removal or transformation               drinking water level of concern
                                                     (molecular weight correction factor) and                of chlorpyrifos during treatment. These               (DWLOC); whereas, chlorpyrifos
                                                     100% (maximum conversion during                         processes are not specifically designed               applications to bulb onions in Georgia
                                                     water purification) to generate                         to remove pesticides and pesticide                    resulted in concentrations below the
                                                     chlorpyrifos oxon EDWCs. EPA used a                     transformation products including                     DWLOC. To investigate with more
                                                     100% conversion factor for the                          chlorpyrifos and chlorpyrifos oxon. In                specificity whether other chlorpyrifos
                                                     oxidation of chlorpyrifos to chlorpyrifos               general, drinking water treatment                     application scenarios may result in
                                                     oxon as an approximation based on                       processes, with the exception of                      concentrations that exceed the DWLOC,
                                                     empirical bench scale laboratory data                   activated carbon (Ref. 82), have been                 a screen (A risk assessment screen is a
                                                     that indicate chlorpyrifos rapidly                      shown to have little impact on removal                procedure designed to quickly separate
                                                     oxidizes to form chlorpyrifos oxon                      of conventional pesticides.                           out pesticides uses patterns that meet
                                                     almost completely during typical water                     To illustrate the range of EDWC, two               the safety standard from those that may
                                                     treatment (chlorination). (Ref. 77). There              maximum label rate application                        not meet the safety standard) of all
                                                     are limited data available on the                       scenarios were selected to represent                  available surface water modeling
                                                     removal efficiency of chlorpyrifos prior                high and low end exposures, i.e., tart                scenarios was completed considering
                                                     to oxidation or the removal efficiency of               cherries at 5 applications totaling 14.5              three different application dates and a
                                                     chlorpyrifos oxon during the drinking                   pounds per acre per year, and bulb                    single application at several different
                                                     water treatment process. Based on                       onions at a single application of one                 application rates that ranged from one to
                                                     community water systems survey                          pound per acre per year, respectively.                six pounds.
                                                     showing that more than 75 percent of                    To estimate groundwater EDWCs for                        EPA also conducted a refined, but
                                                     community water systems use                             chlorpyrifos and chlorpyrifos oxon, EPA               limited analysis of the spatial
                                                     chlorination to disinfect drinking water                conducted a conservative Tier I                       distribution of EDWCs at a regional
                                                     in the United States (Ref. 78), the                     assessment using SCI&ndash;GROW (Screening                  level and at the drinking water intake
                                                     assumption of exposure to chlorpyrifos                  Concentration in Groundwater, version                 level. This exercise demonstrated that
                                                     oxon equivalent to 100% conversion of                   2.3, August 8, 2003) and PRZM-                        chlorpyrifos applications will result in
                                                     chlorpyrifos is not considered overly                   Groundwater (PRZM&ndash;GW version 1.0,                     variable drinking water exposures that
                                                     conservative. It is possible that some                  December 11, 2012), using the GW&ndash;GUI                  are highly localized, with
                                                     drinking water treatment procedures,                    (Graphical User Interface, version 1.0,               concentrations of concern generally
                                                     such as granular activated carbon                       December 11, 2012). (Ref. 83). For this               occurring in small watersheds where
                                                     filtration and water softening (increased               assessment, EPA used the results from                 there is a high percent cropped area
                                                     rate of chlorpyrifos oxon hydrolysis at                 the model (either SCI&ndash;GROW or PRZM&ndash;                   where chlorpyrifos use is expected.
                                                     pH &gt; 9) could reduce the amount of                      GW) that provided the highest EDWCs.                     Finally, EDWCs were also compared
                                                     chlorpyrifos oxon in finished drinking                  Despite the conservative assumptions                  to monitoring data. This analysis
                                                     water; however, these treatment                         used in the Tier I models, as presented               showed that when modeling scenarios
                                                     methods are not typical practices across                below in Table 7 estimated groundwater                are parameterized to reflect reported use
                                                     the country for surface water.                          EDWCs are well below the DWLOCs and                   and EDWCs are adjusted to reflect
                                                        While there is the potential to have                 therefore do not represent a risk                     percent cropped area, the EDWCs are
                                                     both chlorpyrifos and chlorpyrifos oxon                 concern.                                              within a range of 10x of the measured
                                                     present in finished drinking water, no                     To calculate the national screening                concentrations reported in the
                                                     information is available to readily                     level surface water EDWCs for                         monitoring data. In addition, evaluation
                                                     quantify how much of each form                          chlorpyrifos and chlorpyrifos oxon, EPA               of the monitoring data further illustrates
                                                     remains in the finished water. In the                   used the Tier II Surface Water                        that exposures are highly localized. EPA
                                                     absence of available information, EPA                   Concentration Calculator (SWCC)                       is currently conducting a broader
                                                     conservatively assumes that 100% of                     version 1.106. The SWCC uses PRZM                     refined assessment that examines
                                                     chlorpyrifos that enters a drinking water               version 5.0+ (PRZM5) and the Variable                 EDWCs on a regional and/or watershed
                                                     treatment facility exists after treatment               Volume Water Body Model (VVWM).                       scale to pin-point community drinking
                                                     and that during treatment 100% of it                    PRZM is used to simulate pesticide                    water systems where exposure to
                                                     converts to chlorpyrifos oxon.                          transport as a result of runoff and                   chlorpyrifos oxon as a result of
                                                        Although chlorpyrifos oxon has a                     erosion from an agricultural field.                   chlorpyrifos applications may pose an
                                                     hydrolysis half-life of 5 days, the                     VVWM estimates environmental fate                     exposure concern. As a result of the
                                                     drinking water treatment simulation                     and transport of pesticides in surface                PANNA decision ordering EPA to
                                                     half-life for chlorpyrifos oxon is                      water. For the national screen, upper                 respond to the PANNA&ndash;NRDC Petition
                                                     approximately 12 days. (Refs. 79, 80,                   and lower bound exposure scenarios for                by October 31, 2015, EPA has not been
                                                     and 81). Hydrolysis of chlorpyrifos oxon                surface water were modeled using the                  able to complete that assessment in
                                                     under simulated drinking water                          highest application rate (tart cherries),             advance of this proposed rule. EPA is
                                                     treatment processes is slower when                      and the lowest application rate (bulb                 continuing that assessment and will
                                                     compared to hydrolysis of chlorpyrifos                  onions). This analysis showed that even               update this action with the results of
                                                     oxon in water only; thus, the use of a                  with only one application, several                    that assessment, as warranted.
                                                     half-life of 12 days under simulation.                  chlorpyrifos uses may exceed the                         Estimated Aggregate Risk&ETH;National
                                                     Therefore, once chlorpyrifos oxon forms                 DWLOC at rates lower than maximum                     Drinking Water Screen Results. To
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                                                     during treatment, little transformation is              labeled rates (both single as well as                 determine whether the EDWC exceeds
                                                     expected to occur before consumption                    yearly), including an application rate of             the steady state DWLOC of 3.9 ppb, as
                                                     (during drinking water distribution).                   one pound per acre per year. The                      noted above, EPA initially conducted a
                                                     There are a wide range of treatment                     analysis also showed that the DWLOC                   bounding estimate of exposure using a
                                                     processes and sequences of treatment                    exceedances are not expected to be                    screening level national assessment
                                                     processes employed at community                         uniformly distributed across the                      approach. The results of that exercise
                                                     water systems across the country and                    country. The application of chlorpyrifos              are reported in Table 7 for Tier I
                                                     there are limited data available on a                   to tart cherries in Michigan resulted in              groundwater and Tier II surface water
                                                     community-water-system-specific basis                   concentrations that exceeded the                      model simulations.


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                                                                  TABLE 7&mdash;ESTIMATED DRINKING WATER CONCENTRATIONS RESULTING FROM THE USE OF CHLORPYRIFOS
                                                                                                                                                                  Surface water                                                 Groundwater

                                                                          Residue                                                                                                1-in-10 Year         30 Year annual
                                                                                                                 1-in-10 Year peak                 21-Day average                                                             SCI&ndash;GROW Tier I
                                                                                                                                                                                annual average           average
                                                                                                                 concentration ppb                concentration ppb                                                           concentration ppb
                                                                                                                                                                               concentration ppb     concentration ppb

                                                                                                                                             Michigan Tart Cherries

                                                     Chlorpyrifos ..........................................                          129                              83.8                  39.2                   29.7                   0.16
                                                     Chlorpyrifos-oxon .................................                              123                              80.0                  37.4                   28.3                   0.15

                                                                                                                                                      Georgia Onion

                                                     Chlorpyrifos ..........................................                              6.2                           3.1                    1.2                   0.8                   0.01
                                                     Chlorpyrifos-oxon .................................                                  5.9                           3.0                    1.1                   0.8                   0.01
                                                        SCI&ndash;GROW resulted in higher EDWCs than PRZM&ndash;GW simulations.


