83 FR 27954 - Takes of Marine Mammals Incidental to Specified Activities; Taking Marine Mammals Incidental to a Low-Energy Geophysical Survey in the Northwest Atlantic Ocean

DEPARTMENT OF COMMERCE
National Oceanic and Atmospheric Administration

Federal Register Volume 83, Issue 116 (June 15, 2018)

Page Range		27954-27972
FR Document		2018-12907

In accordance with the regulations implementing the Marine Mammal Protection Act (MMPA) as amended, notification is hereby given that NMFS has issued an incidental harassment authorization (IHA) to the Scripps Institution of Oceanography (SIO) to take marine mammals incidental to a low-energy marine geophysical survey in the Northwest Atlantic Ocean.

Federal Register, Volume 83 Issue 116 (Friday, June 15, 2018)

[Federal Register Volume 83, Number 116 (Friday, June 15, 2018)]
[Notices]
[Pages 27954-27972]
From the Federal Register Online [www.thefederalregister.org]
[FR Doc No: 2018-12907]

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DEPARTMENT OF COMMERCE

National Oceanic and Atmospheric Administration

RIN 0648-XF986

Takes of Marine Mammals Incidental to Specified Activities;
Taking Marine Mammals Incidental to a Low-Energy Geophysical Survey in
the Northwest Atlantic Ocean

AGENCY: National Marine Fisheries Service (NMFS), National Oceanic and
Atmospheric Administration (NOAA), Commerce.

ACTION: Notice; issuance of an incidental harassment authorization.

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

SUMMARY: In accordance with the regulations implementing the Marine
Mammal Protection Act (MMPA) as amended, notification is hereby given
that NMFS has issued an incidental harassment authorization (IHA) to
the Scripps Institution of Oceanography (SIO) to take marine mammals
incidental to a low-energy marine geophysical survey in the Northwest
Atlantic Ocean.

DATES: This authorization is valid for one year from the date of
issuance.

FOR FURTHER INFORMATION CONTACT: Jordan Carduner, Office of Protected
Resources, NMFS, (301) 427-8401. Electronic copies of the application
and supporting documents, as well as a list of the references cited in
this document, may be obtained online at: www.fisheries.noaa.gov/national/marine-mammal-protection/incidental-take-authorizations-research-and-other-activities. In case of problems accessing these
documents, please call the contact listed above.

SUPPLEMENTARY INFORMATION:

Background

Sections 101(a)(5)(A) and (D) of the MMPA (16 U.S.C. 1361 et seq.)
direct the Secretary of Commerce (as delegated to NMFS) to allow, upon
request, the incidental, but not intentional, taking of small numbers
of marine mammals by U.S. citizens who engage in a specified activity
(other than commercial fishing) within a specified geographical region
if certain findings are made and either regulations are issued or, if
the taking is limited to harassment, a notice of a proposed
authorization is provided to the public for review.
An authorization for incidental takings shall be granted if NMFS
finds that the taking will have a negligible impact on the species or
stock(s), will not have an unmitigable adverse impact on the
availability of the species or stock(s) for subsistence uses (where
relevant), and if the permissible methods of taking and requirements
pertaining to the mitigation, monitoring and reporting of such takings
are set forth.
NMFS has defined ``negligible impact'' in 50 CFR 216.103 as an
impact resulting from the specified activity that cannot be reasonably
expected to, and is not reasonably likely to, adversely affect the
species or stock through effects on annual rates of recruitment or
survival.
The MMPA states that the term ``take'' means to harass, hunt,
capture, kill or attempt to harass, hunt, capture, or kill any marine
mammal.
Except with respect to certain activities not pertinent here, the
MMPA defines ``harassment'' as any act of pursuit, torment, or
annoyance which (i) has the potential to injure a marine mammal or
marine mammal stock in the wild (Level A harassment); or (ii) has the
potential to disturb a marine mammal or marine mammal stock in the wild
by causing disruption of behavioral patterns, including, but not
limited to, migration, breathing, nursing, breeding, feeding, or
sheltering (Level B harassment).

National Environmental Policy Act

To comply with the National Environmental Policy Act of 1969 (NEPA;
42 U.S.C. 4321 et seq.) and NOAA Administrative Order (NAO) 216-6A,
NMFS must review our proposed action (i.e., the issuance of an
incidental harassment authorization) with respect to potential impacts
on the human environment. This action is consistent with categories of
activities identified in Categorical Exclusion B4 (incidental
harassment authorizations with no anticipated serious injury or
mortality) of the Companion Manual for NOAA Administrative Order 216-
6A, which do not individually or cumulatively have the potential for
significant impacts on the quality of the human environment and for
which we have not identified any extraordinary circumstances that would
preclude this categorical exclusion. Accordingly, NMFS has determined
that the issuance of the IHA qualifies to be categorically excluded
from further NEPA review.

Summary of Request

On November 20, 2017, NMFS received a request from SIO for an IHA
to take marine mammals incidental to conducting a low-energy marine
geophysical survey in the Northwest Atlantic Ocean. On February 8,
2018, we deemed SIO's application for authorization to be adequate and
complete. SIO's request is for take of a

[[Page 27955]]

small number of 35 species of marine mammals by Level B harassment and
Level A harassment. Neither SIO nor NMFS expects mortality to result
from this activity, and, therefore, an IHA is appropriate. The planned
activity is not expected to exceed one year, hence, we do not expect
subsequent MMPA incidental harassment authorizations would be issued
for this particular activity.

Description of Specified Activity

Overview

SIO plans to conduct a low-energy marine seismic survey in the
Northwest Atlantic Ocean for approximately 25 days during June-July
2018. The survey would occur in International Waters, between
~33.5[deg] and 53.5[deg] N, and 37[deg] and 49[deg] W, at water depths
ranging from 1,800 to over 5,000 meters (m) (see Figure 1 in the IHA
application) and would entail one source vessel, the R/V Atlantis,
which would tow a pair of 45 cubic inch (in\3\) GI airguns at a depth
of 2-4 m with a total discharge volume of approximately 90 in\3\ as an
energy source along predetermined lines. The receiving system would
consist of one hydrophone streamer, either 200 or 600 m in length. The
program consists of a site survey in support of a potential future
International Ocean Discovery Program project and would examine
regional seismic stratigraphy and provide seismic images of changing
sediment distributions from deepwater production changes. The Principal
Investigators are Drs. M. Lyle (Oregon State University), G. Mountain
(Rutgers University), and K. Miller (Rutgers University).
The survey would use two different types of airgun array
configurations. The first would entail a pair of 45-in\3\ airguns
spaced 8 m apart at a water depth of 2-4 m with a 200 m hydrophone
streamer and with the vessel traveling at 8 knots (kt). The second
would entail a pair of 45-in\3\ airguns, but with airguns spaced 2 m
apart at a depth of 2-4 m with a 600 m hydrophone streamer and with the
vessel traveling at 5 kt to achieve especially high-quality seismic
reflection data. Data would be collected within six grids, and also
along track lines between the six grid locations (see Figure 1 in the
IHA application). A total of 7,911 kilometers (km) of seismic
acquisition would occur, including 4,334 km of data collected within
the survey grids (2667 km at 8 kt and 1667 km at 5 kt) and an
additional 3,577 km of track lines connecting the grids. There could be
additional seismic operations in the project area associated with
equipment testing, re-acquisition due to equipment malfunction, data
degradation during poor weather, or interruption due to shutdown or
track deviation in compliance with IHA requirements.
In addition to the operations of the airgun array, a multibeam
echosounder (MBES) and a sub-bottom profiler (SBP) would also be
operated continuously throughout the survey, but not during transits to
and from the project area. The MBES (a Kongsberg EM122) operates at
10.5-13 (usually 12) kilohertz (kHz) and is hull-mounted, with the
transmitting beamwidth 1 or 2[deg] fore-aft and 150[deg] athwartship.
The SBP (a Knudsen 3260) is normally operated to provide information
about the near seafloor sedimentary features and the bottom topography
that is mapped simultaneously by the MBES. The beam of the SBP is
transmitted as a 27[deg] cone, which is directed downward by a 3.5-kHz
transducer in the hull of the vessel.

Table 1--Specifications of the R/V Atlantis Airgun Array
------------------------------------------------------------------------

------------------------------------------------------------------------
Number of airguns...................... 2.
Gun positions used..................... Two inline airguns 2- or 8-m
apart.
Tow depth of energy source............. 2-4 m.
Dominant frequency components.......... 0-188 Hz.
Air discharge volume................... Approximately 90 in\3\.
Shot interval.......................... 9.72 seconds (2 m airgun
separation survey) and 12.15
seconds (8 m airgun separation
survey).
------------------------------------------------------------------------

A detailed description of SIO's planned survey is provided in the
Federal Register notice for the proposed IHA (83 FR 18644; April 27,
2018). Since that time, no changes have been made to SIO's planned
survey activities. Therefore, a detailed description is not provided
here. Please refer to that Federal Register notice for the description
of the specific activity. Mitigation, monitoring, and reporting
measures are described in detail later in this document (please see
``Mitigation'' and ``Monitoring and Reporting'').

Comments and Responses

NMFS published a notice of proposed IHA in the Federal Register on
April 27, 2018 (83 FR 18644). During the 30-day public comment period,
NMFS received a comment letter from the Marine Mammal Commission
(Commission). NMFS has posted the comments online at:
www.fisheries.noaa.gov/national/marine-mammal-protection/incidental-take-authorizations-research-and-other-activities. NMFS addresses any
comments specific to SIO's application related to the statutory and
regulatory requirements or findings that NMFS must make under the MMPA
in order to issue an Authorization. The following is a summary of the
public comments and NMFS' responses.
Comment 1: The Commission expressed concerns regarding SIO's method
to estimate the extent of the Level A and Level B harassment zones and
the numbers of marine mammal takes. The Commission stated that the
model is not the best available science because it assumes spherical
spreading, a constant sound speed, and no bottom interactions for
surveys in deep water, and that the model provides results to a water
depth of 2,000 m while SIO's planned survey would occur in waters from
1,800 to more than 5,000 m in depth. In light of their concerns, the
Commission recommended that NMFS require SIO, in collaboration with
Lamont-Doherty Earth Observatory of Columbia University (LDEO) (which
performed the modeling of Level A and Level B harassment zones) to re-
estimate the Level A and Level B harassment zones and associated takes
of marine mammals using (1) operational (including number/type/spacing
of airguns, tow depth, source level/operating pressure, operational
volume) and site-specific environmental (including sound speed
profiles, bathymetry, and sediment characteristics at a minimum)
parameters; (2) a comprehensive source model (i.e., Gundalf Optimizer
or AASM) and (3) an appropriate sound propagation model for the
proposed IHA. Specifically, the Commission states that LDEO should be
using the ray-tracing sound propagation model BELLHOP, rather than the
MATLAB code currently used.

[[Page 27956]]

