[Federal Register Volume 74, Number 206 (Tuesday, October 27, 2009)]
[Notices]
[Pages 55368-55412]
From the Federal Register Online via the Government Publishing Office [www.gpo.gov]
[FR Doc No: E9-25545]
[[Page 55367]]
-----------------------------------------------------------------------
Part III
Department of Commerce
-----------------------------------------------------------------------
National Oceanic and Atmospheric Administration
-----------------------------------------------------------------------
Small Takes of Marine Mammals Incidental to Specified Activities; Open-
water Marine Survey Program in the Chukchi Sea, Alaska, During 2009-
2010; Notice
��Federal Register / Vol. 74, No. 206 / Tuesday, October 27, 2009 /
Notices��
[[Page 55368]]
-----------------------------------------------------------------------
DEPARTMENT OF COMMERCE
National Oceanic and Atmospheric Administration
RIN 0648-XP00
Small Takes of Marine Mammals Incidental to Specified Activities;
Open-water Marine Survey Program in the Chukchi Sea, Alaska, During
2009-2010
AGENCY: National Marine Fisheries Service (NMFS), National Oceanic and
Atmospheric Administration (NOAA), Commerce.
ACTION: Notice; issuance of an incidental take authorization.
-----------------------------------------------------------------------
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 Shell Offshore Inc. and
Shell Gulf of Mexico Inc., collectively known as Shell, to take, by
harassment, small numbers of 12 species of marine mammals incidental to
an open-water marine survey program, which includes shallow hazards and
site clearance work and strudel scour surveys, in the Chukchi Sea,
Alaska, during the 2009/2010 Arctic open-water season.
DATES: Effective August 19, 2009, through August 18, 2010.
ADDRESSES: A copy of the application containing a list of the
references used in this document, two addenda to the application, 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: Candace Nachman, Office of Protected
Resources, NMFS, (301) 713-2289 or Brad Smith, NMFS, Alaska Region,
(907) 271-3023.
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.
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.''
Section 101(a)(5)(D) of the MMPA established an expedited process
by which citizens of the U.S. can apply for an authorization to
incidentally take small numbers of marine mammals by 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].
Section 101(a)(5)(D) establishes a 45-day time limit for NMFS
review of an application followed by a 30-day public notice and comment
period on any proposed authorization for the incidental harassment of
marine mammals. Within 45 days of the close of the comment period, NMFS
must either issue or deny the authorization.
Summary of Request
On December 15, 2008, NMFS received an application from Shell for
the taking, by Level B harassment only, of small numbers of several
species of marine mammals incidental to conducting an open-water marine
survey program during the 2009/2010 Arctic open-water season in the
Chukchi Sea. Shell plans to conduct site clearance and shallow hazards
surveys and a strudel scour survey in the Chukchi Sea. These surveys
are a continuation of those conducted by Shell in the Chukchi Sea in
2008. Shell's December 2008, application also requested MMPA coverage
for site clearance and shallow hazards surveys, an ice gouge survey,
and a strudel scour survey in the Beaufort Sea and an ice gouge survey
in the Chukchi Sea for the 2009/2010 season. However, in an addendum to
the IHA application submitted to NMFS on March 10, 2009, Shell
indicated that it cancelled all survey programs for the Beaufort Sea
and the ice gouge survey for the Chukchi Sea in 2009. Shell submitted a
second application addendum on May 19, 2009, indicating that Shell will
utilize an array of 4 x 10 in\3\ guns (40 in\3\ total discharge volume)
instead of the 2 x 10 in\3\ array (20 in\3\ total discharge volume).
Site clearance and shallow hazards surveys will evaluate the
seafloor and shallow sub-seafloor at prospective exploration drilling
locations, focusing on the depth to seafloor, topography, the potential
for shallow faults or gas zones, and the presence of archaeological
features. The types of equipment used to conduct these surveys use low
level energy sources focused on limited areas in order to characterize
the footprint of the seafloor and shallow sub-seafloor at prospective
drilling locations.
Description of the Specified Activity
Chukchi Site Clearance and Shallow Hazards Surveys
Site clearance and shallow hazards surveys of potential proposed
locations for exploration drilling will be executed as required by the
Minerals Management Service's (MMS) regulations. These surveys gather
data on: (1) bathymetry; (2) seabed topography and other seabed
characteristics (e.g., boulder patches); (3) potential geohazards
(e.g., shallow faults and shallow gas zones); and (4) the presence of
any archeological features (e.g., shipwrecks). Site clearance and
shallow hazards surveys can be accomplished by one vessel with acoustic
sources. A detailed overview of the activities of this survey was
provided in the Notice of Proposed IHA (74 FR 26217, June 1, 2009).
Since publication of that notice, Shell updated two pieces of
information. First, the R/V Mt. Mitchell will be utilized as the source
vessel for the site clearance and shallow hazards surveys. The R/V Mt.
Mitchell is a diesel powered vessel, 70 m (231 ft) long, 12.7 m (42 ft)
wide, with a 4.5 m (15 ft) draft. Second, the specific prospects within
Outer Continental Shelf (OCS) Lease Sale (LS) 193 have been identified.
Shell will conduct the surveys at the Burger and Crackerjack prospects
and, if time and weather conditions permit, at SW Shoebill. Additional
information is also
[[Page 55369]]
contained in Shell's application and application addenda, which are
available for review (see ADDRESSES).
Chukchi Strudel Scour Survey
During the early melt, the rivers begin to flow and discharge water
over the coastal sea ice near the river deltas. That water rushes down
holes in the ice (``strudels'') and scours the seafloor. These
erosional areas are called ``strudel scours''. Information on these
features is required for prospective pipeline planning. Two proposed
activities are required to gather this information: aerial survey via
helicopter overflights during the melt to locate the strudels and
strudel scour marine surveys to gather bathymetric data. Additional
information was provided in the Notice of Proposed IHA (74 FR 26217,
June 1, 2009) and Shell's application (see ADDRESSES).
Comments and Responses
A notice of receipt of Shell's MMPA application and NMFS' proposal
to issue an IHA to Shell published in the Federal Register on June 1,
2009 (74 FR 26217). That notice described, in detail, Shell's proposed
activity, the marine mammal species that may be affected by the
activity, and the anticipated effects on marine mammals. During the 30-
day public comment period, NMFS received six comment letters from the
following: the Marine Mammal Commission (MMC); Ocean Conservancy and
Oceana; the Alaska Eskimo Whaling Commission (AEWC); the Inupiat
Community of the Arctic Slope (ICAS); the North Slope Borough (NSB)
Office of the Mayor and NSB Department of Wildlife Management
(collectively ``NSB''); and Alaska Wilderness League (AWL), Center for
Biological Diversity, Defenders of Wildlife, Earthjustice, Natural
Resources Defense Council, Northern Alaska Environmental Center,
Pacific Environment, Sierra Club, The Wilderness Society, and World
Wildlife Fund (collectively ``AWL''), along with an attached letter
from David E. Bain, Ph.D.
Both AEWC and NSB submitted several journal articles as attachments
to their comment letters. NMFS acknowledges receipt of these documents
but does not intend to address the specific articles themselves in the
responses to comments. AEWC also submitted an unsigned, final version
of the 2009 Conflict Avoidance Agreement (CAA). However, Shell signed
the CAA on June 24, 2009. Some of NSB's comments were specific to the
application and do not have a bearing on NMFS' determinations for
issuing an IHA. For example, NSB pointed out that Figure 1 in Shell's
application failed to identify the Alaska Maritime National Wildlife
Refuge north of Point Lay and asked that the figure be revised. Those
comments have been passed on to Shell for consideration in future IHA
applications. Any application specific comments that address the
statutory and regulatory requirements or findings NMFS must make to
issue an IHA are addressed in this section of the Federal Register
notice. Additionally, some of NSB's comments concerned the Beaufort Sea
operations or ice gouge surveys. As noted above and in the Notice of
Proposed IHA (74 FR 26217, June 1, 2009), Shell notified NMFS that it
did not intend to conduct these activities; therefore, no marine
mammals will be taken. Comments on the Beaufort operations and Chukchi
ice gouge survey are not addressed in this document.
General Comments
Comment 1: AWL believes that NMFS should not issue incidental take
authorizations for oil and gas-related seismic surveying until NMFS and
other agencies complete a comprehensive review of both the industrial
activities and the marine resources of the Arctic. This review should
ensure that critical information gaps relating to the Arctic are filled
and that decisions made about Arctic activities are made in the context
of a comprehensive plan for the region. In the interim, NMFS should not
facilitate further potentially harmful seismic activity.
Response: In order to issue an authorization pursuant to Section
101(a)(5)(D) of the MMPA, NMFS must determine that the authorized
activity will take only small numbers of marine mammals, will have a
negligible impact on affected species or stocks, and will not have an
unmitigable adverse impact on affected species or stocks for
subsistence uses. If NMFS is able to make these findings, the Secretary
is required to issue an IHA. In the case of Shell's activities for
2009/2010 (as described in the application, the Notice of Proposed IHA
(74 FR 26217, June 1, 2009) and this document), NMFS determined that
the authorized activity met the requirements of Section 101(a)(5)(D) of
the MMPA. Additionally, as described later in this section and
throughout this document, NMFS has determined that Shell's activities
will not result in injury or mortality of marine mammals.
Comment 2: AWL, ICAS, and Ocean Conservancy and Oceana note that
Shell's activities will occur on leases that were acquired in OCS LS
193, which was conducted pursuant to MMS' 2007-2012 Five-Year Leasing
Program. This leasing program is part of on-going litigation. NMFS
should not issue IHAs for activities on these leases until the
litigation is resolved.
Response: NMFS is aware of the litigation in the U.S. Court of
Appeals for the D.C. Circuit, but we disagree with the commenter's
assertion that NMFS should not issue IHAs for activities on these
leases until the litigation is resolved. Although the court issued an
opinion vacating and remanding the 5-yr lease program to MMS, it also
issued an order (on July 28, 2009) staying its mandate. MMS informed
the court that it would complete remand proceedings as soon as possible
and that, in the meantime, it would continue to review and act upon
exploration plans for Chukchi Sea leases. MMS stated, however, that it
would suspend activities under any approved plan pending the Secretary
of the Interior's reconsideration decision on the remanded program,
thereby halting all but data gathering ancillary activities on Chukchi
Sea leases. Shell's 2009 operations are unaffected by the litigation
because they are data gathering ancillary activities. Therefore, NMFS
has concluded it was appropriate to issue an IHA to Shell for its 2009
seismic operations.
Comment 3: ICAS points out that Native communities in Alaska have
long been ignored in the race to find and develop offshore oil and gas
resources and that the U.S. Government has consistently failed to
comply with legal requirements that require consultation with local
Native communities as proposals are being developed that affect native
environments. Instead, both Federal agencies and the entities they
permit make only token gestures at consultations with Native groups
offering them only the opportunity for involvement after proposals are
developed and after local knowledge would serve a useful purpose.
Response: Regulations at 50 CFR 216.104(a)(12) require applicants
for IHAs in Arctic waters to submit a Plan of Cooperation (POC), which,
among other things, requires the applicant to meet with affected
subsistence communities to discuss the proposed activities.
Additionally, for many years, NMFS has conducted the Arctic Open-water
Meeting, which brings together the Federal agencies, the oil and gas
industry, and affected Alaska Native organizations to discuss the
proposed activities and monitoring plans. Local knowledge is considered
at these times, and it is not too late for that knowledge to serve a
useful purpose.
[[Page 55370]]
Comment 4: Executive Order 13175 requires Federal agencies to
conduct government-to-government consultation when undertaking to
formulate and implement policies that have tribal implications. Despite
this explicit requirement, ICAS believes that NMFS has failed to
consult with governing bodies of Native people who will be and have
been affected by the decisions NMFS is making under the MMPA. NMFS must
meet with ICAS and local Native villages on a government-to-government
basis to discuss the proposed IHA, as well as appropriate mitigation
and monitoring requirements.
Response: NMFS recognizes the importance of the government-to-
government relations and has taken steps to ensure that Alaska Natives
play an active role in the management of Arctic species. For example,
NOAA and the AEWC co-manage bowhead whales pursuant to a cooperative
agreement. This agreement has allowed the AEWC to play a significant
role in the management of a valuable resource by affording Alaska
Natives the opportunity to protect bowhead whales and the Eskimo
culture and to promote scientific investigation, among other purposes.
In addition, NMFS works closely with Alaska Natives when
considering whether to permit the take of marine mammals incidental to
oil and gas operations. NMFS has met repeatedly over the years with
Alaska Native representatives to discuss concerns related to NMFS' MMPA
program in the Arctic, and has also taken into account recommended
mitigation measures to reduce the impact of oil and gas operations on
bowhead whales and to ensure the availability of marine mammals for
taking for subsistence uses. Finally, NMFS has participated in Alaska
Native community meetings in the past and will continue to do so, when
feasible. NMFS will continue to ensure that it meets its government-to-
government responsibilities and will work closely with Alaska Natives
to address their concerns.
Comment 5: Ocean Conservancy and Oceana believe that Shell's
activities could substantially affect marine mammals in an area already
impacted by climate change and particularly vulnerable to ocean
acidification. Approving an IHA in these circumstances would be
contrary to NMFS' responsibilities under the law.
Response: NMFS believes that it has made all of the necessary
determinations in order to issue an IHA pursuant to Section
101(a)(5)(D) of the MMPA. NMFS has determined that Shell's activities
will affect only small numbers of marine mammals, will have a
negligible impact on the affected species and stocks, and will not have
an unmitigable adverse impact on the availability of such species or
stock for taking for subsistence purposes, provided the mitigation
measures described later in this document are implemented. NMFS
completed an EA to analyze the impacts of cumulative activities on the
affected species in the action area, including climate change.
Comment 6: AEWC and NSB expressed three concerns with the timing of
IHA applications. First, they ask that only one authorization be issued
per calendar year or per operating season for work associated with a
specific project. Secondly, NMFS should ensure that IHA applications
are submitted at least 1 month prior to the April Open-water Meeting or
comparable peer review meetings that may ultimately replace such
meetings. This will allow Native communities to receive draft POCs and
proposed mitigation measures sufficiently in advance of these meetings
to allow for meaningful discussion of any identified major flaws,
evaluation of suggested improvements that draw upon our particular
local expertise, and consideration of appropriate peer reviewers.
Lastly, they request that NMFS change the expiration date for
authorizations so that a single calendar year is authorized rather than
activities in the latter part of one calendar year and the early part
of the following year.
Response: Regarding the first and third points, Section
101(a)(5)(D) of the MMPA allows NMFS to issue IHAs ``for periods of not
more than 1 year.'' There is no requirement that the period of
effectiveness of an IHA fall within 1 calendar year or operating
season. In instances where the period of effectiveness of an IHA would
cover more than one operating season (i.e., there is considerable
downtime between the start and finish of the operations), NMFS analyzes
impacts for the entire extent of the operations when issuing the IHA.
Regarding the second point about distribution of applications, NMFS
cannot guarantee that all applications will be submitted to NMFS at
least 1 month prior to the meeting. NMFS has a unique relationship with
AEWC pursuant to a cooperative agreement. Pursuant to this agreement,
NOAA is required to consult with AEWC on any action undertaken or
proposed to be undertaken that may affect the bowhead whale and/or
subsistence whaling. To that end, NMFS will make every effort to
provide the AEWC with as much information as possible prior to the
Open-water Meeting or comparable peer review meeting. However, it is
NMFS' practice not to release applications for MMPA authorizations
until NMFS deems them complete and a proposed IHA notice or notice of
receipt of an application for rulemaking has published in the Federal
Register.
Comment 7: NSB notes that Shell's application indicates that
several vessels will be involved in the 2009-2010 period, involving
various transit routes that are to be used to reach the Arctic survey
sites. There is an absence of discussion of impacts and ``takes'' that
may occur upon these transit routes. Shell needs to consider and state
the impacts sufficiently. Additionally, Shell should consider other
stocks of belugas beyond the Beaufort and Chukchi sea stocks, as
impacts may occur in Bristol Bay during ship transit.
Response: As has been stated in several Federal Register notices in
the past, normal shipping and transit operations do not rise to a level
requiring an authorization under the MMPA. To require IHAs and Letters
of Authorization (LOAs) for standard shipping would reduce the ability
of NMFS to review activities that have a potential to cause harm to
marine mammal populations. For example, in the Arctic Ocean, NMFS would
need to issue authorizations for barging operations that supply the
North Slope villages in addition to various onshore and offshore oil
and gas projects. However, on this matter, Shell will (in keeping with
the CAA signed by Shell) follow transit routes contained in the CAA to
avoid conflicts with subsistence hunters.
Comment 8: NSB states that NMFS should not issue Shell an IHA for
the strudel scour surveys in 2010, as they are substantially different
from the shallow hazards and site clearance surveys. Additionally, it
is not clear what other activities might be occurring in 2010, so it is
not possible to evaluate the potential cumulative impacts from multiple
activities that might occur in 2010. If NMFS does issue Shell an IHA
for that survey, estimated takes and monitoring are needed. Additional
information is needed from Shell about the possible impacts to marine
mammals, monitoring plans, and mitigation measures from helicopter
surveys over the sea ice. NMFS needs to make this additional
information available to the public and decision makers for review and
comment before it issues an IHA to Shell for strudel scour surveys in
2010. NSB also notes that the number of days of operation for
[[Page 55371]]
the strudel scour surveys is not consistent throughout the application.
Response: The activities for the strudel scour survey are described
in Shell's application and the proposed IHA in order to describe the
full scale of Shell's operations. However, NMFS has determined that the
activities for the strudel scour survey will not result in take of
marine mammals. While the sonar equipment proposed to be used for this
project generates high sound energy, the equipment operates at
frequencies (>100 kHz) beyond the effective hearing range of most
marine mammals likely to be encountered during strudel scour
operations. Given the direct downward beam pattern of these sonar
systems coupled with the high-frequency characteristics of the signals,
the horizontal received levels of 180 and 190 dB re 1 microPa (rms)
would be much smaller when compared to those from the low-frequency
airguns with similar source levels. Therefore, NMFS has determined that
marine mammals will not have a significant behavioral response (i.e., a
``take'') to the strudel scour surveys. However, Shell needs to
coordinate these activities with the Native Alaskan communities to
ensure that there is no unmitigable adverse impact to subsistence
hunts. As described in the application, two separate activities will
occur to complete the strudel scour surveys: helicopter overflights and
marine vessel work. The overflights will take approximately 4 days to
complete and will occur in mid-May or early June. The marine vessel
portion of the survey will take approximately 10 days to complete and
will occur sometime in July or early to mid-August.
Comment 9: NSB incorporated by reference a December 18, 2008,
letter sent to the Acting Assistant Administrator for Fisheries, as
well as NMFS' February 19, 2009, response, asking for suspension and
review of Shell's 2008-2009 IHA, wherein Shell was allowed to proceed
with seismic activities despite what was acknowledged by NMFS to be a
potentially flawed survey design. At that time, NSB asked that no more
IHAs be issued until compliance with the MMPA could be demonstrated.
Based on NSB's review of NMFS' current proposed IHA, NSB does not see a
demonstration of compliance and thus does not support issuance of an
IHA at this time.
Response: As was stated in NMFS' February letter responding to
NSB's concerns, NMFS determined that Shell was in substantial
compliance with their IHA during the 2008 seismic survey season. No
additional information has been provided to NMFS to indicate that Shell
was not in compliance with the IHA. Additionally, NMFS believes that
Shell will comply with the monitoring and mitigation measures required
in the 2009 IHA.
MMPA Concerns
Comment 10: AWL, NSB, and AEWC state that NMFS cannot issue an IHA
or a LOA (because NMFS has not promulgated regulations for mortality by
seismic activities) to Shell for its activities since they carry the
potential for serious injury or death to marine mammals. AEWC also
believes that because Level A harassment is possible, an LOA is needed.
Response: Section 101(a)(5)(D) of the MMPA authorizes Level A
(injury) harassment and Level B (behavioral) harassment takes. While
NMFS' regulations indicate that a LOA must be issued if there is a
potential for serious injury or mortality, NMFS does not believe that
Shell's surveys will result in serious injury or mortality, thus
obviating the need for a LOA. As explained throughout this Federal
Register Notice, it is highly unlikely that marine mammals would be
exposed to sound pressure levels (SPLs) that could result in serious
injury or mortality. The best scientific information indicates that an
auditory injury is unlikely to occur as apparently sounds need to be
significantly greater than 180 dB for injury to occur (Southall et al.,
2007). Based on the analysis contained in the ``Potential Effects of
Survey Activities on Marine Mammals'' section in the Notice of Proposed
IHA (74 FR 26217, June 1, 2009), NMFS has determined that an IHA can
lawfully be issued to Shell for their activities since the already
unlikely potential for serious injury or mortality will be reduced even
further through the incorporation of the mitigation and monitoring
measures described later in this document and required by the IHA.
Comment 11: AEWC notes their disappointment in NMFS for releasing
for public comment an incomplete application from Shell that fails to
provide the mandatory information required by the MMPA and NMFS'
implementing regulations. AEWC requests that NMFS return Shell's
application as incomplete, or else the agency risks making arbitrary
and indefensible determinations under the MMPA. The following is the
information that AEWC believes to be missing from Shell's application:
(1) a POC ``or information that identifies what measures have been
taken and/or will be taken to minimize any adverse effects on the
availability of marine mammals for subsistence uses'' (50 CFR
216.104(a)(12)); (2) a scheduled meeting ``with the affected
subsistence communities to discuss proposed activities and to resolve
potential conflicts'' (50 CFR 216.104(a)(12)(ii)); (3) a ``description
of what measures the applicant has taken and/or will take to ensure
that proposed activities will not interfere with subsistence whaling or
sealing'' (50 CFR 216.104(a)(12)(iii)); (4) suggested means of learning
of, encouraging, and coordinating any research related activities (50
CFR 216.104(a)(14)); (5) a description of the specified activities and
specified geographic region (16 U.S.C. 1371(a)(5)(D)(i)); and (6) a
description of the ``age, sex, and reproductive condition'' of the
marine mammals that will be impacted (50 CFR 216.104(a)(6)). AWL and
NSB also note their concern about the lack of specificity regarding the
timing and location of the site clearance and shallow hazards and
strudel scour surveys.
Response: NMFS does not agree that it released an incomplete
application for review during the public comment period. After NMFS'
initial review of the application, NMFS submitted questions and
comments to Shell on its application. After receipt and review of
Shell's responses, which were submitted as an addendum to the original
application, NMFS made its determination of completeness and released
the application, addenda, and the proposed IHA notice (74 FR 26217,
June 1, 2009). Regarding the six specific pieces of information
believed to be missing by AEWC, Shell's original application included a
description of the pieces of information that are required pursuant to
50 CFR 216.104(a)(12). The application noted that Shell was planning to
meet with subsistence communities in 2009 and described measures to
ensure that the applicant's proposed activities will not interfere with
subsistence whaling or sealing. The proposed IHA notice (74 FR 26217,
June 1, 2009) also noted meetings that had already taken place in the
villages of Barrow, Point Hope, Point Lay, Wainwright, and Kotzebue.
Moreover, on May 15, 2009, Shell distributed its draft POC for the 2009
activities to NMFS, other government agencies, and affected stakeholder
communities.
Information required pursuant to 50 CFR 216.104(a)(14) was also
included in Shell's application. Shell provided a list of researchers
who could potentially receive results of their research activities who
may find the data useful in their own research. Additionally, Shell and
ConocoPhillips will be
[[Page 55372]]
working together in 2009 to deploy an intensive array of acoustic
recorders around both the Burger and Klondike prospects in the Chukchi
Sea.
NMFS also determined that Shell's application provides descriptions
of the specified activities and specified geographic region. NMFS
defines ``specified geographical region'' as ``an area within which a
specified activity is conducted and which has certain biogeographic
characteristics'' (50 CFR 216.103). In regard to how specific one must
be to define a ``specific geographic region'' within which the activity
would take place, House Report 97-228 states:
The specified geographic region should not be larger than is
necessary to accomplish the specified activity, and should be drawn
in such a way that the effects on marine mammals in the region are
substantially the same. Thus, for example, it would be inappropriate
to identify the entire Pacific coast of the North American continent
as a specified geographic region, but it may be appropriate to
identify particular segments of that coast having similar
characteristics, both biological and otherwise, as specified
geographical regions.
NMFS believes that the U.S. Chukchi Sea meets Congressional intent
and NMFS' definition because the region has similar geographic,
physiographic (e.g., topography, temperature, sea ice), biologic (e.g.,
marine fauna (fish and marine mammals)), and sociocultural
characteristics. Shell's application noted that the applicant would
conduct activities on some of its prospects gained during LS 193, which
itself is considered a ``specified geographic region.'' Since that
time, Shell has informed NMFS of the specific areas within the lease
holdings on which Shell intends to conduct the site clearance and
shallow hazards surveys. They are the Burger and Crackerjack prospects,
as well as SW Shoebill if time and weather conditions allow. At this
time, more specificity on the location of the in-water portion of the
strudel scour surveys cannot be provided. Until areas with strudel
scour are revealed during helicopter overflights, it is uncertain the
exact location along the Chukchi Sea coast where marine vessel
operations will occur. However, as previously mentioned, the Chukchi
Sea itself is considered a ``specified geographic region.'' Shell also
provided a description of the types of equipment that would be used and
time frame for conducting its activities. Therefore, NMFS believes that
Shell's description of the activity and the locations for conducting
their surveys meet the requirements of the MMPA.
Lastly, 50 CFR 216.104(a)(6) requires that an applicant submit
information on the ``age, sex, and reproductive condition (if
possible)'' (emphasis added) of the number of marine mammals that may
be taken. In the application, Shell described the species expected to
be taken by harassment and provided estimates of how many of each
species were expected to be taken during their activities. In most
cases, it is very difficult to estimate how many animals, especially
cetaceans, of each age, sex, and reproductive condition will be taken
or impacted by seismic or site clearance and shallow hazards surveys.
In conclusion, NMFS believes that Shell provided all of the necessary
information to proceed with publishing a proposed IHA notice in the
Federal Register.
Comment 12: AEWC and NSB state that Shell did not disclose the full
spectrum of activities in which it will engage. For example, Shell
mentions support vessels and other equipment in its application but
such machinery is not disclosed among Shell's activities. Additionally,
Shell changed the airgun array it planned to use after submitting its
application but did not conduct any new analysis of the impacts from
this change, thus negating its analysis of the impacts from the
original airgun array. Shell needs to adequately specify the activities
and impacts of all the actions that will be undertaken in the Chukchi.
AEWC also states that NMFS relied on surveys conducted in 2008 by Shell
to calculate the area of ``water exposed to received levels at or above
160 dB.'' The 2008 surveys, however, were based on signals from ``four
10 in\3\ airguns,'' and not the 40 in\3\ airguns that Shell now intends
to use. Thus, for this reason as well, Shell's application must be
returned.
Response: NMFS determined that Shell's application and application
addenda fully described the activities in which Shell will engage. In
previous years, when Shell conducted its larger, 3D seismic surveys,
several support vessels were needed to carry out operations. However,
for this smaller survey, all work will be conducted from the single
source vessel. All acoustic equipment that will be used to conduct the
surveys is listed in the application. Shell did change the number of
airguns and submitted this information to NMFS in their second
application addendum. In assessing the new airgun array, NMFS
determined that the potential impacts to marine mammals would be the
same if the total discharge volume was 20 in\3\ or 40 in\3\. Shell
submitted revised take estimates based on the new discharge volume and
ensonified zones. The analysis of impacts from airguns and the revised
take estimates were contained in the proposed IHA notice (74 FR 26217,
June 1, 2009). Therefore, NMFS determined that Shell adequately
specified the activities and impacts of all the actions that will be
undertaken in the Chukchi Sea.
The modeled radii that Shell submitted were from sound source
verification tests conducted in the Chukchi Sea during the 2008 open-
water season by JASCO. JASCO modeled three different airgun
configurations: 4 x 10 in\3\ airgun array; 2 x 10 in\3\ airgun array;
and 1 x 10 in\3\ airgun. For 2009, Shell intends to use the 4 x 10
in\3\ airgun array and not the 40 in\3\ airguns, as noted by AEWC.
Therefore, this modeling was accurately used by Shell in its submission
to NMFS.
Comment 13: NSB and AWL expressed concern that the IHA will cover a
full year, as the assessment of effects on bowhead whales apparently
relies in part on the surveys ending before the peak of the bowhead
fall migration through the Chukchi Sea. Shell indicates that it will
require a maximum of 50 days of active data acquisition, but it is
noteworthy that this estimate expressly excludes any unplanned
downtime. Consequently, Shell could need to survey well into the month
of October, and the IHA as proposed would allow it to do so. A 1-year
IHA is clearly not compelled by the MMPA, and an authorization that
includes a portion of the next open-water season only invites later
confusion. Although NMFS' analysis of impacts to marine mammals appears
to consider the entire 50 days of active surveying, the process leaves
open the possibility of an unjustifiably segmented evaluation of survey
activity, looking only at a portion of the surveying that will take
place in a single season. NMFS should take steps to avoid such results.
Response: Section 101(a)(5)(D)(i) of the MMPA states that: ``Upon
request therefor by citizens of the United States who engage in a
specified activity (other than commercial fishing) within a specific
geographic region, the Secretary shall authorize, for periods of not
more than 1 year, subject to such conditions as the Secretary may
specify, the incidental, but not intentional, taking by harassment of
small numbers of marine mammals of a species or population stock by
such citizens while engaging in that activity within that region....''
As noted, the MMPA does not limit the issuance of an IHA to a
single open-water season (approximately July 20 to approximately
November 15 in the U.S. Beaufort and Chukchi Seas), a period of less
than 4 months, and even less
[[Page 55373]]
available time if an applicant's activity is located in an area subject
to area closure due to native subsistence hunting. Provided the IHA
application includes an analysis of the specified activities during the
time frame proposed by the applicant, NMFS will consider issuing an IHA
that extends into a portion of the following year. NMFS evaluated the
effects of Shell's activities for the full requested time frame,
including evaluating effects into the following season. Additionally,
NMFS believes that even if Shell must conduct activities into the
middle or end of October, the mitigation and monitoring measures
required by the IHA (described later in this document) will not
increase the level of impact to marine mammals in the area.
Comment 14: AEWC and NSB state that NMFS failed to issue a draft
authorization for public review and comment. The plain language of both
the MMPA and NMFS' implementing regulations require that NMFS provide
the opportunity for public comment on the ``proposed incidental
harassment authorization'' (50 CFR 216.104(b)(1)(i); 16 U.S.C. 1371
(a)(5)(D)(iii)) and not just on the application itself as NMFS has done
here. Without a complete draft authorization and accompanying findings,
AEWC and NSB cannot provide meaningful comments on Shell's proposed
activities, ways to mitigate the impacts of those activities on marine
mammals, and measures that are necessary to protect subsistence uses
and sensitive resources. For example, AEWC cannot ensure that the
authorization will comport with the requirements of the applicable CAA.
Response: The June 1, 2009 proposed IHA notice (74 FR 26217)
contained all of the relevant information needed by the public to
provide comments on the proposed authorization itself. The notice
contained the permissible methods of taking by harassment, means of
effecting the least practicable impact on such species (i.e.,
mitigation), measures to ensure no unmitigable adverse impact on the
availability of the species or stock for taking for subsistence use,
requirements pertaining to the monitoring and reporting of such taking,
including requirements for the independent peer review of the proposed
monitoring plan. The notice provided detail on all of these points,
allowing the public to provide meaningful comments. Additionally, the
notice contained NMFS' preliminary findings of negligible impact and no
unmitigable adverse impact.
The signing of a CAA is not a requirement to obtain an IHA.
Additionally, the CAA is a document that is negotiated between and
signed by the industry participant, AEWC, and the Village Whaling
Captains' Associations. NMFS has no role in the development or
execution (other than, where appropriate, to include marine mammal-
related measures from the CAA in the IHA) of this agreement. While
signing a CAA helps NMFS to make its no unmitigable adverse impact
determination for bowhead and beluga whales, it is not a requirement.
Comment 15: NSB states that based on the limited information
provided by NMFS, there is no way to determine whether Shell's
monitoring and reporting plans were subjected to independent peer
review, as required by the MMPA. Unless NMFS can demonstrate compliance
with the MMPA and its own regulations, it cannot issue an IHA to Shell.
AEWC also notes that NMFS cannot issue an IHA to any company whose
monitoring plan has not been cleared through independent peer review.
Response: On May 6, 2009, NMFS contacted representatives from AEWC,
NSB, MMC, and Shell about nominating people to participate in an
independent peer review of Shell's monitoring plan. NMFS received
nominations from all of the contacted parties and selected and
contacted reviewers from these lists. Two of the contacted individuals
provided detailed comments on Shell's monitoring and reporting plan.
NMFS provided Shell with the comments and recommendations of the
reviewers. The reviewers' comments and changes to the monitoring plan
are addressed later in this document (see ``Monitoring Plan Independent
Peer Review'' section later in this document). NMFS complied with the
requirements under the MMPA and the implementing regulations for
issuing IHAs, and therefore can legally issue an IHA to Shell to
conduct their operations.
Comment 16: AEWC states that because of the critical information
provided through the direct observations of AEWC hunters, the peer
review process must include AEWC representatives.
