Takes of Marine Mammals Incidental to Specified Activities; Taking Marine Mammals Incidental to the Haines Ferry Terminal Modification Project, 47700-47717 [2017-22145]
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Federal Register / Vol. 82, No. 197 / Friday, October 13, 2017 / Notices
‘‘Standard 100- to 150-seat two-class
seating capacity’’ does not delineate the
number of seats actually in a subject aircraft
or the actual seating configuration of a
subject aircraft. Thus, the number of seats
actually in a subject aircraft may be below
100 or exceed 150.
A ‘‘minimum 2,900 nautical mile range’’
means:
(i) Able to transport between 100 and 150
passengers and their luggage on routes equal
to or longer than 2,900 nautical miles; or
(ii) covered by a U.S. Federal Aviation
Administration (FAA) type certificate or
supplemental type certificate that also covers
other aircraft with a minimum 2,900 nautical
mile range.
The scope includes all aircraft covered by
the description above, regardless of whether
they enter the United States fully or partially
assembled, and regardless of whether, at the
time of entry into the United States, they are
approved for use by the FAA.
The merchandise covered by this
investigation is currently classifiable under
Harmonized Tariff Schedule of the United
States (HTSUS) subheading 8802.40.0040.
The merchandise may alternatively be
classifiable under HTSUS subheading
8802.40.0090. Although these HTSUS
subheadings are provided for convenience
and customs purposes, the written
description of the scope of the investigation
is dispositive.
Appendix II
List of Topics Discussed in the Preliminary
Decision Memorandum
I. Summary
II. Background
III. Period of Investigation
IV. Scope of the Investigation
V. Scope Comments
VI. Application of Facts Available and Use of
Adverse Inference
A. Application of Facts Available
B. Use of Adverse Inference
C. Preliminary Estimated WeightedAverage Dumping Margin Based on
Adverse Facts Available
D. Corroboration of the AFA Rate
VII. Conclusion
[FR Doc. 2017–22203 Filed 10–12–17; 8:45 am]
BILLING CODE 3510–DS–P
DEPARTMENT OF COMMERCE
National Oceanic and Atmospheric
Administration
asabaliauskas on DSKBBXCHB2PROD with NOTICES
XRIN 0648–XF547
Takes of Marine Mammals Incidental to
Specified Activities; Taking Marine
Mammals Incidental to the Haines
Ferry Terminal Modification Project
National Marine Fisheries
Service (NMFS), National Oceanic and
Atmospheric Administration (NOAA),
Commerce.
ACTION: Proposed incidental harassment
authorization; request for comments.
AGENCY:
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NMFS has received a request
from the Alaska Department of
Transportation and Public Facilities
(ADOT&PF) for authorization to take
marine mammals incidental to the
Haines Ferry Terminal Modification
Project in Haines, Alaska. Pursuant to
the Marine Mammal Protection Act
(MMPA), NMFS is requesting comments
on its proposal to issue an incidental
harassment authorization (IHA) to
incidentally take marine mammals
during the specified activities.
DATES: Comments and information must
be received no later than November 13,
2017.
ADDRESSES: Comments should be
addressed to Jolie Harrison, Chief,
Permits and Conservation Division,
Office of Protected Resources, National
Marine Fisheries Service. Physical
comments should be sent to 1315 EastWest Highway, Silver Spring, MD 20910
and electronic comments should be sent
to ITP.Daly@noaa.gov.
Instructions: NMFS is not responsible
for comments sent by any other method,
to any other address or individual, or
received after the end of the comment
period. Comments received
electronically, including all
attachments, must not exceed a 25megabyte file size. Attachments to
electronic comments will be accepted in
Microsoft Word or Excel or Adobe PDF
file formats only. All comments
received are a part of the public record
and will generally be posted online at
www.nmfs.noaa.gov/pr/permits/
incidental/construction.htm without
change. All personal identifying
information (e.g., name, address)
voluntarily submitted by the commenter
may be publicly accessible. Do not
submit confidential business
information or otherwise sensitive or
protected information.
FOR FURTHER INFORMATION CONTACT:
Jaclyn Daly, Office of Protected
Resources, NMFS, (301) 427–8401.
Electronic copies of the applications
and supporting documents, as well as a
list of the references cited in this
document, may be obtained online at:
www.nmfs.noaa.gov/pr/permits/
incidental/construction.htm. In case of
problems accessing these documents,
please call the contact listed above.
SUPPLEMENTARY INFORMATION:
SUMMARY:
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
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commercial fishing) within a specified
geographical region if certain findings
are made and either regulations are
issued or, if the taking is limited to
harassment, a notice of a proposed
authorization is provided to the public
for review.
An authorization for incidental
takings shall be granted if NMFS finds
that the taking will have a negligible
impact on the species or stock(s), will
not have an unmitigable adverse impact
on the availability of the species or
stock(s) for subsistence uses (where
relevant), and if the permissible
methods of taking and requirements
pertaining to the mitigation, monitoring
and reporting of such takings are set
forth.
NMFS has defined ‘‘negligible
impact’’ in 50 CFR 216.103 as ‘‘an
impact resulting from the specified
activity that cannot be reasonably
expected to, and is not reasonably likely
to, adversely affect the species or stock
through effects on annual rates of
recruitment or survival.’’
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.
The MMPA states that the term ‘‘take’’
means to harass, hunt, capture, kill or
attempt to harass, hunt, capture, or kill
any marine mammal.
Except with respect to certain
activities not pertinent here, the MMPA
defines ‘‘harassment’’ as: Any act of
pursuit, torment, or annoyance which (i)
has the potential to injure a marine
mammal or marine mammal stock in the
wild (Level A harassment); or (ii) has
the potential to disturb a marine
mammal or marine mammal stock in the
wild by causing disruption of behavioral
patterns, including, but not limited to,
migration, breathing, nursing, breeding,
feeding, or sheltering (Level B
harassment).
National Environmental Policy Act
To comply with the National
Environmental Policy Act of 1969
(NEPA; 42 U.S.C. 4321 et seq.) and
NOAA Administrative Order (NAO)
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216–6A, NMFS must review our
proposed action with respect to
environmental consequences on the
human environment.
Accordingly, NMFS has preliminarily
determined that the issuance of the
proposed IHA qualifies to be
categorically excluded from further
NEPA review. This action is consistent
with categories of activities identified in
CE B4 of the Companion Manual for
NOAA Administrative Order 216–6A,
which do not individually or
cumulatively have the potential for
significant impacts on the quality of the
human environment and for which we
have not identified any extraordinary
circumstances that would preclude this
categorical exclusion.
We will review all comments
submitted in response to this notice
prior to concluding our NEPA process
or making a final decision on the IHA
request.
asabaliauskas on DSKBBXCHB2PROD with NOTICES
Summary of Request
On January 9, 2017, NMFS received a
request from ADOT&PF for an IHA to
take marine mammals incidental to
conducting improvements at the Haines
Ferry Terminal. On February 3, 2017,
NMFS requested additional information
and ADOT&PF submitted a revised
application on March 27, 2017, which
NMFS deemed adequate and complete.
However, after further discussions,
ADOT&PF submitted a final application
on May 30, 2017, and then subsequently
sent a request on August 17, 2017, to
change the effective dates in the
application to accommodate a delayed
construction schedule. ADOT&PF’s
request is for harassment only and
NMFS concurs that serious injury or
mortality is not expected to result from
this activity. Therefore, an IHA is
appropriate.
ADOT&PF’s request is for take of
humpback whale (Megaptera
novaeangliae), harbor seals (Phoca
vitulina), harbor porpoise (Phocoena
phocoena), and Dall’s porpoise
(Phocoenoides dalli) by Level A and
Level B harassment, and an additional
two species, Steller sea lion
(Eumetopias jubatus) and killer whale
(Orcinus orca) by Level B harassment
only. Pile driving would occur for 19
days and pile removal would take 2
additional days (total of 21 days) over
the course of 4 months from October 1,
2018, through September 30, 2019, but
excluding March 1 through May 31,
2019. No subsequent IHA would be
necessary to complete the project.
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Description of Proposed Activity
Overview
ADOT&PF is proposing to construct
two new berths and associated
infrastructure adjacent at the existing
Haines Ferry Terminal (see Attachment
1 in ADOT&PF’s application for project
drawings). The project includes impact
and vibratory pile driving and vibratory
pile removal. Sounds resulting from pile
driving and removal may result in the
incidental take of marine mammals by
Level A and Level B harassment up to
approximately 4.78 and 21.1 square
kilometers (km2), respectively, around
the terminal. The terminal is located in
southeast Alaska in Lutak Inlet.
Dates and Duration
The IHA would be valid from October
1, 2018, through September 30, 2019;
however, pile driving and removal
would occur for only 21 days over the
course of four months during this time
period and work would not occur from
March 1 through May 31, 2019.
ADOT&PF anticipates up to 1 hour of
vibratory pile driving and 15 to 30
minutes of impact pile driving per day.
Specified Geographic Region
The northern part of Lynn Canal
braids into several inlets including
Chilkat, Chilkoot, Taiya and Lutak
Inlets. Tanani Point marks the
confluence of Lutak Inlet and Chilkoot
Inlet and is located approximately one
mile (mi) southeast of the terminal. The
Terminal is located near the mouth of
Lutak Inlet, approximately four miles
north of the town of Haines, in northern
Southeast Alaska at 59°16′54″ N.,
135°27′44.6″ W. (see Figures 1–1 and 1–
2 in ADOT’s application). At the
terminal where pile driving may occur,
Lutak Inlet is approximately 1.3 miles
(mi) wide and water depth ranges from
20–40 feet (ft; 6–9 meters (m)); however,
water depth in Lynn Canal reaches over
300 ft (91 m). Lutak Inlet is a glacial
scoured fiord, characterized by a typical
U-shaped glacial valley. The sediment is
homogeneous, consisting of dark gray,
silty gravel material, as well as cobbles
and boulders. Other than the terminal,
the region is not industrialized and is
surrounded by several state parks and
the Glacier Bay National Park and
Preserve.