                                                       As Table 7 makes clear, the surface                                   exceed the DWLOC, based on a single                             scenarios, as well as maximum single
                                                     water EDWCs for the high application                                    application of chlorpyrifos per year at 1                       application rates for a wide range of
                                                     rate Michigan tart cherry scenario                                      and 4 pounds (where permitted by                                chlorpyrifos use scenarios, may result in
                                                     significantly exceed the steady state                                   labeling) of chlorpyrifos per acre. The                         a 21-day average concentration that
                                                     DWLOC of 3.9 ppb for chlorpyrifos                                       results for 1 and 4 pounds per acre are                         exceeds the DWLOC. Table 8 represents
                                                     oxon, while the low application rate                                    reported here as a representation of                            the use scenarios that resulted in
                                                     Georgia bulb onion scenario results in                                  what EPA believes to be the range of                            exceedances of the DWLOC from a
                                                     EDWC below the DWLOC. Given that                                        likely chlorpyrifos applications, bearing                       single application to the crop and it
                                                     the results of the initial bounding                                     in mind that chlorpyrifos can be applied                        shows the estimated percentage of 21-
                                                     estimate showed these mixed results,                                    at lower and higher single rates (e.g., an                      day intervals over a 30-year period for
                                                     EPA conducted a further evaluation of                                   application rate of 6 pounds per acre on
                                                                                                                                                                                             which the average concentration is
                                                     additional use scenarios to determine                                   citrus). This analysis showed that the
                                                                                                                                                                                             expected to exceed the DWLOC.
                                                     which chlorpyrifos uses do and do not                                   current maximum application rate

                                                      TABLE 8&mdash;NATIONAL SCREENING RESULTS USING DWLOC APPROACH&mdash;SCENARIO REPRESENTATION AND LABELED RATE
                                                                             COMPARISON FOR EXAMPLE USES THAT EXCEED THE DWLOC
                                                                                                                                                           21-Day
                                                                                                         Highest 21-day average                          exceedance                          Represented use site examples
                                                                    Scenario                                concentration ppb                               count                           (maximum single application rate)
                                                                                                            (application date)
                                                                                                                                                           Percent a

                                                                                                                                                         1 lb a.i./A

                                                     MScornSTD .............................        16.5   at   1.0   lb   a.i./A .................                     21    Corn [2 lb a.i./A (aerial and ground)].
                                                     TXcornOP ................................      13.9   at   1.0   lb   a.i./A                                       13    Soybean [1 lb a.i./A (aerial); 2.2 (ground)].
                                                     ILcornSTD ...............................      14.6   at   1.0   lb   a.i./A .................                     16
                                                     MScotton .................................     19.8   at   1.0   lb   a.i./A e ...............                     16    Cotton [1 lb a.i./A (foliar aerial and ground); seed treatment
                                                     NCcotton ..................................    14.4   at   1.0   lb   a.i./A .................                     25      permitted at 2.2 lb a.i./A].
                                                     TXcotton ..................................    15.1   at   1.0   lb   a.i./A .................                      8
                                                     NYgrape ..................................     15.7   at   1.0   lb   a.i./A .................                     27    Grape [2.25 lab a.i./A (ground)].
                                                     TXsorghumOP .........................          25.8   at   1.0   lb   a.i./A .................                     12    Wheat [1 lb a.i./A (aerial and ground)].
                                                                                                                                                                              Sunflower [2 lb a.i./A (aerial and ground)].
                                                     TXwheatOP .............................        21.0 at 1.0 lb a.i./A .................                              6    Other Grains:
                                                                                                                                                                                  Sorghum [3.3 lb a.i./A (granular) b].
                                                                                                                                                                                  Alfalfa [1 lb a.i./A (aerial and ground)].
                                                     PAVegetableNMC ...................             21.1 at 1.0 lb a.i./A .................                             18    Vegetables and Ground Fruit:
                                                                                                                                                                                  Strawberry [2 lb a.i./A (aerial and ground)].
                                                                                                                                                                                  Radish [3 lb a.i./A (ground) d].
                                                                                                                                                                                  Pepper [1 lb a.i./A (ground)] Onion [1 lb a.i./A (ground)].
                                                     CAlettuce .................................    12.8 at 1.0 lb a.i./A .................                              8
                                                     MEpotato .................................     10.7 at 1.0 lb a.i./A .................                             17    Other Row Crops:
                                                     NCsweetpotatoSTD .................             13.5at 1.0 lb a.i./A ..................                              9        Tobacco [2 lb a.i./A (aerial and ground)].
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                                                                                                                                                                                  Sugarbeets [2 lb a.i./A (granular) b].
                                                                                                                                                                                  Peanuts [4 lb a.i./A (granular) c] Sweet Potato [2 lb a.i./A
                                                                                                                                                                                    (aerial and ground)].

                                                                                                                                                         2 lb a.i./A

                                                     MIcherriesSTD .........................        19.6 at 2.0 lb a.i./A .................                             42    Orchards and Vineyards (Tree fruit and Nuts):
                                                     GApecansSTD .........................          20.7 at 2.0 lb a.i./A .................                             12        Fruit and Nuts [4 lb a.i./A (ground)].
                                                                                                                                                                                  Pecans [2 lb a.i./A (air); 4.3 (ground)].



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                                                      TABLE 8&mdash;NATIONAL SCREENING RESULTS USING DWLOC APPROACH&mdash;SCENARIO REPRESENTATION AND LABELED RATE
                                                                        COMPARISON FOR EXAMPLE USES THAT EXCEED THE DWLOC&mdash;Continued
                                                                                                                                                 21-Day
                                                                                                      Highest 21-day average                   exceedance                          Represented use site examples
                                                                    Scenario                             concentration ppb                        count                           (maximum single application rate)
                                                                                                         (application date)
                                                                                                                                                 Percent a

                                                     PAapples .................................   29.1 at 2.0 lb a.i./A .................                    11    Apple [2 lb a.i./A (air and ground)].
                                                                                                                                                                   Peach [2 lb a.i./A (air); 3 (ground)].
                                                     NCPeanutSTD .........................        21.0 at 2.0 lb a.i./A .................                    21    Peanut:
                                                                                                                                                                        2.0 lb a.i./A (aerial and ground)
                                                                                                                                                                        4 lb a.i./A (granular ground).
                                                     FLCitrusSTD ............................     10.1 at 2.0 lb a.i./A .................                    6     Citrus:
                                                                                                                                                                        6.0 lb a.i./A [ground including airblast].
                                                                                                                                                                        2.3 lb a.i./A (aerial).
                                                        a The highest percent of 21-day time periods where the average concentration exceeds the DWLOC. There are approximately 10,000 21-day
                                                     time periods per 30 year simulation; however, it should be noted that not all scenarios contain exactly 30 years of weather data.
                                                        b (1.0 (air and ground)).
                                                        c (2.0 (air and ground)).
                                                        d Incorporated or in furrow otherwise (1.0 (air and ground)).
                                                        e A preplant seed treatment is permitted at 2.2 lb a.i./A and assumes 100% of the applied material washes off the seed coat in the field and is
                                                     available for transport.