Response: NMFS' proposed rule for implementing the 1994 amendments
to the MMPA described the process for conducting an independent peer
review of monitoring plans where the proposed activity may affect the
availability of a species or stock for taking for subsistence uses (60
FR 28379, May 31, 1995). While panelists for the independent peer
review are selected by NMFS in consultation with the MMC, AEWC and/or
other Alaska native organizations as appropriate, and the applicant,
selected ``panelists are experts who are not currently employed or
contracted by either the affected Alaskan native organization or the
applicant'' (60 FR 28381, May 31, 1995). Therefore, it was NMFS' intent
not to include AEWC representatives in the independent peer review
process. However, AEWC representatives are afforded the opportunity to
provide information based on their direct observations and experiences
at the annual Open-water Meeting and through the public comment process
on the proposed IHA.
Comment 17: AEWC specifically requests that NMFS release its
response to comments at the earliest possible time and that NMFS not
allow seismic activities to begin until the whaling captains have had a
chance to review NMFS' response. We note that in 2008, NMFS did not
publish its response to comments on Shell's IHA for seismic operations
in the Beaufort Sea until well after the fall subsistence hunt at Cross
Island had concluded and seismic operations had already taken place.
There can be no excuse for allowing seismic operations to take place
directly within one of the most important subsistence hunting areas in
the Arctic Ocean prior to NMFS explaining to the local communities and
whaling captains why it was issuing an IHA over their well-reasoned
objections, which were presented during the public comment period. The
fact that NMFS would not release its response to comments until after
the activities had taken place casts serious doubt on the validity of
NMFS' public involvement process and the underlying analysis of impacts
to subsistence activities and marine mammals.
Response: NMFS publishes its responses to public comments in the
Federal Register notice of issuance or denial. There is no provision
requiring an applicant to wait to begin operations until after review
of NMFS' responses to comments by members of the public. No public
comment period is required on the Federal Register notice announcing
NMFS' final decision. For the issuance of Shell's 2008 and 2009 IHAs,
NMFS reviewed and considered all of the comments submitted before
making its final determinations. Additionally, NMFS summarized and
presented all of the significant issues raised by the commenters to the
decision maker before signing the IHA.
Comment 18: AEWC notes that by regulation, Shell must include with
its application a POC that ensures potential conflicts with subsistence
uses are resolved/mitigated prior to the issuance of an IHA. It is
AEWC's view that
[[Page 55374]]
signing and following the CAA meets the POC requirement as it pertains
to bowhead whales. AEWC states that Shell must agree to all the terms
of the 2009 Open-water CAA in order to mitigate the effects of its
proposed operations. In fact, the CAA was in use prior to NMFS'
issuance of its regulations, and the POC requirement was included in
the regulatory language to point operators to the CAA. In addition to
the CAA setting forth mitigation measures agreed to by the operators
and hunters, a schedule of meetings in preparation for each upcoming
season, and post-season review meetings to evaluate the effectiveness
of mitigation measures employed during a certain season, an operator's
adherence to the terms of the CAA enables the Secretary to make the no
unmitigable adverse impact finding required by Congress in the MMPA.
NMFS is well-advised to heed the long-standing practice of relying on
the CAA to enable the Secretary to make the required finding, as the
agency has no other basis upon which to determine whether a specified
set of mitigation measures will enable hunters to retain access to
migrating marine mammals without increasing the risks associated with
an already high-risk practice.
Response: NMFS believes that the CAA is an important mechanism to
ensure that there is not an unmitigable adverse impact on the
availability of bowhead whales for taking for subsistence uses.
However, the CAA is a document entered into between two entities
(industry applicants and native community stakeholders). NMFS is
neither a signatory to the CAA, nor does it play any formal role in the
development of the CAA other than by requiring industry applicants to
develop a POC pursuant to 50 CFR 216.104(a)(12). Moreover, the CAA is
only one way to make the no unmitigable adverse impact to subsistence
uses finding. Although NMFS has a limited role in this process, NMFS
supports the continuation of the CAA process to help ensure that native
subsistence harvests are successful.
Comment 19: AEWC and NSB state that the conclusion that Shell's
proposed activities will only take small numbers of marine mammals and
will have no more than a negligible impact is not justified by the
information provided. AEWC believes that without knowing more about the
status and number of species present in the Chukchi Sea, this
conclusion cannot be supported. NSB believes that NMFS has not
adequately considered whether marine mammals may be harassed at
received levels significantly lower than 160 dB and has not considered
the possible serious injuries associated with authorizing the proposed
activities.
Response: NMFS believes that it provided sufficient information in
its proposed IHA notice (74 FR 26217, June 1, 2009) to make the small
numbers and negligible impact determinations and that the best
scientific information available was used to make those determinations.
The available information was sufficient to make the necessary
findings. While some published articles indicate that certain marine
mammal species may avoid seismic vessels at levels below 160 dB, NMFS
does not believe that these responses rise to the level of a
significant behavioral response. While studies, such as Miller et al.
(1999), have indicated that some bowhead whales may have started to be
deflected from their migratory path 35 km (21.7 mi) from the seismic
vessel, it should be pointed out that these minor course changes are
during migration and, as described in MMS' 2006 Final Programmatic
Environmental Assessment (PEA), have not been seen at other times of
the year and during other activities. To show the contextual nature of
this minor behavioral modification, recent monitoring studies of
Canadian seismic operations indicate that feeding, non-migratory
bowhead whales do not move away from a noise source at an SPL of 160
dB. Therefore, while bowheads may avoid an area of 20 km (12.4 mi)
around a noise source, when that determination requires a post-survey
computer analysis to find that bowheads have made a 1 or 2 degree
course change, NMFS believes that does not rise to a level of a
``take.'' NMFS therefore continues to estimate ``takings'' under the
MMPA from impulse noises, such as seismic, as being at a distance of
160 dB (re 1 microPa).
NMFS has determined that Shell's activities will not cause serious
injury to marine mammals. As explained throughout this Federal Register
Notice, it is highly unlikely that marine mammals would be exposed to
SPLs that could result in serious injury or mortality. The best
scientific information indicates that an auditory injury is unlikely to
occur, as apparently sounds need to be significantly greater than 180
dB for injury to occur (Southall et al., 2007). The 180-dB radius for
the airgun array to be used by Shell is 160 m (525 ft). Therefore, if
injury were possible from Shell's activities, the animal would need to
be closer than 160 m (525 ft). However, based on the configuration of
the airgun array and streamers, it is highly unlikely that a marine
mammal would be that close to the seismic vessel. Mitigation measures
described later in this document will be implemented should a marine
mammal enter this small zone around the airgun array.
Comment 20: AEWC notes that based on the density estimates, Shell
is predicting that an average of 692 and a maximum of 1,078 ringed
seals may be exposed to seismic sounds. These are by no means ``small
numbers'' of marine mammals that will be subjected to impacts as a
result of Shell's operations. NSB notes that Shell's application states
that approximately 2 percent of the Bering-Chukchi-Beaufort stock of
bowhead whales will be exposed to sounds greater than or equal to 160
dB (rms). This is a large percentage of the population.
Response: NMFS determined that the small numbers requirement has
been satisfied. Shell has predicted that an average of 692 ringed seals
will be exposed to SPLs of 160 dB or greater during operations. This
does not mean that this is the number of ringed seals that will
actually exhibit a disruption of behavioral patterns in response to the
sound source; rather, it is simply the best estimate of the number of
animals that potentially could have a behavioral modification due to
the noise. For example, Moulton and Lawson (2002) indicate that most
pinnipeds exposed to seismic sounds lower than 170 dB do not visibly
react to that sound, and, therefore, pinnipeds are not likely to react
to seismic sounds unless they are greater than 170 dB re 1 microPa
(rms).
The Level B harassment take estimate of 692 ringed seals is a small
number, at least in relative terms, in that it represents only 0.3
percent of the regional stock size of that species (249,000), if each
``exposure'' at 160 dB represents an individual ringed seal. The
percentage would be even lower if a higher SPL is required for a
behavioral reaction (as is expected) or, if as expected, animals move
out of the seismic area. As a result, NMFS determined that these
``exposure'' estimates are conservative, and seismic surveys will
actually affect less than 0.3 percent of the Chukchi Sea ringed seal
population.
Regarding bowhead whales, this percentage is a remnant from when
Shell was going to conduct its full suite of surveys in both the
Beaufort and Chukchi Seas. As mentioned earlier in this document, the
Beaufort Sea surveys and the Chukchi Sea ice gouge survey were
cancelled for the 2009/2010 season. Shell's Chukchi Sea site clearance
and shallow hazards surveys are estimated to take only one bowhead
whale, representing less than 0.01
[[Page 55375]]
percent of the Bering-Chukchi-Beaufort stock of bowhead whales.
Comment 21: AEWC states that Shell should be required to engage in
monitoring activities that are separate and apart from its oil and gas
activities (see 50 CFR 216.104(a)(14)). These activities must be
separate from Shell's proposed oil and gas related operations, since
any data from such operations is skewed in light of marine mammals'
avoidance of the vessels and seismic noise.
Response: In 2009, Shell and ConocoPhillips are jointly funding an
extensive acoustic monitoring program in the Chukchi Sea. A total of 44
recorders will be distributed both broadly across the Chukchi lease
area and nearshore environment and intensively on the Burger and
Klondike lease areas. The broad area arrays are designed to capture
both general background soundscape data and marine mammal call data
across the lease area. Shell hopes to gain insights into large-scale
distribution of marine mammals, identification of marine mammal species
present, movement and migration patterns, and general abundance data.
Many of these recorders will be placed tens of miles away from the site
clearance and shallow hazards surveys. Additionally, these recorders
will remain deployed after completion of Shell's survey work in 2009.
Pursuant to 50 CFR 216.104(a)(14), an applicant must include
``suggested means of learning of, encouraging, and coordinating
research opportunities, plans, and activities relating to reducing such
incidental taking and evaluating its effects.'' There is no requirement
that this information or monitoring be conducted separate and apart
from the authorized activities, since the research is supposed to
evaluate the effects of the taking.
Marine Mammal Impact Concerns
Comment 22: AWL, NSB, and AEWC noted that NMFS has acknowledged
that permanent threshold shift (PTS) qualifies as a serious injury.
Therefore, if an acoustic source at its maximum level has the potential
to cause PTS and thus lead to serious injury, it would not be
appropriate to issue an IHA for the activity (60 FR 28381, May 31,
1995). AEWC states that therefore an LOA is required here. While the
airguns proposed by Shell are smaller than those associated with
typical 2D/3D deep marine surveys, the noise they produce is still
considerable, as evidenced by the estimated 120 dB radius that extends
out to 24 km (15 mi). These groups state that in the proposed IHA, NMFS
did not rule out the possibility of animals incurring PTS (74 FR 26222,
June 1, 2009). Although NMFS characterizes the possibility as unlikely,
it nevertheless relies on mitigation measures, such as ramp-ups and
exclusion zones, to ``minimize'' the ``already-minimal'' probability of
PTS.
Response: In the proposed rule implementing the process to apply
for and obtain an IHA, NMFS stated that authorizations for harassment
involving the ``potential to injure'' would be limited to only those
that may involve non-serious injury (60 FR 28380, May 31, 1995).
However, NMFS goes on to say that ``if the review of an application for
incidental harassment indicates there is a potential for serious injury
or death, NMFS proposes that it would either (1) determine that the
potential for serious injury can be negated through mitigation
requirements that could be required under the authorization or (2)
deny'' (Ibid) the IHA and require the applicant to petition for
regulations and LOA. As stated several times in this document and
previous Federal Register notices for seismic activities, there is no
empirical evidence that exposure to pulses of airgun sound can cause
PTS in any marine mammal, even with large arrays of airguns (see
Southall et al., 2007). PTS is thought to occur several decibels above
that inducing mild temporary threshold shift (TTS), the mildest form of
hearing impairment (a non-injurious effect). NMFS (1995, 2000)
concluded that cetaceans and pinnipeds should not be exposed to pulsed
underwater noise at received levels exceeding, respectively, 180 and
190 dB re 1 microPa (rms). The established 180- and 190-dB re 1 microPa
(rms) criteria are the received levels above which, in the view of a
panel of bioacoustics specialists convened by NMFS before TTS
measurements for marine mammals started to become available, one could
not be certain that there would be no injurious effects, auditory or
otherwise, to marine mammals. As summarized later in this document,
data that are now available imply that TTS is unlikely to occur unless
bow-riding odontocetes are exposed to airgun pulses much stronger than
180 dB re 1 Pa rms (Southall et al., 2007). Additionally, while the
Federal Register notice cited by the commenters states that NMFS
considered PTS to be a serious injury (60 FR 28380, May 31, 1995), our
understanding of anthropogenic sound and the way it impacts marine
mammals has evolved since then, and NMFS no longer considers PTS to be
a serious injury. NMFS has defined ``serious injury'' in 50 CFR 216.3
as ``...any injury that will likely result in mortality.'' There are no
data that suggest that PTS would be likely to result in mortality,
especially the limited degree of PTS that could hypothetically be
incurred through exposure of marine mammals to seismic airguns at the
level and for the duration that are likely to occur in this action.
The extent of the 120-dB radius does not indicate that animals may
be seriously injured. Additionally, NMFS has required monitoring and
mitigation measures to negate the possibility of marine mammals being
seriously injured as a result of Shell's activities. In the proposed
IHA, NMFS determined that no cases of TTS are expected to result from
Shell's activities. Based on this determination and the explanation
provided here, PTS is also not expected. Therefore, an IHA is
appropriate.
Comment 23: AEWC and NSB state that research is increasingly
showing that marine mammals may remain within dangerous distances of
seismic operations rather than leave a valued resource such as a
feeding ground (see Richardson, 2004). The International Whaling
Commission (IWC) scientific committee has indicated that the lack of
deflection by feeding whales in Camden Bay (during Shell seismic
activities) likely shows that whales will tolerate and expose
themselves to potentially harmful levels of sound when needing to
perform a biologically vital activity, such as feeding (mating, giving
birth, etc.). Thus, the noise from Shell's proposed operations could
injure marine mammals if they are close enough to the source.
Response: If marine mammals, such as bowhead whales, remain near a
seismic operation to perform a biologically vital activity, such as
feeding, depending on the distance from the vessel and the size of the
160-dB radius, the animals may experience some Level B harassment.
Depending on the distance of the animals from the vessel and the number
of individual whales present, certain mitigation measures are required
to be implemented. If an aggregation of 12 or more mysticete whales are
detected within the 160-dB radius, then the airguns must be shutdown
until the aggregation is no longer within that radius. Additionally, if
any whales are sighted within the 180-dB radius of the active airgun
array, then either a power-down or shutdown must be implemented
immediately. For the reasons stated throughout this document, NMFS has
determined that Shell's operations will not injure marine mammals.
[[Page 55376]]
Comment 24: AWL and NSB state that the standard for determining
whether an IHA is appropriate is exceptionally protective. If there is
even the possibility of serious injury, NMFS must establish that the
``potential for serious injury can be negated through mitigation
requirements'' (60 FR 28380, May 31, 1995; emphasis added). Reports
from previous surveys, however, indicate that, despite monitored
exclusion zones, marine mammals routinely stray too close to the
airguns. AEWC states that the safety radii proposed by Shell do not
negate injury.
Perhaps, more importantly, the documented exposures were recorded
only because conditions were such that the marine mammals could be
observed, but this only represents a fraction of the time that airguns
are operating. Marine mammal observers (MMOs) cannot see animals at the
surface when it is dark or during the day because of fog, glare, rough
seas, the small size of animals such as seals, and the large portion of
time that animals spend submerged. Shell has acknowledged that reported
sightings are only ``minimum'' estimates of the number of animals
potentially affected by surveying. AWL, NSB, and AEWC note that
although NMFS recognizes that infra-red goggles and night-vision
binoculars are of ``limited'' effectiveness when visibility is low, its
only response for Shell's 2009 surveying is that MMOs are relieved of
monitoring the exclusion zones at night, except during periods before
and during ramp-ups.
NMFS appears to simply presume that marine mammals will naturally
avoid airguns when they are operating at full strength, removing the
need for monitoring when conditions prevent MMOs from effectively
watching for intrusions into the exclusion zones. That premise is not
supported by the survey data, indicating that shutdowns and power-downs
have repeatedly proven necessary. The requirement for ramp-up rests on
the same foundation that marine mammals will leave an affected area as
a result of increasing noise. Yet, as the Joint Subcommittee on Ocean
Science & Technology report noted, although ramp-up is a widely imposed
practice, ``there has never been a demonstration that it works as
intended.'' Because NMFS has not negated the possibility of serious
injury from Shell's 2009 seismic surveying, it may not issue an IHA.
Response: As has already been stated several times in this
document, recent literature has indicated that sounds need to be
significantly higher than 180 dB to cause injury to marine mammals (see
Southall et al., 2007). Therefore, the 180- and 190-dB safety zones are
conservative. The survey reports indicate that mitigation measures
(i.e., power-downs or shutdowns) were implemented, thus preventing the
animals from being exposed to more than one or two seismic pulses.
Additionally, Shell's operations will occur in an area where periods of
darkness do not begin until early September. Beginning in early
September, there will be approximately 1-3 hours of darkness each day,
with periods of darkness increasing by about 30 min each day. By the
end of the survey period, there will be approximately 8 hours of
darkness each day.
The source vessel will be traveling at speeds of about 1-5 knots
(1.9-9.3 km/hr). With a 180-dB safety range of 160 m (525 ft), the
vessel will have moved out of the safety zone within a few minutes. As
a result, during underway survey operations, MMOs are instructed to
concentrate on the area ahead of the vessel, not behind the vessel
where marine mammals would need to be voluntarily swimming towards the
vessel to enter the 180-dB zone. In fact, in some of NMFS' IHAs issued
for scientific seismic operations, shutdown is not required for marine
mammals that approach the vessel from the side or stern in order to
ride the bow wave or rub on the seismic streamers deployed from the
stern (and near the airgun array) as some scientists consider this a
voluntary action on the part of an animal that is not being harassed or
injured by seismic noise. While NMFS concurs that shutdowns are not
likely warranted for these voluntary approaches, in the Arctic Ocean,
all seismic surveys are shutdown or powered down for all marine mammal
close approaches. Also, in all seismic IHAs, including Shell's IHA,
NMFS requires that the safety zone be monitored for 30 min prior to
beginning ramp-up to ensure that no marine mammals are present within
the safety zones. Implementation of ramp-up is required because it is
presumed it would allow marine mammals to become aware of the
approaching vessel and move away from the noise, if they find the noise
annoying. Data from 2007 and 2008, when Shell had support boats
positioned 1 km (0.62 mi) on each side of the 3D seismic vessel,
suggest that marine mammals do in fact move away from an active source
vessel. In those instances, more seals were seen from the support
vessels than were seen from the source vessels during active seismic
operations. Additionally, research has indicated that some species tend
to avoid areas of active seismic operations (e.g., bowhead whales, see
Richardson et al., 1999).
NMFS has determined that an IHA is the proper authorization
required to cover Shell's survey. As described in other responses to
comments in this document, NMFS does not believe that there is a risk
of serious injury or mortality from these activities. The monitoring
reports from 2006, 2007, and 2008 do not note any instances of serious
injury or mortality (Patterson et al., 2007; Funk et al., 2008; Ireland
et al., 2009). Additionally, NMFS is confident it has met all of the
requirements of section 101(a)(5)(D) of the MMPA (as described
throughout this document) and therefore can issue an IHA to Shell for
its survey operations in 2009/2010.
Comment 25: AWL, Dr. Bain, NSB, and AEWC believe that NMFS has not
adequately considered whether marine mammals may be harassed at
received levels significantly lower than 160 dB. Here, NMFS calculated
harassment from Shell's proposed surveying based on the exposure to
marine mammals to sounds at or above 160 dB. This uniform approach to
harassment, however, does not take into account known reactions of
marine mammals in the Arctic to levels of noise far below 160 dB. These
letters state that bowhead, gray, killer, and beluga whales and harbor
porpoise react to sounds lower than 160 dB. At least in the case of
bowhead whales, a 120-dB level is more appropriate to assess levels of
harassment.
Citing several papers on killer whales and harbor porpoise, Dr.
Bain states that major behavioral changes of these animals appear to be
associated with received levels of around 135 dB re 1 microPa, and that
minor behavioral changes can occur at received levels from 90-110 dB re
1 microPa or lower. He also states that belugas have been observed to
respond to icebreakers by swimming rapidly away at distances up to 80
km, where received levels were between 94 and 105 dB re 1 microPa.
Belugas exhibited minor behavioral changes such as changes in
vocalization, dive patterns, and group composition at distances up to
50 km (NRC, 2003), where received levels were likely around 120 dB.
AEWC also states that in conducting scoping on its national
acoustic guidelines for marine mammals, NMFS noted that the existing
system for determining take (i.e., the 160 dB mark) ``considers only
the sound pressure level of an exposure but not its other attributes,
such as duration, frequency, or repetition rate, all of which are
critical for assessing impacts on marine mammals'' and ``also assumes a
[[Page 55377]]
consistent relationship between rms (root-mean-square) and peak
pressure values for impulse sounds, which is known to be inaccurate
under certain (many) conditions'' (70 FR 1871, 1873, January 11, 2005).
Thus, NMFS itself has recognized that 160 dB (rms) is not an adequate
measure.
Response: The best information available to date for reactions by
bowhead whales to noise, such as seismic, is based on the results from
the 1998 aerial survey (as supplemented by data from earlier years) as
reported in Miller et al. (1999). In 1998, bowhead whales below the
water surface at a distance of 20 km (12.4 mi) from an airgun array
received pulses of about 117-135 dB re 1 microPa rms, depending upon
propagation. Corresponding levels at 30 km (18.6 mi) were about 107-126
dB re 1 Pa rms. Miller et al. (1999) surmise that deflection may have
begun about 35 km (21.7 mi) to the east of the seismic operations, but
did not provide SPL measurements to that distance and noted that sound
propagation has not been studied as extensively eastward in the
alongshore direction, as it has northward, in the offshore direction.
Therefore, while this single year of data analysis indicates that
bowhead whales may make minor deflections in swimming direction at a
distance of 30-35 km (18.6-21.7 mi), there is no indication that the
SPL where deflection first begins is at 120 dB, it could be at another
SPL lower or higher than 120 dB. Miller et al. (1999) also note that
the received levels at 20-30 km (12.4-18.6 mi) were considerably lower
in 1998 than have previously been shown to elicit avoidance in bowheads
exposed to seismic pulses. However, the seismic airgun array used in
1998 was larger than the ones used in 1996 and 1997. Therefore, NMFS
believes that it cannot scientifically support adopting any single SPL
value below 160 dB and apply it across the board for all species and in
all circumstances. Second, these minor course changes occurred during
migration and, as indicated in MMS' 2006 PEA, have not been seen at
other times of the year and during other activities.
Third, as stated in the past, NMFS does not believe that minor
course corrections during a migration rise to a level of being a
significant behavioral response. To show the contextual nature of this
minor behavioral modification, recent monitoring studies of Canadian
seismic operations indicate that when, not migrating, but involved in
feeding, bowhead whales do not move away from a noise source at an SPL
of 160 dB. Therefore, while bowheads may avoid an area of 20 km (12.4
mi) around a noise source, when that determination requires a post-
survey computer analysis to find that bowheads have made a 1 or 2
degree course change, NMFS believes that does not rise to a level of a
``take.'' NMFS therefore continues to estimate ``takings'' under the
MMPA from impulse noises, such as seismic, as being at a distance of
160 dB (re 1 Pa). However, monitoring a 120-dB radius in the Chukchi
Sea is not practicable and due to safety concerns, NMFS would not
require this level of monitoring in the Chukchi Sea.
Although it is possible that marine mammals could react to any
sound levels detectable above the ambient noise level within the
animals' respective frequency response range, this does not mean that
such animals would react in a biologically significant way. According
to experts on marine mammal behavior, the degree of reaction which
constitutes a ``take,'' i.e., a reaction deemed to be biologically
significant that could potentially disrupt the migration, breathing,
nursing, breeding, feeding, or sheltering, etc., of a marine mammal is
complex and context specific, and it depends on several variables in
addition to the received level of the sound by the animals. These
additional variables include, but are not limited to, other source
characteristics (such as frequency range, duty cycle, continuous vs.
impulse vs. intermittent sounds, duration, moving vs. stationary
sources, etc.); specific species, populations, and/or stocks; prior
experience of the animals (naive vs. previously exposed); habituation
or sensitization of the sound by the animals; and behavior context
(whether the animal perceives the sound as predatory or simply
annoyance), etc. (Southall et al., 2007).
The references cited in the comment letters address different
source characteristics (continuous sound rather than impulse sound that
are planned for the proposed shallow hazard and site clearance surveys)
or species (killer whales and harbor proposes) that rarely occur in the
proposed Arctic action area. Much research regarding bowhead and gray
whales response to seismic survey noises has been conducted in addition
to marine mammal monitoring studies during prior seismic surveys.
Detailed descriptions regarding behavior responses of these marine
mammals to seismic sounds are available (e.g., Richardson et al., 1995;
review by Southall et al., 2007), and are also discussed in this
document. Additionally, as Shell does not intend to use ice-breakers
during its operations, statements regarding beluga reactions to
icebreaker noise are not relevant to this activity.
Regarding the last point raised in this comment by AEWC, NMFS
recognizes the concern. Based on the information and data contained in
Southall et al. (2007), NMFS is moving towards implementing a dual
criteria for impacts of noise on marine mammals. However, until
guidelines are available, NMFS will continue to use the 160-dB
threshold for determining the level of take of marine mammals by Level
B harassment for impulse noise (such as from airguns).
Comment 26: NSB and AWL note that this IHA, as currently proposed,
is based on uncertainties that are not allowed under the MMPA. Citing
comments made by NMFS on recent MMS LS Environmental Impact Statements,
they note that NMFS stated that without more current and thorough data
on the marine mammals in the Chukchi Sea and their use of these waters,
it would be difficult to make the findings required by the MMPA. NMFS
also specifically observed that activities ``occurring near productive
forage areas such as the Hanna Shoal'' or ``along migratory corridors''
are most likely to encounter and impact marine mammals. Shell's
proposed surveying for 2009 will likely take place proximate to the
Hanna Shoal and within the pathway for migrating bowheads.
It is generally recognized that there is much unknown about the
range of potential effects of sound on marine mammals, especially long-
term sublethal effects and the impact of exposure to increasing levels
of noise year after year. NMFS noted in both sets of LS comments that
the ``continued lack of basic audiometric data for key marine mammal
species'' that occur throughout the Chukchi Sea inhibits the ``ability
to determine the nature and biological significance of exposure to
various levels of both continuous and impulsive oil and gas activity
sounds.'' Again, NMFS stressed that additional data should be obtained
for the agency to consider authorizing incidental taking under the MMPA
and the Endangered Species Act (ESA). AWL also states that the need for
more information regarding the effects of sound and the appropriate
mitigation measures was emphasized in a recent report issued by an
interagency task force led by a representative from NOAA (JSOST, 2009).
This lack of information runs up against the precautionary nature of
the MMPA. Nor can NMFS claim the lack of available information
justifies its decision. NMFS has an affirmative obligation to find that
impacts are no more than ``negligible''
[[Page 55378]]
and limited to the harassment of only ``small numbers of marine
mammals.''
NSB also notes that Shell's application contains several references
to the lack of evidence for damage to auditory mechanisms of several
marine mammals. A lack of data does not amount to a lack of evidence.
Shell needs to provide actual citations that show a lack of damage.
These citations must be from studies of baleen whales, belugas, and
pinnipeds that were focused on the assessment of this type of damage.
But this information does not exist for the noise produced typical of
Arctic open-water seismic operations. In fact, the basic anatomy of
bowhead whale auditory apparatus has not been investigated.
Response: NMFS agrees that there is some uncertainty on the current
status of some marine mammal species in the Chukchi Sea and on impacts
to marine mammals from seismic surveys. NMFS is currently proposing to
conduct new population assessments for Arctic pinniped species, and
current information is available on-line through the Stock Assessment
Reports (SARs). In regard to impacts, there is no indication that
seismic survey activities are having a long-term impact on marine
mammals. For example, apparently, bowhead whales continued to increase
in abundance during periods of intense seismic in the Chukchi Sea in
the 1980s (Raftery et al., 1995; Angliss and Outlaw, 2007), even
without implementation of current mitigation requirements. As a result,
NMFS believes that seismic survey noise in the Arctic will affect only
small numbers of and have no more than a negligible impact on marine
mammals in the Chukchi Sea. However, as NMFS recognizes that there is a
lack of information on certain aspects of the marine mammals in the
Chukchi Sea and the potential impacts on marine mammal species and
stocks from offshore oil exploration, Shell (in collaboration with
other offshore companies) has developed and implemented a monitoring
program to address data gaps. NMFS used the best scientific information
available to make the required findings under the MMPA. As explained in
this document, based on that information, NMFS has determined that
Shell's activities will affect only small numbers of marine mammals,
will have a negligible impact on affected species or stocks, and will
not have an unmitigable adverse impact on subsistence uses of the
affected species or stocks.
Comment 27: The MMC recommends that the IHA require that operations
be suspended immediately if a dead or seriously injured marine mammal
is found in the vicinity of the operations and if that death or injury
could be attributable to the applicant's activities. Any suspension
should remain in place until NMFS has: (1) reviewed the situation and
determined that further deaths or serious injuries are unlikely to
occur; or (2) issued regulations authorizing such takes under section
101(a)(5)(A) of the MMPA.
Response: NMFS concurs with the MMC's recommendation and will
require the immediate suspension of seismic activities if a dead or
injured marine mammal has been sighted within an area where the Holder
of the IHA deployed and utilized seismic airguns within the past 24
hours. Additionally, Shell is required to notify the Marine Mammal
Stranding Network of stranded marine mammals.
Comment 28: NSB and AEWC note that stranded marine mammals or their
carcasses are also a sign of injury. NMFS states in its notice that it
``does not expect any marine mammal will...strand as a result of the
proposed survey'' (74 FR 26222, June 1, 2009). In reaching this
conclusion, NMFS claims that strandings have not been recorded for the
Beaufort and Chukchi Seas. NSB and AEWC included a paper, which
documents 25 years of stranding data, including five whales reported in
2008 alone in comparison with the five dead whales that were reported
in the same area over the course of 25 years (Rosa, 2009). NSB also
included some stranding reports and newspaper articles for bowhead
whales discovered in the last 25 years.
In light of the increase in seismic operations in the Arctic since
2006, NSB's study raises serious concerns about the impacts of these
operations and their potential to injure marine mammals. While we think
this study taken together with the June 2008 stranding of ``melon
headed whales off Madagascar that appears to be associated with seismic
surveys'' (74 FR 26222, June 1, 2009) demonstrate that seismic
operations have the potential to injure marine mammals beyond beaked
whales (and that Shell needs to apply for an LOA for its operations),
certainly NSB's study shows that direct injury of whales is on-going.
These direct impacts must be analyzed and explanations sought out
before additional activities with the potential to injure marine
mammals are authorized.
Thus, NMFS must explain how, in light of this new information,
Shell's application does not have the potential to injure marine
mammals. NMFS must also require Shell to report the numbers and species
of dead animals it encounters and require necropsies to be performed on
dead marine mammals found during Shell's operations.
Response: NMFS has reviewed the information provided by NSB and
AEWC regarding marine mammal strandings in the Arctic. The stranding
reports and accompanying newspaper articles for the three bowhead
whales discovered in the 1980s and 1990s do not link the deaths to
seismic activities. Rather, the two more detailed reports point to
entanglement in fishing gear as the possible cause of death in both
instances. Additionally, Rosa (2009) does not provide any evidence
linking the cause of death for the bowhead carcasses reported in 2008
to seismic operations. Additionally, the increased reporting of
carcasses in the Arctic since 2006 may also be a result of increased
reporting effort and does not necessarily indicate that there were
fewer strandings prior to 2008. MMOs aboard industry vessels in the
Beaufort and Chukchi Seas have been required to report sightings of
injured and dead marine mammals to NMFS as part of the IHA requirements
only since 2006.
Regarding the June 2008 stranding of melon headed whales off
Madagascar, information available to NMFS at this time indicates that
the seismic airguns were not active around the time of the stranding.
While the NSB study (Rosa, 2009) does present information regarding the
injury of whales in the Arctic, it does not link the cause of the
injury to seismic survey operations. As NMFS has stated previously, the
evidence linking marine mammal strandings and seismic surveys remains
tenuous at best. Two papers, Taylor et al. (2004) and Engel et al.
(2004) reference seismic signals as a possible cause for a marine
mammal stranding.
Taylor et al. (2004) noted two beaked whale stranding incidents
related to seismic surveys. The statement in Taylor et al. (2004) was
that the seismic vessel was firing its airguns at 1300 hrs on September
24, 2004, and that between 1400 and 1600 hrs, local fishermen found
live stranded beaked whales 22 km (12 nm) from the ship's location. A
review of the vessel's trackline indicated that the closest approach of
the seismic vessel and the beaked whales stranding location was 18 nm
(33 km) at 1430 hrs. At 1300 hrs, the seismic vessel was located 25 nm
(46 km) from the stranding location. What is unknown is the location of
the beaked whales prior to the stranding in relation to the seismic
vessel, but the close timing of events indicates that the distance was
not less than 18 nm (33 km). No physical evidence for a link between
the seismic survey and the
[[Page 55379]]
stranding was obtained. In addition, Taylor et al. (2004) indicates
that the same seismic vessel was operating 500 km (270 nm) from the
site of the Galapagos Island stranding in 2000. Whether the 2004
seismic survey caused the beaked whales to strand is a matter of
considerable debate (see Cox et al., 2004). However, these incidents do
point to the need to look for such effects during future seismic
surveys. To date, follow up observations on several scientific seismic
survey cruises have not indicated any beaked whale stranding incidents.