NMFS Response: NMFS acknowledges the Commission's concerns about
LDEO's current modeling approach for estimating Level A and Level B
harassment zones and takes. SIO's application (LGL, 2018) and the
Federal Register notice of the proposed IHA (83 FR 18644; April 27,
2018) describe the applicant's approach to modeling Level A and Level B
harassment zones. The model LDEO currently uses does not allow for the
consideration of environmental and site-specific parameters as
requested by the Commission.
SIO's application (LGL, 2018) describes their approach to modeling
Level A and Level B harassment zones. In summary, LDEO acquired field
measurements for several array configurations at shallow, intermediate,
and deep-water depths during acoustic verification studies conducted in
the northern Gulf of Mexico in 2007 and 2008 (Tolstoy et al., 2009).
Based on the empirical data from those studies, LDEO developed a sound
propagation modeling approach that predicts received sound levels as a
function of distance from a particular airgun array configuration in
deep water. For this survey, LDEO modeled Level A and Level B
harassment zones based on the empirically-derived measurements from the
Gulf of Mexico calibration survey (Appendix H of NSF-USGS 2011). LDEO
used the deep-water radii obtained from model results down to a maximum
water depth of 2,000 m (Figure 2 and 3 in Appendix H of NSF-USGS 2011).
In 2015, LDEO explored the question of whether the Gulf of Mexico
calibration data described above adequately informs the model to
predict exclusion isopleths in other areas by conducting a
retrospective sound power analysis of one of the lines acquired during
L-DEO's seismic survey offshore New Jersey in 2014 (Crone, 2015). NMFS
presented a comparison of the predicted radii (i.e., modeled exclusion
zones) with radii based on in situ measurements (i.e., the upper bound
[95th percentile] of the cross-line prediction) in a previous notice of
issued Authorization for LDEO (see 80 FR 27635, May 14, 2015, Table 1).
Briefly, the analysis presented in Crone (2015), specific to the survey
site offshore New Jersey, confirmed that in-situ, site specific
measurements and estimates of 160 decibel (dB) and 180 dB isopleths
collected by the hydrophone streamer of the R/V Marcus Langseth in
shallow water were smaller than the modeled (i.e., predicted) zones for
two seismic surveys conducted offshore New Jersey in shallow water in
2014 and 2015. In that particular case, Crone's (2015) results showed
that LDEO's modeled 180 dB and 160 dB zones were approximately 28
percent and 33 percent smaller, respectively, than the in-situ, site-
specific measurements, thus confirming that LDEO's model was
conservative in that case.
The following is a summary of two additional analyses of in-situ
data that support LDEO's use of the modeled Level A and Level B
harassment zones in this particular case. In 2010, LDEO assessed the
accuracy of their modeling approach by comparing the sound levels of
the field measurements acquired in the Gulf of Mexico study to their
model predictions (Diebold et al., 2010). They reported that the
observed sound levels from the field measurements fell almost entirely
below the predicted mitigation radii curve for deep water (i.e.,
greater than 1,000 m; 3280.8 ft) (Diebold et al., 2010). In 2012, LDEO
used a similar process to model distances to isopleths corresponding to
Level A and Level B harassment thresholds for a shallow-water seismic
survey in the northeast Pacific Ocean offshore Washington State. LDEO
conducted the shallow-water survey using a 6,600 in\3\ airgun
configuration aboard the R/V Marcus Langseth and recorded the received
sound levels on both the shelf and slope using the Langseth's 8 km
hydrophone streamer. Crone et al. (2014) analyzed those received sound
levels from the 2012 survey and confirmed that in-situ, site specific
measurements and estimates of the 160 dB and 180 dB isopleths collected
by the Langseth's hydrophone streamer in shallow water were two to
three times smaller than LDEO's modeling approach had predicted. While
the results confirmed the role of bathymetry in sound propagation,
Crone et al. (2014) were also able to confirm that the empirical
measurements from the Gulf of Mexico calibration survey (the same
measurements used to inform LDEO's modeling approach for the planned
surveys in the northwest Atlantic Ocean) overestimated the size of the
exclusion and buffer zones for the shallow-water 2012 survey off
Washington State and were thus precautionary, in that particular case.
NMFS continues to work with LDEO to address the issue of
incorporating site-specific information for future authorizations for
seismic surveys. However, LDEO's current modeling approach (supported
by the three data points discussed previously) represents the best
available information for NMFS to reach determinations for this IHA. As
described earlier, the comparisons of LDEO's model results and the
field data collected at multiple locations (i.e., the Gulf of Mexico,
offshore Washington State, and offshore New Jersey) illustrate a degree
of conservativeness built into LDEO's model for deep water, which NMFS
expects to offset some of the limitations of the model to capture the
variability resulting from site-specific factors. Based upon the best
available information (i.e., the three data points, two of which are
peer-reviewed, discussed in this response), NMFS finds that the Level A
and Level B harassment zone calculations are appropriate for use in
this particular IHA.
LDEO has conveyed to NMFS that additional modeling efforts to
refine the process and conduct comparative analysis may be possible
with the availability of research funds and other resources. Obtaining
research funds is typically accomplished through a competitive process,
including those submitted to U.S. Federal agencies. The use of models
for calculating Level A and Level B harassment zones and for developing
take estimates is not a requirement of the MMPA incidental take
authorization process. Further, NMFS does not provide specific guidance
on model parameters nor prescribe a specific model for applicants as
part of the MMPA incidental take authorization process at this time,
although we do review methods to ensure adequate for prediction of
take. There is a level of variability not only with parameters in the
models, but also the uncertainty associated with data used in models,
and therefore, the quality of the model results submitted by
applicants. NMFS considers this variability when evaluating
applications and the take estimates and mitigation measures that the
model informs. NMFS takes into consideration the model used, and its
results, in determining the potential impacts to marine mammals;
however, it is just one component of the analysis during the MMPA
authorization process as NMFS also takes into consideration other
factors associated with the activity (e.g., geographic location,
duration of activities, context, sound source intensity, etc.).
Comment 2: The Commission recommended that NMFS better evaluate the
numbers of Level A and B harassment takes it plans to propose for
authorization by considering both ecological/biological information and
implementation of mitigation measures for all proposed authorizations
prior to submitting them for publication in the Federal Register. The
Commission specifically questioned the proposed authorization of 42
Level A takes of

[[Page 27957]]

harbor porpoises and recommended that NMFS reduce the numbers of Level
A takes for that particular species.
NMFS Response: We appreciate the Commission's concern with
authorizing appropriate numbers of take and their suggestion regarding
the specific number of Level A takes that it deems appropriate in this
instance. We base take analyses on the best available information; in
this case, as SIO's survey is planned in a geographic area where data
on marine mammal abundance and density is relatively limited, the best
available information on cetacean density (including harbor porpoise
density) was represented by density modeling by Mannocci et al. (2017).
We relied on this information to calculate the estimated numbers of
takes (including Level A takes of harbor porpoise), as described in the
proposed IHA. We also acknowledged in the proposed IHA that harbor
porpoises would be expected to be relatively uncommon in the proposed
survey area, and that take estimates are conservative. That said, given
the fact that Mannocci et al. (2017) predict relatively high densities
of harbor porpoises in offshore waters north of ~40[deg] N (where much
of the survey would occur) and given the relative lack of information
regarding the marine mammals that may be encountered by SIO's survey,
we do not think a reduction in the number of Level A takes of harbor
porpoises is necessary in this instance, given the applicant's request.
Comment 3: the Commission questioned the necessity of the 100 m
exclusion zone, specifically for mid-frequency (MF) cetaceans, noting
that the Level A harassment zone is estimated to be less than 1 m for
MF cetaceans. The Commission stated that NMFS should ensure that marine
mammals are sufficiently protected from Level A harassment and that
activities can be completed in an appropriate manner and within an
appropriate timeframe, and recommended that NMFS more thoroughly assess
the proposed exclusion zones that are to be implemented for this
authorization and for future proposed incidental take authorizations,
prior to publication in the Federal Register.
NMFS Response: NMFS agrees with the Commission that mitigation
measures should ensure sufficient protection of marine mammals while
facilitating the timely completion of the specified activities so as to
minimize the overall duration of those activities and their impacts on
marine mammals. It is for this reason that NMFS has included a waiver
to the shutdown requirement specifically for small delphinoids (which
are expected to constitute the vast majority of MF cetaceans
encountered by SIO's survey) that would otherwise result in a shutdown
of SIO's survey. The shutdown requirement referenced by the Commission
will be in place for marine mammals with the exception of small
delphinoids (which are all in the MF functional hearing group) under
certain circumstances. The small delphinoid group is intended to
encompass those members of the Family Delphinidae most likely to
voluntarily approach the source vessel for purposes of interacting with
the vessel and/or airgun array (e.g., bow riding). The exception to the
shutdown requirement applies solely to specific genera of small
dolphins--Tursiops, Steno, Stenella, Lagenorhynchus and Delphinus. We
have included this exception because shutdown requirements for small
delphinoids under all circumstances represent practicability concerns
without likely commensurate benefits for the animals in question, as
referenced by the Commission. Small delphinoids are generally the most
commonly observed marine mammals in the specific geographic region and
would typically be the only marine mammals likely to intentionally
approach the vessel. As referenced by the Commission, auditory injury
is extremely unlikely to occur for MF cetaceans (e.g., delphinids), as
this group is relatively insensitive to sound produced at the
predominant frequencies in an airgun pulse while also having a
relatively high threshold for the onset of auditory injury. We refer
the reader to the Federal Register notice for the proposed IHA (83 FR
18644; April 27, 2018) for further discussion of sound metrics and
thresholds and marine mammal hearing.
A large body of anecdotal evidence indicates that small delphinoids
commonly approach vessels and/or towed arrays during active sound
production for purposes of bow riding, with no apparent effect observed
in those delphinoids (e.g., Barkaszi et al., 2012). As referenced by
the Commission, the potential for increased shutdowns resulting from
such a measure would require the Atlantis to revisit the missed track
line to reacquire data, potentially resulting in an increase in the
total duration over which the survey is active in a given area and an
overall increase in the total sound energy input to the marine
environment. Although other mid-frequency hearing specialists (e.g.,
large delphinoids) are no more likely to incur auditory injury than are
small delphinoids, they are much less likely to approach vessels.
Therefore, contrary to the Commission's concerns, retaining a shutdown
requirement for large delphinoids would not have similar impacts in
terms of either practicability for the applicant or corollary increase
in sound energy output and time on the water. We also anticipate some
benefit for a shutdown requirement for large delphinoids in that it
simplifies somewhat the total range of decision-making for protected
species observers (PSOs) and may preclude any potential for
physiological effects other than to the auditory system as well as some
more severe behavioral reactions for any such animals in close
proximity to the source vessel. Shutdown requirements, including the
waiver to shutdown requirements for small delphinoids, are discussed in
greater detail in the Mitigation section below.
Comment 4: The Commission expressed concern that the method used to
estimate the numbers of takes, which summed fractions of takes for each
species across project days, does not account for and negates the
intent of NMFS' 24-hour reset policy, and recommended that NMFS provide
the draft criteria for take calculation in a timely manner.
NMFS Response: We appreciate the Commission's ongoing concern in
this matter. Calculating predicted takes is not an exact science and
there are arguments for taking different mathematical approaches in
different situations, and for making qualitative adjustments in other
situations. We believe, however, that the methodology used for take
calculation in this IHA remains appropriate and is not at odds with the
24-hour reset policy the Commission references. We will share draft
guidance on this issue as soon as possible with the Commission.
Comment 5: The Commission expressed concern that information was
missing or incorrect in the proposed IHA and SIO's application,
including information on the proposed activities related to the
proposed source levels, shot intervals, and source velocities and
mitigation measures. Therefore the Commission recommended that NMFS
review more thoroughly applications prior to deeming them complete and
NMFS' draft notices prior to submitting them for publication in the
Federal Register.
NMFS Response: We appreciate the Commission pointing out the
deficiencies in the notice of proposed IHA. In response to the
Commission's concerns we have ensured source levels, shot intervals,
source velocities and mitigation measures are accurately

[[Page 27958]]

described in this notice and are accurately factored into harassment
zones and authorized take numbers. Resultant changes to harassment
zones and take estimates are minimal and are described in the Take
Estimate section below. NMFS thoroughly reviews all applications prior
to deeming them complete, and thoroughly reviews draft notices prior to
publishing in the Federal Register, and will continue to do so.
Comment 6: The Commission requested clarification regarding certain
issues associated with NMFS' notice that one-year renewals could be
issued in certain limited circumstances and expressed concern that the
process would bypass the public notice and comment requirements. The
Commission recommended that NMFS refrain from implementing its proposed
renewal process and instead use abbreviated Federal Register notices
and reference existing documents to streamline the incidental
harassment authorization process. The Commission suggested that NMFS
should discuss the possibility of renewals through a more general
route, such as a rulemaking, instead of notice in a specific
authorization. The Commission further recommended that if NMFS did not
pursue a more general route, that the agency provide the Commission and
the public with a legal analysis supporting our conclusion that this
process is consistent with the requirements of section 101(a)(5)(D) of
the MMPA.
NMFS Response: The process of issuing a renewal IHA does not bypass
the public notice and comment requirements of the MMPA. The notice of
the proposed IHA expressly notifies the public that under certain,
limited conditions an applicant could seek a renewal IHA for an
additional year. The notice describes the conditions under which such a
renewal request could be considered and expressly seeks public comment
in the event such a renewal is sought. Importantly, such renewals would
be limited to circumstances where: The activities are identical or
nearly identical to those analyzed in the proposed IHA; monitoring does
not indicate impacts that were not previously analyzed and authorized;
and, the mitigation and monitoring requirements remain the same, all of
which allow the public to comment on the appropriateness and effects of
a renewal at the same time the public provides comments on the initial
IHA. NMFS has, however, modified the language for future proposed IHAs
to clarify that all IHAs, including renewal IHAs, are valid for no more
than one year and that the agency would consider only one renewal for a
project at this time. In addition, notice of issuance or denial of a
renewal IHA would be published in the Federal Register, as they are for
all IHAs. The option for issuing renewal IHAs has been in NMFS's
incidental take regulations since 1996. We will provide any additional
information to the Commission and consider posting a description of the
renewal process on our website before any renewal is issued utilizing
this process.

Description of Marine Mammals in the Area of Specified Activity

Sections 3 and 4 of SIO's IHA application summarize available
information regarding status and trends, distribution and habitat
preferences, and behavior and life history, of the potentially affected
species. Additional information regarding population trends and threats
may be found in NMFS' Stock Assessment Reports (SAR;
www.fisheries.noaa.gov/national/marine-mammal-protection/marine-mammal-stock-assessment-reports-region) and more general information about
these species (e.g., physical and behavioral descriptions) may be found
on NMFS' website (www.fisheries.noaa.gov/species-directory).
The populations of marine mammals considered in this document do
not occur within the U.S. exclusive economic zone (EEZ) and are
therefore not assigned to stocks and are not assessed in NMFS' Stock
Assessment Reports (SAR). As such, information on potential biological
removal (PBR; defined by the MMPA as the maximum number of animals, not
including natural mortalities, that may be removed from a marine mammal
stock while allowing that stock to reach or maintain its optimum
sustainable population) and on annual levels of serious injury and
mortality from anthropogenic sources are not available for these marine
mammal populations. Abundance estimates for marine mammals in the
survey location are lacking; therefore the abundance estimates
presented here are based on the U.S. Atlantic SARs (Hayes et al., 2017)
and on the Canadian Trans-North Atlantic Sighting Survey which provided
full coverage of the Atlantic Canadian coast (Lawson and Gosselin,
2009), as these sources are considered the best available information
on potential abundance of marine mammals in the area. However, as
described above, the marine mammals encountered by the proposed survey
are not assigned to stocks. All abundance estimate values presented in
Table 2 are the most recent available at the time of publication and
are available in the 2017 U.S. Atlantic draft SARs (e.g., Hayes et al.
2017) available online at: www.fisheries.noaa.gov/national/marine-mammal-protection/marine-mammal-stock-assessments, except where noted
otherwise.
Table 2 lists all species with expected potential for occurrence in
the survey area and with the potential to be taken as a result of the
proposed survey, and summarizes information related to the population,
including regulatory status under the MMPA and ESA. For taxonomy, we
follow Committee on Taxonomy (2016).

