80 FR 40016 - Takes of Marine Mammals Incidental to Specified Activities; Taking Marine Mammals Incidental to Marine Seismic Survey in the Beaufort Sea, Alaska

DEPARTMENT OF COMMERCE
National Oceanic and Atmospheric Administration

Federal Register Volume 80, Issue 133 (July 13, 2015)

Page Range		40016-40037
FR Document		2015-16966

In accordance with the Marine Mammal Protection Act (MMPA) regulations, notification is hereby given that NMFS has issued an Incidental Harassment Authorization (IHA) to SAExploration, Inc. (SAE) to take, by harassment, small numbers of marine mammals incidental to a marine 3-dimensional (3D) ocean bottom node (OBN) seismic survey program in the Beaufort Sea, Alaska, during the 2015 Arctic open-water season.

Federal Register, Volume 80 Issue 133 (Monday, July 13, 2015)

[Federal Register Volume 80, Number 133 (Monday, July 13, 2015)]
[Notices]
[Pages 40016-40037]
From the Federal Register Online [www.thefederalregister.org]
[FR Doc No: 2015-16966]

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DEPARTMENT OF COMMERCE

National Oceanic and Atmospheric Administration

RIN 0648-XD782

Takes of Marine Mammals Incidental to Specified Activities;
Taking Marine Mammals Incidental to Marine Seismic Survey in the
Beaufort Sea, Alaska

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

ACTION: Notice; issuance of an incidental take authorization.

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SUMMARY: In accordance with the Marine Mammal Protection Act (MMPA)
regulations, notification is hereby given that NMFS has issued an
Incidental Harassment Authorization (IHA) to SAExploration, Inc. (SAE)
to take, by harassment, small numbers of marine mammals incidental to a
marine 3-dimensional (3D) ocean bottom node (OBN) seismic survey
program in the Beaufort Sea, Alaska, during the 2015 Arctic open-water
season.

DATES: Effective July 1, 2015, through October 15, 2015.

ADDRESSES: Inquiry for information on the incidental take authorization
should be addressed to Jolie Harrison, Chief, Permits and Conservation
Division, Office of Protected Resources, National Marine Fisheries
Service, 1315 East West Highway, Silver Spring, MD 20910. A copy of the
application containing a list of the references used in this document,
NMFS' Environmental Assessment (EA) and Finding of No Significant
Impact (FONSI), and the IHA may be obtained by writing to the address
specified above, telephoning the contact listed below (see FOR FURTHER
INFORMATION CONTACT), or visiting the Internet at: http://www.nmfs.noaa.gov/pr/permits/incidental.htm#applications.
Documents cited in this notice may be viewed, by appointment,
during regular business hours, at the aforementioned address.

FOR FURTHER INFORMATION CONTACT: Shane Guan, Office of Protected
Resources, NMFS, (301) 427-8401.

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 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.''
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].

[[Page 40017]]

Summary of Request

On December 2, 2014, NMFS received an application from SAE for the
taking of marine mammals incidental to a 3D ocean bottom node (OBN)
seismic survey program in the Beaufort Sea. After receiving NMFS
comments, SAE made revisions and updated its IHA application on
December 5, 2014, January 21, 2015, January 29, 2015, and again on
February 16, 2015. In addition, NMFS received the marine mammal
mitigation and monitoring plan (4MP) from SAE on December 2, 2014, with
an updated version on January 29, 2015. NMFS determined that the
application and the 4MP were adequate and complete on February 17,
2015.
SAE proposes to conduct 3D OBN seismic surveys in the state and
federal waters of the U.S. Beaufort Sea during the 2015 Arctic open-
water season. The proposed activity would occur between July 1 and
October 15, 2015. The actual seismic survey is expected to take
approximately 70 days, dependent on weather. The following specific
aspects of the proposed activities are likely to result in the take of
marine mammals: Seismic airgun operations and associated navigation
sonar and vessel movements. Takes, by Level A and/or Level B
Harassments, of individuals of six species of marine mammals are
anticipated to result from the specified activity.
SAE also conducted OBN seismic surveys in the Beaufort Sea in the
2014 Arctic open-water season (79 FR 51963; September 2, 2014).
Detailed descriptions of SAE's 3D OBN seismic survey program are
provided in the Federal Register notice for the proposed IHA (80 FR
20084; April 14, 2015). No change has been made in the action described
in the Federal Register notice. Please refer to that document for
detailed information about the activities involved in the seismic
survey program.

Comments and Responses

A notice of NMFS' proposal to issue an IHA to SAE was published in
the Federal Register on April 14, 2015 (80 FR 20084). That notice
described in detail SAE's activity, the marine mammal species that may
be affected by the activity, and the anticipated effects on marine
mammals and the availability of marine mammals for subsistence uses.
During the 30-day public comment period, NMFS received only one comment
letter from the Marine Mammal Commission (Commission). All comments are
addressed in this section of the Federal Register notice.
Comment 1: The Commission points out that information regarding the
specific areas that would be surveyed by SAE, or specific times of year
for the survey, was not available as part of the proposed incidental
harassment authorization. The Commission recommends that, prior to
issuing the IHA, NMFS require SAE to determine what areas it will
survey and when, in order to ensure that the proposed survey area and
associated numbers of takes are consistent with what NMFS plans to
authorize and, if they are not, amend the numbers of takes accordingly.
Response: Although a specific survey area for SAE's proposed 3D OBN
seismic survey has not been determined, and probably will be remain
confidential until the beginning of the survey, the potential area is
known and all scenarios of the proposed survey have been considered and
evaluated for impact assessment. As described in the Federal Register
notice (80 FR 20084; April 14, 2015) for the proposed IHA, the worst-
case scenario related to location (with the highest animal density) is
taken into consideration for the analysis of the marine mammal impacts.
Comment 2: The Commission points out that the total survey area for
the project, 777 km\2\, appears low since it equates to roughly four
times the size of each recording patch (192 km\2\). The Commission
further notes that SAE has indicated that each patch would take about
four days to shoot, which means that if the proposed total survey are
of 777 km\2\ is indeed accurate, SAE would be able to shoot that area
within 16 days instead of 49 days.
Response: The Commission has confused shot patch size (192 km\2\)
and recording patch size (19.4 km\2\). The shot patches greatly overlap
with one another, while the recorder patches do not. Considering the
tremendous overlap in shot area between adjacent patches, no more than
777 km\2\ will be shot under this authorization, although many areas
will be shot more than once. It actually would take much longer than 49
days if SAE wanted to completely survey the entire777 km\2\.
Comment 3: The Commission states that it is concerned that the
method used by SAE and NMFS to estimate numbers of takes is based on
the total ensonified area rather than the area expected to be
ensonified on a daily basis, as is standard for a moving sound source.
The Commission recommends that NMFS use the method of area times
density times the number of survey days to estimate the total number of
Level A and B harassment takes for each of the marine mammal species
expected to be in the project area.
Response: Despite that in most cases monitoring reports from 3D
seismic surveys showed that take numbers, based on observation with
adjustment to count for animals missed, are usually under or closely
reflect the take estimates using a simple method of multiplying the
total ensonified area by animal density, NMFS recognizes that such
method has its limitation of not considering animal movement into the
area on different days. The Commission's recommended method of area
times density times the number of survey days provides an appropriate
estimated of the instances of take, but often overestimates the number
of individuals taken, because in many circumstances individual animals
would be repeatedly taken. Except in rare cases when animals are
migrating through the ensonified area, the ``instances'' of take
generated by this method are higher than the individuals taken, given
that in many cases marine mammals are using local habitat for multiple
days and will be taken multiple times--and therefore, additional work
may be needed to identify the likely numbers individuals taken to
compare to the population size. NMFS is exploring new methodologies to
calculate take estimates by accounting for daily ensonified area, days
of the project, as well as the averaged rates of animal moving in/out
of the survey area, prior monitoring report data, and other applicable
information, if available. In the case of SAE's 3D OBN seismic survey,
NMFS recalculated take numbers using daily ensonified area multiplied
by project days multiplied by animal density and then adjusted the
turnover rates based on species movement patterns and home ranges. A
detailed description of the take estimates and the methodology are
provided in section ``Estimated Take by Incidental Harassment'' below.
Comment 4: The Commission notes that NMFS is proposing to authorize
the incidental taking of marine mammals by Level A harassment under
section 101(a)(5)(D) of the MMPA, instead of through regulations under
section 101(a)(5)(A) of the MMPA. The Commission states that
authorizing Level A harassment under section 101(a)(5)(D) of the MMPA
would be inconsistent with the intent of the MMPA. The Commission
recommends that NMFS (1) develop criteria for determining when taking
by Level A harassment should be authorized (i.e., types of sound
sources, project locations, species, effectiveness of mitigation
measures) and (2) authorize any such takes through regulation under

[[Page 40018]]

101(a)(5)(A) of the MMPA and a letter of authorization rather than
through an incidental harassment authorization. The Commission further
states that it would welcome an opportunity to discuss the development
of such criteria with NMFS.
Response: NMFS does not agree with the Commission's statement that
Level A harassment cannot be authorized under section 101(a)(5)(D) of
the MMPA. The legal requirements and underlying analysis for the
issuance of a take authorization (i.e., an IHA) in this particular case
do not require the issuance of regulations and a letter of
authorization. In order to issue an authorization pursuant to section
101(a)(5)(D) of the MMPA, NMFS must determine that the taking by
harassment (Level A and Level B) of small numbers of marine mammal
species or stocks will have a negligible impact on affected species or
stocks, and will not have an unmitigable adverse impact on the
availability of affected species or stocks for taking for subsistence
uses. Potential impact on marine mammals incidental to SAE's 3D seismic
survey would be limited to harassments only. Therefore, the issuance of
an IHA to SAE under section 101(a)(5)(D) of the MMPA meets the legal
requirements stated above. However, if there were a potential for
serious injury or mortality, NMFS could not issue an IHA. Instead, any
incidental take authorization would need to be processed under section
101(a)(5)(A) of the MMPA.
As described here and in the Federal Register notice (80 FR 20084;
April 14, 2015) for the proposed IHA, permanent hearing threshold shift
(PTS) is considered to be injury (Level A Harassment), not serious
injury or mortality. Therefore, it is appropriate to issue an
incidental take authorization under 101(a)(5)(D), as we have made the
necessary findings (described elsewhere in this document) under that
section of the MMPA.
NMFS agrees with the Commission that criteria for determining when
taking by Level A harassment should be authorized (i.e., types of sound
sources, project locations, species, effectiveness of mitigation
measures) will enhance the analysis of marine mammal incidental takes
under MMPA, and appreciates the Commission's willingness to be involved
in such a process.
Comment 5: The Commission notes that NMFS has proposed that SAE
conduct in-situ sound source measurements for the 1,240-in\3\ airgun
array to ensure accurate characterization of the Level A and B
harassment zones for that sound source. The Commission recommends that
NMFS verify that any adjustments to the size of the Level A and/or B
harassment zones, based on in-situ measurements, are accurate before
such adjustments are made.
Response: SAE is required to conduct in-situ sound source
measurements for the 1,240-in\3\ airgun array before the commencement
of its 3D seismic surveys. The Commission did not specify a method for
how the in-situ measurements should be verified. Nevertheless, NMFS
will evaluate the empirically measured exclusion zone and zone of
influence based on comparable measurements of similar airguns in
similar environment before agreeing that SAE should adopt the measured
zones for monitoring and mitigation measures.
Comment 6: The Commission recommends that NMFS require that SAE
refrain from initiating or cease seismic activities if an aggregation
of bowhead or gray whales (i.e., 12 or more whales of any age/sex class
that appear to be engaged in a non-migratory, significant biological
behavior (e.g., feeding, socializing)) is observed within the Level B
harassment Zone.
Response: NMFS discussed the Commission's recommendation with SAE
and SAE agrees to refrain from initiating or to cease seismic
activities if an aggregation of bowhead or gray whales (i.e., 12 or
more whales of any age/sex class that appear to be engaged in a non-
migratory, significant biological behavior (e.g., feeding,
socializing)) is observed within the Level B harassment Zone.
Comment 7: The Commission recommends that NMFS encourage SAE to
coordinate with other operators and researchers who may be conducting
aerial surveys with the goal that information collected during those
surveys will assist SAE in monitoring pinnipeds use of haul-out sites
before, during, and after SAE's planned seismic survey.
Response: NMFS discussed the Commission's recommendation with SAE
and encouraged SAE to coordinate with other operations and researchers
who may be conducting aerial surveys. SAE responded that they attempted
to coordinate with other companies last year for spotted seal
monitoring, but none agreed to cooperate. In addition, at this point it
is unclear whether any other companies in the Beaufort Sea may be
conducting pinnipeds haul-out aerial surveys in the 2015 open-water
season. Nevertheless, NMFS encourages SAE again to seek cooperation
with other companies who may be conducting aerial surveys with the goal
that information collected during those surveys will assist SAE in
monitoring pinnipeds use of haul-out sites before, during, and after
SAE's planned seismic survey.
Comment 8: The Commission recommends that NMFS incorporate the
peer-review panel's recommendations into the final authorization and,
if necessary, consult with personnel directly associated with
implementing passive acoustic monitoring to ensure that the monitoring
objectives are able to be met.
Response: NMFS conducted a peer review process to evaluate SAE's
monitoring plan in early March 2015 in Anchorage, AK. The peer review
panel submitted its report to NMFS in early April and provided
recommendations to SAE. NMFS worked with SAE extensively on these
recommendations. As a result, NMFS requires and SAE agrees to implement
the following recommendations from the peer-review panel: (1)
Conducting sound source verification (SSV) if SAE plans to use the
1,240 in\3\ airgun array for seismic survey; (2) including an
additional mitigation vessel for marine mammal monitoring if SAE plans
to use the 1,240 in\3\ airgun array; (3) deploying more acoustic
sensors than the 2014 season for passive acoustic monitoring; (4)
testing a new mooring design with NMFS National Marine Mammal
Laboratory for micro Marine Autonomous Recording System (microMARS) to
be deployed in shallow water; (5) including sightability curves in the
90-day report; and (6) making monitoring data available for valid
scientific reasons and request.
In addition, though not solicited as part of the independent peer
review of the monitoring, the peer-review panel also provided a number
of mitigation measures which, upon discussion with SAE, the company
agreed to limit the mitigation airgun shot interval to 1 shot per
minute. However, SAE could not agree to the ramp up of 1 airgun per 5
minutes, as opposed to standard protocol of doubling the number of
airguns every five minutes. SAE states that the recommended ramp up
protocol is cost prohibitive.
A detailed description of peer-review process, peer-review
recommendations, and NMFS' discussion with SAE regarding implementation
of the recommendations is provided in ``Monitoring Plan Peer Review''
section below.

Description of Marine Mammals in the Area of the Specified Activity

The Beaufort Sea supports a diverse assemblage of marine mammals.
Table 1 lists the 12 marine mammal species

[[Page 40019]]

under NMFS jurisdiction with confirmed or possible occurrence in the
proposed project area.

Table 1--Marine Mammal Species With Confirmed or Possible Occurrence in the Seismic Survey Area
--------------------------------------------------------------------------------------------------------------------------------------------------------
Common name Scientific name Status Occurrence Seasonality Range Abundance
--------------------------------------------------------------------------------------------------------------------------------------------------------
Odontocetes
--------------------------------------------------------------------------------------------------------------------------------------------------------
Beluga whale (Beaufort Sea Delphinapterus -..................... Common................ Mostly spring Mostly Beaufort 39,258
stock). leucas. and fall with Sea.
some in summer.
Beluga whale (eastern Chukchi --............... -..................... Common................ Mostly spring Mostly Chukchi 3,710
Sea stock). and fall with Sea.
some in summer.
Killer whale **............... Orcinus orca..... -..................... Occasional/ Mostly summer California to 552
Extralimital. and early fall. Alaska.
Harbor porpoise **............ Phocoena phocoena -..................... Occasional/ Mostly summer California to 48,215
Extralimital. and early fall. Alaska.
Narwhal **.................... Monodon monoceros -..................... ...................... ................ ................ 45,358
--------------------------------------------------------------------------------------------------------------------------------------------------------
Mysticetes
--------------------------------------------------------------------------------------------------------------------------------------------------------
Bowhead whale *............... Balaena Endangered; Depleted.. Common................ Mostly spring Russia to Canada 19,534
mysticetus. and fall with
some in summer.
Gray whale.................... Eschrichtius -..................... Somewhat common....... Mostly summer... Mexico to the 19,126
robustus. U.S. Arctic
Ocean.
Minke whale **................ Balaenoptera -..................... ...................... ................ ................ 810-1,003
acutorostrata.
Humpback whale * ** (Central Megaptera Endangered; Depleted.. ...................... ................ ................ 21,063
North Pacific stock). novaeangliae.
--------------------------------------------------------------------------------------------------------------------------------------------------------
Pinnipeds
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Bearded seal (Beringia Erigathus Candidate............. Common................ Spring and Bering, Chukchi, 155,000
distinct population segment). barbatus. summer. and Beaufort
Seas.
Ringed seal * (Arctic stock).. Phoca hispida.... Threatened; Depleted.. Common................ Year round...... Bering, Chukchi, 300,000
and Beaufort
Seas.
Spotted seal.................. Phoca largha..... -..................... Common................ Summer.......... Japan to U.S. 141,479
Arctic Ocean.
Ribbon seal **................ Histriophoca Species of concern.... Occasional............ Summer.......... Russia to U.S. 49,000
fasciata. Arctic Ocean.
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* Species or stocks listed under the Endangered Species Act.
** Species are so rarely sighted in the proposed project area that take is unlikely.

Minke whales are relatively common in the Bering and southern
Chukchi Seas and have recently also been sighted in the northeastern
Chukchi Sea (Aerts et al., 2013; Clarke et al., 2013). Minke whales are
rare in the Beaufort Sea. They have not been reported in the Beaufort
Sea during the Bowhead Whale Aerial Survey Project/Aerial Surveys of
Arctic Marine Mammals (BWASP/ASAMM) surveys (Clarke et al., 2011, 2012;
2013; Monnet and Treacy, 2005), and there was only one observation in
2007 during vessel-based surveys in the region (Funk et al., 2010).
Humpback whales have not generally been found in the Arctic Ocean.
However, subsistence hunters have spotted humpback whales in low
numbers around Barrow, and there have been several confirmed sightings
of humpback whales in the northeastern Chukchi Sea in recent years
(Aerts et al., 2013; Clarke et al., 2013). The first confirmed sighting
of a humpback whale in the Beaufort Sea was recorded in August 2007
(Hashagen et al., 2009), when a cow and calf were observed 54 mi east
of Point Barrow. No additional sightings have been documented in the
Beaufort Sea. Narwhal are common in the waters of northern Canada, west
Greenland, and in the European Arctic, but rarely occur in the Beaufort
Sea (COSEWIC, 2004). Only a handful of sightings have occurred in
Alaskan waters (Allen and Angliss, 2013). These three species are not
considered further in this proposed IHA notice. Both the walrus and the

[[Page 40020]]

polar bear could occur in the U.S. Beaufort Sea; however, these species
are managed by the U.S. Fish and Wildlife Service (USFWS) and are not
considered further in this Notice of Proposed IHA.
The Beaufort Sea is a main corridor of the bowhead whale migration
route. The main migration periods occur in spring from April to June
and in fall from late August/early September through October to early
November. During the fall migration, several locations in the U.S.
Beaufort Sea serve as feeding grounds for bowhead whales. Small numbers
of bowhead whales that remain in the U.S. Arctic Ocean during summer
also feed in these areas. The U.S. Beaufort Sea is not a main feeding
or calving area for any other cetacean species. Ringed seals breed and
pup in the Beaufort Sea; however, this does not occur during the summer
or early fall. Further information on the biology and local
distribution of these species can be found in SAE's application (see
ADDRESSES) and the NMFS Marine Mammal Stock Assessment Reports, which
are available online at: http://www.nmfs.noaa.gov/pr/species/.

Potential Effects of the Specified Activity on Marine Mammals

Operating active acoustic sources such as airgun arrays,
navigational sonars, and vessel activities have the potential for
adverse effects on marine mammals. Potential effects from SAE's 3D OBN
seismic surveys on marine mammals in the U.S. Beaufort Sea are
discussed in the ``Potential Effects of the Specified Activity on
Marine Mammals'' section of the Federal Register notice for the
proposed IHA (80 FR 20084; April 14, 2015). No changes have been made
to the discussion contained in this section of the Federal Register
notice for the proposed IHA.

Anticipated Effects on Habitat

The primary potential impacts to marine mammal habitat are
associated with elevated sound levels produced by airguns and vessels
and their effects on marine mammal prey species. These potential
effects from SAE's 3D OBN seismic survey are discussed in the
``Anticipated Effects on Marine Mammal Habitat'' section of the Federal
Register notice for the proposed IHA (80 FR 20084; April 14, 2015). No
changes have been made to the discussion contained in this section of
the Federal Register notice for the proposed IHA.

Mitigation Measures

In order to issue an incidental take authorization 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 adverse 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.
For the SAE open-water 3D OBN seismic surveys in the Beaufort Sea,
NMFS is requiring SAE to implement the following mitigation measures to
minimize the potential impacts to marine mammals in the project
vicinity as a result of its survey activities. The primary purpose of
these mitigation measures is to detect marine mammals within or about
to enter designated exclusion zones and to initiate immediate shutdown
or power down of the airgun(s).
Besides the mitigation measures that were proposed in the Federal
Register notice (80 FR 20084; March 14, 2015), NMFS included two
additional measures that require SAE (1) refrain from initiating or
cease seismic activities if an aggregation of bowhead or gray whales
(i.e., 12 or more whales of any age/sex class that appear to be engaged
in a non-migratory, significant biological behavior (e.g., feeding,
socializing)) is observed within the Level B harassment zone; and (2)
operate a mitigation airgun at a rate of 1 shot per minute. A detailed
discussion of the mitigation measures are provided below.

(1) Establishing Exclusion and Disturbance Zones

Under current NMFS guidelines, the ``exclusion zone'' for marine
mammal exposure to impulse sources is customarily defined as the area
within which received sound levels are >=180 dB (rms) re 1 [mu]Pa for
cetaceans and >=190 dB (rms) re 1 [mu]Pa for pinnipeds. These safety
criteria are based on an assumption that SPL received at levels lower
than these will not injure these animals or impair their hearing
abilities, but at higher levels might have some such effects.
Disturbance or behavioral effects to marine mammals from underwater
sound may occur after exposure to sound at distances greater than the
exclusion zones (Richardson et al. 1995). Currently, NMFS uses 160 dB
(rms) re 1 [mu]Pa as the threshold for Level B behavioral harassment
from impulse noise.
In 2014, Heath et al. (2014) conducted a sound source verification
(SSV) of the very same 620-in\3\ array SAE plans to use in 2015. The
SSV was conducted in generally the same survey area of SAE's planned
2015 work. They empirically determined that the distances to the 190,
180, and 160 dB isopleths for sound pressure levels emanating from the
620-in\3\ array was 195, 635, and 1,820 m, respectively (Table 3).
Heath et al. (2014) also measured sound pressure levels from an active
10-in\3\ gun during SAE's 2014 Beaufort operations and found noise
levels exceeding 190 dB extended out 54 m, exceeding 180 dB out to 188
m, and exceeding 160 dB out to 1,050 m (Table 2).
Sound source studies have not been done for the 1,240-in\3\ array;
however, Austin and Warner (2013) conducted a sound source verification
of a 1,200-in\3\ array operated by SAE in Cook Inlet found the radius
to the 190 dB isopleth to be 250 m, to the 180 dB isopleth to be 910 m,
and to the 160 dB isopleth to be 5,200 m. These are the distance values
SAE intends to use before the SSV for the 1,240 in\3\ airgun arrays are
obtained before the survey. If SAE plans to use the 1,240 in\3\ airgun
arrays, SSV of these zones will be empirically measured before the 2015
open-water seismic survey for monitoring and mitigation measures.

Table 2--Summary of Airgun Array Source Levels and Proposed Exclusion Zone and Zones of Influence Radii
----------------------------------------------------------------------------------------------------------------
Source level 190 dB radius 180 dB radius 160 dB radius
Array size (in\3\) (dB) (m) (m) (m)
----------------------------------------------------------------------------------------------------------------
10.............................................. 195 54 188 1,050
620............................................. 218 195 635 1,820
1,240 *......................................... 224 250 910 5,200
----------------------------------------------------------------------------------------------------------------
* Denotes modelled source level that need to be empirically measured before the seismic survey.

[[Page 40021]]

(2) Vessel Related Mitigation Measures

These mitigation measures apply to all vessels that are part of
SAE's Beaufort Sea seismic survey activities, including supporting
vessels.
Avoid concentrations or groups of whales. Operators of
vessels should, at all times, conduct their activities at the maximum
distance possible from such concentrations or groups of whales.
If any vessel approaches within 1.6 km (1 mi) of observed
whales, except when providing emergency assistance to whalers or in
other emergency situations, the vessel operator will take reasonable
precautions to avoid potential interaction with the whales by taking
one or more of the following actions, as appropriate:
[cir] Reducing vessel speed to less than 5 knots within 300 yards
(900 feet or 274 m) of the whale(s);
[cir] Steering around the whale(s) if possible;
[cir] Operating the vessel(s) in such a way as to avoid separating
members of a group of whales from other members of the group;
[cir] Operating the vessel(s) to avoid causing a whale to make
multiple changes in direction; and
[cir] Checking the waters immediately adjacent to the vessel(s) to
ensure that no whales will be injured when the propellers are engaged.
Reduce vessel speed, not to exceed 5 knots, when weather
conditions require, such as when visibility drops, to avoid the
likelihood of injury to whales.