Detailed Description of Specific
Activities
The Terminal is a multi-use dock
used by Alaska Marine Highway
Systems (AMHS) mainline and fast
ferries, Alaska Marine Lines (AML) (tug
and barge), and Delta Western (tug and
barge). It is the second busiest AMHS
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47701
port of call and can see up to four ferries
coming and going during any given day
in summer. The AMHS provides a
transportation link for Alaska residents
and businesses, as well as for nonresidents visiting the state.
The Haines Ferry Terminal
Modification Project involves
constructing an AMHS End Berth
Facility adjacent to the existing dock.
The expansion is necessary because the
current configuration does not allow for
operation of the new Alaska Class
vessels, which are expected to be
operational in 2018. Specifically,
modification work includes removing
an existing structure and installing
moorings, vehicle transfer float, float
restraint structures, steel transfer
bridges and associated abutment and
bearing structure, berthing structures,
catwalks and gangways, and a pilesupported passenger waiting shelter.
The structure to be removed with a
vibratory hammer is comprised of four
30-inch (in) cylindrical steel pipe piles.
To construct the new infrastructure,
ADOT&PF would install 37 new piles.
Fifteen piles would be 36-in diameter
with 1 in. wall thickness. The remaining
22 piles would be 30-in diameter and 3⁄4
in thick. To minimize noise
propagation, the steel piles would be
driven with a vibratory hammer, as
practicable, except for final proofing,
which would require use of an impact
hammer. Based on previous pile driving
work at the Terminal in 2015,
ADOT&PF anticipates each pile would
require up 45 to 60 minutes of vibratory
driving (to account for proper placement
and alignment of the pile) followed by
an average of 700 strikes of the impact
hammer for a total average installation
time of 60–90 minutes. One pile driver
would be used onsite; therefore, only
one pile would be installed at a time. A
construction barge may be used during
the project to facilitate pile driving and
removal; however, the barge would be
anchored.
All pile driving and removal would
occur within 500 feet (152 meters) of the
shoreline. Assuming two 30 in diameter
piles could be removed each day, pile
removal would take two days. Pile
driving the 30-in piles is expected to
take 11 days while an additional 8 days
would be necessary to install the 36-in
piles. In total, ADOT&PF would be
elevating noise levels around the project
area for 21 days (two days of pile
removal plus 19 days of pile driving) of
the 4 month construction window (four
months from October 1, 2018, through
September 30, 2019, excluding March 1,
2019 through May, 31 2019).
Other work for the project includes
using a clamshell bucket dredge to
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remove sediment around the terminal.
However, dredging is not anticipated to
result in the taking of marine mammals;
therefore, this activity will not be
discussed further.
Proposed mitigation, monitoring, and
reporting measures are described in
detail later in this document (please see
the Proposed Mitigation and Proposed
Monitoring and Reporting sections).
Description of Marine Mammals in the
Area of Specified Activities
Sections 3 and 4 of the application
summarize available information
regarding status and trends, distribution
and habitat preferences, and behavior
and life history, of the potentially
affected species. Additional information
regarding population trends and threats
may be found in NMFS Stock
Assessment Reports (SAR;
www.nmfs.noaa.gov/pr/sars/), and more
general information about these species
(e.g., physical and behavioral
descriptions) may be found on NMFS
Web site (www.nmfs.noaa.gov/pr/
species/mammals/).
Table 1 lists all species with expected
potential for occurrence in Lynn Canal
and summarizes information related to
the population or stock, including
regulatory status under the MMPA and
ESA and potential biological removal
(PBR), where known. For taxonomy, we
follow Committee on Taxonomy (2016).
PBR is defined by the MMPA as the
maximum number of animals, not
including natural mortalities, that may
be removed from a marine mammal
stock while allowing that stock to reach
or maintain its optimum sustainable
population (as described in NMFS
SARs). While no mortality is anticipated
or authorized here, PBR and annual
serious injury and mortality from
anthropogenic sources are included here
as gross indicators of the status of the
species and other threats.
Marine mammal abundance estimates
presented in this document represent
the total number of individuals that
make up a given stock or the total
number estimated within a particular
study or survey area. NMFS stock
abundance estimates for most species
represent the total estimate of
individuals within the geographic area,
if known, that comprises that stock. For
some species, this geographic area may
extend beyond U.S. waters. All managed
stocks in this region are assessed in
NMFS’s U.S. Alaska SARs (Muto et al.
2017). All values presented in Table 1
are the most recent available at the time
of publication and are available in the
draft 2016 SARs (available online at:
www.nmfs.noaa.gov/pr/sars/draft.htm).
Three cetacean species have ranges
near the terminal but are unlikely to
occur in the project area: The Pacific
white-sided dolphin (Lagenorhynchus
obliquidens), gray whale (Eschrichtius
robustus), and minke whale
(Balaenopera acutorostrata). The range
of Pacific white-sided dolphin is
suggested to overlap with Lynn Canal
(Angliss and Allen, 2015), but no
sightings have been documented in the
project area (Dahlheim et al. 2009, MOS
2016). Gray whale sightings in this
northern portion of Southeast Alaska are
very rare; there have only been eight
sightings since 1997 (MOS 2016). These
observations were made in the lower
portions of Lynn Canal and were not
close to the Lutak Inlet/upper Lynn
Canal area. Finally, only one minke
whale has been observed in Taiya Inlet
over the past five years (MOS 2016).
TABLE 1—MARINE MAMMALS POTENTIALLY PRESENT WITHIN UPPER LYNN CANAL DURING THE SPECIFIED ACTIVITY
Common name
Scientific name
MMPA Stock
ESA/
MMPA
status;
Strategic
(Y/N) 1
Stock abundance
Nbest, (CV, Nmin,
most recent
abundance survey) 2
Annual M/SI 3
PBR
Order Cetartiodactyla—Cetacea—Superfamily Mysticeti (baleen whales)
Family Balaenidae
Humpback whale .......
Megaptera
novaeangliae.
Central North Pacific
E, D,Y ......
10,103 (0.3, 7,890,
2006).
83
24
Superfamily Odontoceti (toothed whales, dolphins, and porpoises)
Family Delphinidae
Killer whale .................
Orcinus orca ..............
Alaska Resident ........
-, N ...........
24
1
-, N ...........
-, N ...........
2,347 (N/A, 2,347,
2012) 4.
261 (N/A, 261, 2011) 4
587 (N/A, 587, 2012) 4
Northern Resident .....
Gulf of Alaska, Aleutian Islands, Bering
Sea.
West Coast Transient
1.96
5.9
0
1
-, N ...........
243 (N/A, 243, 2009) 4
2.4
0
8.9
5 34
Undet
38
297
1,645
233
92.3
Family Phocoenidae (porpoises)
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Harbor porpoise .........
Phocoena phocoena
Southeast Alaska ......
-, Y ...........
Dall’s porpoise ...........
Phocoenoides dalli ....
Alaska ........................
-,N ............
975 (0.10, 896,
2012) 5.
83,400 (0.097, N/A,
1993).
Order Carnivora—Superfamily Pinnipedia
Family Otariidae (eared seals and sea lions)
Steller sea lion ...........
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Eumetopias jubatus ...
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Western U.S. .............
Eastern U.S. ..............
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E, D; Y .....
-, D, Y ......
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49,497 (2014) ............
60,131–74,448 (2013)
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TABLE 1—MARINE MAMMALS POTENTIALLY PRESENT WITHIN UPPER LYNN CANAL DURING THE SPECIFIED ACTIVITY—
Continued
Common name
Scientific name
MMPA Stock
ESA/
MMPA
status;
Strategic
(Y/N) 1
Stock abundance
Nbest, (CV, Nmin,
most recent
abundance survey) 2
Annual M/SI 3
PBR
Family Phocidae (earless seals)
Harbor seal ................
Phoca vitulina
richardii.
Lynn Canal/Stephens
Passage.
-, N ...........
9,478 (8,605, 2011) ...
155
50
1 Endangered Species Act (ESA) status: Endangered (E), Threatened (T)/MMPA status: Depleted (D). A dash (-) indicates that the species is
not listed under the ESA or designated as depleted under the MMPA. Under the MMPA, a strategic stock is one for which the level of direct
human-caused mortality exceeds PBR or which is determined to be declining and likely to be listed under the ESA within the foreseeable future.
Any species or stock listed under the ESA is automatically designated under the MMPA as depleted and as a strategic stock.
2 NMFS marine mammal stock assessment reports online at: www.nmfs.noaa.gov/pr/sars/. CV is coefficient of variation; N
min is the minimum
estimate of stock abundance. In some cases, CV is not applicable (N/A).
3 These values, found in NMFS’s SARs, represent annual levels of human-caused mortality plus serious injury from all sources combined (e.g.,
commercial fisheries, ship strike). Annual M/SI often cannot be determined precisely and is in some cases presented as a minimum value or
range. A CV associated with estimated mortality due to commercial fisheries is presented in some cases.
4 N is based on counts of individual animals identified from photo-identification catalogs.
5 In the 2016 SAR for harbor porpoise, NMFS identified population estimates and PBR for porpoises within inland southeast Alaska waters
(these abundance estimates have not been corrected for g(0); therefore, they are likely conservative). The Annual M/SI value provided is for all
Alaska fisheries, not just inland waters of southeast Alaska.
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Pinnipeds
Steller Sea Lion
Steller sea lion populations that
primarily occur west of 144° W. (Cape
Suckling, Alaska) comprise the western
Distinct Population Segment (wDPS),
while all others comprise the eastern
DPS (eDPS); however, there is regular
movement of both DPSs across this
boundary (Muto et al. 2017). Both of
these populations may occur in the
action area. Steller sea lions were listed
as threatened range-wide under the ESA
on 26 November 1990 (55 FR 49204).
Steller sea lions were subsequently
partitioned into the western and eastern
DPSs in 1997 (Muto et al. 2017), with
the wDPS being listed as endangered
under the ESA and the eDPS remaining
classified as threatened (62 FR 24345)
until it was delisted in November 2013.