Table 2--Marine Mammal Species Potentially Present in the Project Area and That May be Affected by the Specified
Activities
----------------------------------------------------------------------------------------------------------------
ESA/ MMPA status;
Species Stock strategic (Y/N) Abundance \2\ Relative occurrence in
\1\ project area
----------------------------------------------------------------------------------------------------------------
Order Cetartiodactyla--Cetacea--Superfamily Mysticeti (baleen whales)
----------------------------------------------------------------------------------------------------------------
Family: Balaenopteridae
Humpback whale \3\ (Megaptera n/a -/-; N 12,312 Uncommon.
novaeangliae).
Minke whale \4\ (Balaenoptera n/a -/-; N 20,741 Uncommon.
acutorostrata).
Bryde's whale (Balaenoptera n/a -/-; N unknown Uncommon.
brydei).
Sei whale (Balaenoptera n/a E/D; Y 357 Uncommon.
borealis).
Fin whale \4\ (Balaenoptera n/a E/D; Y 3,522 Uncommon.
physalus).

[[Page 27959]]

Blue whale (Balaenoptera n/a E/D; Y 440 Uncommon.
musculus).
----------------------------------------------------------------------------------------------------------------
Order Cetartiodactyla--Cetacea--Superfamily Odontoceti (toothed whales, dolphins, and porpoises)
----------------------------------------------------------------------------------------------------------------
Family: Physeteridae
Sperm whale (Physeter n/a E/D; Y 2,288 Uncommon.
macrocephalus).
Order Cetartiodactyla--Cetacea--Superfamily Odontoceti (toothed whales, dolphins, and porpoises)
----------------------------------------------------------------------------------------------------------------
Family: Kogiidae
Pygmy sperm whale \5\ (Kogia n/a -/-; N 3,785 Rare.
breviceps).
Dwarf sperm whale \5\ (Kogia n/a -/-; N 3,785 Rare.
sima).
----------------------------------------------------------------------------------------------------------------
Order Cetartiodactyla--Cetacea--Superfamily Odontoceti (toothed whales, dolphins, and porpoises)
----------------------------------------------------------------------------------------------------------------
Family delphinidae
Killer whale (Orcinus orca).... n/a -/-; N unknown Uncommon.
False killer whale (Pseudorca n/a -/-; N 442 Uncommon.
crassidens).
Pygmy killer whale (Feresa n/a -/-; N unknown Rare.
attenuata).
Short-finned pilot whale n/a -/-; N 21,515 Uncommon.
(Globicephala macrorhynchus).
Long-finned pilot whale n/a -/-; N 5,636 Uncommon.
(Globicephala melas).
Harbor porpoise (Phocoena n/a -/-; N 79,833 Uncommon.
phocoena).
Bottlenose dolphin (Tursiops n/a -/-; N 77,532 Uncommon.
truncatus).
Striped dolphin (Stenella n/a -/-; N 54,807 Uncommon.
coeruleoala).
Risso's dolphin (Grampus n/a -/-; N 18,250 Uncommon.
griseus).
Common dolphin \4\ (Delphinus n/a -; N 173,486 Uncommon.
delphis).
Atlantic white-sided dolphin n/a -; N 48,819 Uncommon.
(Lagenorhynchus obliquidens).
Atlantic spotted dolphin n/a -; N 44,715 Uncommon.
(Stenella frontalis).
Pantropical spotted dolphin n/a -; N 3,333 Uncommon.
(Stenella attenuate).
White beaked dolphin n/a -; N 2,003 Uncommon.
(Lagenorhynchus albirostris).
Rough-toothed dolphin (Steno n/a -; N 271 Rare.
bredanensis).
----------------------------------------------------------------------------------------------------------------
Order Cetartiodactyla--Cetacea--Superfamily Odontoceti (toothed whales, dolphins, and porpoises)
----------------------------------------------------------------------------------------------------------------
Family: Ziphiidae
Cuvier's beaked whale (Ziphius n/a -/-; N 6,532 Uncommon.
cavirostris).
Blainville's beaked whale \6\ n/a -; N 7,092 Uncommon.
(Mesoplodon densirostris).
True's beaked whale \6\ n/a -/-; N 7,092 Rare.
(Mesoplodon mirus).
Gervais beaked whale \6\ n/a -; N 7,092 Uncommon.
(Mesoplodon europaeus).
Sowerby's beaked whale \6\ n/a -; N 7,092 Uncommon.
(Mesoplodon bidens).
Northern bottlenose whale n/a -; N unknown Uncommon.
(Hyperoodon ampullatus).
----------------------------------------------------------------------------------------------------------------
Order Carnivora--Superfamily Pinnipedia
----------------------------------------------------------------------------------------------------------------
Family Phocidae (earless seals)
Hooded seal (Cystophora n/a -; N 592,100 Rare.
cristata).
Harp seal (Pagophilus n/a -; N 7,100,000 Rare.
groenlandicus).
Ringed seal (Pusa hispida) \7\. n/a -; N unknown Rare.
----------------------------------------------------------------------------------------------------------------
\1\ Endangered Species Act (ESA) status: Endangered (E), Threatened (T)/MMPA status: Depleted (D). A dash (-)
indicates that the species is not listed under the ESA or designated as depleted under the MMPA. Under the
MMPA, a strategic stock is one for which the level of direct human-caused mortality exceeds PBR or which is
determined to be declining and likely to be listed under the ESA within the foreseeable future. Any species or
stock listed under the ESA is automatically designated under the MMPA as depleted and as a strategic stock.
\2\ Abundance estimates are from the NMFS 2017 draft Atlantic SAR (Hayes et al., 2017) unless otherwise noted.
We note that marine mammals in the survey area would not belong to NMFS stocks, as the survey area is outside
the geographic boundaries for stock assessments, thus stock abundance estimates are provided for comparison
purposes only.
\3\ NMFS defines a stock of humpback whales only on the basis of the Gulf of Maine feeding population; however,
multiple feeding populations originate from the Distinct Population Segment (DPS) that is expected to occur in
the proposed survey area (the West Indies DPS). As West Indies DPS whales from multiple feeding populations
may be encountered in the proposed survey area, the total abundance of the West Indies DPS best reflects the
abundance of the population that may encountered by the proposed survey. The West Indies DPS abundance
estimate shown here reflects the latest estimate as described in the NMFS Status Review of the Humpback Whale
under the Endangered Species Act (Bettridge et al., 2015).
\4\ Abundance for these species is from the 2007 TNASS, which provided full coverage of the Atlantic Canadian
coast (Lawson and Gosselin, 2009). Abundance estimates from TNASS were corrected for perception and
availability bias, when possible. In general, where the TNASS survey effort provided superior coverage of a
stock's range (as compared with NOAA shipboard survey effort), we elect to use the resulting abundance
estimate over the current NMFS abundance estimate (derived from survey effort with inferior coverage of the
stock range).
\5\ Abundance estimate represents pygmy and dwarf sperm whales combined.
\6\ Abundance estimate represents all species of Mesoplodon in the Atlantic.
\7\ NMFS does not have a defined stock of ringed seals in the Atlantic Ocean.

[[Page 27960]]

Four marine mammal species that are listed under the Endangered
Species Act (ESA) may be present in the survey area and are included in
the take request: The fin whale, sei whale, blue whale and sperm whale.
Though marine mammal species other than those described in Table 2 are
known to occur in the North Atlantic Ocean, the temporal and/or spatial
occurrence of several of these species is such that take of these
species is not expected to occur, and they are therefore not discussed
further beyond the explanation provided here. Four cetacean species,
although present in the wider North Atlantic Ocean, likely would not be
found near the proposed project area because their ranges generally do
not extend as far north: Clymene dolphin, Fraser's dolphin, spinner
dolphin, and melon-headed whale. Another cetacean species, the North
Atlantic right whale, occurs in nearshore waters off the U.S. coast,
and its range does not extend as far offshore as the proposed project
area. Another three cetacean species occur in arctic waters, and their
ranges generally do not extend as far south as the proposed project
area: The bowhead whale, narwhal, and beluga. Two additional cetacean
species, the Atlantic humpback dolphin (which occurs in coastal waters
of western Africa) and the long-beaked common dolphin (which occurs in
coastal waters of South America and western Africa) do not occur in
deep offshore waters. Several pinniped species also are known to occur
in North Atlantic waters, but are not expected to occur in deep
offshore waters of the proposed project area, including the gray seal,
harbor seal, and bearded seal.
A detailed description of the species likely to be affected by
SIO's survey, including brief introductions to the species and relevant
stocks as well as available information regarding population trends and
threats, and information regarding local occurrence, were provided in
the Federal Register notice of the proposed IHA (83 FR 18644; April 27,
2018); since that time, we are not aware of any changes in the status
of these species and stocks; therefore, detailed descriptions are not
repeated here. Please refer to that Federal Register notice for these
descriptions. Please also refer to NMFS' website
(www.fisheries.noaa.gov/species-directory) for generalized species
accounts.
Information concerning marine mammal hearing, including marine
mammal functional hearing groups, was provided in the Federal Register
notice of the proposed IHA (83 FR 18644; April 27, 2018), therefore
that information is not repeated here; please refer to that Federal
Register notice for this information. For further information about
marine mammal functional hearing groups and associated frequency
ranges, please see NMFS (2016) for a review of available information.
Thirty-three marine mammal species (thirty cetacean and three pinniped
(all phocid) species) have the reasonable potential to co-occur with
the proposed survey activities (Table 2). Of the cetacean species that
may be present, six are classified as low-frequency cetaceans (i.e.,
all mysticete species), twenty-two are classified as mid-frequency
cetaceans (i.e., all delphinid species, beaked whales, and sperm
whale), and three are classified as a high-frequency cetaceans (i.e.,
harbor porpoise, pygmy and dwarf sperm whales).

Potential Effects of Specified Activities on Marine Mammals and Their
Habitat

The effects of underwater noise from SIO's survey activities have
the potential to result in behavioral harassment of marine mammals in
the vicinity of the survey area. The Federal Register notice of the
proposed IHA (83 FR 18644; April 27, 2018) included a discussion of the
effects of anthropogenic noise on marine mammals and their habitat,
therefore that information is not repeated here; please refer to that
Federal Register notice for that information. No instances of hearing
threshold shifts, injury, serious injury, or mortality are expected as
a result of the planned activities.

Estimated Take

This section provides an estimate of the number of incidental takes
authorized through this IHA, which will inform both NMFS' consideration
of ``small numbers'' and the negligible impact determination.
Harassment is the only type of take expected to result from these
activities. Except with respect to certain activities not pertinent
here, section 3(18) of the MMPA defines ``harassment'' as any act of
pursuit, torment, or annoyance which (i) has the potential to injure a
marine mammal or marine mammal stock in the wild (Level A harassment);
or (ii) has the potential to disturb a marine mammal or marine mammal
stock in the wild by causing disruption of behavioral patterns,
including, but not limited to, migration, breathing, nursing, breeding,
feeding, or sheltering (Level B harassment).
Authorized takes would primarily be by Level B harassment, as use
of the seismic airguns have the potential to result in disruption of
behavioral patterns for individual marine mammals. There is also some
potential for auditory injury (Level A harassment) to result, primarily
for high frequency cetaceans. Auditory injury is unlikely to occur for
low- and mid-frequency cetaceans given very small modeled zones of
injury for those species. The mitigation and monitoring measures are
expected to minimize the severity of such taking to the extent
practicable. As described previously, no mortality is anticipated or
authorized for this activity. Below we describe how the take is
estimated.
Described in the most basic way, we estimate take by considering:
(1) Acoustic thresholds above which NMFS believes the best available
science indicates marine mammals will be behaviorally harassed or incur
some degree of permanent hearing impairment; (2) the area or volume of
water that will be ensonified above these levels in a day; (3) the
density or occurrence of marine mammals within these ensonified areas;
and (4) and the number of days of activities. Below, we describe these
components in more detail and present the exposure estimate and
associated numbers of take authorized.