(3) Mitigation Measures for Airgun Operations

The primary requirements for airgun mitigation during the seismic
surveys are to monitor marine mammals near the airgun array during all
daylight airgun operations and during any nighttime start-up of the
airguns and, if any marine mammals are observed, to adjust airgun
operations, as necessary, according to the mitigation measures
described below. During the seismic surveys, Protected Species
Observers (PSOs) will monitor the pre-established exclusion zones for
the presence of marine mammals. When marine mammals are observed
within, or about to enter, designated safety zones, PSOs have the
authority to call for immediate power down (or shutdown) of airgun
operations, as required by the situation. A summary of the procedures
associated with each mitigation measure is provided below.
Ramp Up Procedure
A ramp up of an airgun array provides a gradual increase in sound
levels, and involves a step-wise increase in the number and total
volume of airguns firing until the full volume is achieved. The purpose
of a ramp up (or ``soft start'') is to ``warn'' cetaceans and pinnipeds
in the vicinity of the airguns and to provide time for them to leave
the area and thus avoid any potential injury or impairment of their
hearing abilities.
During the open-water survey program, the seismic operator will
ramp up the airgun arrays slowly. Full ramp ups (i.e., from a cold
start after a shutdown, when no airguns have been firing) will begin by
firing a single airgun in the array (i.e., the mitigation airgun). A
full ramp up, after a shutdown, will not begin until there has been a
minimum of 30 minutes of observation of the safety zone by PSOs to
assure that no marine mammals are present. The entire exclusion zone
must be visible during the 30-minute lead-in to a full ramp up. If the
entire exclusion zone is not visible, then ramp up from a cold start
cannot begin. If a marine mammal is sighted within the exclusion zone
during the 30-minute watch prior to ramp up, ramp up will be delayed
until the marine mammal is sighted outside of the exclusion zone or the
animal is not sighted for at least 15 minutes, for small odontocetes
(harbor porpoise) and pinnipeds, or 30 minutes, for baleen whales and
large odontocetes (including beluga and killer whales and narwhal).
Use of a Small-Volume Airgun During Turns and Transits
Throughout the seismic survey, during turning movements and short
transits, SAE will employ the use of the smallest-volume airgun (i.e.,
``mitigation airgun'') to deter marine mammals from being within the
immediate area of the seismic operations. The mitigation airgun will be
operated at approximately one shot per minute and will not be operated
for longer than three hours in duration (turns may last two to three
hours for the project).
During turns or brief transits (i.e., less than three hours)
between seismic tracklines, one mitigation airgun will continue
operating. The ramp up procedures described above will be followed when
increasing the source levels from the one mitigation airgun to the full
airgun array. However, keeping one airgun firing during turns and brief
transits will allow SAE to resume seismic surveys using the full array
without having to ramp up from a ``cold start,'' which requires a 30-
minute observation period of the full exclusion zone and is prohibited
during darkness or other periods of poor visibility. PSOs will be on
duty whenever the airguns are firing during daylight and during the 30-
minute periods prior to ramp-ups from a ``cold start.''
Power Down and Shutdown Procedures
A power down is the immediate reduction in the number of operating
energy sources from all firing to some smaller number (e.g., a single
mitigation airgun). A shutdown is the immediate cessation of firing of
all energy sources. The array will be immediately powered down whenever
a marine mammal is sighted approaching close to or within the
applicable exclusion zone of the full array, but is outside the
applicable exclusion zone of the single mitigation airgun. If a marine
mammal is sighted within or about to enter the applicable exclusion
zone of the single mitigation airgun, the entire array will be shut
down (i.e., no sources firing). In addition, SAE will implement
shutdown measures when aggregations of bowhead whales or gray whales
that appear to be engaged in non-migratory significant biological
behavior (e.g., feeding, socializing) are observed within the 160-dB
harassment zone around the seismic operations.
No Seismic Survey With Presence of Aggregation of Whales
SAE shall refrain from initiating or cease seismic activities if an
aggregation of bowhead or gray whales (i.e., 12 or more whales of any
age/sex class that appear to be engaged in a non-migratory, significant
biological behavior (e.g., feeding, socializing)) is observed within
the Level B harassment Zone.
Poor Visibility Conditions
SAE plans to conduct 24-hour operations. PSOs will not be on duty
during ongoing seismic operations during darkness, given the very
limited effectiveness of visual observation at night (there will be no
periods of darkness in the survey area until mid-August). The
provisions associated with operations at night or in periods of poor
visibility include the following:
If during foggy conditions, heavy snow or rain, or
darkness (which may be encountered starting in late August), the full
180 dB exclusion zone is not visible, the airguns cannot commence a
ramp-up procedure from a full shut-down.
If one or more airguns have been operational before
nightfall or before the onset of poor visibility conditions, they can
remain operational throughout the night or poor visibility conditions.
In this case ramp-up procedures can be initiated, even though the
exclusion

[[Page 40022]]

zone may not be visible, on the assumption that marine mammals will be
alerted by the sounds from the single airgun and have moved away.
Mitigation Conclusions
NMFS has carefully evaluated SAE's mitigation measures and
considered a range of other measures in the context of ensuring that
NMFS prescribes the means of effecting the least practicable impact on
the affected marine mammal species and stocks and their habitat. Our
evaluation of potential measures included consideration of the
following factors in relation to one another:
The manner in which, and the degree to which, the
successful implementation of the measures are expected to minimize
adverse impacts to marine mammals;
The proven or likely efficacy of the specific measure to
minimize adverse impacts as planned; and
The practicability of the measure for applicant
implementation.
Any mitigation measure(s) prescribed by NMFS should be able to
accomplish, have a reasonable likelihood of accomplishing (based on
current science), or contribute to the accomplishment of one or more of
the general goals listed below:
1. Avoidance or minimization of injury or death of marine mammals
wherever possible (goals 2, 3, and 4 may contribute to this goal).
2. A reduction in the numbers of marine mammals (total number or
number at biologically important time or location) exposed to received
levels of seismic airguns, or other activities expected to result in
the take of marine mammals (this goal may contribute to 1, above, or to
reducing harassment takes only).
3. A reduction in the number of times (total number or number at
biologically important time or location) individuals would be exposed
to received levels of seismic airguns or other activities expected to
result in the take of marine mammals (this goal may contribute to 1,
above, or to reducing harassment takes only).
4. A reduction in the intensity of exposures (either total number
or number at biologically important time or location) to received
levels of seismic airguns or other activities expected to result in the
take of marine mammals (this goal may contribute to 1, above, or to
reducing the severity of harassment takes only).
5. Avoidance or minimization of adverse effects to marine mammal
habitat, paying special attention to the food base, activities that
block or limit passage to or from biologically important areas,
permanent destruction of habitat, or temporary destruction/disturbance
of habitat during a biologically important time.
6. For monitoring directly related to mitigation--an increase in
the probability of detecting marine mammals, thus allowing for more
effective implementation of the mitigation.
Based on our evaluation of these mitigation measures, NMFS has
determined that the proposed mitigation measures provide the means of
effecting the least practicable impact on marine mammals species or
stocks and their habitat, paying particular attention to rookeries,
mating grounds, and areas of similar significance. Mitigation measures
to ensure availability of such species or stock for taking for certain
subsistence uses are discussed later in this document (see ``Impact on
Availability of Affected Species or Stock for Taking for Subsistence
Uses'' section).

Monitoring and Reporting

In order to issue an ITA 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 ITAs
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 action area. SAE
submitted a marine mammal monitoring plan as part of the IHA
application.
Monitoring measures prescribed by NMFS should accomplish one or
more of the following general goals:
1. An increase in our understanding of the likely occurrence of
marine mammal species in the vicinity of the action, i.e., presence,
abundance, distribution, and/or density of species.
2. An increase in our understanding of the nature, scope, or
context of the likely exposure of marine mammal species to any of the
potential stressor(s) associated with the action (e.g., sound or visual
stimuli), through better understanding of one or more of the following:
The action itself and its environment (e.g., sound source
characterization, propagation, and ambient noise levels); the affected
species (e.g., life history or dive pattern); the likely co-occurrence
of marine mammal species with the action (in whole or part) associated
with specific adverse effects; and/or the likely biological or
behavioral context of exposure to the stressor for the marine mammal
(e.g., age class of exposed animals or known pupping, calving or
feeding areas).
3. An increase in our understanding of how individual marine
mammals respond (behaviorally or physiologically) to the specific
stressors associated with the action (in specific contexts, where
possible, e.g., at what distance or received level).
4. An increase in our understanding of how anticipated individual
responses, to individual stressors or anticipated combinations of
stressors, may impact either: The long-term fitness and survival of an
individual; or the population, species, or stock (e.g., through effects
on annual rates of recruitment or survival).
5. An increase in our understanding of how the activity affects
marine mammal habitat, such as through effects on prey sources or
acoustic habitat (e.g., through characterization of longer-term
contributions of multiple sound sources to rising ambient noise levels
and assessment of the potential chronic effects on marine mammals).
6. An increase in understanding of the impacts of the activity on
marine mammals in combination with the impacts of other anthropogenic
activities or natural factors occurring in the region.
7. An increase in our understanding of the effectiveness of
mitigation and monitoring measures.
8. An increase in the probability of detecting marine mammals
(through improved technology or methodology), both specifically within
the safety zone (thus allowing for more effective implementation of the
mitigation) and in general, to better achieve the above goals.

Monitoring Measures

Monitoring will provide information on the numbers of marine
mammals potentially affected by the exploration operations and
facilitate real-time mitigation to prevent injury of marine mammals by
industrial sounds or activities. These goals will be accomplished in
the Beaufort Sea during 2015 by conducting vessel-based monitoring and
passive acoustic monitoring to document marine mammal presence and
distribution in the vicinity of the survey area.
Visual monitoring by PSOs during seismic survey operations, and
periods when these surveys are not occurring, will provide information
on the numbers of marine mammals potentially affected by these
activities and facilitate

[[Page 40023]]

real-time mitigation to prevent impacts to marine mammals by industrial
sounds or operations. Vessel-based PSOs onboard the survey vessels and
mitigation vessel will record the numbers and species of marine mammals
observed in the area and any observable reaction of marine mammals to
the survey activities in the Beaufort Sea.
Besides the monitoring measures that were proposed in the Federal
Register notice (80 FR 20084; March 14, 2015), NMFS included several
additional measures based on the Commission and peer-review
recommendations. These additional monitoring measures include: (1) NMFS
evaluation of empirically measured exclusion zones and zone of
influence before they are adopted; (2) conducting SSV if SAE plans to
use the 1,240 in\3\ airgun array for seismic survey; (3) including an
additional mitigation vessel for marine mammal monitoring if SAE plans
to use the 1,240 in\3\ airgun array; (4) deploying more acoustic
sensors than the 2014 season for passive acoustic monitoring; and (5)
testing a new mooring design with NMFS National Marine Mammal
Laboratory for microMARS to be deployed in shallow water.
Details of the monitoring measures are described below.

Visual-Based PSOs

The visual-based marine mammal monitoring will be implemented by a
team of experienced PSOs, including both biologists and Inupiat
personnel. PSOs will be stationed aboard both survey vessels through
the duration of the project. The vessel-based marine mammal monitoring
will provide the basis for real-time mitigation measures as discussed
in the Mitigation Measures section. In addition, monitoring results of
the vessel-based monitoring program will include the estimation of the
number of ``takes'' as stipulated in the IHA.
(1) PSOs
Vessel-based monitoring for marine mammals will be done by trained
PSOs throughout the period of survey activities. The observers will
monitor the occurrence of marine mammals near the survey vessel during
all daylight periods during operation, and during most daylight periods
when operations are not occurring. PSO duties will include watching for
and identifying marine mammals; recording their numbers, distances, and
reactions to the survey operations; and documenting ``take by
harassment.''
A total of 2 PSOs will be required onboard each survey vessel to
meet the following criteria:
100% monitoring coverage during all periods of survey
operations in daylight;
At least two PSOs conducting vessel-based visual
monitoring from both vessels during all time;
Maximum of 4 consecutive hours on watch per PSO; and
Maximum of 12 hours of watch time per day per PSO.
PSO teams will consist of Inupiat observers and experienced field
biologists. Each vessel will have an experienced field crew leader to
supervise the PSO team. The total number of PSOs may decrease later in
the season as the duration of daylight decreases.
(2) PSO Role and Responsibilities
When onboard the seismic and support vessels, there are three major
parts to the PSO position:
Observe and record sensitive wildlife species;
Ensure mitigation procedures are followed accordingly; and
Follow monitoring and data collection procedures.
The main roles of the PSO and the monitoring program are to ensure
compliance with requirements set in place by NMFS to ensure that
disturbance of marine mammals is minimized, and potential effects on
marine mammals are documented. The PSOs will implement the monitoring
and mitigation measures specified in the IHA. The primary purposes of
the PSOs on board of the vessels are:
Mitigation: Implement mitigation clearing and ramp up
measures, observe for and detect marine mammals within, or about to
enter the applicable safety zone and implement necessary shut down,
power down and speed/course alteration mitigation procedures when
applicable. Advise marine crew of mitigation procedures.
Monitoring: Observe for marine mammals and determine
numbers of marine mammals exposed to sound pulses and their reactions
(where applicable) and document those as required.
(3) Observer Qualifications and Training
Crew leaders and most PSOs will be individuals with experience as
observers during recent seismic, site clearance and shallow hazards,
and other monitoring projects in Alaska or other offshore areas in
recent years. New or inexperienced PSOs will be paired with an
experienced PSO or experienced field biologist so that the quality of
marine mammal observations and data recording is kept consistent.
Biologist-observers will have previous marine mammal observation
experience, and field crew leaders will be highly experienced with
previous vessel-based marine mammal monitoring and mitigation projects.
Resumes for those individuals will be provided to NMFS for review and
acceptance of their qualifications. Inupiat observers will be
experienced in the region and familiar with the marine mammals of the
area. All observers will complete a NMFS-approved observer training
course designed to familiarize individuals with monitoring and data
collection procedures.
PSOs will complete a 2- or 3-day training and refresher session on
marine mammal monitoring, to be conducted shortly before the
anticipated start of the 2015 open-water season. Any exceptions will
have or receive equivalent experience or training. The training
session(s) will be conducted by qualified marine mammalogists with
extensive crew-leader experience during previous vessel-based seismic
monitoring programs.
(4) Marine Mammal Observer Protocol
Source vessels will employ PSOs to identify marine mammals during
all hours of airgun operations. To better observe the exclusion zone, a
lead PSO, one or two PSOs, and an Inupiaq communicator will be on the
primary source vessel and two PSOs will be stationed aboard the
secondary source vessel. (The total number of observers is limited by
available berthing space aboard the vessels.) The three to four total
observers aboard the primary source vessel will allow two observers
simultaneously on watch during daylight hours.
The PSOs will watch for marine mammals during all periods of source
operations and for a minimum of 30 minutes prior to the planned start
of airgun or pinger operations after an extended shutdown. Marine
mammal monitoring shall continue throughout airgun operations and last
for 30 minutes after the finish of airgun firing. SAE vessel crew and
operations personnel will also watch for marine mammals, as practical,
to assist and alert the PSOs for the airgun(s) to be shut down if
marine mammals are observed in or about to enter the exclusion zone.
The PSOs will watch for marine mammals from the best available
vantage point on the survey vessels, typically the bridge. The PSOs
will scan the area around the vessel systematically with reticle
binoculars

[[Page 40024]]

(e.g., 7 x 50 and 16-40 x 80) and with the naked eye. Laser range
finders (Leica LRF 1200 laser rangefinder or equivalent) will be
available to assist with distance estimation.
The observers will give particular attention to the areas within
the marine mammal exclusion zones around the source vessels. These
zones are the maximum distances within which received levels may exceed
180 dB (rms) re 1 [mu]Pa (rms) for cetaceans, or 190 dB (rms) re 1
[mu]Pa for pinnipeds.
When a marine mammal is seen approaching or within the exclusion
zone applicable to that species, the seismic survey crew will be
notified immediately so that mitigation measures called for in the
applicable authorization(s) can be implemented.
Night-vision equipment (Generation 3 binocular image intensifiers
or equivalent units) will be available for use if and when needed. Past
experience with night-vision devices (NVDs) in the Beaufort Sea and
elsewhere has indicated that NVDs are not nearly as effective as visual
observation during daylight hours (e.g., Harris et al. 1997, 1998;
Moulton and Lawson 2002).
(5) Dedicated Monitoring Vessel
If SAE decides to use the 1,240 in\3\ airgun array, an additional
dedicated visual monitoring vessel will be employed to assist marine
mammal monitoring due to the larger exclusion zones and zone of
influence from this larger airgun array. A minimum of 2 PSOs will be
positioned on this dedicated monitoring vessel.
(6) Field Data-Recording
The PSOs will record field observation data and information about
marine mammal sightings that include:
Species, group size, age/size/sex categories (if
determinable);
Physical description of features that were observed or
determined not to be present in the case of unknown or unidentified
animals;
Behavior when first sighted and after initial sighting,
heading (if consistent);
Bearing and distance from observer, apparent reaction to
activities (e.g., none, avoidance, approach, paralleling, etc.),
closest point of approach, and behavioral pace;
Time, location, speed, and activity of the source and
mitigation vessels, sea state, ice cover, visibility, and sun glare;
and
Positions of other vessel(s) in the vicinity.

Acoustic Monitoring

(1) Sound Source Measurements
Since the same airgun array of 620 in\3\ and a single mitigation
airgun of 10 in\3\ to be used were empirically measured in the
generally same seismic survey vicinity in 2014 (Heath 2014), NMFS does
not think additional SSV tests for this array and a single airgun are
necessary for the 2015 seismic survey. However, if SAE decides to use
the 1,240 in\3\ airgun arrays for deeper water, SSV on these arrays is
required before the commencement of the surveys. Results of the
acoustic characterization and SSV will be used to establish the 190 dB,
180 dB, 170 dB, and 160 dB isopleths for the 1,240 in\3\ airgun arrays.
The results of the SSV will be submitted to NMFS within five days
after completing the measurements, followed by a report to be submitted
within 14 days after completion of the measurements. A more detailed
report will be provided to NMFS as part of the required 90-day report
following completion of the acoustic program.
NMFS will evaluate the empirically measured exclusion zones and
zone of influence from the 1,240 in\3\ before they are formally
established for mitigation and monitoring measures.
(2) Passive Acoustic Monitoring
SAE will conduct Passive Acoustical Monitoring (PAM) using
microMARS. These sensors will be deployed on the seabed and will record
continuously at 64 kHz sample rate and 16-bit samples. The recorders
will be calibrated and their mooring designs tested prior to
deployment.

PAM Deployment

Passive acoustic monitoring package will be deployed at the four
corners of SAE's survey site. Each PAM package will include two
microMARS units coupled with an ARC-1 release device, a float and a
retrievable mooring. Deploying two microMARS at each monitoring
location will allow redundancy in the system to reduce the likelihood
of failures and/or data loss.
PAM will be deployed before the SAE's proposed 3D seismic survey
and remain at the study site during the entire survey period.

Data Analysis

Acoustic data will be analyzed for two frequency bands, low (below
2 kHz for baleen whales and low-frequency noise) and high (2 kHz-32 kHz
for beluga whales and high-frequency noise). This will allow sounds
produced by different species and anthropogenic sources to be reviewed
and analyzed in greater detail. Specialized acoustic review and
analysis software, Trition will be used to create long-term spectral
averages (LTSAs) for all acoustic files downloaded from the recorders.
Once LTSAs of all the acoustic data have been created and
preliminarily reviewed, experienced bioacoustic data analysts will
perform a detailed review of the data. Analysts will log the time of
occurrence of all biological sounds, seismic source events (if
audible), and other relevant acoustic signals (e.g. ships, small boats,
and other noise events). Combined event log data will then be organized
into tables to provide summaries including (1) the number and type of
acoustic events; (2) the number of days each event occurred at each
site; and (3) event durations for each deployment and site. Graphs of
daily event occurrence will be made for each identified marine mammal
species that have sufficient data to plot. Graphs of the percentage of
time for which signals from each species were detected with respect to
total recording time at each site will be plotted by species.
Noise analysis will be performed on all recorded acoustic data.
Sound levels will be measured for full and octave frequency bands. This
analysis will be conducted using automated algorithms that measure
root-mean-square (RMS) sound pressure level (SPL) each octave bands.
These results will be averaged both hourly and daily to provide a
synoptic representation of the ambient noise levels present at each
location for each of the different frequency bands measured.

Monitoring Plan Peer Review

The MMPA requires that monitoring plans be independently peer
reviewed ``where the proposed activity may affect the availability of a
species or stock for taking for subsistence uses'' (16 U.S.C.
1371(a)(5)(D)(ii)(III)). Regarding this requirement, NMFS' implementing
regulations state, ``Upon receipt of a complete monitoring plan, and at
its discretion, [NMFS] will either submit the plan to members of a peer
review panel for review or within 60 days of receipt of the proposed
monitoring plan, schedule a workshop to review the plan'' (50 CFR
216.108(d)).
NMFS established an independent peer review panel to review SAE's
4MP for the proposed 3D seismic survey in the Beaufort Sea. The panel
met in early March 2015, and provided comments and recommendations to
NMFS in April 2015. The full panel report can be viewed on the Internet
at: http://www.nmfs.noaa.gov/pr/permits/incidental.htm.

[[Page 40025]]

NMFS provided the panel with SAE's IHA application and monitoring
plan and asked the panel to answer the following questions:
1. Will the applicant's stated objectives effectively further the
understanding of the impacts of their activities on marine mammals and
otherwise accomplish the goals stated above? If not, how should the
objectives be modified to better accomplish the goals above?
2. Can the applicant achieve the stated objectives based on the
methods described in the plan?
3. Are there technical modifications to the proposed monitoring
techniques and methodologies proposed by the applicant that should be
considered to better accomplish their stated objectives?
4. Are there techniques not proposed by the applicant (i.e.,
additional monitoring techniques or methodologies) that should be
considered for inclusion in the applicant's monitoring program to
better accomplish their stated objectives?
5. What is the best way for an applicant to present their data and
results (formatting, metrics, graphics, etc.) in the required reports
that are to be submitted to NMFS (i.e., 90-day report and comprehensive
report)?
The peer-review panel report contains recommendations that the
panel members felt were applicable to the SAE' monitoring plans. The
peer-review panel believed that the objectives for both vessel-based
and passive acoustic monitoring were appropriate. The panel also agreed
that the objectives of real-time mitigation of potential disturbance of
marine mammals would be mostly met through visual monitoring. However,
there are some limitations associated with PSOs' ability to monitor the
entire safety radii at all times. Specific panel recommendations are
provided below.
(1) If SAE decides to use the larger airgun array (i.e., the 1,240
in\3\ array), SAE should conduct sound source verification;
(2) SAE should have an additional observer on the secondary source
vessel such that at least two observers are on watch during all
daylight hours;
(3) If SAE uses the 1,240 in\3\ airgun array and the measured
safety radii (exclusion zones) in the Beaufort Sea are similar to the
measurement done in Cook Inlet (250 m for 190 dB and 910 m for 180 dB),
SAE should have a dedicated scout (monitoring) vessel with at least 2
PSOs to monitor the 180 dB exclusion zone (910 m);
(4) If the seismic surveys are offshore, more acoustic sensors are
needed at more locations than what is presented by SAE at the peer-
review meeting (one sensor at each of the four corners);
(5) microMARS used for PAM should be deployed well before the
seismic surveys begin in order to collect baseline data before all the
vessels are operative in the area and the airgun arrays begin
operating;
(6) SAE should develop a more compact mooring design for microMARS
that are deployed in shallow waters, particularly because of the
compact size of these recorders;
(7) Additional testing to be conducted to verify PAM recorders'
performance due to the limited or non-existent field experience in long
term deployments and cold Arctic waters;
(8) Improve the effectiveness of monitoring by using Unmanned
Aerial Systems for monitoring of marine mammals in the Beaufort Sea;
(9) Provide information in the reports about how the detections
obtained by the microMARS are ground-truthed;
(10) Acoustic characteristics of the identified noise sources be
included in the reports to provide a better understanding of source
levels and the robustness of SSV results, and other acoustic
characteristics of the seismic survey equipment, such as spectral
content, and received levels in different metrics such as RMS dB, cSEL
24h, dB peak to peak, and 1/3 octave bands;
(11) Sightability curves be included in the reports as much as
possible;
(12) Coordinate and collaborate with other companies (such as
Caelus and Repsol) for monitoring the aggregated effects of all their
activities on spotted seals, especially animals that may be haulted
out; and
(13) Continue to make all environmental data (including PSO
observations, acoustic monitoring, vessel track lines and timing of
operations) available to the general public.
In addition, though not solicited as part of the independent peer
review of the monitoring, the peer review panel also recommended the
following mitigation measures:
(1) SAE should limit seismic operations at night or during periods
of low visibility because PSOs' ability to detect marine mammals
entering the safety zone is limited;
(2) If a bowhead whale mother/calf pair or an aggregation of three
or more bowhead whales are sighted within the Level B harassment zone
prior to the onset of night or during that day, SAE could be more
cautious during darkness based on the potential risk to marine mammals.
If the risk is relatively high, it might be decided that airguns should
be shut down for the night;
(3) SAE should not use a mitigation gun for longer than one hour,
which is the equivalent amount of time for surveying the safety radii
plus ramp up; and
(4) Mitigation gun should be shot only once every minute instead of
every few seconds.
NMFS discussed the peer review panel report and the list of
recommendations with SAE. For the aforementioned monitoring measures,
NMFS requires and SAE agrees to implement the following:
(1) Conducting sound source verification if the 1,240 in\3\ airgun
array is used in the proposed 3D seismic survey;
(2) Mobilizing a dedicated scout (monitoring) vessel with at least
2 PSOs onboard to monitor the 180 dB exclusion zone (910 m) if the SSV
test show that the 180 dB radius of the exclusion zone from the 1,240
in\3\ airgun array is 910 m or larger;
(3) Deploying microMARS used for PAM at least three days before the
seismic surveys till three days after the seismic survey in order to
collect data for comparing the sound field before, during, and after
the seismic survey;
(4) Deploying two microMARS units at each of the four corners
(total of 8 microMARS units);
(5) Developing a more compact mooring design for microMARS that are
deployed in shallow waters, particularly because of the compact size of
these recorders;
(6) Conducting tests and calibration to verify PAM recorders'
performance prior to deployment;
(7) Including sightability curves in the 90-day report;
(8) Making all environmental data (including PSO observations,
acoustic monitoring, vessel track lines and timing of operations)
available for valid scientific research.
In addition, NMFS worked with SAE on the following 5 of the panel
recommendations and determined that these will also be required in the
IHA issued to SAE with clarification and certain modifications to make
them practicable for implementation. These measures are listed below:
(1) Regarding the number of PSOs onboard the secondary source
vessel, this is to clarify that SAE plans to have two PSOs on both
source vessels, and they will be working on a shift described earlier
in the ``Monitoring Measure'' section of this document. Therefore, at
any given time, there will be 2 PSOs monitoring from both source
vessels. NMFS notes that the number of

[[Page 40026]]