Engel et al. (2004), in a paper presented to the IWC in 2004 (SC/
56/E28), mentioned a possible link between oil and gas seismic
activities and the stranding of 8 humpback whales (7 off the Bahia or
Espirito Santo States and 1 off Rio de Janeiro, Brazil). Concerns about
the relationship between this stranding event and seismic activity were
raised by the International Association of Geophysical Contractors
(IAGC). The IAGC (2004) argues that not enough evidence is presented in
Engel et al. (2004) to assess whether or not the relatively high
proportion of adult strandings in 2002 is anomalous. The IAGC contends
that the data do not establish a clear record of what might be a
``natural'' adult stranding rate, nor is any attempt made to
characterize other natural factors that may influence strandings. As
stated previously, NMFS remains concerned that the Engel et al. (2004)
article appears to compare stranding rates made by opportunistic
sightings in the past with organized aerial surveys beginning in 2001.
If so, then the data are suspect.
Moreover, marine mammal strandings do not appear to be related to
seismic survey work in the Arctic Ocean. Additionally, NMFS notes that
in the Beaufort Sea, aerial surveys have been conducted by MMS and
industry during periods of industrial activity (and by MMS during times
with no activity). No marine mammal strandings have been observed
during these surveys, that appear to be related to seismic survey
activity, and none have been reported by NSB inhabitants (although dead
marine mammals are occasionally sighted). Finally, if bowhead and gray
whales react to sounds at very low levels by making minor course
corrections to avoid seismic noise and mitigation measures require
Shell to ramp-up the seismic array to avoid a startle effect,
strandings, similar to what was observed in the Bahamas in 2000, are
unlikely to occur in the Arctic Ocean. Therefore, NMFS does not expect
any marine mammals will incur serious injury or mortality as a result
of Shell's 2009/2010 survey operations, so an LOA is not needed.
Lastly, Shell is required to report all sightings of dead and
injured marine mammals to NMFS and to notify the Marine Mammal Health
and Stranding Response Network. However, Shell is not permitted to
conduct necropsies on dead marine mammals. Necropsies can only be
performed by people authorized to do so under the Marine Mammal Health
and Stranding Response Program MMPA permit. NMFS is currently
considering different methods for marking carcasses to reduce the
problem of double counting. However, a protocol has not yet been
developed, so marking is not required in the IHA.
Comment 29: AWL states that additional mitigation measures are
needed to address vulnerable cow/calf pairs. When assessing the
potential impacts of noise, NMFS and MMS have recognized that bowhead
cow/calf pairs merit special conditions. NMFS acknowledged in 2008 that
more information is needed about the potential effects of even a single
seismic survey on the health of females and very young calves.
Collectively, these factors led NMFS to require a safety zone tailored
to protect multiple migrating cow/calf pairs for the surveying that
took place in both seas in 2006 and for the subsequent surveying in the
Beaufort Sea in 2007 and 2008. These same factors compel a 120-dB
safety zone for migrating cow/calf pairs during Shell's proposed
surveying in the Chukchi Sea in 2009.
Response: The 120-dB safety zone for migrating bowhead cow/calf
pairs was implemented to reduce impacts to the animals as they migrated
through the narrow corridor in the Beaufort Sea. However, in the
Chukchi Sea, the migratory corridor for bowhead whales is wider and
more open, thus the 120-dB ensonified zone would not impede bowhead
whale migration. The animals would be able to swim around the
ensonified area. Additionally, NMFS has not imposed a requirement to
conduct aerial monitoring of the 120-dB safety zone for the occurrence
of four or more cow-calf pairs in the Chukchi Sea because it is not
practicable. First, NMFS determined that monitoring the 120-dB safety
zone was not necessary in the Chukchi Sea because there would not be
the level of effort by 3D seismic survey operations found in 2006. This
provides cow/calf pairs with sufficient ability to move around the
seismic source without significant effort. Second, aerial surveys are
not required in the Chukchi Sea because they have currently been
determined to be impracticable due to lack of adequate landing
facilities, the prevalence of fog and other inclement weather in that
area, potentially resulting in an inability to return to the airport of
origin, thereby resulting in safety concerns.
Comment 30: AEWC states the analysis that is provided regarding
bowhead whales assumes, without supporting evidence, their migrations
through the Chukchi follow a narrow path. AEWC and NSB note that
insufficient data exist about bowhead whale and other species' use of
the Chukchi, and Shell should not be authorized to operate in this
sensitive area until further information has been collected. For this
same reason, AEWC asks NMFS to cap the seismic and related activities
that it authorizes each year in the Arctic to ensure that we are not
damaging sensitive marine resources that are relied on for subsistence
in ways that we are unaware of.
Response: NMFS disagrees with the first statement. In fact, in
NMFS' Notice of Proposed IHA (74 FR 26217, June 1, 2009), NMFS stated
that the bowhead migration pathway is narrower and more well defined in
the Beaufort Sea than in the Chukchi Sea. Regarding the comment about
insufficient data, please see the response to comment 26 in this
document. While NMFS acknowledges that there is some uncertainty about
the status of marine mammals in and their use of the Chukchi Sea,
population assessments are being conducted. NMFS used the best
scientific information available to make the necessary findings
required under the MMPA. Using the best available information, NMFS
determined that Shell's survey will affect only small numbers of marine
mammals, will have a negligible impact on affected species or stocks,
and will not have an unmitigable adverse impact on the affected species
or stocks for subsistence uses.
NMFS does not authorize the actual seismic and related activities.
That authority falls to MMS. Rather, NMFS authorizes the take of marine
mammals incidental to a specified activity (in this case, seismic
activity) pursuant to sections 101(a)(5)(A) and (D) of the MMPA. While
NMFS agrees that limiting the number of geophysical operations in
either the Arctic would reduce impacts on marine mammals, this
condition is unnecessary for a determination on whether there will be
an unmitigable adverse impact on subsistence uses of marine mammals
because applicants are required to complete a POC to ensure that their
activities will not affect subsistence hunts. As described elsewhere in
this document, Shell has incorporated design features into their
program,
[[Page 55380]]
signed the 2009 CAA, and implemented a POC, and NMFS has included
measures in the IHA to ensure no unmitigable adverse impacts to
subsistence hunts.
NMFS understands that, under the terms of an OCS lease, the lessee
is required to make progress on exploration and development on its
leases in order to hold that lease beyond the initial lease term.
Ancillary activities (such as seismic and shallow hazard surveys) are
those activities conducted on a lease site to obtain data and
information to meet MMS' regulations to explore and develop a lease. If
a limit is placed by NMFS on the number of ancillary activities
authorized for a planning area in a given year, NMFS may preclude the
lessee from complying with MMS regulations to proceed in a timely
manner on exploring or developing its OCS leases. Therefore, based on
both practicability and that it is not necessary, NMFS has not adopted
this suggested mitigation measure. However, NMFS encourages industry
participants to work together to reduce seismic sounds in the Arctic
Ocean through cooperative programs in data collection to reduce impacts
on marine mammals.
Comment 31: NSB states that Shell needs to consider impacts on
those species that may not occur in the project area in ``meaningful
numbers.''
Response: Although bowhead, beluga, and gray whales and harbor
porpoise are more likely to occur in the project area than other
cetacean species (i.e., humpback, fin, killer, and minke whale), all of
these species were described and analyzed in Shell's application and
NMFS' proposed IHA (74 FR 26217, June 1, 2009).
Comment 32: NSB notes that Shell states, ``These types of surveys,
collectively and individually, have not resulted in impacts of
biological significance to marine mammals of the Arctic...'' Shell does
not have data to support this statement, as Shell and other oil and gas
companies have yet to examine whether there have been impacts of
biological significance from exploration activities in the Beaufort and
Chukchi Seas. Determination of the biological significance of impacts
from oil and gas activities (beyond just behavioral deflection) is
needed. Further, ``biological significance'' must be defined. NSB also
notes that Shell states, ``Any effects would be temporary and of short
duration at any one place.'' It is difficult, if not impossible to
judge this statement from the information included in this IHA.
Response: To date, there have not been any reported large scale
impacts attributable to offshore oil and gas development in the Arctic.
NMFS would expect that villagers who hunt and fish in the offshore
waters would notice changes in marine life. However, NMFS agrees that
there is some uncertainty on the current status of some marine mammal
species in the Beaufort and Chukchi Seas and on impacts on marine
mammals from seismic surveys. NMFS is currently proposing to conduct
new population assessments for Arctic pinniped species and current
information is available on-line through its SARs program. As stated
previously, NMFS determines whether takings by harassment are occurring
based on whether there is a significant behavioral change in
biologically important activity, such as feeding, breeding, migration
or sheltering. All of these activities are potentially important for
reproductive success of a marine mammal population (67 FR 46722, July
16, 2002). In regard to impacts, there is no indication that seismic
survey activities are having a long-term impact on marine mammals. For
example, apparently, bowhead whales continued to increase in abundance
during periods of intense seismic in the Chukchi Sea in the 1980s
(Raftery et al., 1995; Angliss and Outlaw, 2007), even without
implementation of current mitigation requirements. As a result, NMFS
has determined that seismic survey noise in the Arctic will have no
more than a short-term effect on marine mammals in the Chukchi Sea.
Large-scale impact assessments on marine mammal species from
offshore seismic activities have been ongoing since 2006 through the
industry's comprehensive monitoring plan. NMFS along with AEWC, NSB,
oil exploration companies, and others have developed an off-seismic
vessel monitoring program to help address the potential impact of
seismic activities on marine mammals and subsistence uses of marine
mammals. This program is described later in this document (see
``Comprehensive Monitoring Reports''). If NSB wishes to set alternative
priorities for this impact assessment program, it should make that
concern known to NMFS and Shell as soon as possible.
Comment 33: NSB notes that Shell states, ``Excessive amounts of
repeated exposure can lead to overestimation of the number of animals
potentially exposed through double counting.'' NSB indicates that this
can also cause greater harm in animals exposed multiple times/
chronically.
Response: Repeated exposure may cause a marine mammal to exhibit
diminished responsiveness (habituation), or disturbance effects may
persist; the latter is most likely with sounds that are highly variable
in characteristics, infrequent, and unpredictable in occurrence, and
associated with situations that a marine mammal perceives as a threat.
Additionally, the relatively short cross-track distance of the 160-dB
radius associated with Shell's site clearance and shallow hazards
surveys result in little overlap of exposed waters during the survey.
Moreover, as explained in detail elsewhere in this document, marine
mammals will need to be significantly closer to the seismic source and
be exposed to SPLs greater than 180 dB to be injured or killed by the
airgun array. For large airgun arrays (much larger than the array to be
used by Shell in 2009/2010), this distance may be within 200 m (656 ft)
of the vessel. In order for a marine mammal to receive multiple
exposures (and thereby incur PTS), the animal would: (1) need to be
close to the vessel and not detected during the period of multiple
exposure; (2) be swimming in approximately the same direction and speed
as the vessel; and (3) not be deflected away from the vessel as a
result of the noise from the seismic array. Preliminary model
simulations for seismic surveys in the Gulf of Mexico indicate that
marine mammals are unlikely to incur single or multiple exposure levels
that could result in PTS, as the seismic vessel would be moving at
about 4-5 knots, while the marine mammals would not likely be moving
within the zone of potential auditory injury in the same direction and
speed as the vessel, especially for those marine mammals that take
measures to avoid areas of seismic noise.
Comment 35: Citing research on long term adverse effects to whales
and dolphins from whale watching activities (Trites and Bain, 2000;
Bain, 2002; Lusseau et al., 2006), Dr. Bain states that Level B
behavioral harassment could be the primary threat to cetacean
populations.
Response: Although NMFS agrees that long-term, persistent, and
chronic exposure to Level B harassment could have a profound and
significant impact on marine mammal populations, such as described in
the references cited by Dr. Bain, those examples do not reflect the
impacts of seismic surveys to marine mammals for Shell's project.
First, whale watching vessels are intentionally targeting and making
close approaches to cetacean species so the tourists onboard can have a
better view of the animals. Some of these whale/dolphin
[[Page 55381]]
watching examples cited by Dr. Bain occurred in the coastal waters of
the Northwest Pacific between April and October and for extended
periods of time (``[r]ecreational and scientific whale watchers were
active by around 6 a.m., and some commercial whale watching continued
until around sunset''). Thus multiple vessels have been documented to
be in relatively close proximity to whales for about 12 hours a day,
six months a year, not counting some ``out of season'' whale watching
activities and after dark commercial filming efforts. In addition,
noise exposures to whales and dolphins from whale watching vessels are
probably significant due to the vessels' proximity to the animals. To
the contrary, Shell's proposed open-water shallow hazard and site
clearance surveys, along with existing industrial operations in the
Arctic Ocean, do not intentionally approach marine mammals in the
project areas. Shell's survey locations are situated in a much larger
Arctic Ocean Basin, which is far away from most human impacts.
Therefore, the effects from each activity are remote and spread farther
apart, as analyzed in NMFS' 2009 EA, as well as the MMS 2006 PEA.
Shell's site clearance and shallow hazards activities would only be
conducted between August and October for 50 days, weather permitting.
In addition, although studies and monitoring reports from previous
seismic surveys have detected Level B harassment of marine mammals,
such as avoidance of certain areas by bowhead and beluga whales during
the airgun firing, no evidence suggests that such behavioral
modification is biologically significant or non-negligible (Malme et
al., 1986, 1988; Richardson et al., 1987, 1999; Miller et al., 1999,
2005), as compared to those exposed by chronic whale watching vessels
cited by Dr. Bain. Therefore, NMFS believes that potential impacts to
marine mammals in the Chukchi Sea by site clearance and shallow hazards
surveys would be limited to Level B harassment only, and due to the
limited scale and remoteness of the project in relation to a large
area, such adverse effects would not accumulate to the point where
biologically significant effects would be realized.
Comment 36: Dr. Bain states that changes in behavior resulting from
noise exposure could lead to indirect injury in marine mammals in the
wild. He presented several examples to suggest that marine mammals
repeatedly exposed to Level B harassment could result in Level A takes:
(1) Harbor porpoise were observed traveling at high speeds during
exposure to mid-frequency sonar in Haro Strait in 2003 and that
exhaustion from rapid flight could lead to mortality; (2) citing MMS'
(2004) Environmental Assessment on Proposed Oil and Gas Lease Sale 195
in the Beaufort Sea Planning Area (OCS EIS/EA MMS 2004-028) that
feeding requires a prey density of 800 mg/m3 and his own observation,
Dr. Bain is concerned displacement from high productive feeding areas
would negatively affect individual whales and that small cetaceans such
as harbor porpoise would face a risk of death if they are unable to
feed for periods as short as 48 - 72 hours, or they may move into
habitat where they face an increased risk of predation; (3) individual
killer whales have been observed splitting from their pod when
frightened by sonar and that other killer whales' separation from their
social units has resulted in death; (4) TTS may lead to harm, as a
minke whale was nearly struck by a research vessel in the area where
one had been observed fleeing mid-frequency sonar, and blunt force
trauma was identified as a cause of death in the investigation of
harbor porpoise mortalities following exposure to mid-frequency sonar;
and (5) impaired auditory ability may increase predation, as white-
sided dolphins were attacked by killer whales because the noise of the
research vessel caused the approach of the killer whales to go
undetected by the dolphins.
Response: NMFS agrees that it is possible that changes in behavior
or auditory masking resulting from noise exposure could lead to injury
in marine mammals under certain circumstances in the world, such as
those examples/hypotheses raised by Dr. Bain. However, it is not likely
that received SPLs from the site clearance and shallow hazards surveys
would drastically cause changes in behavior or auditory masking in
marine mammals in the vicinity of the action area. First, marine
mammals in the aforementioned examples and hypotheses were exposed to
high levels of non-pulse intermittent sounds, such as military sonar,
which has been shown to cause flight activities (e.g., Haro Strait
killer whales); and continuous sounds such as the vessel, which could
cause auditory masking when animals are closer to the source. The
sources produced by the acoustic equipment and airguns for Shell's site
clearance and shallow hazards surveys are impulse sounds used in
seismic profiling, bathymetry, and seafloor imaging. Unlike military
sonar, seismic pulses have an extremely short duration (tens to
hundreds of milliseconds) and relatively long intervals (several
seconds) between pulses. Therefore, the sound energy levels from these
acoustic sources and small airguns are far lower in a given time
period. Second, the intervals between each short pulse would allow the
animals to detect any biologically significant signals, and thus avoid
or prevent auditory masking. In addition, NMFS requires mitigation
measures to ramp-up acoustic sources at a rate of no more than 6 dB per
5 min. This ramp-up would prevent marine mammals from being exposed to
high level noises without warning, thereby eliminating the possibility
that animals would dramatically alter their behavior (i.e. from a
``startle'' reaction). NMFS also believes that long-term displacement
of marine mammals from a feeding area is not likely because the seismic
vessel is constantly moving, and the maximum 160-dB ensonified radius
is about 1.4 km, which would create an area of ensonification of
approximately 6 km\2\ at any given moment, which constitutes a very
small portion of the Chukchi Sea (0.001 percent). In reality, NMFS
expects the 160-dB ensonified zone to be smaller due to absorption and
attenuation of acoustic energy in the water column.
Comment 36: AEWC states that NMFS does little to assess whether
Level A harassment is occurring as a result of the deflection of marine
mammals as a result of Shell's proposed operations. Deflected marine
mammals may suffer impacts due to masking of natural sounds including
calling to others of their species, physiological damage from stress
and other non-auditory effects, harm from pollution of their
environment, tolerance, and hearing impacts (see Nieukirk et al.,
2004). Not only do these operations disrupt the animals' behavioral
patterns, but they also create the potential for injury by causing
marine mammals to miss feeding opportunities, expend more energy, and
stray from migratory routes when they are deflected. Dr. Bain also
states that there are three main ways that minor behavioral changes,
when experienced by numerous individuals for extended periods of time,
can affect population growth: increased energy expenditure, reduced
food acquisition, and stress (Trites and Bain, 2000).
Response: See the response to comment 35 regarding the potential
for injury. The paper cited by AEWC (Nieukirk et al., 2004) tried to
draw linkages between recordings of fin, humpback, and minke whales and
airgun signals in the western North Atlantic; however, the authors note
the difficulty in assessing impacts based on the data collected. The
authors also state
[[Page 55382]]
that the effects of airgun activity on baleen whales is unknown and
then cite to Richardson et al. (1995) for some possible effects, which
AEWC lists in their comment. There is no statement in the cited study,
however, about the linkage between deflection and these impacts. While
deflection may cause animals to expend extra energy, there is no
evidence that this deflection is causing a significant behavioral
change to a biologically significant activity. In fact, bowhead whales
continued to increase in abundance during periods of intense seismic in
the Chukchi Sea in the 1980s (Raftery et al., 1995; Angliss and Outlaw,
2007). Therefore, NMFS does not believe that injury will occur as a
result of Shell's activities. Additionally, Shell's total data
acquisition activities will occur in an extremely small portion of the
Chukchi Sea (0.2 percent). Therefore, based on the smaller radii
associated with Shell's site clearance and shallow hazards surveys than
the larger 2D or 3D seismic programs and the extremely small area of
the Chukchi Sea where Shell will utilize airguns, it is unlikely that
marine mammals will need to expend extra energy to locate prey or to
have reduced foraging opportunities.
Comment 37: Citing Erbe (2002), AEWC notes that any sound at some
level can cause physiological damage to the ear and other organs and
tissues. Placed in a context of an unknown baseline of sound levels in
the Chukchi Sea, it is critically important that NMFS take a
precautionary approach to permitting additional noise sources in this
poorly studied and understood habitat. Thus, the best available science
dictates that NMFS use a more cautious approach in addressing impacts
to marine mammals from seismic operations.
Response: The statement from Erbe (2002) does not take into account
mitigation measures required in the IHA to reduce impacts to marine
mammals. As stated throughout this document, based on the fact that
Shell will be using a small airgun array (total discharge volume of 40
in\3\) and will implement mitigation measures (i.e., ramp-up, power-
down, shutdown, etc.), NMFS does not believe that there will be any
injury or mortality of marine mammals as a result of Shell's
operations.
Comment 38: AEWC states that in making its negligible impact
determination, NMFS failed to consider several impacts: (1) Non-
auditory, physiological effects, namely stress; (2) the possibility of
vessel strikes needs to be considered in light of scientific evidence
of harm from ship traffic to marine mammals; (3) impacts to marine
mammal habitat, including pollution of the marine environment and the
risk of oil spills, toxic, and nontoxic waste being discharged; (4)
impacts to fish and other food sources upon which marine mammals rely;
(5) specific marine mammals that will be taken, including their age,
sex, and reproductive condition; and (6) the use of multiple airguns at
one time. For this last point, referencing Nieukirk et al. (2004) and
NRC (2003), AEWC states that the impacts from airguns cannot simply be
discounted by assuming that most of the energy is focused vertically,
and, thus, the impacts horizontally are not great. Dr. Bain also notes
that directional sources and arrays produce significant energy in
directions other than their primary direction.
Response: NMFS does not agree that these impacts were not
considered. First, non-auditory, physiological effects, including
stress, were analyzed in the Notice of Proposed IHA (74 FR 26217, June
1, 2009). No single marine mammal is expected to be exposed to high
levels of sound for extended periods based on the size of the airgun
array to be used by Shell and the fact that an animal would need to
swim close to, parallel to, and at the same speed as the vessel to
incur several high intensity pulses. This also does not take into
account the mitigation measures described later in this document.
Second, impacts resulting from vessel strikes and habitat pollution
and impacts to fish were fully analyzed in MMS' 2006 Final PEA and
incorporated by reference into NMFS' 2009 EA for Shell's activities.
Additionally, the proposed IHA analyzed potential impacts to marine
mammal habitat, including prey resources. That analysis noted that
while mortality has been observed for certain fish species found in
extremely close proximity to the airguns, Saetre and Ona (1996)
concluded that mortality rates caused by exposure to sounds are so low
compared to natural mortality that issues relating to stock recruitment
should be regarded as insignificant. Based on the small portion of the
Chukchi Sea that will be ensonified during Shell's activities, less
than 0.1 percent of available food resources are anticipated to be
impacted, which would have little, if any, effect on a marine mammal's
ability to forage successfully.
For the fifth point, please see the response to comment 11. The
age, sex, and reproductive condition must provided when possible.
However, this is often extremely difficult to predict. Additional
mitigation measures for bowhead cow/calf pairs, such as monitoring the
120-dB radius and requiring shutdown when 4 or more cow/calf pairs
enter that zone, were considered but determined to be impracticable for
this survey. As stated elsewhere in this document, due to safety
concerns, aerial surveys are not required in the offshore Chukchi Sea
environment. Regarding the last point raised by AEWC, NMFS analyzed
impacts from the use of an airgun array with a total discharge volume
of 40 in\3\. In its analysis, NMFS did not discount the impacts from
airguns by simply assuming that most of the energy is focused downward
(i.e., vertically). While the fact that the downward direction of the
airguns minimizes sound that is emitted in the horizontal direction,
NMFS fully analyzed the impacts of airgun sounds on marine mammals and
has required monitoring and mitigation measures to reduce the impacts
further. Based on the information contained in this response and the
analyses in the proposed IHA and NMFS' EA, NMFS determined that impacts
to marine mammals as a result of Shell's action will be negligible.
Comment 39: NSB notes that Shell's application states, ``In the
absence of important feeding areas, the potential diversion of a small
number of bowheads is not expected to have any significant or long-term
consequences for individual bowheads or their population. Bowheads,
gray, or beluga whales are not predicted to be excluded from any
habitat.'' If these whales are avoiding the 160 dB and potentially the
120 dB isopleths, and the logic that is used for use of the mitigation
gun is that the sound ``clears'' the area, then, yes, they will most
certainly be excluded from part of their habitat.
Response: NMFS agrees with NSB's statement that whales will likely
be excluded from part of their habitat. However, the exclusion is
expected to be temporary and would not affect feeding opportunities
because only an extremely small fraction of the Chukchi Sea will be
ensonified as a result of Shell's operations (less than 0.2 percent).
Implicit in this conclusion, therefore, is that there will be many
other areas available to whales for feeding and other biologically
important activities.
Acoustic Impacts
Comment 40: Citing studies on noise impacts to chinchillas
(Henderson et al., 1991) and human noise exposure standards by the U.S.
Occupational Safety Health Administration (OSHA), Dr. Bain states,
``[I]n humans, chronic exposure to levels of noise too low to generate
a TTS can result in PTS.'' As OSHA standards require limiting human
[[Page 55383]]
exposure to noise at 115 dBA above threshold to 15 minutes per day, Dr.
Bain concludes that this level is equivalent to 145 dB re 1 microPa for
killer whales. Dr. Bain states that although the reference levels for
sound in air and water are different, this difference is taken into
account when determining thresholds.
Dr. Bain notes that while OSHA's standards are for continuous noise
and assume multi-year exposure, surveys employ multiple intermittent
sources, which in a reverberant environment, have the potential to
become nearly continuous. While individual projects will cause limited
exposure to individual marine mammals, these individuals will
accumulate exposure from natural sources (e.g., wind) and human
activities (e.g., other seismic surveys, vessel traffic) conducted over
the course of their lifetime.
Response: Although NMFS agrees that chronic exposure to noise
levels that would not cause TTS could result in hearing impairment in
the long-term, it is important to understand that such exposure has to
be of a chronic and long-term nature. The OSHA standards for
permissible exposure are based on daily impacts throughout an
employee's career, while the noise exposure to seismic surveys by
marine mammals is short-term and intermittent (surveys occur for 2-3
months in a given year), as described in the Notice of Proposed IHA and
NMFS' EA. In addition, the reference Dr. Bain cites (Henderson et al.,
1991) does not address chronic noise impact to humans. The research by
Henderson et al. (1991) focused on the applicability of the equal
energy hypothesis (EEH) to impact (impulse) noise exposures on
chinchillas, and the results indicated that hearing loss resulting from
exposure to impact noise did not conform to the predictions of the EEH,
which is the basis for OSHA standards for continuous noise exposure.
Most importantly, Dr. Bain's extrapolation of 145 dB re 1 Pa for
killer whale hearing safety from OSHA's 115 dBA is fundamentally flawed
for three reasons:
(1) The reference points when using decibel units that address
sound in air and in water are different. For airborne sounds, such as
those by OSHA, the reference point is 20 microPa, while for underwater
sounds, the reference point is 1 microPa. There is a 26 dB difference
between the values when different reference points are used for the
same sound pressure; therefore, 115 dB re 20 microPa is 141 dB re 1
microPa for the same sound pressure. So 115 dB re 20 microPa in air
above human threshold (defined as 0 dB re 20 microPa in air) would be
141 dB re 1 microPa underwater for the same sound pressure. Using the
lowest threshold of 30 dB re 1 microPa as the killer whale hearing
threshold and assuming that noise impacts to killer whales are the same
as for humans, one could extrapolate that continuous noise exposure of
171 dB re 1 microPa (141 dB over the 30 dB threshold) for 15 minutes
for killer whales would be equivalent to humans exposed to 115 dB re 20
Pa for 15 minutes. Nevertheless, such extrapolation still leaves much
uncertainty since marine mammals have a different mechanism for sound
reception (Au, 1993; Richardson et al., 1995). Some of the most recent
science has shown that for some odontocetes, the onset of TTS when
exposed to impulse noise is much higher (Finneran et al., 2002) than
NMFS' current thresholds.
(2) The decibel values used by OSHA are expressed as broadband A-
weighted sound levels expressed in dBA. This frequency-dependent
weighting function is used to apply to the sound in accordance with the
sensitivity of the human ear to different frequencies. Thus, it is
inappropriate to compare these values to an animal's hearing
capability, including how an animal perceives sound in air (Richardson
et al., 1995). For marine mammals, M-weighting functions have been
suggested based on five different hearing functional groups to address
different hearing sensitivities of different frequencies by each of the
marine mammal groups (Southall et al., 2007).
(3) Finally, the sound characteristic used in OSHA standards is
continuous sound, while the seismic sound from the proposed shallow
hazard and site clearance surveys is impulse sound, which by its very
nature is not a continuous sound. There are several seconds between
each shot, and each shot only lasts for a few milliseconds. Therefore,
the amount of time without seismic sound between each shot is greater
than 99 percent. As there is a significant period of time between shot
events, this does not qualify as a continuous sound source. NMFS' EA
assessed the cumulative impacts from all activities in the Chukchi Sea.
Based on that assessment, NMFS determined that Shell's activities would
not produce any significant cumulative impacts to the human environment
(i.e., marine mammals).
Comment 41: Dr. Bain states that sound sources are typically
divided into continuous and pulsed categories, and that behavioral
effects from pulsed sound are likely to be independent of the
repetition rate and duty cycle and depend primarily on the duration of
the survey. Dr. Bain further states that intermittent pulses can result
in continuously received noise when sound arrives via multiple paths,
which Dr. Bain explains as ``sound that bounces between the bottom and
the surface will take longer to reach an animal than sound traveling
via a direct path,'' and that ``noise can mask signals for a brief
period before and after it is received, meaning an almost continuous
received noise can mask signals continuously.''
Response: NMFS does not agree with Dr. Bain's statement on ocean
acoustics and his subsequent analysis and assessment regarding
underwater sound propagation and its effects to marine mammals. Within
the scientific community on ocean acoustics and bioacoustics, two types
of sound are traditionally recognized: transient sounds (sounds of
relatively short duration) and continuous sounds (sounds that go on and
on). Transient sounds can be further classified into impulsive (such as
seismic airguns, explosives, pile driving) and non-impulsive (such as
military tactic sonars) sounds (Richardson et al., 1995). Other
researchers studying noise impacts on marine mammals classified sound
types into a single pulse (a single explosive), multiple pulses
(seismic airguns, pile driving), and non-pulses (ships, sonar)
(Southall et al., 2007). A simple way to distinguish pulses sound from
non-pulses (continuous sound included) is that the former have rapid
rise-time in relation to its extremely short duration. As mentioned in
the response to comment 25, behavioral responses from marine mammals
when exposed to underwater noise is complex and context specific, and
often depend on the sound characteristics (such as received levels,
duration, duty cycles, frequency, etc.) and other variables.
NMFS agrees that the distinction between transient and continuous
sounds is not absolute, as continuous sound from a fast moving vessel
is often treated as transient sound in relation to a stationary or slow
moving marine mammal. Further, the distinction between pulses and non-
pulses is also not always clear, as certain pulsed sound sources (e.g.,
seismic airguns and explosives) may become non-pulses at greater
distances due to signal decay through reverberation and other
propagation paths. However, Dr. Bain's statement that intermittent
pulses can result in continuously received noise when sound arrives via
multiple paths is unfounded. For a marine mammal exposed to noise,
multipath propagation
[[Page 55384]]
would expose the animal to the noise multiple times, usually each
subsequent exposure with lower sound level due to loss of acoustic
energy from surface and bottom reflections; however, the noise arriving
via multipath propagation would not become continuous sound because the
intervals between signals would always exist. In addition, noise cannot
mask a signal before or after it is received by the animal. Masking of
signals can only occur when the unwanted sound (noise) interferes with
the signal when received by the animal, generally at similar
frequencies (Richardson et al., 1995). Therefore, Dr. Bain's assessment
regarding the potential impact of the acoustic sources to be used
during Shell's operations is not supported.
Comment 42: Dr. Bain states that one characteristic of pulsed
sources is known as ``time-bandwidth'' product, and he explains that it
is ``any sound with a finite duration (that is, any real-world sound)
contains additional frequencies to the nominal frequency. That is,
pulsed sources that nominally have a frequency that is too high to
hear, may, in fact, be audible, as the source will contain lower
frequencies that are detectable.''
Response: NMFS does not agree with Dr. Bain's statement that high
frequency pulsed sources nominally contain additional frequencies that
are audible. The high frequency pulsed sources are expected to operate
within their frequency range, although some mechanical noise at lower
frequencies may be produced as a byproduct during the operation. The
mechanical noise associated with acoustic equipment is expected to be
low intensity and is not expected to result in harassment of marine
mammals. Furthermore, the term ``time-bandwidth product'' is generally
used in signal process, which is irrelevant to the Chukchi Sea site
clearance and shallow hazards survey.
Marine Mammal Biology Concerns
Comment 43: NSB states that Table 4-1 in Shell's application should
be organized based on the NMFS accepted stocks of marine mammals, which
is the appropriate management unit. For example, beluga whales should
be evaluated for the Beaufort Sea stock and the eastern Chukchi Sea
stock. Population estimates (including nmin, point estimate for stock
size, and confidence interval around that point estimate) should be
given for each stock. Grouping by species is misleading and
inappropriate.
Furthermore, Shell separates out numbers of marine mammals by
offshore vs. nearshore/ice edge. This approach is confusing,
inappropriate for the Chukchi Sea, and needs to be refined. Marine
mammals occur and migrate across the entire area. Designating a
separate abundance for offshore and nearshore is not appropriate and is
not helpful for evaluating the potential for small takes of marine
mammals.
The pinniped section of Table 4-1 is also misleading. All four
species occur in areas other than sea ice. Shell's estimate of the
number of spotted seals is incorrect. The provided estimate is from a
MMS document and is only for the Beaufort Sea. Thousands of spotted
seals use Chukchi Sea haulouts. That information should be provided in
the application.