Acoustic Thresholds

Using the best available science, NMFS has developed acoustic
thresholds that identify the received level of underwater sound above
which exposed marine mammals would be reasonably expected to be
behaviorally harassed (equated to Level B harassment) or to incur PTS
of some degree (equated to Level A harassment).
Level B Harassment for non-explosive sources--Though significantly
driven by received level, the onset of behavioral disturbance from
anthropogenic noise exposure is also informed to varying degrees by
other factors related to the source (e.g., frequency, predictability,
duty cycle), the environment (e.g., bathymetry), and the receiving
animals (hearing, motivation, experience, demography, behavioral
context) and can be difficult to predict (Southall et al., 2007,
Ellison et al. 2011). Based on the best available science and the
practical need to use a threshold based on a factor that is both
predictable and measurable for most activities, NMFS uses a generalized
acoustic threshold based on received level to estimate the onset of
behavioral harassment. NMFS predicts that marine mammals are likely to
be behaviorally harassed in a manner we consider to fall under Level B
harassment when exposed to underwater anthropogenic noise above
received levels of 120 dB re 1 [mu]Pa (rms) for continuous (e.g.
vibratory pile-

[[Page 27961]]

driving, drilling) and above 160 dB re 1 [mu]Pa (rms) for non-explosive
impulsive (e.g., seismic airguns) or intermittent (e.g., scientific
sonar) sources. SIO's proposed activity includes the use of impulsive
seismic sources. Therefore, the 160 dB re 1 [mu]Pa (rms) criteria is
applicable for analysis of level B harassment.
Level A harassment for non-explosive sources-- NMFS' Technical
Guidance for Assessing the Effects of Anthropogenic Sound on Marine
Mammal Hearing (NMFS, 2016) identifies dual criteria to assess auditory
injury (Level A harassment) to five different marine mammal groups
(based on hearing sensitivity) as a result of exposure to noise from
two different types of sources (impulsive or non-impulsive). As
described above, SIO's proposed activity includes the use of
intermittent and impulsive seismic sources. These thresholds are
provided in Table 3.
These thresholds are provided in the table below. The references,
analysis, and methodology used in the development of the thresholds are
described in NMFS 2016 Technical Guidance, which may be accessed at:
http://www.nmfs.noaa.gov/pr/acoustics/guidelines.htm.

Table 3--Thresholds Identifying the Onset of Permanent Threshold Shift
in Marine Mammals
------------------------------------------------------------------------
PTS onset thresholds
Hearing group ---------------------------------------
Impulsive * Non-impulsive
------------------------------------------------------------------------
Low-Frequency (LF) Cetaceans.... Lpk,flat: 219 dB LE,LF,24h: 199 dB.
LE,LF,24h: 183 dB.
Mid-Frequency (MF) Cetaceans.... Lpk,flat: 230 dB LE,MF,24h: 198 dB.
LE,MF,24h: 185 dB.
High-Frequency (HF) Cetaceans... Lpk,flat: 202 dB LE,HF,24h: 173 dB.
LE,HF,24h: 155 dB.
Phocid Pinnipeds (PW) Lpk,flat: 218 dB LE,PW,24h: 201 dB.
(Underwater). LE,PW,24h: 185 dB.
Otariid Pinnipeds (OW) Lpk,flat: 232 dB LE,OW,24h: 219 dB.
(Underwater). LE,OW,24h: 203 dB.
------------------------------------------------------------------------
Note:* Dual metric acoustic thresholds for impulsive sounds: Use
whichever results in the largest isopleth for calculating PTS onset.
If a non-impulsive sound has the potential of exceeding the peak sound
pressure level thresholds associated with impulsive sounds, these
thresholds should also be considered.
Note: Peak sound pressure (Lpk) has a reference value of 1 [mu]Pa, and
cumulative sound exposure level (LE) has a reference value of
1[mu]Pa2s. In this Table, thresholds are abbreviated to reflect
American National Standards Institute standards (ANSI 2013). However,
peak sound pressure is defined by ANSI as incorporating frequency
weighting, which is not the intent for this Technical Guidance. Hence,
the subscript ``flat'' is being included to indicate peak sound
pressure should be flat weighted or unweighted within the generalized
hearing range. The subscript associated with cumulative sound exposure
level thresholds indicates the designated marine mammal auditory
weighting function (LF, MF, and HF cetaceans, and PW and OW pinnipeds)
and that the recommended accumulation period is 24 hours. The
cumulative sound exposure level thresholds could be exceeded in a
multitude of ways (i.e., varying exposure levels and durations, duty
cycle). When possible, it is valuable for action proponents to
indicate the conditions under which these acoustic thresholds will be
exceeded.

Ensonified Area

Here, we describe operational and environmental parameters of the
activity that will feed into estimating the area ensonified above the
acoustic thresholds.
The survey would entail the use of a 2-airgun array with a total
discharge of 90 in\3\ at a tow depth of 2-4 m. The distances to the
predicted isopleths corresponding to the threshold for Level B
harassment (160 dB re 1 [mu]Pa) were calculated for both array
configurations based on results of modeling performed by LDEO. Received
sound levels were predicted by LDEO's model (Diebold et al. 2010) as a
function of distance from the airgun array. The LDEO modeling approach
uses ray tracing for the direct wave traveling from the array to the
receiver and its associated source ghost (reflection at the air-water
interface in the vicinity of the array), in a constant-velocity half-
space (infinite homogeneous ocean layer unbounded by a seafloor). In
addition, propagation measurements of pulses from a 36-airgun array at
a tow depth of 6 m have been reported in deep water (~1,600 m),
intermediate water depth on the slope (~600-1100 m), and shallow water
(~50 m) in the Gulf of Mexico in 2007-2008 (Tolstoy et al. 2009;
Diebold et al. 2010). The estimated distances to Level B harassment
isopleths for the two configurations of the Atlantis airgun array are
shown in Table 4.

Table 4--Predicted Radial Distances From R/V Atlantis 90 in\3\ Seismic
Source to Isopleth Corresponding to Level B Harassment Threshold
------------------------------------------------------------------------
Predicted
distance to
Array configuration threshold (160
dB re 1
[mu]Pa)
------------------------------------------------------------------------
2 m airgun separation................................... 578 m
8 m airgun separation................................... 539 m
------------------------------------------------------------------------

For modeling of radial distances to predicted isopleths
corresponding to harassment thresholds in deep water (>1,000 m), LDEO
used the deep-water radii for various Sound Exposure Levels obtained
from LDEO model results down to a maximum water depth of 2,000 m (see
Figures 2 and 3 in the IHA application). LDEO's modeling methodology is
described in greater detail in the IHA application (LGL, 2018) and we
refer to the reader to that document rather than repeating it here.
Predicted distances to Level A harassment isopleths, which vary
based on marine mammal functional hearing groups (Table 3), were
calculated based on modeling performed by LDEO using the Nucleus
software program and the NMFS User Spreadsheet, described below. The
updated acoustic thresholds for impulsive sounds (such as airguns)
contained in the Technical Guidance (NMFS, 2016) were presented as dual
metric acoustic thresholds using both cumulative sound exposure level
(SELcum) and peak sound pressure level metrics. As dual
metrics, NMFS considers onset of PTS (Level A harassment) to have
occurred when either one of the two metrics is exceeded (i.e., metric
resulting in the largest isopleth). The SELcum metric
considers both level and duration of exposure, as well as auditory
weighting functions by marine mammal hearing group. In recognition of
the fact that the requirement to calculate Level A harassment
ensonified areas could be more technically challenging to predict due
to the duration component and the use of weighting functions in the new
SELcum thresholds, NMFS developed an optional User
Spreadsheet that includes tools to help predict a simple isopleth that
can be used in conjunction with marine mammal density or occurrence to
facilitate the estimation of take numbers.
The values for SELcum and peak SPL for the Atlantis
airgun array were derived from calculating the modified farfield
signature (Table 5). The farfield signature is often used as a
theoretical

[[Page 27962]]

representation of the source level. To compute the farfield signature,
the source level is estimated at a large distance below the array
(e.g., 9 km), and this level is back projected mathematically to a
notional distance of 1 m from the array's geometrical center. However,
when the source is an array of multiple airguns separated in space, the
source level from the theoretical farfield signature is not necessarily
the best measurement of the source level that is physically achieved at
the source (Tolstoy et al. 2009). Near the source (at short ranges,
distances <1 km), the pulses of sound pressure from each individual
airgun in the source array do not stack constructively, as they do for
the theoretical farfield signature. The pulses from the different
airguns spread out in time such that the source levels observed or
modeled are the result of the summation of pulses from a few airguns,
not the full array (Tolstoy et al. 2009). At larger distances, away
from the source array center, sound pressure of all the airguns in the
array stack coherently, but not within one time sample, resulting in
smaller source levels (a few dB) than the source level derived from the
farfield signature. Because the farfield signature does not take into
account the array effect near the source and is calculated as a point
source, the modified farfield signature is a more appropriate measure
of the sound source level for distributed sound sources, such as airgun
arrays. Though the array effect is not expected to be as pronounced in
the case of a 2-airgun array as it would be with a larger airgun array,
the modified farfield method is considered more appropriate than use of
the theoretical farfield signature.

Table 5--Modeled Source Levels (dB) for R/V Atlantis 90 in\3\ Airgun Array
----------------------------------------------------------------------------------------------------------------
5-kt survey
8-kt survey with 2-m 5-kt survey
8-kt survey with 8-m with 8-m airgun with 2-m
Functional hearing group airgun separation: Peak airgun separation: airgun
SPLflat separation: Peak SPLflat separation:
SELcum SELcum
----------------------------------------------------------------------------------------------------------------
Low frequency cetaceans (Lpk,flat: 219 228.8................... 207 232.8 206.7
dB; LE,LF,24h: 183 dB).
Mid frequency cetaceans (Lpk,flat: 230 N/A..................... 206.7 229.8 206.9
dB; LE,MF,24h: 185 dB).
High frequency cetaceans (Lpk,flat: 233..................... 207.6 232.9 207.2
202 dB; LE,HF,24h: 155 dB).
Phocid Pinnipeds (Underwater) 230..................... 206.7 232.8 206.9
(Lpk,flat: 218 dB; LE,HF,24h: 185 dB).
Otariid Pinnipeds (Underwater) N/A..................... 203 225.6 207.4
(Lpk,flat: 232 dB; LE,HF,24h: 203 dB).
----------------------------------------------------------------------------------------------------------------

In order to more realistically incorporate the Technical Guidance's
weighting functions over the seismic array's full acoustic band,
unweighted spectrum data for the Atlantis's airgun array (modeled in 1
Hz bands) was used to make adjustments (dB) to the unweighted spectrum
levels, by frequency, according to the weighting functions for each
relevant marine mammal hearing group. These adjusted/weighted spectrum
levels were then converted to pressures ([mu]Pa) in order to integrate
them over the entire broadband spectrum, resulting in broadband
weighted source levels by hearing group that could be directly
incorporated within the User Spreadsheet (i.e., to override the
Spreadsheet's more simple weighting factor adjustment). Using the User
Spreadsheet's ``safe distance'' methodology for mobile sources
(described by Sivle et al., 2014) with the hearing group-specific
weighted source levels, and inputs assuming spherical spreading
propagation, a source velocity of 2.57 m/second (for the 2 m airgun
separation survey) and 4.12 m/second (for the 8 m airgun separation
survey), and a shot interval of 9.72 seconds (for the 2 m airgun
separation survey) and 12.15 seconds (for the 8 m airgun separation
survey) (LGL, 2018), potential radial distances to auditory injury
zones were calculated for SELcum thresholds, for both array
configurations. Inputs to the User Spreadsheet are shown in Table 5.
Outputs from the User Spreadsheet in the form of estimated distances to
Level A harassment isopleths are shown in Table 6. As described above,
the larger distance of the dual criteria (SELcumor Peak
SPLflat) is used for estimating takes by Level A harassment.
The weighting functions used are shown in Table 3 of the IHA
application.

Table 6--Modeled Radial Distances (m) From R/V Atlantis 90 in\3\ Airgun Array to Isopleths Corresponding to
Level A Harassment Thresholds
----------------------------------------------------------------------------------------------------------------
8-kt survey 5-kt survey
with 8-m 8-kt survey with 2-m 5-kt survey
Functional hearing group (Level A harassment airgun with 8-m airgun with 2-m
thresholds) separation: airgun separation: airgun
Peak SPLflat separation: Peak SPLflat separation:
SELcum SELcum
----------------------------------------------------------------------------------------------------------------
Low frequency cetaceans (Lpk,flat: 219 dB; 3.08 2.4 4.89 6.5
LE,LF,24h: 183 dB).............................
Mid frequency cetaceans (Lpk,flat: 230 dB; 0 0 0.98 0
LE,MF,24h: 185 dB).............................
High frequency cetaceans (Lpk,flat: 202 dB; \1\ 35.53 0 \1\ 35.13 0
LE,HF,24h: 155 dB).............................
Phocid Pinnipeds (Underwater) (Lpk,flat: 218 dB; 4.02 0 5.51 0.1
LE,HF,24h: 185 dB).............................
Otariid Pinnipeds (Underwater) (Lpk,flat: 232 0 0 0.48 0
dB; LE,HF,24h: 203 dB).........................
----------------------------------------------------------------------------------------------------------------
\1\ Distances to isopleths corresponding to Level A harassment threshold for HF cetaceans (peak SPL) have been
revised from those shown in the proposed IHA based on use of radial distances (vs radii) to estimate Level A
isopleths for high frequency cetaceans.