PSOs is limited by the available berth on the seismic vessel. The
source vessels SAE plan to use are small, and therefore, could only
afford maximum of 2 PSOs onboard each vessel.
(2) Regarding ground-truth information in the reports about
microMARS detection, SAE states that it should be able to identify
bowhead and beluga calls from acoustic recordings. However, SAE states
that it will be difficult to identify pinniped calls for species
identification at distances, especially at the locations where the
microMARS are deployed there will be no PSOs on watch to verify the
calling animals. Therefore, ground-truth of acoustic data to specific
species calls would not be possible. Nevertheless, as stated earlier,
SAE will make the acoustic data available to researchers who are
interested in studies that will shed light on marine mammal call
identification.
(3) Regarding acoustic characteristics of the identified noise
sources, and other acoustic characteristics of the seismic survey
equipment, such as spectral content, and received levels in different
metrics such as RMS dB, cSEL 24h, dB peak to peak, and 1/3 octave
bands, SAE will work with its contractor to characterize the identified
noise sources as much as possible within the limits of the microMARS.
However, SAE states that some of the requested data analysis would
require knowing not only the real-time distance of each noise sources,
but the aspect (e.g., forward, endfire) of the array as well. SAE
states that for cost reasons, SAE cannot afford extended acoustic
analysis beyond identified source characterization. Nevertheless, SAE
will make the acoustic data available to researchers who are interested
in additional studies of the noise field from data collected by SAE. In
the IHA issued to SAE, NMFS requires that SAE at least perform basic
acoustic characteristics of the identified noise sources that include
spectral content and received levels in different metrics such as RMS
dB, cSEL 24h, dB peak to peak, and 1/3 octave bands.
(4) Regarding coordinating and collaborating with other companies
(such as Caelus and Repsol) for monitoring the aggregated effects of
all their activities on spotted seals, especially animals that may be
haulted out, SAE responded that they attempted to coordinate with other
companies last year for spotted seal monitoring, but none agreed to
cooperate. In addition, at this point it is unclear whether any other
companies in the Beaufort Sea may be conducting pinnipeds haul-out
aerial surveys in the 2015 open-water season. Nevertheless, NMFS
encourages SAE again to seek cooperation with other companies who may
be conducting aerial surveys with the goal that information collected
during those surveys will assist SAE in monitoring pinnipeds use of
haul-out sites before, during, and after SAE's planned seismic survey.
The only recommendation from the peer-review panel SAE is not able
to implement is the utilization of Unmanned Aerial Systems (UAS) for
monitoring of marine mammals in the Beaufort Sea for marine mammal
monitoring. The major reason for this is that using UAS for marine
mammal monitoring is still not a proven technology to provide an
effective monitoring modality. The resolution from the UAS video camera
does not have high resolution, especially for pinniped survey due to
the small size of the animals. In addition, SAE states that the expense
of flying a UAS is cost-prohibitive for the company. NMFS agrees with
SAE's reasoning. Therefore, this recommendation is not included in the
IHA issued to SAE.
With regards to the panel's mitigation recommendations, NMFS agrees
with the panel that mitigation airgun should be fired at a rate of 1
shot per minute instead of every few seconds. This condition is
required in the IHA issued to SAE.
Regarding the remaining three mitigation measures provided by the
peer-review panel, SAE and NMFS discussed and decided that it is
important to be consistent with existing mitigation practices for
typical 3D seismic surveys unless new scientific information is
available that warrant a change. These mitigation measures are
described in the ``Mitigation'' section above. These three mitigation
recommendations from the panel are addressed and clarified below:
(1) Limiting seismic operations at night or during periods of low
visibility: This recommendation is not consistent with existing
mitigation practices for a typical marine seismic survey, which require
no airgun ramping up when the entire exclusion zone cannot be cleared
due to low visibility. However, if the entire exclusion zone can be
visually cleared by PSOs, a ramp up can be commenced and, as long as no
shutdown occurs during the course of the survey, airgun firing can
continue into night or during periods of low visibility. By limiting
seismic operations at night or during periods of low visibility, SAE
would not be able to complete its 3D seismic survey during the project
period and would have to come back the following year to continue their
work. This can be cost-prohibitive for the company and will also extend
the season when the marine environment is affected.
(2) Be more cautious during darkness based on the potential risk to
marine mammals if a bowhead whale mother/calf pair or an aggregation of
three or more bowhead whales are sighted within the Level B harassment
zone prior to the onset of night or during that day. If the risk is
relatively high, airguns should be shut down for the night: The panel
did not define what constitutes ``the risk is relatively high'', and
without a clear definition, NMFS considers that this recommendation
cannot be made into a requirement. Additionally, as discussed in (1)
above, ceasing seismic activities at night because bowhead whale
mother/calf pair or an aggregation of three or more bowhead whales are
sighted within the Level B harassment zone during the day would be
cost-prohibitive, especially consider that the potential risk is not
identified.
(3) Mitigation gun not to be operated for more than one hour: NMFS
does not allow extended use of ``mitigation airgun'' when the seismic
survey is not ongoing, just so that the applicant can ramp up at night
or without the 30-minute clearance before ramping up airgun arrays.
However, NMFS allows a single airgun (so called ``mitigation gun'') to
be kept on for turning from one track to the next and for short
transiting purposes. SAE, as well as other seismic surveyors (e.g.,
BP), state that for 3D seismic surveys, an approximately 3-hour time
frame is needed to complete a turn or short transit, and NMFS has been
requiring the applicants to use the smallest single airgun for a
maximum of 3 hours for turning and short transiting purposes (e.g., IHA
to SAE's 3D seismic survey in 2014 open-water season in Beaufort Sea).
Further, the panel did not provide a justification for its
recommendation of maximum of one-hour use of ``mitigation airgun''.
Therefore, to be consistent with the existing mitigation measures, NMFS
again requires that SAE use the ``mitigation airgun'' for turning and
short line transiting only, with a maximum operation time of 3 hours.

Reporting Measures

(1) Sound Source Verification Report
As discussed earlier, if SAE plans to use the 1,240 in\3\ airgun
arrays, SSV tests on these arrays will be required. A report on the
preliminary results of the sound source verification measurements,
including the measured 190, 180, 170, and 160 dB (rms) radii of

[[Page 40027]]

the 1,240 in\3\ airgun array, would be submitted within 14 days after
collection of those measurements at the start of the field season.
(2) Weekly Reports
SAE will submit weekly reports to NMFS no later than the close of
business (Alaska Time) each Thursday during the weeks when seismic
surveys take place. The field reports will summarize species detected,
in-water activity occurring at the time of the sighting, behavioral
reactions to in-water activities, and the number of marine mammals
exposed to harassment level noise.
(3) Monthly Reports
SAE will submit monthly reports to NMFS for all months during which
seismic surveys take place. The monthly reports will contain and
summarize the following information:
Dates, times, locations, heading, speed, weather, sea
conditions (including Beaufort Sea state and wind force), and
associated activities during the seismic survey and marine mammal
sightings.
Species, number, location, distance from the vessel, and
behavior of any sighted marine mammals, as well as associated surveys
(number of shutdowns), observed throughout all monitoring activities.
An estimate of the number (by species) of: (i) Pinnipeds
that have been exposed to the seismic surveys (based on visual
observation) at received levels greater than or equal to 160 dB re 1
[micro]Pa (rms) and/or 190 dB re 1 [micro]Pa (rms) with a discussion of
any specific behaviors those individuals exhibited; and (ii) cetaceans
that have been exposed to the geophysical activity (based on visual
observation) at received levels greater than or equal to 160 dB re 1
[micro]Pa (rms) and/or 180 dB re 1 [micro]Pa (rms) with a discussion of
any specific behaviors those individuals exhibited.
(4) Technical Report
The results of SAE's 2015 vessel-based monitoring, including
estimates of ``take'' by harassment, will be presented first in a ``90-
day'' draft Technical Report, to be submitted to NMFS within 90 days
after the end of the seismic survey, and then in a final Technical
Report, which will address any comments NMFS had on the draft. The
Technical Report will include:
(a) Summaries of monitoring effort (e.g., total hours, total
distances, and marine mammal distribution through the study period,
accounting for sea state and other factors affecting visibility and
detectability of marine mammals);
(b) Analyses of the effects of various factors influencing
detectability of marine mammals (e.g., sea state, number of observers,
and fog/glare);
(c) Species composition, occurrence, and distribution of marine
mammal sightings, including date, water depth, numbers, age/size/gender
categories (if determinable), group sizes, and ice cover;
(d) Data analysis separated into periods when a seismic airgun
array (or a single mitigation airgun) is operating and when it is not,
to better assess impacts to marine mammals--the final and comprehensive
report to NMFS should summarize and plot:
Data for periods when a seismic array is active and when
it is not; and
The respective predicted received sound conditions over
fairly large areas (tens of km) around operations;
(e) Sighting rates of marine mammals during periods with and
without airgun activities (and other variables that could affect
detectability), such as:
Initial sighting distances versus airgun activity state;
Closest point of approach versus airgun activity state;
Observed behaviors and types of movements versus airgun
activity state;
Numbers of sightings/individuals seen versus airgun
activity state;
Distribution around the survey vessel versus airgun
activity state; and
Estimates of take by harassment;
(f) Results from all hypothesis tests, including estimates of the
associated statistical power, when practicable;
(g) Estimates of uncertainty in all take estimates, with
uncertainty expressed by the presentation of confidence limits, a
minimum-maximum, posterior probability distribution, or another
applicable method, with the exact approach to be selected based on the
sampling method and data available;
(h) A clear comparison of authorized takes and the level of actual
estimated takes;
(i) Acoustic characteristics of the identified noise sources. These
should include the acoustic characteristics of the seismic survey
equipment, such as spectral content, and received levels in different
metrics such as RMS dB, cSEL 24h, dB peak to peak, and 1/3 octave
bands; and
(j) Provide sightability curves in the 90-day report.
(5) Data Sharing and Research Collaboration
(a) Make all environmental data (including PSO observation,
acoustic monitoring, vessel track lines and timing of operations)
available for valid scientific research purposes; and
(b) Make a best effort to coordinate and collaborate with other
companies for monitoring the aggregated effects of all their activities
on spotted seals, especially animals that many be hauled out.
(6) Notification of Injured or Dead Marine Mammals
In the unanticipated event that the specified activity clearly
causes the take of a marine mammal in a manner prohibited by the IHA,
such as a serious injury, or mortality (e.g., ship-strike, gear
interaction, and/or entanglement), SAE would immediately cease the
specified activities and immediately report the incident to the Chief
of the Permits and Conservation Division, Office of Protected
Resources, NMFS, and the Alaska Regional Stranding Coordinators. The
report would include the following information:
Time, date, and location (latitude/longitude) of the
incident;
Name and type of vessel involved;
Vessel's speed during and leading up to the incident;
Description of the incident;
Status of all sound source use in the 24 hours preceding
the incident;
Water depth;
Environmental conditions (e.g., wind speed and direction,
Beaufort sea state, cloud cover, and visibility);
Description of all marine mammal observations in the 24
hours preceding the incident;
Species identification or description of the animal(s)
involved;
Fate of the animal(s); and
Photographs or video footage of the animal(s) (if
equipment is available).
Activities would not resume until NMFS is able to review the
circumstances of the prohibited take. NMFS would work with SAE to
determine what is necessary to minimize the likelihood of further
prohibited take and ensure MMPA compliance. SAE would not be able to
resume its activities until notified by NMFS via letter, email, or
telephone.
In the event that SAE discovers a dead marine mammal, and the lead
PSO determines that the cause of the death is unknown and the death is
relatively recent (i.e., in less than a moderate state of decomposition
as described in the next paragraph), SAE would immediately report the
incident to the Chief of the Permits and Conservation Division, Office
of Protected Resources, NMFS, and the NMFS Alaska Stranding Hotline
and/or by email to the Alaska Regional Stranding Coordinators. The
report would include the same

[[Page 40028]]

information identified in the paragraph above. Activities would be able
to continue while NMFS reviews the circumstances of the incident. NMFS
would work with SAE to determine whether modifications in the
activities are appropriate.
In the event that SAE discovers a dead marine mammal, and the lead
PSO determines that the death is not associated with or related to the
activities authorized in the IHA (e.g., previously wounded animal,
carcass with moderate to advanced decomposition, or scavenger damage),
SAE would report the incident to the Chief of the Permits and
Conservation Division, Office of Protected Resources, NMFS, and the
NMFS Alaska Stranding Hotline and/or by email to the Alaska Regional
Stranding Coordinators, within 24 hours of the discovery. SAE would
provide photographs or video footage (if available) or other
documentation of the stranded animal sighting to NMFS and the Marine
Mammal Stranding Network. SAE can continue its operations under such a
case.

Monitoring Results From Previously Authorized Activities

SAE was issued an IHA for a 3D OBN seismic survey in the same area
of the proposed 2015 seismic survey in the Beaufort Sea during the 2014
Arctic open-water season. SAE conducted the seismic survey between
August 25 and September 30, 2014. The technical report (90-day report)
submitted by SAE indicates that one beluga whale and 2 spotted seals
were observed within the 180-dB exclusion zones during the survey that
prompted immediate shutdown. Two additional spotted seals were detected
within the zone of influence when the airgun arrays were firing. Post-
activity analysis based on total sighting data concluded that up to
approximately 5 beluga whales and 264 pinnipeds (likely all spotted
seals due to their large numbers) could be exposed to received levels
above 160-dB re 1 [micro]Pa. Some of these could be exposed to levels
that may have Level A harassment which was not authorized under the
previous IHA. Nevertheless, take of Level B harassment were under the
take limits allowed by the IHA issued to SAE.
Based on the monitoring results from SAE's 2014 seismic survey,
NMFS is re-evaluating the potential effects on marine mammals and
requested SAE to conduct analysis on potential Level A takes (see
``Estimated Take by Incidental Harassment'' section below).

Estimated Take by Incidental Harassment

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].
Takes by Level A and Level B harassments of some species are
anticipated as a result of SAE's proposed 3D seismic survey. NMFS
expects marine mammal takes could result from noise propagation from
operation of seismic airguns. NMFS does not expect marine mammals would
be taken by collision with seismic and support vessels, because the
vessels will be moving at low speeds, and PSOs on the survey vessels
and the mitigation vessel will be monitoring for marine mammals and
will be able to alert the vessels to avoid any marine mammals in the
area.
For impulse sounds, such as those produced by the airguns proposed
to be used in SAE's 3D OBN seismic surveys, NMFS uses the 180 and 190
dB (rms) re 1 [mu]Pa isopleth to indicate the onset of Level A
harassment for cetaceans and pinnipeds, respectively; and the 160 dB
(rms) re 1 [mu]Pa isopleth for Level B harassment of all marine
mammals. SAE provided calculations of the 190-, 180-, and 160-dB
isopleths expected to be produced by the proposed seismic surveys and
then used those isopleths to estimate takes by harassment. NMFS used
those calculations to make the necessary MMPA findings. SAE provided a
full description of the methodology used to estimate takes by
harassment in its IHA application, which is also provided in the
following sections.

Acoustic Footprint

The acoustical footprint that could cause harassment (Levels A and
B) was determined by placing a 160-dB isopleth buffer around the area
that would be surveyed (shot) during the 2015 open water season (777
km\2\). SAE stated that for the majority of its proposed 2015 seismic
survey, a 620 in\3\ airgun array would be used. However, to make
conservative impact analysis, SAE uses the acoustic footprint of a
large 1,240 in\3\ array for this analysis.
There are no precise estimates for the 1,240-in\3\ array. The
estimated distances to the 160 dB isopleth for the 1,240-in\3\ array
are based on the sound source measurements from Austin and Warner
(2012) for a 1,200-in\3\ array in Cook Inlet. The results showed a
measured distance of 5.2 km to the 160 dB isopleths (Table 2). Placing
a 5.2-km buffer around the 777 km\2\ maximum shot area results in an
estimated annual ZOI of 1,463 km\2\ (565 mi\2\), which is the ZOI value
used in the exposure estimate calculations.
Because the exact location of the 2015 shoot area is currently
unknown, the distribution of marine mammal habitat within the shoot
area is unknown. However, within the 4,562 km\2\ potential survey box,
19% (860 km\2\) falls within the 0 to 1.5 m water depth range, 16% (753
km\2\) falls within the 1.5 to 5 m range, 36% (1,635 km\2\) within the
5 to 15 m range, and 29 percent% (1,348 km\2\) within waters greater
than 15 m deep (bowhead migration corridor). Thus, not all the area
that could be surveyed in 2015 constitutes bowhead summer (>5 m depth)
or fall migrating (>15 m depth) habitat. Further, few of the lease
areas that could be shot in 2015 extend into the deeper waters of the
potential survey box. The distribution of these depth ranges is found
in Figure 6-1 of SAE's IHA application.

Marine Mammal Densities

In the Federal Register notice (80 FR 20084; April 14, 2015) for
the proposed IHA, NMFS used the aerial survey data (Ferguson and Clarke
2013) collected in the Beaufort Sea during the Aerial Surveys of Arctic
Marine Mammals (ASAMM) program in 2012 and 2013 for bowhead whale
density calculation. At the time of the proposed IHA stage, 2014
density data had not been vetted. Subsequently, the 2014 aerial survey
data for bowhead whale became available, and NMFS was advised by the
National Marine Mammal Laboratory (NMML) and NMFS Alaska Regional
Office (AKRO) to use the 2008--2014 bowhead and beluga whale survey
data and a g(0) of 0.8696 and f(0) of 0.07 for density estimates. Both
g(0) and f(0) are factors used to correct the potential presence of
animals not detected and potential missed sighting from the survey. The
results showed much higher density for bowhead whale within the SAE's
proposed 3D seismic survey area. The revised bowhead whale density,
along with densities of other marine mammals that could be affected by
SAE's 3D seismic survey, are provided in Table 3.

[[Page 40029]]

Table 3. Marine mammal densities (#/km\2\) in the Beaufort Sea
------------------------------------------------------------------------
Species Summer Fall
------------------------------------------------------------------------
Bowhead whale..................................... 0.1674 0.4828
Beluga whale...................................... 0.0020 0.0057
Ringed seal....................................... 0.3547 0.2510
Spotted seal...................................... 0.0177 0.0125
Bearded seal...................................... 0.0177 0.0125
------------------------------------------------------------------------

Level B Exposure Calculations

In the Federal Register notice (80 FR 20084; April 14, 2015) for
the proposed IHA, NMFS performed marine mammal take estimates by
multiplying animal density and the total ensonified area of the entire
survey without incorporating a time vector. However, the Commission
pointed out in its comment that such method does not take into account
the potential of new animals moving into the ensonified area during the
course of the survey. NMFS also realized that although such method
provides take estimates that closely matched the actual estimated takes
provided in the 90-day reports (with corrections to count for animals
missed due to avoidance of seismic exposure and missed detection), the
potential of not counting new animals moving into the area could
underestimate the actual take. Therefore, in response to the
Commission's response, NMFS is incorporating a time vector, survey
days, into take estimates by multiplying animal density and daily
ensonified area and the number of survey days. However, this method
provides the number of instances of take without accounting for the
fact that some individuals may be taken more than once during the
survey. Since the same animal is very likely to be taken multiple times
on different days, this method presents a serious issue when analyzing
the number of unique animals from a given population that are harassed.
To address this issue, NMFS applied a correction factor, the daily
turnover rate, to provide take estimates that are more realistic.
1. Daily Ensonified Area
SAE states that regardless the size of the airgun array, the daily
survey area is 18.75 mi\2\. However, the daily ensonified areas, which
are the daily survey areas in additional to areas that would be
ensonified to 160 dB re 1 [micro]Pa, would vary with the size of the
airgun array used. The specific daily ensonified areas depend on the
ensonified radii from different airgun arrays shown in Table 2. For the
620 in\3\ airgun array, the daily ensonified area out to the 160 dB re
1 [micro]Pa is 43.6 mi\2\, or 113 km\2\. For the 1,240 in\3\ airgun
array, the daily ensonified area out the 160 dB re 1 [micro]Pa is 117
mi\2\, or 303 km\2\.
Assuming that the survey areas of different bathymetry are
proportionally represented by the bathymetry of the entire survey box,
then 19% of the survey area will be less than 1.5 m deep, 16% survey
area is 1.5-5 m deep, 36% survey area 5-15 m deep, and the remaining
29% survey area is deeper than 15 m. As stated earlier, waters below 5
m deep are not bowhead whale habitat, therefore, bowhead takes are
excluded from these waters. In addition, waters below 15 m deep are not
bowheads habitat during the fall, therefore, they are also excluded for
take calculation for SAE's 3D survey in the fall.
No adjustments were made for beluga whales, and ringed, spotted,
and bearded seals, as they could appear in much shallower waters.
2. Number of Survey Days
As discussed in the Federal Register notice (80 FR 20084; April 14,
2015) and in this document, within the total of 107 days of this IHA
(from July 1 to October 15, 2015), SAE states that survey is
anticipated to last 70 days, of which approximately 70% of the time, or
a total of 49 days, when the actual seismic survey using airgun arrays
will be occurring, depending on weather and ice conditions. Though it
cannot be predicted the exact days when incremental weather and ice
conditions would present the surveys, for the purpose of this analysis,
NMFS prorated survey days in summer (July 1 to August 31) and in fall
(September 1 to October 15) with the total days in summer (62 days) and
fall (45 days), which yielded 28 survey days in summer and 21 survey
days in fall.
3. Turnover Rate of Marine Mammals
For bowhead whales, during the summer period into early fall
(August to October), they are often observed feeding from Smith Bay to
Point Barrow (Clarke & Ferguson, 2010a, 2010b; Clarke et al. 2011a,
2011b, 2012, 2013). In other areas of the western Beaufort Sea
(including the SAE's proposed seismic survey area), bowhead whales may
feed on the continental shelf, out to approximately the 50-m isobath,
in September and October (Clarke et al. 2015). In the fall period
(September and October), bowhead whales are observed migrating through
the western Beaufort Sea primarily on the shelf (including the SAE's
proposed seismic survey area), at depths less than 50 m, with some
whales migrating across the outer shelf (Clarkes et al., 2015).
It is difficult to determine an average turnover time for
individual bowhead whales in a particular area of the Beaufort Sea.
Reasons for this include differences in residency time between
migratory and non-migratory periods, changes in distribution of food
and other factors such as behavior that influence animal movement,
variation among individuals, etc.
Complete turnover of individual bowhead whales in the project area
each 24-hour period is possible during distinct periods within the fall
migration when bowheads are traveling through the area, however,
bowheads often move in pulses with one to several days between major
pulses of whales (Miller et al. 2002). Gaps between groups of traveling
whales during fall migration result in days when no bowhead whales
would be expected to be present in the activity area. The absence of
bowhead whales during periods of the fall migration can likely be
attributed to individuals stopping to feed opportunistically when food
is encountered, which is known to occur annually in an area north of
Barrow (Citta et al. 2014). The extent of feeding by bowhead whales
during fall migration varies greatly from year to year based on the
location and abundance of prey (Shelden and Mocklin 2013). For these
reasons, NMFS believes a daily 100% turnover period for bowhead whales
is unnecessarily conservative and has selected a daily turnover rate of
50% to account for both feeding (where animals stay relatively within
an area) and migration (where animals are moving across an area) in
both fall and winter.
For beluga whales, two stocks are potentially present in the SAE 3D
seismic survey areas: the East Chukchi Sea and Beaufort Sea stocks.
Since they cannot be visually distinguished in the field, the
proportion of take form each stock in the seismic survey area in
Beaufort Sea cannot be determined (Allen and Angliss 2014). Thus it
would be difficult to assess the turnover rate of beluga whales because
each different stock has its own migratory pattern and time. Therefore,
NMFS used the most conservative measure of assuming complete turnover
of the animals every 24 hours, making a daily turnover rate of 100% for
a more conservative take calculation.
For ringed seals, satellite tagging data from tagging studies
fromthe State of Alaska Department of Fish and Game's Marine Mammals
Program, the Ice Seal Committee, and interested seal hunters from
villages along the west and north coasts of Alaska were used to derive
a turnover rate for this species. Data from

[[Page 40030]]

these tagged animals showed that in addition to a long distance
seasonal migration, there are many instances from July through
September when individual ringed seals stayed in a relatively small
area (compared to their migration route) up to multiple weeks,
including on and around the offshore continental shelf leased blocks.
In addition, Patterson et al. (2014) indicate a turnover period of a
week or more for individual seals in the vicinity of the seismic survey
in the Alaskan Arctic may be more appropriate, based on the 6-24 day
area occupancy. These results suggest that assuming a 100% turnover of
all individual seals around SAE's seismic survey box on a daily basis
is unreasonable, and a period closer to a week may be more appropriate
and yet still conservative for other individuals that remained in the
area for longer periods. Therefore, for the purpose of this IHA, NMFS
used a slightly higher turnover rate than the weekly rate, i.e., a 48-
hour (or 50%) turnover rate, to be more conservative.
Few data are available on the home range and movement patterns of
the other two ice seals, the bearded seal and spotted seals. Therefore,
we used the most conservative daily turnover rate for take estimates of
these species.
4. Use of Different Size of Airgun Arrays
As discussed in the Federal Register notice (80 FR 20084; April 14,
2015) for the proposed IHA and early in this document, two types of
airgun arrays will be used during SAE's 3D seismic survey in the
Beaufort Sea: 620 in\3\ and 1,240 in\3\ airgun arrays. Upon inquiry
from NMFS regarding the frequency of different airgun arrays being
used, SAE expects that approximately 80% of the survey would be done
using the 620 in\3\ array, with the remaining by the 1,240 in\3\ array.
Therefore, the take number estimates reflect the combination of takes
from each of these two airgun arrays in a 4:1 ration for the 620 in\3\
vs. 1,240 in\3\ arrays.
Based on the above described take estimate calculation by
multiplying ensonified area by animal density by survey days in
specific marine mammal habitat and season, adjusted by turnover rates
and different airgun usage, the estimated number of bowhead and beluga
whales, and ringed, spotted, and bearded seals can be calculated. A
summary of the calculation is provided in Table 4 below.