In August 1993, NMFS published a final
rule designating critical habitat for the
Steller sea lion as a 20-nautical mile
buffer around all major haul-outs and
rookeries, as well as associated
terrestrial, air and aquatic zones, and
three large offshore foraging areas (50
CFR 226.202). There is no Steller sea
lion critical habitat in the action area.
In Lynn Canal, Steller sea lions are
most likely part of the eDPS; however,
wDPS animals have moved into the area
over the past several years. The first
western DPS Steller sea lion
documented in Lynn Canal occurred in
2003 at Benjamin Island in southern
Lynn Canal (approximately 97 km or 60
miles south from the Ferry Terminal
and 40 km or 25 miles north of Juneau,
Alaska). This animal was subsequently
re-sighted in 2003 and 2004. Two
additional animals have been observed
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at Benjamin Island in 2005 and 2006.
The Alaska Department of Fish and
Game (ADF&G) has documented 88
western DPS Steller sea lions in the
eastern region, of which 40 percent were
female, and nine of these animals gave
birth at rookeries in the eastern region.
Data suggest five out of these nine
females have permanently immigrated
to the eastern region. Branded
individuals from the western DPS have
also been observed at Gran Point located
about 22.5 km (14 mi) southeast of the
project area. The eDPS stock has been
increasing (Muto et al. 2017). Pup
counts for the wDPS have been
decreasing; however, this could be due
to movement of adult females out of the
region (suggesting some level of
permanent emigration) indicating that
sea lions may have responded to mesoscale (on the order of 100s of kilometers)
variability in their environment (Muto
et al. 2017).
Steller sea lions use terrestrial haulout
sites to rest and take refuge. They also
gather on well-defined, traditionally
used rookeries to pup and breed. These
habitats are typically gravel, rocky, or
sand beaches; ledges; or rocky reefs
(Allen and Angliss, 2013). Gran Point,
which is located 14 mi (22.5 km)
southeast of the project area, is the
closest year-round Steller sea lion
haulout. However, during the spring
eulachon run, a seasonal haulout site is
located on Taiya Point at the southern
tip of Taiya Inlet (approximately 5 km
or 3.1 mi from Haines Terminal). The
eulachon run (which occurs for
approximately three to four weeks
during mid-March through May) in
Lutak Inlet is extremely important to
Steller sea lions for seasonal foraging.
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These spawning aggregations of forage
fish provide densely aggregated, highenergy prey for Steller sea lions (and
harbor seals) for brief time periods and
influence haulout use (Sigler et al. 2004;
Womble et al. 2005; Womble and Sigler
2006). The pre-spawning aggregations
and spawning season for many forage
fish species occur between March and
May in Southeast Alaska just prior to
the breeding season of sea lions (Pitcher
et al. 2001; Womble and Sigler 2006).
After May, Steller sea lion presence in
the action area declines (see section 4.2
in ADOT&PF’s application for more
detailed information on fish runs and
corresponding Steller sea lion presence).
Steller sea lions are included in
subsistence harvests. From 2011–2012,
an average of 50 animals from this stock
were harvested each year, which is
higher than previous estimates of 30
animals, on average, per year from
2004–2008 (Muto and Angliss, 2015).
Incidental entanglement in fishing gear
and marine debris is the biggest
contributor to their annual humancaused mortality rate. In addition, since
2012, known cases of intentional
mortality (e.g., gunshot, explosives)
have also contributed to this rate with
an average of 15 animals per year from
2012 through 2015 (Muto et al. 2016).
Harbor Seal
Harbor seals generally are
nonmigratory, with local movements
associated with such factors as tides,
weather, season, food availability, and
reproduction (Scheffer and Slipp 1944,
Fisher 1952, Bigg 1969, 1981, Hastings
et al. 2004).
Harbor seals are included in
subsistence harvests. From 2011–2012,
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an average of 50 seals from the Lynn
Canal/Stephens Passage stock were
harvested each year, which is higher
than previous estimates of 30 animals,
on average, per year from 2004–2008
(Muto et al. 2017). Entanglement is the
biggest contributor to their annual
human-caused mortality. Lynn Canal/
Stephens Passage harbor seals are not
listed as depleted or strategic under the
MMPA and are not listed under the
ESA.
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Cetaceans
Humpback Whale
Under the MMPA, there are three
stocks of humpback whales in the North
Pacific: (1) The California/Oregon/
Washington and Mexico stock,
consisting of winter/spring populations
in coastal Central America and coastal
Mexico which migrate to the coast of
California to southern British Columbia
in summer/fall (Calambokidis et al.
1989, Steiger et al. 1991, Calambokidis
et al. 1993); (2) the central North Pacific
stock, consisting of winter/spring
populations of the Hawaiian Islands
which migrate primarily to northern
British Columbia/Southeast Alaska, the
Gulf of Alaska, and the Bering Sea/
Aleutian Islands (Perry et al. 1990,
Calambokidis et al. 1997); and (3) the
western North Pacific stock, consisting
of winter/spring populations off Asia
which migrate primarily to Russia and
the Bering Sea/Aleutian Islands. The
central North Pacific stock is the only
stock that is found near the project
activities.
On September 8, 2016, NMFS
published a final decision changing the
status of humpback whales under the
ESA (81 FR 62259), effective October 11,
2016. Previously, humpback whales
were listed under the ESA as an
endangered species worldwide. In the
2016 decision, NMFS recognized the
existence of 14 DPSs, classified four of
those as endangered and one as
threatened, and determined that the
remaining nine DPSs do not warrant
protection under the ESA. WNP DPS
whales do not occur in Southeast
Alaska. Whales from the Mexico DPS,
which is a threatened species, have a 6.1
percent probability of occurrence in
Southeast Alaska. Humpback whales in
Southeast Alaska are most likely to be
from the Hawaii DPS (93.9 percent
probability), which is not protected
under the ESA.
Humpback whales are not common in
the action area but, if they are sighted,
are generally present during mid- to late
spring (mid-May through June) and
vacate the area by July to follow large
aggregations of forage fish in lower Lynn
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Canal. However, in recent years
humpback whales have been observed
at the entrance to Taiya Inlet throughout
the fall months (MOS 2016). Four to five
whales were observed in the area from
spring 2015 to November (MOS 2016).
Killer Whale
Based on data regarding association
patterns, acoustics, movements, and
genetic differences, eight killer whale
stocks are now recognized: (1) The
Alaska Resident stock; (2) the Northern
Resident stock; (3) the Southern
Resident stock; (4) the Gulf of Alaska,
Aleutian Islands, and Bering Sea
Transient stock; (5) the AT1 Transient
stock; (6) the West Coast transient stock,
occurring from California through
southeastern Alaska; and (7) the
Offshore stock, and (8) the Hawaiian
stock. Only the Alaska resident;
Northern resident; Gulf of Alaska,
Aleutian Islands, and Bering Sea
Transient (Gulf of Alaska transient); and
the West coast transient stocks are
considered in this application because
other stocks occur outside the
geographic area under consideration.
Any of these four stocks could be seen
in the action area; however, the
Northern resident stock is most likely to
occur in the area.
The Alaska resident stock is found
from southeastern Alaska to the
Aleutian Islands and Bering Sea.
Intermixing of Alaska residents have
been documented among the three
areas, at least as far west as the eastern
Aleutian Islands (Allen and Angliss,
2013). The Northern resident stock
occurs from Washington State through
part of southeastern Alaska. The
Northern Resident stock is a
transboundary stock and includes killer
whales that frequent British Columbia,
Canada and southeastern Alaska
(Dahlheim et al., 1997; Ford et al.,
2000). The Gulf of Alaska transient
stock occurs mainly from Prince
William Sound through the Aleutian
Islands and Bering Sea. The West coast
transient stock includes animals that
occur in California, Oregon,
Washington, British Columbia and
southeastern Alaska.
Transient killer whales occur in
smaller, less matrilineal groupings than
resident killer whales. They are also
more likely to rely on stealth tactics
when foraging, making fewer and less
conspicuous calls, and edging along
shorelines and around headlands in
order to hunt their prey, including,
Steller sea lions, harbor seals, and
smaller cetaceans, in highly coordinated
attacks (Barrett-Lennard et al. 2011).
Residents often travel in much larger
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and closer knit groups within which
they share any fish they catch.
Data from Lutak Inlet suggests that a
small number of killer whales
infrequently enter the inlet, generally
during spring fish runs when large
aggregations of pinnipeds are also
present (K. Hastings, pers. comm.). Up
to 15 to 20 killer whales have been
observed in Taiya Inlet 4 to 5 times a
year from early spring through fall
(MOS 2016). Transient killer whales
have also been observed in Lutak Inlet
in front of the Terminal when sea lions
are present (K. Hastings, pers. comm.),
presumably following their preferred
food source. The mean group size of
four to six animals documented by
Dahlheim et al. (2009) is consistent with
4 to 5 sightings of up to 20 whales
outside Taiya (MOS 2016) and Lutak
Inlets.
Harbor Porpoise
In Alaska, harbor porpoises are
currently divided into three stocks,
based primarily on geography. These are
(1) the Southeast Alaska stock—
occurring from the northern border of
British Columbia to Cape Suckling,
Alaska, (2) the Gulf of Alaska stock—
occurring from Cape Suckling to
Unimak Pass, and (3) the Bering Sea
stock—occurring throughout the
Aleutian Islands and all waters north of
Unimak Pass (Allen and Angliss 2014).
Only the Southeast Alaska stock is
considered in this application because
the other stocks are not found in the
geographic area under consideration.