We note that radial distances to isopleths corresponding to the
Level A harassment threshold for high frequency cetaceans shown in
Table 6, for the peak SPL metric, are slightly different than the
distances that were presented in the proposed IHA. The proposed IHA
presented the radii (versus radial distances) to the Level A isopleth
for high frequency cetaceans, for the peak SPL metric, as shown in
Table 6 of the IHA application (the distances to radii are 34.62 m for
the 2-m airgun separation survey and 34.84 m for the 8-m airgun
separation survey). However,

[[Page 27963]]

as radial distances to the Level A isopleth for high frequency
cetaceans, for the peak SPL metric, are slightly larger than the radii,
we determined that, to be conservative, the radial distances (as shown
in Table 6) should be used to calculate ensonified areas and to
estimate take.
Note that because of some of the assumptions included in the
methods used, isopleths produced may be overestimates to some degree,
which will ultimately result in some degree of overestimate of Level A
take. However, these tools offer the best way to predict appropriate
isopleths when more sophisticated 3D modeling methods are not
available, and NMFS continues to develop ways to quantitatively refine
these tools and will qualitatively address the output where
appropriate. For mobile sources, such as the proposed seismic survey,
the User Spreadsheet predicts the closest distance at which a
stationary animal would not incur PTS if the sound source traveled by
the animal in a straight line at a constant speed.

Marine Mammal Occurrence

In this section we provide the information about the presence,
density, or group dynamics of marine mammals that will inform the take
calculations. The best available scientific information was considered
in conducting marine mammal exposure estimates (the basis for
estimating take). For all cetacean species, densities calculated by
Mannocci et al. (2017) were used. These represent the most
comprehensive and recent density data available for cetacean species in
the survey area. Mannocci et al. (2017) modeled marine mammal densities
using available line transect survey data and habitat-based covariates
and extrapolated model predictions to unsurveyed regions, including the
proposed survey area. The authors considered line transect surveys that
used two or more protected species observers and met the assumptions of
the distance sampling methodology as presented by Buckland et al.
(2001), and included data from shipboard and aerial surveys conducted
from 1992 to 2014 by multiple U.S. organizations (details provided in
Roberts et al. (2016)). The data underlying the model predictions for
the proposed survey area originated from shipboard survey data
presented in Waring et al. (2008). To increase the success of model
transferability to new regions, the authors considered biological
covariates expected to be related directly to cetacean densities
(Wenger & Olden, 2012), namely biomass and production of epipelagic
micronekton and zooplankton predicted with the Spatial Ecosystem and
Population DYnamics Model (SEAPODYM) (Lehodey et al. 2010). Zooplankton
and epipelagic micronekton (i.e., squid, crustaceans, and fish)
constitute potential prey for many of the cetaceans considered, in
particular dolphins and mysticetes (Pauly et al. 1998), and all these
covariates correlate with cetacean distributions (e.g., Ferguson et al.
2006; Doniol-Valcroze et al. 2007; Lambert et al. 2014). There is some
uncertainty related to the estimated density data and the assumptions
used in their calculations, as with all density data estimates.
However, the approach used is based on the best available data.

Take Calculation and Estimation

Here we describe how the information provided above is brought
together to produce a quantitative take estimate. In order to estimate
the number of marine mammals predicted to be exposed to sound levels
that would result in Level B harassment or Level A harassment, radial
distances to predicted isopleths corresponding to the Level A
harassment and Level B harassment thresholds are calculated, as
described above (Table 7). Those distances are then used to calculate
the area(s) around the airgun array predicted to be ensonified to sound
levels that exceed the Level A and Level B harassment thresholds. The
areas estimated to be ensonified in a single day of the survey are then
calculated, based on the areas predicted to be ensonified around the
array and the estimated trackline distance traveled per day (Table 8).
This number is then multiplied by the number of survey days (i.e., 7.5
days for the 5-kt survey with 2-m airgun separation and 17.5 days for
the 8-kt survey with 8-m airgun separation). The product is then
multiplied by 1.25 to account for an additional 25 percent contingency
for potential additional seismic operations due to airgun testing,
mechanical failure, etc. This results in an estimate of the total areas
(km\2\) expected to be ensonified to the Level A harassment and Level B
harassment thresholds. For purposes of Level B take calculations, areas
estimated to be ensonified to Level A harassment thresholds are
subtracted from total areas estimated to be ensonified to Level B
harassment thresholds in order to avoid double counting the animals
taken (i.e., if an animal is taken by Level A harassment, it is not
also counted as taken by Level B harassment). Areas estimated to be
ensonified over the duration of the survey are shown in Table 9. The
marine mammals predicted to occur within these respective areas, based
on estimated densities, are assumed to be incidentally taken. Estimated
takes for all marine mammal species are shown in Table 10.

Table 7--Distances (m) to Isopleths Corresponding to Level A and Level B Harassment Thresholds
--------------------------------------------------------------------------------------------------------------------------------------------------------
Level B Level A harassment threshold \1\
harassment -------------------------------------------------------------------------------
threshold
Survey ---------------- Low frequency Mid frequency High frequency Otariid Phocid
All marine cetaceans cetaceans cetaceans pinnipeds pinnipeds
mammals
--------------------------------------------------------------------------------------------------------------------------------------------------------
5-kt survey with 2-m airgun separation.................. 539 6.5 0.98 \2\ 35.13 5.51 0.48
8-kt survey with 8-m airgun separation.................. 578 3.08 0 \2\ 35.53 4.02 0
--------------------------------------------------------------------------------------------------------------------------------------------------------
\1\ Level A ensonified areas are estimated based on the greater of the distances calculated to Level A isopleths using dual criteria (SELcum and peak
SPL).
\2\ Distances to isopleths corresponding to Level A harassment threshold for HF cetaceans have been revised from those shown in the proposed IHA based
on use of radial distances (vs radii) to estimate Level A isopleths for high frequency cetaceans, as described above.

[[Page 27964]]

Table 8--Areas (km\2\) Estimated To Be Ensonified to Level A and Level B Harassment Thresholds per Day
--------------------------------------------------------------------------------------------------------------------------------------------------------
Level B Level A harassment threshold \1\
harassment -------------------------------------------------------------------------------
threshold
Survey ---------------- Low frequency Mid frequency High frequency Otariid Phocid
All marine cetaceans cetaceans cetaceans pinnipeds pinnipeds
mammals
--------------------------------------------------------------------------------------------------------------------------------------------------------
5-kt survey with 2-m airgun separation.................. 240.68 2.90 0.44 \2\ 15.63 2.45 0.21
8-kt survey with 8-m airgun separation.................. 412.10 2.19 0 \2\ 25.28 2.86 0
--------------------------------------------------------------------------------------------------------------------------------------------------------
\1\ Level A ensonified areas are estimated based on the greater of the distances calculated to Level A isopleths using dual criteria (SELcum and peak
SPL).
\2 \ Ensonified areas have been revised from those shown in the proposed IHA based on use of radial distances (vs radii) to estimate Level A isopleths
for high frequency cetaceans, as described above.
Note: Estimated areas shown for single day do not include additional 25 percent contingency.

Table 9--Areas (km\2\) Estimated To Be Ensonified to Level A and Level B Harassment Thresholds Over Duration of Survey
--------------------------------------------------------------------------------------------------------------------------------------------------------
Level B Level A harassment threshold \1\
harassment -------------------------------------------------------------------------------
threshold
Survey ---------------- Low frequency Mid frequency High frequency Otariid Phocid
All marine cetaceans cetaceans cetaceans pinnipeds pinnipeds
mammals
--------------------------------------------------------------------------------------------------------------------------------------------------------
5-kt survey with 2-m airgun separation.................. 2256.33 27.10 4.09 \2\146.57 22.97 2.0
8-kt survey with 8-m airgun separation.................. 9014.56 47.84 0 \2\552.93 62.50 0
--------------------------------------------------------------------------------------------------------------------------------------------------------
\1\ Level A ensonified areas are estimated based on the greater of the distances calculated to Level A isopleths using dual criteria (SELcum and peak
PL).
\2\ Ensonified areas have been revised from those shown in the proposed IHA based on use of radial distances (vs radii) to estimate Level A isopleths
for high frequency cetaceans, as described above.
Note: Estimated areas shown include additional 25 percent contingency.

Table 10--Numbers of Potential Incidental Take of Marine Mammals Authorized
--------------------------------------------------------------------------------------------------------------------------------------------------------
Total
instances of
Density (#/ Estimated Authorized Estimated Authorized Total takes takes as a
Species 1,000 km \2\) Level A takes Level A takes Level B takes Level B takes authorized percentage of
SAR abundance
\1\
--------------------------------------------------------------------------------------------------------------------------------------------------------
Humpback whale \2\...................... 10 1 0 112 113 113 * 0.9
Minke whale............................. 4 0 0 45 45 45 * 0.2
Bryde's whale........................... 0.1 0 0 1 1 1 unknown
Sei whale \2\........................... 10 1 0 112 113 113 31.4
Fin whale............................... 8 1 0 89 90 90 * 2.6
Blue whale.............................. 0 0 0 0 1 1 0.2
Sperm whale............................. 40 0 0 451 451 451 19.7
Cuvier's beaked whale \3\............... 60 0 0 135 135 135 2.0
Northern bottlenose whale \4\........... 0.8 0 0 9 9 9 unknown
True's beaked whale \3\................. 60 0 0 135 135 135 1.9
Gervais beaked whale \3\................ 60 0 0 135 135 135 1.9
Sowerby's beaked whale \3\.............. 60 0 0 135 135 135 1.9
Blainville's beaked whale \3\........... 60 0 0 135 135 135 1.9
Rough-toothed dolphin................... 3 0 0 34 34 34 12.5
Bottlenose dolphin \4\.................. 60 0 0 676 676 676 0.9
Pantropical spotted dolphin............. 10 0 0 113 113 113 3.4
Atlantic spotted dolphin................ 40 0 0 451 451 451 1.0
Striped dolphin......................... 80 0 0 902 902 902 1.6
Atlantic white-sided dolphin \4\........ 60 0 0 676 676 676 1.4
White-beaked dolphin.................... 1 0 0 11 11 11 0.6
Common dolphin.......................... 800 3 0 9014 9017 9017 * 5.2
Risso's dolphin \4\..................... 20 0 0 225 225 225 1.2
Pygmy killer whale \5\.................. 1.5 0 0 17 17 17 unknown
False killer whale...................... 2 0 0 23 23 23 5.2
Killer whale \ 5 6\..................... 0.2 0 0 2 5 5 unknown

[[Page 27965]]

Long-finned/short-finned Pilot whale \ 200 1 0 2253 2254 2254 8.3
7\.....................................
Pygmy/dwarf sperm whale................. 0.6 0 0 7 7 7 0.2
Harbor porpoise \8\..................... 60 42 42 634 634 676 0.8
Ringed seal \5\......................... 0 0 0 0 1 1 unknown
Hooded seal............................. 0 0 0 0 1 1 <0.1
Harp seal............................... 0 0 0 0 1 1 <0.1
--------------------------------------------------------------------------------------------------------------------------------------------------------
\1 \ While we have in most cases provided comparisons of the instances of takes as a percentage of SAR abundance as the best available information
regarding population abundance, we note that these are likely underestimates of the relevant North Atlantic populations, as the proposed survey area
is outside the U.S. EEZ.
* Instances of takes are shown as a percentage of abundance as described by TNASS or NMFS Status Review, as described above.
\2\ Level A takes of these species were estimated based on NMFS' take calculation methodology, but NMFS has determined Level A take of these species is
not likely to occur, as described in more detail in the text below. To avoid undercounting the takes estimated to occur, the number of takes by Level
A harassment that had been estimated for these species, but that NMFS has determined are unlikely to occur as described below, are therefore assumed
to be Level B harassment takes. Thus the number of Level A harassment takes that had been calculated for these species has been added to the number of
Level B takes authorized for the species.
\3\ Density value represents the density for all beaked whale species combined. Requested take and take authorized are based on the proportion of all
beaked whales expected to be taken (thus 677 total estimated beaked whale takes were calculated based on the density of all beaked whales combined,
and this number has been divided by 5 (for the 5 species of beaked whales expected to be taken) for a total of 135 takes per species of beaked whale.
\4\ Number of take authorized has been revised slightly from that shown in proposed IHA due to math error.
\5\ The population abundance for the species is unknown.
\6\ Authorized take number for killer whales has been increased from the calculated take to mean group size for the species. Source for mean group size
is Waring et al. (2008).
\7\ Values for density, take number, and percentage of population authorized are for short-finned and long-finned pilot whales combined.
\8\ Number of Level A and Level B takes authorized is slightly different than shown in proposed IHA due to use of radial distance (vs radii) to level A
isopleth as described above.