Response: Table 4-1 is meant to provide an overview of the marine
mammals that are described in detail in Section 4 of Shell's
application. The different stocks that may be encountered during
Shell's activities are described in the text portions of the
application that follow the table. For example, the discussion for
beluga whales describes both the Beaufort Sea stock and the eastern
Chukchi Sea stock. Where available, the requested information (e.g.,
nmin, point estimate for stock size, etc.) was provided; however, that
information is not available in the NMFS SARs for all Arctic species.
Shell will consider revising this table in future IHA applications. The
textual descriptions also provide additional information on the use of
the Chukchi Sea by the different species listed in Table 4-1 and a
Chukchi Sea specific abundance estimate for spotted seals.
Comment 44: NSB states that the last paragraph in the beluga
section of the application (page 16) is incomplete. Decision makers and
the public need to be aware that the entire Beaufort and Chukchi
populations of belugas migrate through the Chukchi Sea during the
autumn. This information is necessary because Shell's proposed work is
in the Chukchi Sea and may impact beluga whales. Therefore, appropriate
monitoring and mitigation plans are needed for the central Chukchi Sea.
Response: Discussion of the migration patterns of the Beaufort Sea
stock of beluga whales is contained earlier in the beluga whale
description (page 15 of the application). NMFS considered impacts to
beluga whales during Shell's Chukchi operations. The IHA issued to
Shell contains appropriate monitoring and mitigation measures
(described in detail later in this document) for all marine mammal
species under NMFS' jurisdiction.
Comment 45: NSB notes that statements regarding bowheads summering
in the Chukchi Sea and feeding in the Beaufort Sea are incomplete. They
provide statements of sightings during the summer months, indicating
that not all bowheads migrate to the eastern Beaufort Sea in the
summer. This information is needed by decision makers and the public to
better assess the potential impacts from oil and gas activities on
bowheads.
Response: MMS' 2006 Final PEA contains a discussion about bowhead
migration and references scientific literature and accounts from
hunters, indicating that some bowheads may summer in the western
Beaufort Sea or Chukchi Sea. This information was incorporated by
reference into NMFS' 2009 EA for the issuance of an IHA to Shell and
was considered in making the necessary MMPA findings.
Comment 46: NSB states that the discussion of results from Shell's
aerial surveys regarding gray whales is misleading. Shell states that
gray whales were most abundant near shore between Barrow and
Wainwright; however, Shell did not conduct aerial surveys in offshore
areas, including in the proposed operation area. Shell's visual
observations in offshore areas came solely from observers on boats. It
is not reasonable to compare aerial and vessel surveys to conclude that
gray whales are mostly using nearshore areas. Scientific information on
how gray whales are using offshore areas should be considered limited
at this time.
Response: Comment noted. In assessing impacts to gray whales, NMFS
considered that individuals may occur within the action area. Estimated
take numbers for gray whales reflect the fact that the animals may use
offshore areas near Shell's operations (see the ``Estimated Take of
Marine Mammals'' section later in this document).
Comment 47: AWL states that there is insufficient information in
the proposed IHA Federal Register notice related to gray whales to
justify NMFS' MMPA conclusions. Gray whales have been shown to abandon
habitat in response to anthropogenic noise. It is not clear that NMFS
considered the proximity of Shell's proposed survey areas to the Hanna
Shoal or other potential eastern gray whale feeding areas.
AWL and Dr. Bain note that gray whale numbers have declined since
de-listing of the species in 1994. Dr. Bain states that this raises the
question of whether gray whales should be re-listed as threatened under
the ESA since their population has a negative trend and is at a level
that was considered threatened even when it was increasing. One
implication of re-listing would be a change in the recovery factor for
[[Page 55385]]
calculating Potential Biological Removal (PBR). Using the value for an
ESA-listed species would reduce PBR to 42. Subsistence harvest in
Russia alone exceeds this number. Thus, additional threats such as
habitat loss due to disturbance from seismic surveys would result in
further jeopardy to the survival of the species. It is clear that a
careful evaluation of this species is needed before activities that
disturb gray whales are allowed.
Response: NMFS considered the potential impacts of the site
clearance and shallow hazards surveys on gray whales. MMS' 2006 Final
PEA contains discussion and analysis of the potential effects of airgun
noise on gray whales, including avoidance of habitat when seismic
surveys are occurring. This information was considered by NMFS and
incorporated by reference into the EA prepared for this action. Through
this analysis, NMFS considered the fact that the Chukchi Sea is
considered a primary summer feeding ground for the eastern North
Pacific stock of gray whales. However, NMFS determined that Shell's
surveys will impact only small numbers of gray whales and will have a
negligible impact on the affected stock. This determination was made
based on several factors: (1) the small size of the airgun array (40
in\3\); (2) the short duration of the survey (approximately 50 days);
and (3) the incorporation of the required mitigation and monitoring
measures described later in this document.
Since 1994, NMFS has continued to monitor the status of the
population consistent with its responsibilities under the ESA and the
MMPA. In 1999, a NMFS review of the status of the eastern North Pacific
stock of gray whales recommended the continuation of this stock's
classification as non-threatened (Rugh et al., 1999). Workshop
participants determined the stock was not in danger of extinction, nor
was it likely to become so in the foreseeable future. In 2001 several
organizations and individuals petitioned NMFS to re-list the eastern
North Pacific gray whale population. NMFS concluded that there were
several factors that may be affecting the gray whale population but
there was no information indicating that the population may be in
danger of extinction or likely to become so in the foreseeable future.
Wade and Perryman (2002) and Punt et al. (2004) (cited in the 2008 SAR,
Angliss and Allen, 2009) found that the stock is within its optimum
sustainable population level and that the population is likely close to
or above its unexploited equilibrium level. NMFS continues to monitor
the abundance of the stock through the MMPA stock assessment process,
especially as it approaches its carrying capacity. If new information
suggests a reevaluation of the eastern North Pacific gray whales'
listing status is warranted, NMFS will complete the appropriate
reviews. Lastly, Shell's surveys are not expected to destroy or result
in any permanent impact on habitats used by gray whales or to their
prey resources or to jeopardize the continued existence of the species.
Comment 48: AWL, Dr. Bain, and AEWC state that the division of the
harbor porpoise population in Alaska is incorrect. Dr. Bain and AEWC
cite to the 2008 harbor porpoise Bering Sea stock SAR (Angliss and
Allen, 2009):
In cases outside of Alaska, studies have shown that stock
structure is more fine-scale than is reflected in the Alaska Stock
Assessment Reports. At this time, no data are available to reflect
stock structure for harbor porpoise in Alaska. However, based on
comparisons with other regions, smaller stocks are likely. Should
new information on harbor porpoise become available, the harbor
porpoise Stock Assessment Reports will be updated.
That is, the stock to be affected by the survey is likely to be far
smaller than currently recognized. The implication is that the
population is far less able to tolerate takes than expected based on
the current stock definition. AWL states that while NMFS is not
required to develop a definitive stock assessment, it cannot rely on
concededly inaccurate information in order to comply with its MMPA
obligations. AEWC states that without knowing whether a specific stock
of harbor porpoise exists in the area that will be impacted by Shell's
operations and the population numbers and health of that stock, NMFS
cannot determine the level of take and whether such take will be
negligible to the stock. Thus, operations in the Chukchi should not
proceed until additional studies have been conducted.
Response: Currently, there are insufficient samples to draw
conclusions about stock structure of harbor porpoise within Alaska.
While NMFS acknowledges that perhaps smaller stocks should be
recognized in Alaska, the best science currently available indicates
that Shell's activities will potentially impact only small numbers of
harbor porpoise and will not have a negligible impact on the affected
species or stock. Using the current estimated stock size for the Bering
Sea stock, only 0.01 percent is estimated to be taken by harassment. If
the number should be something closer to the low 1,000s (as suggested
by AWL), this would still represent less than 1 percent of the stock
size. NMFS does not agree that just because a stock contains fewer
individuals than originally estimated that it is far less able to
tolerate takes than expected. Dr. Bain does not provide any scientific
evidence for this statement.
Comment 49: Dr. Bain states that another point of concern regarding
the harbor porpoise is that NMFS is reviewing new data on other sources
of takes but will not complete the analysis until next year (Allen and
Angliss, in prep.). These data are needed to assess the cumulative
effects of the proposed survey and other factors that impact the
population.
Response: While the draft 2009 SAR (Allen and Angliss, in prep.)
states that more current data on fishery-related serious injury and
mortality are being analyzed and will be available for inclusion in the
2010 SAR, it also states that in 2001 only one fishery-related harbor
porpoise mortality was recorded in 2001, and none were recorded for the
period 2002-2006. Although no records are currently available for 2007-
2009, the estimated level of human-caused mortality and serious injury
is not known to exceed PBR (Allen and Angliss, in prep.). NMFS assessed
cumulative impacts to all marine mammals that may occur in the area of
Shell's operations in its 2009 EA. Based on that assessment, NMFS
concluded that issuance of an IHA to Shell to conduct its open-water
marine survey program in the Chukchi Sea during the 2009/2010 Arctic
open-water season would not produce any significant cumulative impacts
to the human environment.
Comment 50: NSB notes that more information is needed regarding use
of the Chukchi Sea and how environmental changes may affect that use
for bearded and ringed seals.
Response: As required by the MMPA implementing regulations at 50
CFR 216.102(a), NMFS has used the best scientific information available
in making its determinations required under the MMPA. While recent
stock assessments are lacking for several species of ice seals, for
reasons stated elsewhere in this Federal Register Notice, no ice seals
are expected to be killed or seriously injured as a result of Shell's
site clearance and shallow hazards surveys and the number of takings by
Level B harassment will be small relative to the best estimate of
population size. Therefore, NMFS has determined that Shell's activity
would not result in a decrease in population sizes of any of the ice
seal species. As a result of our analysis, NMFS believes that Shell's
proposed site clearance and
[[Page 55386]]
shallow hazard surveys are not expected to have adverse impacts on ice
seals.
Density and Take Estimate Concerns
Several of the comment letters addressed concerns over the species
densities used by Shell to calculate take estimates. In general, the
commenters believed that Shell used flawed density estimates, which
then led to incorrect take estimates. This subsection addresses those
concerns and provides further explanation beyond the information and
explanations provided in Shell's application and the Notice of Proposed
IHA (74 FR 26217, June 1, 2009). Dr. Sue Moore was one of the
independent peer reviewers for Shell's 4MP. Those comments are
addressed in the ``Monitoring Plan Independent Peer Review'' subsection
later in this document. However, Dr. Moore also provided comments on
the density estimates used by Shell, which are more appropriately
addressed in this subsection.
Comment 51: NSB states, ``Shell contends that ``Animal [marine
mammal] densities are generally expected to be lower in deep water, and
at locations far-offshore''' (page 13 in Shell's application). Shell
does not provide references to support this statement. It is possible
that the statement is based on visual surveys in offshore areas
conducted from boats during the past 3 years. (Shell's nearshore
surveys were conducted by plane.) Because of the impact from boat
sounds, including 3D seismic, to marine mammals and the limited
efficacy of MMOs, it is inappropriate to compare density estimates from
the nearshore and offshore areas using these two different methods.
Moreover, Shell's 2008 report on the ``Joint Monitoring Program''
showed that in some cases the number of marine mammal calls detected
was greater in offshore areas compared to nearshore areas.
Response: The statement is a generalization across multiple species
and seasons and does not indicate that it applies for all species (use
of the word ``generally''). Additionally, this statement was written
when the application was also considering estimates of marine mammals
in the Beaufort Sea. For example, results presented in Moore et al.
(2000b) for bowhead and beluga whales during the summer months in the
Beaufort Sea and to some extent for gray whales in the Chukchi Sea
support this statement, as well as statements contained in Bengtson et
al. (2005) for ringed and bearded seals. However, it is possible that
certain species may be encountered in higher densities in offshore
areas. The paragraph from which this statement was taken was merely an
introduction. Species specific descriptions are contained in the
following pages of the application.
Comment 52: AEWC states that in assessing the level of take and
whether it is negligible, NMFS relied on flawed density estimates that
call into question all of NMFS' preliminary conclusions. Density data
are lacking or outdated for almost all marine mammals that may be
affected by Shell's operations in the Chukchi Sea, especially for the
fall. A few species specific examples are provided that illustrate
NMFS' failure to utilize the best available scientific studies in
assessing Shell's application.
NMFS' guess at the number of beluga and bowhead whales in the
Chukchi in the summer relies on a study from Moore et al. that was
published in 2000 based upon information from ``industry vessels.'' The
estimate is contrary to the best available scientific information on
beluga whale presence in the Chukchi in the SAR from 2005. While more
updated information is necessary on beluga presence in the Chukchi
during the summer, even the SAR demonstrates the arbitrary nature of
NMFS' density calculations and the information upon which these
calculations rely. The SAR for bowhead whales cites to a 2003 study
that documented bowheads ``in the Chukchi and Bering Seas in the
summer'' that are ``thought to be a part of the expanding Western
Arctic stock'' (Angliss and Allen, 2009). While a study published in
2003 still is not a sufficient basis for a 2009 density analysis, this
study does show that additional information is available that indicates
that the number of bowhead whales in the Chukchi may be higher than
estimated by NMFS.
Response: As required by the MMPA implementing regulations at 50
CFR 216.102(a), NMFS has used the best scientific information available
in assessing the level of take and whether it is negligible. The data
presented in Moore et al. (2000b) was not derived from sightings on
industry vessels. The paper relies on data collected over 10 years
(1982-1991) from aerial surveys offshore of northern Alaska. AEWC does
not provide a citation for the 2005 publication cited in the beluga
SAR; however, NMFS assumes it is Suydam et al. (2005). This is a more
recent paper that provides information on the movements of 23 tagged
beluga whales in the Arctic Ocean basin. However, Suydam et al. (2005)
do not provide any density calculations or information. Shell did
reference this publication in section 4 of the IHA application when
describing the distribution of beluga whales. Therefore, although this
information was not used when deriving density or take estimates for
beluga whales, this information was considered by NMFS in making its
MMPA findings. Additionally, the 2003 study noted by AEWC in the
bowhead whale SAR discusses distribution, not density (Rugh et al.,
2003). This paper is cited in the distribution discussion of bowhead
whales in the Chukchi in section 4 of Shell's application. However, it
is not useful for deriving density estimates. Therefore, density
estimates for bowhead and beluga whales using Moore et al. (2000b) are
based on the best available science.
Comment 53: Dr. Moore notes that the last paragraph on page 25 of
Shell's application states in part that ``For the Chukchi Sea, cetacean
densities during the summer (July-August) were estimated from effort
and sightings data in Moore et al. (2000b).'' Moore et al. (2000b) does
provide summer Chukchi transect survey effort and sighting data
(stratified by bathymetry) but only for gray whales. However, expected
densities are listed for eight cetacean species. Since data for seven
of these species cannot be referenced to Moore et al. (2000b), they
must be calculated (somehow) from ``data collected aboard industry
vessels in 2006 and 2007.'' However, to my knowledge, industry vessels
never conducted surveys in a manner from which abundance can be
estimated. NSB, AEWC, and Dr. Bain echo Dr. Moore's comment about using
data from industry vessels for harbor porpoise. AEWC also states that
the insufficiency of the harbor porpoise density estimate is compounded
by NMFS' decision not to rely on data from ``early autumn months'' in
calculating the ``fall period'' density of porpoises and to use
``minimal values'' instead, which is equally arbitrary.
Response: The paragraph noted by the reviewer is meant to indicate
to the reader the primary sources from which density information was
derived. In the following paragraphs in the application (and in the
Notice of Proposed IHA), additional information on the derivation of
summer and fall densities for each species is provided. As Dr. Moore
suggests, data on the effort and sightings of gray whales during summer
surveys are reported in Moore et al. (2000b), and these data were used
to estimate their expected density. Although not reported in the text
or tables in Moore et al. (2000b), Figure 6 in the article indicates
two on-transect sightings of beluga whales in the Chukchi Sea in the
summer. These two sightings along with the survey effort for gray
whales were used to calculate a summer beluga
[[Page 55387]]
whale density estimate for the Chukchi Sea. As explained in Shell's
application, this same method was used to calculate a summer density of
bowhead whales by assuming one sighting had occurred (although none
were actually reported) during the reported survey effort for gray
whales.
No published densities or data on survey efforts or sightings were
available for harbor porpoise, but estimates had been calculated from
industry survey data in 2006 and 2007, so those densities were used.
The commenter is correct that the industry vessels did not conduct
standard randomized line-transect surveys while operating (except for
short periods in 2006). However, this information was considered the
best scientific information available to determine a density estimate
for harbor porpoise in the Chukchi Sea. As noted in the subsequent
paragraphs in Shell's application, density or survey data for other
cetacean species are either not available or have been reported in such
low numbers that minimal densities were selected to account for chance
encounters of these species that are less frequently observed in the
area of Shell's operations in the Chukchi Sea. Additionally, for harbor
porpoise, different density estimates were used for the summer and fall
periods (see Tables 6-1 and 6-2 in Shell's application).
Comment 54: Dr. Moore also notes that page 25 of Shell's
application also states, ``Because few data are available on the
densities of marine mammals other than large cetaceans in the Chukchi
Sea in the fall (Sep-Oct), density estimates from the summer period
have been adjusted to reflect the expected ratio of summer-to-fall
densities based on the natural history characteristics of each
species'' (emphasis added by commenter). Moore et al. (2000b) provides
fall Chukchi data for bowhead, beluga, and gray whales, why is this not
used? Even if these data were used, however, there remains the question
of using sightings from industry vessels to ``calculate densities'' for
five of the eight cetacean species listed in Table 6-2 of Shell's
application. The MMC also recommends that NMFS require Shell to
describe in detail how it adjusted the data in Moore et al. (2000b) to
estimate cetacean densities in the Chukchi Sea in the fall.
Response: Shell used the data from Moore et al. (2000b) to
calculate densities for beluga and gray whales during the fall period
in the Chukchi Sea, which is noted in subsequent paragraphs in the
application. However, in order to be consistent with methods used to
calculate bowhead densities in previous years, Moore et al. (2000b) was
not used, although that data could have been used. See the response to
comment 53 regarding deriving densities from industry vessels. In the
absence of peer-reviewed literature, this was the best information
available. Additional information on the use of correction factors and
calculating density estimates is provided in the responses to several
of the comments contained in this subsection of the document.
Comment 55: AEWC states that NMFS fails to explain how and why it
reaches various conclusions in calculating marine mammal densities and
what the densities are actually estimated to be once calculated. One
example is NMFS' reliance on Moore et al. (2000b) in making its density
determinations. This study documented sightings of marine mammals but
did not estimate the total number of animals present. NMFS fails to
explain the basis for its ``conversion'' of data on sightings to its
density conclusions.
Response: All densities used in calculating estimated take of
marine mammals based on the described operations are shown in Tables 6-
1 and 6-2 of Shell's application. Moore et al. (2000b) provides line
transect effort and sightings from aerial surveys for cetaceans in the
Chukchi Sea. The kilometers of ``on-transect'' observer effort and
number of sightings were used in the accepted line-transect density
estimate equation described in Buckland et al. (2001). Species specific
correction factors for animals that were not at the surface or that
were at the surface but were not sighted [g(0)] and animals not sighted
due to distance from the survey trackline [f(0)] used in the equation
were taken from reports or publications on the same species or similar
species if no values were available for a given species, that used the
same survey platform. Additional explanations regarding the
calculations of marine mammal densities are provided in the responses
to other comments in this subsection of this document.
Comment 56: NSB indicates that Shell's approach to estimating
densities of beluga and bowhead whales is problematic. Shell uses
densities from aerial surveys, which would be appropriate if bowheads
and belugas were more or less stationary. In reality, the entire
bowhead population and both stocks of belugas migrate through the area
Shell proposes for its 2009 exploration activities. Thus, many more
bowheads and belugas may potentially be taken during Shell's operations
than what they have estimated. NMFS should carefully evaluate, and
modify as appropriate, the approach Shell has used for estimating
takes.
AWL also questions the use of a ``density'' measure in determining
take in the Chukchi Sea during the bowhead migration. NMFS has
recognized in the past that using density is inappropriate for
determining bowhead take from seismic activities in the Beaufort Sea
during the fall. It is not clear on what basis NMFS abandons an
approach that would estimate migrating whales in the Chukchi Sea. Using
a density calculation artificially reduces the number of bowheads that
will likely be impacted from Shell's surveying and does not represent
the best available science.
Response: Shell's density estimates for bowhead and beluga whales
are based on the best scientific information available, which is the
standard required by the MMPA implementing regulations at 50 CFR
216.102(a). The alternative method referred to by AWL for estimating
take of migrating bowhead whales was only used for seismic operations
in the Beaufort Sea (and is described in Shell's IHA application in the
Beaufort Sea Estimating Take Section; however, Shell cancelled the
Beaufort Sea activities). This method has not been applied to
activities in the Chukchi Sea. Because the migration corridor is
narrower and better defined in the Beaufort Sea than the Chukchi Sea
this method was deemed appropriate by NMFS for seismic operations in
the Beaufort. However, the migratory path taken by bowhead whales once
they enter the Chukchi Sea is not as well understood. Moreover, the
migratory route is not as narrowly defined in the Chukchi.
Additionally, if these species avoid areas of active seismic operations
at levels lower than 160 dB re 1 microPa (rms), as noted by several of
the commenters, then fewer animals will occur in the area of Shell's
operations. After careful evaluation of the methods used by Shell to
estimate take, NMFS has determined that Shell used the best scientific
information available in calculating the take estimates.
Comment 57: Dr. Bain notes that when estimating number of takes, it
is important to consider if the individuals are feeding or migrating.
In the case where there is little natural movement, the number of
individuals in the ensonified area is an index of the number of takes.
Exposed individuals can accumulate noise exposure or move out of the
area. Assuming optimal foraging, displaced individuals will move to
poorer feeding areas or compete with individuals for food in comparable
habitat. When competition outside the
[[Page 55388]]
ensonified area occurs, the fitness of all individuals involved will be
reduced, although only those exposed to noise are typically counted as
taken.
Dr. Bain continues that when individuals are migrating through an
area, new individuals are exposed to noise as they approach the noise
source. Rather than estimating takes based on density in the ensonified
area, it is more appropriate to draw a line across the ensonified area
and estimate the number of individuals that would be expected to cross
that line during the survey. Using an estimate of bowhead density from
Funk et al. (2006) of 3/100 km\2\ (3/38.6 mi2) in offshore waters in
mid-season and a 120-dB diameter of 46 km (28.6 mi), Dr. Bain presents
take numbers during the bowhead migration. Taking into account typical
migration speed for bowhead whales (4.5 km reported in Koski et al.
[2002]), in 24 hours, approximately 144 whales would either enter the
ensonified area or be deflected to avoid it. As can be seen, the number
of migrating whales exposed is far higher than would be the case if the
sound source and whales were relatively stationary. Although not meant
to be exact, the numbers used here are well within the range of
possibilities and serve to illustrate that far more whales might be
exposed during migration than during a feeding season.
Response: Dr. Bain does not provide any scientific support for his
theory. The temporary displacement of marine mammals from foraging
habitat is not expected to affect individual fitness. For example,
apparently, bowhead whales continued to increase in abundance during
periods of intense seismic in the Chukchi Sea in the 1980s (Raftery et
al., 1995; Angliss and Allen, 2009), even without implementation of
current mitigation requirements. NMFS is not certain what Dr. Bain
means by ``an index of the number of takes.''
NMFS does not agree with Dr. Bain's method for calculating takes of
migrating bowhead whales. First, Dr. Bain uses the 120-dB level to
estimate the level of take. For impulse sounds, such as from seismic
airguns, NMFS uses the 160 dB re 1 microPa (rms) threshold to estimate
Level B harassment. NMFS has responded several times over the past few
years and elsewhere in this document to the assertion by commenters
that Level B harassment takes should be estimated at the 120 dB level
and not at the 160 dB level (see response to comment 25). Because Dr.
Bain used this lower threshold, the take number presented is much
higher than that generated by NMFS and Shell. Second, Dr. Bain uses a
density estimate from Funk et al. (2006), which is based on industry
monitoring. The public has expressed concern over the use of density
estimates derived from industry monitoring (see other comments in this
subsection). As explained in the response to comment 53, NMFS uses
density estimates from peer reviewed journal articles when they are
available. However, in instances when monitoring from industry vessels
provide the only information, estimates are derived from those reports.
However, in the case of bowhead whales, information is available from
non-industry monitoring studies (e.g., Moore et al. (2000b));
therefore, the estimate provided in Funk et al. (2006) was not used.
Additionally, Dr. Bain's calculation assumes that the whales will
continue their entire migration along the same track as the seismic
vessel. While some bowhead whales may occur in the action area, the
migration corridor in the Chukchi Sea is not well defined. One cannot
assume that the entire migration will occur near Shell's operations.
Lastly, Dr. Bain's calculation also asserts that deflection itself
constitutes a take. As explained elsewhere in this document, a minor
course correction does not constitute a significant behavioral response
rising to the level of a take. Therefore, NMFS does not agree that Dr.
Bain's formula accurately portrays the number of bowhead whale takes
during the fall migration period through the Chukchi Sea.
Comment 58: Dr. Bain states that NMFS modeled takes in the Chukchi
in September based on sightings in the Beaufort. However, the model is
demonstrably inaccurate based on existing data from the Chukchi.
Further, NMFS misinterpreted the data that form the basis of their
extrapolation. Dr. Bain argues that the three reasons provided by NMFS
for believing densities would be 20 times lower in the survey area than
in the Beaufort in September are wrong. First, while it may be true to
some degree that the migration corridor is narrower in the Beaufort,
this is irrelevant. The reported density for the Beaufort depends on
how well the survey design identifies the corridor boundary. Regardless
of whether the average density is correctly identified, the density
will vary across the corridor. That is, when the corridor widens, the
average density will decline, but concentrations may still occur, as
appears to be the case for the survey area (see plot in Moore et al.
(2000b)).
Second, NMFS maintains that bowheads are more likely to migrate
non-stop through the Chukchi in contrast to the Beaufort where they
sometimes linger. As discussed in detail in Dr. Bain's letter (and
comment 59), this will increase rather than decrease the number of
whales taken. Third, NMFS states that most of the whales will migrate
north of the survey area. To the contrary, the survey area is in the
center of the migration route. Dr. Bain cites Quakenbush (2007), which
shows a tagged bowhead whale migrating through Shell's survey area, and
Moore et al. (2000b), which plotted bowhead sightings the same distance
offshore as the survey area, not north of it. Finally, Funk et al.
(2006) found many bowheads nearshore, not north of the survey area as
anticipated by NMFS.
AWL states even accepting a density approach for the fall, we do
not believe that the 95% discount applied by NMFS is appropriate. NMFS'
.05 ``correction factor'' rests on the three points raised by Dr. Bain
in this comment. AWL states that as discussed by Dr. Bain, these
assertions do not justify such a severe reduction.
Response: Although it would be preferable to estimate takes of
marine mammals migrating through the Chukchi Sea using detailed data on
migration location, timing, and rates, as exist for bowhead whales in
the Beaufort Sea, no such data exist for any species in the Chukchi
Sea. Applying data from the Beaufort Sea without adjustment to the
Chukchi Sea, as suggested by the commenter, is also demonstrably
inaccurate based on the evidence provided. Because specific migration
data are lacking, the more common approach of using expected marine
mammal densities to estimate takes in the Chukchi Sea was used.
However, even basic density information on many species present in the
Chukchi Sea during the open-water season are not available in the
published literature.
In the case of bowhead whales, the most well documented density
estimates, including f(0) and g(0) correction factors, are given in
Richardson and Thomson (2002) for the Beaufort Sea, so this density was
chosen as the starting point for estimating an expected density in the
Chukchi Sea. The bowhead migration through the Chukchi Sea has been
thought to bifurcate after passing Point Barrow. Recent data from the
Alaska Department of Fish and Game (ADF&G 2009), which provides updated
information of the tagging studies presented in Quakenbush (2007),
suggest that a majority of bowheads travel through the northern Chukchi
Sea to the Russian coast during the fall migration (approximately 90
percent) while a small number may travel southeast along the U.S.
Chukchi Sea coast
[[Page 55389]]
(approximately 10 percent). Many of the animals traveling through the
northern Chukchi Sea to the Russian coast appeared to travel north of
Shell's Burger and Crackerjack prospects (the location for the 2009
site clearance and shallow hazards surveys). Although the sample size
in the Beaufort Sea is somewhat smaller, the geographic distribution of
migration paths through the Beaufort Sea does appear more restricted
than through the northern Chukchi Sea (Quakenbush 2007; ADF&G 2009).
Bowhead whale feeding areas have not been identified in or near lease
holdings in the Chukchi Sea, so whales are not likely to concentrate at
densities as high as those encountered by Richardson and Thomson (2002)
in the Beaufort Sea, supporting a further reduction in the density used
in the Chukchi Sea. These factors lead to the selection of a density
that was 5 percent of the density reported by Richardson and Thomson
(2002).
Comment 59: AWL states that equally important is the lack of
reasoning to support the final result. Although NMFS has provided some
information as to why it applied a discount factor, it has not
explained how it arrived at the precise figure. While some adjustment
may be appropriate, NMFS does not include adequate information to
demonstrate the basis for determining that such a sharp reduction is
required. At a minimum, NMFS must reveal how it developed its
calculations.
Dr. Bain also notes that it is unclear how corrections were made,
as the application indicated species specific values for g(0) and f(0)
were used. However, these values are dependent on the species and the
observation platform used and sighting conditions involved, not just
the species. While no on-effort sightings during surveys were reported
for some species, the probability of detecting any individuals given
the effort level and assumed density was not reported.
Response: See response to comment 58, which explains how NMFS
arrived at a specific discount factor for bowhead whales in the Chukchi
Sea. As noted in Shell's application, when densities were provided in
publications the g(0) and f(0) correction factors used in density
calculations were developed or applied by the original authors in the
appropriate manner given the survey platform and conditions. Otherwise,
g(0) and f(0) correction factors developed for the same type of survey
platform and during on-effort (i.e., good sighting conditions) were
used on survey data for which densities had not been explicitly
calculated.
Comment 60: Dr. Bain states that while the mean density may be used
in some cases to calculate a best estimate of take, maximum estimates
should be considered as well to ensure worst case scenarios do not pose
an unacceptable threat to a population.
Response: When evaluating the take estimates presented in Shell's
IHA application, NMFS took into consideration both the average and
maximum estimates. However, as explained in the Notice of Proposed IHA
(74 FR 26217, June 1, 2009), since Shell did not provide a rationale
regarding the maximum estimate, NMFS decided that the average density
data of marine mammal populations would be used to calculate estimated
take numbers because these numbers are based on surveys and monitoring
of marine mammals in the vicinity of the proposed project area. NMFS
only used the ``maximum'' estimates for marine mammal species that are
considered rare in the project area and for which little to no density
information exists (i.e., killer, fin, humpback, and minke whales and
ringed seals) in order to account for some possibility of these species
possibly being taken by Shell's activities. Additionally, using maximum
density estimates is problematic as it tends to inflate harassment take
estimates to an unreasonably high number and is not based on empirical
science.
Comment 61: Dr. Bain states that since the assumptions upon which
NMFS based its model are faulty, one would expect available data to
contradict the model, and this is, in fact, the case. He notes that
Funk et al. (2006), using more recent data from the Chukchi than the
data in Richardson and Thomson (2002) from the Beaufort Sea used by
NMFS, found mid-season offshore densities to be 0.03156/km\2\, meaning
that NMFS' model underestimates density by a factor of almost 30 for
the latter part of the survey season. Additionally, Dr. Bain notes that
the model used to calculate August densities works a little bit better
than the September model, as the early season densities observed by
Funk et al. (2006) were about 7.5 times higher than predicted by NMFS,
using data from Moore et al. (2000b). Even if NMFS concluded estimating
abundance from missed sightings rather than existing sighting data were
the best approach, the assumption of one missed sighting is the wrong
methodology. Rather, NMFS should identify the lowest density which
would result in a small probability that all whales would be missed
(scientists typically use 0.05, 0.01, or 0.001 as the definition of a
``small probability''). In summary, the models used for estimating
bowhead density are based on faulty assumptions and underestimate
bowhead density by an order of magnitude.
Response: Dr. Bain relies on Funk et al. (2006) for validating the
applicability of bowhead density estimates derived from Moore et al.
(2000b) and Richardson and Thomson (2002). However, the density
estimates in Funk et al. (2006) were calculated from data collected
aboard industry vessels during routine operations, not while conducting
line-transect surveys and therefore serve as a very poor comparison to
data reported by Richardson and Thomson (2002) and Moore et al. (2000b)
collected from aircraft flying line-transect surveys. Routine industry
vessel operations are often conducted in one or more highly localized
areas, creating spatial and temporal auto-correlation that likely
artificially inflate density estimates calculated from the data. As
yet, there are no known or accepted methods to account for these types
of auto-correlation in non-randomized survey data.
Dr. Bain also appears to have misunderstood how a ``missed''
sighting was used to calculate the Chukchi Sea bowhead density
estimate. Dr. Bain fails to understand that there were zero reported
sightings (i.e., there were no ``existing sighting data'' to use, as
suggested by the commenter), and, therefore, the assumption that there
had been one sighting is, in effect, calculating the lowest density
which would result in zero sightings. Because the calculation of
bowhead density assuming this hypothetical sighting included the g(0)
correction factor, animals ``missed'' by observers, for the various
reasons described by Dr. Bain, were taken into account.