Table 4--Summary of Calculation of Marine Mammal Exposed to Received Levels Higher Than 160 dB re 1 [micro]Pa for SAE's Proposed 3D Seismic Survey
--------------------------------------------------------------------------------------------------------------------------------------------------------
Summer Fall All seasons
-------------------------------------------------------------------------------------------------------------
Species (habitat) Total
ZOI Days Density Summer ZOI Days Density Fall Turn- Airgun adjusted
(km\2\) (km-1) exposure (km\2\) (km-1) exposure over usage exposure
--------------------------------------------------------------------------------------------------------------------------------------------------------
Airgun array volume: 620 in\3\
--------------------------------------------------------------------------------------------------------------------------------------------------------
Bowhead whale............................. 113 ........ ........ 344 113 ........ ........ 332.2 50 80 271
(0.0-1.5m)............................ 21.47 28 0 0 21.47 21 0 0 ........ ........ ........
(1.5-5.0m)............................ 18.08 28 0 0 18.08 21 0 0 ........ ........ ........
(5.0-15.0m)........................... 40.68 28 0.1674 190.6 40.68 21 0 0 ........ ........ ........
(15.0m).................... 32.77 28 0.1674 153.6 32.77 21 0.4828 332.2 ........ ........ ........
Beluga whale.............................. 113 28 0.0020 6.3 113 21 0.0057 13.5 100 80 16
Ringed seal............................... 113 28 0.3547 1122.3 113 21 0.2510 595.6 20 80 687
Spotted seal.............................. 113 28 0.0177 56 113 21 0.0125 29.7 100 80 69
Bearded seal.............................. 113 28 0.0177 56 113 21 0.0125 29.7 100 80 69
--------------------------------------------------------------------------------------------------------------------------------------------------------
Airgun array volume: 1,240 in\3\
--------------------------------------------------------------------------------------------------------------------------------------------------------
Bowhead whale............................. 303 ........ ........ 923 303 ........ ........ 891 50 20 181
(0.0-1.5m)............................ 57.57 28 0 0 57.57 21 0 0 ........ ........ ........
(1.5-5.0m)............................ 48.48 28 0 0 48.48 21 0 0 ........ ........ ........
(5.0-15.0m)........................... 109.1 28 0.1674 511.2 109.1 21 0 0 ........ ........ ........
(15.0m).................... 87.87 28 0.1674 411.8 87.87 21 0.4828 890.8 ........ ........ ........
Beluga whale.............................. 303 28 0.0020 17 303 21 030057 36.3 100 20 11
Ringed seal............................... 303 28 0.3547 3009.3 303 21 0.2510 1597.1 20 20 461
Spotted seal.............................. 303 28 0.0177 150.2 303 21 0.0125 79.5 100 20 46
Bearded seal.............................. 303 28 0.0177 150.2 303 21 0.0125 79.5 100 20 46
--------------------------------------------------------------------------------------------------------------------------------------------------------

The potential takes of spotted seals are adjusted based on
observations during SAE's 2014 seismic operations immediately east of
the Colville River Delta (Lomac-MacNair et al., 2014). The 90-day
report (Lomac-MacNair et al., 2014) reported only 5 confirmed sightings
of ringed seals, none of which were observed during active seismic
activity. But a total of 40 spotted seals (4 during seismic surveys)
and an additional 28 seals (could be either ringed or spotted seals,
with 4 during seismic surveys) were observed. Given only 88 km\2\ were
shot in 2014, this would extrapolate to about 353 spotted seals
observed during the planned 777 km2 of operations planned in 2015. If
80% of the ringed/spotted seal sightings were actually spotted seals,
then an additional 200 spotted seals would be observed during the
seismic survey. Given the nearshore location of the planned seismic
activities and proximity to Colville River Delta spotted seal haulout
sites, and likelihood that a number of seals that were exposed to
seismic noise exceeding 160 dB were not observed, NMFS corrected the
spotted seal takes to 500.
No density data for gray whale is available in the SAE's proposed
survey area, because gray whale occurrence in the Beaufort Sea is not
frequent, especially in nearshore water where SAE's survey area is.
Based on sighting data, only a few gray where have been documented in
the nearshore Beaufort Sea (Green and Negri, 2005, Green et al., 2007).
Therefore, it is estimated up to 2 gray whales could be taken by Level
B harassment as a result of SAE's 3D seismic survey during the 2015
open-water season in the Beaufort Sea.
A summary of estimated number of marine mammal potentially exposed
to received sound levels greater than 160 dB re 1 [micro]Pa is provided
in Table 6.

Level A Exposure Calculations

As discussed earlier in this section, NMFS considers that exposures
to pinnipeds at noise levels above 190 dB and cetaceans at noise levels
above 180

[[Page 40031]]

dB constitute Level A takes under the MMPA. Although brief exposure of
marine mammals at these levels are not likely to cause TTS or PTS
(Southall et al. 2007), this consideration is a precaution NMFS takes
for its effect analysis.
The methods used in estimate Level A exposure is the same for Level
B estimates, i.e., multiplying the total amount of area available to
the species that could be seasonally ensonified by noise levels
exceeding 190 and 180 dB by density of each species by the number of
survey days in each season, then corrected by the animals turnover
rates and different airgun array usage. The results of potential Level
A exposure are shown in Table 5, assuming that animals will not avoid
being exposed to received levels that could cause hearing threshold
shifts or even injury, which is highly unlikely, and that no mitigation
and monitoring measures would be implemented to avoid Level A takes.

Table 5--Summary of Calculation of Cetaceans Exposed to Received Levels Higher Than 180 Db and Pinnipeds Exposure to Received Levels Higher Than 190 dB
re 1 [micro]Pa, With No Consideration of Animals Avoiding Level A Exclusion Zone and No Monitoring and Mitigation Measures Are In Place To Avoid Such
Exposures
--------------------------------------------------------------------------------------------------------------------------------------------------------
Summer Fall All seasons
-------------------------------------------------------------------------------------------------------------
Species (habitat) Airgun Total
ZOI Days Density Summer ZOI Days Density Fall Turn- usage adjusted
(km\2\) (km-1) exposure (km\2\) (km-1) exposure over (%) (%) exposure
--------------------------------------------------------------------------------------------------------------------------------------------------------
Airgun array volume: 620 in\3\
--------------------------------------------------------------------------------------------------------------------------------------------------------
Bowhead whale............................. 67.8 ........ ........ 206 67.8 ........ ........ 199 50% 80% 162
(0.0--1.5m)........................... 12.88 28 0 0 12.88 21 0 0 ........ ........ ........
(1.5--5.0m)........................... 10.85 28 0 0 10.85 21 0 0 ........ ........ ........
(5.0--15.0m).......................... 24.41 28 0.1674 114.4 24.41 21 0 0 ........ ........ ........
(15.0m).................... 19.66 28 0.1674 92.2 19.66 21 0.4828 199.4 ........ ........ ........
Beluga whale.............................. 67.8 28 0.0020 3.8 67.8 21 0.0057 8.1 100 80 10
Ringed seal............................... 54.2 28 0.3547 538 54.2 21 0.2510 285.5 20 80 329
Spotted seal.............................. 54.2 28 0.0177 26.8 54.2 21 0.0125 14.2 100 80 33
Bearded seal.............................. 54.2 28 0.0177 26.8 54.2 21 0.0125 14.2 100 80 33
--------------------------------------------------------------------------------------------------------------------------------------------------------
Airgun array volume: 1,240 in\3\
--------------------------------------------------------------------------------------------------------------------------------------------------------
Bowhead whale............................. 78 ........ ........ 237 78 ........ ........ 229 50% 20% 47
(0.0--1.5m)........................... 14.77 28 0 0 14.77 21 0 0 ........ ........ ........
(1.5--5.0m)........................... 12.44 28 0 0 12.44 21 0 0 ........ ........ ........
(5.0--15.0m).......................... 27.99 28 0.1674 131.1 27.99 21 0 0 ........ ........ ........
(15.0m).................... 22.54 28 0.1674 105.6 22.54 21 0.4828 228.6 ........ ........ ........
Beluga whale.............................. 77.74 28 0.0020 4.4 77.74 21 030057 9.3 100 20 3
Ringed seal............................... 55.84 28 0.3547 554.6 55.84 21 0.2510 294.3 20 20 85
Spotted seal.............................. 55.84 28 0.0177 27.7 55.84 21 0.0125 14.7 100 20 8
Bearded seal.............................. 55.84 28 0.0177 27.7 55.84 21 0.0125 14.7 100 20 8
--------------------------------------------------------------------------------------------------------------------------------------------------------

It is important to note that the numbers presented in Table 5 are
not the Level A take numbers. These numbers represent an unlikely
scenario of exposure incidences if an animal did not avoid the intense
noise field that could cause hearing impairment or injury and no
monitoring or mitigation measures were implemented to avoid such
consequences. Literature (e.g., Richardson et al. 1995, 1999; Southall
et al. 2007) shows that marine mammals often avoid areas with intense
noises, especially bowhead whales, even when the received noise levels
are way below the levels that could elicit Level B harassment. Although
this avoidance of an area by the marine mammals does not preclude the
animals being taken by Level B harassment, it lessens the likelihood
that they will be exposed above 180 dB for cetaceans and 190 dB for
pinnipeds and incur hearing impairment or injury.
Most importantly, monitoring and mitigation measures prescribed in
the IHA require SAE to shut down or power down airgun arrays when a
marine mammal is detected approaching, therefore, potential Level A
harassment can be further avoided. Especially for non-deep diving large
cetaceans such as bowhead whales (and to some extent beluga whales),
vessel-based visual monitoring is effective to detect the whales before
they enter the exclusion zone, as shown in previous 90-day reports from
SAE and other open-water seismic survey activities. Nevertheless, in
the unlikely case if a marine mammal is not detected by the PSO and did
not avoid the 180 or 190 dB established for cetaceans and pinnipeds,
respectively, a Level A take could occur. To derive more realistic
Level A take estimates and in discussion with the Commission, NMFS
consulted with the ESA biologists at NMFS Alaska Region. In addition,
NMFS reviewed the monitoring results from SAE's 90-day report of its
2014 3D seismic survey in the same area with similar airgun arrays and
vessel types, and also reviewed monitoring results from other
monitoring reports in nearby waters in Beaufort Sea using similar sizes
of airgun arrays (e.g., BP's 2012 Simpson Lagoon 3D seismic survey and
BP's 2014 North Prudhoe Bay 3D seismic survey). Based on the review of
these monitoring plans (including consideration of missed detections),
the likely effectiveness of the mitigation and the likely avoidance of
high levels of sound, NMFS modified the authorized Level A take as
follows: 1 bowhead whale, 4 beluga whale, 20 ringed seals, 20 spotted
seals, and 10 bearded seals.
A summary of authorized Level A and Level B harassments for SAE's
3D seismic surveys in the Colville Delta of the Beaufort Sea is
provided in Table 6.

[[Page 40032]]

Table 6--The Authorized Level A and Level B Harassments of Marine Mammals for SAE's 2015 Open-Water 3D Seismic
Survey in the Beaufort Sea
----------------------------------------------------------------------------------------------------------------
Authorized Authorized
Species Stock Level B Level A % of take by
abundance harassment harassment stock
----------------------------------------------------------------------------------------------------------------
Bowhead whale................................... 19,534 452 1 2.31
Beluga whale (Beaufort Sea stock)............... 39,258 27 4 0.07
Beluga whale (E. Chukchi Sea stock)............. 3,710 27 4 0.73
Gray whale...................................... 19,126 2 0 0.01
Ringed seal..................................... 300,000 1,148 20 0.39
Spotted seal.................................... 141,479 500 20 0.35
Bearded seal.................................... 155,000 115 10 0.07
----------------------------------------------------------------------------------------------------------------

The estimated Level A and Level B takes as a percentage of the
marine mammal stock are 2.31% or less in all cases (Table 6). The
highest percent of population estimated to be taken is 0.005% for Level
A and 2.31% for Level B harassments for bowhead whale. For beluga
whales, since there are two stocks in the proposed action, the
percentage of the takes represent the worst case scenario when all
takes occur in Beaufort Sea stock (0.07%) or East Chukchi Sea stock
(0.73%). However, most likely the percentage of takes for each stock
would not be this worst case scenario.

Analysis and Determinations

Negligible Impact

Negligible impact is ``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 Level B harassment 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 behavioral harassment,
NMFS must consider other factors, such as the likely nature of any
responses (their intensity, duration, etc.), the context of any
responses (critical reproductive time or location, migration, etc.), as
well as the number and nature of estimated Level A harassment takes,
the number of estimated mortalities, effects on habitat, and the status
of the species.
To avoid repetition, this introductory discussion of our analyses
applies to all the species listed in Table 6, given that the
anticipated effects of SAE's 3D seismic survey project on marine
mammals are expected to be relatively 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, they are described independently in the
analysis below.
No serious injuries or mortalities are anticipated to occur as a
result of SAE's proposed 3D seismic survey, and none are proposed to be
authorized. The takes that are anticipated and authorized are expected
to be limited to short-term Level B behavioral harassment, and Level A
harassment in the form of permanent hearing threshold shifts. While the
airguns are expected to be operated for approximately 49 days within a
70-day period, the project timeframe will occur when cetacean species
are typically not found in the project area or are found only in low
numbers. While pinnipeds are likely to be found in the proposed project
area more frequently, their distribution is dispersed enough that they
likely will not be in the Level A or Level B harassment zone
continuously. As mentioned previously in this document, pinnipeds
appear to be more tolerant of anthropogenic sound than mysticetes.

Bowhead Whales

The bowhead whale is listed as endangered species under the ESA and
depleted under the MMPA. However, despite these designations, the
Bering-Chukchi-Beaufort stock of bowheads has been increasing at a rate
of 3.4% annually for nearly a decade (Allen and Angliss, 2011), even in
the face of ongoing industrial activity. Additionally, during the 2001
census, 121 calves were counted, which was the highest yet recorded.
The calf count provides corroborating evidence for a healthy and
increasing population (Allen and Angliss, 2011).
Most of the bowhead whales encountered will likely show overt
disturbance (avoidance) only if they receive airgun sounds with levels
>= 160 dB re 1 [mu]Pa. In addition, elevated background noise level
from the seismic airgun reverberant field could cause acoustic masking
to bowhead whales and reduce their communication space. However, even
though the decay of the signal is extended, the fact that pulses are
separated by approximately 8 to 10 seconds for each individual source
vessel (or 4 to 5 seconds when taking into account the two separate
source vessels stationed 300 to 335 m apart) means that overall
received levels at distance are expected to be much lower, thus
resulting in less acoustic masking.
Bowhead whales are less likely to occur in the proposed project
area in July and early August, as they are found mostly in the Canadian
Beaufort Sea at this time. The animals are more likely to occur later
in the season (late-August through October), as they head west towards
Chukchi Sea.
It is estimated that a maximum of 452 bowhead whales (2.31%) could
be taken by Level B harassment. Potential impacts to bowhead whales
from SAE's 3D seismic surveys would be limited to brief behavioral
disturbances and temporary avoidance of the ensonified areas.
In their westward migration route, bowhead whales have been
observed to feed in the vicinity of the survey area in the Beaufort
Sea. Most of the feedings are observed in the September to October
period as more bowhead whales are moving through the migratory corridor
in the Beaufort Sea. Therefore, the areas in offshore Beaufort Sea are
considered as biologically important areas for bowhead whales in
September and October (Clarke et al. 2015). However, their habitat is
in relatively deeper water > 15 m, which accounts for only 29% of SAE's
proposed seismic survey area.
The proposed activity also partially overlaps with BIAs where
bowhead whale mother/calf pairs are sighted in the summer and fall and
BIAs of bowhead whale fall migration (Clarke et al., 2015). However, as
discussed

[[Page 40033]]

previously, the majority of the survey areas (71%) are in shallow
waters < 15 m, and are not considered bowhead habitat in the fall. In
the summer, bowhead whale habitat extends to much shallower area of < 5
m, which counts for about 65% of the proposed 3D seismic survey areas.
Due to the relatively small airgun arrays to be used in the SAE's
3D seismic survey, noise exposure to bowhead whales is expected to be
low and would in almost all cases cause Level B harassment in the form
of mild and temporary behavioral modification and/or avoidance.
Moreover, the majority of the ensonified areas (67%) would fall between
160 and 166 dB re 1 [micro]Pa for impulse noise, which at the low-end
of the range for Level B behavioral harassment by noise exposure.
It is estimated that up to 1 bowhead whale could be exposed to
received noise levels above 180 dB re 1 [mu]Pa (rms) for durations long
enough to cause PTS, if the animal does not avoid the area for some
reason and is not detected in time to have mitigation measures
implemented. Marine mammals that are taken by TTS (which is a form of
Level B harassment) are expected to receive minor (in the order of
several dBs) and brief (minutes to hours) temporary hearing impairment
because (1) animals are not likely to remain for prolonged periods
within high intensity sound fields, and (2) both the seismic vessel and
the animals are constantly moving, and it is unlikely that the animal
will be moving along with the vessel during the survey. Although
repeated experience to TTS (Level B harassment) could result in PTS
(Level A harassment), for the same reasons discussed above, even if
marine mammals experience PTS, the degree of PTS is expected to be
mild, resulting in a few dB elevation of hearing threshold, and are not
expected to be biologically significant for the population or species.

Beluga Whale

Odontocete reactions to seismic airgun pulses are generally assumed
to be limited to shorter distances from the airgun than are those of
mysticetes (e.g., bowhead whales), in part because odontocete low-
frequency hearing is assumed to be less sensitive than that of
mysticetes. However, at least when in the Canadian Beaufort Sea in
summer, belugas appear to be fairly responsive to seismic energy, with
few being sighted within 6-12 mi (10-20 km) of seismic vessels during
aerial surveys (Miller et al. 2005). Belugas will likely occur in small
numbers in the Beaufort Sea during the survey period and few will
likely be affected by the survey activity.
Beluga whales are less likely to occur in the proposed project area
in July and early August, as they are found mostly in the Canadian
Beaufort Sea at this time. The animals are more likely to occur later
in the season (late-August through October), as they head west towards
Chukchi Sea. However, most beluga whales are expected to occur in much
deeper water offshore in the Beaufort Sea during its migration. The
beluga whale fall migration BIAs are approximately 75 km offshore from
the SAE's proposed seismic survey area (Clarke et al., 2015). No other
beluga whale BIAs overlap with SAE's proposed survey area.
It is estimated that a maximum of 27 beluga whales (0.07% from the
Beaufort Sea stock if all animals taken are from the Beaufort Sea
stock, or 0.73% from the East Chukchi Sea stock if all animals taken
are from the East Chukchi Sea stock) could be taken by Level B
harassment. Potential impacts to beluga whales from SAE's 3D seismic
survey activity include brief behavioral disturbances and temporary
avoidance of the ensonified areas.
It is estimated that up to 4 beluga whales could be exposed to
received noise levels above 180 dB re 1 [mu]Pa (rms) for durations long
enough to cause PTS, if the animals do not avoid are area for some
reason and are not detected in time to have mitigation measures
implemented. Marine mammals that are taken by TTS (which is a form of
Level B harassment) are expected to receive minor (in the order of
several dBs) and brief (minutes to hours) temporary hearing impairment
because (1) animals are not likely to remain for prolonged periods
within high intensity sound fields, and (2) both the seismic vessel and
the animals are constantly moving, and it is unlikely that the animal
will be moving along with the vessel during the survey. Although
repeated experience to TTS (Level B harassment) could result in PTS
(Level A harassment), for the same reasons discussed above, even if
marine mammals experience PTS, the degree of PTS is expected to be
mild, resulting in a few dB elevation of hearing threshold, and are not
expected to be biologically significant for the population or species.

Gray Whales

Gray whales are not commonly encountered in the Beaufort Sea coast,
though occasional sightings have occurred in the past. It is estimated
that a maximum of 2 gray whales (0.01%) could be taken by Level B
harassment. Potential impacts to gray whales from SAE's 3D seismic
survey will be limited to brief behavioral disturbances and temporary
avoidance of the ensonified areas. No Level A takes of gray whale is
expected, and none is authorized.
No BIA for gray whales overlaps with SAE's 3D seismic survey in the
Beaufort Sea (the gray whale reproduction and feeding BIAs during the
summer and fall are in the Chukchi Sea (Clarke et al. 2015)).

Pinnipeds

Ringed, spotted, and bearded are regularly encountered in the
proposed SAE's seismic survey area, with the first two species being
most common. Ringed seals were recently listed under the ESA as
threatened species, and are considered depleted under the MMPA. On July
25, 2014, the U.S. District Court for the District of Alaska vacated
NMFS' rule listing the Beringia bearded seal DPS as threatened and
remanded the rule to NMFS to correct the deficiencies identified in the
opinion.
As stated in the Federal Register notice (80 FR 20084; April 14,
2015) for the proposed IHA, they appear to be more tolerant of
anthropogenic sound, especially at lower received levels, than other
marine mammals, such as mysticetes. SAE's proposed activities would
occur at a time of year when these seal species found in the region are
not molting, breeding, or pupping. Therefore, these important life
functions would not be impacted by SAE's proposed activities. The
exposure of pinnipeds to sounds produced by SAE's proposed 3D seismic
survey operations in the Beaufort Sea is not expected to result in more
than Level B harassment of individuals from pinnipeds in most cases,
with a few by Level A harassment in the form of TTS (Level B
harassment) and PTS (Level A harassment).
It is estimated that maxima of 459 ringed seals (0.15%), 500
spotted seals (0.35%), and 115 bearded seals (0.07%) could be taken by
Level B harassment. Level B behavioral harassment to these species from
SAE's 3D seismic survey activity include brief behavioral disturbances
and temporary avoidance of the ensonified areas.
In addition, it is estimated that up to 20 ringed and spotted seals
and 10 bearded seals could be exposed to received noise levels above
190 dB re 1 [mu]Pa (rms) for durations long enough to cause TTS, if the
animals do not avoid are area for some reason and are not detected in
time to have mitigation measures implemented (or even PTS if such
exposures occurred repeatedly). Marine mammals that are taken by TTS
are expected to receive minor (in the order of several dBs) and brief
(minutes

[[Page 40034]]

to hours) temporary hearing impairment because (1) animals are not
likely to remain for prolonged periods within high intensity sound
fields, and (2) both the seismic vessel and the animals are constantly
moving, and it is unlikely that the animal will be moving along with
the vessel during the survey. Although repeated experience to TTS could
result in PTS (Level A harassment), for the same reasons discussed
above, even if marine mammals experience PTS, the degree of PTS is
expected to be mild, resulting in a few dB elevation of hearing
threshold. Therefore, even if a few marine mammals receive TTS or PTS,
the degree of these effects are expected to be minor and, in the case
of TTS, brief, and are not expected to be biologically significant for
the population or species.
No biologically important area exists for seals in the vicinity of
SAE's 3D seismic survey activities.
Taking into account the mitigation measures that are planned,
effects on marine mammals are generally expected to be restricted to
avoidance of a limited area around SAE's proposed open-water activities
and short-term changes in behavior, falling within the MMPA definition
of ``Level B harassments.'' The many reported cases of apparent
tolerance by marine mammals to seismic exploration, vessel traffic, and
some other human activities show that co-existence is possible.
Mitigation measures, such as controlled vessel speed, dedicated marine
mammal observers, non-pursuit, ramp up procedures, and shut downs or
power downs when marine mammals are seen within defined ranges, will
further reduce short-term reactions and minimize any effects on hearing
sensitivity. In all cases, the effects are expected to be short-term,
with no lasting biological consequence.
Potential impacts to marine mammal habitat were discussed
previously in the Federal Register notice (80 FR 20084; April 14, 2015)
for the proposed IHA (see the ``Anticipated Effects on Habitat''
section of that document). Although some disturbance of food sources of
marine mammals is possible, any impacts are anticipated to be minor
enough as to not affect rates of recruitment or survival of marine
mammals in the area. The marine survey activities would occur in a
localized area, and given the vast area of the Arctic Ocean where
feeding by marine mammals occurs, any missed feeding opportunities in
the direct project area could be offset by feeding opportunities in
other available feeding areas.
In addition, no critical habitat of ESA-listed marine mammal
species occurs in the Beaufort Sea.
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 proposed monitoring and
mitigation measures, NMFS finds that the total marine mammal take from
SAE's proposed 3D seismic survey in the Beaufort Sea, Alaska, will have
a negligible impact on the affected marine mammal species or stocks.

Small Numbers

The requested takes proposed to be authorized represent less than
2.31% for all populations or stocks potentially impacted (see Table 6
in this document). These take estimates represent the maximum
percentage of each species or stock that could be taken by Level B
behavioral harassment and Level A harassment if each animal is taken
only once, and each take represents a different individual animal.
However, it is likely that many, if not most, individual animals could
be taken multiple times due to their short term movement patter and
home range. Therefore, the percentages of takes of marine mammals among
their populations are likely to be much lower. The numbers of marine
mammals estimated to be taken are small proportions of the total
populations of the affected species or stocks. In addition, the
mitigation and monitoring measures (described previously in this
document) prescribed in the IHA are expected to reduce even further any
potential disturbance and injuries to marine mammals.
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 mitigation and monitoring
measures, NMFS finds that small numbers of marine mammals will be taken
relative to the populations of the affected species or stocks.

Impact on Availability of Affected Species or Stock for Taking for
Subsistence Uses

Relevant Subsistence Uses

The proposed seismic activities will occur within the marine
subsistence area used by the village of Nuiqsut. Nuiqsut was
established in 1973 at a traditional location on the Colville River
providing equal access to upland (e.g., caribou, Dall sheep) and marine
(e.g., whales, seals, and eiders) resources (Brown 1979). Although
Nuiqsut is located 40 km (25 mi) inland, bowhead whales are still a
major fall subsistence resource. Although bowhead whales have been
harvested in the past all along the barrier islands, Cross Island is
the site currently used as the fall whaling base, as it includes cabins
and equipment for butchering whales. However, whalers must travel about
160 km (100 mi) to annually reach the Cross Island whaling camp, which
is located in a direct line over 110 km (70 mi) from Nuiqsut. Whaling
activity usually begins in late August with the arrival whales
migrating from the Canadian Beaufort Sea, and may occur as late as
early October, depending on ice conditions and quota fulfillment. Most
whaling occurs relatively near (<16 km or <10 mi) the island, largely
to prevent meat spoilage that can occur with a longer tow back to Cross
Island. Since 1993, Cross Island hunters have harvested one to four
whales annually, averaging three.
Cross Island is located 70 km (44 mi) east of the eastern boundary
of the seismic survey box. (Point Barrow is over 180 km [110 mi]
outside the potential survey box.) Seismic activities are unlikely to
affect Barrow or Cross Island based whaling, especially if the seismic
operations temporarily cease during the fall bowhead whale hunt.
Although Nuiqsut whalers may incidentally harvest beluga whales
while hunting bowheads, these whales are rarely seen and are not
actively pursued. Any harvest that would occur would most likely be in
association with Cross Island.
The potential seismic survey area is also used by Nuiqsut villagers
for hunting seals. All three seal species that are likely to be taken--
ringed, spotted, and bearded--are hunted. Sealing begins in April and
May when villagers hunt seals at breathing holes in Harrison Bay. In
early June, hunting is concentrated at the mouth of the Colville River,
where ice breakup flooding results in the ice thinning and seals
becoming more visible.
Once the ice is clear of the Delta (late June), hunters will hunt
in open boats along the ice edge from Harrison Bay to Thetis Island in
a route called ``round the world.'' Thetis Island is important as it
provides a weather refuge and a base for hunting bearded seals. During
July and August, ringed and spotted seals are hunted in the lower 65 km
(40 mi) of the Colville River proper.
In terms of pounds, approximately one-third of the village of
Nuiqsut's annual subsistence harvest is marine mammals (fish and
caribou dominate the rest), of which bowhead whales

[[Page 40035]]

contribute by far the most (Fuller and George 1999). Seals contribute
only 2 to 3% of annual subsistence harvest (Brower and Opie 1997,
Brower and Hepa 1998, Fuller and George 1999). Fuller and George (1999)
estimated that 46 seals were harvested in 1992. The more common ringed
seals appear to dominate the harvest, although the larger and thicker-
skinned bearded seals are probably preferred. Spotted seals occur in
the Colville River Delta in small numbers, which is reflected in the
harvest.
Available harvest records suggest that most seal harvest occurs in
the months preceding the proposed August start of the seismic survey,
when waning ice conditions provide the best opportunity to approach and
kill hauled out seals. Much of the late summer seal harvest occurs in
the Colville River as the seals follow fish runs upstream. Still, open-
water seal hunting could occur coincident with the seismic surveys,
especially bearded seal hunts based from Thetis Island. In general,
however, given the relatively low contribution of seals to the Nuiqsut
subsistence, and the greater opportunity to hunt seals earlier in the
season, any potential impact by the seismic survey on seal hunting is
likely remote.