The total estimated annual level of
human-caused mortality and serious
injury (M/SI) for harbor porpoise in
Alaska (n=34) exceeds the calculated
PBR of 8.9 harbor porpoise. However,
this calculated PBR is based on the
minimum population estimate for
harbor porpoise in inland waters of
southeast Alaska only (n=896) while the
annual level of human caused M/SI is
derived from take in all fisheries
throughout Alaska. Therefore, PBR
represents the total amount of animals
that can be removed from all harbor
porpoise stocks in Alaska combined. No
mortality or serious injury of harbor
porpoise from the Southeast Alaska
stock has been observed incidental to
U.S. commercial fisheries in Alaska in
2010–2014 (Breiwick 2013; MML
unpubl. data). Population trends and
status of this stock relative to its
optimum sustainable population are
currently unknown.
In Lynn Canal, observations of harbor
porpoise are not frequent and occur
primarily in lower Lynn Canal;
however, the species has been observed
as far north as Haines during the
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summer surveys (Dahlheim et al. 2009).
At the Haines Ferry Terminal, one small
pod of harbor porpoise were observed
on September 22, 2015 (ADOT&PF
2015). In addition, approximately 30
individuals have been observed in
multiple groups of two or three, from
spring through fall (MOS 2016).
There are no subsistence use of this
species; however, entanglement in
fishing gear contributes to humancaused mortality and serious injury.
Muto et al. (2016) also reports harbor
porpoise are vulnerable to physical
modifications of nearshore habitats
resulting from urban and industrial
development (including waste
management and nonpoint source
runoff) and activities such as
construction of docks and other overwater structures, filling of shallow areas,
dredging, and noise (Linnenschmidt et
al. 2013).
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Dall’s Porpoise
Currently one stock of Dall’s porpoise
is recognized in Alaskan waters (Muto
et al. 2015). Dall’s porpoise have not
been observed in the waters of Lutak
Inlet immediately adjacent to the
Terminal but may be present in
northern Lynn Canal. Local observers
have observed only three to six Dall’s
porpoises in Taiya Inlet during the early
spring and late fall (MOS 2016).
At present, there is no reliable
information on trends in abundance for
the Alaska stock of Dall’s porpoise
(Muto et al. 2015). From 2009 to 2013,
no mortality or serious injury of Dall’s
porpoise was reported to the NMFS
Alaska. There are also no subsistence
uses of this species (Muto et al. 2015).
Dall’s porpoise are vulnerable to
physical modifications of nearshore
habitats resulting from urban and
industrial development, including waste
management and nonpoint source
runoff) and noise (Linnenschmidt et al.
2013).
Marine Mammal Hearing
Hearing is the most important sensory
modality for marine mammals
underwater, and exposure to
anthropogenic sound can have
deleterious effects. To appropriately
assess the potential effects of exposure
to sound, it is necessary to understand
the frequency ranges marine mammals
are able to hear. Current data indicate
that not all marine mammal species
have equal hearing capabilities (e.g.,
Richardson et al., 1995; Wartzok and
Ketten, 1999; Au and Hastings, 2008).
To reflect this, Southall et al. (2007)
recommended that marine mammals be
divided into functional hearing groups
based on directly measured or estimated
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hearing ranges on the basis of available
behavioral response data, audiograms
derived using auditory evoked potential
techniques, anatomical modeling, and
other data. Note that no direct
measurements of hearing ability have
been successfully completed for
mysticetes (i.e., low-frequency
cetaceans). Subsequently, NMFS (2016)
described generalized hearing ranges for
these marine mammal hearing groups.
Generalized hearing ranges were chosen
based on the approximately 65 decibels
(dB) threshold from the normalized
composite audiograms, with the
exception for lower limits for lowfrequency cetaceans where the lower
bound was deemed to be biologically
implausible and the lower bound from
Southall et al. (2007) retained. The
functional groups and the associated
frequencies are indicated below (note
that these frequency ranges correspond
to the range for the composite group,
with the entire range not necessarily
reflecting the capabilities of every
species within that group):
• Low-frequency cetaceans
(mysticetes): generalized hearing is
estimated to occur between
approximately 7 hertz (Hz) and 35
kilohertz (kHz);
• Mid-frequency cetaceans (larger
toothed whales, beaked whales, and
most delphinids): Generalized hearing is
estimated to occur between
approximately 150 Hz and 160 kHz;
• High-frequency cetaceans
(porpoises, river dolphins, and members
of the genera Kogia and
Cephalorhynchus; including two
members of the genus Lagenorhynchus,
on the basis of recent echolocation data
and genetic data): Generalized hearing is
estimated to occur between
approximately 275 Hz and 160 kHz;
• Pinnipeds in water; Phocidae (true
seals): generalized hearing is estimated
to occur between approximately 50 Hz
to 86 kHz; and
• Pinnipeds in water; Otariidae (eared
seals): generalized hearing is estimated
to occur between 60 Hz and 39 kHz.
The pinniped functional hearing
group was modified from Southall et al.
(2007) on the basis of data indicating
that phocid species have consistently
demonstrated an extended frequency
range of hearing compared to otariids,
especially in the higher frequency range
¨
(Hemila et al., 2006; Kastelein et al.,
2009; Reichmuth and Holt, 2013).
For more detail concerning these
groups and associated frequency ranges,
please see NMFS (2016) for a review of
available information. Six marine
mammal species (four cetacean and two
pinniped (one otariid and one phocid)
species) have the reasonable potential to
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47705
co-occur with the proposed survey
activities. Of the cetacean species that
may be present, one is classified as a
low-frequency cetacean (i.e., all
mysticete species), one is classified as a
mid-frequency cetacean (i.e., all
delphinid and ziphiid species and the
sperm whale), and two are classified as
high-frequency cetaceans (i.e., porpoise
and Kogia spp.).
Potential Effects of Specified Activities
on Marine Mammals and Their Habitat
This section includes a summary and
discussion of the ways that components
of the specified activity may impact
marine mammals and their habitat. The
‘‘Estimated Take by Incidental
Harassment’’ section later in this
document will include a quantitative
analysis of the number of individuals
that are expected to be taken by this
activity. The ‘‘Negligible Impact
Analysis and Determination’’ section
will consider the content of this section,
the ‘‘Estimated Take by Incidental
Harassment’’ section, and the ‘‘Proposed
Mitigation’’ section, to draw
conclusions regarding the likely impacts
of these activities on the reproductive
success or survivorship of individuals
and how those impacts on individuals
are likely to impact marine mammal
species or stocks.
The introduction of anthropogenic
noise into the aquatic environment from
pile driving and removal is the primary
means by which marine mammals may
be harassed from ADOT&PF’s specified
activity. Animals exposed to natural or
anthropogenic sound may experience
physical and psychological effects,
ranging in magnitude from none to
severe (Southall et al. 2007). In general,
exposure to pile driving noise has the
potential to result in auditory threshold
shifts and behavioral reactions (e.g.,
avoidance, temporary cessation of
foraging and vocalizing, changes in dive
behavior). Exposure to anthropogenic
noise can also lead to non-observable
physiological responses such an
increase in stress hormones. Additional
noise in a marine mammal’s habitat can
mask acoustic cues used by marine
mammals to carry out daily functions
such as communication and predatory
and prey detection. The effects of pile
driving noise on marine mammals are
dependent on several factors, including,
but not limited to, sound type (e.g.,
impulsive vs. non-impulsive), the
species, age and sex class (e.g., adult
male vs. mom with calf), duration of
exposure, the distance between the pile
and the animal, received levels,
behavior at time of exposure, and
previous history with exposure
(Southall et al., 2007, Wartzok et al.
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2004). Here we discuss physical
auditory effects (threshold shifts)
followed by behavioral effects and
potential impacts on habitat.
NMFS defines a noise-induced
threshold shift (TS) as ‘‘a change,
usually an increase, in the threshold of
audibility at a specified frequency or
portion of an individual’s hearing range
above a previously established reference
level’’ (NMFS, 2016). The amount of
threshold shift is customarily expressed
in dB (ANSI 1995, Yost 2007). A TS can
be permanent or temporary. As
described in NMFS (2016), there are
numerous factors to consider when
examining the consequence of TS,
including, but not limited to, the signal
temporal pattern (e.g., impulsive or nonimpulsive), likelihood an individual
would be exposed for a long enough
duration or to a high enough level to
induce a TS, the magnitude of the TS,
time to recovery (seconds to minutes or
hours to days), the frequency range of
the exposure (i.e., spectral content), the
hearing and vocalization frequency
range of the exposed species relative to
the signal’s frequency spectrum (i.e.,
how animal uses sound within the
frequency band of the signal; e.g.,
Kastelein et al. 2014b), and the overlap
between the animal and the source (e.g.,
spatial, temporal, and spectral). When
analyzing the auditory effects of noise
exposure, it is often helpful to broadly
categorize sound as either impulsive—
noise with high peak sound pressure,
short duration, fast rise-time, and broad
frequency content—or non-impulsive.
When considering auditory effects,
vibratory pile driving is considered to
be non-impulsive source while impact
pile driving is treated as an impulsive
source.
Permanent Threshold Shift (PTS)—
NMFS defines PTS as a permanent,
irreversible increase in the threshold of
audibility at a specified frequency or
portion of an individual’s hearing range
above a previously established reference
level (NMFS, 2016). Available data from
humans and other terrestrial mammals
indicate that a 40 dB threshold shift
approximates PTS onset (see Ward et al.
1958, 1959; Ward 1960; Kryter et al.
1966; Miller 1974; Ahroon et al. 1996;
Henderson et al. 2008).
With the exception of a single study
unintentionally inducing PTS in a
harbor seal (Kastak et al., 2008), there
are no empirical data measuring PTS in
marine mammals largely due to the fact
that, for various ethical reasons,
experiments involving anthropogenic
noise exposure at levels inducing PTS
are not typically pursued or authorized
(NMFS, 2016).
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Temporary Threshold Shift (TTS)—A
temporary, reversible increase in the
threshold of audibility at a specified
frequency or portion of an individual’s
hearing range above a previously
established reference level (NMFS,
2016). Based on data from cetacean TTS
measurements (see Southall et al. 2007
for a review), a TTS of 6 dB is
considered the minimum threshold shift
clearly larger than any day-to-day or
session-to-session variation in a
subject’s normal hearing ability
(Schlundt et al. 2000; Finneran et al.