Comment 62: NSB quotes a statement from page 29 of Shell's
application: ``Small numbers of minke and humpback whales were observed
during industry activities in 2006 and 2007'' (Ireland et al., 2008).
NSB notes that if these animals were expected to flee from the industry
operations/disturbance, then the numbers of animals actually seen would
likely be a gross underestimate.
Response: The sightings of minke and humpback whales that were
reported in Ireland et al. (2008) occurred during non-seismic periods
(i.e., no airguns firing). Therefore, fleeing would not be expected at
those times.
Comment 63: Dr. Moore and NSB note that Shell used Bengtson et al.
(2005) to estimate pinniped densities; however, this paper only
provides information for
[[Page 55390]]
springtime estimates of bearded and ringed seals. NSB notes that it is
very likely that estimates of seals during open-water periods are much
different than spring surveys, and Shell should be required to conduct
surveys to appropriately estimate densities of these two seal species
that are being considered for listing. Additionally, Shell states that
it uses shipboard estimates of some marine mammals to estimate
densities for estimating takes in the Chukchi Sea, which is
inappropriate because it will underestimate densities. A cursory
comparison of Shell's density estimate from shipboard and aerial
surveys reveals that shipboard estimates are biased low; therefore,
take estimates will be biased low for any time that density estimates
from ships are used. NSB also believes that the method used to
calculate density estimates for ribbon seals is entirely inappropriate
and unacceptable. Dr. Moore asks, ``how is it that expected densities
are listed for ribbon and spotted seals in Tables 6-1 and 6-2?''
Response: NMFS agrees that densities may be different for ringed
and bearded seals during the open-water period than during the spring
ice-covered season reported in Bengtson et al. (2005). However,
estimates for the open-water period are expected to be lower than those
reported in the springtime because animals will no longer be
concentrated during pupping/breeding season near ice cracks or leads.
As mentioned later in the application, densities of seals calculated
from industry vessel data were indeed lower than those reported by
Bengtson et al. (2005). The data were provided merely for comparison
purposes within the text. However, the higher densities reported by
Bengtson et al. (2005) were used to calculate the take estimates.
Additionally, as described later in the application, very little
information exists on spotted seal densities in the offshore areas of
the Chukchi Sea. Therefore, spotted seal densities were estimated by
multiplying the bearded seal density provided in Bengtson et al. (2005)
by 0.2, based on the ratio of abundance estimates of spotted seal to
bearded seal. Ribbon seals have been reported in very small numbers
within the Chukchi Sea by observers on industry vessels (Ireland et
al., 2007a; Patterson et al., 2007) so minimal values have been used
for expected densities to account for chance encounters of this species
during Shell's operations. The use of minimal values for ribbon seal
density estimates is appropriate and actually provides an overestimate
of the likelihood of encountering a ribbon seal during Shell's surveys.
Using actual densities of ribbon seals in the project area would result
in an estimate of less than one seal being encountered. NMFS has
determined that the best scientific information available on the four
pinniped species that may occur in the project area was used to
calculate density and take estimates.
Comment 64: Page 35 of Shell's application states: ``Under this
assumption, densities of marine mammals expected to be observed in or
near ice margin areas have been applied to 10% of the proposed survey
trackline.'' NSB requests more information on how these estimates were
developed.
Response: Survey operations require towing equipment in the water,
making it susceptible to damage or loss in the presence of ice.
Therefore, survey activities will not occur within pack-ice, and only a
small amount of surveying may occur within the vicinity of ice.
Densities of some marine mammal species that may occur in the project
area are expected to be higher in or near sea ice. In order to avoid
underestimating the potential number of takes by harassment if
surveying occurs near ice for a short period of time, a small portion
(10 percent) of the survey trackline was applied to these densities.
Comment 65: NSB states that Shell must use the 120-dB isopleth for
estimating the number of bowheads that might be taken by harassment,
not the 160-dB isopleth because of the sensitivity of migrating
bowheads to anthropogenic sound. Additionally, allowance for migration
of the other marine mammal species is needed. Dr. Bain also states that
increased takes due to migration of beluga whales should have been
taken into account.
Response: See responses to comments 27 and 31 in this document.
Based on the information provided in those responses, NMFS continues to
support the use of the 160-dB threshold to estimate take by Level B
harassment from impulse sounds, such as seismic airguns.
Comment 66: The AEWC states that ringed seals provide another prime
example of NMFS' reliance on industry operations for information on the
species (see 74 FR 26224, June 1, 2009). Again, the industry operations
obtained far lower numbers than the scientific studies of ringed seals.
Response: The commenter has misunderstood the inclusion of the
density estimates obtained from industry operations in the Notice of
Proposed IHA and Shell's application for ringed seals. The values were
given in the text merely for purposes of comparison. As stated
elsewhere in the application and Notice of Proposed IHA, the values
used to calculate ringed seal densities were derived from Bengtson et
al. (2005), which are higher than the values obtained from industry
operations.
Comment 67: NSB notes that Shell provides a take estimate of 283
bowhead whales in the IHA application. NSB states that this would
assume that Shell's MMOs would need to visualize 283 bowhead whales in
the 160-dB isopleth. Such numbers of whales have not been seen in the
past.
Response: First, this number was the combined estimate for surveys
that were originally proposed to be conducted in the Beaufort Sea and
for operations proposed in the Chukchi Sea. The Beaufort Sea operations
were cancelled by Shell and were not analyzed or authorized by NMFS.
The average and maximum take estimates for bowheads in the Chukchi Sea
are much lower (one and five, respectively). Additionally, NSB has
misunderstood the original calculation of 283 whales and the method by
which post-season take estimates are calculated. The calculation of 283
whales includes corrections for animals that would not be observed by
MMOs on the vessels either because the animals were underwater or
because detection is more difficult the farther the animals are from
the vessel. These same corrections are applied when estimating post-
season take numbers. However, based on the small size of the 160-dB
radius for Shell's Chukchi Sea operations (1,400 m [0.87 mi]), it is
anticipated that MMOs will be able to better monitor the zone than when
monitoring aboard vessels using large airgun arrays.
Comment 68: NSB notes that Shell states in its application that
``the number of migrating bowhead whales exposed to sounds [gteqt]120
dB by the proposed surveys would be 8.5x the number estimated at
[gteqt]160 dB.'' Actual numbers should be included. By our calculation,
this is 2,405 whales, almost a fifth of the Bering-Chukchi-Beaufort Sea
stock of bowhead whales, exposed at 120 dB. Harassment of this many
whales in this stock should not be permissible.
Response: This statement was meant to indicate how many bowhead
whales could potentially be exposed to sounds at the 120 dB level.
However, as discussed elsewhere in this document, NMFS does not
consider exposure to impulse sound at 120 dB to constitute a take.
Additionally, as explained in the response to comment 67, the take
estimate of 283 whales was when all operations were still planned to
occur.
[[Page 55391]]
Comment 69: AEWC is opposed to NMFS using ``survey data'' gathered
by industry while engaging in oil and gas related activities and
efforts to document their take of marine mammals. NMFS' methodologies
are not adequate for assessing the density or presence of marine
mammals that typically avoid such operations. Thus, it is completely
arbitrary to rely on data collected from the very vessels that marine
mammals avoid in making density arguments, and it is not surprising
that such industry information consistently reports lower numbers for
this reason. For these reasons, NMFS cannot rely on such industry
information in calculating the density of marine mammals or determining
whether certain species are present in the area without running afoul
of the law.
Response: See the response to comment 53. In making its
determinations, NMFS uses the best scientific information available, as
required by the MMPA implementing regulations. For some species,
density estimates from sightings surveys, as well as from ``industry
surveys'', were provided in the text of Shell's application and the
Notice of Proposed IHA for purposes of comparison. However, where
information was available from sightings surveys (e.g., Moore et al.,
2000b, Bengtson et al., 2005), those estimates were used to calculate
take. Data collected on industry vessels were only used when no other
information was available. Additionally, while some Arctic marine
mammal species have shown fleeing responses to seismic airguns, data is
also collected on these vessels during periods when no active seismic
data collection is occurring.
Comment 70: AEWC states that as a general matter, when it comes to
NMFS assessing the various stocks of marine mammals under the MMPA, it
cannot use out-dated data i.e., ``abundance estimates older than 8
years'' because of the ``decline in confidence in the reliability of an
aged abundance estimate'' (Angliss and Allen, 2009) and the agency is
thus unable to reach certain conclusions. Similarly, here, where data
are out-dated or non-existent, NMFS should decide it cannot reach the
necessary determinations. These flaws in NMFS' analysis render the
agency's preliminary determinations about the level of harassment and
negligible impacts completely arbitrary.
Response: The statements quoted by AEWC from Angliss and Allen
(2009) are contained in species SARs where abundance estimates are
older than 8 years. However, the full statement reads as follows:
``However, the 2005 revisions to the SAR guidelines (NMFS, 2005) state
that abundance estimates older than 8 years should not be used to
calculate PBR due to a decline in confidence in the reliability of an
aged abundance estimate.'' Shell's activities are not anticipated to
remove any individuals from the stock or population. Therefore, a
recent estimate of PBR is not needed for NMFS to make the necessary
findings under Section 101(a)(5)(D) of the MMPA. Additionally, Shell's
application provides information (including data limitations) and
references for its estimates of marine mammal abundance. Because AEWC
has not provided information contrary to the data provided by Shell,
and NMFS does not have information that these estimates are not
reliable, NMFS considers these data to be the best available.
Comment 71: The MMC notes that Shell will base estimates of the
minimum number of marine mammals taken by harassment on the numbers of
animals directly seen within the relevant safety radii by observers on
the vessel during survey activities. The MMC is concerned that this
method of estimation may be misleading because (1) the minimum estimate
will depend on the portion of time observers are on duty (e.g.,
operations or observations at night may not be included), (2) it does
not account for observer sighting proficiency (e.g., the ability to
sight cetaceans versus pinnipeds), and (3) it does not account for
behavioral responses of animals outside the so-called safety zones.
Shell's maximum take estimate is likewise problematic because it fails
to take into account the movement patterns of these species, which
could greatly bias the maximum estimates of take by harassment. Absent
reasonable corrections for these factors, the minimum and maximum
estimates may be potentially useless or misleading, with potentially
adverse consequences. The MMC therefore recommends that NMFS require
Shell and other applicants to develop and implement a biologically
realistic study design for estimating take levels. Dr. Tim Ragen, one
of the independent peer reviewers of Shell's 4MP, expressed similar
concerns. [Dr. Ragen's comments specific to the contents of the 4MP are
addressed later in this document in the ``Monitoring Plan Independent
Peer Review'' subsection.]
Response: In order to account for the concerns expressed by the
MMC, Shell provides take estimates in the 90-day report based on
several methods of calculation: a minimum; a potential maximum; and a
mid-level estimate. NMFS agrees that all observations are a function of
observer effort. The minimum effort is exactly that, a minimum. It is
how many animals were actually seen within the specified sound radius
(e.g., 160-dB isopleth). NMFS does not assume that the minimum estimate
is anything more than what was seen or that this number is the actual
number taken. It is not possible to provide a ``correction factor'' for
the minimum take estimate, as it represents the number of animals
sighted by the MMOs within a given radius.
A mid-level estimate is made comparing the densities of animals
collected during seismic and non-seismic periods. NMFS and Shell
recognize that various factors, including those mentioned above create
potential variation in these numbers. The third estimate is based on
densities reported in the literature during periods when no seismic
operations are occurring. Shell uses the numbers that are considered to
be the best estimate of density for the area of operations. Depending
upon when the densities are measured and when the seismic shoot
occurred, such densities may overestimate the number of ``takes,'' but
these are reported as potential maximum levels of ``take'' assuming
that there was no avoidance of the operational area. (However, based on
information provided elsewhere in this document, several species, such
as bowhead and beluga whales have shown avoidance behavior to airguns.)
The actual number of takes most likely lies somewhere between the mid-
level estimate and the potential maximum estimate. Calculation methods
are described in detail in the 90-day reports submitted by Shell for
operations conducted in 2006, 2007, and 2008 (Patterson et al., 2007;
Funk et al., 2008; Ireland et al., 2009).
Comment 72: Dr. Bain indicates that NMFS failed to consider the
increases in takes of bowhead and beluga whales if there are delays in
the work, resulting in its completion at the end of the period covered
by the application (end of October) rather than at the time given for
the best case scenario (late September).
Response: If Shell encounters several delays in August or
September, then animals would not be taken because no active data
acquisition would be occurring. Those takes would then potentially
occur in October. However, based on the migration patterns for these
two species, the density estimates would be nearly the same in early to
mid-October as late September (i.e., the beginning of the migratory
period). Therefore, these higher densities have
[[Page 55392]]
already been taken into account when estimating the level of take.
Comment 73: AEWC states that NMFS failed to account for the impacts
from the strudel scour surveys in the spring of 2010, proposing only
summer and fall density estimates. These practices have resulted in
entirely arbitrary calculations of the level of take of marine mammals
and whether such takes constitute ``small numbers'' or a ``negligible
impact'' as a result of Shell's proposal.
Response: See response to comment 8. NMFS has determined that
marine mammals will not have a significant behavioral response (i.e., a
``take'') to the strudel scour surveys. Therefore, neither Shell's
application nor the Notice of Proposed IHA provide any take estimates
for the strudel scour survey. However, Shell needs to coordinate these
activities with the Native Alaskan communities to ensure that there is
no unmitigable adverse impact to subsistence hunts.
Habitat Concerns
Comment 74: NSB notes that Shell's application states,
``...concluded that mortality rates caused by exposure to sounds are so
low compared to natural mortality that issues relating to stock
recruitment should be regarded as insignificant.'' NSB asks, ``What
about these effects in addition to natural mortality?''
Response: The potential for Shell's activities to affect ecosystem
features and biodiversity components, including fish and invertebrates,
is analyzed in NMFS' EA for this action. Shell's activities would
impact less than 0.1 percent of available food resources, which would
have little, if any, effect on a marine mammal's ability to forage
successfully. Fish would need to be in very close proximity to the
airguns in order to incur mortality. Based on the small scale of
effects anticipated on fish, fish eggs, and larvae from the airgun
activity, these mortalities are not expected to cumulatively cause
significant impacts when added to the natural mortality rates.
Subsistence Use Concerns
Comment 75: The MMC recommends that issuance of the IHA be
contingent upon NMFS establishing specific mitigation measures for
bowhead and beluga whales that will ensure that the proposed activities
do not affect the subject species in ways that will make them less
available to subsistence hunters. Such measures should reflect the
provisions of any CAA, as well as meet the requirements of the MMPA.
Response: NMFS has required Shell, through the IHA, to implement
mitigation measures for conducting seismic surveys that are designed to
avoid, to the greatest extent practicable, impacts on coastal marine
mammals and thereby, meet the needs of those subsistence communities
that depend upon these mammals for sustenance and cultural
cohesiveness. For the 2009 season, several of these mitigation measures
were taken from the 2009 CAA signed by Shell on June 24, 2009, and
include coastal stand-off distances for seismic and vessel transiting
activities; a coastal community communication station; and emergency
assistance to whalers, among other measures.
Comment 76: NSB and AEWC state that the MMPA requires NMFS to find
that the specified activities covered by an IHA ``will not have an
unmitigable adverse impact on the availability of [marine mammal
populations] for taking for subsistence uses `` (16 U.S.C.
1371(a)(5)(D)(i)(II)). For the reasons presented herein, such a
conclusion cannot be adequately supported. First, in order for impacts
to be mitigated, the measures must be ``successfully implemented'' (50
CFR 216.104(c)) (emphasis added). Thus, Shell cannot on the one hand
rely on mitigation to claim its activities will not adversely impact
subsistence use but on the other hand fail to commit to mitigating the
impacts of its action or ensuring the public has the opportunity to
comment on the mitigation measures. For example, Shell acknowledges
that there ``could be an adverse impact on the Inupiat bowhead
subsistence hunt'' but claims the impact ``is mitigated'' despite the
fact the mitigation measures upon which Shell relies, such as the POC,
have yet to even be established, and Shell makes no definitive
commitment to measures to avoid conflicts.
Second, the dates and durations of Shell's activities are stated in
amorphous terms, making it impossible for NMFS to assess whether
Shell's activities will interfere with subsistence hunting, migration,
or feeding of marine mammals. Without this detailed information, NMFS
is making arbitrary determinations about the actual impacts of Shell's
activities on subsistence uses in the Chukchi Sea.
Response: The MMPA does not prohibit an activity from having an
adverse impact on the availability of marine mammals for subsistence
uses; rather, the MMPA requires NMFS to ensure the activity does not
have an unmitigable adverse impact on the availability of such species
or stocks for taking for 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.
Shell signed the 2009 CAA on June 24, 2009. As mentioned in the
response to comment 75, NMFS included measures from the 2009 CAA
related to marine mammals and avoiding conflicts with subsistence hunts
in the IHA. Additionally, NMFS, other government agencies, and affected
stakeholder agencies and communities were provided a copy of the draft
POC in May 2009, which outlined measures Shell would implement to
ensure no unmitigable adverse impact to subsistence uses. The POC
specifies times and areas to avoid in order to minimize possible
conflicts with traditional subsistence hunts by North Slope villages
for transit and open-water activities. Shell waited to begin activities
until the close of the spring beluga hunt in the village of Point Lay.
NMFS also considered the fact that Shell's activities will occur more
than 113 km (70 mi) offshore. Hunters typically do not travel this far
to collect animals. Based on the measures contained in the IHA (and
described later in this document), NMFS has determined that mitigation
measures are in place to ensure that Shell's operations do not have an
unmitigable adverse impact on the availability of marine mammal species
or stocks for subsistence uses.
Comment 77: NSB and AWL state that Shell's discussion of the
impacts to subsistence use is far too limited in scope. Shell looks
only at the direct impacts from its activities on active scouting and
whaling but does nothing to quantify the overall impacts to subsistence
users from on-going oil and gas activities throughout the whales'
migration routes in the Beaufort and Chukchi Seas and beyond. AWL also
states that NMFS must also evaluate the following: the susceptibility
of bowhead and beluga whales to disturbance from levels of noise below
160 dB; the potential impacts of future activities in both oceans; the
acknowledged uncertainty regarding the effects of seismic activity; and
the lack of baseline
[[Page 55393]]
biological data for the Chukchi Sea. For these reasons, NMFS has not
adequately supported its MMPA finding as to subsistence resources (see
50 CFR 216.104(c)) (best available science standard for subsistence
finding).
Response: NMFS analyzed the impacts from these additional
activities in the cumulative impacts analysis section in the EA for
this action. MMS' 2006 Final PEA also contains a full cumulative
impacts analysis, which was incorporated into NMFS' 2009 EA by
reference. NMFS has responded to the other issues raised by AWL
elsewhere in this document. Based on the responses and reasoning
provided throughout this document, NMFS has determined that its MMPA
finding as to subsistence resources is adequately supported.
Comment 78: NSB states that the MMPA authorizes NMFS to issue a
take authorization only if it first finds that there will be adequate
monitoring of such taking and that all methods and means of ensuring
the least practicable impact have been adopted (16 U.S.C.
1371(a)(5)(D)(ii)(I)). Shell's proposed monitoring and mitigation
measures are insufficient to protect against adverse impacts on the
availability of the species or stock for subsistence uses. Thus, NMFS
should not issue an IHA for the proposed activities until adequate
monitoring and mitigation techniques for avoiding adverse impacts to
the marine mammals and subsistence hunting are developed.
Response: First, the section of the statute the discussion the
requirement for monitoring measures is 16 U.S.C.
1371(a)(5)(D)(ii)(III), not 16 U.S.C. 1371(a)(5)(D)(ii)(I) as cited by
the commenter. Second, NMFS has included measures from the 2009 CAA in
Shell's IHA. Measures include: (1) avoiding groups or concentrations of
whales; (2) reducing vessel speed when within 300 yards of whales and
taking care not to separate members of a group from other members; (3)
participating in Communication Centers; (4) planning vessel routes to
minimize any potential conflict with subsistence whaling and sealing
activities; (5) transiting at least five miles offshore; (6) conducting
seismic operations at least 60 miles from shore; (7) providing
emergency assistance to whalers; and (8) conducting a post-season
review with the communities. Additionally, the following factors (1)
Shell's activities will occur more than 113 km (70 mi) offshore where
little to no subsistence hunting occurs, (2) activities will not
commence before the end of the spring beluga hunt in Point Lay, and,
(3) the location of the operational area is 225 km (140 mi) west of
Barrow, so whales will reach Barrow for the fall hunt before being
exposed to sounds from the airguns will also ensure no unmitigable
adverse impact to subsistence uses in the Chukchi Sea. Therefore, NMFS
has determined that the monitoring and mitigation measures required to
be implemented by Shell are adequate to ensure no unmitigable adverse
impact to subsistence uses.
Comment 79: NSB notes that Shell states in its application that it
will work with the communities to ``eliminate disturbance to
subsistence whaling activities in the Beaufort and Chukchi Seas.''
Shell needs to provide the details of how it intends to ``eliminate
disturbance.'' Shell has expressed increasing unwillingness to sign a
CAA with AEWC to protect subsistence hunting of bowheads. If Shell is
planning on only using POCs, developed in village meetings that are
often poorly attended and without dialogue about details of mitigation
measures, then Shell must provide details of the plans to ``eliminate
disturbance.'' Additionally, details are needed about how Shell will
avoid impacts to hunting of other marine mammals, especially belugas
and walrus. NSB also states, ``If NMFS is going to rely on a POC so
there are no unmitigable adverse impacts to subsistence hunting of
marine mammals, there must be some process by which the communities can
formally agree and accept the POC.'' They note that the CAA has worked
well over the past 15 years in part because all parties agree to
mitigation measures.
Response: It should be understood that the POC is required by NMFS'
implementing regulations to be submitted as part of the industry's IHA
application; so it is logical that NMFS' MMPA determinations would be
made after submission of the POC. The POC is required by NMFS
regulations in order to bring industry and the village residents
together to discuss planned offshore activities and to identify
potential problems. To be effective, NMFS and Shell believe the POC
must be a dynamic document, which will expand to incorporate the
communications and consultation that will continue to occur throughout
2009. Outcomes of POC meetings are included in updates attached to the
POC and distributed to Federal, state, and local agencies, as well as
local stakeholder groups.
In its Interim Rule for Arctic Activities (61 FR 1588, April 10,
1996), NMFS clarified that if either a POC or information required by
50 CFR 216.104(a)(12) is not submitted, and, if during the comment
period, evidence is provided indicating that an adverse impact to
subsistence needs will result from the activity, an authorization may
be delayed in order to resolve this disagreement. The requirements for
meeting this requirement are clearly stated in 50 CFR 216.104(12).
In any event, Shell signed a CAA in June 2009, which contains
measures agreed to by the parties. Many of these subsistence-related
measures (as they pertain to marine mammals and the related subsistence
harvests) have been included in the IHA and are enforceable.
Information on how Shell will avoid impacts to subsistence hunts of
beluga whales in the Chukchi Sea have been discussed elsewhere in this
document. The walrus is managed by the U.S. Fish and Wildlife Service
(USFWS), and as such, NMFS does not have jurisdiction over this
species.
Comment 80: NSB states that transit of Shell's vessels should not
occur before July 15 instead of the stated date of July 1. The villages
of Point Lay and Wainwright hunt beluga whales during late June or July
(or sometimes early August). Transiting vessels through the Chukchi Sea
might cause belugas to avoid their traditional congregation areas
nearshore and thus impact subsistence hunting.
Response: Shell's policy has been to communicate with the villages
of Point Lay and Wainwright during the spring hunting period in order
to ensure that vessel transits will not interfere with the spring
beluga hunt. Shell will wait until the completion of the spring hunt
before transiting through the Chukchi Sea.
Mitigation and Monitoring Concerns
Comment 81: The MMC notes that NMFS is proposing to include in the
IHA the additional mitigation and monitoring measures that were
included in IHAs issued to Shell in 2006, 2007, and 2008. The MMC
supports these proposed mitigation and monitoring measures and
recommends that they be incorporated in the IHA, if issued.
Response: NMFS has included the mitigation and monitoring measures
described in the Notice of Proposed IHA (74 FR 26217, June 1, 2009) in
the issued IHA. However, for reasons described elsewhere in this
document, NMFS has not required a 120-dB shutdown zone for activities
in the Chukchi Sea.
Comment 82: NSB notes that it appears Shell wants to survey in
areas other than Burger. If this is the case, NMFS needs to require
additional and appropriate monitoring.
Response: The monitoring measures contained in the IHA are required
at all
[[Page 55394]]
site clearance and shallow hazards surveying sites, not just Burger.
Therefore, if Shell conducts surveying activities at Crackerjack or SW
Shoebill, the same monitoring measures required at Burger will be
undertaken at Crackerjack and SW Shoebill.
Comment 83: AWL states that NMFS has proposed an exclusion zone for
12 or more gray or bowhead whales within the 160-dB zone, extending
1,400 m (0.87 mi) from the seismic vessel. AWL and Dr. Bain note that
there are serious concerns with the efficacy of mitigation measures
such as exclusion zones, particularly when visibility is poor to non-
existent. AWL also states that NMFS has not indicated that it will
require a fixed number of MMOs to be on duty, and Shell states that the
number of MMOs during any period depends on multiple factors, including
berthing availability and lifeboat space. If Shell ultimately relies on
single observers located on the source vessel only, monitoring the full
1,400 m (0.87 mi) radius for aggregations of whales will present a
considerable challenge.
NSB also notes the inadequacies of MMOs to monitor the 160- and
120-dB isopleths. Therefore, MMOs will not provide a reasonable measure
of how many marine mammals are exposed to sounds produced by site
clearance and shallow hazards surveys. Additional monitoring
approaches, such as intensive acoustic arrays, chase vessels, or aerial
surveys are needed. NSB also states that Shell is intending to conduct
intensive acoustic monitoring near the Burger and Klondike prospects.
This will be useful for measuring takes of marine mammals and examining
behavioral responses to site clearance and shallow hazards surveys.
Other areas that Shell intends to explore with airguns should also be
monitored with intensive acoustic arrays or with another suitable
monitoring technique, such as aerial surveys. Detailed monitoring of
marine mammal behavior and density is needed.
Response: The seismic vessels will be traveling at speeds of about
1-5 knots (1.9-9.3 km/hr). With a 180-dB safety range of 160 m (525 ft)
and a 160-dB safety range of 1,400 m (0.87 mi), a vessel will have
moved out of the applicable safety zone within a few minutes. As a
result, during underway seismic operations, MMOs are instructed to
concentrate on the area ahead of the vessel, not behind the vessel
where marine mammals would need to be voluntarily swimming towards the
vessel to enter the 180- or 160-dB zones. In fact, in some of NMFS'
IHAs issued for scientific seismic operations, shutdown is not required
for marine mammals that approach the vessel from the side or stern in
order to ride the bow wave or rub on the seismic streamers deployed
from the stern (and near the airgun array) as some scientists consider
this a voluntary action on the part of an animal that is not being
harassed or injured by seismic noise. While NMFS concurs that shutdowns
are not likely warranted for these voluntary approaches, in the Arctic
Ocean, all seismic surveys are shutdown or powered down for all marine
mammal close approaches. Also, in all seismic IHAs, including Shell's
IHA, NMFS requires that the safety zone be monitored for 30 min prior
to beginning ramp-up to ensure that no marine mammals are present
within the safety zones. Implementation of ramp-up is required because
it is presumed it would allow marine mammals to become aware of the
approaching vessel and move away from the noise, if they find the noise
annoying.
Periods of total darkness will not set in during Shell's survey
until early September. For the month of September, nighttime conditions
will occur for approximately 1-6 hrs. However, during times of reduced
light, MMOs will be equipped with night vision devices. During poor
visibility conditions, if the entire safety zone is not visible for the
entire 30 min pre-ramp-up period, operations cannot begin.
Shell will not be relying on single MMOs aboard the source vessel
to monitor the different radii. The IHA requires Shell to have five
MMOs on the source vessel at any time, and two MMOs must be on duty
during all pre-ramp up and ramp-up periods, as well as for a large a
fraction of the other operating hours as possible. MMOs are not
permitted to work more than 4 consecutive hours and no more than three
shifts per day (i.e., no more than 12 hours in a 24 hour period). By
requiring five MMOs on the vessel at all times, this will allow for two
MMOs to be on-watch for a greater period of time without causing
fatigue.
In 2009, Shell and ConocoPhillips are jointly funding an extensive
acoustic monitoring program in the Chukchi Sea. A total of 44 recorders
will be distributed both broadly across the Chukchi lease area and
nearshore environment and intensively on the Burger and Klondike lease
areas. The broad area arrays are designed to capture both general
background soundscape data and marine mammal call data across the lease
area. Shell hopes to gain insights into large-scale distribution of
marine mammals, identification of marine mammal species present,
movement and migration patterns, and general abundance data. While
intensive arrays will not be deployed at the Crackerjack prospect, the
broad array will still collect some of the information suggested by
NSB. However, an intensive array is not necessary at every site, as the
acoustic monitoring is not used to implement mitigation measures.
Aerial monitoring is not required in IHAs for surveys that occur in
the offshore environment of the Chukchi Sea because they have currently
been determined to be impracticable due to lack of adequate landing
facilities, the prevalence of fog and other inclement weather in that
area, potentially resulting in an inability to return to the airport of
origin, thereby resulting in safety concerns.
Comment 84: AEWC states that as part of its application, Shell is
required to suggest its proposed ``means of accomplishing the necessary
monitoring and reporting that will result in increased knowledge of the
species'' and document ``the level of taking or impacts on populations
of marine mammals...'' (50 CFR 216.104(a)(13)). One of the reasons for
this monitoring is for NMFS to ``ensure that authorizations over time
have only a negligible impact on species or stocks of marine mammals
and no unmitigable adverse impact on the availability of species or
stocks for taking for subsistence uses (60 FR 28381, May 31, 1995).
Thus, monitoring is critical to the proper functioning of the MMPA. For
this reason, NMFS has previously explained that a site-specific
monitoring plan must be submitted and would have to include information
regarding survey techniques and/or other methods to be used to
determine whether the behavior of marine mammals near the activity is
being affected and how the number of takes would be determined,
including the expected precision of that estimated number. However,
Shell has failed to adequately describe its monitoring plans. For
example, Shell fails to disclose its ethograms for studying marine
mammal behavior or describe how data will be collected to ``estimate
the 'take' of marine mammals by harassment.'' Without this detailed
information, AEWC cannot comment on the adequacy of Shell's monitoring
plan or make suggestions for study design so that the data collected
can easily be used by AEWC and others.
Response: While a list of the types of animal behaviors that are
recorded by the MMOs was not included in the 4MP, MMOs record common
behaviors exhibited by cetaceans and pinnipeds. Shell's 2009 monitoring
and reporting plan is similar to that used by Shell in
[[Page 55395]]
2006, 2007, and 2008. The 90-day reports from those seasons contain
descriptions of the types of behaviors that were recorded (Patterson et
al., 2007; Funk et al., 2008; Ireland et al., 2009). The 4MP contains a
brief description of the methods to calculate take. These are the same
methods that have been used by Shell in previous years. The full
explanations can be found in the 90-day reports (Patterson et al.,
2007; Funk et al., 2008; Ireland et al., 2009). Shell's methods have
been described several times, and AEWC and others have had several
opportunities over the past few years to comment on the methods for
monitoring and reporting behavior and take levels during seismic
surveys.
Comment 85: AEWC indicates that Shell's monitoring plan focuses
solely on ``reporting'' the level of take and not ``monitoring'' marine
mammals. The monitoring plan is designed to attempt to document the
take of marine mammals and fails to include proactive monitoring beyond
that necessary for attempting to assess the level of take that occurs.
Especially given the lack of data that exists on marine mammals use of
the Chukchi, Shell should be required to conduct basic presence and
absence surveys and collect density data utilizing vessels and other
tools that will minimally disturb marine life and scientifically
recognized data collection techniques.
Response: MMOs record the presence of marine mammals sighted
outside of the monitoring zones and note the behaviors exhibited by the
animals. Additionally, in 2009, Shell will be deploying an array of 44
acoustic recorders to gain insights into large-scale distribution of
marine mammals, identification of marine mammal species present,
movement and migration patterns, and general abundance data of marine
mammals in the Chukchi Sea. Similar data have been collected in 2006-
2008. The data collected during the 2009 season will assist in
evaluating changes in the Chukchi Sea ecosystem.
Comment 86: NSB asks how the mitigation measures are being
evaluated for efficacy. NSB and AEWC note that Shell asserts that
mitigation measures are designed to protect animals from injurious
takes, but it is not clear that these mitigation measures are effective
in protecting marine mammals or subsistence hunters. Data previously
presented by Shell and ConocoPhillips from their seismic activities
made clear that MMOs failed to detect many marine mammals that
encroached within the designated safety zones. NSB states, ``In essence
the MMOs were not able to observe marine mammals in the entire safety
zone.'' Thus, the safety zones do not provide adequate mitigation from
physical harm to marine mammals.
Response: NMFS believes that the required monitoring and mitigation
measures are effective at ensuring the least practicable impact to
marine mammals. Moreover, the safety zones for Shell's 2009 surveys are
much smaller than those for the larger 3D seismic surveys in past
years. The 180- and 190-dB safety zones are 160 m (525 ft) and 50 m
(164 ft), respectively. The monitoring reports from 2006, 2007, and
2008 do not note any instances of serious injury or mortality
(Patterson et al., 2007; Funk et al., 2008; Ireland et al., 2009).