Potential Impacts to Subsistence Uses

NMFS has defined ``unmitigable adverse impact'' in 50 CFR 216.103
as: ``an impact resulting from the specified activity: (1) That is
likely to reduce the availability of the species to a level
insufficient for a harvest to meet subsistence needs by: (i) Causing
the marine mammals to abandon or avoid hunting areas; (ii) Directly
displacing subsistence users; or (iii) Placing physical barriers
between the marine mammals and the subsistence hunters; and (2) That
cannot be sufficiently mitigated by other measures to increase the
availability of marine mammals to allow subsistence needs to be met.
Noise and general activity during SAE's proposed 3D OBN seismic
survey have the potential to impact marine mammals hunted by Native
Alaskans. In the case of cetaceans, the most common reaction to
anthropogenic sounds (as noted previously) is avoidance of the
ensonified area. In the case of bowhead whales, this often means that
the animals divert from their normal migratory path by several
kilometers. Additionally, general vessel presence in the vicinity of
traditional hunting areas could negatively impact a hunt. Native
knowledge indicates that bowhead whales become increasingly
``skittish'' in the presence of seismic noise. Whales are more wary
around the hunters and tend to expose a much smaller portion of their
back when surfacing, which makes harvesting more difficult.
Additionally, natives report that bowheads exhibit angry behaviors,
such as tail-slapping, in the presence of seismic activity, which
translate to danger for nearby subsistence harvesters.
Responses of seals to seismic airguns are expected to be
negligible. Bain and Williams (2006) studied the responses of harbor
seals, California sea lions, and Steller sea lions to seismic airguns
and found that seals at exposure levels above 170 dB re 1 [mu]Pa (peak-
peak) often showed avoidance behavior, including generally staying at
the surface and keeping their heads out of the water, but that the
responses were not overt, and there were no detectable responses at low
exposure levels.

Plan of Cooperation or Measures To Minimize Impacts to Subsistence
Hunts

Regulations at 50 CFR 216.104(a)(12) require IHA applicants for
activities that take place in Arctic waters to provide a Plan of
Cooperation (POC) or information that identifies what measures have
been taken and/or will be taken to minimize adverse effects on the
availability of marine mammals for subsistence purposes.
SAE has prepared a POC, which was developed by identifying and
evaluating any potential effects the proposed seismic survey might have
on seasonal abundance that is relied upon for subsistence use. For the
proposed project, SAE worked closely with the North Slope Borough (NSB)
and its partner Kuukpik Corporation, to identify subsistence
communities and activities that may take place within or near the
project area.
As a joint venture partner with Kuukpik, SAE is working closely
with them and the communities on the North Slope to plan operations
that will include measures that are environmentally suitable and that
do not impact local subsistence use. In addition, SAE signed a Conflict
Avoidance Agreement (CAA) with the AEWC and other subsistence whaling
communities.
SAE adopted a three-stage process to develop its POC:
Stage 1: To open communications SAE attended and presented the
program description to the Alaska Eskimo Whaling Commission (AEWC)
during their mini-convention in December, 2014, in Anchorage.
Collaboration meetings were held in March and April 2015 with Kuukpik
Corporation leaders. Kuukpik Corporation is SAE's joint venture
partners in the project and on the North Slope of Alaska.
Prior to offshore activities, SAE met and consulted with nearby
communities, the North Slope Borough (NSB) planning department and the
Fish and Wildlife division. SAE has also presented its project during a
community meeting in the village of Nuiqsut, to discuss the planned
activities. The discussions included SAE's project description, the
POC, resolution of potential conflicts, and proposed operational
window. These meetings helped to identify any subsistence conflicts.
The following meetings were conducted:

Nuiqsut: November, 2014 (Job Fair)
Nuiqsut: January, 2015 (Project Presentation)
AEWC: December, 2014 (2015 planned projects)
Barrow (NSB): March, 2015 (Pre Application Meeting)
Barrow: March, 2015 (Planning Commission Meeting)
AEWC: February, 2015 (Project Presentation)

In addition, SAE scheduled the following meeting in the near
future:

Nuqsut: July, 2015 (update Meeting)
KSOP: July 2015 (Presentation)

Stage 2: SAE incorporated meaningful requests to mitigate concerns
into operations, including signing a CAA and providing weekly updates
to the Kuukpikmiut Subsistence Oversight Panel (KSOP). SAE plans to
have a review of permit stipulations and a permit matrix developed for
the crews. The means of communications and contacts list have been
developed and implemented into operations. Communications will be
handled within the CAA and directly with Nuiqsut Whalers. The use of
scientific and Inupiat PSOs/Communicators on board the vessels will
ensure that appropriate precautions are taken to avoid harassment of
marine mammals, including whales, seals, walruses or polar bears. SAE
will coordinate the timing and location of operations with the Com-
Centers in Deadhorse and Kaktovik to minimize impact to the subsistence
activities or the Nuiqsut/Kaktovik Bowhead Whale Hunt.
Stage 3: If a conflict does occur with project activities and
subsistence hunting, the SAs will immediately contact the project
manager and the Com Center. If avoidance is not possible, the project
manager will initiate communication with a representative from the
impacted subsistence hunter group(s) to resolve the issue and to plan
an alternative course of action (which may include

[[Page 40036]]

ceasing operations during the whale hunt).
In addition, the following mitigation measures will be imposed in
order to effect the least practicable adverse impact on the
availability of marine mammal species for subsistence uses:
(i) Establishment and operations of Communication and Call Centers
(Com-Center) Program
For the purposes of reducing or eliminating conflicts
between subsistence whaling activities and SAE's survey program, SAE
will participate with other operators in the Com-Center Program. Com-
Centers will be operated to facilitate communication of information
between SAE and subsistence whalers. The Com-Centers will be operated
24 hours/day during the 2015 fall subsistence bowhead whale hunt.
All vessels shall report to the appropriate Com-Center at
least once every six hours, commencing each day with a call at
approximately 06:00 hours.
The appropriate Com-Center shall be notified if there is
any significant change in plans, such as an unannounced start-up of
operations or significant deviations from announced course, and that
Com-Center shall notify all whalers of such changes. The appropriate
Com-Center also shall be called regarding any unsafe or unanticipated
ice conditions.
(ii) SAE shall monitor the positions of all of its vessels and
exercise due care in avoiding any areas where subsistence activity is
active.
(iii) Routing barge and transit vessels:
Vessels transiting in the Beaufort Sea east of Bullen
Point to the Canadian border shall remain at least 5 miles offshore
during transit along the coast, provided ice and sea conditions allow.
During transit in the Chukchi Sea, vessels shall remain as far offshore
as weather and ice conditions allow, and at all times at least 5 miles
offshore.
From August 31 to October 31, vessels in the Chukchi Sea
or Beaufort Sea shall remain at least 20 miles offshore of the coast of
Alaska from Icy Cape in the Chukchi Sea to Pitt Point on the east side
of Smith Bay in the Beaufort Sea, unless ice conditions or an emergency
that threatens the safety of the vessel or crew prevents compliance
with this requirement. This condition shall not apply to vessels
actively engaged in transit to or from a coastal community to conduct
crew changes or logistical support operations.
Vessels shall be operated at speeds necessary to ensure no
physical contact with whales occurs, and to make any other potential
conflicts with bowheads or whalers unlikely. Vessel speeds shall be
less than 10 knots in the proximity of feeding whales or whale
aggregations.
If any vessel inadvertently approaches within 1.6
kilometers (1 mile) of observed bowhead whales, except when providing
emergency assistance to whalers or in other emergency situations, the
vessel operator will take reasonable precautions to avoid potential
interaction with the bowhead whales by taking one or more of the
following actions, as appropriate:
[cir] Reducing vessel speed to less than 5 knots within 900 feet of
the whale(s);
[cir] Steering around the whale(s) if possible;
[cir] Operating the vessel(s) in such a way as to avoid separating
members of a group of whales from other members of the group;
[cir] Operating the vessel(s) to avoid causing a whale to make
multiple changes in direction; and
[cir] Checking the waters immediately adjacent to the vessel(s) to
ensure that no whales will be injured when the propellers are engaged.
(iv) Limitation on seismic surveys in the Beaufort Sea
Kaktovik: No seismic survey from the Canadian Border to
the Canning River from around August 25 to close of the fall bowhead
whale hunt in Kaktovik and Nuiqsut, based on the actual hunt dates.
From around August 10 to August 25, based on the actual hunt dates, SAE
will communicate and collaborate with the Alaska Eskimo Whaling
Commission (AEWC) on any planned vessel movement in and around Kaktovik
and Cross Island to avoid impacts to whale hunting.
Nuiqsut:
[cir]Pt. Storkerson to Thetis Island: No seismic survey prior to
July 25 inside the Barrier Islands. No seismic survey from around
August 25 to close of fall bowhead whale hunting outside the Barrier
Island in Nuiqsut, based on the actual hunt dates.
[cir] Canning River to Pt. Storkerson: No seismic survey from
around August 25 to the close of bowhead whale subsistence hunting in
Nuiqsut, based on the actual hunt dates.
Barrow: No seismic survey from Pitt Point on the east side
of Smith Bay to a location about half way between Barrow and Peard Bay
from September 15 to the close of the fall bowhead whale hunt in
Barrow.
(v) SAE shall complete operations in time to allow such vessels to
complete transit through the Bering Strait to a point south of 59
degrees North latitude no later than November 15, 2015. Any vessel that
encounters weather or ice that will prevent compliance with this date
shall coordinate its transit through the Bering Strait to a point south
of 59 degrees North latitude with the appropriate Com-Centers. SAE
vessels shall, weather and ice permitting, transit east of St. Lawrence
Island and no closer than 10 miles from the shore of St. Lawrence
Island.

Unmitigable Adverse Impact Analysis and Preliminary Determination

SAE has adopted a spatial and temporal strategy for its 3D OBN
seismic survey that should minimize impacts to subsistence hunters and
ensure the sufficient availability of species for hunters to meet
subsistence needs. SAE will temporarily cease seismic activities during
the fall bowhead whale hunt, which will allow the hunt to occur without
any adverse impact from SAE's activities. Although some seal hunting
co-occurs temporally with SAE's proposed seismic survey, the locations
do not overlap, so SAE's activities will not impact the hunting areas
and will not directly displace sealers or place physical barriers
between the sealers and the seals. In addition, SAE is conducting the
seismic surveys in a joint partnership agreement with Kuukpik
Corporation, which allows SAE to work closely with the native
communities on the North Slope to plan operations that include measures
that are environmentally suitable and that do not impact local
subsistence use, and to adjust the operations, if necessary, to
minimize any potential impacts that might arise. Based on the
description of the specified activity, the measures described to
minimize adverse effects on the availability of marine mammals for
subsistence purposes, and the proposed mitigation and monitoring
measures, NMFS has determined that there will not be an unmitigable
adverse impact on subsistence uses from SAE's proposed activities.

Endangered Species Act (ESA)

Within the project area, the bowhead whale is listed as endangered
and the ringed seal is listed as threatened under the ESA. NMFS'
Permits and Conservation Division initiated consultation with staff in
NMFS' Alaska Region Protected Resources Division under section 7 of the
ESA on the issuance of an IHA to SAE under section 101(a)(5)(D) of the
MMPA for this activity. In June 2015, NMFS issued a Biological Opinion,
and concluded that the issuance of the IHA associated with SAE's 2015
3D seismic survey in the Beaufort Sea is not likely to jeopardize the
continued existence of the endangered bowhead, humpback and

[[Page 40037]]

the threatened Arctic sub-species of ringed seal. No critical habitat
has been designated for these species, therefore none will be affected.

National Environmental Policy Act (NEPA)

NMFS prepared an EA that includes an analysis of potential
environmental effects associated with NMFS' issuance of an IHA to SAE
to take marine mammals incidental to conducting a 3D seismic survey in
the Beaufort Sea, Alaska. NMFS has finalized the EA and prepared a
Finding of No Significant Impact for this action. Therefore,
preparation of an Environmental Impact Statement is not necessary.
NMFS' draft EA was available to the public for a 30-day comment period
before it was finalized.

Authorization

As a result of these determinations, NMFS has issued an IHA to SAE
for the take of marine mammals, by Level B and Level A harassments,
incidental to conducting a 3D OBN seismic survey in the Beaufort Sea
during the 2015 open-water season, provided the previously mentioned
mitigation, monitoring, and reporting requirements are incorporated.

Dated: July 6, 2015.
Perry Gayaldo,
Deputy Director, Office of Protected Resources, National Marine
Fisheries Service.
[FR Doc. 2015-16966 Filed 7-10-15; 8:45 am]
BILLING CODE 3510-22-P

40016 Federal Register / Vol. 80, No. 133 / Monday, July 13, 2015 / Notices

population estimates for the marine described in the 2013 EA. NMFS has in this document, NMFS’
mammal species that may be taken by reviewed CEQ’s regulations and has Environmental Assessment (EA) and
Level B harassment were provided in determined that it is not necessary to Finding of No Significant Impact
Table 2 of this document. supplement the 2013 EA because the (FONSI), and the IHA may be obtained
NMFS has determined, provided that effects of this IHA fall within the scope by writing to the address specified
the aforementioned mitigation and of those documents and do not require above, telephoning the contact listed
monitoring measures are implemented, further supplementation. Based on the below (see FOR FURTHER INFORMATION
that the impact of the construction public comments received in response CONTACT), or visiting the Internet at:
activities at the Children’s Pool to the publication in the Federal http://www.nmfs.noaa.gov/pr/permits/
Lifeguard Station in La Jolla, CA, June Register notice and proposed IHA, incidental.htm#applications.
2015 to June 2016, may result, at worst, NMFS has reaffirmed its FONSI. Documents cited in this notice may be
in a temporary modification in behavior viewed, by appointment, during regular
and/or low-level physiological effects Authorization
business hours, at the aforementioned
(Level B harassment) of small numbers NMFS has issued an IHA to the City address.
of certain species of marine mammals. of San Diego for construction activities
Based on the analysis contained herein at the Children’s Pool Lifeguard Station FOR FURTHER INFORMATION CONTACT:
of the likely effects of the specified at La Jolla, CA, incorporating the Shane Guan, Office of Protected
activity on marine mammals and their previously mentioned mitigation, Resources, NMFS, (301) 427–8401.
habitat, and taking into consideration monitoring, and reporting requirements. SUPPLEMENTARY INFORMATION:
the implementation of the mitigation Dated: June 30, 2015.
and monitoring measures, NMFS finds Background
Perry F. Gayaldo,
that small numbers of marine mammals Sections 101(a)(5)(A) and (D) of the
will be taken relative to the populations Deputy Director, Office of Protected
Resources, National Marine Fisheries Service. MMPA (16 U.S.C. 1361 et seq.) direct
of the affected species or stocks. See the Secretary of Commerce to allow,
Table 2 for the authorized take numbers [FR Doc. 2015–16965 Filed 7–10–15; 8:45 am]
upon request, the incidental, but not
of marine mammals. BILLING CODE 3510–22–P
intentional, taking of small numbers of
Endangered Species Act marine mammals by U.S. citizens who
DEPARTMENT OF COMMERCE engage in a specified activity (other than
NMFS (Permits and Conservation
commercial fishing) within a specified
Division) has determined that an ESA
National Oceanic and Atmospheric geographical region if certain findings
section 7 consultation for the issuance
Administration are made and either regulations are
of an IHA under section 101(a)(5)(D) of
issued or, if the taking is limited to
the MMPA for this activity is not RIN 0648–XD782
harassment, a notice of a proposed
necessary for any ESA-listed marine
mammal species under its jurisdiction, Takes of Marine Mammals Incidental to authorization is provided to the public
as the planned action will not affect Specified Activities; Taking Marine for review.
ESA-listed species. Mammals Incidental to Marine Seismic An authorization for incidental
Survey in the Beaufort Sea, Alaska takings shall be granted if NMFS finds
National Environmental Policy Act that the taking will have a negligible
To meet NMFS’s National AGENCY: National Marine Fisheries impact on the species or stock(s), will
Environmental Policy Act (NEPA; 42 Service (NMFS), National Oceanic and not have an unmitigable adverse impact
U.S.C. 4321 et seq.) requirements for the Atmospheric Administration (NOAA), on the availability of the species or
issuance of an IHA to the City of San Commerce. stock(s) for subsistence uses (where
Diego, NMFS prepared an ACTION: Notice; issuance of an incidental relevant), and if the permissible
Environmental Assessment (EA) in 2013 take authorization. methods of taking and requirements
for a similar activity titled pertaining to the mitigation, monitoring
Environmental Assessment on the SUMMARY: In accordance with the and reporting of such takings are set
Issuance of an Incidental Harassment Marine Mammal Protection Act forth. NMFS has defined ‘‘negligible
Authorization to the City of San Diego (MMPA) regulations, notification is impact’’ in 50 CFR 216.103 as ‘‘an
to Take Marine Mammals by hereby given that NMFS has issued an impact resulting from the specified
Harassment Incidental to Demolition Incidental Harassment Authorization activity that cannot be reasonably
and Construction Activities at the (IHA) to SAExploration, Inc. (SAE) to expected to, and is not reasonably likely
Children’s Pool Lifeguard Station in La take, by harassment, small numbers of to, adversely affect the species or stock
Jolla, California to comply with the marine mammals incidental to a marine through effects on annual rates of
Council of Environmental Quality (CEQ) 3-dimensional (3D) ocean bottom node recruitment or survival.’’
regulations and NOAA Administrative (OBN) seismic survey program in the Except with respect to certain
Order (NAO) 216–6. NMFS prepared Beaufort Sea, Alaska, during the 2015 activities not pertinent here, the MMPA
and signed a Finding of No Significant Arctic open-water season. defines ‘‘harassment’’ as: Any act of
Impact (FONSI) determining that DATES: Effective July 1, 2015, through pursuit, torment, or annoyance which (i)
preparation of an Environmental Impact October 15, 2015. has the potential to injure a marine
Statement was not required. The FONSI ADDRESSES: Inquiry for information on mammal or marine mammal stock in the
asabaliauskas on DSK5VPTVN1PROD with NOTICES

was signed on June 28, 2013 prior to the the incidental take authorization should wild [Level A harassment]; or (ii) has
issuance of the IHA for the City of San be addressed to Jolie Harrison, Chief, the potential to disturb a marine
Diego’s construction activities from June Permits and Conservation Division, mammal or marine mammal stock in the
2013 to June 2014. The currently Office of Protected Resources, National wild by causing disruption of behavioral
planned construction activities that will Marine Fisheries Service, 1315 East patterns, including, but not limited to,
be covered by the IHA from June 2015 West Highway, Silver Spring, MD migration, breathing, nursing, breeding,
to June 2016 are similar to the 20910. A copy of the application feeding, or sheltering [Level B
demolition and construction activities containing a list of the references used harassment].

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Federal Register / Vol. 80, No. 133 / Monday, July 13, 2015 / Notices 40017

Summary of Request specific areas that would be surveyed by Response: Despite that in most cases
On December 2, 2014, NMFS received SAE, or specific times of year for the monitoring reports from 3D seismic
an application from SAE for the taking survey, was not available as part of the surveys showed that take numbers,
of marine mammals incidental to a 3D proposed incidental harassment based on observation with adjustment to
ocean bottom node (OBN) seismic authorization. The Commission count for animals missed, are usually
survey program in the Beaufort Sea. recommends that, prior to issuing the under or closely reflect the take
After receiving NMFS comments, SAE IHA, NMFS require SAE to determine estimates using a simple method of
made revisions and updated its IHA what areas it will survey and when, in multiplying the total ensonified area by
application on December 5, 2014, order to ensure that the proposed survey animal density, NMFS recognizes that
January 21, 2015, January 29, 2015, and area and associated numbers of takes are such method has its limitation of not
again on February 16, 2015. In addition, consistent with what NMFS plans to considering animal movement into the
NMFS received the marine mammal authorize and, if they are not, amend the area on different days. The
mitigation and monitoring plan (4MP) numbers of takes accordingly. Commission’s recommended method of
from SAE on December 2, 2014, with an Response: Although a specific survey area times density times the number of
updated version on January 29, 2015. area for SAE’s proposed 3D OBN survey days provides an appropriate
NMFS determined that the application seismic survey has not been determined, estimated of the instances of take, but
and the 4MP were adequate and and probably will be remain often overestimates the number of
complete on February 17, 2015. confidential until the beginning of the individuals taken, because in many
SAE proposes to conduct 3D OBN survey, the potential area is known and circumstances individual animals
seismic surveys in the state and federal all scenarios of the proposed survey would be repeatedly taken. Except in
waters of the U.S. Beaufort Sea during have been considered and evaluated for rare cases when animals are migrating
the 2015 Arctic open-water season. The impact assessment. As described in the through the ensonified area, the
proposed activity would occur between Federal Register notice (80 FR 20084; ‘‘instances’’ of take generated by this
July 1 and October 15, 2015. The actual April 14, 2015) for the proposed IHA, method are higher than the individuals
seismic survey is expected to take the worst-case scenario related to taken, given that in many cases marine
approximately 70 days, dependent on location (with the highest animal mammals are using local habitat for
weather. The following specific aspects density) is taken into consideration for multiple days and will be taken
of the proposed activities are likely to the analysis of the marine mammal multiple times—and therefore,
result in the take of marine mammals: impacts. additional work may be needed to
Seismic airgun operations and Comment 2: The Commission points identify the likely numbers individuals
associated navigation sonar and vessel out that the total survey area for the taken to compare to the population size.
movements. Takes, by Level A and/or project, 777 km2, appears low since it NMFS is exploring new methodologies
Level B Harassments, of individuals of equates to roughly four times the size of to calculate take estimates by
six species of marine mammals are each recording patch (192 km2). The accounting for daily ensonified area,
anticipated to result from the specified Commission further notes that SAE has days of the project, as well as the
activity. indicated that each patch would take averaged rates of animal moving in/out
SAE also conducted OBN seismic about four days to shoot, which means of the survey area, prior monitoring
surveys in the Beaufort Sea in the 2014 that if the proposed total survey are of report data, and other applicable
Arctic open-water season (79 FR 51963; 777 km2 is indeed accurate, SAE would information, if available. In the case of
September 2, 2014). be able to shoot that area within 16 days SAE’s 3D OBN seismic survey, NMFS
Detailed descriptions of SAE’s 3D instead of 49 days. recalculated take numbers using daily
OBN seismic survey program are Response: The Commission has ensonified area multiplied by project
provided in the Federal Register notice days multiplied by animal density and
confused shot patch size (192 km2) and
for the proposed IHA (80 FR 20084; then adjusted the turnover rates based
recording patch size (19.4 km2). The
April 14, 2015). No change has been on species movement patterns and
shot patches greatly overlap with one
made in the action described in the home ranges. A detailed description of
another, while the recorder patches do
Federal Register notice. Please refer to the take estimates and the methodology
not. Considering the tremendous
that document for detailed information are provided in section ‘‘Estimated Take
overlap in shot area between adjacent
about the activities involved in the by Incidental Harassment’’ below.
patches, no more than 777 km2 will be
seismic survey program.
shot under this authorization, although Comment 4: The Commission notes
Comments and Responses many areas will be shot more than once. that NMFS is proposing to authorize the
A notice of NMFS’ proposal to issue It actually would take much longer than incidental taking of marine mammals by
an IHA to SAE was published in the 49 days if SAE wanted to completely Level A harassment under section
Federal Register on April 14, 2015 (80 survey the entire777 km2. 101(a)(5)(D) of the MMPA, instead of
FR 20084). That notice described in Comment 3: The Commission states through regulations under section
detail SAE’s activity, the marine that it is concerned that the method 101(a)(5)(A) of the MMPA. The
mammal species that may be affected by used by SAE and NMFS to estimate Commission states that authorizing
the activity, and the anticipated effects numbers of takes is based on the total Level A harassment under section
on marine mammals and the availability ensonified area rather than the area 101(a)(5)(D) of the MMPA would be
expected to be ensonified on a daily inconsistent with the intent of the
asabaliauskas on DSK5VPTVN1PROD with NOTICES

of marine mammals for subsistence
uses. During the 30-day public comment basis, as is standard for a moving sound MMPA. The Commission recommends
period, NMFS received only one source. The Commission recommends that NMFS (1) develop criteria for
comment letter from the Marine that NMFS use the method of area times determining when taking by Level A
Mammal Commission (Commission). density times the number of survey days harassment should be authorized (i.e.,
All comments are addressed in this to estimate the total number of Level A types of sound sources, project
section of the Federal Register notice. and B harassment takes for each of the locations, species, effectiveness of
Comment 1: The Commission points marine mammal species expected to be mitigation measures) and (2) authorize
out that information regarding the in the project area. any such takes through regulation under

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40018 Federal Register / Vol. 80, No. 133 / Monday, July 13, 2015 / Notices

101(a)(5)(A) of the MMPA and a letter recommends that NMFS verify that any surveys will assist SAE in monitoring
of authorization rather than through an adjustments to the size of the Level A pinnipeds use of haul-out sites before,
incidental harassment authorization. and/or B harassment zones, based on in- during, and after SAE’s planned seismic
The Commission further states that it situ measurements, are accurate before survey.
would welcome an opportunity to such adjustments are made. Comment 8: The Commission
discuss the development of such criteria Response: SAE is required to conduct recommends that NMFS incorporate the
with NMFS. in-situ sound source measurements for peer-review panel’s recommendations
Response: NMFS does not agree with the 1,240-in3 airgun array before the into the final authorization and, if
the Commission’s statement that Level commencement of its 3D seismic necessary, consult with personnel
A harassment cannot be authorized surveys. The Commission did not directly associated with implementing
under section 101(a)(5)(D) of the specify a method for how the in-situ passive acoustic monitoring to ensure
MMPA. The legal requirements and measurements should be verified. that the monitoring objectives are able
underlying analysis for the issuance of Nevertheless, NMFS will evaluate the to be met.
a take authorization (i.e., an IHA) in this empirically measured exclusion zone Response: NMFS conducted a peer
particular case do not require the and zone of influence based on review process to evaluate SAE’s
issuance of regulations and a letter of comparable measurements of similar monitoring plan in early March 2015 in
authorization. In order to issue an airguns in similar environment before Anchorage, AK. The peer review panel
authorization pursuant to section agreeing that SAE should adopt the submitted its report to NMFS in early
101(a)(5)(D) of the MMPA, NMFS must measured zones for monitoring and April and provided recommendations to
determine that the taking by harassment mitigation measures. SAE. NMFS worked with SAE
(Level A and Level B) of small numbers Comment 6: The Commission extensively on these recommendations.
of marine mammal species or stocks recommends that NMFS require that As a result, NMFS requires and SAE
will have a negligible impact on affected SAE refrain from initiating or cease agrees to implement the following
species or stocks, and will not have an seismic activities if an aggregation of recommendations from the peer-review
unmitigable adverse impact on the bowhead or gray whales (i.e., 12 or more panel: (1) Conducting sound source
availability of affected species or stocks whales of any age/sex class that appear verification (SSV) if SAE plans to use
for taking for subsistence uses. Potential to be engaged in a non-migratory, the 1,240 in3 airgun array for seismic
impact on marine mammals incidental significant biological behavior (e.g., survey; (2) including an additional
to SAE’s 3D seismic survey would be feeding, socializing)) is observed within mitigation vessel for marine mammal
limited to harassments only. Therefore, the Level B harassment Zone. monitoring if SAE plans to use the 1,240
the issuance of an IHA to SAE under Response: NMFS discussed the in3 airgun array; (3) deploying more
section 101(a)(5)(D) of the MMPA meets Commission’s recommendation with acoustic sensors than the 2014 season
the legal requirements stated above. SAE and SAE agrees to refrain from for passive acoustic monitoring; (4)
However, if there were a potential for initiating or to cease seismic activities if testing a new mooring design with
serious injury or mortality, NMFS could an aggregation of bowhead or gray NMFS National Marine Mammal
not issue an IHA. Instead, any whales (i.e., 12 or more whales of any Laboratory for micro Marine
incidental take authorization would age/sex class that appear to be engaged Autonomous Recording System
need to be processed under section in a non-migratory, significant (microMARS) to be deployed in shallow
101(a)(5)(A) of the MMPA. biological behavior (e.g., feeding, water; (5) including sightability curves
As described here and in the Federal socializing)) is observed within the in the 90-day report; and (6) making
Register notice (80 FR 20084; April 14, Level B harassment Zone. monitoring data available for valid
2015) for the proposed IHA, permanent Comment 7: The Commission scientific reasons and request.
hearing threshold shift (PTS) is recommends that NMFS encourage SAE In addition, though not solicited as
considered to be injury (Level A to coordinate with other operators and part of the independent peer review of
Harassment), not serious injury or researchers who may be conducting the monitoring, the peer-review panel
mortality. Therefore, it is appropriate to aerial surveys with the goal that also provided a number of mitigation
issue an incidental take authorization information collected during those measures which, upon discussion with
under 101(a)(5)(D), as we have made the surveys will assist SAE in monitoring SAE, the company agreed to limit the
necessary findings (described elsewhere pinnipeds use of haul-out sites before, mitigation airgun shot interval to 1 shot
in this document) under that section of during, and after SAE’s planned seismic per minute. However, SAE could not
the MMPA. survey. agree to the ramp up of 1 airgun per 5
NMFS agrees with the Commission Response: NMFS discussed the minutes, as opposed to standard
that criteria for determining when Commission’s recommendation with protocol of doubling the number of
taking by Level A harassment should be SAE and encouraged SAE to coordinate airguns every five minutes. SAE states
authorized (i.e., types of sound sources, with other operations and researchers that the recommended ramp up protocol
project locations, species, effectiveness who may be conducting aerial surveys. is cost prohibitive.
of mitigation measures) will enhance SAE responded that they attempted to A detailed description of peer-review
the analysis of marine mammal coordinate with other companies last process, peer-review recommendations,
incidental takes under MMPA, and year for spotted seal monitoring, but and NMFS’ discussion with SAE
appreciates the Commission’s none agreed to cooperate. In addition, at regarding implementation of the
willingness to be involved in such a this point it is unclear whether any
asabaliauskas on DSK5VPTVN1PROD with NOTICES

recommendations is provided in
process. other companies in the Beaufort Sea ‘‘Monitoring Plan Peer Review’’ section
Comment 5: The Commission notes may be conducting pinnipeds haul-out below.
that NMFS has proposed that SAE aerial surveys in the 2015 open-water
conduct in-situ sound source season. Nevertheless, NMFS encourages Description of Marine Mammals in the
measurements for the 1,240-in3 airgun SAE again to seek cooperation with Area of the Specified Activity
array to ensure accurate characterization other companies who may be The Beaufort Sea supports a diverse
of the Level A and B harassment zones conducting aerial surveys with the goal assemblage of marine mammals. Table 1
for that sound source. The Commission that information collected during those lists the 12 marine mammal species

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Federal Register / Vol. 80, No. 133 / Monday, July 13, 2015 / Notices 40019

under NMFS jurisdiction with confirmed or possible occurrence in the
proposed project area.