2000; Finneran et al. 2002). As
described in Finneran (2016), marine
mammal studies have shown the
amount of TTS increases with
cumulative sound exposure level
(SELcum) in an accelerating fashion: At
low exposures with lower SELcum, the
amount of TTS is typically small and
the growth curves have shallow slopes.
At exposures with higher higher SELcum,
the growth curves become steeper and
approach linear relationships with the
noise SEL.
Depending on the degree (elevation of
threshold in dB), duration (i.e., recovery
time), and frequency range of TTS, and
the context in which it is experienced,
TTS can have effects on marine
mammals ranging from discountable to
serious (similar to those discussed in
auditory masking, below). For example,
a marine mammal may be able to readily
compensate for a brief, relatively small
amount of TTS in a non-critical
frequency range that takes place during
a time when the animal is traveling
through the open ocean, where ambient
noise is lower and there are not as many
competing sounds present.
Alternatively, a larger amount and
longer duration of TTS sustained during
time when communication is critical for
successful mother/calf interactions
could have more serious impacts. We
note that reduced hearing sensitivity as
a simple function of aging has been
observed in marine mammals, as well as
humans and other taxa (Southall et al.,
2007), so we can infer that strategies
exist for coping with this condition to
some degree, though likely not without
cost.
The potential for TTS from impact
pile driving exists. After exposure to
playbacks of impact pile driving sounds
(rate 2760 strikes/hour) in captivity,
mean TTS increased from 0 dB after 15
minute exposure to 5 dB after 360
minute exposure; recovery occurred
within 60 minute (Kastelein et al. 2016).
However, one must consider duration of
exposure in the field. Installing piles at
the Haines terminal requires 700 strikes
per pile (average 15 minutes) with re-set
time and one hour of vibratory pile
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driving before impact driving the
second pile. Given marine mammals are
likely moving through the action area
and not remaining for extended periods
of time, the potential for TTS declines.
Behavioral Harassment
Exposure to noise from pile driving
and removal also has the potential to
behavioral disturb marine mammals.
Disturbance may result in changing
durations of surfacing and dives,
number of blows per surfacing, or
moving direction and/or speed;
reduced/increased vocal activities;
changing/cessation of certain behavioral
activities (such as socializing or
feeding); visible startle response or
aggressive behavior (such as tail/fluke
slapping or jaw clapping); avoidance of
areas where sound sources are located.
Pinnipeds may increase their haul-out
time, possibly to avoid in-water
disturbance (Thorson and Reyff, 2006).
These potential behavioral responses to
sound are highly variable and contextspecific and reactions, if any, depend on
species, state of maturity, experience,
current activity, reproductive state,
auditory sensitivity, time of day, and
many other factors (Richardson et al.,
1995; Wartzok et al., 2003; Southall et
al., 2007). For example, animals that are
resting may show greater behavioral
change in response to disturbing sound
levels than animals that are highly
motivated to remain in an area for
feeding (Richardson et al., 1995; NRC,
2003; Wartzok et al., 2003).
If a marine mammal does react to an
underwater sound by changing its
behavior or moving a small distance, the
impacts of that change may not be
important to the individual, the stock,
or the species as a whole. However, if
a sound source displaces marine
mammals from an important feeding or
breeding area for a prolonged period,
impacts on the animals could be
important. In general, pinnipeds seem
more tolerant of, or at least habituate
more quickly to, potentially disturbing
underwater sound than do cetaceans,
and generally seem to be less responsive
to exposure to industrial sound than
most cetaceans.
In 2016, ADOT&PF documented
observations of marine mammals during
construction activities (i.e., pile driving
and down-hole drilling) at the Kodiak
Ferry Dock (see 80 FR 60636 for Final
IHA Federal Register notice). In the
marine mammal monitoring report for
that project (ABR 2016), 1,281 Steller
sea lions were observed within the
Level B disturbance zone during pile
driving or drilling (i.e., documented as
Level B take). Of these, 19 individuals
demonstrated an alert behavior, 7 were
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fleeing, and 19 swam away from the
project site. All other animals (98
percent) were engaged in activities such
as milling, foraging, or fighting and did
not change their behavior. In addition,
two sea lions approached within 20
meters of active vibratory pile driving
activities. Three harbor seals were
observed within the disturbance zone
during pile-driving activities; none of
them displayed disturbance behaviors.
Fifteen killer whales and three harbor
porpoise were also observed within the
Level B harassment zone during pile
driving. The killer whales were
travelling or milling while all harbor
porpoises were travelling. No signs of
disturbance were noted for either of
these species. Given the similarities in
activities and habitat and the fact the
same species are involved, we expect
similar behavioral responses of marine
mammals to the specified activity. That
is, disturbance, if any, is likely to be
temporary and localized (e.g., small area
movements).
Masking and Acoustic Habitat
Masking is the obscuring of sounds of
interest to an animal by other sounds,
typically at similar frequencies. It may
be caused by both natural (e.g., wind,
waves, other animals) or anthropogenic
(e.g., pile driving) sources. Marine
mammals are highly dependent on
sound, and their ability to recognize
sound signals amid other sound is
important in communication and
detection of both predators and prey.
Masking may partially or entirely
reduce the audibility of acoustic signals
(Southall et al. 2007). Background
ambient sound may interfere with or
mask the ability of an animal to detect
a sound signal even when that signal is
above its absolute hearing threshold.
Masking of natural sounds can result
when human activities produce high
levels of background sound at
frequencies important to marine
mammals. Conversely, if the
background level of underwater sound
is high (e.g., on a day with strong wind
and high waves), an anthropogenic
sound source would not be detectable as
far away as would be possible under
quieter conditions and would itself be
masked. Masking is also likely to result
in more severe consequences when
continuous. At the Haines terminal, pile
driving is intermittent. That is, vibratory
hammering would occur for
approximately one hour followed by a
break before impact hammering to allow
changes in equipment. There would also
be another delay before driving the
second pile. Further, pile driving would
not occur for multiple consecutive days
but instead would be spaced out over 19
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Marine Mammal Habitat Effects
Construction activities at the Haines
Ferry terminal could have localized,
temporary impacts on marine mammal
habitat and their prey by increasing inwater sound pressure levels and slightly
decreasing water quality. Increased
noise levels may adversely affect marine
mammal prey in the vicinity of the
project area. During impact pile driving,
elevated levels of underwater noise
would ensonify across Lutak Inlet where
both fish and mammals occur and could
affect foraging success. ADOT&PF
would avoid pile driving during the
more critical months (March 1 through
May 31) when ephemeral fish run in the
inlet, thereby avoiding the greatest
densities of marine mammals.
In-water pile driving, pile removal,
and dredging activities would also cause
short-term effects on water quality due
to increased turbidity. Dredging is likely
to cause the greatest increase in
suspended solids; however, turbidity
plumes created is localized to about 7.6
m (25 ft) and could last from a few
minutes to several hours. Any
contaminants associated with the resuspended sediments would be tightly
bound to the sediment matrix. Because
of the relatively small dredge area,
turbidity plumes would be limited to
the immediate vicinity of the terminal
and adjacent portion of the inlet.
ADOT&PF would employ standard
construction best management practices
(BMPs; see section 9 and 11.1 in
ADOT’s application), thereby, reducing
any impacts. Therefore, the impact from
increased turbidity levels is expected to
be discountable.
act of pursuit, torment, or annoyance
which (i) has the potential to injure a
marine mammal or marine mammal
stock in the wild (Level A harassment);
or (ii) has the potential to disturb a
marine mammal or marine mammal
stock in the wild by causing disruption
of behavioral patterns, including, but
not limited to, migration, breathing,
nursing, breeding, feeding, or sheltering
(Level B harassment).
Authorized takes would primarily be
by Level B harassment, as use of the
impact and vibratory hammers has the
potential to result in disruption of
behavioral patterns and/or TTS for
individual marine mammals. Impact
pile driving may also result in auditory
injury (Level A harassment) for
mysticetes, high frequency cetaceans,
and phocids due to modeled auditory
injury zones based on exposure to noise
from installing two piles per day.
However, there are multiple hours
between impact pile driving each pile;
therefore, these zones are conservative
as animals are not known to linger in
the area. Therefore, PTS potential is low
and, if occurs, would likely be minimal
(e.g., PTS onset). Auditory injury is not
expected for mid-frequency species and
otariids as the accumulation of energy
does not reach NMFS’ PTS thresholds.
The death of a marine mammal is also
a type of incidental take. However, as
described previously, no mortality is
anticipated or proposed to be authorized
for this activity. Below we describe how
the take is estimated.
Described in the most basic way, we
estimate take by considering: (1)
Acoustic thresholds above which NMFS
believes the best available science
indicates marine mammals may be
behaviorally harassed or incur some
degree of permanent hearing
impairment; (2) the area or volume of
water that will be ensonified above
these levels in a day; (3) the density or
occurrence of marine mammals within
these ensonified areas; and, (4) the
number of days of activities. Below, we
describe these components in more
detail and present the proposed take
estimate.
Estimated Take
This section provides an estimate of
the number of incidental takes proposed
for authorization through this IHA,
which will inform both NMFS’
consideration of whether the number of
takes is small and the negligible impact
determination.
Harassment is the only type of take
expected to result from these activities.
Except with respect to certain activities
not pertinent here, section 3(18) of the
MMPA defines ‘‘harassment’’ as: Any
Acoustic Thresholds
Using the best available science,
NMFS has developed acoustic
thresholds that identify the received
level of underwater sound above which
exposed marine mammals would be
reasonably expected to be behaviorally
harassed (equated to Level B
harassment) or to incur PTS of some
degree (equated to Level A harassment).
Level B Harassment for non-explosive
sources—Though significantly driven by
received level, the onset of behavioral
days (plus 2 days for pile removal) over
the course of approximately four
months. Therefore, while masking may
occur if a marine mammal if a marine
mammal is in the terminal area, it
would be of short duration. In addition,
ADOT&PF would conduct pile driving
outside of important foraging times (i.e.,
spring echelon runs) the action area
does not support key reproduction or
other vital areas. Therefore, the impact
of masking is likely to be minimal.