For some marine mammal species, we authorize a different number of
incidental takes than the number of incidental takes requested by SIO
(see Table 8 in the IHA application for requested take numbers). For
instance, SIO requested 1 take of a North Atlantic right whale and 3
takes of bowhead whales; however, we have determined the likelihood of
the survey encountering these species is so low as to be discountable,
therefore we do not authorize takes of these species. Also, SIO
requested Level A takes of humpback whales, sei whales, fin whales,
common dolphins, and pilot whales; however, due to very small zones
corresponding to Level A harassment for low-frequency and mid-frequency
cetaceans (Table 6) we have determined the likelihood of Level A take
occurring for species from these functional hearing groups is so low as
to be discountable, therefore we do not authorize Level A take of these
species. Note that the Level A takes that were calculated for these
species (humpback whales, sei whales, fin whales, common dolphins, and
pilot whales) have been included in the number of Level B takes.
Finally, SIO requested 2,254 takes of short-finned pilot whales and
2,254 takes of long-finned pilot whales (total 4,508 pilot whale takes
requested); however, as Mannocci et al. (2017) presents one single
density estimate for all pilot whales (the pilot whale ``guild''), a
total of 2,254 takes of pilot whales were calculated as potentially
taken by the proposed survey. Thus SIO's request take number is
actually double the number of take that was calculated. We do not think
doubling the take estimate is warranted, thus we authorize a total of
2,254 takes of pilot whales (short-finned and long-finned pilot whales
combined). We note that numbers of take authorized for bottlenose
dolphin, Atlantic white-sided dolphin, and Risso's dolphin have changed
slightly (each has been reduced by one take) from the numbers of take
presented in the proposed IHA due to a math error. We note also that
the number of instances of authorized Level A take of harbor porpoise
has increased by one, and the number of instances of authorized Level B
take of harbor porpoise has decreased by one, versus the numbers of
take presented in the proposed IHA, due to the slight change in the
estimate of the Level A ensonified area for high frequency cetaceans as
described above; the total number of harbor porpoise takes has not
changed from the total presented in the proposed IHA.
Species with Take Estimates Less than Mean Group Size: Using the
approach described above to estimate take, the take estimate for killer
whales was less than the average group size estimated for the species
(Waring et al., 2008). Information on the social structure and life
history of the species indicates it is common for the species to be
encountered in groups. The results of take calculations support the
likelihood that SIO's survey may encounter and incidentally take the
species, and we believe it is likely that the species may be
encountered in groups; therefore it is reasonable to conservatively
assume that one group of the species will be taken during the proposed
survey. We therefore authorize the take of the average (mean) group
size for the species to account for the possibility that SIO's survey
encounters a group of killer whales.
Species with No Available Density Data: No density data were
available for the blue whale; however, blue whales have been observed
in the survey area (Waring et al., 2008), thus we determined there is a
possibility that the proposed survey may encounter one blue whale and
that one blue whale may be taken by Level B harassment by the proposed
survey; we therefore authorize one take of blue whale as requested by

[[Page 27966]]

SIO. No density data were available for ringed seal, hooded seal or
harp seal; however based on the ranges of these species we have
determined it is possible they may be encountered and taken by Level B
harassment by the proposed survey, therefore we authorize one take of
each species as requested by SIO.
It should be noted that the take numbers shown in Table 10 are
believed to be conservative for several reasons. First, in the
calculations of estimated take, 25 percent has been added in the form
of operational survey days (equivalent to adding 25 percent to the
proposed line km to be surveyed) to account for the possibility of
additional seismic operations associated with airgun testing, and
repeat coverage of any areas where initial data quality is sub-
standard.

Mitigation

In order to issue an IHA under Section 101(a)(5)(D) of the MMPA,
NMFS must set forth the permissible methods of taking pursuant to such
activity, and other means of effecting the least practicable impact on
such species or stock and its habitat, paying particular attention to
rookeries, mating grounds, and areas of similar significance, and on
the availability of such species or stock for taking for certain
subsistence uses (latter not applicable for this action). NMFS
regulations require applicants for incidental take authorizations to
include information about the availability and feasibility (economic
and technological) of equipment, methods, and manner of conducting such
activity or other means of effecting the least practicable adverse
impact upon the affected species or stocks and their habitat (50 CFR
216.104(a)(11)).
In evaluating how mitigation may or may not be appropriate to
ensure the least practicable adverse impact on species or stocks and
their habitat, as well as subsistence uses where applicable, we
carefully consider two primary factors:

(1) The manner in which, and the degree to which, the successful
implementation of the measure(s) is expected to reduce impacts to
marine mammals, marine mammal species or stocks, and their habitat.
This considers the nature of the potential adverse impact being
mitigated (likelihood, scope, range). It further considers the
likelihood that the measure will be effective if implemented
(probability of accomplishing the mitigating result if implemented as
planned) the likelihood of effective implementation (probability
implemented as planned); and
(2) The practicability of the measures for applicant
implementation, which may consider such things as cost, impact on
operations, and, in the case of a military readiness activity,
personnel safety, practicality of implementation, and impact on the
effectiveness of the military readiness activity.
SIO has reviewed mitigation measures employed during seismic
research surveys authorized by NMFS under previous incidental
harassment authorizations, as well as recommended best practices in
Richardson et al. (1995), Pierson et al. (1998), Weir and Dolman
(2007), Nowacek et al. (2013), Wright (2014), and Wright and Cosentino
(2015), and has incorporated a suite of mitigation measures into their
project description based on the above sources.
To reduce the potential for disturbance from acoustic stimuli
associated with the activities, SIO has proposed to implement the
following mitigation measures for marine mammals:

(1) Vessel-based visual mitigation monitoring;
(2) Establishment of a marine mammal exclusion zone (EZ);
(3) Shutdown procedures;
(4) Ramp-up procedures; and
(5) Vessel strike avoidance measures.
In addition to the measures proposed by SIO, NMFS has incorporated
the following mitigation measure: Establishment of a marine mammal
buffer zone.
PSO observations will take place during all daytime airgun
operations and nighttime start-ups (if applicable) of the airguns. If
airguns are operating throughout the night, observations will begin 30
minutes prior to sunrise. If airguns are operating after sunset,
observations will continue until 30 minutes following sunset. Following
a shutdown for any reason, observations will occur for at least 30
minutes prior to the planned start of airgun operations. Observations
will also occur for 30 minutes after airgun operations cease for any
reason. Observations will also be made during daytime periods when the
Atlantis is underway without seismic operations, such as during
transits, to allow for comparison of sighting rates and behavior with
and without airgun operations and between acquisition periods. Airgun
operations will be suspended when marine mammals are observed within,
or about to enter, the designated EZ (as described below).
During seismic operations, three visual PSOs will be based aboard
the Atlantis. PSOs will be appointed by SIO with NMFS approval. During
the majority of seismic operations, two PSOs will monitor for marine
mammals around the seismic vessel. A minimum of one PSO must be on duty
at all times when the array is active. PSO(s) will be on duty in shifts
of duration no longer than 4 hours. Other crew will also be instructed
to assist in detecting marine mammals and in implementing mitigation
requirements (if practical). Before the start of the seismic survey,
the crew will be given additional instruction in detecting marine
mammals and implementing mitigation requirements.
The Atlantis is a suitable platform from which PSOs will watch for
marine mammals. Standard equipment for marine mammal observers will be
7 x 50 reticule binoculars and optical range finders. At night, night-
vision equipment will be available. The observers will be in
communication with ship's officers on the bridge and scientists in the
vessel's operations laboratory, so they can advise promptly of the need
for avoidance maneuvers or seismic source shutdown.
The PSOs must have no tasks other than to conduct observational
effort, record observational data, and communicate with and instruct
relevant vessel crew with regard to the presence of marine mammals and
mitigation requirements. PSO resumes will be provided to NMFS for
approval. At least one PSO must have a minimum of 90 days at-sea
experience working as PSOs during a seismic survey. One ``experienced''
visual PSO will be designated as the lead for the entire protected
species observation team. The lead will serve as primary point of
contact for the vessel operator. The PSOs must have successfully
completed relevant training, including completion of all required
coursework and passing a written and/or oral examination developed for
the training program, and must have successfully attained a bachelor's
degree from an accredited college or university with a major in one of
the natural sciences and a minimum of 30 semester hours or equivalent
in the biological sciences and at least one undergraduate course in
math or statistics. The educational requirements may be waived if the
PSO has acquired the relevant skills through alternate training,
including (1) secondary education and/or experience comparable to PSO
duties; (2) previous work experience conducting academic, commercial,
or government-sponsored marine mammal surveys; or (3) previous work
experience as a PSO; the PSO should demonstrate good standing and

[[Page 27967]]

consistently good performance of PSO duties.

Exclusion Zone and Buffer Zone

An EZ is a defined area within which occurrence of a marine mammal
triggers mitigation action intended to reduce the potential for certain
outcomes, e.g., auditory injury, disruption of critical behaviors. The
PSOs will establish a minimum EZ with a 100 m radius for the airgun
array. The 100 m EZ will be based on radial distance from any element
of the airgun array (rather than being based on the center of the array
or around the vessel itself). With certain exceptions (described
below), if a marine mammal appears within, enters, or appears on a
course to enter this zone, the acoustic source will be shut down (see
Shutdown Procedures below).
The 100 m radial distance of the standard EZ is precautionary in
the sense that it would be expected to contain sound exceeding injury
criteria for all marine mammal hearing groups (Table 6) while also
providing a consistent, reasonably observable zone within which PSOs
would typically be able to conduct effective observational effort. In
this case, the 100 m radial distance would also be expected to contain
sound that would exceed the Level A harassment threshold based on sound
exposure level (SELcum) criteria for all marine mammal
hearing groups (Table 6). In the 2011 Programmatic Environmental Impact
Statement for marine scientific research funded by the National Science
Foundation or the U.S. Geological Survey (NSF-USGS 2011), Alternative B
(the Preferred Alternative) conservatively applied a 100 m EZ for all
low-energy acoustic sources in water depths >100 m, with low-energy
acoustic sources defined as any towed acoustic source with a single or
a pair of clustered airguns with individual volumes of <=250 in\3\.
Thus the 100 m EZ for this survey is consistent with the PEIS.
Our intent in prescribing a standard EZ distance is to (1)
encompass zones within which auditory injury could occur on the basis
of instantaneous exposure; (2) provide additional protection from the
potential for more severe behavioral reactions (e.g., panic,
antipredator response) for marine mammals at relatively close range to
the acoustic source; (3) provide consistency for PSOs, who need to
monitor and implement the EZ; and (4) define a distance within which
detection probabilities are reasonably high for most species under
typical conditions.
PSOs will also establish and monitor a 200 m buffer zone. During
use of the acoustic source, occurrence of marine mammals within the
buffer zone (but outside the EZ) will be communicated to the operator
to prepare for potential shutdown of the acoustic source. The buffer
zone is discussed further under Ramp Up Procedures below.

Shutdown Procedures

If a marine mammal is detected outside the EZ but is likely to
enter the EZ, the airguns will be shut down before the animal is within
the EZ. Likewise, if a marine mammal is already within the EZ when
first detected, the airguns will be shut down immediately.
Following a shutdown, airgun activity will not resume until the
marine mammal has cleared the 100 m EZ. The animal will be considered
to have cleared the 100 m EZ if the following conditions have been met:
It is visually observed to have departed the 100 m EZ; or
it has not been seen within the 100 m EZ for 15 min in the
case of small odontocetes and pinnipeds; or
it has not been seen within the 100 m EZ for 30 min in the
case of mysticetes and large odontocetes, including sperm, pygmy and
dwarf sperm, and beaked whales.
This shutdown requirement will be in place for all marine mammals,
with the exception of small delphinoids under certain circumstances. As
defined here, the small delphinoid group is intended to encompass those
members of the Family Delphinidae most likely to voluntarily approach
the source vessel for purposes of interacting with the vessel and/or
airgun array (e.g., bow riding). This exception to the shutdown
requirement will apply solely to specific genera of small dolphins--
Tursiops, Steno, Stenella, Lagenorhynchus and Delphinus--and will only
apply if the animals were traveling, including approaching the vessel.
If, for example, an animal or group of animals is stationary for some
reason (e.g., feeding) and the source vessel approaches the animals,
the shutdown requirement applies. An animal with sufficient incentive
to remain in an area rather than avoid an otherwise aversive stimulus
could either incur auditory injury or disruption of important behavior.
If there is uncertainty regarding identification (i.e., whether the
observed animal(s) belongs to the group described above) or whether the
animals are traveling, the shutdown will be implemented.
We include this small delphinoid exception because shutdown
requirements for small delphinoids under all circumstances represent
practicability concerns without likely commensurate benefits for the
animals in question. Small delphinoids are generally the most commonly
observed marine mammals in the specific geographic region and would
typically be the only marine mammals likely to intentionally approach
the vessel. As described below, auditory injury is extremely unlikely
to occur for mid-frequency cetaceans (e.g., delphinids), as this group
is relatively insensitive to sound produced at the predominant
frequencies in an airgun pulse while also having a relatively high
threshold for the onset of auditory injury (i.e., permanent threshold
shift). Please see the Federal Register notice of proposed IHA (83 FR
18644; April 27, 2018) for further discussion of sound metrics and
thresholds and marine mammal hearing.
A large body of anecdotal evidence indicates that small delphinoids
commonly approach vessels and/or towed arrays during active sound
production for purposes of bow riding, with no apparent effect observed
in those delphinoids (e.g., Barkaszi et al., 2012). The potential for
increased shutdowns resulting from such a measure would require the
Atlantis to revisit the missed track line to reacquire data, resulting
in an overall increase in the total sound energy input to the marine
environment and an increase in the total duration over which the survey
is active in a given area. Although other mid-frequency hearing
specialists (e.g., large delphinoids) are no more likely to incur
auditory injury than are small delphinoids, they are much less likely
to approach vessels. Therefore, retaining a shutdown requirement for
large delphinoids would not have similar impacts in terms of either
practicability for the applicant or corollary increase in sound energy
output and time on the water. We do anticipate some benefit for a
shutdown requirement for large delphinoids in that it simplifies
somewhat the total range of decision-making for PSOs and may preclude
any potential for physiological effects other than to the auditory
system as well as some more severe behavioral reactions for any such
animals in close proximity to the source vessel.
Shutdown of the acoustic source will also be required upon
observation of any of the following:
A large whale (i.e., sperm whale or any baleen whale) with
a calf observed at any distance;
an aggregation of six or more large whales of any species
(i.e., sperm whale or any baleen whale) that does not appear to be
traveling (e.g., feeding, socializing, etc.) observed at any distance;
or

[[Page 27968]]

a species for which authorization has not been granted,
or, a species for which authorization has been granted but the
authorized number of takes are met, observed approaching or within the
Level A or B harassment zone.