TABLE 1—MARINE MAMMAL SPECIES WITH CONFIRMED OR POSSIBLE OCCURRENCE IN THE SEISMIC SURVEY AREA
Common name Scientific name Status Occurrence Seasonality Range Abundance

Odontocetes

Beluga whale (Beaufort Delphinapterus leucas .. – ....................... Common ........... Mostly spring Mostly 39,258
Sea stock). and fall with Beaufort
some in sum- Sea.
mer.
Beluga whale (eastern — .................................. – ....................... Common ........... Mostly spring Mostly 3,710
Chukchi Sea stock). and fall with Chukchi
some in sum- Sea.
mer.
Killer whale ** ................. Orcinus orca ................. – ....................... Occasional/ Mostly summer California to 552
Extralimital. and early fall. Alaska.
Harbor porpoise ** ......... Phocoena phocoena ..... – ....................... Occasional/ Mostly summer California to 48,215
Extralimital. and early fall. Alaska.
Narwhal ** ...................... Monodon monoceros .... – ....................... ........................... ........................... ................... 45,358

Mysticetes

Bowhead whale * ........... Balaena mysticetus ....... Endangered; Common ........... Mostly spring Russia to 19,534
Depleted. and fall with Canada.
some in sum-
mer.
Gray whale .................... Eschrichtius robustus .... – ....................... Somewhat com- Mostly summer Mexico to 19,126
mon. the U.S.
Arctic
Ocean.
Minke whale ** ............... Balaenoptera – ....................... ........................... ........................... ................... 810–1,003
acutorostrata.
Humpback whale * ** Megaptera novaeangliae Endangered; ........................... ........................... ................... 21,063
(Central North Pacific Depleted.
stock).

Pinnipeds

Bearded seal (Beringia Erigathus barbatus ........ Candidate ......... Common ........... Spring and sum- Bering, 155,000
distinct population mer. Chukchi,
segment). and
Beaufort
Seas.
Ringed seal * (Arctic Phoca hispida ............... Threatened; De- Common ........... Year round ........ Bering, 300,000
stock). pleted. Chukchi,
and
Beaufort
Seas.
Spotted seal .................. Phoca largha ................. – ....................... Common ........... Summer ............ Japan to 141,479
U.S. Arc-
tic Ocean.
Ribbon seal ** ................ Histriophoca fasciata ..... Species of con- Occasional ........ Summer ............ Russia to 49,000
cern. U.S. Arc-
tic Ocean.
* Species or stocks listed under the Endangered Species Act.
** Species are so rarely sighted in the proposed project area that take is unlikely.

Minke whales are relatively common 2007 during vessel-based surveys in the et al., 2009), when a cow and calf were
in the Bering and southern Chukchi region (Funk et al., 2010). Humpback observed 54 mi east of Point Barrow. No
Seas and have recently also been sighted whales have not generally been found in additional sightings have been
in the northeastern Chukchi Sea (Aerts the Arctic Ocean. However, subsistence documented in the Beaufort Sea.
et al., 2013; Clarke et al., 2013). Minke hunters have spotted humpback whales Narwhal are common in the waters of
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whales are rare in the Beaufort Sea. in low numbers around Barrow, and northern Canada, west Greenland, and
They have not been reported in the there have been several confirmed in the European Arctic, but rarely occur
Beaufort Sea during the Bowhead Whale sightings of humpback whales in the in the Beaufort Sea (COSEWIC, 2004).
Aerial Survey Project/Aerial Surveys of northeastern Chukchi Sea in recent Only a handful of sightings have
Arctic Marine Mammals (BWASP/ years (Aerts et al., 2013; Clarke et al., occurred in Alaskan waters (Allen and
ASAMM) surveys (Clarke et al., 2011, 2013). The first confirmed sighting of a Angliss, 2013). These three species are
2012; 2013; Monnet and Treacy, 2005), humpback whale in the Beaufort Sea not considered further in this proposed
and there was only one observation in was recorded in August 2007 (Hashagen IHA notice. Both the walrus and the

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40022 Federal Register / Vol. 80, No. 133 / Monday, July 13, 2015 / Notices

zone may not be visible, on the important areas, permanent destruction specific adverse effects; and/or the
assumption that marine mammals will of habitat, or temporary destruction/ likely biological or behavioral context of
be alerted by the sounds from the single disturbance of habitat during a exposure to the stressor for the marine
airgun and have moved away. biologically important time. mammal (e.g., age class of exposed
6. For monitoring directly related to animals or known pupping, calving or
Mitigation Conclusions mitigation—an increase in the feeding areas).
NMFS has carefully evaluated SAE’s probability of detecting marine 3. An increase in our understanding
mitigation measures and considered a mammals, thus allowing for more of how individual marine mammals
range of other measures in the context effective implementation of the respond (behaviorally or
of ensuring that NMFS prescribes the mitigation. physiologically) to the specific stressors
means of effecting the least practicable Based on our evaluation of these associated with the action (in specific
impact on the affected marine mammal mitigation measures, NMFS has contexts, where possible, e.g., at what
species and stocks and their habitat. Our determined that the proposed mitigation distance or received level).
evaluation of potential measures measures provide the means of effecting 4. An increase in our understanding
included consideration of the following the least practicable impact on marine of how anticipated individual
factors in relation to one another: mammals species or stocks and their responses, to individual stressors or
• The manner in which, and the habitat, paying particular attention to anticipated combinations of stressors,
degree to which, the successful rookeries, mating grounds, and areas of may impact either: The long-term fitness
implementation of the measures are similar significance. Mitigation and survival of an individual; or the
expected to minimize adverse impacts measures to ensure availability of such population, species, or stock (e.g.,
to marine mammals; species or stock for taking for certain through effects on annual rates of
• The proven or likely efficacy of the subsistence uses are discussed later in recruitment or survival).
specific measure to minimize adverse this document (see ‘‘Impact on 5. An increase in our understanding
impacts as planned; and Availability of Affected Species or Stock of how the activity affects marine
• The practicability of the measure for Taking for Subsistence Uses’’ mammal habitat, such as through effects
for applicant implementation. section). on prey sources or acoustic habitat (e.g.,
Any mitigation measure(s) prescribed through characterization of longer-term
by NMFS should be able to accomplish, Monitoring and Reporting
contributions of multiple sound sources
have a reasonable likelihood of In order to issue an ITA for an to rising ambient noise levels and
accomplishing (based on current activity, section 101(a)(5)(D) of the assessment of the potential chronic
science), or contribute to the MMPA states that NMFS must set forth, effects on marine mammals).
accomplishment of one or more of the ‘‘requirements pertaining to the 6. An increase in understanding of the
general goals listed below: monitoring and reporting of such impacts of the activity on marine
1. Avoidance or minimization of taking.’’ The MMPA implementing mammals in combination with the
injury or death of marine mammals regulations at 50 CFR 216.104(a)(13) impacts of other anthropogenic
wherever possible (goals 2, 3, and 4 may indicate that requests for ITAs must activities or natural factors occurring in
contribute to this goal). include the suggested means of the region.
2. A reduction in the numbers of accomplishing the necessary monitoring 7. An increase in our understanding
marine mammals (total number or and reporting that will result in of the effectiveness of mitigation and
number at biologically important time increased knowledge of the species and monitoring measures.
or location) exposed to received levels of the level of taking or impacts on 8. An increase in the probability of
of seismic airguns, or other activities populations of marine mammals that are detecting marine mammals (through
expected to result in the take of marine expected to be present in the action improved technology or methodology),
mammals (this goal may contribute to 1, area. SAE submitted a marine mammal both specifically within the safety zone
above, or to reducing harassment takes monitoring plan as part of the IHA (thus allowing for more effective
only). application. implementation of the mitigation) and
3. A reduction in the number of times Monitoring measures prescribed by in general, to better achieve the above
(total number or number at biologically NMFS should accomplish one or more goals.
important time or location) individuals of the following general goals:
would be exposed to received levels of 1. An increase in our understanding Monitoring Measures
seismic airguns or other activities of the likely occurrence of marine Monitoring will provide information
expected to result in the take of marine mammal species in the vicinity of the on the numbers of marine mammals
mammals (this goal may contribute to 1, action, i.e., presence, abundance, potentially affected by the exploration
above, or to reducing harassment takes distribution, and/or density of species. operations and facilitate real-time
only). 2. An increase in our understanding mitigation to prevent injury of marine
4. A reduction in the intensity of of the nature, scope, or context of the mammals by industrial sounds or
exposures (either total number or likely exposure of marine mammal activities. These goals will be
number at biologically important time species to any of the potential stressor(s) accomplished in the Beaufort Sea
or location) to received levels of seismic associated with the action (e.g., sound during 2015 by conducting vessel-based
airguns or other activities expected to or visual stimuli), through better monitoring and passive acoustic
result in the take of marine mammals understanding of one or more of the monitoring to document marine
asabaliauskas on DSK5VPTVN1PROD with NOTICES

(this goal may contribute to 1, above, or following: The action itself and its mammal presence and distribution in
to reducing the severity of harassment environment (e.g., sound source the vicinity of the survey area.
takes only). characterization, propagation, and Visual monitoring by PSOs during
5. Avoidance or minimization of ambient noise levels); the affected seismic survey operations, and periods
adverse effects to marine mammal species (e.g., life history or dive when these surveys are not occurring,
habitat, paying special attention to the pattern); the likely co-occurrence of will provide information on the
food base, activities that block or limit marine mammal species with the action numbers of marine mammals potentially
passage to or from biologically (in whole or part) associated with affected by these activities and facilitate

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Federal Register / Vol. 80, No. 133 / Monday, July 13, 2015 / Notices 40023

real-time mitigation to prevent impacts A total of 2 PSOs will be required quality of marine mammal observations
to marine mammals by industrial onboard each survey vessel to meet the and data recording is kept consistent.
sounds or operations. Vessel-based following criteria: Biologist-observers will have previous
PSOs onboard the survey vessels and • 100% monitoring coverage during marine mammal observation experience,
mitigation vessel will record the all periods of survey operations in and field crew leaders will be highly
numbers and species of marine daylight; experienced with previous vessel-based
mammals observed in the area and any • At least two PSOs conducting marine mammal monitoring and
observable reaction of marine mammals vessel-based visual monitoring from mitigation projects. Resumes for those
to the survey activities in the Beaufort both vessels during all time; individuals will be provided to NMFS
Sea. • Maximum of 4 consecutive hours for review and acceptance of their
on watch per PSO; and qualifications. Inupiat observers will be
Besides the monitoring measures that
• Maximum of 12 hours of watch experienced in the region and familiar
were proposed in the Federal Register
time per day per PSO. with the marine mammals of the area.
notice (80 FR 20084; March 14, 2015), PSO teams will consist of Inupiat All observers will complete a NMFS-
NMFS included several additional observers and experienced field approved observer training course
measures based on the Commission and biologists. Each vessel will have an designed to familiarize individuals with
peer-review recommendations. These experienced field crew leader to monitoring and data collection
additional monitoring measures supervise the PSO team. The total procedures.
include: (1) NMFS evaluation of number of PSOs may decrease later in PSOs will complete a 2- or 3-day
empirically measured exclusion zones the season as the duration of daylight training and refresher session on marine
and zone of influence before they are decreases. mammal monitoring, to be conducted
adopted; (2) conducting SSV if SAE shortly before the anticipated start of the
plans to use the 1,240 in3 airgun array (2) PSO Role and Responsibilities 2015 open-water season. Any
for seismic survey; (3) including an When onboard the seismic and exceptions will have or receive
additional mitigation vessel for marine support vessels, there are three major equivalent experience or training. The
mammal monitoring if SAE plans to use parts to the PSO position: training session(s) will be conducted by
the 1,240 in3 airgun array; (4) deploying • Observe and record sensitive qualified marine mammalogists with
more acoustic sensors than the 2014 wildlife species; extensive crew-leader experience during
season for passive acoustic monitoring; • Ensure mitigation procedures are previous vessel-based seismic
and (5) testing a new mooring design followed accordingly; and monitoring programs.
with NMFS National Marine Mammal • Follow monitoring and data
Laboratory for microMARS to be collection procedures. (4) Marine Mammal Observer Protocol
deployed in shallow water. The main roles of the PSO and the Source vessels will employ PSOs to
Details of the monitoring measures are monitoring program are to ensure identify marine mammals during all
described below. compliance with requirements set in hours of airgun operations. To better
place by NMFS to ensure that observe the exclusion zone, a lead PSO,
Visual-Based PSOs disturbance of marine mammals is one or two PSOs, and an Inupiaq
minimized, and potential effects on communicator will be on the primary
The visual-based marine mammal source vessel and two PSOs will be
marine mammals are documented. The
monitoring will be implemented by a stationed aboard the secondary source
PSOs will implement the monitoring
team of experienced PSOs, including vessel. (The total number of observers is
and mitigation measures specified in the
both biologists and Inupiat personnel. limited by available berthing space
IHA. The primary purposes of the PSOs
PSOs will be stationed aboard both aboard the vessels.) The three to four
on board of the vessels are:
survey vessels through the duration of
• Mitigation: Implement mitigation total observers aboard the primary
the project. The vessel-based marine source vessel will allow two observers
clearing and ramp up measures, observe
mammal monitoring will provide the simultaneously on watch during
for and detect marine mammals within,
basis for real-time mitigation measures daylight hours.
or about to enter the applicable safety
as discussed in the Mitigation Measures The PSOs will watch for marine
zone and implement necessary shut
section. In addition, monitoring results mammals during all periods of source
down, power down and speed/course
of the vessel-based monitoring program operations and for a minimum of 30
alteration mitigation procedures when
will include the estimation of the minutes prior to the planned start of
applicable. Advise marine crew of
number of ‘‘takes’’ as stipulated in the airgun or pinger operations after an
mitigation procedures.
IHA. • Monitoring: Observe for marine extended shutdown. Marine mammal
(1) PSOs mammals and determine numbers of monitoring shall continue throughout
marine mammals exposed to sound airgun operations and last for 30
Vessel-based monitoring for marine pulses and their reactions (where minutes after the finish of airgun firing.
mammals will be done by trained PSOs applicable) and document those as SAE vessel crew and operations
throughout the period of survey required. personnel will also watch for marine
activities. The observers will monitor mammals, as practical, to assist and
the occurrence of marine mammals near (3) Observer Qualifications and Training alert the PSOs for the airgun(s) to be
the survey vessel during all daylight Crew leaders and most PSOs will be shut down if marine mammals are
asabaliauskas on DSK5VPTVN1PROD with NOTICES

periods during operation, and during individuals with experience as observed in or about to enter the
most daylight periods when operations observers during recent seismic, site exclusion zone.
are not occurring. PSO duties will clearance and shallow hazards, and The PSOs will watch for marine
include watching for and identifying other monitoring projects in Alaska or mammals from the best available
marine mammals; recording their other offshore areas in recent years. New vantage point on the survey vessels,
numbers, distances, and reactions to the or inexperienced PSOs will be paired typically the bridge. The PSOs will scan
survey operations; and documenting with an experienced PSO or the area around the vessel
‘‘take by harassment.’’ experienced field biologist so that the systematically with reticle binoculars

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40024 Federal Register / Vol. 80, No. 133 / Monday, July 13, 2015 / Notices

(e.g., 7 × 50 and 16–40 × 80) and with Acoustic Monitoring Specialized acoustic review and
the naked eye. Laser range finders (Leica analysis software, Trition will be used
(1) Sound Source Measurements
LRF 1200 laser rangefinder or to create long-term spectral averages
equivalent) will be available to assist Since the same airgun array of 620 in3 (LTSAs) for all acoustic files
with distance estimation. and a single mitigation airgun of 10 in3 downloaded from the recorders.
The observers will give particular to be used were empirically measured in Once LTSAs of all the acoustic data
attention to the areas within the marine the generally same seismic survey have been created and preliminarily
mammal exclusion zones around the vicinity in 2014 (Heath 2014), NMFS reviewed, experienced bioacoustic data
source vessels. These zones are the does not think additional SSV tests for analysts will perform a detailed review
maximum distances within which this array and a single airgun are of the data. Analysts will log the time
received levels may exceed 180 dB (rms) necessary for the 2015 seismic survey. of occurrence of all biological sounds,
re 1 mPa (rms) for cetaceans, or 190 dB However, if SAE decides to use the seismic source events (if audible), and
(rms) re 1 mPa for pinnipeds. 1,240 in3 airgun arrays for deeper water, other relevant acoustic signals (e.g.
SSV on these arrays is required before ships, small boats, and other noise
When a marine mammal is seen the commencement of the surveys.
approaching or within the exclusion events). Combined event log data will
Results of the acoustic characterization then be organized into tables to provide
zone applicable to that species, the and SSV will be used to establish the
seismic survey crew will be notified summaries including (1) the number
190 dB, 180 dB, 170 dB, and 160 dB and type of acoustic events; (2) the
immediately so that mitigation measures isopleths for the 1,240 in3 airgun arrays.
called for in the applicable number of days each event occurred at
The results of the SSV will be each site; and (3) event durations for
authorization(s) can be implemented. submitted to NMFS within five days each deployment and site. Graphs of
Night-vision equipment (Generation 3 after completing the measurements, daily event occurrence will be made for
binocular image intensifiers or followed by a report to be submitted each identified marine mammal species
equivalent units) will be available for within 14 days after completion of the that have sufficient data to plot. Graphs
use if and when needed. Past experience measurements. A more detailed report of the percentage of time for which
with night-vision devices (NVDs) in the will be provided to NMFS as part of the signals from each species were detected
Beaufort Sea and elsewhere has required 90-day report following with respect to total recording time at
indicated that NVDs are not nearly as completion of the acoustic program. each site will be plotted by species.
effective as visual observation during NMFS will evaluate the empirically Noise analysis will be performed on
daylight hours (e.g., Harris et al. 1997, measured exclusion zones and zone of all recorded acoustic data. Sound levels
1998; Moulton and Lawson 2002). influence from the 1,240 in3 before they will be measured for full and octave
(5) Dedicated Monitoring Vessel are formally established for mitigation frequency bands. This analysis will be
and monitoring measures. conducted using automated algorithms
If SAE decides to use the 1,240 in3 (2) Passive Acoustic Monitoring that measure root-mean-square (RMS)
airgun array, an additional dedicated sound pressure level (SPL) each octave
visual monitoring vessel will be SAE will conduct Passive Acoustical
Monitoring (PAM) using microMARS. bands. These results will be averaged
employed to assist marine mammal both hourly and daily to provide a
monitoring due to the larger exclusion These sensors will be deployed on the
seabed and will record continuously at synoptic representation of the ambient
zones and zone of influence from this noise levels present at each location for
larger airgun array. A minimum of 2 64 kHz sample rate and 16-bit samples.
The recorders will be calibrated and each of the different frequency bands
PSOs will be positioned on this measured.
dedicated monitoring vessel. their mooring designs tested prior to
deployment. Monitoring Plan Peer Review
(6) Field Data-Recording
PAM Deployment The MMPA requires that monitoring
The PSOs will record field plans be independently peer reviewed
Passive acoustic monitoring package
observation data and information about ‘‘where the proposed activity may affect
will be deployed at the four corners of
marine mammal sightings that include: the availability of a species or stock for
SAE’s survey site. Each PAM package
• Species, group size, age/size/sex will include two microMARS units taking for subsistence uses’’ (16 U.S.C.
categories (if determinable); coupled with an ARC–1 release device, 1371(a)(5)(D)(ii)(III)). Regarding this
• Physical description of features that a float and a retrievable mooring. requirement, NMFS’ implementing
were observed or determined not to be Deploying two microMARS at each regulations state, ‘‘Upon receipt of a
present in the case of unknown or monitoring location will allow complete monitoring plan, and at its
unidentified animals; redundancy in the system to reduce the discretion, [NMFS] will either submit
• Behavior when first sighted and likelihood of failures and/or data loss. the plan to members of a peer review
after initial sighting, heading (if PAM will be deployed before the panel for review or within 60 days of
consistent); SAE’s proposed 3D seismic survey and receipt of the proposed monitoring plan,
remain at the study site during the schedule a workshop to review the
• Bearing and distance from observer, plan’’ (50 CFR 216.108(d)).
apparent reaction to activities (e.g., entire survey period.
NMFS established an independent
none, avoidance, approach, paralleling, Data Analysis peer review panel to review SAE’s 4MP
asabaliauskas on DSK5VPTVN1PROD with NOTICES

etc.), closest point of approach, and Acoustic data will be analyzed for two for the proposed 3D seismic survey in
behavioral pace; frequency bands, low (below 2 kHz for the Beaufort Sea. The panel met in early
• Time, location, speed, and activity baleen whales and low-frequency noise) March 2015, and provided comments
of the source and mitigation vessels, sea and high (2 kHz–32 kHz for beluga and recommendations to NMFS in April
state, ice cover, visibility, and sun glare; whales and high-frequency noise). This 2015. The full panel report can be
and will allow sounds produced by different viewed on the Internet at: http://
• Positions of other vessel(s) in the species and anthropogenic sources to be www.nmfs.noaa.gov/pr/permits/
vicinity. reviewed and analyzed in greater detail. incidental.htm.