Additionally, the fact that a power-down or shutdown is required does
not indicate that marine mammals are not being detected or that they
are incurring serious injury. As discussed elsewhere in this document
and in the Notice of Proposed IHA (74 FR 26217, June 1, 2009), the
received level of a single seismic pulse (with no frequency weighting)
might need to be approximately 186 dB re 1 microPa\2.\s (i.e., 186 dB
sound exposure level [SEL]) in order to produce brief, mild TTS (a non-
injurious, Level B harassment) in odontocetes. Exposure to several
strong seismic pulses that each have received levels near 175-180 dB
SEL might result in slight TTS in a small odontocete, assuming the TTS
threshold is (to a first approximation) a function of the total
received pulse energy. For Shell's proposed survey activities, the
distance at which the received energy level (per pulse) would be
expected to be [gteqt]175-180 dB SEL is the distance to the 190 dB re 1
microPa (rms) isopleth (given that the rms level is approximately 10-15
dB higher than the SEL value for the same pulse). Seismic pulses with
received energy levels [gteqt]175-180 dB SEL (190 dB re 1 microPa
(rms)) are expected to be restricted to a radius of approximately 50 m
(164 ft) around the airgun array.
For baleen whales, there are no data, direct or indirect, on levels
or properties of sound that are required to induce TTS. The frequencies
to which baleen whales are most sensitive are lower than those to which
odontocetes are most sensitive, and natural background noise levels at
those low frequencies tend to be higher. As a result, auditory
thresholds of baleen whales within their frequency band of best hearing
are believed to be higher (less sensitive) than are those of
odontocetes at their best frequencies (Clark and Ellison, 2004). From
this, it is suspected that received levels causing TTS onset may also
be higher in baleen whales.
In pinnipeds, TTS thresholds associated with exposure to brief
pulses (single or multiple) of underwater sound have not been measured.
Initial evidence from prolonged exposures suggested that some pinnipeds
may incur TTS at somewhat lower received levels than do small
odontocetes exposed for similar durations (Kastak et al., 1999, 2005;
Ketten et al., 2001; cf. Au et al., 2000). However, more recent
indications are that TTS onset in the most sensitive pinniped species
studied (harbor seal, which is closely related to the ringed seal) may
occur at a similar SEL as in odontocetes (Kastak et al., 2004).
NMFS (1995, 2000) concluded that cetaceans and pinnipeds should not
be exposed to pulsed underwater noise at received levels exceeding,
respectively, 180 and 190 dB re 1 microPa (rms). The established 180-
and 190-dB re 1 microPa (rms) criteria are not considered to be the
levels above which TTS might occur. Rather, they are the received
levels above which, in the view of a panel of bioacoustics specialists
convened by NMFS before TTS measurements for marine mammals started to
become available, one could not be certain that there would be no
injurious effects, auditory or otherwise, to marine mammals. As
summarized above, data that are now available imply that TTS is
unlikely to occur unless bow-riding odontocetes are exposed to airgun
pulses much stronger than 180 dB re 1 microPa rms (Southall et al.,
2007).
No cases of TTS are expected as a result of Shell's proposed
activities given the small size of the source, the strong likelihood
that baleen whales (especially migrating bowheads) would avoid the
approaching airguns (or vessel) before being exposed to levels high
enough for there to be any possibility of TTS, and the mitigation
measures proposed to be implemented during the survey described later
in this document.
There is no empirical evidence that exposure to pulses of airgun
sound can cause PTS in any marine mammal, even with large arrays of
airguns (see Southall et al., 2007). PTS might occur at a received
sound level at least several decibels above that inducing mild TTS if
the animal is exposed to the strong sound pulses with very rapid rise
time.
It is highly unlikely that marine mammals could receive sounds
strong enough (and over a sufficient duration) to cause permanent
hearing impairment during a project employing the airgun sources
planned here (i.e., an airgun array with a total discharge volume of 40
in\3\). In the proposed project, marine mammals are unlikely to be
exposed to
[[Page 55396]]
received levels of seismic pulses strong enough to cause more than
slight TTS. Given the higher level of sound necessary to cause PTS, it
is even less likely that PTS could occur. In fact, even the levels
immediately adjacent to the airgun may not be sufficient to induce PTS,
especially because a mammal would not be exposed to more than one
strong pulse unless it swam immediately alongside the airgun for a
period longer than the inter-pulse interval. Baleen whales, and belugas
as well, generally avoid the immediate area around operating seismic
vessels. The planned monitoring and mitigation measures, including
visual monitoring, power-downs, and shutdowns of the airguns when
mammals are seen within the safety radii, will minimize the already-
minimal probability of exposure of marine mammals to sounds strong
enough to induce PTS.
Comment 87: NSB states that Shell needs to include a plan of
reporting/communicating the presence of floating dead marine mammals
within the zone of industrial exploration. NSB would like to work with
industry to determine cause of death and perform other biological
sampling from carcasses noted in areas of industrial activity. There
are no provisions within the 4MP that facilitate these objectives.
Additionally, NSB has asked industry to work with NMFS to develop a
plan to mark carcasses so that they are not re-counted and a more
definitive count of dead, floating marine mammals within the industry
zone of operations can be made. This is not included here.
Response: The IHA requires Shell to notify both NMFS and the Marine
Mammal Stranding Network within 24 hours of sighting a stranded marine
mammal. The MMOs are also required to complete a Level A Stranding
Report Form and to take photographs when possible. However, Shell is
not permitted to collect samples or conduct necropsies on dead marine
mammals. Necropsies can only be performed by people authorized to do so
under the Marine Mammal Health and Stranding Response Program MMPA
permit. NMFS is currently considering different methods for marking
carcasses to reduce the problem of double counting. However, a protocol
has not yet been developed, so marking is neither required nor
authorized in the IHA.
Comment 88: The MMC believes that absent an evaluation by the oil
and gas industry of its monitoring and mitigation measures, the effects
of the industry's activities will remain uncertain. The MMC recommends
that NMFS require Shell and other companies conducting seismic work in
the Arctic to undertake the studies needed to verify observer
proficiency (including the number of observers needed to monitor entire
safety zones and the presence of marine mammals near or within those
zones, particularly when operations are being conducted 24 hours a day)
and provide additional rationale allowing seismic surveys to continue
under nighttime conditions when observer proficiency is severely
compromised. AWL also notes that NMFS should prohibit surveying at
night and at times of low visibility to achieve the means of effecting
the least practicable impact on a species or stock. At a minimum, NMFS
must require multiple observers working simultaneously in order to
effectively monitor the 160-dB zone. NSB states that with regard to
nighttime and poor visibility conditions, Shell proposes essentially no
limitations on operations, even though they acknowledge that the
likelihood of observers seeing marine mammals in such conditions is
low. The obvious solution not analyzed by Shell or NMFS is to simply
prohibit seismic surveying when conditions prevent MMOs from detecting
all marine mammals in the safety zone.
The MMC, AWL, and Dr. Bain recommend that Shell be required to
supplement its mitigation measures by using passive acoustic monitoring
(PAM). Such monitoring will enhance marine mammal detection
capabilities under all conditions, but particularly at night and when
visibility is otherwise poor.
Response: The MMOs hired by Shell are required to complete training
courses and exams to verify their proficiency. All MMOs used for the
2009 surveys have at least 2 years of experience working as MMOs for
surveys in Arctic waters. Several of the MMOs also have experience
working on vessels in other parts of the world as well. Two MMOs are
required to be on-duty during all pre-ramp-up and ramp-up periods and
for as large a fraction of the active surveying period as possible.
MMOs are not required to be on-duty during nighttime periods. However,
if the entire safety zone is not visible during the 30 min pre-ramp-up
and ramp-up periods, then operations are not permitted to begin.
On the matter of practicability, NMFS has been informed by Shell
that requiring a shutdown of the airgun arrays due to inclement weather
or darkness in the Arctic would reduce overall effectiveness by about
40 percent. Such a loss in efficiency could increase the potential for
Shell and other companies to increase effort by bringing additional
seismic vessels into the Beaufort and/or Chukchi Seas. As a result,
implementation of this suggestion as a mitigation measure is considered
by NMFS to be impracticable because of economic and practical reasons.
However, an alternative mitigation measure has been identified by
NMFS and is being reviewed that could increase detection of marine
mammals during darkness. The alternative mitigation measure could
involve the use of a high-frequency marine mammal monitoring (HF/M3)
sonar, similar to a model used by the U.S. Navy. The HF/M3 sonar is
capable of detecting marine mammals out to about 2 km (1.1 mi), with up
to 98 percent detection ability (depending upon animal size, distance
from sonar and animal depth) (Ellison and Stein, 1999) and has the
capability to be ramped up to avoid injury to marine mammals (as it can
detect the mammal prior to the HF/M3 sonar reaching levels of auditory
injury). It should be noted that this sonar does not require a marine
mammal to be vocalizing in order to be detected and has the capability
of being ramped-up, ensuring that, once a marine mammal is detected
within a 2-km (1.1 mi) radius, powering up the HF/M3 ceases until the
marine mammal is no longer detected within the 2-km zone. Once ramp-up
of the HF/M3 is complete, seismic surveys can commence. During surveys,
the HF/M3 would continue to monitor the area closest to the array where
there is a higher potential for injury, if marine mammals were not
either deflected by the seismic noise or detected by MMOs, passive
acoustics, or active acoustics. NMFS believes that utilizing the HF/M3
with ramp-up would result in the harassment of fewer marine mammals and
further ensure that auditory injury does not occur. However, based on
the small discharge volume of the airgun array to be used by Shell for
its 2009/2010 survey operations and the required mitigation and
monitoring measures (described later in this document), NMFS does not
believe that marine mammal injury will occur, with or without the use
of the HF/M3.
Moreover, as stated in the Federal Register Notice of Proposed IHA
(74 FR 26217, June 1, 2009), once the safety zones are visually
established and pre-survey monitoring has concluded that there are no
marine mammals within the safety zones, seismic surveys can commence
and continue into low visibility conditions. However, if for any
reasons the seismic sources are stopped during low visibility
conditions, they are not to be restarted until the conditions are
suitable for the marine
[[Page 55397]]
mammal visual monitoring so that the safety zones can be re-
established.
NMFS' 2009 EA for this action contains an analysis of why PAM is
not required to be used by Shell to implement mitigation measures.
Shell will deploy acoustic recorders to collect data on vocalizing
animals. However, this information will not be used in a real-time or
near-real-time capacity. Along with the fact that marine mammals may
not always vocalize while near the PAM device, another shortcoming is
that it requires a quiet vessel so that vessel noise does not hinder
the ability to hear marine mammals. MMS is sponsoring a workshop in
November 2009, which will review available acoustic monitoring
technology (passive and active), its feasibility and applicability for
use in MMS-authorized activities, and what additional developments need
to take place to improve its effectiveness. NMFS may consider
requirements for PAM in the future depending on information received as
the technology develops further.
Comment 89: It is also AEWC's position that independent
verification of offshore operators' compliance with IHA provisions must
be required as part of the mitigation for the IHAs.
Response: NMFS' implementing regulations at 50 CFR 216.104 require
an applicant to submit information about the mitigation, monitoring,
and reporting measures that will be implemented to ensure the least
practicable impact on the affected species or stock. NMFS reviews these
proposed measures, and, after discussion with the applicant, requires
mitigation, monitoring, and reporting protocols that NMFS determines
will ensure only small numbers of marine mammals will be taken, that
those takings will have a negligible impact on the affected species or
stock, will not have an unmitigable adverse impact on the affected
species or stock for taking for subsistence uses, and will effect the
least practicable impact on the affected species or stock. While NMFS
recognizes that independent verification of an operator's compliance
with the terms of an IHA is generally the best course of action if
possible or practicable, in some cases it is not practicable. In this
case, and at this time, NMFS does rely on the industry to comply with
the measures set forth in the IHA. NMFS continues to review reports
submitted by IHA holders to ensure that they comply with the terms
contained in the authorization. These reports require, among other
things, the holder to supply information regarding sightings of marine
mammals and the implementation of appropriate mitigation measures. NMFS
is continually interested, and trying, to develop a monitoring program
more independent of the action, but, until such a monitoring plan is
implemented, NMFS will rely on the industry to provide assurance that
the activity remains in compliance with measures contained in an IHA.
Comment 90: The MMC cannot determine from the information provided
in the application whether Shell plans to collect data during ramp-up
procedures to test the assumption that animals are able to, and will,
move away from an increasingly loud noise to avoid harmful effects. The
MMC recommends that NMFS require Shell and other applicant's using
ramp-up procedures to collect and analyze data pertaining to the
efficacy of ramp-up as a mitigation measure. NSB also states that data
need to be collected to better understand the effectiveness of the
mitigation measures (i.e., ramp-up, power-down, and shutdown). Dr. Bain
stresses the importance of collecting data on animals that are exposed
to noise versus those that are not exposed in order to allow for
comparisons of population dynamics.
Response: While scientific research built around the question on
whether ramp-up is effective has not been conducted, several studies on
the effects of anthropogenic noise on marine mammals indicate that many
marine mammals will move away from a sound source that they find
annoying (e.g. Malme, 1984; Clark et al., 1999; Miller et al., 1999;
others reviewed in Richardson et al., 1995). In particular, three
species of baleen whales have been the subject of tests involving
exposure to sounds from a single airgun, which is equivalent to the
first stage of ramp-up. All three species were shown to move away at
the onset of a single airgun operation (Malme et al., 1983-1986; BBN
Reports 5366, 5586, 6265; Richardson et al., 1986; McCauley et al.,
1998, 2000).
From this research, it can be presumed that if a marine mammal
finds a noise source annoying or disturbing, it will move away from the
source prior to sustaining an injury, unless some other over-riding
biological activity keeps the animal from vacating the area. This is
the premise supporting NMFS' and others' belief that ramp-up is
effective in preventing injury to marine mammals. In addition,
observers and power-down/shut-down criteria provide for the protection
of non-responding mammals: e.g., those that either do not hear the
sounds because of a hearing impairment or because the sounds are
outside the hearing range of the species, or those individuals that do
not react to the sounds because of behavioral or other physiological
factors. Implementation of these measures would prevent injury to those
animals that do not vacate the area. A ramp-up study was first proposed
to be conducted by MMS in 1999 (HESS, 1999). While this study has not
been funded to date, NMFS believes that a basic difficulty exists for
testing ramp-up effectiveness without first establishing some mode of
dose-response. As a result, prior to testing ramp-up effectiveness,
this type of information is currently being obtained by the Sperm
Whales Seismic Study. NMFS believes that this information is a critical
component for understanding marine mammal impacts from world-wide
operating seismic activities.
Additionally, the IHA requires that MMOs make observations for the
30 min prior to ramp-up, during all ramp-ups, and during all daytime
seismic operations and record the following information: (1) the
species, group size, age/size/sex categories (if determinable), the
general behavioral activity, heading (if consistent), bearing and
distance from seismic vessel, sighting cue, behavioral pace, and
apparent reaction of all marine mammals seen near the seismic vessel
and/or its airgun array (e.g., none, avoidance, approach, paralleling,
etc); and (2) the time, location, heading, speed, and activity of the
vessel (shooting or not), along with sea state, visibility, cloud cover
and sun glare. These requirements should provide information regarding
the effectiveness of ramp-up as a mitigation measure, provided animals
are detected during ramp-up. This information is also recorded when a
power-down or shutdown occurs. Lastly, Shell also documents sightings
and behaviors of marine mammals when no active survey operations are
occurring (e.g., down due to weather, transiting), allowing for some
level of comparison between exposed and non-exposed individuals.
Comment 91: AEWC states that Shell relies on an out-dated Notice to
Lessees (NTL 2004-G01) in its proposed mitigation plan to supply some
of its mitigation measures. Not only has this notice been superceded
(see NTL 2007-G02), but it is based on requirements stemming from a
NMFS Biological Opinion for a lease sale in the Gulf of Mexico. The
conditions in the Notice are not designed for Alaskan operations or the
specific and unique needs of the Arctic. Thus, Shell's reliance on this
Notice in crafting its mitigation measures is arbitrary.
[[Page 55398]]
Response: The full statement in the 4MP to which AEWC refers reads
as follows: ``The Program will be operated and administered consistent
with MMS NTL 2004-G01 or such alternative requirements as may be
specified in the NMFS IHA...'' While the 2004 NTL is mentioned in the
4MP, the mitigation measures that are described in the 4MP and Notice
of Proposed IHA (74 FR 26217, June 1, 2009) and subsequently required
in the IHA are similar to those that have been developed and required
by NMFS over the past few years for oil and gas seismic surveys in
Arctic waters. Several of the mitigation measures required by NMFS in
the IHA are specific to the unique needs of the Arctic. One example is
the 160-dB shutdown requirement when an aggregation of 12 or more
bowhead are gray whales occur within that isopleth.
Comment 92: AEWC and NSB both state that if NMFS relies on
mitigation included in an IHA to find an activity will have only a
negligible level of impact, that finding is ``subject to such
mitigating measures being successfully implemented'' (50 CFR 216.104;
emphasis added). The simple existence of a measure is not enough. Shell
must be able to demonstrate that measures will and can be implemented,
thus, ensuring that impacts to bowheads remain negligible. As Shell's
proposed mitigation currently stands, this is a difficult if not
impossible determination for NMFS to make.
Response: Shell's 2006, 2007, and 2008 90-day monitoring reports
indicate that the company was able to implement the required mitigation
measures (Patterson et al., 2007; Funk et al., 2008; Ireland et al.,
2009). Since the measures contained in the 2009 IHA do not differ
substantially from those required previously, NMFS does not have any
reason to doubt successful implementation during the current site
clearance and shallow hazards surveys. NMFS has determined that with
the incorporation and implementation of the mitigation measures,
impacts to bowheads and other marine mammals will be negligible.
Additionally, AEWC and NSB have not provided information indicating
that Shell did not successfully implement the required mitigation
measures.
Comment 93: NSB states that while there are descriptions of zones
of impact within the 4MP, there is no clear statement of mitigation
measures associated with these zones of impact. Monitoring does not
equate to mitigation. There must be a clear action that results from
monitoring, and these actions should go further than just power-downs.
Clear indications of when mitigation measures are triggered and what
results will occur are needed in this document.
Response: The Notice of Proposed IHA (74 FR 26217, June 1, 2009)
contained a discussion of mitigation measures associated with the
different zones of impact. It explained when a power-down or shutdown
in required to occur and how long airguns must remain off or used at a
reduced level. NMFS has informed Shell that commenters have requested
additional detail in the application documents. However, this does not
have a bearing on NMFS' required MMPA findings for issuing an IHA.
Comment 94: Dr. Bain questions the effectiveness of marine mammal
monitoring with only two MMOs on duty full time. Citing Forney and
Barlow (1998) and Dahlheim and Towell (1994), Dr. Bain states that a
common work schedule where consistent effort is required would be 40
minutes on, 40 minutes off, 40 minutes on, two hours off, three times a
day. Dr. Bain suggests that an observation team of 12 MMOs would be
required to cover a 24-hour period. Further, MMOs working shifts longer
than 40 minutes cannot be expected to have the same sighting efficiency
as those working in dedicated surveys, making it questionable to use
sighting efficiencies from dedicated surveys to predict effectiveness
of MMOs and to use dedicated survey parameters to extrapolate density
estimates from MMO data. Dr. Bain further states that the probability
of detecting marine mammals would drop with increased distance from the
vessel.
Response: NMFS does not agree with Dr. Bain's assessment and
suggestions regarding MMOs and marine mammal monitoring. NMFS reviewed
the references (Dahlheim and Towell, 1994; Forney and Barlow, 1998)
provided by Dr. Bain, and did not find any type of work schedules
described. Unlike observers during marine mammal population surveys who
are required to search the entire field for any marine mammals, the
primary responsibilities for MMOs are to monitor the safety zones,
which in this case are 160 m (525 ft) for the 180-dB isopleth and 50 m
(164 ft) for the 190-dB isopleth and to ensure that proper mitigation
measures (power-down or shutdown) are implemented if a marine mammal is
about to enter or is sighted within these safety zones. NMFS agrees
that the detection probability of a marine mammal drops with increased
distance from the ship. However, the occurrence of marine mammals
outside the safety zones is not a big concern for marine mammal
monitoring during the proposed seismic activity because it is presumed
these animals would not be within a zone that could result in injury.
Furthermore, MMOs would be on duty for 4 consecutive hours or less to
reduce fatigue. Shell will have five MMOs on the vessel at all times so
that two MMOs are on duty during all pre-ramp-up and ramp-up periods
and for as a large a fraction of other periods as possible. In
addition, all MMOs hired for the proposed seismic surveys must be NMFS-
approved observers who are qualified to perform the required monitoring
tasks. Therefore, NMFS believes that two MMOs are effective for marine
mammal monitoring for Shell's shallow hazard and site clearance
surveys.
Comment 95: Dr. Bain is concerned that many species that are
capable of diving for more than 30 minutes could be missed during the
monitoring.
Response: NMFS agrees with Dr. Bain that monitoring for deep diving
marine mammals poses a challenge. However, within the proposed survey
area, there are no marine mammals that normally dive for more than 30
minutes. However, in the event that a marine would be missed during the
initial pre-survey monitoring, ramp-up procedures will be followed when
an acoustic source begins to operate, so the undetected animal(s) would
have an opportunity to detect the sound as it increases gradually and
move away from the source. Please refer to the Mitigation and
Monitoring Measures sections later in this document for a detailed
description of these measures.
Comment 96: Dr. Bain notes that a fundamental assumption in noise
mitigation is that animals will move away from the noise source
(horizontal avoidance). Dr. Bain is concerned that many species are
sedentary, territorial, or have strong tendencies toward site fidelity,
and that these species are unlikely to move away from a noise source.
In addition, Dr. Bain is concerned that many predators are used to
experiencing pain during feeding, and hence tolerate pain [from being
exposed to loud noise] rather than abandoning their prey (e.g., many
mammals involved in fishery-interactions).
Response: First, the monitoring and mitigation measures described
in this document and contained in Shell's IHA would prevent any marine
mammals from being exposed to received levels that could cause onset of
injury (180 dB re 1 microPa (rms) for cetaceans and 190 dB re 1 microPa
(rms) for pinnipeds). Second, there are no sedentary marine mammals.
The proposed survey is fundamentally
[[Page 55399]]
different from commercial fisheries activities in which the appearance
of a seismic vessel does not reinforce the marine mammal with food or
prey, therefore, it is unlikely that predatory marine mammals would
approach the seismic vessel or acoustic source while searching for
prey. Even if a marine mammal happens to be in close vicinity of the
vessel or source, monitoring and mitigation measures require the crew
to power-down or shutdown the acoustic sources so that the animal will
not be affected by Level A harassment.
Cumulative Impact Concerns
Comment 97: The MMC continues to be concerned about the potential
cumulative impacts of climate-related ecosystem changes occurring in
the Arctic and the anticipated increase in the level of seismic and
other oil and gas-related activities in the region. The MMC recommends
that NMFS conduct a more extensive analysis of the potential or likely
effects of currently authorized and proposed oil and gas activities,
climate change, and additional anthropogenic risk factors (e.g.,
industrial operations) and the possible cumulative effects of all of
these activities over time. The MMC also recommends that NMFS, together
with the applicant and other appropriate agencies and organizations,
develop a comprehensive population monitoring and impact assessment
program to assess whether these activities, in combination with other
risk factors, are individually or cumulatively having any significant
adverse population-level effects on marine mammals or having an
unmitigable adverse effect on the availability of marine mammals for
subsistence uses by Alaska Natives. Such a monitoring program should
focus initially on the need to collect adequate baseline information to
allow for future analyses of effects. Finally, the MMC recommends that
NMFS sponsor a workshop or workshops to facilitate the development of a
comprehensive population monitoring and impact assessment program.
Response: A description of the monitoring program submitted by
Shell was provided in Shell's application, outlined in the Notice of
Proposed IHA (74 FR 26217, June 1, 2009), and posted on the NMFS PR IHA
webpage. As a result of a dialogue on monitoring by scientists and
stakeholders attending NMFS' public meetings in Anchorage in April,
2006, October, 2006, and April, 2007, the industry has expanded its
monitoring program in order to fulfill its responsibilities under the
MMPA. Additionally, Shell's 2009 monitoring plan was subjected to an
independent peer review. (See the ``Monitoring Plan Independent Peer
Review'' subsection later in this document for more information.) For
the fourth year, Shell has included a marine mammal research component
designed to provide baseline data on marine mammals for future
operations planning. A description of this research is provided later
in this document (see ``Comprehensive Monitoring Reports'' section).
Scientists are continuing discussions to ensure that the research
effort obtains the best scientific information possible. Finally, it
should be noted that this far-field monitoring program follows the
guidance of the MMC's recommended approach for monitoring seismic
activities in the Arctic (Hofman and Swartz, 1991), that additional
research might be warranted when impacts to marine mammals would not be
detectable as a result of vessel observation programs.
Comment 98: NSB, AEWC, AWL, and Oceana and the Ocean Conservancy
state that NMFS must also consider the effects of disturbances in the
context of other activities occurring in the Arctic. NSB notes, as
stated previously, the cumulative impacts of all industrial activities
must be factored into any negligible impact determination. NMFS has not
done so for Shell's activities, and, therefore, the proposed IHA should
not be issued until a cumulative impact assessment is conducted.
Response: Under section 101(a)(5)(D) of the MMPA, NMFS is required
to determine whether the taking by the applicant's specified activity
will take only small numbers of marine mammals, will have a negligible
impact on the affected marine mammal species or population stocks, and
will not have an unmitigable impact on the availability of affected
species or stocks for subsistence uses. Cumulative impact assessments
are NMFS' responsibility under the National Environmental Policy Act
(NEPA), not the MMPA. In that regard, MMS' 2006 Final PEA, NMFS' 2007
and 2008 Supplemental EAs, and NMFS' 2009 EA address cumulative
impacts. The Final PEA's cumulative activities scenario and cumulative
impact analysis focused on oil and gas-related and non-oil and gas-
related noise-generating events/activities in both Federal and State of
Alaska waters that were likely and foreseeable. Other appropriate
factors, such as Arctic warming, military activities, and noise
contributions from community and commercial activities were also
considered. Appendix D of the Final PEA addresses similar comments on
cumulative impacts, including global warming. That information was
incorporated into and updated in the NMFS 2008 SEA and into this
document by citation. Because these documents are part of NMFS'
Administrative Record on this matter, the information contained within
them do not need to be repeated. Please refer to these documents for
that assessment.
Comment 99: AEWC is concerned that absent an analysis of the
effects of all of the planned operations on marine mammals, it is
impossible to assess the level of take of these animals that is on-
going. For this reason, AEWC advocates that NMFS implement a cap on the
overall seismic-related activities that can occur in Arctic waters each
year.
Response: See the response to comment 98 discussing analysis of
cumulative impacts. Regarding the suggestion to cap the number of
activities each year, NMFS understands that under the terms of an OCS
lease, the lessee is required to make progress on exploration and
development on its leases in order to hold that lease beyond the
initial lease term. Ancillary activities (such as seismic and shallow
hazard surveys) are those activities conducted on a lease site to
obtain data and information to meet MMS' regulations to explore and
develop a lease. If a limit is placed by NMFS on the number of
ancillary activities authorized for a planning area in a given year,
NMFS may preclude the lessee from complying with MMS regulations to
proceed in a timely manner on exploring or developing its OCS leases.
However, NMFS will not issue an IHA for any activity where NMFS is
unable to make the necessary findings under section 101(a)(5)(D) of the
MMPA. Therefore, based on both practicability and that it is not
necessary in this particular instance (because there is only one
ancillary activity occurring this season), NMFS has not adopted this
suggested mitigation measure. However, NMFS encourages industry
participants to work together to reduce seismic sounds in the Arctic
Ocean through cooperative programs in data collection to reduce impacts
on marine mammals.
ESA Concerns
Comment 100: AEWC and NSB both note that the Notice of Proposed IHA
(74 FR 26217, June 1, 2009) states NMFS' determination that ``Shell's
proposed activities...are adequately analyzed in the 2008 Biological
Opinion'' and that ``NMFS does not plan to conduct a new section 7
consultation.'' They both state that this is in direct contravention of
the ESA. Both Shell and NMFS readily acknowledge that several
endangered species will likely be impacted by
[[Page 55400]]
Shell's proposed authorizations. Therefore, under the plain language of
the statute, the IHA must be consulted on pursuant to section 7 of the
ESA. Moreover, in light of our changing climate and the increased
activity in the Arctic, it is essential that NMFS continue to consult
on authorized activities so that the baseline used in making jeopardy/
no-jeopardy determinations remains current.
Response: Under section 7 of the ESA, NMFS has completed
consultation with the MMS on ``Oil and Gas Leasing and Exploration
Activities in the U.S. Beaufort and Chukchi Seas, Alaska; and
Authorization of Small Takes Under the Marine Mammal Protection Act.''
In a Biological Opinion issued on July 17, 2008, NMFS concluded that
the issuance of seismic survey permits by MMS and the incidental take
authorizations under the MMPA for seismic surveys are not likely to
jeopardize the continued existence of the endangered fin, humpback, or
bowhead whale. As no critical habitat has been designated for these
species, none will be affected. The 2008 Biological Opinion takes into
consideration all oil and gas related activities that are reasonably
likely to occur, including exploratory oil drilling activities. This
Biological Opinion does not include impacts from production activities,
which are subject to a separate consultation.
NMFS has reviewed Shell's proposed action and has determined that
the findings in the 2008 Biological Opinion apply to its 2009 Chukchi
Sea site clearance and shallow hazards surveys. In addition, NMFS has
issued an Incidental Take Statement (ITS) under this Biological Opinion
for Shell's survey activities, which contains reasonable and prudent
measures with implementing terms and conditions to minimize the effects
of take of bowhead, humpback, and fin whales.
Comment 101: AWL notes that NMFS' 2008 programmatic Biological
Opinion does not contain an ITS. AWL assumes that NMFS will issue a new
ITS in a timely manner.
Response: As indicated in the response to comment 100, after
issuance of the IHA, NMFS also issued a new ITS.
NEPA Concerns
Comment 102: AEWC and NSB believe that NMFS, in direct
contravention of the law, excluded the public from the NEPA process
since NMFS did not release a draft EA for the public to review and
provide comments prior to NMFS taking its final action.
Response: Neither NEPA nor the Council on Environmental Quality's
(CEQ) regulations explicitly require circulation of a draft EA for
public comment prior to finalizing the EA. The Federal courts have
upheld this conclusion, and in one recent case, the Ninth Circuit
squarely addressed the question of public involvement in the
development of an EA. In Bering Strait Citizens for Responsible
Resource Development v. U.S. Army Corps of Engineers (9th Cir. 2008),
the court held that the circulation of a draft EA is not required in
every case; rather, Federal agencies should strive to involve the
public in the decision-making process by providing as much
environmental information as is practicable prior to completion of the
EA so that the public has a sufficient opportunity to weigh in on
issues pertinent to the agency's decision-making process. In the case
of Shell's 2009 MMPA IHA request, NMFS involved the public in the
decision-making process by distributing Shell's IHA application and
addenda for a 30-day notice and comment period. However, at that time,
a draft EA was not available to provide to the public for comment. The
IHA application and NMFS' Notice of Proposed IHA (74 FR 26217, June 1,
2009) contained information relating to the project. For example, the
application included a project description, its location, environmental
matters such as species and habitat to be affected, and measures
designed to minimize adverse impacts to the environment and the
availability of affected species or stocks for subsistence uses.
Comment 103: AEWC notes that Shell's IHA application warrants
review in an environmental impact statement (EIS) given the potential
for significant impacts.
Response: NMFS' 2009 EA was prepared to evaluate whether
significant environmental impacts may result from the issuance of an
IHA to Shell, which is an appropriate application of NEPA. After
completing the EA, NMFS determined that there would not be significant
impacts to the human environment and accordingly issued a FONSI.
Therefore, an EIS is not needed for this action.
Comment 104: AEWC, AWL, and NSB note the release of the MMS/NMFS
Draft Programmatic EIS (PEIS; MMS, 2007) in the summer of 2007. To
date, a Final PEIS has not been completed. The commenters believe that
all public comments submitted on the Draft PEIS must be answered and
the Final PEIS released before NMFS can issue new IHAs for seismic
activities in the Chukchi and Beaufort Seas. AWL states that CEQ
regulations limit new activities that are otherwise covered by a PEIS
during the period in which the environmental review is in progress.
Allowing surveying to continue avoids the broader look at potential
impacts and could prejudice the agency's decision making.
Response: While the Final PEIS will analyze the affected
environment and environmental consequences from seismic surveys in the
Arctic, the analysis contained in the Final PEIS will apply more
broadly to Arctic seismic operations. NMFS' issuance of an IHA to Shell
for the taking of several species of marine mammals incidental to
conducting its open-water marine survey program in the Chukchi Sea in
2009, as analyzed in the EA, is not expected to significantly affect
the quality of the human environment. Shell's surveys are not expected
to significantly affect the quality of the human environment because of
the limited duration and scope of Shell's operations. Additionally, the
EA contained a full analysis of cumulative impacts.