                                                        In summary, EPA&rsquo;s analysis shows                             DWLOC, based on the use of available                          Reservoir Monitoring Program, USDA
                                                     that the current maximum single                                 scenarios.                                                    PDP, and California Department of
                                                     application rates for a wide range of                              Watershed Screen. The uses that                            Pesticide Regulation (CDPR). The
                                                     chlorpyrifos use scenarios result in a 21-                      exceeded the DWLOC from the regional                          monitoring data showed chlorpyrifos
                                                     day average concentration that exceeds                          screening exercise for HUC 2 Region 3                         detections at low concentrations,
                                                     the DWLOC. And the analysis makes                               were further explored by utilizing the                        generally not exceeding 0.5 mg/L. For
                                                     clear that exceedances may occur with                           DWI watershed database. This analysis                         example, USGS NAWQA, which
                                                     considerable frequency.                                         shows an overlap of potential                                 contains an extensive monitoring
                                                                                                                     chlorpyrifos use sites that may result in                     dataset for chlorpyrifos and chlorpyrifos
                                                        Regional Screen. Although Table 8                                                                                          oxon, reports a peak chlorpyrifos
                                                                                                                     an exceedance of the DWLOC with
                                                     makes clear that numerous labeled                                                                                             detection of 0.57 mg/L in surface water
                                                                                                                     watersheds that supply source water for
                                                     chlorpyrifos uses result in exceedances                         community drinking water systems. In                          with a detection frequency of
                                                     of the DWLOC on a national basis, EPA                           addition, this analysis shows that                            approximately 15%. CDPR has detected
                                                     analysis indicates that exposure is likely                      exposure is not uniform within a HUC                          chlorpyrifos concentrations greater than
                                                     to be highly localized. While it is                             2 Region and that some watersheds are                         1 mg/L in surface water on several
                                                     currently challenging to assess exposure                        more vulnerable than others. Watershed                        occasions, with an observed peak
                                                     on a local scale due to the unavailability                      vulnerability is expected to be greatest                      chlorpyrifos concentration of 3.96 mg/L.
                                                     of data and wide range of characteristics                       for smaller watersheds with high                              Sampling frequencies in these
                                                     (e.g., environmental characteristics such                       percent cropped areas. Smaller                                monitoring programs were sporadic,
                                                     as soil, weather, etc. or other variables                       community water systems are generally                         however, and generally range from only
                                                     such as drinking water treatment                                more vulnerable due to short                                  once per year to twice per month.
                                                     processes) that affect the vulnerability of                     distribution times and the reliance of                           Since the preliminary assessment,
                                                     a given community drinking water                                chlorination to treat source surface                          EPA has evaluated additional water
                                                     system to chlorpyrifos oxon                                     water as well as limited access to other                      monitoring data from Washington State
                                                     contamination, EPA developed a                                  treatment methods such as granular                            Department of Ecology and Agriculture
                                                     method to examine the potential                                 activated carbon.                                             (WSDE/WSDA) Cooperative Surface
                                                     geospatial concentration differences for                           As noted above, on August 10, 2015,                        Water Monitoring Program (Refs. 85 and
                                                     two Hydrological Unit Code (HUC) 2                              the PANNA decision ordered EPA to                             86), Dow AgroSciences (Ref. 87), and
                                                     Regions&mdash;HUC 2 Region 17: Pacific                                issue either a proposed or final                              Oregon Department of Environmental
                                                     Northwest and HUC 2 Region 3: South                             revocation rule or a full and final                           Quality. The previously referenced data
                                                     Atlantic-Gulf, in order to identify use                         response to PANNA&ndash;NRDC                                        have also been re-examined to consider
                                                     patterns that may result in EDWCs that                          administrative Petition by October 31,                        short-term exposure (i.e., 21-day average
                                                     exceed the DWLOC on a regional basis.                           2015. As a result of that order, EPA is                       concentrations) considering the
                                                     (Ref. 84). This analysis considered all                         issuing this proposed revocation in                           importance of the single day exposure
                                                     potential chlorpyrifos use sites within                         advance of completing its refined                             and the temporal relationship of
                                                     the HUC 2 regions based on the National                         drinking water assessment. As a result,                       exposure. A summary of all surface
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                                                     Agricultural Statistics Service cropland                        EPA may update this action with a new                         water monitoring data examined to date
                                                     data layers and survey data. For HUC 2                          or modified drinking water analyses as                        for chlorpyrifos are presented in Table
                                                     Region 17, only four chlorpyrifos use                           EPA completes additional work after                           9. Some of the monitoring programs
                                                     patterns were identified as a potential                         this proposal.                                                analyzed for chlorpyrifos oxon;
                                                     concern based on maximum single                                    Monitoring Data Analysis. In EPA&rsquo;s                         however, the number of detections as
                                                     application rates of 1 and 4 pounds per                         PHHRA in 2011, the agency evaluated                           well as the concentrations were
                                                     acre. However, for HUC 2 Region 3,                              water monitoring data from the USGS                           generally much lower. Since the
                                                     several chlorpyrifos use scenarios were                         National Water Quality Assessment                             majority of the conversion of
                                                     identified that could exceed the                                Program (NAWQA), USEPA/USGS Pilot                             chlorpyrifos to chlorpyrifos oxon is


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                                                     assumed to occur during drinking water                        9 are limited to chlorpyrifos and not its
                                                     treatment, and not in the environment,                        oxon.
                                                     the monitoring data presented in Table

                                                                                  TABLE 9&mdash;SURFACE WATER MONITORING DATA SUMMARY FOR CHLORPYRIFOS
                                                                                                                                                                                                                 Maximum
                                                                                                                                                       Years of sampling                 Detection frequency
                                                              Monitoring data                                    Scale                                                                                         concentration
                                                                                                                                                      (number of samples)                        (%)              (&mu;g/L)

                                                     USGS NAWQA ..........................    National .....................................    1991&ndash;2012 (30,542) .................                   15                0.57
                                                     California Department of Pes-            State .........................................   1991&ndash;2012 (13,121) .................                   20                3.96
                                                       ticide Regulation.
                                                     Washington State Department              State .........................................   2003&ndash;2013 (4,091) ...................                    8.4             0.4
                                                       of Ecology and Agriculture
                                                       Cooperative Surface Water
                                                       Monitoring Program.
                                                     USDA Pesticide Data Program              National .....................................    2004&ndash;2009 (raw water; 1,178)                             0              na
                                                                                                                                                2001&ndash;2009 (finished water;
                                                                                                                                                  2,918).
                                                     USGS&ndash;EPA Pilot Drinking                  National .....................................    1999&ndash;2000 (323) ......................                   5.3             0.034
                                                       Water Reservoir.
                                                     Oregon Department of Environ-            Watershed ................................        2005&ndash;2011 (363) ......................                 13                2.4
                                                       mental Quality.                        (Clackamas) ..............................
                                                     MRID 44711601 (Ref. 87) .........        Watershed ................................        1996&ndash;1997 (1,089) ...................                  61                2.22
                                                                                              (Orestimba Creek) ....................



                                                        In general, the monitoring data                            Washington), where 103 samples were                             assessment with the goal of pinpointing
                                                     include sampling sites that represent a                       collected between 2006 and 2008, with                           regions or watersheds where EDWCs
                                                     wide range of aquatic environments                            53 chlorpyrifos detections (51%).                               may exceed the DWLOC. This effort
                                                     including small and large water bodies,                          Therefore, while there is a large                            would include completing the regional
                                                     rivers, reservoirs, and urban and                             number of individual samples collected                          assessment presented here for all HUC
                                                     agricultural locations, but are limited for                   and analyzed for chlorpyrifos (or                               2 Regions and crop uses, as well as
                                                     some areas of the United States where                         chlorpyrifos oxon) across the United                            considering multiple applications per
                                                     chlorpyrifos use occurs. Also, the                            States, it would not be appropriate to                          year. Because of the PANNA decision
                                                     sampling sites, as well as the number of                      combine these data sources to generate                          ordering EPA to respond to the
                                                     samples, vary by year. In addition, the                       exposure estimates or to use these                              PANNA&ndash;NRDC Petition by October 31,
                                                     vulnerability of the sampling site to                         datasets to represent exposure on a                             2015, EPA has not been able to complete
                                                     chlorpyrifos contamination varies                             national or even regional basis. Thus,                          this more refined drinking water
                                                     substantially due to use, soil                                comparing the monitoring data results                           assessment for chlorpyrifos in advance
                                                     characteristics, weather and agronomic                        to the DWLOC would not be a                                     of this proposed rule. As a result, this
                                                     practices. While almost all samples in                        reasonable approach for the reasons                             proposal does not provide a basis for
                                                     the monitoring results are below EPA&rsquo;s                        given above, including limited sample                           supporting a more tailored approach to
                                                     lowest DWLOC (infant steady state                             frequency, limited use information, and                         risk mitigation. EPA is continuing to
                                                     exposures) of 3.9 ppb, none of the                            sampling site variability, on a national                        conduct its regional and water-intake
                                                     monitoring programs examined to date                          or even a regional basis. EPA believes                          level assessment and may update this
                                                     were specifically designed to target                          that model estimated concentrations                             action with the results of that
                                                     chlorpyrifos use (except the Registrant                       provide more suitable upper bound                               assessment when it is completed.
                                                     Monitoring Program Ref. 87); therefore,                       concentrations for chlorpyrifos and
                                                                                                                   chlorpyrifos oxon.                                                 Summary. EPA&rsquo;s examination of
                                                     peak concentrations (and likely 21-day                                                                                        chlorpyrifos agricultural use across the
                                                     average concentrations) of chlorpyrifos                          Additionally, model simulations were
                                                                                                                   completed to represent two different                            country indicates that there are multiple
                                                     and chlorpyrifos oxon likely went                                                                                             uses of chlorpyrifos that may result in
                                                                                                                   water monitoring datasets&mdash;WSDE/
                                                     undetected in these programs. See Table                                                                                       exposure to chlorpyrifos oxon in
                                                                                                                   WSDA Cooperative Surface Water
                                                     9 for a summary of the chlorpyrifos                                                                                           finished drinking water at levels that
                                                                                                                   Monitoring Program (Refs. 85 and 86)
                                                     surface water monitoring data.                                                                                                exceed the 21-day steady state DWLOC
                                                                                                                   and Dow AgroSciences (Ref. 87)
                                                        As a general matter, sampling                              Orestimba Creek. For both of these                              of 3.9 ppb for infants and children. EPA
                                                     frequency needs to be approximately                           water monitoring programs, enough                               therefore believes that infants and
                                                     equal to the duration of exposure                             information was available, including                            children in some portions of the country
                                                     concern. (Ref. 88). The chlorpyrifos                          chlorpyrifos use information as well as                         are at some risk from cholinesterase
                                                     monitoring data evaluated thus far also                       the PCA, to parameterize the model. In                          inhibition. While there are uncertainties
mstockstill on DSK4VPTVN1PROD with PROPOSALS3