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disturbance from anthropogenic noise
exposure is also informed to varying
degrees by other factors related to the
source (e.g., frequency, predictability,
duty cycle), the environment (e.g.,
bathymetry), and the receiving animals
(e.g., hearing, motivation, experience,
demography, behavioral context)
making effects difficult to predict
(Southall et al., 2007, Ellison et al.,
2011). Based on what the available
science indicates and the practical need
to use a threshold based on a factor that
is both predictable and measurable for
most activities, NMFS uses a
generalized acoustic threshold based on
received level to estimate the onset of
behavioral harassment. NMFS predicts
that marine mammals are likely to be
behaviorally harassed in a manner we
consider Level B harassment when
exposed to underwater anthropogenic
noise above received levels of 120 dB re
1 microPascal (mPa) root mean square
(rms) for continuous (e.g. vibratory piledriving, drilling) and above 160 dB re 1
mPa (rms) for non-explosive impulsive
(e.g., seismic airguns, impact pile
driving) or intermittent (e.g., scientific
sonar) sources. ADOT&PF includes the
use of continuous (vibratory pile
driving) and impulsive (impact pile
driving); therefore, the 120 and 160 dB
re 1 mPa (rms) thresholds are applicable.
Level A harassment for non-explosive
sources—NMFS’ Technical Guidance
for Assessing the Effects of
Anthropogenic Sound on Marine
Mammal Hearing (Technical Guidance,
2016) identifies dual criteria to assess
auditory injury (Level A harassment) for
five different marine mammal groups
(based on hearing sensitivity) as a result
of exposure to noise from two different
types of sources (impulsive or nonimpulsive).
These thresholds were developed by
compiling and synthesizing the best
available science and soliciting input
multiple times from both the public and
peer reviewers to inform the final
product, and are provided in Table 2.
The references, analysis, and
methodology used in the development
of the thresholds are described in NMFS
2016 Technical Guidance, which may
be accessed at: https://
www.nmfs.noaa.gov/pr/acoustics/
guidelines.htm.
TABLE 2—THRESHOLDS IDENTIFYING THE ONSET OF PERMANENT THRESHOLD SHIFT
PTS onset acoustic thresholds *
(received level)
Hearing group
Impulsive
Low-Frequency (LF) Cetaceans ......................................
Mid-Frequency (MF) Cetaceans ......................................
High-Frequency (HF) Cetaceans .....................................
Phocid Pinnipeds (PW) (Underwater) .............................
Otariid Pinnipeds (OW) (Underwater) .............................
Cell
Cell
Cell
Cell
Cell
1:
3:
5:
7:
9:
Lpk,flat:
Lpk,flat:
Lpk,flat:
Lpk,flat:
Lpk,flat:
219
230
202
218
232
dB;
dB;
dB;
dB;
dB;
Non-impulsive
LE,LF,24h: 183 dB .........................
LE,MF,24h: 185 dB ........................
LE,HF,24h: 155 dB ........................
LE,PW,24h: 185 dB .......................
LE,OW,24h: 203 dB .......................
Cell
Cell
Cell
Cell
Cell
2: LE,LF,24h: 199 dB.
4: LE,MF,24h: 198 dB.
6: LE,HF,24h: 173 dB.
8: LE,PW,24h: 201 dB.
10: LE,OW,24h: 219 dB.
* Dual metric acoustic thresholds for impulsive sounds: Use whichever results in the largest isopleth for calculating PTS onset. If a non-impulsive sound has the potential of exceeding the peak sound pressure level thresholds associated with impulsive sounds, these thresholds should
also be considered.
Note: Peak sound pressure (Lpk) has a reference value of 1 μPa, and cumulative sound exposure level (LE) has a reference value of 1μPa2s.
In this Table, thresholds are abbreviated to reflect American National Standards Institute standards (ANSI 2013). However, peak sound pressure
is defined by ANSI as incorporating frequency weighting, which is not the intent for this Technical Guidance. Hence, the subscript ‘‘flat’’ is being
included to indicate peak sound pressure should be flat weighted or unweighted within the generalized hearing range. The subscript associated
with cumulative sound exposure level thresholds indicates the designated marine mammal auditory weighting function (LF, MF, and HF
cetaceans, and PW and OW pinnipeds) and that the recommended accumulation period is 24 hours. The cumulative sound exposure level
thresholds could be exceeded in a multitude of ways (i.e., varying exposure levels and durations, duty cycle). When possible, it is valuable for
action proponents to indicate the conditions under which these acoustic thresholds will be exceeded.
asabaliauskas on DSKBBXCHB2PROD with NOTICES
Ensonified Area
Here, we describe operational and
environmental parameters of the activity
that will feed into identifying the area
ensonified above the acoustic
thresholds.
ADOT&PF prepared an acoustic
modeling report that discusses their
modeling approach and identifies
modeled source levels and harassment
zones for the Haines Ferry Terminal
project (Quijano et al., 2016). A
summary of the methods of the
modeling effort is presented here; the
full report is available at https://
www.nmfs.noaa.gov/pr/permits/
incidental/construction.htm.
To assess potential underwater noise
exposure of marine mammals during
pile driving, ADOT&PF used two
models: A Pile Driving Source Model
(PDSM) to estimate the sound radiation
generated by the pile driver acting upon
the pile (i.e., source levels), and a Full
Waveform Range-dependent Acoustic
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Model (FWRAM) to simulate sound
propagation away from the pile. The
modeling considered the effect of pile
driving equipment, bathymetry, water
sound speed profile, and seabed
geoacoustic parameters to predict the
acoustic footprint from impact and
vibratory pile driving of cylindrical pipe
piles with respect to NMFS Level A and
Level B thresholds. The report presents
scenarios in which one pile or two piles
are driven per day; however, for
purposes here, NMFS considered only
the two pile scenario since ADOT&PF
has indicated that up to two piles could
be driven per day. The resulting Level
A harassment distances represent the
location at which an animal would
remain for the entire duration it takes to
drive one pile, reset, and then drive
another pile that, in reality, occurs over
multiple hours in one day. The Level B
isopleth distances represent
instantaneous exposure to the Level B
harassment criterion.
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To model sounds resulting from
impact and vibratory pile driving of 30in and 36-in cylindrical pipe pipes, the
PDSM was used in conjunction with
GRL Engineer’s Wave Equation Analysis
Program (GRLWEAP) pile driving
simulation software to obtain an
equivalent pile source signature (i.e.,
source level) consisting of a vertical
array of discrete point sources (Table 3).
This signature accounts for several
parameters that describe the operation:
Pile type, material, size, and length; the
pile driving equipment; and
approximate pile penetration rate. The
amplitude and phase of the point
sources along the array were computed
so that they collectively mimicked the
time-frequency characteristics of the
acoustic wave at the pile wall that
results from a hammer strike (impact
driving) or from forced vibration
(vibratory driving) at the top end of the
pile. This approach estimates spectral
levels within the band 10–800 Hz where
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most of the energy from pile driving is
concentrated. An extrapolation method
(Zykov et al. 2016) was used to extend
modeled levels in 1/3-octave-bands up
to 25 kHz, by applying a ¥2 dB per 1/
3-octave-band roll-off coefficient to the
SEL value starting at the 800 Hz band.
This was done to estimate the acoustic
energy at higher frequencies to compare
to NMFS thresholds.
Once the pile source signature was
computed, the FWRAM sound
propagation modeling code was used to
determine received levels as a function
of depth, range, and azimuth direction.
FWRAM is a time-domain acoustic
model that used, as input, the PDSMgenerated array of point sources
representing the pile and computes
synthetic pressure waveforms. To
exclude sound field outliers, NMFS uses
the maximum range at which the given
sound level was encountered after
excluding 5 percent of the farthest such
points (R95%) to estimate harassment
threshold distances. To account for
hearing groups, full-spectrum
frequency-dependent weighting
functions were applied at each
frequency. The model also showed the
transition from down-slope to up-slope
propagation as the sound crosses Lutak
Inlet, resulting in a sound field that
decays at a constant rate with range.
Steel cylindrical pipe piles 41 m (135
ft) long with 1⁄2 in thick walls were
modeled for a total penetration of 14 m
(46 ft) into the sediment. In the case of
vibratory pile driving, both pile sizes
were assumed to be driven by an ICE–
44B vibratory pile driver. For impact
pile driving, the parameters
corresponding to the Delmag D30–32
and D36–32 impact pile drivers were
used to model scenarios with 30-in and
36-in diameter piles, respectively.
Sound energy was accumulated over a
specified number of hammer strikes, not
as a function of time. The number of
strikes required to install a single pile
(assumed to be 700 strikes per pile) was
estimated based on pile driving logs
from another pile driving project at
Haines. Sound footprints were
calculated for the installation of two
piles (thus, accumulated over 1400
strikes). For vibratory pile driving,
sound energy was accumulated for the
two piles that could be installed or
removed in a 24-hour period.
Modeled source levels and distances
to NMFS acoustic thresholds based on
these source levels and the sound
propagation model are presented in
Table 3 and 4.
TABLE 3—IMPACT PILE DRIVING: MODELED SOURCE LEVELS AND HARASSMENT ZONES FOR IMPACT DRIVING TWO PILES
PER DAY
[A dash indicates the threshold was not reached*]
Level A
threshold
distance
(R95%) (km)
Hearing group
Level A
threshold area
(km2)
Level B (160
dB) threshold
distance (km)
Level B
threshold area
(km2)
30 inch piles: modeled SL = 179.5 dB SEL
Low-frequency cetacean ..................................................................................
Mid-frequency cetacean ..................................................................................
High-frequency cetacean .................................................................................
Phocid pinniped ...............................................................................................
Otarrid pinniped ...............................................................................................
1.65
—
1.45
0.26
—
3.17
—
1.13
0.09
—
1.98
4.52
4.78
—
2.17
0.15
—
2.67
6.79
36 inch piles: modeled SL = 180.9 dB SEL
Low-frequency cetacean ..................................................................................