Ramp-up Procedures

Ramp-up of an acoustic source is intended to provide a gradual
increase in sound levels following a shutdown, enabling animals to move
away from the source if the signal is sufficiently aversive prior to
its reaching full intensity. Ramp-up will be required after the array
is shut down for any reason. Ramp-up will begin with the activation of
one 45 in\3\ airgun, with the second 45 in\3\ airgun activated after 5
minutes.
At least two PSOs will be required to monitor during ramp-up.
During ramp up, the PSOs will monitor the EZ, and if marine mammals
were observed within the EZ or buffer zone, a shutdown will be
implemented as though the full array were operational. If airguns have
been shut down due to PSO detection of a marine mammal within or
approaching the 100 m EZ, ramp-up will not be initiated until all
marine mammals have cleared the EZ, during the day or night. Criteria
for clearing the EZ will be as described above.
Thirty minutes of pre-clearance observation are required prior to
ramp-up for any shutdown of longer than 30 minutes (i.e., if the array
were shut down during transit from one line to another). This 30 minute
pre-clearance period may occur during any vessel activity (i.e.,
transit). If a marine mammal were observed within or approaching the
100 m EZ during this pre-clearance period, ramp-up will not be
initiated until all marine mammals cleared the EZ. Criteria for
clearing the EZ will be as described above. If the airgun array has
been shut down for reasons other than mitigation (e.g., mechanical
difficulty) for a period of less than 30 minutes, it may be activated
again without ramp-up if PSOs have maintained constant visual
observation and no detections of any marine mammal have occurred within
the EZ or buffer zone. Ramp-up will be planned to occur during periods
of good visibility when possible. However, ramp-up is allowed at night
and during poor visibility if the 100 m EZ and 200 m buffer zone have
been monitored by visual PSOs for 30 minutes prior to ramp-up.
The operator is required to notify a designated PSO of the planned
start of ramp-up as agreed-upon with the lead PSO; the notification
time should not be less than 60 minutes prior to the planned ramp-up. A
designated PSO must be notified again immediately prior to initiating
ramp-up procedures and the operator must receive confirmation from the
PSO to proceed. The operator must provide information to PSOs
documenting that appropriate procedures were followed. Following
deactivation of the array for reasons other than mitigation, the
operator is required to communicate the near-term operational plan to
the lead PSO with justification for any planned nighttime ramp-up.

Vessel Strike Avoidance Measures

Vessel strike avoidance measures are intended to minimize the
potential for collisions with marine mammals. These requirements do not
apply in any case where compliance creates an imminent and serious
threat to a person or vessel or to the extent that a vessel is
restricted in its ability to maneuver and, because of the restriction,
cannot comply.
The measures include the following: Vessel operator and crew will
maintain a vigilant watch for all marine mammals and slow down or stop
the vessel or alter course to avoid striking any marine mammal. A
visual observer aboard the vessel will monitor a vessel strike
avoidance zone around the vessel according to the parameters stated
below. Visual observers monitoring the vessel strike avoidance zone
will be either third-party observers or crew members, but crew members
responsible for these duties will be provided sufficient training to
distinguish marine mammals from other phenomena. Vessel strike
avoidance measures will be followed during surveys and while in
transit.
The vessel will maintain a minimum separation distance of 100 m
from large whales (i.e., baleen whales and sperm whales). If a large
whale is within 100 m of the vessel the vessel will reduce speed and
shift the engine to neutral, and will not engage the engines until the
whale has moved outside of the vessel's path and the minimum separation
distance has been established. If the vessel is stationary, the vessel
will not engage engines until the whale(s) has moved out of the
vessel's path and beyond 100 m. The vessel will maintain a minimum
separation distance of 50 m from all other marine mammals (with the
exception of delphinids of the genera Tursiops, Steno, Stenella,
Lagenorhynchus and Delphinus that approach the vessel, as described
above). If an animal is encountered during transit, the vessel will
attempt to remain parallel to the animal's course, avoiding excessive
speed or abrupt changes in course. Vessel speeds will be reduced to 10
knots or less when mother/calf pairs or large assemblages of cetaceans
(what constitutes ``large'' will vary depending on species) are
observed within 500 m of the vessel. Mariners may use professional
judgment as to when such circumstances warranting additional caution
are present.
Based on our evaluation of the applicant's proposed measures, NMFS
has determined that the mitigation measures provide the means effecting
the least practicable impact on the affected species or stocks and
their habitat, paying particular attention to rookeries, mating
grounds, and areas of similar significance.

Monitoring and Reporting

In order to issue an IHA for an activity, Section 101(a)(5)(D) of
the MMPA states that NMFS must set forth, requirements pertaining to
the monitoring and reporting of such taking. The MMPA implementing
regulations at 50 CFR 216.104 (a)(13) indicate that requests for
authorizations must include the suggested means of accomplishing the
necessary monitoring and reporting that will result in increased
knowledge of the species and of the level of taking or impacts on
populations of marine mammals that are expected to be present in the
proposed action area. Effective reporting is critical both to
compliance as well as ensuring that the most value is obtained from the
required monitoring.
Monitoring and reporting requirements prescribed by NMFS should
contribute to improved understanding of one or more of the following:
Occurrence of marine mammal species or stocks in the area
in which take is anticipated (e.g., presence, abundance, distribution,
density);
Nature, scope, or context of likely marine mammal exposure
to potential stressors/impacts (individual or cumulative, acute or
chronic), through better understanding of: (1) Action or environment
(e.g., source characterization, propagation, ambient noise); (2)
affected species (e.g., life history, dive patterns); (3) co-occurrence
of marine mammal species with the action; or (4) biological or
behavioral context of exposure (e.g., age, calving or feeding areas);
Individual marine mammal responses (behavioral or
physiological) to acoustic stressors (acute, chronic, or cumulative),
other stressors, or cumulative impacts from multiple stressors;

[[Page 27969]]

How anticipated responses to stressors impact either: (1)
Long-term fitness and survival of individual marine mammals; or (2)
populations, species, or stocks;
Effects on marine mammal habitat (e.g., marine mammal prey
species, acoustic habitat, or other important physical components of
marine mammal habitat); and
Mitigation and monitoring effectiveness.
SIO submitted a marine mammal monitoring and reporting plan in
their IHA application. Monitoring that is designed specifically to
facilitate mitigation measures, such as monitoring of the EZ to inform
potential shutdowns of the airgun array, are described above and are
not repeated here.
SIO's monitoring and reporting plan includes the following
measures:

Vessel-Based Visual Monitoring

As described above, PSO observations will take place during daytime
airgun operations and nighttime start-ups (if applicable) of the
airguns. During seismic operations, three visual PSOs will be based
aboard the Atlantis. PSOs will be appointed by SIO with NMFS approval.
During the majority of seismic operations, one PSO will monitor for
marine mammals around the seismic vessel. PSOs will be on duty in
shifts of duration no longer than 4 hours. Other crew will also be
instructed to assist in detecting marine mammals and in implementing
mitigation requirements (if practical). During daytime, PSOs will scan
the area around the vessel systematically with reticle binoculars
(e.g., 7x50 Fujinon) and with the naked eye. At night, PSOs will be
equipped with night-vision equipment.
PSOs will record data to estimate the numbers of marine mammals
exposed to various received sound levels and to document apparent
disturbance reactions or lack thereof. Data will be used to estimate
numbers of animals potentially `taken' by harassment (as defined in the
MMPA). They will also provide information needed to order a shutdown of
the airguns when a marine mammal is within or near the EZ. When a
sighting is made, the following information about the sighting will be
recorded:
(1) Species, group size, age/size/sex categories (if determinable),
behavior when first sighted and after initial sighting, heading (if
consistent), bearing and distance from seismic vessel, sighting cue,
apparent reaction to the airguns or vessel (e.g., none, avoidance,
approach, paralleling, etc.), and behavioral pace; and
(2) Time, location, heading, speed, activity of the vessel, sea
state, visibility, and sun glare.
All observations and shutdowns will be recorded in a standardized
format. Data will be entered into an electronic database. The accuracy
of the data entry will be verified by computerized data validity checks
as the data are entered and by subsequent manual checking of the
database. These procedures will allow initial summaries of data to be
prepared during and shortly after the field program and will facilitate
transfer of the data to statistical, graphical, and other programs for
further processing and archiving. The time, location, heading, speed,
activity of the vessel, sea state, visibility, and sun glare will also
be recorded at the start and end of each observation watch, and during
a watch whenever there is a change in one or more of the variables.
Results from the vessel-based observations will provide:
(1) The basis for real-time mitigation (e.g., airgun shutdown);
(2) Information needed to estimate the number of marine mammals
potentially taken by harassment, which must be reported to NMFS;
(3) Data on the occurrence, distribution, and activities of marine
mammals in the area where the seismic study is conducted;
(4) Information to compare the distance and distribution of marine
mammals relative to the source vessel at times with and without seismic
activity; and
(5) Data on the behavior and movement patterns of marine mammals
seen at times with and without seismic activity.

Reporting

A report will be submitted to NMFS within 90 days after the end of
the survey. The report will describe the operations that were conducted
and sightings of marine mammals near the operations. The report will
provide full documentation of methods, results, and interpretation
pertaining to all monitoring and will summarize the dates and locations
of seismic operations, and all marine mammal sightings (dates, times,
locations, activities, associated seismic survey activities). The
report will also include estimates of the number and nature of
exposures that occurred above the harassment threshold based on PSO
observations, including an estimate of those on the trackline but not
detected.

Negligible Impact Analysis and Determination

NMFS has defined negligible impact as an impact resulting from the
specified activity that cannot be reasonably expected to, and is not
reasonably likely to, adversely affect the species or stock through
effects on annual rates of recruitment or survival (50 CFR 216.103). A
negligible impact finding is based on the lack of likely adverse
effects on annual rates of recruitment or survival (i.e., population-
level effects). An estimate of the number of takes alone is not enough
information on which to base an impact determination. In addition to
considering estimates of the number of marine mammals that might be
``taken'' through harassment, NMFS considers other factors, such as the
likely nature of any responses (e.g., intensity, duration), the context
of any responses (e.g., critical reproductive time or location,
migration), as well as effects on habitat, and the likely effectiveness
of the mitigation. We also assess the number, intensity, and context of
estimated takes by evaluating this information relative to population
status. Consistent with the 1989 preamble for NMFS's implementing
regulations (54 FR 40338; September 29, 1989), the impacts from other
past and ongoing anthropogenic activities are incorporated into this
analysis via their impacts on the environmental baseline (e.g., as
reflected in the regulatory status of the species, population size and
growth rate where known, ongoing sources of human-caused mortality, or
ambient noise levels).
To avoid repetition, our analysis applies to all the species listed
in Table 2, given that NMFS expects the anticipated effects of the
planned seismic survey to be similar in nature. Where there are
meaningful differences between species or stocks, or groups of species,
in anticipated individual responses to activities, impact of expected
take on the population due to differences in population status, or
impacts on habitat, NMFS has identified species-specific factors to
inform the analysis.
NMFS does not anticipate that serious injury or mortality will
occur as a result of SIO's planned seismic survey, even in the absence
of mitigation. Thus the authorization does not authorize any mortality.
As discussed in the Potential Effects section, non-auditory physical
effects, stranding, and vessel strike are not expected to occur.
We authorize a limited number of instances of Level A harassment
(Table 10) for one species. However, we believe