                                                     show that as sample frequency                                 these simulations, the modeled EDWCs                            associated with the model input
                                                     increases, so does the detection                              were similar to the measured                                    parameters for which conservative
                                                     frequency. This is evident in the                             concentrations. This suggests that the                          assumptions were made (e.g., one
                                                     registrant-submitted monitoring data, as                      modeling results are not overly                                 aerobic aquatic metabolism half-life
                                                     well as examination of individual                             conservative and supports the use of the                        value multiplied by the uncertainty
                                                     sampling sites within the various                             model to estimate chlorpyrifos oxon                             factor of three, stable to hydrolysis,
                                                     datasets. The highest detection                               concentrations in drinking water.                               100% of the cropped watershed is
                                                     frequency noted for chlorpyrifos is for                          As noted above, EPA is continuing to                         treated, and use of the Index Reservoir
                                                     Marion Drain (a sample site in                                work to refine its drinking water                               as the receiving waterbody), the


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                                                     modeling is sufficiently representative                 tolerance reassessment (Ref. 10) which                domestically produced and imported
                                                     of some vulnerable water bodies that we                 can be found on EPA&rsquo;s Web site http://                foods.
                                                     cannot make a safety finding based on                   www.epa.gov/pesticides/cumulative/                       In making its tolerance decisions, EPA
                                                     drinking water exposure. Comparison of                  rraop/. To the extent that chlorpyrifos               seeks to harmonize U.S. tolerances with
                                                     model estimated concentrations with                     tolerances and uses remain following                  international standards whenever
                                                     measured concentrations suggests that                   this action, prior to the completion of               possible, consistent with U.S. food
                                                     model estimates are consistent with                     the FIFRA registration review for                     safety standards and agricultural
                                                     measured concentrations when actual                     chlorpyrifos and the OP class, OPP will               practices. EPA considers the
                                                     application rates and representative                    update the OP cumulative assessment to                international maximum residue limits
                                                     SWCC scenarios are considered and a                     ensure that cumulative dietary                        (MRLs) established by the Codex
                                                     PCA adjustment factor is applied to the                 exposures to the OPs are safe.                        Alimentarius Commission (Codex), as
                                                     model estimates. This modeling/                                                                               required by FFDCA section 408(b)(4).
                                                                                                             C. When do these actions become                       The Codex Alimentarius is a joint
                                                     monitoring comparison suggests that                     effective?
                                                     when growers use maximum                                                                                      United Nations Food and Agriculture
                                                     application rates, or even rates much                      EPA is proposing that the revocation               Organization/World Health
                                                     lower than maximum, chlorpyrifos oxon                   of the chlorpyrifos tolerances for all                Organization food standards program,
                                                     concentrations in drinking water could                  commodities become effective 180 days                 and it is recognized as an international
                                                     pose an exposure concern for a wide                     after a final rule is published. The                  food safety standards-setting
                                                     range of chlorpyrifos uses. However,                    agency believes this revocation date will             organization in trade agreements to
                                                     these exposures are not expected to be                  allow users to exhaust stocks and allow               which the United States is a party.
                                                     uniformly distributed across the                        sufficient time for passage of treated                   EPA also ensures that its tolerance
                                                     country. As noted, additional analyses                  commodities through the channels of                   decisions are in keeping with the World
                                                     are still being conducted in an effort to               trade. However, if EPA is presented                   Trade Organization&rsquo;s Sanitary and
                                                     determine the community water systems                   with information that unused stocks                   Phytosanitary Measures Agreement.
                                                     where concentrations may be of                          would still be available and that                     Consistent with that agreement, the
                                                     concern. While that evaluation may                      information is verified, the agency will              effective date EPA is proposing for the
                                                     ultimately lead to a more tailored                      consider extending the expiration date                revocation of chlorpyrifos tolerances in
                                                     approach to risk mitigation, at this point              of associated tolerances. If you have                 this proposed rule ensures that the
                                                     in time, based on the information before                comments regarding stocks of remaining                tolerances will remain in effect for a
                                                     EPA, EPA cannot determine that current                  chlorpyrifos products and whether the                 period sufficient to allow a reasonable
                                                     dietary exposures to chlorpyrifos are                   effective date allows sufficient time for             interval for producers in the exporting
                                                                                                             treated commodities to clear the                      countries to adapt to the requirements of
                                                     safe within the meaning of FFDCA
                                                                                                             channels of trade, please submit                      these modified tolerances.
                                                     section 408(b)(2)(A). Additionally,
                                                     although EPA&rsquo;s current assessment                       comments as described under                           VIII. Statutory and Executive Order
                                                     indicates that the tolerances for food                  SUPPLEMENTARY INFORMATION.                            Reviews
                                                     service and food handling                                  Any commodities listed in this
                                                                                                             proposal treated with the pesticides                     In this proposed rule, EPA is
                                                     establishments by themselves would not                                                                        proposing to revoke specific tolerances
                                                     present an unsafe risk (since they do not               subject to this proposal, and in the
                                                                                                             channels of trade following the                       established under FFDCA section 408.
                                                     result in drinking water exposure),                                                                           The Office of Management and Budget
                                                     because EPA must aggregate all dietary                  tolerance revocations, shall be subject to
                                                                                                             FFDCA section 408(1)(5), as established               (OMB) has exempted this type of action
                                                     and non-occupational exposures to                                                                             (e.g., tolerance revocation for which
                                                     chlorpyrifos in making a safety finding                 by FQPA. That section provides that,
                                                                                                             any residues of the subject pesticide in              extraordinary circumstances do not
                                                     under the FFDCA, EPA cannot find that                                                                         exist) from review under Executive
                                                     any current tolerances are safe and is                  or on such food shall not render the
                                                                                                             food adulterated so long as it is shown               Order 12866, entitled &lsquo;&lsquo;Regulatory
                                                     therefore proposing to revoke all                                                                             Planning and Review&rsquo;&rsquo; (58 FR 51735,
                                                     chlorpyrifos tolerances. As noted,                      to the satisfaction of the Food and Drug
                                                                                                             Administration that:                                  October 4, 1993). Because this proposed
                                                     however, EPA is soliciting comment on                                                                         rule has been exempted from review
                                                                                                                1. The residue is present as the result
                                                     whether it may be possible to retain                                                                          under Executive Order 12866, this
                                                                                                             of an application or use of the pesticide
                                                     some group of tolerances.                                                                                     proposed rule is not subject to Executive
                                                                                                             at a time and in a manner that was
                                                        vii. Cumulative exposure/risk                        lawful under FIFRA, and                               Order 13211, entitled &lsquo;&lsquo;Actions
                                                     characterization. Section 408(b)(2)(D)(v)                  2. The residue does not exceed the                 Concerning Regulations That
                                                     of the FFDCA provides that when                         level that was authorized at the time of              Significantly Affect Energy Supply,
                                                     determining the safety of a pesticide                   the application or use to be present on               Distribution, or Use&rsquo;&rsquo; (66 FR 28355, May
                                                     chemical, EPA shall base its assessment                 the food under a tolerance or exemption               22, 2001).
                                                     of the risk posed by the chemical on,                   from tolerance. Evidence to show that                    This proposed rule does not contain
                                                     among other things, available                           food was lawfully treated may include                 any information collections subject to
                                                     information concerning the cumulative                   records that verify the dates when the                OMB approval under the Paperwork
                                                     effects to human health that may result                 pesticide was applied to such food.                   Reduction Act (PRA) (44 U.S.C. 3501 et
                                                     from the pesticide&rsquo;s residues when                                                                            seq.), or impose any enforceable duty or
                                                                                                             VII. International Residue Limits and
mstockstill on DSK4VPTVN1PROD with PROPOSALS3