Mid-frequency cetacean ..................................................................................
High-frequency cetacean .................................................................................
Phocid pinniped ...............................................................................................
Otarrid pinniped ...............................................................................................
2.04
—
1.49
0.33
—
* NMFS also considers peak sound pressure levels; however, in no case were these thresholds reached or greater than the SEL distances.
TABLE 4—VIBRATORY PILE DRIVING: MODELED SOURCE LEVELS AND HARASSMENT ZONES FOR VIBRATORY DRIVING TWO
PILES PER DAY
[A dash indicates the threshold was not reached*]
Level A
threshold
Distance
(R95%) (km)
Hearing group
Level A
threshold area
(km2)
Level B (160
dB) threshold
distance (km)
Level B
threshold area
(km2)
30 inch piles: modeled SL = 177.6 dB rms
asabaliauskas on DSKBBXCHB2PROD with NOTICES
ALL ...................................................................................................................
—
—
5.61
21.14
<0.01
—
—
—
—
5.62
21.17
36 inch piles: modeled SL = 179.8 dB rms
Low-frequency cetacean ..................................................................................
Mid-frequency cetacean ..................................................................................
High-frequency cetacean .................................................................................
Phocid pinniped ...............................................................................................
Otarrid pinniped ...............................................................................................
0.02
—
—
—
—
* NMFS also considers peak sound pressure levels; however, in no case were these thresholds reached or greater than the SEL distances.
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The modeling approach described
above and in ADOT&PF’s application
constitutes a new approach in that it
models both source levels and
propagation loss to estimate distances to
NMFS harassment thresholds. Some
preliminary data comparing measured
sound levels to those produced by the
models has been presented, but no peer
reviewed analysis has been undertaken.
To test the validity of the model, NMFS
has included a proposed requirement
that ADOT&PF conduct a source source
verification (SSV) study upon the onset
of pile driving to validate the model or,
if necessary, adjust the harassment
zones based on measured data. This
SSV study will also provide the first
measurements of sound levels generated
by 36-in piles driven by ADOT&PF.
ADOT&PF has prepared a draft acoustic
monitoring plan which can be found at
www.nmfs.noaa.gov/pr/permits/
incidental/construction.htm. We
welcome comments on the ADOT&PF’s
source level modeling approach and the
acoustic monitoring plan.
Marine Mammal Occurrence
In this section we provide the
information about the presence, density,
or group dynamics of marine mammals
that will inform the take calculations.
The data on marine mammals in this
area are diverse and fairly robust due
mostly to ADF&G surveys. Strong
seasonal occurrence of marine mammals
in this area is well documented;
therefore, density estimates for each
species were calculated by month rather
than averaged throughout the year. For
example, we have already discussed the
seasonality of Steller sea lions and how
prey aggregations affect their
abundance. Monthly Steller sea lion
densities were calculated based on
abundance surveys conducted at Gran
Point (ADF&G, pers. comm).
Considering the Steller sea lion data
used to calculate density is from Gran
Point, ADOT&PF used this location to
mark the southern boundary of the
action area. The area from Gran Point
north that encompasses Lutak Inlet and
Lynn Canal is 91.3 km2; this area was
used for all species’ density estimates.
For species other than Steller sea lion,
average sighting rate was used to
calculate density (i.e., species
occurrence rate per month/91.3km2).
Harbor seals are generally present in the
action area throughout the year, but
their local abundance is clearly defined
by the presence of available prey.
During mid-March through mid-June,
they are abundant in Lutak Inlet. For
these months, an average of 100 seals
per day in the inlet is considered a
conservative estimate. For all other
months, an estimate of 10 seals per
month was incorporated into the
density equation. Humpback whales are
present in the action area from midApril through June at a rate of five
whales per month and given that a few
whales have atypically remained in the
area through the fall months (MOS
2016), we assumed two whales may
remain within the action area from
August through November. Densities for
killer whales were calculated assuming
five animals enter the area seasonally
from one of the resident or transient
stocks, and may remain from April
through November. Harbor porpoise
may be present in low numbers (average
of five per month) throughout the year.
Finally, Dall’s porpoise are not sighted
very frequently but tend to travel in
larger groups; therefore, ten animals per
for the four months of construction were
considered in the density calculations.
Table 5 provides the resulting marine
mammal densities for months when
terminal construction would occur
(again, no pile activities would occur
from March 1 through May 31 to avoid
peak marine mammal abundance and
critical foraging periods). Although the
table provides all relevant months, we
used the months with highest density to
calculate estimated take for each
species, thus producing the most
conservative estimates. Please refer to
section 6.6.1 in ADOT’s application for
supporting data information.
TABLE 5—MARINE MAMMAL DENSITY ESTIMATES (ANIMALS/km2) DURING MONTHS WHEN PILE ACTIVITIES MAY OCCUR
Species
Jan
Steller sea lion .................................................................
Harbor seal .......................................................................
Humpback whale ..............................................................
Killer whale .......................................................................
Harbor porpoise ...............................................................
Dall’s porpoise ..................................................................
asabaliauskas on DSKBBXCHB2PROD with NOTICES
Take Calculation and Estimation
Here we describe how the information
provided above is brought together to
produce a quantitative take estimate.
The following equation was used to
calculate potential Level A take per
species per pile type: Level A
harassment zone/pile installation
method/pile type * June density * # of
pile driving days/pile type. As described
above, there would be 19 days of pile
driving and 2 days of pile removal for
a total of 21 pile activity days. We used
the June density because, when
densities changed throughout the year,
this is when the highest density of all
species occurs in the project area within
the project in-water work window (with
the exception of Dall’s porpoise-see
below) and ADOT&PF could conduct
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Feb
June
July
Aug
Sept
Oct
Nov
Dec
2.06
0.109
0
0
0.054
0
1.87
0.109
0
0
0.054
0
7.55
1.09
0.054
0.054
0.054
0
1.35
0.109
0.054
0.054
0.054
0.03
0
0.109
0.022
0.054
0.054
0.03
0.01
0.109
0.022
0.054
0.054
0.03
1.85
0.109
0.022
0.054
0.054
0.03
1.59
0.109
0.022
0.054
0.054
0
2.47
0.109
0
0
0.054
0
activities during this month. Therefore,
the resulting take estimates assume all
work is conducted in June, producing
conservative estimates. The resulting
Level A takes by pile type (30-in and 36in) were then added to generate a total
take number. For Level B harassment,
the equation is the same; however, we
first subtracted any Level A area from its
corresponding Level B zone so not to
‘‘double count’’ takes.
ADOT&PF may take 1.9 humpback
whales by Level A harassment when
impact driving 30″ piles (i.e., 3.17 km2
* 0.054 animals/km2 * 11 days).
ADOT&PF may take 2.1 humpback
whales by Level A harassment when
impact driving 36-in piles (i.e., 4.78 km2
* 0.054 animals/km2 * 8 days).
Together, these equal 4 (i.e., 1.9 from
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30-in + 2.1 from 36″) potential Level A
takes (Table 6). The Level B harassment
zone for impact driving 30″ piles was
calculated as 4.52 km2¥3.17 km2 = 1.35
km2. As such, potential take is
calculated as 1.35 km2 * 0.054 animals/
km2 * 11 days = 1 animal. To calculate
take from impact driving 36’’ piles, the
Level A zone (4.78 km2) was subtracted
from the Level B zone (6.79 km2) and
the process was repeated: 2.01 km2 *
0.054 animals/km2 * 8 days = 1 animal.
These takes were then added for a total
of 2 takes from Level B harassment from
impact pile driving. Finally, we
included the potential Level B takes
from vibratory pile driving and removal
(Level B area = 21.1 km2) using the
method as described above. The
resulting Level B takes (n = 24) were
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added to the impact pile driving Level
B takes (n = 2) for a total Level B take
of 26 humpback whales.
For killer whales, Level B takes from
vibratory pile driving were calculated
using June density and the full 21.1 km2
Level B zone since no Level A takes are
predicted: 21.1 km2 * 0.054 animals/
km2 * 21 days = 24 animals. Level B
take from impact driving 30-in piles is
calculated as 4.52 km2 * 0.054 animals/
km2 * 11 days = 2.7 killer whales. Level
B take from impact driving was
calculated as 6.79 km2 * 0.054 animals/
km2 * 8 days = 2.9 killer whales.
Together, we proposed to authorize
Level B take of 30 killer whales over the
21 days of pile activity.
For Dall’s porpoise, we used the July
density of 0.03 animals/km2 in the take
equations. The resulting Level A take
was lower than the average group size;
therefore, we increased to the number of
takes to represent the possibility one
group of ten Dall’s porpoise may come
within the Level A zone during impact
pile driving. For Level B take, calculated
take fell between 10 and 20 animals;
therefore, we assumed two groups of ten
each may occur within the Level B zone
and are proposing to authorize 20 Level
B takes.
Harbor porpoise take estimates were
based on a density of .054 porpoise/km2
with a Level A isopleth of 1.13 km2 and
2.17 km2 for impact pile driving 30-in
(11 days) and 36-in (8 days) piles,
respectively. The resulting 1 animal is
less than the average group size;
therefore, we are proposing to authorize
the take of three harbor porpoise. For
Level B, calculated take was estimated
at 28 animals. Level B take numbers for
harbor porpoise were based on a
21.1km2 impact zone for vibratory pile
driving while an isopleth of 4.62 km2
and 3.39 km2 were used for pile driving
30-in (11 days) and 36-in (8 days) piles.