Marine Mammals Affected by the Activity
Marine mammals that occur in the proposed survey areas belong to
three taxonomic groups: (1) odontocetes (toothed cetaceans), (2)
mysticetes (baleen whales), and (3) carnivora (pinnipeds and polar
bears). Cetaceans and pinnipeds (except walrus) are the subject of this
IHA. In the U.S., the walrus and polar bear are managed by the USFWS.
USFWS issued a LOA to Shell on July 16, 2009, for incidental ``takes''
specific to walruses and polar bears.
Marine mammal species under the jurisdiction of NMFS which are
known to or may occur in the open-water marine survey area of the
Chukchi Sea include eight cetacean and four pinniped species (see Table
4-1 in Shell's application). Three of these species, the bowhead,
humpback and fin whales, are listed as ``endangered'' under the ESA.
Bowhead whales are more common in the survey area than other ESA
species. Based on a small number of sightings, fin whales are unlikely
to occur along the planned trackline in the Chukchi Sea. Humpback
whales normally are not found in the Chukchi Sea; however, several
humpback sightings were recorded during vessel-based surveys in the
Chukchi Sea in 2007 (Reiser et al., 2008).
The marine mammal species under NMFS jurisdiction that are most
likely to occur in the survey area include:
[[Page 55401]]
beluga, bowhead, and gray whales, harbor porpoise, and ringed, bearded,
and spotted seals. The marine mammal species likely to be encountered
most widely (in space and time) throughout the survey period is the
ringed seal. Encounters with bowhead and gray whales are expected to be
limited to particular regions and seasons, as discussed in Shell's
application.
Four additional cetacean species and one pinniped species-the
killer, minke, humpback, and fin whales and ribbon seals-could occur in
the project area, but each of these species is uncommon or rare in the
survey area and relatively few encounters with these species are
expected during Shell's operations. Descriptions of the biology,
distribution, and population status of the marine mammal species under
NMFS' jurisdiction can be found in Shell's application and the NMFS
SARs. The Alaska SAR is available at: http://www.nmfs.noaa.gov/pr/pdfs/sars/ak2008.pdf. Please refer to those documents for information on
these species.
Potential Effects of Survey Activities on Marine Mammals
The only anticipated impacts to marine mammals associated with
Shell's proposed activities (primarily resulting from noise
propagation) are from vessel movements and airgun operations. Aircraft
may provide a potential secondary source of sound. The physical
presence of vessels and aircraft could also potentially lead to non-
acoustic effects on marine mammals involving visual or other cues.
The effects of sounds from airguns might include one or more of the
following: tolerance, masking of natural sounds, behavioral
disturbance, and temporary or permanent hearing impairment or non-
auditory effects (Richardson et al., 1995). As outlined in previous
NMFS documents, the effects of noise on marine mammals are highly
variable, and can be categorized as follows (based on Richardson et
al., 1995):
(1) The noise may be too weak to be heard at the location of the
animal (i.e., lower than the prevailing ambient noise level, the
hearing threshold of the animal at relevant frequencies, or both);
(2) The noise may be audible but not strong enough to elicit any
overt behavioral response;
(3) The noise may elicit reactions of variable conspicuousness and
variable relevance to the well being of the marine mammal; these can
range from temporary alert responses to active avoidance reactions such
as vacating an area at least until the noise event ceases;
(4) Upon repeated exposure, a marine mammal may exhibit diminishing
responsiveness (habituation), or disturbance effects may persist; the
latter is most likely with sounds that are highly variable in
characteristics, infrequent, and unpredictable in occurrence, and
associated with situations that a marine mammal perceives as a threat;
(5) Any anthropogenic noise that is strong enough to be heard has
the potential to reduce (mask) the ability of a marine mammal to hear
natural sounds at similar frequencies, including calls from
conspecifics, and underwater environmental sounds such as surf noise;
(6) If mammals remain in an area because it is important for
feeding, breeding, or some other biologically important purpose even
though there is chronic exposure to noise, it is possible that there
could be noise-induced physiological stress; this might in turn have
negative effects on the well-being or reproduction of the animals
involved; and
(7) Very strong sounds have the potential to cause temporary or
permanent reduction in hearing sensitivity. In terrestrial mammals, and
presumably marine mammals, received sound levels must far exceed the
animal's hearing threshold for there to be any TTS in its hearing
ability. For transient sounds, the sound level necessary to cause TTS
is inversely related to the duration of the sound. Received sound
levels must be even higher for there to be risk of permanent hearing
impairment. In addition, intense acoustic or explosive events may cause
trauma to tissues associated with organs vital for hearing, sound
production, respiration and other functions. This trauma may include
minor to severe hemorrhage.
The Notice of Proposed IHA (74 FR 36217, June 1, 2009) included a
discussion of the effects of sounds from airguns on mysticetes,
odontocetes, and pinnipeds, including tolerance, masking, behavioral
disturbance, hearing impairment and other physical effects, and non-
auditory physiological effects, as well as a discussion on stranding
and mortality events. The initial discussion of the potential effects
of airguns on marine mammals presented in the Notice of Proposed IHA
were presented without consideration of the mitigation measures
proposed by Shell and required by NMFS. However, NMFS' preliminary
determinations were made only after evaluation of Shell's proposed
mitigation measures. When these measures are taken into account, it is
unlikely that this project would result in temporary, or especially,
permanent hearing impairment or any significant non-auditory physical
or physiological effects.
The Notice of Proposed IHA also included a discussion of the
potential effects of the sonar equipment (e.g., multi-beam bathymetric
sonar) to be used by Shell during the surveys. While the sonar
equipment proposed to be used for this project generates high sound
energy, the equipment operates at frequencies (>100 kHz) beyond the
effective hearing range of most marine mammals likely to be encountered
during the proposed activities (Richardson et al., 1995). Therefore,
NMFS believes that effects of signals from sonar equipment to marine
mammals will be negligible.
Estimated Take of Marine Mammals
The anticipated harassments from the activities described above may
involve temporary changes in behavior. There is no evidence that the
planned activities could result in serious injury or mortality, for
example due to collisions with vessels or strandings. Disturbance
reactions, such as avoidance, are very likely to occur among marine
mammals in the vicinity of the source vessel. The required mitigation
and monitoring measures (described later in this document) will result
in, at most, Level B harassment and will reduce even further the
already minimal potential for the risk of injury.
The Notice of Proposed IHA (74 FR 26217, June 1, 2009) included an
in-depth discussion of the methodology used by Shell to estimate
incidental take by harassment by its seismic activities and the numbers
of marine mammals that might be affected during the site clearance and
shallow hazards surveys in the Chukchi Sea. Additional information was
included in Shell's IHA application and application addenda. Moreover,
further explanations have been provided in the ``Comments and
Responses'' section earlier in this document based on comments received
during the 30-day public comment period. A summary is provided here.
The estimates are based on data obtained during marine mammal
surveys in and near the proposed survey area and on estimates of the
sizes of the areas where effects could potentially occur. In some
cases, these estimates were made from data collected in regions,
habitats, or seasons that differ from those in the proposed survey
areas. Adjustments to reported population or density estimates were
made to account for these differences insofar as possible.
Although several systematic surveys of marine mammals have been
[[Page 55402]]
conducted in the southern Beaufort Sea, few data (systematic or
otherwise) are available on the distribution and numbers of marine
mammals in the Chukchi Sea beyond the 200 m (656 ft) bathymetry
contour. The main sources of distributional and numerical data used in
deriving the estimates are described below and in Shell's application.
While there is some uncertainty related to the use of regional
population densities for applications that are local in focus, these
estimates are based on the best available scientific data and
represents standard practice.
Marine Mammal Density Estimates
This section provides estimates of the number of individuals
potentially exposed to sound levels at or above 160 dB re 1 Pa (rms).
The estimates are based on a consideration of the number of marine
mammals that might be disturbed appreciably by operations in the
Chukchi Sea.
For the Chukchi Sea, cetacean densities during the summer (July-
August) were estimated from effort and sightings data in Moore et al.
(2000b) while pinniped densities were estimated from Bengtson et al.
(2005). Because few data are available on the densities of marine
mammals other than large cetaceans in the Chukchi Sea in the fall
(September-October), density estimates from the summer period have been
adjusted to reflect the expected ratio of summer-to-fall densities
based on the natural history characteristic of each species.
Alternatively, some densities from data collected aboard industry
vessels in 2006 and 2007 in the Chukchi Sea have been used.
As noted above, there is some uncertainty about the
representativeness of the data and assumptions used in the
calculations. To provide some allowance for the uncertainties,
``maximum estimates'' as well as ``average estimates'' of the numbers
of marine mammals potentially affected have been derived and provided
by Shell in their application. For a few marine mammal species, several
density estimates were available, and in those cases, the average and
maximum estimates were calculated from the survey data. In other cases,
only one, or no applicable estimate was available so correction factors
were used to arrive at ``average'' and ``maximum'' estimates. These are
described in detail in Shell's application and the Notice of Proposed
IHA (74 FR 26217, June 1, 2009). Except where noted, the ``maximum''
estimates have been calculated as twice the ``average'' estimates. The
densities presented are believed to be similar to, or in most cases
higher than, the densities that will actually be encountered during the
survey.
Detectability bias, quantified in part by [f(0)], is associated
with diminishing sightability with increasing lateral distance from the
survey trackline. Availability bias [g(0)] refers to the fact that
there is less than 100 percent probability of sighting an animal that
is present along the survey trackline. These correction factors were
applied to the data from Moore et al. (2000b) and were already included
in data provided by Richardson and Thompson (2002) on beluga and
bowhead whales, and where possible were applied to the available data
for other species.
Estimated densities of marine mammals in the Chukchi Sea during the
``summer'' (July and August) site clearance and shallow hazards survey
are presented in Table 6-1 of Shell's application. Densities of marine
mammals estimated for the ``fall'' period of Shell's proposed
activities in the Chukchi Sea (September and possibly October) are
presented in Table 6-2 of the application. Both ``average'' and
``maximum'' densities are provided in the tables. Unless otherwise
noted by Shell in the application, maximum densities are twice the
average densities. However, since Shell did not provide a rationale
regarding the maximum estimate, NMFS has decided that the average
density data of marine mammal populations will be used to calculate
estimated take numbers because these numbers are based on surveys and
monitoring of marine mammals in the vicinity of the proposed project
area. NMFS only used the ``maximum'' estimates for marine mammal
species that are considered rare in the project area and for which
little to no density information exists (i.e., killer, fin, humpback,
and minke whales and ringed seals).
(1) Cetaceans
Nine species of cetaceans are known to occur in the Chukchi Sea
project area. Only four of these (bowhead, beluga, and gray whales and
harbor porpoise) are expected to be encountered in meaningful numbers
during the proposed survey. Densities of bowhead and beluga whales are
expected to be lower in the summer when the majority of the stocks are
in the Canadian Beaufort Sea. Later in the season, as the animals begin
their westward migration through the Alaskan Beaufort and Chukchi Seas,
densities of these species will increase in the survey area. Species
specific information for bowhead, beluga, and gray whales and harbor
porpoise was contained in the Notice of Proposed IHA.
The remaining four cetacean species that could be encountered in
the Chukchi Sea during Shell's proposed open-water marine survey
include the humpback, killer, minke, and fin whales. Although there is
evidence of the occasional occurrence of these species in the Chukchi
Sea, it is unlikely that individuals will be encountered during the
proposed survey.
(2) Pinnipeds
Four species of pinnipeds may be encountered in the Chukchi Sea
area of Shell's proposed shallow hazards and site clearance program:
ringed, bearded, spotted, and ribbon seals. Each of these species,
except the spotted seal, is associated with both the ice margin and the
nearshore area. Ribbon seals have been reported in very small numbers
within the Chukchi Sea by observers on industry vessels (Ireland et
al., 2007a; Patterson et al., 2007) so minimal values have been used
for expected densities. Additional information for ringed, bearded, and
spotted seals can be found in the Notice of Proposed IHA.
Exposure Calculations of Marine Mammals
Numbers of marine mammals that might be present and potentially
disturbed as a result of the site clearance and shallow hazards surveys
are estimated below based on available data about mammal distribution
and densities at different locations and times of the year, as
described previously. Shell's survey would take place in the Chukchi
Sea over two different seasons (i.e., summer, August, and fall,
September and possibly October). The estimates of marine mammal
densities have therefore been separated both spatially and temporally
in an attempt to represent the distribution of animals expected to be
encountered over the duration of the survey.
The number of individuals of each species potentially exposed to
received sound levels at or above 160 dB re 1 microPa (rms) within the
survey region, time period, and habitat zone was estimated by
multiplying:
The expected species density (as provided in Tables 6-1
and 6-2 of Shell's application); by
The anticipated area to be ensonified to the specified
level in the survey region (900 km\2\), time period, and habitat zone
to which that density applies.
The numbers of potential individuals exposed were then summed for
each species across the survey region, seasons, and habitat zones. Some
of the animals estimated to be exposed,
[[Page 55403]]
particularly migrating bowhead whales, might show avoidance reactions
before being exposed to 160 dB re 1 microPa (rms). Thus, these
calculations actually estimate the number of individuals potentially
exposed to sound at or above 160 dB (rms) that would occur if there
were no avoidance of the area ensonified to that level.
The area of water potentially exposed to received levels at or
above 160 dB (rms) by the proposed operations was calculated by
multiplying the planned trackline distance by the cross-track distance
of the sound propagation measured during previous field seasons. For
site clearance and shallow hazards surveys in 2008 in the Chukchi Sea,
the 160 dB radius from the Cape Flattery's four 10 in\3\ airguns
measured in 2008 was 1,400 m (0.87 mi), and the single 10 in\3\ airgun
was 440 m (0.27 mi).
Closely spaced survey lines and large cross-track distances of the
160 dB radii can result in repeated exposure of the same area of water.
Excessive amounts of repeated exposure can lead to overestimation of
the number of animals potentially exposed through double counting.
However, the relatively short cross-track distances of the 160 dB radii
associated with the site clearance and shallow hazards surveys result
in little overlap of exposed waters during the survey, so multiple
exposures due to overlap of ensonified areas have not been removed from
the area calculations.
Shallow hazards and site clearance surveys in the Chukchi Sea are
planned to occur along approximately 480 km (298 mi) of survey lines
(plus approximately 120 km (74.6 mi) of mitigation gun activity between
survey lines) from August-September (and possibly early to mid-October)
exposing approximately 900 km\2\ (347.5 mi2) of water to sounds at or
above 160 dB re 1 Pa (rms). Additional information on the calculations
for estimating take can be found in Shell's application and the Notice
of Proposed IHA.
Based on the operational plans and marine mammal densities
described above, the estimates of marine mammals potentially exposed to
sounds at or above 160 dB (rms) in the Chukchi Sea are presented in
Table 6-7 of Addendum 2 to Shell's application. A discussion of the
number of potential exposures is summarized by species in the following
subsections.
(1) Cetaceans
Based on density estimates, one ESA-listed cetacean species (the
bowhead whale) is expected to be exposed to received sound levels at or
above 160 dB (rms) unless bowheads avoid the survey vessel before the
received levels reach 160 dB. Migrating bowheads are likely to avoid
the survey vessel, though many of the bowheads engaged in other
activities, particularly feeding and socializing may not. Using average
density estimates, Shell estimates that one bowhead whale may
potentially be exposed to sounds at or above 160 dB (rms) in the
Chukchi Sea project area during the site clearance and shallow hazards
survey (see Table 6-7 of Addendum 2 to Shell's application). Two other
cetacean species listed as endangered under the ESA that may be
encountered in the project area (fin and humpback whales) are unlikely
to be exposed given their low ``average'' density estimates in the
area. However, Shell has estimated that a ``maximum'' of five humpback
whales and five fin whales may be exposed to sound levels at or above
160 dB (rms) during the proposed survey (see Table 6-7 in Addendum 2).
NMFS' reasoning for using the ``maximum'' estimate for these species
was explained earlier in this document.
Most of the cetaceans exposed to survey sounds with received levels
greater than or equal to 160 dB (rms) would involve bowhead, gray, and
beluga whales and harbor porpoise. Average and maximum estimates of the
number of exposures of cetaceans other than bowheads are: beluga whale
(10 and 19, respectively), gray whale (19 and 37, respectively), and
harbor porpoise (6 and 11, respectively). Average estimates for the
other cetacean species are zero (see Table 6-7 in Addendum 2 to Shell's
application) since accurate density estimates are not possible given
the paucity of sightings. However, maximum estimates are provided for
these species (Table 6-7). For the common species, the requested
numbers are calculated as described previously in this document and
based on the average densities from the data reported in the different
studies mentioned previously.
(2) Pinnipeds
The ringed seal is the most widespread and abundant pinniped in
ice-covered Arctic waters, and there is a great deal of annual
variation in population size and distribution of these marine mammals.
Ringed seals account for the vast majority of marine mammals expected
to be encountered and hence exposed to airgun sounds with received
levels greater than or equal to 160 dB re 1 microPa (rms) during the
site clearance and shallow hazards survey. The average (and maximum)
exposure estimate is that 692 (1,078) ringed seals might be exposed to
marine survey sounds with received levels at or above 160 dB (rms).
Two additional pinniped species (other than Pacific walrus) are
expected to be encountered. They are the bearded seal (31 and 43,
average and maximum estimates, respectively) and the spotted seal (6
and 11, average and maximum estimates, respectively; Table 6-7 in
Addendum 2 to Shell's application). The ribbon seal is unlikely to be
encountered. Therefore, only a maximum estimate (5) has been provided
for this species based on the minimal density data and extremely low
density estimates for this species in the Chukchi Sea. NMFS' reasoning
for using the ``maximum'' estimate for this species was explained
earlier in this document.
Conclusions
(1) Cetaceans
Most of the bowhead whales encountered during the summer will
likely show overt disturbance (avoidance) if they receive airgun sounds
with levels at or above 160 dB re 1 Pa (rms). The small airgun array
proposed for use in this survey greatly limits the size of the 160 dB
zone around the ship (1,400 m (0.87 mi)). The use of this smaller array
will result in fewer bowhead whales being disturbed by the survey when
compared to the use of larger arrays.
Seismic operators sometimes see dolphins and other small toothed
whales near operating airgun arrays, but in general, there seems to be
a tendency for most delphinds to show some limited avoidance of
operating seismic vessels (Stone, 2003; Moulton and Miller, 2005; Holst
et al., 2006; Stone and Tasker, 2006). Studies that have reported cases
of small toothed whales close to the operating airguns include Duncan
(1985), Arnold (1996), Stone (2003), and Holst et al. (2006). 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
10-20 km (6.2-12.4 mi) of seismic vessels during aerial surveys. These
results were consistent with the low number of beluga sightings
reported by observers aboard the seismic vessel, suggesting that some
belugas might be avoiding the seismic operations at distances of 10-20
km (6.2-12.4 mi; Miller et al., 2005). The study conducted by Miller et
al. (2005) was aboard a vessel conducting a 3D seismic survey,
utilizing two identical 2,250 in\3\ airgun arrays with each array
containing 24 guns. Since the acoustic sources to be used during
Shell's survey are significantly smaller
[[Page 55404]]
(total discharge volume of 40 in\3\) than the ones described in the
Miller et al. (2005) study, deflections of that magnitude are not
expected.
Taking into account the mitigation measures that are planned,
effects on cetaceans are generally expected to be restricted to
avoidance of a limited area around the survey operation and short-term
changes in behavior, falling within the MMPA definition of ``Level B
harassment''. Furthermore, the estimated numbers of animals potentially
exposed to sound levels sufficient to cause appreciable disturbance are
relatively low percentages of the population sizes in the Bearing-
Chukchi-Beaufort seas, as described next.
Based on the 160 dB (rms) disturbance criterion, the best (average)
estimates of the numbers of cetacean exposures to sounds at or above
160 dB re 1 microPa (rms) represent varying proportions of the
populations of each species in the Chukchi Sea and adjacent waters (cf.
Table 6-1 in Shell's application). For species listed as endangered
under the ESA, Shell's estimates suggest it is unlikely that fin or
humpback whales will be exposed to received levels greater than or
equal to 160 dB rms, but that approximately one bowhead may be exposed
at this level. The latter is less than 0.01 percent of the Bering-
Chukchi-Beaufort population of greater than 13,779 individuals assuming
3.4 percent annual population growth from the 2001 estimate of 10,545
animals (Zeh and Punt, 2005).
Beluga whales may be exposed to sounds produced by the airgun
arrays during the survey, and the numbers potentially affected are
small relative to the population size (Table 6-7 in Addendum 2 to
Shell's application). The best estimate of the number of belugas that
might be exposed to sounds at or above 160 dB (10) represents 0.27
percent of the eastern Chukchi Sea population of approximately 3,710
individuals (Angliss and Allen, 2009).
Gray whales and harbor porpoise may also be exposed to sounds
produced by the airguns. The best (average) estimate of the number of
gray whales and harbor porpoise that might be exposed to sounds at or
above 160 dB (rms) represents 0.11 percent of the Eastern North Pacific
stock of gray whales and less than 0.01 percent of the Bering Sea stock
of harbor porpoise.
In addition, killer, fin, humpback, and minke whales could also be
taken by Level B harassment as a result of the survey. However, the
possibility is low. The numbers of ``average'' estimated take of these
species are not available because they are rare in the project area and
little density data exist for these species in the project area. Since
the Chukchi Sea represents only a small fraction of the North Pacific
and Arctic basins where these animals occur, and these animals do not
regularly congregate in the vicinity of the project area, NMFS has
determined that only relatively small numbers, if any, of these marine
mammal species would be potentially affected by Shell's activities.
Varying estimates of the numbers of marine mammals that might be
exposed to sounds from the airgun array during the 2009 Shell shallow
hazards and site clearance surveys have been presented (average vs.
maximum). The relatively short-term exposures that will occur are not
expected to result in any long-term negative consequences for the
individuals or their populations.
The many reported cases of apparent tolerance by cetaceans of
seismic exploration, vessel traffic, and some other human activities
show that co-existence is possible. Mitigation measures such as
controlled vessel speed, dedicated MMOs, non-pursuit, shutdowns or
power-downs when marine mammals are seen within defined ranges, and
avoiding migration pathways when animals are likely most sensitive to
noise 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. Subsistence issues
are addressed later in this document.
Potential Bowhead Disturbance at Lower Received Levels - Aerial
surveys during fall seismic surveys in the Beaufort Sea showed that
migrating bowhead whales appeared to avoid seismic activities at
distances of 20-30 km (12.4-18.6 mi) and received sound levels of 120-
130 dB rms (Miller et al., 1999; Richardson et al., 1999). Therefore,
it is possible that a larger number of bowhead whales than estimated
above may be disturbed to some extent if reactions occur at or near
approximately 130 dB (rms). Using the same method of calculation as
described earlier in this document for estimating take, the number of
migrating bowhead whales exposed to sounds greater than or equal to 120
dB by the proposed survey would be approximately 8.5 the number
estimated at 160 dB. (It should be noted though that this calculation
is more accurate for the Beaufort Sea where the bowhead whale migration
pathway is narrower and more clearly defined than in the Chukchi Sea.)
However, acoustic data collected in the vicinity of seismic surveys in
the Beaufort Sea in 2007 indicated that bowhead whales did not avoid
the sound source at distances equivalent to 120 dB (rms) and instead
tolerated sounds at higher levels while likely changing their calling
behavior (Blackwell et al., 2008).
Reducing operations during the bowhead whale subsistence harvest is
meant to accomplish two mitigation objectives. It greatly reduces the
potential for conflicts with subsistence hunting activities, and it
allows a large proportion of the bowhead population to migrate past the
survey area without being exposed to survey sounds at or above 160 dB
(rms) or 120 dB (rms).
The western Arctic stock of bowhead whales usually begins its
westward migration through the Beaufort Sea in late August. Westbound
bowheads typically reach the Barrow area in mid-September and remain in
that area until late October (Brower, 1996). Therefore, migrating
bowhead whales are not expected in the proposed Chukchi Sea survey area
until the second half of the survey, as the project is expected to
occur for approximately 50 days between August and September, not
including weather delays. Shell's seismic vessel left Dutch Harbor on
July 27, 2009. Through September 30, 2009, Shell had completed 34 days
of active data acquisition. Also during this period, Shell experienced
13 down-days due to weather, and there were 19 days of transit to both
Nome and Dutch Harbor for crew transfers and resupplying the vessel.
Shell expects to complete active seismic operations on October 10,
2009, and to return to Dutch Harbor on October 15 (G. Horner, 2009,
Shell, pers. comm.).
(2) Pinnipeds
A few pinniped species are likely to be encountered in the study
area, but the ringed seal is by far the most abundant marine mammal
species in the survey area. The best (average) estimates of the numbers
of individual seals likely to be exposed to airgun sounds at received
levels at or above 160 dB re 1 microPa (rms) during the open-water
marine survey in the Chukchi Sea are as follows: ringed seals (692),
bearded seals (31), and spotted seals (6), (representing 0.3 percent,
0.6 percent, and 0.01 percent, respectively, of the Bering-Chukchi-
Beaufort populations for each species). It is probable that only a
small percentage of the animals exposed to sound levels at 160 dB would
actually be disturbed. For example, Moulton and Lawson (2002) indicate
that most pinnipeds exposed to seismic sounds lower than 170 dB do not
visibly react to that sound, and, therefore, pinnipeds are not likely
to react to seismic sounds unless they are
[[Page 55405]]
greater than 170 dB re 1 microPa (rms). Consequently, the take
estimates presented in this document may be an overestimation. The
short-term exposures of pinnipeds to airgun sounds are not expected to
result in any long-term negative consequences for the individuals or
their populations, as observations have shown pinnipeds to be rather
tolerant of (or habituated to) underwater seismic sounds.
Potential Impacts on Habitat
Shell's activities will not result in any permanent impact on
habitats used by marine mammals or to their prey sources. Any effects
would be temporary and of short duration at any one place. The primary
potential impacts to marine mammals are associated with acoustic sound
levels from the site clearance and shallow hazards surveys discussed
earlier in this document.
The Notice of Proposed IHA (74 FR 26217, June 1, 2009) contained a
discussion of the potential impacts to the marine mammal habitat in the
survey area. The activities are not expected to have any habitat-
related effects that would produce long-term impacts to marine mammals
or their habitat due to the limited extent of the acquisition areas and
timing of the activities.
Effects of Seismic Noise and Other Related Activities on Subsistence
The disturbance and potential displacement of marine mammals by
sounds from seismic activities are the principal concerns related to
subsistence use of the area. Subsistence remains the basis for Alaska
Native culture and community. Marine mammals are legally hunted in
Alaskan waters by coastal Alaska Natives. In rural Alaska, subsistence
activities are often central to many aspects of human existence,
including patterns of family life, artistic expression, and community
religious and celebratory activities. The main species that are hunted
include bowhead and beluga whales, ringed, spotted, and bearded seals,
walruses, and polar bears . The importance of each of these species
varies among the communities and is largely based on availability.
Communities that participate in subsistence hunts that have the
potential to be affected by Shell's open-water marine survey program in
the Chukchi Sea survey areas are Point Hope, Point Lay, Wainwright,
Barrow and possibly Kotzebue (however, this community is much farther
to the south of the project area).
Point Hope residents subsistence hunt for bowhead and beluga
whales, polar bears, and walrus. Bowhead and beluga whales are hunted
in the spring and early summer along the ice edge. Beluga whales may
also be hunted later in the summer along the shore. Walrus are
harvested in late spring and early summer, and polar bears are hunted
from October to April (MMS, 2007). Seals are available from October
through June, but are harvested primarily during the winter months,
from November through March, due to the availability of other resources
during the other periods of the year (MMS, 2007).
With Point Lay situated near Kasegaluk Lagoon, the community's main
subsistence focus is on beluga whales. Each year, hunters from Point
Lay drive belugas into the lagoon to a traditional hunting location.
The belugas have been predictably sighted near the lagoon from late
June through mid- to late July (Suydam et al., 2001). Seals are
available year-round, and polar bears and walruses are normally hunted
in the winter. Hunters typically travel to Barrow, Wainwright, or Point
Hope to participate in bowhead whale harvest, but there is interest in
reestablishing a local Point Lay harvest. Shell's activities are
scheduled to avoid the traditional subsistence beluga hunt, which
annually occurs in July, and Shell will not begin data acquisition
until the close of the hunt.
Wainwright residents subsist on both beluga and bowhead whales in
the spring and early summer. During these two seasons the chances of
landing a whale are higher than during other seasons. Seals are hunted
by this community year-round, and polar bears are hunted in the winter.
Barrow residents' main subsistence focus is concentrated on
biannual bowhead whale hunts. They hunt these whales during the spring
and fall. Westbound bowheads typically reach the Barrow area in mid-
September and are in that area until late October (e.g., Brower, 1996).
Autumn bowhead whaling near Barrow normally begins in mid-September to
early October but may begin as early as late-August if whales are
observed and ice conditions are favorable (USDI/BLM, 2005). Whaling
near Barrow can continue into October, depending on the quota and
conditions. Other animals, such as seals, walruses, and polar bears are
hunted outside of the whaling season, but they are not the primary
source of the subsistence harvest (URS Corporation, 2005).
There could be an adverse impact on the Inupiat bowhead subsistence
hunt if the whales were deflected seaward (further from shore) in
traditional hunting areas. The impact would be that whaling crews would
have to travel greater distances to intercept westward migrating whales
thereby creating a safety hazard for whaling crews and/or limiting
chances of successfully striking and landing bowheads. This potential
impact is mitigated by application of the procedures established in the
4MP. Adaptive mitigation measures may be employed during times of
active scouting and whaling within the traditional subsistence hunting
areas of the potentially affected communities. Shell did not begin
activities until the close of the spring bowhead hunts. However, there
is a possibility that their data acquisition will not be completed
prior to the start of the fall bowhead hunt in Barrow. However, it is
not expected that the whales will be deflected further offshore before
reaching Barrow since Shell's survey will occur approximately 225 km
(140 mi) west of Barrow. The whales will be traveling westward through
the Beaufort Sea from Canada and will reach Barrow before entering the
survey area in the Chukchi Sea. Based on these factors, Shell's Chukchi
Sea survey is not expected to interfere with the fall bowhead harvest
in Barrow. In recent years, bowhead whales have occasionally been taken
in the fall by coastal villages along the Chukchi coast, but the total
number of these animals has been small.
Shell has adopted a spatial and temporal operational strategy for
its Chukchi Sea operations that should minimize impacts to subsistence
hunters. Operations will not begin prior to the close of the spring
bowhead hunt in the Chukchi coastal villages and will closely
coordinate with and avoid impacts to beluga whale hunts and walrus
hunts through subsistence advisors.
The timing (late summer and fall after many of the Chukchi Sea
communities have harvested sizeable portions of their marine mammal
quota) and distance (approximately 113 km (70 mi) or more) from shore,
as well as the low volume airguns to be used and the required
mitigation measures described later in this document, are expected to
mitigate any adverse effects of the surveys on the availability of
marine mammals for subsistence uses. NMFS does not expect subsistence
users to be directly displaced by the surveys because subsistence
hunters usually do not travel this far (113 km [70 mi]) offshore to
harvest marine mammals. Also, because of the significant distance
offshore and the lack of hunting in these areas, there is no
expectation that any physical barriers would exist between
[[Page 55406]]
marine mammals and subsistence users. Based on this information, as
well as the fact that Shell signed the 2009 Open-water CAA, NMFS has
determined that Shell's site clearance and shallow hazards surveys in
the Chukchi Sea in 2009/2010 will not have an unmitigable adverse
impact on subsistence uses.
Plan of Cooperation (POC) and Conflict Avoidance Agreement (CAA)
Regulations at 50 CFR 216.104(a)(12) require IHA applicants for
activities that take place in Arctic waters to provide a 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. Shell has prepared and will implement
a draft POC for its 2009 activities. The POC also describes concerns
received during 2008. Shell developed the POC to mitigate and avoid any
unreasonable interference from their planned activities with North
Slope subsistence uses and resources. The POC is, and has been in the
past, the result of numerous meetings and consultations between Shell,
affected subsistence communities and stakeholders, and Federal
agencies. The POC identifies and documents potential conflicts and
associated measures that will be taken to minimize any adverse effects
on the availability of marine mammals for subsistence use. The Draft
POC document was distributed to the communities, subsistence users
groups, NMFS, and USFWS on May 15, 2009. To be effective, the POC must
be a dynamic document which will expand to incorporate the
communications and consultation that will continue to occur throughout
2009 and 2010. Outcomes of POC meetings are typically included in
updates attached to the POC as addenda and distributed to Federal,
state, and local agencies as well as local stakeholder groups that
either adjudicate or influence mitigation approaches for Shell's open-
water programs.
Shell has held and plans to hold additional community meetings in
Barrow, Wainwright, Point Hope, Point Lay, and Kotzebue regarding its
2009 Chukchi open-water marine survey program. Some of the community
POC meetings that have already occurred include: February 2, 2009, in
Barrow; March 24, 2009, in Point Hope; March 25, 2009, in Kotzebue;
March 26, 2009, in Wainwright; April 22, 2009, in Point Lay, and April
23, 2009, in Kivalina. Shell plans to focus on lessons learned from the
2008 open-water program to avoid potential conflicts. During 2009,
Shell will continue to meet with the marine mammal commissions and
committees including the AEWC, Eskimo Walrus Commission (EWC), Alaska
Beluga Whale Committee (ABWC), Alaska Ice Seal Committee (AISC), and
the Alaska Nanuuq Commission (ANC). Throughout 2009, Shell anticipates
meeting with the marine mammal commissions and committees active in the
subsistence harvests and marine mammal research.