                                                     considered together with other                                                                                contain any unfunded mandate as
                                                     substances that have a common                           Trade Considerations                                  described under Title II of the Unfunded
                                                     mechanism of toxicity. Chlorpyrifos is a                  The tolerance revocations in this                   Mandates Reform Act (UMRA) (2 U.S.C.
                                                     member of the OP class of pesticides,                   proposal are not discriminatory and are               1501 et seq.). Nor does it require any
                                                     which share AChE inhibition as a                        designed to ensure that both                          special considerations as required by
                                                     common mechanism of toxicity. The                       domestically-produced and imported                    Executive Order 12898, entitled
                                                     agency completed a cumulative risk                      foods meet the food safety standard                   &lsquo;&lsquo;Federal Actions to Address
                                                     assessment for OPs in connection with                   established by the FFDCA. The same                    Environmental Justice in Minority
                                                     FIFRA reregistration and FFDCA                          food safety standards apply to                        Populations and Low-Income


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				onerror="this.src='https://thefederalregister.org/doc/80_FR_69294/page/29.png'; this.onerror=null" alt="                                                                            Federal Register / Vol. 80, No. 215 / Friday, November 6, 2015 / Proposed Rules                                                69107

                                                     Populations&rsquo;&rsquo; (59 FR 7629, February 16,                 is considered small is determined for                      Calendex models is available at http://
                                                     1994); or OMB review or any other                       each NAICS code by the Small Business                      www.epa.gov/pesticides/science/deem/.
                                                     Agency action under Executive Order                     Administration (SBA). Farms are                       5. For information related to Section 408 of
                                                                                                                                                                        FFDCA see http://www2.epa.gov/laws-
                                                     13045, entitled &lsquo;&lsquo;Protection of Children                classified under NAICS code 111, Crop
                                                                                                                                                                        regulations/summary-federal-food-drug-
                                                     from Environmental Health Risks and                     Production, and the SBA defines small                      and-cosmetic-act.
                                                     Safety Risks&rsquo;&rsquo; (62 FR 19885, April 23,                  entities as farms with total annual sales             6. For information on the EPA&rsquo;s Office of
                                                     1997). However, EPA considered the                      of $750,000 or less.                                       Pesticide Programs risk assessment
                                                     best available science in order to protect                 Based upon the screening analysis                       process see http://www.epa.gov/
                                                     children against environmental health                   completed (Ref. 89), EPA has                               pesticides/about/overview_risk_
                                                     risks and this proposed rule is                         determined that less than 39,000 of the                    assess.htm.
                                                     consistent with EPA&rsquo;s 1995 Policy on                    1.2 million small farms nationwide, or                7. U.S. EPA (2000). Choosing a Percentile of
                                                     Evaluating Health Risks to Children                                                                                Acute Dietary Exposure as a Threshold
                                                                                                             approximately 3% of all small farms,
                                                                                                                                                                        of Regulatory Concern. Available at
                                                     (http://www2.epa.gov/sites/production/                  may be impacted by this proposed                           http://www.epa.gov/oppfead1/trac/
                                                     files/201405/documents/1995_                            revocation. Of these, 38,000 have                          science/trac2b054.pdf.
                                                     childrens_health_policy_statement.pdf),                 potential impacts of less than 1% of                  8. Information on the water exposure models
                                                     reaffirmed in 2013 (http://                             gross farm revenue. The analysis                           used by EPA&rsquo;s Office of Pesticide
                                                     www2.epa.gov/sites/production/files/                    indicates that fewer than 1,000 small                      Programs is available at http://
                                                     201405/documents/reaffirmation_                         farms, or 0.1% percent of all small                        www.epa.gov/oppefed1/models/water/
                                                     memorandum.pdf).                                        farms, may experience impacts greater                      models4.htm.
                                                        This proposed rule does not involve                                                                        9. FIFRA Scientific Advisory Panel (2008).
                                                                                                             than 1%, depending on the availability
                                                     any technical standards that would                                                                                 &lsquo;&lsquo;The Agency&rsquo;s Evaluation of the Toxicity
                                                                                                             and cost of alternatives. Based on this                    Profile of Chlorpyrifos.&rsquo;&rsquo; Report from the
                                                     require Agency consideration of                         analysis, EPA concludes that revoking                      FIFRA Scientific Advisory Panel Meeting
                                                     voluntary consensus standards pursuant                  all tolerances for chlorpyrifos will not                   of September 16&ndash;19, 2008. Available:
                                                     to section 12(d) of the National                        have a significant economic impact on                      http://www2.epa.gov/sap/fifra-scientific-
                                                     Technology Transfer and Advancement                     a substantial number of small entities.                    advisory-panel-meetings.
                                                     Act (NTTAA) (15 U.S.C. 272 note). In                    Details of this analysis are presented in             10. FIFRA Scientific Advisory Panel (2012).
                                                     addition, the Agency has determined                     EPA&rsquo;s analyses which can be found in                       &lsquo;&lsquo;Scientific Issues Associated with
                                                     that this proposed rule will not have a                 the docket (Ref. 89).                                      Chlorpyrifos&rsquo;&rsquo;. Available at: http://
                                                     substantial direct effect on States, on the                                                                        www2.epa.gov/sap/meeting-materials-
                                                     relationship between the national                       IX. References                                             april-10-12-2012-scientific-advisory-
                                                     government and the States, or on the                                                                               panel.
                                                                                                               EPA has established an official record              11. FIFRA Scientific Advisory Panel (2002).
                                                     distribution of power and                               for this rulemaking. The official record                   &lsquo;&lsquo;Organophosphate Pesticides:
                                                     responsibilities among the various                      includes all information considered by                     Preliminary OP Cumulative Risk
                                                     levels of government, as specified in                   EPA in developing this proposed rule                       Assessment.&rsquo;&rsquo; Information on how to
                                                     Executive Order 13132, entitled                         including documents specifically                           obtain the meeting report is available at
                                                     &lsquo;&lsquo;Federalism&rsquo;&rsquo; (64 FR 43255, August 10,                 referenced in this action and listed                       http://www2.epa.gov/sap/fifra-scientific-
                                                     1999). This proposed rule directly                      below, any public comments received                        advisory-panel-meetings.
                                                     regulates growers, food processors, food                during an applicable comment period,                  12. U.S. EPA (2006). Revised
                                                     handlers, and food retailers, not States.               and any other information related to this                  Organophosphorous Pesticide
                                                     This proposed rule does not alter the                                                                              Cumulative Risk Assessment. Available
                                                                                                             action, including any information                          at http://www.epa.gov/pesticides/
                                                     relationships or distribution of power                  claimed as CBI. This official record
                                                     and responsibilities established by                                                                                cumulative/2006-op/index.htm.
                                                                                                             includes all information physically                   13. Chambers, J.E. (2013). In vitro Sensitivity
                                                     Congress in the preemption provisions                   located in docket ID number EPA&ndash;HQ&ndash;                        of Cholinesterase to Inhibition by
                                                     of FFDCA section 408(n)(4). For these                   OPP&ndash;2015&ndash;0653, any documents                               Chlorpyrifos-oxon in Several Tissues of
                                                     same reasons, the Agency has                            identified in this proposal, and                           the Rat. College of Veterinary Medicine,
                                                     determined that this proposed rule does                 documents referenced in documents in                       Mississippi State University.
                                                     not have any &lsquo;&lsquo;tribal implications&rsquo;&rsquo; as                 the docket. The public version of the                 14. Calhoun LL, Johnson KA. (1988)
                                                     described in Executive Order 13175,                     official record does not include any                       Chlorpyrifos: 4-Day Dermal Probe and
                                                     entitled &lsquo;&lsquo;Consultation and Coordination                information claimed as CBI.
                                                                                                                                                                        21-Day Dermal Toxicity Studies in
                                                     with Indian Tribal Governments&rsquo;&rsquo; (65 FR                                                                            Fischer 344 Rats. MRID 40972801.
                                                     67249, November 9, 2000).                               1. U.S. EPA (2014). Chlorpyrifos: Revised             15. Corley, R.; Landry, T.; Calhoun, L.; et al.
                                                        I certify that this action will not have                  Human Health Risk Assessment for                      (1986) Chlorpyrifos: 13-Week Nose-only
                                                     a significant economic impact on a                           Registration Review. Available in docket              Vapor Inhalation Exposure Study in
                                                                                                                  number EPA&ndash;HQ&ndash;OPP&ndash;2008&ndash;0850,                          Fischer 344 Rats. MRID 40013901.
                                                     substantial number of small entities
                                                                                                                  http://www.regulations gov/                      16. Corley, R.; Landry, T.; Calhoun, L.; et al.
                                                     under the Regulatory Flexibility Act                         #!documentDetail;D=EPA-HQ-OPP-2008-                   (1986) Chlorpyrifos: 13-Week Nose-only
                                                     (RFA), 5 U.S.C. 601 et seq. The small                        0850-0195.                                            Vapor Inhalation Exposure Study in
                                                     entities subject to this proposed action,               2. The Petition from NRDC and PANNA and                    Fischer 344 Rats: Supplemental Data:
                                                     which directly regulates growers, food                       EPA&rsquo;s various responses to it are                     Lab. MRID 40166501.
                                                     processors, food handlers, and food                          available in docket number EPA&ndash;HQ&ndash;               17. Newton, P. (1988) AThirteen Week Nose-
                                                     retailers, include small businesses but                      OPP&ndash;2007&ndash;1005 available at                            Only Inhalation Toxicity Study of
mstockstill on DSK4VPTVN1PROD with PROPOSALS3