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Federal Register / Vol. 80, No. 133 / Monday, July 13, 2015 / Notices 40025

NMFS provided the panel with SAE’s more locations than what is presented it might be decided that airguns should
IHA application and monitoring plan by SAE at the peer-review meeting (one be shut down for the night;
and asked the panel to answer the sensor at each of the four corners); (3) SAE should not use a mitigation
following questions: (5) microMARS used for PAM should gun for longer than one hour, which is
1. Will the applicant’s stated be deployed well before the seismic the equivalent amount of time for
objectives effectively further the surveys begin in order to collect surveying the safety radii plus ramp up;
understanding of the impacts of their baseline data before all the vessels are and
activities on marine mammals and operative in the area and the airgun (4) Mitigation gun should be shot only
otherwise accomplish the goals stated arrays begin operating; once every minute instead of every few
above? If not, how should the objectives (6) SAE should develop a more seconds.
be modified to better accomplish the compact mooring design for NMFS discussed the peer review
goals above? microMARS that are deployed in panel report and the list of
2. Can the applicant achieve the shallow waters, particularly because of recommendations with SAE. For the
stated objectives based on the methods the compact size of these recorders; aforementioned monitoring measures,
described in the plan? (7) Additional testing to be conducted NMFS requires and SAE agrees to
3. Are there technical modifications to to verify PAM recorders’ performance implement the following:
the proposed monitoring techniques and due to the limited or non-existent field (1) Conducting sound source
methodologies proposed by the experience in long term deployments verification if the 1,240 in3 airgun array
applicant that should be considered to and cold Arctic waters; is used in the proposed 3D seismic
better accomplish their stated (8) Improve the effectiveness of survey;
objectives? monitoring by using Unmanned Aerial (2) Mobilizing a dedicated scout
4. Are there techniques not proposed Systems for monitoring of marine (monitoring) vessel with at least 2 PSOs
by the applicant (i.e., additional mammals in the Beaufort Sea; onboard to monitor the 180 dB
monitoring techniques or (9) Provide information in the reports exclusion zone (910 m) if the SSV test
methodologies) that should be about how the detections obtained by show that the 180 dB radius of the
considered for inclusion in the the microMARS are ground-truthed; exclusion zone from the 1,240 in3
applicant’s monitoring program to better (10) Acoustic characteristics of the airgun array is 910 m or larger;
accomplish their stated objectives? (3) Deploying microMARS used for
identified noise sources be included in
5. What is the best way for an PAM at least three days before the
the reports to provide a better
applicant to present their data and seismic surveys till three days after the
understanding of source levels and the
results (formatting, metrics, graphics, seismic survey in order to collect data
robustness of SSV results, and other
etc.) in the required reports that are to for comparing the sound field before,
acoustic characteristics of the seismic
be submitted to NMFS (i.e., 90-day during, and after the seismic survey;
survey equipment, such as spectral (4) Deploying two microMARS units
report and comprehensive report)?
The peer-review panel report contains content, and received levels in different at each of the four corners (total of 8
recommendations that the panel metrics such as RMS dB, cSEL 24h, dB microMARS units);
members felt were applicable to the peak to peak, and 1/3 octave bands; (5) Developing a more compact
SAE’ monitoring plans. The peer-review (11) Sightability curves be included in mooring design for microMARS that are
panel believed that the objectives for the reports as much as possible; deployed in shallow waters, particularly
both vessel-based and passive acoustic (12) Coordinate and collaborate with because of the compact size of these
monitoring were appropriate. The panel other companies (such as Caelus and recorders;
also agreed that the objectives of real- Repsol) for monitoring the aggregated (6) Conducting tests and calibration to
time mitigation of potential disturbance effects of all their activities on spotted verify PAM recorders’ performance
of marine mammals would be mostly seals, especially animals that may be prior to deployment;
met through visual monitoring. haulted out; and (7) Including sightability curves in the
However, there are some limitations (13) Continue to make all 90-day report;
associated with PSOs’ ability to monitor environmental data (including PSO (8) Making all environmental data
the entire safety radii at all times. observations, acoustic monitoring, (including PSO observations, acoustic
Specific panel recommendations are vessel track lines and timing of monitoring, vessel track lines and
provided below. operations) available to the general timing of operations) available for valid
(1) If SAE decides to use the larger public. scientific research.
airgun array (i.e., the 1,240 in3 array), In addition, though not solicited as In addition, NMFS worked with SAE
SAE should conduct sound source part of the independent peer review of on the following 5 of the panel
verification; the monitoring, the peer review panel recommendations and determined that
(2) SAE should have an additional also recommended the following these will also be required in the IHA
observer on the secondary source vessel mitigation measures: issued to SAE with clarification and
such that at least two observers are on (1) SAE should limit seismic certain modifications to make them
watch during all daylight hours; operations at night or during periods of practicable for implementation. These
(3) If SAE uses the 1,240 in3 airgun low visibility because PSOs’ ability to measures are listed below:
array and the measured safety radii detect marine mammals entering the (1) Regarding the number of PSOs
(exclusion zones) in the Beaufort Sea are safety zone is limited; onboard the secondary source vessel,
asabaliauskas on DSK5VPTVN1PROD with NOTICES

similar to the measurement done in (2) If a bowhead whale mother/calf this is to clarify that SAE plans to have
Cook Inlet (250 m for 190 dB and 910 pair or an aggregation of three or more two PSOs on both source vessels, and
m for 180 dB), SAE should have a bowhead whales are sighted within the they will be working on a shift
dedicated scout (monitoring) vessel Level B harassment zone prior to the described earlier in the ‘‘Monitoring
with at least 2 PSOs to monitor the 180 onset of night or during that day, SAE Measure’’ section of this document.
dB exclusion zone (910 m); could be more cautious during darkness Therefore, at any given time, there will
(4) If the seismic surveys are offshore, based on the potential risk to marine be 2 PSOs monitoring from both source
more acoustic sensors are needed at mammals. If the risk is relatively high, vessels. NMFS notes that the number of

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40026 Federal Register / Vol. 80, No. 133 / Monday, July 13, 2015 / Notices

PSOs is limited by the available berth season. Nevertheless, NMFS encourages continue their work. This can be cost-
on the seismic vessel. The source SAE again to seek cooperation with prohibitive for the company and will
vessels SAE plan to use are small, and other companies who may be also extend the season when the marine
therefore, could only afford maximum conducting aerial surveys with the goal environment is affected.
of 2 PSOs onboard each vessel. that information collected during those (2) Be more cautious during darkness
(2) Regarding ground-truth surveys will assist SAE in monitoring based on the potential risk to marine
information in the reports about pinnipeds use of haul-out sites before, mammals if a bowhead whale mother/
microMARS detection, SAE states that it during, and after SAE’s planned seismic calf pair or an aggregation of three or
should be able to identify bowhead and survey. more bowhead whales are sighted
beluga calls from acoustic recordings. The only recommendation from the within the Level B harassment zone
However, SAE states that it will be peer-review panel SAE is not able to prior to the onset of night or during that
difficult to identify pinniped calls for implement is the utilization of day. If the risk is relatively high, airguns
species identification at distances, Unmanned Aerial Systems (UAS) for should be shut down for the night: The
especially at the locations where the monitoring of marine mammals in the panel did not define what constitutes
microMARS are deployed there will be Beaufort Sea for marine mammal ‘‘the risk is relatively high’’, and
no PSOs on watch to verify the calling monitoring. The major reason for this is without a clear definition, NMFS
animals. Therefore, ground-truth of that using UAS for marine mammal considers that this recommendation
acoustic data to specific species calls monitoring is still not a proven cannot be made into a requirement.
would not be possible. Nevertheless, as technology to provide an effective Additionally, as discussed in (1) above,
stated earlier, SAE will make the monitoring modality. The resolution ceasing seismic activities at night
acoustic data available to researchers from the UAS video camera does not because bowhead whale mother/calf
who are interested in studies that will have high resolution, especially for pair or an aggregation of three or more
shed light on marine mammal call pinniped survey due to the small size of bowhead whales are sighted within the
identification. the animals. In addition, SAE states that Level B harassment zone during the day
(3) Regarding acoustic characteristics the expense of flying a UAS is cost- would be cost-prohibitive, especially
of the identified noise sources, and prohibitive for the company. NMFS consider that the potential risk is not
other acoustic characteristics of the agrees with SAE’s reasoning. Therefore, identified.
seismic survey equipment, such as this recommendation is not included in (3) Mitigation gun not to be operated
spectral content, and received levels in the IHA issued to SAE. for more than one hour: NMFS does not
different metrics such as RMS dB, cSEL With regards to the panel’s mitigation allow extended use of ‘‘mitigation
24h, dB peak to peak, and 1/3 octave recommendations, NMFS agrees with airgun’’ when the seismic survey is not
bands, SAE will work with its the panel that mitigation airgun should ongoing, just so that the applicant can
contractor to characterize the identified be fired at a rate of 1 shot per minute ramp up at night or without the 30-
noise sources as much as possible instead of every few seconds. This minute clearance before ramping up
within the limits of the microMARS. condition is required in the IHA issued airgun arrays. However, NMFS allows a
However, SAE states that some of the to SAE. single airgun (so called ‘‘mitigation
requested data analysis would require Regarding the remaining three gun’’) to be kept on for turning from one
knowing not only the real-time distance mitigation measures provided by the track to the next and for short transiting
of each noise sources, but the aspect peer-review panel, SAE and NMFS purposes. SAE, as well as other seismic
(e.g., forward, endfire) of the array as discussed and decided that it is
surveyors (e.g., BP), state that for 3D
well. SAE states that for cost reasons, important to be consistent with existing
seismic surveys, an approximately 3-
SAE cannot afford extended acoustic mitigation practices for typical 3D
hour time frame is needed to complete
analysis beyond identified source seismic surveys unless new scientific
a turn or short transit, and NMFS has
characterization. Nevertheless, SAE will information is available that warrant a
been requiring the applicants to use the
make the acoustic data available to change. These mitigation measures are
smallest single airgun for a maximum of
researchers who are interested in described in the ‘‘Mitigation’’ section
3 hours for turning and short transiting
additional studies of the noise field above. These three mitigation
purposes (e.g., IHA to SAE’s 3D seismic
from data collected by SAE. In the IHA recommendations from the panel are
survey in 2014 open-water season in
issued to SAE, NMFS requires that SAE addressed and clarified below:
(1) Limiting seismic operations at Beaufort Sea). Further, the panel did not
at least perform basic acoustic
night or during periods of low visibility: provide a justification for its
characteristics of the identified noise
This recommendation is not consistent recommendation of maximum of one-
sources that include spectral content
with existing mitigation practices for a hour use of ‘‘mitigation airgun’’.
and received levels in different metrics
typical marine seismic survey, which Therefore, to be consistent with the
such as RMS dB, cSEL 24h, dB peak to
require no airgun ramping up when the existing mitigation measures, NMFS
peak, and 1/3 octave bands.
(4) Regarding coordinating and entire exclusion zone cannot be cleared again requires that SAE use the
collaborating with other companies due to low visibility. However, if the ‘‘mitigation airgun’’ for turning and
(such as Caelus and Repsol) for entire exclusion zone can be visually short line transiting only, with a
monitoring the aggregated effects of all cleared by PSOs, a ramp up can be maximum operation time of 3 hours.
their activities on spotted seals, commenced and, as long as no Reporting Measures
especially animals that may be haulted shutdown occurs during the course of
asabaliauskas on DSK5VPTVN1PROD with NOTICES

out, SAE responded that they attempted the survey, airgun firing can continue (1) Sound Source Verification Report
to coordinate with other companies last into night or during periods of low As discussed earlier, if SAE plans to
year for spotted seal monitoring, but visibility. By limiting seismic operations use the 1,240 in3 airgun arrays, SSV
none agreed to cooperate. In addition, at at night or during periods of low tests on these arrays will be required. A
this point it is unclear whether any visibility, SAE would not be able to report on the preliminary results of the
other companies in the Beaufort Sea complete its 3D seismic survey during sound source verification
may be conducting pinnipeds haul-out the project period and would have to measurements, including the measured
aerial surveys in the 2015 open-water come back the following year to 190, 180, 170, and 160 dB (rms) radii of

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40028 Federal Register / Vol. 80, No. 133 / Monday, July 13, 2015 / Notices

information identified in the paragraph Estimated Take by Incidental There are no precise estimates for the
above. Activities would be able to Harassment 1,240-in3 array. The estimated distances
continue while NMFS reviews the to the 160 dB isopleth for the 1,240-in3
Except with respect to certain array are based on the sound source
circumstances of the incident. NMFS
activities not pertinent here, the MMPA measurements from Austin and Warner
would work with SAE to determine
defines ‘‘harassment’’ as: any act of (2012) for a 1,200-in3 array in Cook
whether modifications in the activities
pursuit, torment, or annoyance which (i) Inlet. The results showed a measured
are appropriate. has the potential to injure a marine distance of 5.2 km to the 160 dB
In the event that SAE discovers a dead mammal or marine mammal stock in the isopleths (Table 2). Placing a 5.2-km
marine mammal, and the lead PSO wild [Level A harassment]; or (ii) has buffer around the 777 km2 maximum
determines that the death is not the potential to disturb a marine shot area results in an estimated annual
associated with or related to the mammal or marine mammal stock in the ZOI of 1,463 km2 (565 mi2), which is the
activities authorized in the IHA (e.g., wild by causing disruption of behavioral ZOI value used in the exposure estimate
previously wounded animal, carcass patterns, including, but not limited to, calculations.
with moderate to advanced migration, breathing, nursing, breeding,
Because the exact location of the 2015
decomposition, or scavenger damage), feeding, or sheltering [Level B
shoot area is currently unknown, the
SAE would report the incident to the harassment].
distribution of marine mammal habitat
Chief of the Permits and Conservation Takes by Level A and Level B within the shoot area is unknown.
Division, Office of Protected Resources, harassments of some species are However, within the 4,562 km2
NMFS, and the NMFS Alaska Stranding anticipated as a result of SAE’s potential survey box, 19% (860 km2)
Hotline and/or by email to the Alaska proposed 3D seismic survey. NMFS falls within the 0 to 1.5 m water depth
Regional Stranding Coordinators, within expects marine mammal takes could range, 16% (753 km2) falls within the
24 hours of the discovery. SAE would result from noise propagation from 1.5 to 5 m range, 36% (1,635 km2)
provide photographs or video footage (if operation of seismic airguns. NMFS within the 5 to 15 m range, and 29
available) or other documentation of the does not expect marine mammals would percent% (1,348 km2) within waters
stranded animal sighting to NMFS and be taken by collision with seismic and greater than 15 m deep (bowhead
the Marine Mammal Stranding Network. support vessels, because the vessels will migration corridor). Thus, not all the
SAE can continue its operations under be moving at low speeds, and PSOs on area that could be surveyed in 2015
such a case. the survey vessels and the mitigation constitutes bowhead summer (≤5 m
vessel will be monitoring for marine depth) or fall migrating (≤15 m depth)
Monitoring Results From Previously mammals and will be able to alert the
Authorized Activities habitat. Further, few of the lease areas
vessels to avoid any marine mammals in that could be shot in 2015 extend into
SAE was issued an IHA for a 3D OBN the area. the deeper waters of the potential
seismic survey in the same area of the For impulse sounds, such as those survey box. The distribution of these
proposed 2015 seismic survey in the produced by the airguns proposed to be depth ranges is found in Figure 6–1 of
Beaufort Sea during the 2014 Arctic used in SAE’s 3D OBN seismic surveys, SAE’s IHA application.
open-water season. SAE conducted the NMFS uses the 180 and 190 dB (rms) re
1 mPa isopleth to indicate the onset of Marine Mammal Densities
seismic survey between August 25 and
September 30, 2014. The technical Level A harassment for cetaceans and In the Federal Register notice (80 FR
report (90-day report) submitted by SAE pinnipeds, respectively; and the 160 dB 20084; April 14, 2015) for the proposed
indicates that one beluga whale and 2 (rms) re 1 mPa isopleth for Level B IHA, NMFS used the aerial survey data
spotted seals were observed within the harassment of all marine mammals. SAE (Ferguson and Clarke 2013) collected in
180–dB exclusion zones during the provided calculations of the 190-, 180- the Beaufort Sea during the Aerial
survey that prompted immediate , and 160-dB isopleths expected to be Surveys of Arctic Marine Mammals
shutdown. Two additional spotted seals produced by the proposed seismic (ASAMM) program in 2012 and 2013 for
were detected within the zone of surveys and then used those isopleths to bowhead whale density calculation. At
influence when the airgun arrays were estimate takes by harassment. NMFS the time of the proposed IHA stage,
firing. Post-activity analysis based on used those calculations to make the 2014 density data had not been vetted.
necessary MMPA findings. SAE Subsequently, the 2014 aerial survey
total sighting data concluded that up to
provided a full description of the data for bowhead whale became
approximately 5 beluga whales and 264
methodology used to estimate takes by available, and NMFS was advised by the
pinnipeds (likely all spotted seals due to
harassment in its IHA application, National Marine Mammal Laboratory
their large numbers) could be exposed
which is also provided in the following (NMML) and NMFS Alaska Regional
to received levels above 160-dB re 1
sections. Office (AKRO) to use the 2008—2014
mPa. Some of these could be exposed to
levels that may have Level A Acoustic Footprint bowhead and beluga whale survey data
and a g(0) of 0.8696 and f(0) of 0.07 for
harassment which was not authorized
The acoustical footprint that could density estimates. Both g(0) and f(0) are
under the previous IHA. Nevertheless,
cause harassment (Levels A and B) was factors used to correct the potential
take of Level B harassment were under
determined by placing a 160-dB isopleth presence of animals not detected and
the take limits allowed by the IHA
buffer around the area that would be potential missed sighting from the
asabaliauskas on DSK5VPTVN1PROD with NOTICES

issued to SAE. surveyed (shot) during the 2015 open survey. The results showed much higher
Based on the monitoring results from water season (777 km2). SAE stated that density for bowhead whale within the
SAE’s 2014 seismic survey, NMFS is re- for the majority of its proposed 2015 SAE’s proposed 3D seismic survey area.
evaluating the potential effects on seismic survey, a 620 in3 airgun array The revised bowhead whale density,
marine mammals and requested SAE to would be used. However, to make along with densities of other marine
conduct analysis on potential Level A conservative impact analysis, SAE uses mammals that could be affected by
takes (see ‘‘Estimated Take by Incidental the acoustic footprint of a large 1,240 SAE’s 3D seismic survey, are provided
Harassment’’ section below). in3 array for this analysis. in Table 3.

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40030 Federal Register / Vol. 80, No. 133 / Monday, July 13, 2015 / Notices

these tagged animals showed that in that remained in the area for longer from NMFS regarding the frequency of
addition to a long distance seasonal periods. Therefore, for the purpose of different airgun arrays being used, SAE
migration, there are many instances this IHA, NMFS used a slightly higher expects that approximately 80% of the
from July through September when turnover rate than the weekly rate, i.e., survey would be done using the 620 in3
individual ringed seals stayed in a a 48-hour (or 50%) turnover rate, to be array, with the remaining by the 1,240
relatively small area (compared to their more conservative. in3 array. Therefore, the take number
migration route) up to multiple weeks, Few data are available on the home estimates reflect the combination of
including on and around the offshore range and movement patterns of the takes from each of these two airgun
continental shelf leased blocks. In other two ice seals, the bearded seal and arrays in a 4:1 ration for the 620 in3 vs.
addition, Patterson et al. (2014) indicate spotted seals. Therefore, we used the 1,240 in3 arrays.
a turnover period of a week or more for most conservative daily turnover rate for Based on the above described take
individual seals in the vicinity of the take estimates of these species. estimate calculation by multiplying
seismic survey in the Alaskan Arctic ensonified area by animal density by
4. Use of Different Size of Airgun Arrays
may be more appropriate, based on the survey days in specific marine mammal
6–24 day area occupancy. These results As discussed in the Federal Register habitat and season, adjusted by turnover
suggest that assuming a 100% turnover notice (80 FR 20084; April 14, 2015) for rates and different airgun usage, the
of all individual seals around SAE’s the proposed IHA and early in this estimated number of bowhead and
seismic survey box on a daily basis is document, two types of airgun arrays beluga whales, and ringed, spotted, and
unreasonable, and a period closer to a will be used during SAE’s 3D seismic bearded seals can be calculated. A
week may be more appropriate and yet survey in the Beaufort Sea: 620 in3 and summary of the calculation is provided
still conservative for other individuals 1,240 in3 airgun arrays. Upon inquiry in Table 4 below.
TABLE 4—SUMMARY OF CALCULATION OF MARINE MAMMAL EXPOSED TO RECEIVED LEVELS HIGHER THAN 160 dB RE 1
μPa FOR SAE’S PROPOSED 3D SEISMIC SURVEY
Summer Fall All seasons
Total
Species (habitat) Summer
ZOI Density ZOI Density Fall ex- Turn- Airgun adjusted
Days expo- Days
(km2) (km¥1) sure (km2) (km¥1) posure over usage expo-
sure

Airgun array volume: 620 in3

Bowhead whale ........................................... 113 .............. .............. 344 113 .............. .............. 332.2 50 80 271
(0.0–1.5m) ............................................ 21.47 28 0 0 21.47 21 0 0 .............. .............. ..............
(1.5–5.0m) ............................................ 18.08 28 0 0 18.08 21 0 0 .............. .............. ..............
(5.0–15.0m) .......................................... 40.68 28 0.1674 190.6 40.68 21 0 0 .............. .............. ..............
(>15.0m) ............................................... 32.77 28 0.1674 153.6 32.77 21 0.4828 332.2 .............. .............. ..............
Beluga whale ............................................... 113 28 0.0020 6.3 113 21 0.0057 13.5 100 80 16
Ringed seal ................................................. 113 28 0.3547 1122.3 113 21 0.2510 595.6 20 80 687
Spotted seal ................................................ 113 28 0.0177 56 113 21 0.0125 29.7 100 80 69
Bearded seal ............................................... 113 28 0.0177 56 113 21 0.0125 29.7 100 80 69

Airgun array volume: 1,240 in3

Bowhead whale ........................................... 303 .............. .............. 923 303 .............. .............. 891 50 20 181
(0.0–1.5m) ............................................ 57.57 28 0 0 57.57 21 0 0 .............. .............. ..............
(1.5–5.0m) ............................................ 48.48 28 0 0 48.48 21 0 0 .............. .............. ..............
(5.0–15.0m) .......................................... 109.1 28 0.1674 511.2 109.1 21 0 0 .............. .............. ..............
(>15.0m) ............................................... 87.87 28 0.1674 411.8 87.87 21 0.4828 890.8 .............. .............. ..............
Beluga whale ............................................... 303 28 0.0020 17 303 21 030057 36.3 100 20 11
Ringed seal ................................................. 303 28 0.3547 3009.3 303 21 0.2510 1597.1 20 20 461
Spotted seal ................................................ 303 28 0.0177 150.2 303 21 0.0125 79.5 100 20 46
Bearded seal ............................................... 303 28 0.0177 150.2 303 21 0.0125 79.5 100 20 46

The potential takes of spotted seals 80% of the ringed/spotted seal sightings data, only a few gray where have been
are adjusted based on observations were actually spotted seals, then an documented in the nearshore Beaufort
during SAE’s 2014 seismic operations additional 200 spotted seals would be Sea (Green and Negri, 2005, Green et al.,
immediately east of the Colville River observed during the seismic survey. 2007). Therefore, it is estimated up to 2
Delta (Lomac-MacNair et al., 2014). The Given the nearshore location of the gray whales could be taken by Level B
90-day report (Lomac-MacNair et al., planned seismic activities and harassment as a result of SAE’s 3D
2014) reported only 5 confirmed proximity to Colville River Delta spotted seismic survey during the 2015 open-
sightings of ringed seals, none of which seal haulout sites, and likelihood that a water season in the Beaufort Sea.
were observed during active seismic number of seals that were exposed to A summary of estimated number of
activity. But a total of 40 spotted seals seismic noise exceeding 160 dB were marine mammal potentially exposed to
asabaliauskas on DSK5VPTVN1PROD with NOTICES

(4 during seismic surveys) and an not observed, NMFS corrected the received sound levels greater than 160
additional 28 seals (could be either spotted seal takes to 500. dB re 1 mPa is provided in Table 6.
ringed or spotted seals, with 4 during No density data for gray whale is
seismic surveys) were observed. Given available in the SAE’s proposed survey Level A Exposure Calculations
only 88 km2 were shot in 2014, this area, because gray whale occurrence in As discussed earlier in this section,
would extrapolate to about 353 spotted the Beaufort Sea is not frequent, NMFS considers that exposures to
seals observed during the planned 777 especially in nearshore water where pinnipeds at noise levels above 190 dB
km2 of operations planned in 2015. If SAE’s survey area is. Based on sighting and cetaceans at noise levels above 180

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Federal Register / Vol. 80, No. 133 / Monday, July 13, 2015 / Notices 40031

dB constitute Level A takes under the estimates, i.e., multiplying the total exposure are shown in Table 5,
MMPA. Although brief exposure of amount of area available to the species assuming that animals will not avoid
marine mammals at these levels are not that could be seasonally ensonified by being exposed to received levels that
likely to cause TTS or PTS (Southall et noise levels exceeding 190 and 180 dB could cause hearing threshold shifts or
al. 2007), this consideration is a by density of each species by the even injury, which is highly unlikely,
precaution NMFS takes for its effect number of survey days in each season, and that no mitigation and monitoring
analysis. then corrected by the animals turnover measures would be implemented to
The methods used in estimate Level A rates and different airgun array usage. avoid Level A takes.
exposure is the same for Level B The results of potential Level A
TABLE 5—SUMMARY OF CALCULATION OF CETACEANS EXPOSED TO RECEIVED LEVELS HIGHER THAN 180 Db AND
PINNIPEDS EXPOSURE TO RECEIVED LEVELS HIGHER THAN 190 dB RE 1 μPa, WITH NO CONSIDERATION OF ANIMALS
AVOIDING LEVEL A EXCLUSION ZONE AND NO MONITORING AND MITIGATION MEASURES ARE IN PLACE TO AVOID
SUCH EXPOSURES
Summer Fall All seasons

Total
Species (habitat) Summer Airgun
ZOI Density ZOI Density Fall ex- Turn- adjusted
Days expo- Days usage
(km2) (km¥1) (km2) (km¥1) posure over (%) expo-
sure (%) sure

Airgun array volume: 620 in3

Bowhead whale ........................................... 67.8 .............. .............. 206 67.8 .............. .............. 199 50% 80% 162
(0.0—1.5m) .......................................... 12.88 28 0 0 12.88 21 0 0 .............. .............. ..............
(1.5—5.0m) .......................................... 10.85 28 0 0 10.85 21 0 0 .............. .............. ..............
(5.0—15.0m) ........................................ 24.41 28 0.1674 114.4 24.41 21 0 0 .............. .............. ..............
(>15.0m) ............................................... 19.66 28 0.1674 92.2 19.66 21 0.4828 199.4 .............. .............. ..............
Beluga whale ............................................... 67.8 28 0.0020 3.8 67.8 21 0.0057 8.1 100 80 10
Ringed seal ................................................. 54.2 28 0.3547 538 54.2 21 0.2510 285.5 20 80 329
Spotted seal ................................................ 54.2 28 0.0177 26.8 54.2 21 0.0125 14.2 100 80 33
Bearded seal ............................................... 54.2 28 0.0177 26.8 54.2 21 0.0125 14.2 100 80 33

Airgun array volume: 1,240 in3

Bowhead whale ........................................... 78 .............. .............. 237 78 .............. .............. 229 50% 20% 47
(0.0—1.5m) .......................................... 14.77 28 0 0 14.77 21 0 0 .............. .............. ..............
(1.5—5.0m) .......................................... 12.44 28 0 0 12.44 21 0 0 .............. .............. ..............
(5.0—15.0m) ........................................ 27.99 28 0.1674 131.1 27.99 21 0 0 .............. .............. ..............
(>15.0m) ............................................... 22.54 28 0.1674 105.6 22.54 21 0.4828 228.6 .............. .............. ..............
Beluga whale ............................................... 77.74 28 0.0020 4.4 77.74 21 030057 9.3 100 20 3
Ringed seal ................................................. 55.84 28 0.3547 554.6 55.84 21 0.2510 294.3 20 20 85
Spotted seal ................................................ 55.84 28 0.0177 27.7 55.84 21 0.0125 14.7 100 20 8
Bearded seal ............................................... 55.84 28 0.0177 27.7 55.84 21 0.0125 14.7 100 20 8

It is important to note that the Most importantly, monitoring and addition, NMFS reviewed the
numbers presented in Table 5 are not mitigation measures prescribed in the monitoring results from SAE’s 90-day
the Level A take numbers. These IHA require SAE to shut down or power report of its 2014 3D seismic survey in
numbers represent an unlikely scenario down airgun arrays when a marine the same area with similar airgun arrays
of exposure incidences if an animal did mammal is detected approaching, and vessel types, and also reviewed
not avoid the intense noise field that therefore, potential Level A harassment monitoring results from other
could cause hearing impairment or can be further avoided. Especially for monitoring reports in nearby waters in
injury and no monitoring or mitigation non-deep diving large cetaceans such as Beaufort Sea using similar sizes of
measures were implemented to avoid bowhead whales (and to some extent airgun arrays (e.g., BP’s 2012 Simpson
such consequences. Literature (e.g., beluga whales), vessel-based visual Lagoon 3D seismic survey and BP’s
Richardson et al. 1995, 1999; Southall et monitoring is effective to detect the 2014 North Prudhoe Bay 3D seismic
al. 2007) shows that marine mammals whales before they enter the exclusion survey). Based on the review of these
often avoid areas with intense noises, zone, as shown in previous 90-day monitoring plans (including
especially bowhead whales, even when reports from SAE and other open-water consideration of missed detections), the
the received noise levels are way below seismic survey activities. Nevertheless, likely effectiveness of the mitigation and
the levels that could elicit Level B in the unlikely case if a marine mammal the likely avoidance of high levels of
harassment. Although this avoidance of is not detected by the PSO and did not sound, NMFS modified the authorized
an area by the marine mammals does avoid the 180 or 190 dB established for Level A take as follows: 1 bowhead
not preclude the animals being taken by cetaceans and pinnipeds, respectively, a whale, 4 beluga whale, 20 ringed seals,
asabaliauskas on DSK5VPTVN1PROD with NOTICES

Level B harassment, it lessens the Level A take could occur. To derive 20 spotted seals, and 10 bearded seals.
likelihood that they will be exposed more realistic Level A take estimates A summary of authorized Level A and
above 180 dB for cetaceans and 190 dB and in discussion with the Commission, Level B harassments for SAE’s 3D
for pinnipeds and incur hearing NMFS consulted with the ESA seismic surveys in the Colville Delta of
impairment or injury. biologists at NMFS Alaska Region. In the Beaufort Sea is provided in Table 6.