[[Page 27970]]

that any PTS incurred in marine mammals as a result of the planned
activity would be in the form of only a small degree of PTS and not
total deafness that would not be likely to affect the fitness of any
individuals, because of the constant movement of both the Atlantis and
of the marine mammals in the project area, as well as the fact that the
vessel is not expected to remain in any one area in which individual
marine mammals would be expected to concentrate for an extended period
of time (i.e., since the duration of exposure to loud sounds will be
relatively short). Also, as described above, we expect that marine
mammals would be likely to move away from a sound source that
represents an aversive stimulus, especially at levels that would be
expected to result in PTS, given sufficient notice of the Atlantis's
approach due to the vessel's relatively low speed when conducting
seismic surveys. We expect that the majority of takes would be in the
form of short-term Level B behavioral harassment in the form of
temporary avoidance of the area or decreased foraging (if such activity
were occurring), reactions that are considered to be of low severity
and with no lasting biological consequences (e.g., Southall et al.,
2007).
Potential impacts to marine mammal habitat were discussed
previously in this document (see Potential Effects of the Specified
Activity on Marine Mammals and their Habitat). Marine mammal habitat
may be impacted by elevated sound levels, but these impacts would be
temporary. Feeding behavior is not likely to be significantly impacted,
as marine mammals appear to be less likely to exhibit behavioral
reactions or avoidance responses while engaged in feeding activities
(Richardson et al., 1995). Prey species are mobile and are broadly
distributed throughout the project area; therefore, marine mammals that
may be temporarily displaced during survey activities are expected to
be able to resume foraging once they have moved away from areas with
disturbing levels of underwater noise. Because of the temporary nature
of the disturbance, the availability of similar habitat and resources
in the surrounding area, and the lack of important or unique marine
mammal habitat, the impacts to marine mammals and the food sources that
they utilize are not expected to cause significant or long-term
consequences for individual marine mammals or their populations. In
addition, there are no feeding, mating or calving areas known to be
biologically important to marine mammals within the proposed project
area.
As described above, though marine mammals in the survey area would
not be assigned to NMFS stocks, for purposes of the small numbers
analysis we rely on stock numbers from the U.S. Atlantic SARs as the
best available information on the abundance estimates for the species
of marine mammals that could be taken. The activity is expected to
impact a very small percentage of all marine mammal populations that
would be affected by SIO's planned survey (less than 32 percent each
for all marine mammal stocks, when compared with stocks from the U.S.
Atlantic as described above). Additionally, the acoustic ``footprint''
of the proposed survey would be very small relative to the ranges of
all marine mammals that would potentially be affected. Sound levels
would increase in the marine environment in a relatively small area
surrounding the vessel compared to the range of the marine mammals
within the proposed survey area. The seismic array would be active 24
hours per day throughout the duration of the proposed survey. However,
the very brief overall duration of the proposed survey (25 days) would
further limit potential impacts that may occur as a result of the
proposed activity.
The mitigation measures are expected to reduce the number and/or
severity of takes by allowing for detection of marine mammals in the
vicinity of the vessel by visual and acoustic observers, and by
minimizing the severity of any potential exposures via shutdowns of the
airgun array. Based on previous monitoring reports for substantially
similar activities that have been previously authorized by NMFS, we
expect that the mitigation measures will be effective in preventing at
least some extent of potential PTS in marine mammals that may otherwise
occur in the absence of mitigation measures.
Of the marine mammal species under our jurisdiction that are likely
to occur in the project area, the following species are listed as
endangered under the ESA: fin, sei, blue, and sperm whales. There are
currently insufficient data to determine population trends for these
species (Hayes et al., 2017); however, we are authorizing very small
numbers of takes for these species (Table 10), relative to their
population sizes (again, when compared to U.S. Atlantic stocks, for
purposes of comparison only), therefore we do not expect population-
level impacts to any of these species. The other marine mammal species
that may be taken by harassment during SIO's seismic survey are not
listed as threatened or endangered under the ESA. There is no
designated critical habitat for any ESA-listed marine mammals within
the project area; of the non-listed marine mammals for which we
authorize take, none are considered ``depleted'' or ``strategic'' by
NMFS under the MMPA.
NMFS concludes that exposures to marine mammal species due to SIO's
seismic survey would result in only short-term (temporary and short in
duration) effects to individuals exposed, or some small degree of PTS
to a very small number of individuals of four species. Marine mammals
may temporarily avoid the immediate area, but are not expected to
permanently abandon the area. Major shifts in habitat use,
distribution, or foraging success are not expected. NMFS does not
anticipate the take estimates to impact annual rates of recruitment or
survival.
In summary and as described above, the following factors primarily
support our determination that the impacts resulting from this activity
are not expected to adversely affect the species or stock through
effects on annual rates of recruitment or survival:
No mortality is anticipated or authorized;
The anticipated impacts of the proposed activity on marine
mammals would primarily be temporary behavioral changes due to
avoidance of the area around the survey vessel. The relatively short
duration of the proposed survey (25 days) would further limit the
potential impacts of any temporary behavioral changes that would occur;
The number of instances of PTS that may occur are expected
to be very small in number (Table 10). Instances of PTS that are
incurred in marine mammals would be of a low level, due to constant
movement of the vessel and of the marine mammals in the area, and the
nature of the survey design (not concentrated in areas of high marine
mammal concentration);
The availability of alternate areas of similar habitat
value for marine mammals to temporarily vacate the survey area during
the proposed survey to avoid exposure to sounds from the activity;
The proposed project area does not contain areas of
significance for feeding, mating or calving;
The potential adverse effects on fish or invertebrate
species that serve as prey species for marine mammals from the proposed
survey would be temporary and spatially limited; and
The mitigation measures, including visual and acoustic
monitoring and shutdowns, are expected to minimize potential impacts to
marine mammals.

[[Page 27971]]

Based on the analysis contained herein of the likely effects of the
specified activity on marine mammals and their habitat, and taking into
consideration the implementation of the monitoring and mitigation
measures, NMFS finds that the total marine mammal take from the
specified activity will have a negligible impact on all affected marine
mammal species or stocks.

Small Numbers

As noted above, only small numbers of incidental take may be
authorized under Section 101(a)(5)(D) of the MMPA for specified
activities other than military readiness activities. The MMPA does not
define small numbers and so, in practice, where estimated numbers are
available, NMFS compares the number of individuals taken to the most
appropriate estimation of abundance of the relevant species or stock in
our determination of whether an authorization is limited to small
numbers of marine mammals. Additionally, other qualitative factors may
be considered in the analysis, such as the temporal or spatial scale of
the activities.
Due to the location of SIO's survey, some of the marine mammals
potentially taken by the proposed survey would not be expected to
originate from the U.S. Atlantic stocks as defined by NMFS (Hayes et
al., 2017). Population abundance data for marine mammal species in the
survey area is not available. Therefore, in most cases the U.S.
Atlantic SARs represent the best available information on marine mammal
abundance in the Northwest Atlantic Ocean. For certain species (i.e.,
fin whale, minke whale and common dolphin) the 2007 Canadian Trans-
North Atlantic Sighting Survey (TNASS), which provided full coverage of
the Atlantic Canadian coast (Lawson and Gosselin, 2009) represents the
best available information on abundance, as noted previously. Abundance
estimates from TNASS were corrected for perception and availability
bias, when possible. In general, where the TNASS survey effort provided
more extensive coverage of a stock's range (as compared with NOAA
shipboard survey effort), we elected to use the resulting abundance
estimate over the current NMFS abundance estimate (derived from survey
effort with more limited coverage of the stock range). For the humpback
whale, NMFS defines a stock of humpback whales in the Atlantic only on
the basis of the Gulf of Maine feeding population; however, multiple
feeding populations originate from the DPS of humpback whales that is
expected to occur in the proposed survey area (the West Indies DPS). As
West Indies DPS whales from multiple feeding populations may be
encountered in the proposed survey area, the total abundance of the
West Indies DPS best reflects the abundance of the population that may
encountered by the proposed survey. The West Indies DPS abundance
estimate used here reflects the latest estimate as described in the
NMFS Status Review of the Humpback Whale under the Endangered Species
Act (Bettridge et al., 2015). Therefore, we use abundance data from the
SARs in most cases, as well as from the TNASS and NMFS Status Review,
for purposes of the small numbers analysis.
The numbers of takes that we authorize are less than 10 percent of
the population abundance for the majority of species and stocks, and 20
percent for sperm whales and 31 percent for fin whales, when compared
to abundance estimates from U.S. Atlantic SARs and TNASS and NMFS
Status Review (Table 10). We again note that while some animals from
U.S. stocks may occur in the proposed survey area, the proposed survey
area is outside the geographic boundaries of the U.S. Atlantic SARs,
thus populations of marine mammals in the proposed survey area would
not be limited to the U.S. stocks and those populations may in fact be
larger than the U.S. stock abundance estimates. In addition, it should
be noted that take numbers represent instances of take, not individuals
taken. Given the relatively small survey grids (Figure 1 in the IHA
application), it is reasonable to expect that some individuals may be
exposed more than one time, which would mean that the number of
individuals taken is somewhat smaller than the total instances of take
indicated in Table 10.
No known current regional population estimates are available for
five marine mammal species that could be incidentally taken as a result
of the planned survey: the Bryde's whale, killer whale, pygmy killer
whale, Northern bottlenose whale, and ringed seal. NMFS has reviewed
the geographic distributions of these species in determining whether
the numbers of takes authorized are likely to represent small numbers.
Bryde's whales are distributed worldwide in tropical and sub-tropical
waters (Kato and Perrin, 2009). Killer whales are broadly distributed
in the Atlantic from the Arctic ice edge to the West Indies (Waring et
al., 2015). The pygmy killer whale is distributed worldwide in tropical
to sub-tropical waters (Jefferson et al. 1994). Northern bottlenose
whales are distributed in the North Atlantic from Nova Scotia to about
70[deg] N in the Davis Strait, along the east coast of Greenland to
77[deg] N and from England, Norway, Iceland and the Faroe Islands to
the south coast of Svalbard (Waring et al., 2015). The harp seal occurs
throughout much of the North Atlantic and Arctic Oceans (Lavigne and
Kovacs 1988). Based on the broad spatial distributions of these species
relative to the areas where the proposed survey would occur, NMFS
concludes that the authorized take of these species represent small
numbers relative to the affected species' overall population sizes,
though we are unable to quantify the authorized take numbers as a
percentage of population.
Based on the analysis contained herein of the specified activity
(including the mitigation and monitoring measures) and the anticipated
take of marine mammals, NMFS finds that small numbers of marine mammals
will be taken relative to the population size of the affected species
or stocks.

Unmitigable Adverse Impact Analysis and Determination

There are no relevant subsistence uses of the affected marine
mammal stocks or species implicated by this action. Therefore, NMFS has
determined that the total taking of affected species or stocks would
not have an unmitigable adverse impact on the availability of such
species or stocks for taking for subsistence purposes.

Endangered Species Act (ESA)

Section 7(a)(2) of the ESA of 1973 (16 U.S.C. 1531 et seq.)
requires that each Federal agency insure that any action it authorizes,
funds, or carries out is not likely to jeopardize the continued
existence of any endangered or threatened species or result in the
destruction or adverse modification of designated critical habitat. To
ensure ESA compliance for the issuance of IHAs, NMFS consults
internally, in this case with the ESA Interagency Cooperation Division,
whenever we propose to authorize take for endangered or threatened
species.
The NMFS Permits and Conservation Division is authorizing the
incidental take of 4 species of marine mammals which are listed under
the ESA: The sei whale, fin whale, blue whale and sperm whale. Under
Section 7 of the ESA, we requested initiation of Section 7 consultation
with the NMFS OPR Interagency Cooperation Division for the issuance of
this IHA. In June, 2018, the NMFS OPR Interagency Cooperation Division
issued a Biological Opinion with an incidental take statement, which
concluded that the issuance of

[[Page 27972]]

the IHA was not likely to jeopardize the continued existence of the sei
whale, fin whale, blue whale and sperm whale. The Biological Opinion
also concluded that the issuance of the IHA would not destroy or
adversely modify designated critical habitat for these species.

Authorization

NMFS has issued an IHA to SIO for the potential harassment of small
numbers of 35 marine mammal species incidental to a low-energy marine
geophysical survey in the northwest Atlantic Ocean, provided the
previously mentioned mitigation, monitoring and reporting requirements
are incorporated.

Dated: June 12, 2018.
Donna S. Wieting,
Director, Office of Protected Resources, National Marine Fisheries
Service.
[FR Doc. 2018-12907 Filed 6-14-18; 8:45 am]
BILLING CODE 3510-22-P

Category		Regulatory Information
Collection		Federal Register
sudoc Class		AE 2.7: GS 4.107: AE 2.106:
Publisher		Office of the Federal Register, National Archives and Records Administration
Section		Notices
Action		Notice; issuance of an incidental harassment authorization.
Dates		This authorization is valid for one year from the date of issuance.
Contact		Jordan Carduner, Office of Protected Resources, NMFS, (301) 427-8401. Electronic copies of the application and supporting documents, as well as a list of the references cited in this document, may be obtained online at: www.fisheries.noaa.gov/ national/marine-mammal-protection/incidental-take-authorizations- research-and-other-activities. In case of problems accessing these documents, please call the contact listed above.
FR Citation		83 FR 27954
RIN Number		0648-XF98

83 FR 27954 - Takes of Marine Mammals Incidental to Specified Activities; Taking Marine Mammals Incidental to a Low-Energy Geophysical Survey in the Northwest Atlantic Ocean

DEPARTMENT OF COMMERCENational Oceanic and Atmospheric Administration

Federal Register Volume 83, Issue 116 (June 15, 2018)

DEPARTMENT OF COMMERCE
National Oceanic and Atmospheric Administration