                                                     not small government jurisdiction or                         www.regulations.gov.                                  Chlorpyrifos Technical (Pyrinex) in the
                                                     small not-for-profit organizations as                   3. U.S. EPA (2011). Chlorpyrifos: Preliminary              Rat. MRID 40908401.
                                                     defined by the RFA.                                          Human Health Risk Assessment for                 18. Hotchkiss, J.; Krieger, S.; Brzak, K.; et al.
                                                                                                                  Registration Review. Available in docket              (2010) Acute Inhalation Exposure of
                                                        For purposes of assessing the impacts
                                                                                                                  number EPA&ndash;HQ&ndash;OPP&ndash;2008&ndash;0850,                          Adult Crl: CD (SD) Rats to Particulate
                                                     of this proposed revocation on small                         http://www.regulations.gov/                           Chlorpyrifos Aerosols: Kinetics of
                                                     businesses, a small business is defined                      #!documentDetail;D=EPA-HQ-OPP-2008-                   Concentration-Dependent Cholinesterase
                                                     either by the number of employees or by                      0850-0025.                                            (ChE) Inhibition in Red Blood Cells,
                                                     the annual dollar amount of sales/                      4. Information and software related to Dietary             Plasma, Brain, and Lung. MRID
                                                     revenues. The level at which an entity                       Exposure Evaluation Model and the                     48139303.



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				onerror="this.src='https://thefederalregister.org/doc/80_FR_69294/page/30.png'; this.onerror=null" alt="                                                     69108                  Federal Register / Vol. 80, No. 215 / Friday, November 6, 2015 / Proposed Rules

                                                     19. U.S. EPA (2011) Chlorpyrifos: Review of             30. US EPA (2012). Standard Operating                      the sex-selective developmental
                                                          the Comparative Cholinesterase                          Procedures for Residential Pesticide                  neurotoxicity of chlorpyrifos:
                                                          (including chlorpyrifos oxon), special                  Exposure Assessment available at http://              Implications for vulnerability after
                                                          acute inhalation study and                              www.epa.gov/pesticides/science/USEPA-                 pharmacotherapy for preterm labor.
                                                          immunotoxicity studies (MRIDs                           OPP-HED_Residential%20SOPs_                           Neurotoxicol Teratol. 37:1&ndash;12.
                                                          48139301, 48139303, 48139304). TXR                      Oct2012.pdf.                                     42. Ohishi T, Wang L, Akane H, Itahashi M,
                                                          No. 0055409.                                       31. Guidance for Applying Quantitative Data                Nakamura D, Yafune A, Mitsumori K,
                                                     20. Hotchkiss, J.; Krieger, S.; Mahoney, K.; et              to Develop Data-Derived Extrapolation                 Shibutani M. (2013). Reversible effect of
                                                          al. (2013) Nose-only Inhalation of                      Factors for Interspecies and Intraspecies             maternal exposure to chlorpyrifos on the
                                                          Chlorpyrifos Vapor: Limited                             Extrapolation Available at http://                    intermediate granule cell progenitors in
                                                          Toxicokinetics and Determination of                     www2.epa.gov/osa/guidance-applying-                   the hippocampal dentate gyrus of rat
                                                          Time-dependent Effects on Plasma, Red                   quantitative-data-develop-data-derived-               offspring. Reprod. Toxicol. 35:125&ndash;136.
                                                          Blood Cell, Brain and Lung                              extrapolation-factors-interspecies-and.          43. Berkowitz, G. S., Obel, J., Deych, E.,
                                                          Cholinesterase Activity in Femal CD(SD):           32. Dow AgroSciences (2014), P. Price.                     Lapinski, R., Godbold, J., Liu, Z., Wolff,
                                                          Crl Rats. MRID 49119501.                                Development of Chemical Specific                      M. S. (2003). Exposure to indoor
                                                     21. Hotchkiss, J.; Krieger, S.; Mahoney, K.; et              Adjustment Factors for Chlorpyrifos and               pesticides during pregnancy in a
                                                          al. (2013) Nose-Only Inhalation of                      Chlorpyrifos Oxon Using Target Red                    multiethnic, urban cohort. Environ
                                                          Chlorpyrifos-Oxon Vapor: Limited                        Blood Cell Acetyl Cholinesterase                      Health Perspect, 111(1), 79&ndash;84.
                                                          Toxicokinetics and Determination of                     Inhibition Levels of 10%, 5%, and 1%.            44. Whyatt, R. M., Barr, D. B., Camann, D. E.,
                                                          Time-Dependent Effects on Plasma, Red                   Available at http://www.regulations.gov/              Kinney, P. L., Barr, J. R., Andrews, H. F.,
                                                          Blood Cell, Brain and Lung                              #!documentDetail;D=EPA-HQ-OPP-2008-                   . . . Perera, F. P. (2003). Contemporary-
                                                          Cholinesterase Activity in Female                       0850-0218.                                            use pesticides in personal air samples
                                                          CD(SD): Crl Rats. MRID 49210101.                   33. U.S. EPA (2002). Determination of the                  during pregnancy and blood samples at
                                                     22. U.S. EPA (2002). Revised                                 Appropriate FQPA Safety Factor(s) in                  delivery among urban minority mothers
                                                          Organophosphorous Pesticide                             Tolerance Assessment. Available at                    and newborns. Environ Health Perspect,
                                                          Cumulative Risk Assessment. Available                   http://www.epa.gov/oppfead1/trac/                     111(5), 749&ndash;756.
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                                                          cumulative/rra-op/.                                34. Aldridge, J. E., Levin, E. D., Seidler, F. J.,         A., Andrews, H., Holmes, D., Williams,
                                                     23. U.S. EPA (2006). Approaches for the                      &amp; Slotkin, T. A. (2005). Developmental                M. K., . . . Barr, D. B. (2009). A
                                                          Application of Physiologically Based                    exposure of rats to chlorpyrifos leads to             biomarker validation study of prenatal
                                                          Pharmacokinetic (PBPK) Models and                       behavioral alterations in adulthood,                  chlorpyrifos exposure within an inner-
                                                          Supporting Data in Risk Assessment.                     involving serotonergic mechanisms and                 city cohort during pregnancy. Environ
                                                          Available at http://cfpub.epa.gov/ncea/
                                                                                                                  resembling animal models of depression.               Health Perspect, 117(4), 559&ndash;567.
                                                          cfm/recordisplay.cfm?deid=157668.
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                                                          Physiologically based pharmacokinetic                   exposure to chlorpyrifos during                       115(3), 383&ndash;389.
                                                          and pharmacodynamic (PBPK/PD) model                     neurulation. Neurotoxicol Teratol, 26(1),        47. Bradman, A., Whitaker, D., Quiros, L.,
                                                          for the organophosphate insecticide                     95&ndash;101.                                               Castorina, R., Claus Henn, B., Nishioka,
                                                          chlorpyrifos in rats and humans.                   36. Levin, E. D., Addy, N., Baruah, A., Elias,             M., . . . Eskenazi, B. (2007). Pesticides
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                                                     26. U.S EPA FIFRA Scientific Advisory                        (2002). Prenatal chlorpyrifos exposure in             urine of farmworker children living in
                                                          Panel. (2011). &lsquo;&lsquo;Chlorpyrifos                           rats causes persistent behavioral                     the Salinas Valley, CA. J Expo Sci
                                                          Physiologically Based Pharmacokinetic                   alterations. Neurotoxicol Teratol, 24(6),             Environ Epidemiol, 17(4), 331&ndash;349. doi:
                                                          and Pharmacodynamic (PBPK&ndash;PD)                           733&ndash;741.                                              10.1038/sj.jes.7500507.
                                                          Modeling linked to Cumulative and                  37. Levin, E. D., Addy, N., Nakajima, A.,             48. Engel SM, Berkowitz GS, Barr DB,
                                                          Aggregate Risk Evaluation System                        Christopher, N. C., Seidler, F. J., &amp;                 Teitelbaum SL, Siskind J, Meisel SJ,
                                                          (CARES).&rsquo;&rsquo; Report from the FIFRA                        Slotkin, T. A. (2001). Persistent                     Wetmur JG, Wolff MS. Prenatal
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                                                          February 15&ndash;18, 2011. Available at                      chlorpyrifos exposure in rats. Brain Res              Organochlorine Levels and Performance
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                                                          advisory-panel-meetings.                           38. Billauer-Haimovitch, H., Slotkin, T. A.,               Assessment Scale in a Multiethnic
                                                     27. U.S. EPA 2014. Chlorpyrifos: Quality                     Dotan, S., Langford, R., Pinkas, A., &amp;                Pregnancy Cohort. American Journal of
                                                          Assurance Assessment of the                             Yanai, J. (2009). Reversal of chlorpyrifos            Epidemiology. 2007;165:1397&ndash;1404.
                                                          Chlorpyrifos Physiologically Based                      neurobehavioral teratogenicity in mice           49. Young, J. G., Eskenazi, B., Gladstone, E.
                                                          Pharmacokinetic/Pharmacodynamic                         by nicotine administration and neural                 A., Bradman, A., Pedersen, L., Johnson,
                                                          Model for Human Health Risk                             stem cell transplantation. Behav Brain                C., . . . Holland, N. T. (2005).
                                                          Assessment Applications. TXR No.                        Res, 205(2), 499&ndash;504.                                 Association between in utero
                                                          0056896. Available at http://                      39. Jett, D. A., Navoa, R. V., Beckles, R. A.,             organophosphate pesticide exposure and
                                                          www.regulations.gov/                                    &amp; McLemore, G. L. (2001). Cognitive                   abnormal reflexes in neonates.
                                                          #!documentDetail;D=EPA-HQ-OPP-2008-                     function and cholinergic neurochemistry               Neurotoxicology, 26(2), 199&ndash;209. doi:
                                                          0850-0843.                                              in weanling rats exposed to chlorpyrifos.             10.1016/j.neuro.2004.10.004.
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                                                     28. U.S. EPA. Exposure Factors Handbook                      Toxicol Appl Pharmacol, 174(2), 89&ndash;98.           50. Rauh, V. A., Garfinkel, R., Perera, F. P.,
                                                          2011 Edition (Final). U.S. Environmental           40. Turgeman, G., Pinkas, A., Slotkin, T. A.,              Andrews, H. F., Hoepner, L., Barr, D. B.,
                                                          Protection Agency, Washington, DC,                      Tfilin, M., Langford, R., &amp; Yanai, J.                 . . . Whyatt, R. W. (2006). Impact of
                                                          EPA/600/R&ndash;09/052F, 2011. Available at                   (2011). Reversal of chlorpyrifos                      prenatal chlorpyrifos exposure on
                                                          http://cfpub.epa.gov/ncea/risk/                         neurobehavioral teratogenicity in mice                neurodevelopment in the first 3 years of
                                                          recordisplay.cfm?deid=236252.                           by allographic transplantation of adult               life among inner-city children.
                                                     29. NHANES/WWEIA survey and supporting                       subventricular zone-derived neural stem               Pediatrics, 118(6), e1845&ndash;1859.
                                                          documentation is available at http://                   cells. J Neurosci Res, 89(8), 1185&ndash;1193.         51. Whyatt, R. M., Rauh, V., Barr, D. B.,
                                                          www.ars.usda.gov/Services/                         41. Slotkin TA, Card J, Infante A, Seidler FJ.             Camann, D. E., Andrews, H. F.,
                                                          docs.htm?docid=13793.                                   (2013) Prenatal dexamethasone augments                Garfinkel, R., . . . Perera, F. P. (2004).