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Federal Register / Vol. 80, No. 133 / Monday, July 13, 2015 / Notices 40033

previously, the majority of the survey during the survey period and few will SAE’s 3D seismic survey will be limited
areas (71%) are in shallow waters < 15 likely be affected by the survey activity. to brief behavioral disturbances and
m, and are not considered bowhead Beluga whales are less likely to occur temporary avoidance of the ensonified
habitat in the fall. In the summer, in the proposed project area in July and areas. No Level A takes of gray whale is
bowhead whale habitat extends to much early August, as they are found mostly expected, and none is authorized.
shallower area of < 5 m, which counts in the Canadian Beaufort Sea at this No BIA for gray whales overlaps with
for about 65% of the proposed 3D time. The animals are more likely to SAE’s 3D seismic survey in the Beaufort
seismic survey areas. occur later in the season (late-August Sea (the gray whale reproduction and
Due to the relatively small airgun through October), as they head west feeding BIAs during the summer and
arrays to be used in the SAE’s 3D towards Chukchi Sea. However, most fall are in the Chukchi Sea (Clarke et al.
seismic survey, noise exposure to beluga whales are expected to occur in 2015)).
bowhead whales is expected to be low much deeper water offshore in the
Pinnipeds
and would in almost all cases cause Beaufort Sea during its migration. The
beluga whale fall migration BIAs are Ringed, spotted, and bearded are
Level B harassment in the form of mild
approximately 75 km offshore from the regularly encountered in the proposed
and temporary behavioral modification
SAE’s proposed seismic survey area SAE’s seismic survey area, with the first
and/or avoidance. Moreover, the
(Clarke et al., 2015). No other beluga two species being most common. Ringed
majority of the ensonified areas (67%)
whale BIAs overlap with SAE’s seals were recently listed under the ESA
would fall between 160 and 166 dB re
proposed survey area. as threatened species, and are
1 mPa for impulse noise, which at the
It is estimated that a maximum of 27 considered depleted under the MMPA.
low-end of the range for Level B
beluga whales (0.07% from the Beaufort On July 25, 2014, the U.S. District Court
behavioral harassment by noise for the District of Alaska vacated NMFS’
Sea stock if all animals taken are from
exposure. rule listing the Beringia bearded seal
the Beaufort Sea stock, or 0.73% from
It is estimated that up to 1 bowhead the East Chukchi Sea stock if all animals DPS as threatened and remanded the
whale could be exposed to received taken are from the East Chukchi Sea rule to NMFS to correct the deficiencies
noise levels above 180 dB re 1 mPa (rms) stock) could be taken by Level B identified in the opinion.
for durations long enough to cause PTS, harassment. Potential impacts to beluga As stated in the Federal Register
if the animal does not avoid the area for whales from SAE’s 3D seismic survey notice (80 FR 20084; April 14, 2015) for
some reason and is not detected in time activity include brief behavioral the proposed IHA, they appear to be
to have mitigation measures disturbances and temporary avoidance more tolerant of anthropogenic sound,
implemented. Marine mammals that are of the ensonified areas. especially at lower received levels, than
taken by TTS (which is a form of Level It is estimated that up to 4 beluga other marine mammals, such as
B harassment) are expected to receive whales could be exposed to received mysticetes. SAE’s proposed activities
minor (in the order of several dBs) and noise levels above 180 dB re 1 mPa (rms) would occur at a time of year when
brief (minutes to hours) temporary for durations long enough to cause PTS, these seal species found in the region
hearing impairment because (1) animals if the animals do not avoid are area for are not molting, breeding, or pupping.
are not likely to remain for prolonged some reason and are not detected in Therefore, these important life functions
periods within high intensity sound time to have mitigation measures would not be impacted by SAE’s
fields, and (2) both the seismic vessel implemented. Marine mammals that are proposed activities. The exposure of
and the animals are constantly moving, taken by TTS (which is a form of Level pinnipeds to sounds produced by SAE’s
and it is unlikely that the animal will be B harassment) are expected to receive proposed 3D seismic survey operations
moving along with the vessel during the minor (in the order of several dBs) and in the Beaufort Sea is not expected to
survey. Although repeated experience to brief (minutes to hours) temporary result in more than Level B harassment
TTS (Level B harassment) could result hearing impairment because (1) animals of individuals from pinnipeds in most
in PTS (Level A harassment), for the are not likely to remain for prolonged cases, with a few by Level A harassment
same reasons discussed above, even if periods within high intensity sound in the form of TTS (Level B harassment)
marine mammals experience PTS, the fields, and (2) both the seismic vessel and PTS (Level A harassment).
degree of PTS is expected to be mild, and the animals are constantly moving, It is estimated that maxima of 459
resulting in a few dB elevation of and it is unlikely that the animal will be ringed seals (0.15%), 500 spotted seals
hearing threshold, and are not expected moving along with the vessel during the (0.35%), and 115 bearded seals (0.07%)
to be biologically significant for the survey. Although repeated experience to could be taken by Level B harassment.
population or species. TTS (Level B harassment) could result Level B behavioral harassment to these
Beluga Whale in PTS (Level A harassment), for the species from SAE’s 3D seismic survey
same reasons discussed above, even if activity include brief behavioral
Odontocete reactions to seismic marine mammals experience PTS, the disturbances and temporary avoidance
airgun pulses are generally assumed to degree of PTS is expected to be mild, of the ensonified areas.
be limited to shorter distances from the resulting in a few dB elevation of In addition, it is estimated that up to
airgun than are those of mysticetes (e.g., hearing threshold, and are not expected 20 ringed and spotted seals and 10
bowhead whales), in part because to be biologically significant for the bearded seals could be exposed to
odontocete low-frequency hearing is population or species. received noise levels above 190 dB re 1
assumed to be less sensitive than that of mPa (rms) for durations long enough to
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mysticetes. However, at least when in Gray Whales cause TTS, if the animals do not avoid
the Canadian Beaufort Sea in summer, Gray whales are not commonly are area for some reason and are not
belugas appear to be fairly responsive to encountered in the Beaufort Sea coast, detected in time to have mitigation
seismic energy, with few being sighted though occasional sightings have measures implemented (or even PTS if
within 6–12 mi (10–20 km) of seismic occurred in the past. It is estimated that such exposures occurred repeatedly).
vessels during aerial surveys (Miller et a maximum of 2 gray whales (0.01%) Marine mammals that are taken by TTS
al. 2005). Belugas will likely occur in could be taken by Level B harassment. are expected to receive minor (in the
small numbers in the Beaufort Sea Potential impacts to gray whales from order of several dBs) and brief (minutes

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40034 Federal Register / Vol. 80, No. 133 / Monday, July 13, 2015 / Notices

to hours) temporary hearing impairment In addition, no critical habitat of ESA- (Brown 1979). Although Nuiqsut is
because (1) animals are not likely to listed marine mammal species occurs in located 40 km (25 mi) inland, bowhead
remain for prolonged periods within the Beaufort Sea. whales are still a major fall subsistence
high intensity sound fields, and (2) both Based on the analysis contained resource. Although bowhead whales
the seismic vessel and the animals are herein of the likely effects of the have been harvested in the past all along
constantly moving, and it is unlikely specified activity on marine mammals the barrier islands, Cross Island is the
that the animal will be moving along and their habitat, and taking into site currently used as the fall whaling
with the vessel during the survey. consideration the implementation of the base, as it includes cabins and
Although repeated experience to TTS proposed monitoring and mitigation equipment for butchering whales.
could result in PTS (Level A measures, NMFS finds that the total However, whalers must travel about 160
harassment), for the same reasons marine mammal take from SAE’s km (100 mi) to annually reach the Cross
discussed above, even if marine proposed 3D seismic survey in the Island whaling camp, which is located
mammals experience PTS, the degree of Beaufort Sea, Alaska, will have a in a direct line over 110 km (70 mi) from
PTS is expected to be mild, resulting in negligible impact on the affected marine Nuiqsut. Whaling activity usually
a few dB elevation of hearing threshold. mammal species or stocks. begins in late August with the arrival
Therefore, even if a few marine whales migrating from the Canadian
Small Numbers Beaufort Sea, and may occur as late as
mammals receive TTS or PTS, the
degree of these effects are expected to be The requested takes proposed to be early October, depending on ice
minor and, in the case of TTS, brief, and authorized represent less than 2.31% for conditions and quota fulfillment. Most
are not expected to be biologically all populations or stocks potentially whaling occurs relatively near (<16 km
significant for the population or species. impacted (see Table 6 in this or <10 mi) the island, largely to prevent
No biologically important area exists document). These take estimates meat spoilage that can occur with a
for seals in the vicinity of SAE’s 3D represent the maximum percentage of longer tow back to Cross Island. Since
seismic survey activities. each species or stock that could be taken 1993, Cross Island hunters have
Taking into account the mitigation by Level B behavioral harassment and harvested one to four whales annually,
measures that are planned, effects on Level A harassment if each animal is averaging three.
taken only once, and each take Cross Island is located 70 km (44 mi)
marine mammals are generally expected
represents a different individual animal. east of the eastern boundary of the
to be restricted to avoidance of a limited
However, it is likely that many, if not seismic survey box. (Point Barrow is
area around SAE’s proposed open-water
most, individual animals could be taken over 180 km [110 mi] outside the
activities and short-term changes in
multiple times due to their short term potential survey box.) Seismic activities
behavior, falling within the MMPA
movement patter and home range. are unlikely to affect Barrow or Cross
definition of ‘‘Level B harassments.’’
Therefore, the percentages of takes of Island based whaling, especially if the
The many reported cases of apparent
marine mammals among their seismic operations temporarily cease
tolerance by marine mammals to during the fall bowhead whale hunt.
seismic exploration, vessel traffic, and populations are likely to be much lower.
The numbers of marine mammals Although Nuiqsut whalers may
some other human activities show that incidentally harvest beluga whales
co-existence is possible. Mitigation estimated to be taken are small
proportions of the total populations of while hunting bowheads, these whales
measures, such as controlled vessel are rarely seen and are not actively
speed, dedicated marine mammal the affected species or stocks. In
addition, the mitigation and monitoring pursued. Any harvest that would occur
observers, non-pursuit, ramp up would most likely be in association with
procedures, and shut downs or power measures (described previously in this
document) prescribed in the IHA are Cross Island.
downs when marine mammals are seen The potential seismic survey area is
within defined ranges, will further expected to reduce even further any
also used by Nuiqsut villagers for
reduce short-term reactions and potential disturbance and injuries to
hunting seals. All three seal species that
minimize any effects on hearing marine mammals.
are likely to be taken—ringed, spotted,
sensitivity. In all cases, the effects are Based on the analysis contained
and bearded—are hunted. Sealing
expected to be short-term, with no herein of the likely effects of the
begins in April and May when villagers
lasting biological consequence. specified activity on marine mammals
hunt seals at breathing holes in Harrison
Potential impacts to marine mammal and their habitat, and taking into
Bay. In early June, hunting is
habitat were discussed previously in the consideration the implementation of the
concentrated at the mouth of the
Federal Register notice (80 FR 20084; mitigation and monitoring measures,
Colville River, where ice breakup
April 14, 2015) for the proposed IHA NMFS finds that small numbers of
flooding results in the ice thinning and
(see the ‘‘Anticipated Effects on marine mammals will be taken relative
seals becoming more visible.
Habitat’’ section of that document). to the populations of the affected
Once the ice is clear of the Delta (late
Although some disturbance of food species or stocks.
June), hunters will hunt in open boats
sources of marine mammals is possible, Impact on Availability of Affected along the ice edge from Harrison Bay to
any impacts are anticipated to be minor Species or Stock for Taking for Thetis Island in a route called ‘‘round
enough as to not affect rates of Subsistence Uses the world.’’ Thetis Island is important as
recruitment or survival of marine it provides a weather refuge and a base
mammals in the area. The marine Relevant Subsistence Uses
for hunting bearded seals. During July
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survey activities would occur in a The proposed seismic activities will and August, ringed and spotted seals are
localized area, and given the vast area occur within the marine subsistence hunted in the lower 65 km (40 mi) of the
of the Arctic Ocean where feeding by area used by the village of Nuiqsut. Colville River proper.
marine mammals occurs, any missed Nuiqsut was established in 1973 at a In terms of pounds, approximately
feeding opportunities in the direct traditional location on the Colville River one-third of the village of Nuiqsut’s
project area could be offset by feeding providing equal access to upland (e.g., annual subsistence harvest is marine
opportunities in other available feeding caribou, Dall sheep) and marine (e.g., mammals (fish and caribou dominate
areas. whales, seals, and eiders) resources the rest), of which bowhead whales

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Federal Register / Vol. 80, No. 133 / Monday, July 13, 2015 / Notices 40035

contribute by far the most (Fuller and tend to expose a much smaller portion partners in the project and on the North
George 1999). Seals contribute only 2 to of their back when surfacing, which Slope of Alaska.
3% of annual subsistence harvest makes harvesting more difficult. Prior to offshore activities, SAE met
(Brower and Opie 1997, Brower and Additionally, natives report that and consulted with nearby
Hepa 1998, Fuller and George 1999). bowheads exhibit angry behaviors, such communities, the North Slope Borough
Fuller and George (1999) estimated that as tail-slapping, in the presence of (NSB) planning department and the Fish
46 seals were harvested in 1992. The seismic activity, which translate to and Wildlife division. SAE has also
more common ringed seals appear to danger for nearby subsistence presented its project during a
dominate the harvest, although the harvesters. community meeting in the village of
larger and thicker-skinned bearded seals Responses of seals to seismic airguns Nuiqsut, to discuss the planned
are probably preferred. Spotted seals are expected to be negligible. Bain and activities. The discussions included
occur in the Colville River Delta in Williams (2006) studied the responses SAE’s project description, the POC,
small numbers, which is reflected in the of harbor seals, California sea lions, and resolution of potential conflicts, and
harvest. Steller sea lions to seismic airguns and proposed operational window. These
Available harvest records suggest that found that seals at exposure levels meetings helped to identify any
most seal harvest occurs in the months above 170 dB re 1 mPa (peak-peak) often subsistence conflicts. The following
preceding the proposed August start of showed avoidance behavior, including meetings were conducted:
the seismic survey, when waning ice generally staying at the surface and • Nuiqsut: November, 2014 (Job Fair)
conditions provide the best opportunity keeping their heads out of the water, but • Nuiqsut: January, 2015 (Project
to approach and kill hauled out seals. that the responses were not overt, and Presentation)
Much of the late summer seal harvest there were no detectable responses at • AEWC: December, 2014 (2015
occurs in the Colville River as the seals low exposure levels. planned projects)
follow fish runs upstream. Still, open-
Plan of Cooperation or Measures To • Barrow (NSB): March, 2015 (Pre
water seal hunting could occur Application Meeting)
Minimize Impacts to Subsistence Hunts
coincident with the seismic surveys, • Barrow: March, 2015 (Planning
especially bearded seal hunts based Regulations at 50 CFR 216.104(a)(12) Commission Meeting)
from Thetis Island. In general, however, require IHA applicants for activities that • AEWC: February, 2015 (Project
given the relatively low contribution of take place in Arctic waters to provide a Presentation)
seals to the Nuiqsut subsistence, and the Plan of Cooperation (POC) or
In addition, SAE scheduled the
greater opportunity to hunt seals earlier information that identifies what
following meeting in the near future:
in the season, any potential impact by measures have been taken and/or will
be taken to minimize adverse effects on • Nuqsut: July, 2015 (update Meeting)
the seismic survey on seal hunting is
the availability of marine mammals for • KSOP: July 2015 (Presentation)
likely remote.
subsistence purposes. Stage 2: SAE incorporated meaningful
Potential Impacts to Subsistence Uses SAE has prepared a POC, which was requests to mitigate concerns into
NMFS has defined ‘‘unmitigable developed by identifying and evaluating operations, including signing a CAA
adverse impact’’ in 50 CFR 216.103 as: any potential effects the proposed and providing weekly updates to the
‘‘an impact resulting from the specified seismic survey might have on seasonal Kuukpikmiut Subsistence Oversight
activity: (1) That is likely to reduce the abundance that is relied upon for Panel (KSOP). SAE plans to have a
availability of the species to a level subsistence use. For the proposed review of permit stipulations and a
insufficient for a harvest to meet project, SAE worked closely with the permit matrix developed for the crews.
subsistence needs by: (i) Causing the North Slope Borough (NSB) and its The means of communications and
marine mammals to abandon or avoid partner Kuukpik Corporation, to contacts list have been developed and
hunting areas; (ii) Directly displacing identify subsistence communities and implemented into operations.
subsistence users; or (iii) Placing activities that may take place within or Communications will be handled within
physical barriers between the marine near the project area. the CAA and directly with Nuiqsut
mammals and the subsistence hunters; As a joint venture partner with Whalers. The use of scientific and
and (2) That cannot be sufficiently Kuukpik, SAE is working closely with Inupiat PSOs/Communicators on board
mitigated by other measures to increase them and the communities on the North the vessels will ensure that appropriate
the availability of marine mammals to Slope to plan operations that will precautions are taken to avoid
allow subsistence needs to be met. include measures that are harassment of marine mammals,
Noise and general activity during environmentally suitable and that do including whales, seals, walruses or
SAE’s proposed 3D OBN seismic survey not impact local subsistence use. In polar bears. SAE will coordinate the
have the potential to impact marine addition, SAE signed a Conflict timing and location of operations with
mammals hunted by Native Alaskans. In Avoidance Agreement (CAA) with the the Com-Centers in Deadhorse and
the case of cetaceans, the most common AEWC and other subsistence whaling Kaktovik to minimize impact to the
reaction to anthropogenic sounds (as communities. subsistence activities or the Nuiqsut/
noted previously) is avoidance of the SAE adopted a three-stage process to Kaktovik Bowhead Whale Hunt.
ensonified area. In the case of bowhead develop its POC: Stage 3: If a conflict does occur with
whales, this often means that the Stage 1: To open communications project activities and subsistence
animals divert from their normal SAE attended and presented the hunting, the SAs will immediately
asabaliauskas on DSK5VPTVN1PROD with NOTICES

migratory path by several kilometers. program description to the Alaska contact the project manager and the
Additionally, general vessel presence in Eskimo Whaling Commission (AEWC) Com Center. If avoidance is not
the vicinity of traditional hunting areas during their mini-convention in possible, the project manager will
could negatively impact a hunt. Native December, 2014, in Anchorage. initiate communication with a
knowledge indicates that bowhead Collaboration meetings were held in representative from the impacted
whales become increasingly ‘‘skittish’’ March and April 2015 with Kuukpik subsistence hunter group(s) to resolve
in the presence of seismic noise. Whales Corporation leaders. Kuukpik the issue and to plan an alternative
are more wary around the hunters and Corporation is SAE’s joint venture course of action (which may include

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Federal Register / Vol. 80, No. 133 / Monday, July 13, 2015 / Notices 40037

the threatened Arctic sub-species of examine an application for patent and, ACTION:Notice to add a new System of
ringed seal. No critical habitat has been when appropriate, issue a patent. The Records.
designated for these species, therefore provisions of 35 U.S.C. 301 and 37 CFR
none will be affected. 1.501 govern the ability of a person to SUMMARY: The National Guard Bureau
submit into the file of an issued patent proposes to add a new system of records
National Environmental Policy Act INGB 004, entitled ‘‘Joint Services
(i) prior art consisting of patents or
(NEPA) Support System (JSS).’’ JSS will be a
printed publications which the person
NMFS prepared an EA that includes making the submission believes to have centralized, web-based portal that
an analysis of potential environmental a bearing on the patentability of any manages, for the Yellow Ribbon
effects associated with NMFS’ issuance claim of the patent, and (ii) statements Reintegration Program (YRRP), the
of an IHA to SAE to take marine of the patent owner filed by the patent entire event life cycle—to include,
mammals incidental to conducting a 3D owner in a proceeding before a Federal planning, conducting and reporting, for
seismic survey in the Beaufort Sea, court or the USPTO in which the patent events held nationwide, for Service
Alaska. NMFS has finalized the EA and owner took a position on the scope of members and their families. In addition
prepared a Finding of No Significant any claim of the patent. to YRRP, JSS also aims to support
Impact for this action. Therefore, Affected Public: Individuals and program management activities/events
preparation of an Environmental Impact housholds; businesses or other for- for other currently participating
Statement is not necessary. NMFS’ draft profits; not-for-profit institutions. programs, such as the Family Program,
EA was available to the public for a 30- Frequency: On occasion. Employer Support Program, Financial
day comment period before it was Respondent’s Obligation: Required to Management Awareness Program,
finalized. obtain or retain benefits. Sexual Assault Response and
OMB Desk Officer: Nicholas A. Fraser, Prevention Program, Psychological
Authorization Health Program and Warrior Support
email: Nicholas_A._Fraser@
As a result of these determinations, omb.eop.gov. program, as well as future Guard and
NMFS has issued an IHA to SAE for the Once submitted, the request will be Reserve programs supporting the
take of marine mammals, by Level B and publicly available in electronic format National Guard Bureau (NGB),
Level A harassments, incidental to through reginfo.gov. Follow the Manpower and Personnel Directorate.
conducting a 3D OBN seismic survey in instructions to view Department of JSS will also support the collection and
the Beaufort Sea during the 2015 open- Commerce collections currently under storage of Civilian Employer
water season, provided the previously review by OMB. Information (CE) from Service members
mentioned mitigation, monitoring, and Further information can be obtained to fulfill the Uniformed Services
reporting requirements are incorporated. by: Employment and Reemployment Rights
Dated: July 6, 2015. • Email: InformationCollection@ Act (USERRA) mandate.
Perry Gayaldo, uspto.gov. Include ‘‘0651–0067 copy DATES: Comments will be accepted on or
Deputy Director, Office of Protected request’’ in the subject line of the before August 12, 2015. This proposed
Resources, National Marine Fisheries Service. message. action will be effective the day
[FR Doc. 2015–16966 Filed 7–10–15; 8:45 am] • Mail: Marcie Lovett, Records following the end of the comment
BILLING CODE 3510–22–P
Management Division Director, Office of period unless comments are received
the Chief Information Officer, United which result in a contrary
States Patent and Trademark Office, determination.
DEPARTMENT OF COMMERCE P.O. Box 1450, Alexandria, VA 22313–
1450. ADDRESSES: You may submit comments,
Patent and Trademark Office Written comments and identified by docket number and title,
recommendations for the proposed by any of the following methods:
Submission for OMB Review; information collection should be sent on * Federal Rulemaking Portal: http://
Comment Request; ‘‘Post Patent or before August 12, 2015 to Nicholas A. www.regulations.gov. Follow the
Public Submissions’’ Fraser, OMB Desk Officer, via email to instructions for submitting comments.
Nicholas_A._Fraser@omb.eop.gov, or by * Mail: Department of Defense, Office
The Department of Commerce will fax to 202–395–5167, marked to the of the Deputy Chief Management
submit to the Office of Management and attention of Nicholas A. Fraser. Officer, Directorate of Oversight and
Budget (OMB) for clearance the Compliance, Regulatory and Audit
following proposal for collection of Dated: July 1, 2015.
Matters Office, 9010 Defense Pentagon,
information under the provisions of the Marcie Lovett, Washington, DC 20301–9010.
Paperwork Reduction Act (44 U.S.C. Records Management Division Director, Instructions: All submissions received
chapter 35). USPTO, Office of the Chief Information must include the agency name and
Agency: United States Patent and Officer.
docket number for this Federal Register
Trademark Office, Commerce. [FR Doc. 2015–17056 Filed 7–10–15; 8:45 am]
document. The general policy for
Title: Post Patent Public Submissions. BILLING CODE 3510–16–P comments and other submissions from
OMB Control Number: 0651–0067. members of the public is to make these
Form Number(s): submissions available for public
• PTO/SB/42.
asabaliauskas on DSK5VPTVN1PROD with NOTICES

DEPARTMENT OF DEFENSE viewing on the Internet at http://
Type of Request: Regular. www.regulations.gov as they are
Number of Respondents: 240. Office of the Secretary received without change, including any
Average Time per Response: 10 hours. personal identifiers or contact
[Docket ID DoD–2015–OS–0068]
Burden Hours: 2,400.
information.
Cost Burden: $57.50. Privacy Act of 1974; System of
Needs and Uses: The United States Records FOR FURTHER INFORMATION CONTACT: Ms.
Patent and Trademark Office (USPTO) is Jennifer Nikolaisen, 111 South George
required by 35 U.S.C. 131 et seq. to AGENCY: National Guard Bureau, DoD. Mason Drive, AH2, Arlington, VA

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Document Created: 2018-02-23 09:17:37
Document Modified: 2018-02-23 09:17:37

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 take authorization.
Dates		Effective July 1, 2015, through October 15, 2015.
Contact		Shane Guan, Office of Protected Resources, NMFS, (301) 427-8401.
FR Citation		80 FR 40016
RIN Number		0648-XD78

80 FR 40016 - Takes of Marine Mammals Incidental to Specified Activities; Taking Marine Mammals Incidental to Marine Seismic Survey in the Beaufort Sea, Alaska

DEPARTMENT OF COMMERCENational Oceanic and Atmospheric Administration

Federal Register Volume 80, Issue 133 (July 13, 2015)

DEPARTMENT OF COMMERCE
National Oceanic and Atmospheric Administration