Also during 2009, Shell will meet at least twice with the
commissioners and committee heads of ABWC, ANC, EWC, and AISC jointly
in co-management meetings. During a pre-season co-management meeting
Shell presented pre-season planning to the commissioners and committee
leads in order to gather their input on subsistence use concerns,
consider their traditional knowledge in the design of project
mitigations, and to hear about their involvement in research on marine
mammals and/or traditional use. Following the season, Shell will have a
post-season co-management meeting with the commissioners and committee
heads to discuss results of mitigation measures and outcomes of the
preceding season. The goal of the post-season meeting is to build upon
the knowledge base, discuss successful or unsuccessful outcomes of
mitigation measures, and possibly refine plans or mitigation measures
if necessary.
In addition, Shell will meet with North Slope officials and
community leaders on an as-requested basis before the 2009 open-water
season in order to discuss the proposed activities. Lastly, Shell
intends to discuss adaptive conflict avoidance mechanisms to address
concerns expressed by subsistence users in the North Slope communities.
The POC also specifies times and areas to avoid in order to
minimize possible conflicts with traditional subsistence hunts by North
Slope villages for transit and open-water activities. As mentioned
elsewhere in this document, Shell waited to begin its 2009 activities
until the close of Point Lay's spring beluga hunt. Additionally, Shell
has stated that vessel transits in the Chukchi Sea spring lead system
will not occur prior to July 1, 2009, and July 1, 2010.
In regard to the CAA, the AEWC submitted a draft CAA to the
industry earlier this spring and was signed by Shell on June 24, 2009.
The 2009 CAA incorporated all appropriate measures and procedures
regarding the timing and areas of the Shell's planned activities (e.g.,
places where seismic operations will be curtailed or moved in order to
avoid potential conflicts with active subsistence whaling and sealing);
a communications system between Shell's vessels and whaling and hunting
crews (i.e., the communications center will be located in strategic
areas); provision for MMOs/Inupiat communicators aboard all project
vessels; conflict resolution procedures; and provisions for rendering
emergency assistance to subsistence hunting crews. If requested, post-
season meetings will also be held to assess the effectiveness of the
2009 CAA between Shell, the AEWC, and the Whaling Captains
Associations, to address how well conflicts (if any) were resolved; and
to receive recommendations on any changes (if any) that may be needed
in the implementation of future CAAs. In addition, NMFS has included in
Shell's IHA, those mitigation and monitoring measures contained in the
CAA that it determined would ensure that Shell's activities will not
have an unmitigable adverse impact on subsistence uses of marine
mammals.
Based on the signed CAA, the mitigation and monitoring measures
included in the IHA (see next sections), and the project design itself,
NMFS has determined that there will not be an unmitigable adverse
impact on subsistence uses from Shell's activities.
Mitigation and Monitoring
As part of its application, Shell has implemented a 4MP that will
consist of monitoring and mitigation during their open-water shallow
hazards data acquisition activities in the Chukchi Sea during the 2009/
2010 open-water season. The program consists of monitoring and
mitigation during Shell's various activities related to survey data
acquisition, including transit and data acquisition. This program will
provide information on the numbers of marine mammals potentially
affected by the survey program and real-time mitigation to prevent
possible injury or mortality of marine mammals by sources of sound and
other vessel-related activities. Monitoring efforts will be initiated
to collect data to address the following specific objectives: (1)
improve the understanding of the distribution and abundance of marine
mammals in the Chukchi Sea project areas; and (2) assess the effects of
sound and vessel activities on marine mammals inhabiting the project
areas and their distribution relative to the local people that depend
on them for subsistence hunting. These objectives and the monitoring
and mitigation goals will be addressed through the utilization of
vessel-based MMOs on the survey source vessels. Additional
[[Page 55407]]
information can be found in Shell's application.
Mitigation Measures
The survey program incorporates both design features and
operational procedures for minimizing potential impacts on cetaceans
and pinnipeds and on subsistence hunts. The design features and
operational procedures are described in the IHA application submitted
to NMFS summarized here. Survey design features include:
Timing and locating survey activities to avoid
interference with the annual fall bowhead whale and other marine mammal
hunts;
Selecting and configuring the energy source array in such
a way that it minimizes the amount of energy introduced into the marine
environment and, specifically, so that it minimizes horizontal
propagation;
Limiting the size of the acoustic energy source to only
that required to meet the technical objectives of the survey; and
Early season field assessment to establish and refine (as
necessary) the appropriate 180 dB and 190 dB safety zones, and other
radii relevant to behavioral disturbance.
The potential disturbance of cetaceans and pinnipeds during survey
operations will be minimized further through the implementation of
several ship-based mitigation measures, which include establishing and
monitoring safety and disturbance zones, speed and course alterations,
ramp-up (or soft start), power-down, and shutdown procedures, and
provisions for poor visibility conditions.
(1) Safety and Disturbance Zones
Safety radii for marine mammals around airgun arrays are
customarily defined as the distances within which received pulse levels
are greater than or equal to 180 dB re 1 microPa (rms) for cetaceans
and greater than or equal to 190 dB re 1 microPa (rms) for pinnipeds.
These safety criteria are based on an assumption that seismic pulses at
lower received levels will not injure these animals or impair their
hearing abilities, but that higher received levels might have such
effects. It should be understood that marine mammals inside these
safety zones will not be seriously injured or killed as these zones
were established prior to the current understanding that significantly
higher levels of impulse sounds would be required before injury or
mortality could occur (see Southall et al., 2007).
Monitoring similar to that conducted in the Chukchi Sea in 2007/
2008 is required in 2009/2010. Shell is required to use MMOs onboard
the survey vessel to monitor the 190 and 180 dB (rms) safety radii for
pinnipeds and cetaceans, respectively, and to implement appropriate
mitigation as discussed in this document.
In addition, a 160-dB (rms) vessel monitoring zone for bowhead and
gray whales shall be established and monitored during all survey
activities. Whenever an aggregation of 12 or more bowhead or gray
whales are observed during a vessel-monitoring program within the 160-
dB zone around the source vessel, the survey will not commence or will
shutdown until MMOs confirm they are no longer present within the 160-
dB safety radius of surveying operations (see the ``Power-downs and
Shutdowns'' subsection later in this document). The radius of the 160-
dB isopleth based on modeling is 1,400 m (0.87 mi).
During previous survey operations in the Chukchi Sea, Shell
utilized early season sound source verification (SSV) to establish
safety zones for the previously mentioned sound level criteria. As the
equipment being utilized in 2009 is similar to that used in 2008, Shell
will initially utilize the derived (i.e., measured) sound criterion
distances from 2008. An acoustics contractor performed the direct
measurements of the received levels of underwater sound versus distance
and direction from the energy source arrays using calibrated
hydrophones. The acoustic data was analyzed and used to verify (and if
necessary adjust) the safety distances.
(2) Ramp-up
A ramp-up of an energy source array provides a gradual increase in
energy levels, and involves a step-wise increase in the number and
total volume of energy released until the full complement is achieved.
The purpose of a ramp-up (or ``soft start'') is to ``warn'' cetaceans
and pinnipeds in the vicinity of the energy source and to provide the
time for them to leave the area and thus avoid any potential injury or
impairment of their hearing abilities.
During the survey program, the operator is required ramp up energy
sources slowly, if the energy source being utilized generates sound
energy within the frequency spectrum of cetacean or pinniped hearing.
Full ramp-ups (i.e., from a cold start after a shut down, when no
airguns have been firing) shall begin by firing one small airgun. Ramp-
ups are required at any time electrical power to the airgun array has
been discontinued for a period of 10 min or more and the MMO watch has
been suspended
Ramp-up, after a shutdown, will not begin until there has been a
minimum of a 30 min period of observation by MMOs of the safety zone to
assure that no marine mammals are present. The entire safety zone must
be visible during the 30 min lead-in to a full ramp-up. If the entire
safety zone is not visible, then ramp-up from a cold start cannot
begin. If a marine mammal(s) is sighted within the safety zone during
the 30-min watch prior to ramp-up, ramp-up will be delayed until the
marine mammal(s) is sighted outside of the safety zone or the animal(s)
is not sighted for at least 15 min for small odontocetes and pinnipeds
or 30 min for baleen whales (large odontocetes do not occur within the
project area).
During periods of turn around and transit between survey transects,
at least one airgun (or energy source) shall remain operational. The
ramp-up procedure still must be followed when increasing the source
levels from one gun to the full array. Keeping air gun firing, however,
avoids the prohibition of a cold start during darkness or other periods
of poor visibility. Through use of this approach, survey operations can
resume upon entry to a new transect without a full ramp-up and the
associated 30-min lead-in observations. MMOs must be on duty whenever
the airguns are firing during daylight and during the 30-min periods
prior to ramp-ups as well as during ramp-ups. Daylight will occur for
24 hr/day until mid-August, so until that date, MMOs will automatically
be observing during the 30-min period preceding a ramp-up. Later in the
season, MMOs will be called out at night to observe prior to and during
any ramp-up. The vessel operator and MMOs shall maintain records of the
times when ramp-ups start and when the airgun arrays reach full power.
(3) Power-downs and Shutdowns
A power-down is the immediate reduction in the number of operating
energy sources from all firing to some smaller number. A shutdown is
the immediate cessation of firing of all energy sources. The arrays
shall be immediately powered down whenever a marine mammal is sighted
approaching near or close to the applicable safety zone of the full
arrays but is outside the applicable safety zone of the single source.
If a marine mammal is sighted within the applicable safety zone of the
single energy source, the entire array will be shut down (i.e., no
sources firing). Although MMOs will be located on the bridge ahead of
the center of the airgun array, the shutdown criterion for animals
ahead of the vessel will be
[[Page 55408]]
based on the distance from the bridge (vantage point for MMOs) rather
than from the airgun array a precautionary approach. For marine mammals
sighted alongside or behind the array, the distance is measured from
the array.
Following a power-down or shutdown, operation of the airgun array
will not resume until the marine mammal has cleared the applicable
safety zone. The animal will be considered to have cleared the safety
zone if it:
(1) Is visually observed to have left the safety zone;
(2) Has not been seen within the zone for 15 min in the case of
small odontocetes and pinnipeds; or
(3) Has not been seen within the zone for 30 min in the case of
mysticetes.
For the aggregation of 12 or more mysticete whales, the acoustic
equipment will not be turned back on or return to full power until the
aggregation has left the 160-dB isopleth or the animals forming the
aggregation are reduced to fewer than 12 mysticete whales.
In the unanticipated event that an injured or dead marine mammal is
sighted within an area where the operator deployed and utilized airguns
within the past 24 hours, the airguns must be shutdown immediately and
the Marine Mammal Stranding Network notified.
(4) Operations at Night and in Poor Visibility
Shell plans to conduct the site clearance and shallow hazards
survey 24 hr/day. Regarding nighttime operations, note that there will
be no periods of total darkness until mid-August. When operating under
conditions of reduced visibility attributable to darkness or to adverse
weather conditions, infra-red or night-vision binoculars will be
available for use. It is recognized, however, that their effectiveness
is limited. For that reason, MMOs will not routinely be on watch at
night, except in periods before and during ramp-ups. As stated earlier,
if the entire safety zone is not visible for at least 30 min prior to
ramp-up, then ramp-up may not proceed. It should be noted that if one
small energy source has remained firing, the rest of the array can be
ramped up during darkness or in periods of low visibility. Survey
operations may continue under conditions of darkness or reduced
visibility.
(5) Speed and Course Alterations
If a marine mammal (in water) is detected outside the safety radius
and, based on its position and the relative motion, is likely to enter
the safety radius, the vessel's speed and/or direct course shall be
changed in a manner that does not compromise safety requirements. The
animal's activities and movements relative to the source vessel shall
be closely monitored to ensure that the individual does not approach
within the safety radius. If the mammal is sighted approaching near or
close to the applicable safety radius, further mitigative actions must
be taken, i.e., either further course alterations or power-down or
shutdown of the airgun(s).
(6) Determination on Mitigation
NMFS has determined that the combination of the use of the
mitigation gun, ramp-up of the airgun array, and the slow vessel speed
(to allow marine mammals sufficient time to take necessary avoidance
measures), the use of trained MMOs, shutdown procedures (to avoid
potential injury if the animal is close to the vessel), and the
behavioral response of marine mammals (especially bowhead whales) to
avoid areas of high anthropogenic noise all provide protection to
marine mammals from serious injury or mortality. As a result, NMFS has
determined that it is not necessary to require termination of survey
activities during darkness or reduced visibility and that the current
level of mitigation will achieve the least practicable impact on marine
mammal species or stocks.
Marine Mammal Monitoring
Vessel-based monitoring for marine mammals shall be conducted
throughout the period of survey operations. The 4MP is required to be
implemented by a team of experienced MMOs, including both biologists
and Inupiat personnel. All MMOs must be approved by NMFS prior to the
start of operations. At least one observer on the survey vessel will be
an Inupiat who will have the responsibility of communicating with the
Inupiat community and (during the whaling season) directly with the
Subsistence Advisors in coastal villages.
The MMOs shall be stationed aboard the survey source vessel
throughout the active field season. The duties of the MMOs include
watching for and identifying cetaceans and pinnipeds; recording their
numbers, distances, and reactions to the survey operations; initiating
mitigation measures when appropriate; and reporting the results. MMOs
aboard the survey source vessel must be on watch during all daylight
periods when the energy sources are in operation and when energy source
operations are to start up at night. Each MMO shift shall not exceed
more than 4 consecutive hours, and no MMO shall work more than 3 shifts
in a 24 hr period (i.e., 12 hours total per day) in order to avoid
fatigue. Shell is required to have five MMOs on-board the source vessel
at any one time during all survey operations.
Crew leaders and most other biologists serving as observers in 2009
are individuals with experience as observers during one or more of the
1996-2008 monitoring projects for Shell, WesternGeco, or BP and/or
subsequent offshore monitoring projects for other clients in Alaska,
the Canadian Beaufort, or other offshore areas. Biologist-observers
have previous marine mammal observation experience and field crew
leaders are highly experienced with previous vessel-based monitoring
projects. Qualifications for those individuals have been provided to
NMFS for review and acceptance. Inupiat observers shall be experienced
in the region and familiar with the marine mammals of the area. An MMO
handbook, adapted for the specifics of the survey programs from the
handbooks created for previous monitoring projects were prepared and
distributed to all MMOs (see Shell's 4MP for additional details on the
handbook). All observers completed a 2-day training and refresher
session on marine mammal monitoring shortly before the start of the
2009 open-water season.
(1) Monitoring Methodology
The observer(s) shall watch for marine mammals from the best
available vantage point on the operating source vessel, which is
usually the bridge or flying bridge. The observer(s) will scan
systematically with the naked eye and 7 x 50 reticle binoculars,
supplemented with 20 x 50 image stabilized binoculars, and night-vision
equipment when needed. Personnel on the bridge will assist the MMOs in
watching for pinnipeds and cetaceans.
The observer(s) will give particular attention to the areas within
the ``safety zone'' around the source vessel. These zones are the
maximum distances within which received levels may exceed 180 dB re 1
microPa (rms) for cetaceans or 190 dB re 1 microPa (rms) for pinnipeds.
MMOs shall also monitor the 160 dB re 1 microPa (rms) radius for Level
B harassment takes, as this radius is expected to be a maximum of 1,400
m (0.87 mi). The 160-dB isopleth (1,400 m [0.87 mi]) will also be
monitored for the presence of aggregations of 12 or more bowhead or
gray whales.
Information required to be recorded by MMOs includes the same types
of information that were recorded during previous monitoring programs
(1998-2008) in the Chukchi and Beaufort seas
[[Page 55409]]
(Moulton and Lawson, 2002; Patterson et al., 2007). When a mammal
sighting is made, the following information about the sighting shall be
recorded:
(1) Species, group size, age/size/sex categories (if determinable),
behavior when first sighted and after initial sighting, heading (if
consistent), bearing and distance from the source vessel, apparent
reaction to the source vessel (e.g., none, avoidance, approach,
paralleling, etc.), closest point of approach, and behavioral pace;
(2) Time, location, heading, speed, activity of the vessel, and
operational state (e.g., operating airguns, ramp-up, etc.), sea state,
ice cover, visibility, and sun glare; and
(3) The positions of other vessel(s) in the vicinity of the source
vessel. This information will be recorded by the MMOs at times of whale
(but not seal) sightings.
The ship's position, heading, and speed, the operational state
(e.g., number and size of operating energy sources), and water
temperature (if available), water depth, sea state, ice cover,
visibility, and sun glare shall also be recorded at the start and end
of each observation watch and, during a watch, every 30 min and
whenever there is a change in one or more of those variables.
Distances to nearby marine mammals, e.g., those within or near the
190 dB (or other) safety zone applicable to pinnipeds, will be
estimated with binoculars (7 x 50) containing a reticle to measure the
vertical angle of the line of sight to the animal relative to the
horizon.
Observers will use a laser rangefinder to test and improve their
abilities for visually estimating distances to objects in the water.
Previous experience showed that this Class 1 eye-safe device was not
able to measure distances to seals more than about 70 m (230 ft) away.
(Previous SSV measurements indicate that the 190-dB safety radius for
the 4 x 10 in\3\ airgun array proposed for use during Shell's site
clearance and shallow hazards survey is approximately 50 m (164 ft),
well within the range of 70 m (230 ft)). However, it was very useful in
improving the distance estimation abilities of the observers at
distances up to about 600 m (1968 ft)-the maximum range at which the
device could measure distances to highly reflective objects such as
other vessels.
When a marine mammal is seen within the safety radius applicable to
that species, the geophysical crew shall be notified immediately so
that the required mitigation measures described previously in this
document can be implemented. As in 1996-2001 and in 2006-2008, it is
expected that the airgun arrays will be shut down within several
seconds-often before the next shot would be fired, and almost always
before more than one additional shot is fired. The MMO shall then
maintain a watch to determine when the mammal(s) is outside the safety
zone such that airgun operations can resume.
Night vision equipment (``Generation 3'' binocular image
intensifiers or equivalent units) will be available for use when
needed. Prior to mid-August, there will be no hours of total darkness
in the project area. The operators shall provide or arrange for the
following specialized field equipment for use by the onboard MMOs:
reticule binoculars, 20 x 50 image stabilized binoculars, ``Big-eye''
binoculars, laser rangefinders, inclinometer, laptop computers, night
vision binoculars, and possibly digital still and digital video
cameras.
(2) Field Data-recording and Verification
The observers shall record their observations onto datasheets or
directly into handheld computers. During periods between watches and
periods when operations are suspended, those data will be entered into
a laptop computer running a custom computer database. The accuracy of
the data entry will be verified in the field by computerized validity
checks as the data are entered and by subsequent manual checking of the
database printouts. These procedures allow initial summaries of data to
be prepared during and shortly after the field season and will
facilitate transfer of the data to statistical, graphical, or other
programs for further processing. Quality control of the data will be
facilitated by the start-of-season training session, subsequent
supervision by the onboard field crew leader, and ongoing data checks
during the field season.
(3) Acoustic Sound Source Verification Measurements
As part of the IHA application process for similar shallow hazards
and marine survey acquisition in 2006-2008, Shell contracted JASCO
Research Ltd. to conduct acoustic measurements of vessel and energy
source arrays on source and support to broadband received levels of
190, 180, 170, 160, and 120 dB re 1 microPa (rms; see Table 1 of
Attachment A in Shell's application).
The radii measured by these previous SSV tests will be utilized as
temporary safety radii until current SSV measurements of the actual
airgun array sound are available as mentioned earlier in this document.
The measurements wer made at the beginning of the field season and the
measured radii are to used for the remainder of the survey period.
The objectives of the SSV tests planned for 2009 in the Chukchi Sea
and the methods used to conduct the tests were described in Shell's 4MP
and the Notice of Proposed IHA (74 FR 26217, June 1, 2009).
(4) Chukchi Sea Acoustic Arrays
Shell and ConocoPhillips are jointly funding an extensive acoustic
monitoring program in the Chukchi Sea in 2009. This program
incorporates the acoustic programs of 2006-2008 with a total of 44
recorders distributed both broadly across the Chukchi lease area and
the nearshore environment and intensively on the Burger and Klondike
lease areas. The broad area arrays are designed to capture both general
background soundscape data and marine mammal call data across the lease
area. From these recordings, it is anticipated that Shell (and others)
may be able to gain insights into large-scale distribution of marine
mammals, identification of marine mammal species present, movement and
migration patters, and general abundance data.
The intense area arrays are designed to support localization of
marine mammal calls on and around the leasehold areas. In the case of
the Burger prospect, where Shell intends to conduct shallow hazards
data acquisition, localized calls will enable investigators to
understand response of marine mammals to survey operations both in
terms of distribution around the operation and behavior (i.e., calling
behavior).
(5) Aerial Surveys
No manned aerial overflights are anticipated during the 2009
shallow hazards and marine survey activities. In the Chukchi Sea, all
shallow hazards activities will be conducted beyond 113 km (70 mi) from
shore and well away from coastal communities or nearshore
concentrations of subsistence resources. The strudel scour survey will
be conducted beyond 8 km (5 mi) from shore and will utilize sources of
low energy and frequencies outside the hearing ranges of cetacean and
pinniped species in the area. Additionally, the energy source to be
utilized by Shell for the survey operations is minimal by comparison to
larger scale seismic operations. It is not anticipated that manned
overflights would accomplish any direct mitigative effects or
monitoring purpose. Additionally, aerial surveys are not required in
the Chukchi Sea because they have currently been
[[Page 55410]]
determined to be impracticable due to lack of adequate landing
facilities, the prevalence of fog and other inclement weather in that
area, potentially resulting in an inability to return to the airport of
origin, thereby resulting in safety concerns. Although no manned aerial
surveys are planned as part of the 4MP, NMFS has determined that the
monitoring and mitigation measures proposed by Shell in its 4MP and
required in the IHA will be sufficient to reduce impacts on marine
mammals to the lowest level practicable.
(6) Monitoring Plan Independent 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)). Shell's 4MP was discussed by meeting participants at the
Arctic Stakeholder Open-water Workshop in Anchorage, Alaska, on April
6-8, 2009. On April 24, 2009, NMFS received a letter from the AEWC,
which noted that while there was discussion of the 4MP at the workshop,
they do not believe that there was ample review of the plan and wanted
to know NMFS' plans to hold an independent peer review in order to meet
its statutory requirement.
NMFS established an independent peer review panel to review Shell's
monitoring plan for the 2009/2010 open-water season activities. NMFS
asked the AEWC, the Marine Mammal Commission, and Shell to recommend
independent subject matter experts to take part in the panel. NMFS
selected and contacted the panelists from the names submitted by the
aforementioned organizations. NMFS received comments from two of the
reviewers. NMFS considered the recommendations of the reviewers and
modified the monitoring plan, as appropriate.
The comments from the independent peer reviewers focused on the
following: (1) the number of MMOs; (2) qualifications and training of
MMOs; (3) standardization of methods and gear; (4) the inability of
MMOs to monitor at night; (5) the efficacy of ramp-up and the minimum
period for shutdowns; and (6) acoustic monitoring. The reviewers also
addressed concerns similar to those raised by the public about the
density estimates and take calculations and estimates. Those concerns
are addressed in the ``Density and Take Estimate Concerns'' subsection
of the ``Comments and Responses'' section earlier in this document.
Shell has clarified some of the ambiguities in the 4MP, which
address some of the concerns of the reviewers. Five MMOs will be on-
board the site clearance and shallow hazards vessel for the duration of
the survey. This will allow for two MMOs to be on duty during all pre-
ramp-up and ramp-up periods and for as large a portion of active
surveying during daylight hours for no more than 12 hours per day.
Clarification has also been provided on the training and qualifications
of the MMOs. The MMO handbook contains information on all species
expected to occur in the project area, and post-training exams are
required to verify proficiencies. Concerns regarding monitoring at
night and the efficacy of ramp-up were addressed in the responses to
the public comments. Ramp-up must occur if the airguns have been
shutdown for 10 minutes or more. The reviewers also suggested the use
of PAM as an alternate monitoring measure at night and in poor
visibility conditions. The explanation for not requiring PAM was
discussed earlier in this document and NMFS' EA.
Reporting
SSV Report
A report on the preliminary results of the acoustic verification
measurements, including as a minimum the measured 190-, 180-, and 160-
dB (rms) radii of the airgun sources, shall be submitted within 120 hr
after collection and analysis of those measurements at the start of the
field season. This report will specify the distances of the safety
zones that were adopted for the survey.
Technical Reports
The results of the 2009 Shell vessel-based monitoring, including
estimates of ``take'' by harassment, shall be presented in the ``90-
day'' and Final Technical reports, as required by NMFS in the IHA. The
Technical Reports shall include: (1) summaries of monitoring effort
(e.g., total hours, total distances, and marine mammal distribution
through study period versus operational state, sea state, and other
factors affecting visibility and detectability of marine mammals); (2)
summaries of the occurrence of power-downs, shutdowns, ramp-ups, and
ramp-up delays; (3) analyses of the effects of various factors,
influencing detectability of marine mammals (e.g., sea state, number of
observers, and fog/glare); (4) 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; (5) sighting rates of marine mammals versus operational
state (and other variables that could affect detectability); (6)
initial sighting distances versus operational state; (7) closest point
of approach versus operational state; (8) observed behaviors and types
of movements versus operational state; (9) numbers of sightings/
individuals seen versus operational state; (10) distribution around the
acoustic source vessel versus operational state; and (11) estimates of
take by harassment. The take estimates will be calculated using two
different methods to provide both minimum and maximum estimates. The
minimum estimate will be based on the numbers of marine mammals
directly seen within the relevant radii (160, 180, and 190 dB (rms)) by
observers on the source vessel during survey activities. The maximum
estimate will be calculated using densities of marine mammals
determined for non-acoustic areas and times. These density estimates
will be calculated from data collected during (a) vessel based surveys
in non-operational areas, or (b) observations from the source vessel or
supply boats during non-operational periods. The estimated densities in
areas without data acquisition activity will be applied to the amount
of area exposed to the relevant levels of sound to calculate the
maximum number of animals potentially exposed or deflected. This report
shall be due 90 days after termination of the 2009 open-water season
and shall include the results from any seismic work conducted in the
Chukchi/Beaufort Seas in 2009 under the previous IHA, which expired on
August 19, 2009.
Comprehensive Monitoring Reports
In November, 2007, Shell (in coordination and cooperation with
other Arctic seismic IHA holders) released a final, peer-reviewed
edition of the 2006 Joint Monitoring Program in the Chukchi and
Beaufort Seas, July-November 2006 (LGL, 2007). This report is available
on the NMFS Protected Resources website (see ADDRESSES). In March,
2009, Shell released a final, peer-reviewed edition of the Joint
Monitoring Program in the Chukchi and Beaufort Seas, Open Water
Seasons, 2006-2007 (Ireland et al., 2009). This report is also
available on the NMFS
[[Page 55411]]
Protected Resources website (see ADDRESSES). A draft comprehensive
report for 2008 (Funk et al., 2009) was provided to NMFS and those
attending the Arctic Stakeholder Open-water Workshop in Anchorage,
Alaska, on April 6-8, 2009. The 2008 report provides data and analyses
from a number of industry monitoring and research studies carried out
in the Chukchi and Beaufort Seas during the 2008 open-water season with
comparison to data collected in 2006 and 2007. Once Shell is able to
incorporate reviewer comments, the final 2008 report will be made
available to the public.
Following the 2009 open-water season, a comprehensive report
describing the acoustic and vessel-based monitoring programs will be
prepared. The comprehensive report will describe the methods, results,
conclusions and limitations of each of the individual data sets in
detail. The report will also integrate (to the extent possible) the
program into an assessment of 2009 industry activities and their
impacts on marine mammals. The report will help to establish long term
data sets that can assist with the evaluation of changes, if any, in
the Chukchi Sea ecosystem. The report will attempt to provide a
regional synthesis of available data on industry activity in offshore
areas of northern Alaska that may influence marine mammal density,
distribution, and behavior.
This report will consider data from many different sources
including differing types of acoustic systems for data collection (net
array and OBH systems) and vessel based observations. Collection of
comparable data across the wide array of programs will help with the
synthesis of information and allow integration of the data sets over a
period of years. Data protocols for the acoustic operations will be
similar to those used in 2006-2008 to facilitate this integration.
Endangered Species Act
NMFS previously consulted under section 7 of the ESA on the
issuance of IHAs for seismic survey activities in the Beaufort and
Chukchi Seas. In a Biological Opinion issued on July 17, 2008, NMFS
concluded that the issuance of seismic survey permits by MMS and the
issuance of the associated IHAs for seismic surveys are not likely to
jeopardize the continued existence of threatened or endangered species
(specifically the bowhead, humpback, and fin whales) under the
jurisdiction of NMFS or destroy or adversely modify any designated
critical habitat. The 2008 Biological Opinion takes into consideration
all oil and gas related activities that are reasonably likely to occur,
including exploratory (but not production) oil drilling activities.
NMFS has reviewed Shell's proposed activities in light of the 2008
Biological Opinion and believes that Shell's 2009/2010 open-water
season activities and their effects are adequately analyzed in the 2008
Biological Opinion. NMFS has issued an ITS under this Biological
Opinion which contains reasonable and prudent measures with
implementing terms and conditions to minimize the effects of take of
listed species.
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 Shell
to take marine mammals incidental to conducting its open-water marine
survey program in the Chukchi Sea during 2009-2010. NMFS has finalized
the EA and prepared a FONSI for this action. Therefore, preparation of
an EIS is not necessary.
Determinations
Based on the information provided in Shell's application, Shell's
application addenda, this document, Shell's 2009 4MP, the 2006 and 2007
Final Comprehensive Reports, the 2008 Draft Comprehensive Report, NMFS'
2009 EA, and other relevant documents, NMFS has determined that the
impact of Shell conducting its proposed open-water marine survey
program (site clearance and shallow hazards and strudel scour surveys)
in the Chukchi Sea during the 2009/2010 open-water season may result,
at worst, in a temporary modification in behavior (Level B Harassment)
of small numbers of 12 species of marine mammals, will have no more
than a negligible impact on the affected species or stocks, and will
not have an unmitigable adverse impact on the availability of such
species or stock for taking for subsistence purposes, provided the
mitigation measures described previously in this document are
implemented.
While the number of potential incidental harassment takes will
depend on the distribution and abundance of marine mammals (which vary
annually due to variable ice conditions and other factors) in the area
of survey operations, the number of potential harassment takings is
estimated to be small (less than one percent of any of the estimated
population sizes) and has been mitigated to the lowest level
practicable through incorporation of the measures mentioned previously
in this document. NMFS anticipates the actual take of individuals to be
lower than the numbers presented in the analysis because those numbers
do not reflect either the implementation of the required mitigation
measures or the fact that some animals will avoid the sound at levels
lower than those expected to result in harassment.
In addition, no take by death and/or serious injury is anticipated,
and the potential for temporary or permanent hearing impairment will be
avoided through the incorporation of the mitigation and monitoring
measures described earlier in this document. This determination is
supported by the fact that: (1) given sufficient notice through slow
ship speed and ramp-up of acoustic equipment, marine mammals are
expected to move away from a sound source prior to it becoming
potentially injurious; (2) TTS is unlikely to occur, especially in
odontocetes and pinnipeds, until sound levels above 180 dB re 1 microPa
(rms) and 190 dB re 1 microPa (rms), respectively, are reached; and (3)
animals are unlikely to be exposed to potentially injurious levels of
sound unless they get very close to the vessel (approximately 160 m
(525 ft) for the 180 dB (rms) radius and 50 m (164 ft) for the 190 dB
(rms) radius). However, as stated earlier in this document, based on
the configuration of the airgun array and streamers, it is highly
unlikely that a marine mammal would approach within 160 m (525 ft) of
the seismic vessel. No rookeries, mating grounds, areas of concentrated
feeding, or other areas of special significance for marine mammals
occur within the area of operations during the season of operations.
NMFS has determined that Shell's open-water marine survey program
in the Chukchi Sea in 2009/2010 will not have an unmitigable adverse
impact on the subsistence uses of bowhead whales and other marine
mammals. This determination is supported by the information in this
Federal Register Notice, including: (1) Survey activities will not
begin prior to the closure of the spring bowhead hunt in Chukchi
coastal villages; (2) Shell will closely coordinate with and avoid
impacts to beluga whale hunts through subsistence advisors; (3)
activities are scheduled to avoid the traditional subsistence beluga
hunt, which annually occurs in July in the community of Point Lay; (4)
Barrow is east of the project area, so the animals will reach Barrow
before entering the project area on their fall westward migration
through the Beaufort and Chukchi Seas; (5) the fact that survey
activities will occur more than 113 km
[[Page 55412]]
(70 mi) or more from shore, and most cetaceans and pinnipeds are hunted
much closer to the shore; and (6) that several of the required
mitigation and monitoring conditions in the IHA (described earlier in
this document) are designed to ensure that there will not be an
unmitigable adverse impact on subsistence uses of marine mammals.
Authorization
As a result of these determinations, NMFS has issued an IHA to
Shell for conducting an open-water marine survey program in the Chukchi
Sea during the 2009/2010 Arctic open-water season.
Dated: October 19, 2009.
James H. Lecky,
Director, Office of Protected Resources, National Marine Fisheries
Service.
[FR Doc. E9-25545 Filed 10-26-09; 8:45 am]
BILLING CODE 3510-22-S