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				onerror="this.src='https://thefederalregister.org/doc/80_FR_69294/page/31.png'; this.onerror=null" alt="                                                                            Federal Register / Vol. 80, No. 215 / Friday, November 6, 2015 / Proposed Rules                                              69109

                                                          Prenatal insecticide exposures and birth           63. Venerosi, A., Calamandrei, G., &amp; Ricceri,              Assessment for Registration Review.
                                                          weight and length among an urban                        L. (2006). A social recognition test for              D424484. Available at http://
                                                          minority cohort. Environ Health                         female mice reveals behavioral effects of             www.regulations.gov/#!document
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                                                          organophosphates, paraoxonase 1, and                    Gestational exposure to the                           Malathion on Human Targets From
                                                          cognitive development in childhood.                     organophosphate chlorpyrifos alters                   Ground Ultra-Low Volume Mosquito
                                                          Environ Health Perspect, 119(8), 1182&ndash;                  social-emotional behaviour and impairs                Sprays; Journal of the American
                                                          1188. doi: 10.1289/ehp.1003183.                         responsiveness to the serotonin                       Mosquito Control Association; Vol. 9,
                                                     53. Eskenazi, B., Marks, A. R., Bradman, A.,                 transporter inhibitor fluvoxamine in                  No. 2 (June, 1993).
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                                                          neurodevelopment in young Mexican-                      Neurotoxicity Study of Chlorpyrifos                   Adulticide Tests: Archives of
                                                          American children. Environ Health                       Administered Orally via Gavage to Crl:                Environmental Contamination and
                                                          Perspect, 115(5), 792&ndash;798. doi: 10.1289/                CDBR VAF/Plus Presumed Pregnant                       Toxicology; 26: 473&ndash;477 (1994).
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                                                     54. Eskenazi, B., Huen, K., Marks, A., Harley,               Number: 301&ndash;001: K&ndash;044739&ndash;109.                        of Chlorpyrifos in Aqueous Chlorine
                                                          K. G., Bradman, A., Barr, D. B., &amp;                      Unpublished study prepared by Argus                   Solutions: Pathways, Kinetics, and
                                                          Holland, N. (2010). PON1 and                            Research Laboratories, Inc. (MRID                     Modeling. Environ. Sci. Technol., 2006,
                                                          neurodevelopment in children from the                   44787301).                                            40(2), 546&ndash;550.
                                                          CHAMACOS study exposed to                          66. Chen X-P, Chen W-Z, Wang F-;S, Liu J-             78. Community Water System Survey 2006;
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                                                          Environ Health Perspect, 118(12), 1775&ndash;                 impairments are related to selective                  Washington, DC 20460 May 2009 (survey
                                                          1781. doi: 10.1289/ehp.1002234.                         hippocampus and prefrontal cortex                     data) available at http://www.epa.gov/
                                                     55. Furlong, Melissa A., Engel, Stephanie M.,                deficits after prenatal chlorpyrifos                  oppefed1/models/water/Development_
                                                          Boyd Barr, Dana, Wolff, Mary S. Prenatal                exposure. Brain Res. 1474:19&ndash;28.                      and_Use_of_Community_Water_
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                                                          childhood. 2014. Environment                            hyperactivity disorder and urinary                    Determination of hydrolysis as a
                                                          International 70:125&ndash;131.
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                                                     56. Rauh, V., Arunajadai, S., Horton, M.,
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                                                          Perera, F., Hoepner, L., Barr, D. B., &amp;
                                                                                                                  Jun;125(6):e1270&ndash;7. doi: 10.1542/                     Transformation of Chlorpyrifos to
                                                          Whyatt, R. (2011). Seven-year
                                                                                                                  peds.2009&ndash;3058.                                       Chlorpyrifos Oxon in Chlorinated Water.
                                                          neurodevelopmental scores and prenatal
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                                                          exposure to chlorpyrifos, a common
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                                                          agricultural pesticide. Environ Health
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                                                          Perspect, 119(8), 1196&ndash;1201.
                                                     57. Bouchard, M. F., Chevrier, J., Harley, K.                children exposed prenatally to a                      Culpepper, V. C. Chlorine Degradation of
                                                          G., Kogut, K., Vedar, M., Calderon, N.,                 common organophosphate pesticide.                     Six Organophosphate Insecticides and
                                                          . . . Eskenazi, B. (2011). Prenatal                     Proc Natl Acad Sci U S A, 109(20), 7871&ndash;              Four Oxons in Drinking Water Matrix.
                                                          exposure to organophosphate pesticides                  7876.                                                 Submitted by Syngenta Crop Protection,
                                                          and IQ in 7-year-old children. Environ             69. Lovasi, G. S., Quinn, J. W., Rauh, V. A.,              Inc. 2001. (MRID 45513501)
                                                          Health Perspect, 119(8), 1189&ndash;1195. doi:                Perera, F. P., Andrews, H. F., Garfinkel,        82. Progress Report on Estimating Pesticide
                                                          10.1289/ehp.1003185.                                    R., . . . Rundle, A. (2011). Chlorpyrifos             Concentrations in Drinking Water and
                                                     58. Rauh, V. A., Perera, F. P., Horton, M. K.,               exposure and urban residential                        Assessing Water Treatment Effects on
                                                          Whyatt, R. M., Bansal, R., Hao, X., . . .               environment characteristics as                        Pesticide Removal and Transformation:
                                                          Peterson, B. S. (2012). Brain anomalies in              determinants of early childhood                       A Consultation. FIFRA Scientific
                                                          children exposed prenatally to a                        neurodevelopment. Am J Public Health,                 Advisory Panel Meeting, September 29,
                                                          common organophosphate pesticide.                       101(1), 63&ndash;70.                                        2000. Information on obtaining the
                                                          Proc Natl Acad Sci U S A, 109(20), 7871&ndash;           70. U.S. EPA (2014). Chlorpyrifos: Updated                 report is available at http://
                                                          7876. doi: 10.1073/pnas.1203396109.                     Drinking Water Assessment for                         www2.epa.gov/sap/fifra-scientific-
                                                     59. The Federal Letter- Review of                            Registration Review. Available in docket              advisory-panel-meetings.
                                                          Chlorpyrifos Epidemiology Studies is                    number EPA&ndash;HQ&ndash;OPP&ndash;2008&ndash;0850,                     83. To access EPA&rsquo;s water models go to
                                                          available at http://www.regulations.gov/                http://www.regulations.gov/#!document                 http://www.epa.gov/oppefed1/models/
                                                          #!documentDetail;D=EPA-HQ-OPP-2008-                     Detail;D=EPA-HQ-OPP-2008-0850-0198.                   water/.
                                                          0850-0170.                                         71. U.S. EPA (2002). Aggregate Risk                   84. Additional information related to HUCs
                                                     60. Billauer-Haimovitch, H., Slotkin, T. A.,                 Assessment for Trichloropyridinol (TCP)               can be found at http://water.usgs.gov/
                                                          Dotan, S., Langford, R., Pinkas, A., &amp;                  Metabolite of Triclopyr (PC Code                      GIS/huc.html.
                                                          Yanai, J. (2009). Reversal of chlorpyrifos              116001), Chlorpyrifos (PC Code 059101),          85. Sargeant, D., Dugger, D., Newell, E.,
                                                          neurobehavioral teratogenicity in mice                  and Chlorpyrifos-methyl (PC Code                      Anderson, P., Cowles, J. Surface Water
                                                          by nicotine administration and neural                   059102). Barcode D283101.                             Monitoring Program for Pesticides in
                                                          stem cell transplantation. Behav Brain             72. U.S. EPA (2011). Chlorpyrifos: Revised                 Salmonid-Bearing Streams 2006&ndash;2008
                                                          Res, 205(2), 499&ndash;504.                                   Acute (Probabilistic) and Chronic Dietary             Triennial Report, February 2010
                                                     61. U.S.EPA (1998). Guidelines for                           Exposure and Risk Assessments for Food                (Washington State Department of
mstockstill on DSK4VPTVN1PROD with PROPOSALS3




                                                          Neurotoxicity RiskAssessment. Available                 only (with and without Food Handling                  Ecology and Washington State
                                                          at http://archive.epa.gov/raf/web/pdf/                  Use included) and for Water Only for the              Department of Agriculture) https://
                                                          neurotox.pdf.                                           Registration Review Action&mdash;Typical                    fortress.wa.gov/ecy/publications/
                                                     62. Ricceri, L., Markina, N., Valanzano, A.,                 Use Rates/Water Included. D388166.                    summarypages/1003008.html; http://
                                                          Fortuna, S., Cometa, M. F., Meneguz, A.,           73. U.S. EPA (2014). Usage Report in Support               agr.wa.gov/PestFert/natresources/docs/
                                                          et al. (2003). Developmental exposure to                of Chlorpyrifos (059101). Available at                swm/2008_swm_report.pdf.
                                                          chlorpyrifos alters reactivity to                       www.regulations.gov in docket number             86. Sargeant, D., Newell, E., Anderson, P.,
                                                          environmental and social cues in                        EPA&ndash;HQ&ndash;OPP&ndash;2008&ndash;0850.                                 Cook, A. Surface Water Monitoring
                                                          adolescent mice. Toxicol Appl                      74. U.S. EPA (2014). Chlorpyrifos: Updated                 Program for Pesticides in Salmonid-
                                                          Pharmacol, 191(3), 189&ndash;201.                             Occupational and Residential Exposure                 Bearing Streams 2009&ndash;2011 Triennial



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				onerror="this.src='https://thefederalregister.org/doc/80_FR_69294/page/32.png'; this.onerror=null" alt="                                                     69110                  Federal Register / Vol. 80, No. 215 / Friday, November 6, 2015 / Proposed Rules

                                                          Report, February 2013 (Washington State            89. U.S. EPA (2015). Analysis of the Small              Dated: October 28, 2015.
                                                          Department of Ecology and Washington                   Business Impacts of Revoking                      Jack E. Housenger,
                                                          State Department of Agriculture) http://               Chlorpyrifos Food Tolerances. Available
                                                          agr.wa.gov/FP/Pubs/docs/377-SWM2009-                                                                     Director, Office of Pesticide Programs.
                                                                                                                 at www.regulations.gov in docket
                                                          11Report.pdf.                                          number EPA&ndash;HQ&ndash;OPP&ndash;2015&ndash;0653.
                                                     87. Poletika, N.; Robb, C. (1998) A
                                                                                                                                                                     Therefore, it is proposed that 40 CFR
                                                                                                             90. U.S. EPA (2014). Chlorpyrifos Acute and           chapter I be amended as follows:
                                                          Monitoring Study to Characterize
                                                                                                                 Steady State Dietary (Food Only)
                                                          Chlorpyrifos Concentration Patterns and
                                                          Ecological Risk in an Agriculturally                   Exposure Analysis to Support                      PART 180&mdash;[AMENDED]
                                                          Dominated Tributary of San Joaquin                     Registration Review. Available at
                                                          River: Lab Project Number: ENV96055.                   www.regulations.gov in docket number              ■ 1. The authority citation for part 180
                                                          Unpublished study prepared by Dow                      EPA&ndash;HQ&ndash;OPP&ndash;2008&ndash;0850.
                                                                                                                                                                   continues to read as follows:
                                                          AgroSciences and Paragon Research.
                                                          (MRID 44711601).                                   List of Subjects in 40 CFR Part 180                       Authority: 21 U.S.C. 321(q), 346a and 371.
                                                     88. U.S. EPA (2012). FIFRA SAP: Problem
                                                          Formulation for the Reassessment of
                                                                                                               Environmental protection,                           &sect; 180.342    [Removed]
                                                          Ecological Risks from the Use of                   Administrative practice and procedure,
                                                                                                             Agricultural commodities, Pesticides                  ■   2. Remove &sect; 180.342.
                                                          Atrazine, June 12&ndash;14, 2012, Docket
                                                          Number: EPA&ndash;HQ&ndash;OPP&ndash;2012&ndash;0230 at                    and pests, Reporting and recordkeeping                [FR Doc. 2015&ndash;28083 Filed 11&ndash;5&ndash;15; 8:45 am]
                                                          www.regulations.gov.                               requirements.                                         BILLING CODE 6560&ndash;50&ndash;P
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<table class=table><tr><td>Category</td><td><td>Regulatory Information</td></td></tr><tr><td>Collection</td><td><td>Federal Register</td></td></tr><tr><td>sudoc Class</td><td><td>AE 2.7:<br/>GS 4.107:<br/>AE 2.106:</td></td></tr><tr><td>Publisher</td><td><td>Office of the Federal Register, National Archives and Records Administration</td></td></tr><tr><td>Section</td><td><td>Proposed Rules</td></td></tr><tr><td>Action</td><td><td>Proposed rule.</td></td></tr><tr><td>Dates</td><td><td>Comments must be received on or before January 5, 2016.</td></td></tr><tr><td>Contact</td><td><td>Dana Friedman, Pesticide Re-Evaluation Division (7508P), Office of Pesticide Programs, Environmental Protection Agency, 1200 Pennsylvania Ave NW., Washington, DC 20460-</td></td></tr><tr><td>FR Citation</td><td><td>80
                        FR
                        69079 </td></td></tr><tr><td>CFR Associated</td><td><td>Environmental Protection; Administrative Practice and Procedure; Agricultural Commodities; Pesticides and Pests



                                    and
                                Reporting and Recordkeeping Requirements</td></td></tr>
</table>
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