Harbor seal Level A take numbers
were based on 1.09 seals/km2, a Level A
zone of 0.09 and 0.15 km2 for impact
pile driving 30-in (11 days) and 36-in (8
days) piles, respectively. In total, three
Level A takes of harbor seals are
expected. For Level B, a 21.1 km2
impact zone for vibratory pile driving
was used whereas a 6.64 km2 and 4.43
km2 isopleth were used for impact pile
driving 36-in and 30-in piles. In all,
Level B take numbers for vibratory and
impact pile driving were 598. It is
important to note that given harbor seals
are more likely to haul-out and linger
within the Level B harassment zone, it
is more likely that this number
represents exposures and not individual
seals. As with all other species, it is also
likely animals will travel through the
Level B zone heading up the inlet and
then back down again. Because
individual identification is not always
possible, these separate sighting events
would be counted as individual takes.
For Steller sea lions, Level B takes
from vibratory pile driving were
calculated using the most conservative
June density (assuming worst case
scenario that all work occurs in June)
and the full 21.1 km2 Level B zone since
no Level A takes are predicted: 21.1 km2
* 7.55 animals/km2 * 21 days = 3345.4
animals. Level B take from impact
driving 30-in piles was calculated as
4.52 km2 * 7.55 animals/km2 * 11 days
= 375.4 sea lions. Level B take from
impact driving 36-in piles was
calculated as 6.79 km2 * 7.55 animals/
km2 * 8 days = 410.1 sea lions.
Together, NMFS proposes to authorize
4131 takes of sea lions over the 21 days
of pile activity. This amount is not
believed to be the number of individual
Steller sea lions harassed but some
lesser amount of individuals with
repeated exposures.
Table 6 includes the total proposed
take levels, by species, manner of
taking, and the percentage of stock
potentially taken by Level B harassment
(we did not include Level A take
percentages as the proposed number of
take is essentially zero percent for all
stocks).
TABLE 6—ESTIMATED TAKE BY LEVEL A AND LEVEL B HARASSMENT, BY SPECIES AND MONTH, RESULTING FROM IMPACT
AND VIBRATORY PILE DRIVING
Stock or DPS
size 1
Species
Stock or DPS
Steller sea lion ..................................
eastern U.S ......................................
western U.S ......................................
Lynn ..................................................
Canal/Stephens ................................
Passage ...........................................
Central North Pacific ........................
Alaska Resident ...............................
Northern Resident ............................
Gulf of Alaska, Aleutian Islands,
Bering Sea.
West Coast Transient ......................
Southeast Alaska .............................
Alaska ...............................................
Harbor Seal .......................................
Humpback whale ..............................
Killer whale ........................................
Harbor porpoise ................................
Dall’s porpoise ..................................
Level A
Level B % of
stock/DPS
Level B
60,131
49,497
9,478
0
0
3
2 4,131
10,103
2,347
261
587
4
0
0
0
3 26
243
975
83,400
43
28
4 10
4 20
2 83
598
30
6.7
0.16
6.3
0.3
1.3–12.3
0
0.27
0.04
1 Stock
or DPS size here is Nbest according to NMFS 2016 Stock Assessment Reports.
Level B take of all SSL’s is based on a June density of 7.55 animals which equals 4131 individuals. Based on the percent of
branded animals at Gran Point and in consultation with the Alaska Regional Office, we used a 2 percent distinction factor to determine the number of animals potentially from the western DPS.
3 Calculated Level B take of all humpback whales is based on a June density of 0.054 animals which equals 4131 individuals. For ESA section
7 consultation purposes, 6.1 percent are designated to the Mexico DPS and the remaining are designated to the Hawaii DPS; therefore, we assigned 2 Level B takes to the Mexico DPS.
4 The calculated Level A take for harbor porpoise and Dall’s porpoise is less than the average group size; therefore, we are proposing to authorize Level A take of one group of each species (i.e., 3 and 10 animals, respectively). For Dall’s porpoise, we propose to authorize two groups
(i.e., 20 animals) to be taken by Level B harassment. The calculated amount of Level B take for harbor porpoise is sufficient to cover multiple
groups; therefore, no adjustments were made.
asabaliauskas on DSKBBXCHB2PROD with NOTICES
2 Calculated
Proposed Mitigation
In order to issue an IHA under
Section 101(a)(5)(D) of the MMPA,
NMFS must set forth the permissible
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methods of taking pursuant to such
activity, ‘‘and other means of effecting
the least practicable impact on such
species or stock and its habitat, paying
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particular attention to rookeries, mating
grounds, and areas of similar
significance, and on the availability of
such species or stock for taking’’ for
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certain subsistence uses (latter not
applicable for this action). NMFS
regulations require applicants for
incidental take authorizations to include
information about the availability and
feasibility (economic and technological)
of equipment, methods, and manner of
conducting such activity or other means
of effecting the least practicable adverse
impact upon the affected species or
stocks and their habitat (50 CFR
216.104(a)(11)).
In evaluating how mitigation may or
may not be appropriate to ensure the
least practicable adverse impact on
species or stocks and their habitat, as
well as subsistence uses where
applicable, we carefully consider two
primary factors:
(1) The manner in which, and the
degree to which, the successful
implementation of the measure(s) is
expected to reduce impacts to marine
mammals, marine mammal species or
stocks, and their habitat, as well as
subsistence uses. This considers the
nature of the potential adverse impact
being mitigated (likelihood, scope,
range). It further considers the
likelihood that the measure will be
effective if implemented (probability of
accomplishing the mitigating result if
implemented as planned) the likelihood
of effective implementation (probability
implemented as planned) and,
(2) the practicability of the measures
for applicant implementation, which
may consider such things as cost,
impact on operations, and, in the case
of a military readiness activity,
personnel safety, practicality of
implementation, and impact on the
effectiveness of the military readiness
activity.
The following mitigation measures are
proposed in the IHA:
• Schedule: No pile driving or
removal would occur from March 1
through May 31 to avoid peak marine
mammals abundance periods and
critical foraging periods.
• Pile Driving Delay/Shut-Down: If an
animal comes within 10 m (33 ft) of a
pile being driven or removed,
ADOT&PF would shut down. Pile
driving activities would only be
conducted during daylight hours when
it is possible to visually monitor for
marine mammals. If poor environmental
conditions restrict visibility (e.g., from
excessive wind or fog, high Beaufort
state), pile installation would be
delayed. If a species for which
authorization has not been granted or if
a species for which authorization has
been granted but the authorized takes
are met, ADOT&PF would delay or shutdown pile driving if the marine
mammals approaches or is observed
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within the Level A and/or B harassment
zone. In the unanticipated event that the
specified activity clearly causes the take
of a marine mammal in a manner
prohibited by the IHA, such as serious
injury or mortality, the protected
species observer (PSO) on watch would
immediately call for the cessation of the
specified activities and immediately
report the incident to the Chief of the
Permits and Conservation Division,
Office of Protected Resources, NMFS,
and NMFS Alaska Regional Office.
• Soft-start: For all impact pile
driving, a ‘‘soft start’’ technique will be
used at the beginning of each pile
installation to allow any marine
mammal that may be in the immediate
area to leave before hammering at full
energy. The soft start requires
ADOT&PF to provide an initial set of
three strikes from the impact hammer at
40 percent energy, followed by a oneminute waiting period, then two
subsequent 3-strike sets. If any marine
mammal is sighted within the Level A
zone designated for that species prior to
pile-driving, or during the soft start,
ADOT&PF will delay pile-driving until
the animal is confirmed to have moved
outside and on a path away from Level
A zone or if 15 minutes have elapsed
since the last sighting.
• Other best management practices:
ADOT&PF will drive all piles with a
vibratory hammer to the maximum
extent possible (i.e., until a desired
depth is achieved or to refusal) prior to
using an impact hammer. ADOT&PF
will also use the minimum hammer
energy needed to safely install the piles.
ADOT&PF will also utilize sound
attenuation devices (e.g., pile caps/
cushions) to reduce source levels and,
by association, received levels.
However, because the actual amount of
reduction of sound energy from using
those devices in unknown, ADOT&PF
and NMFS used relied on unattenuated
source levels to calculate harassment
zones.
Based on our evaluation of the
applicant’s proposed measures, as well
as other measures considered by NMFS,
we have preliminarily determined that
the proposed mitigation measures
provide the means effecting the least
practicable impact on the affected
species or stocks and their habitat,
paying particular attention to rookeries,
mating grounds, and areas of similar
significance.
Proposed Monitoring and Reporting
In order to issue an IHA for an
activity, Section 101(a)(5)(D) of the
MMPA states that NMFS must set forth
requirements pertaining to the
monitoring and reporting of such taking.
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The MMPA implementing regulations at
50 CFR 216.104 (a)(13) indicate that
requests for authorizations must include
the suggested means of accomplishing
the necessary monitoring and reporting
that will result in increased knowledge
of the species and of the level of taking
or impacts on populations of marine
mammals that are expected to be
present in the proposed action area.
Effective reporting is critical both to
compliance as well as ensuring that the
most value is obtained from the required
monitoring.
Monitoring and reporting
requirements prescribed by NMFS
should contribute to improved
understanding of one or more of the
following:
• Occurrence of marine mammal
species or stocks in the area in which
take is anticipated (e.g., presence,
abundance, distribution, density).
• Nature, scope, or context of likely
marine mammal exposure to potential
stressors/impacts (individual or
cumulative, acute or chronic), through
better understanding of: (1) Action or
environment (e.g., source
characterization, propagation, ambient
noise); (2) affected species (e.g., life
history, dive patterns); (3) co-occurrence
of marine mammal species with the
action; or (4) biological or behavioral
context of exposure (e.g., age, calving or
feeding areas).
• Individual marine mammal
responses (behavioral or physiological)
to acoustic stressors (acute, chronic, or
cumulative), other stressors, or
cumulative impacts from multiple
stressors.
• How anticipated responses to
stressors impact either: (1) Long-term
fitness and survival of individual
marine mammals; or (2) populations,
species, or stocks.
• Effects on marine mammal habitat
(e.g., marine mammal prey species,
acoustic habitat, or other important
physical components of marine
mammal habitat).
• Mitigation and monitoring
effectiveness.
Visual Monitoring
Monitoring would be conducted 30
minutes before, during, and 30 minutes
after pile driving and removal activities.
In addition, observers shall record all
incidents of marine mammal
occurrence, regardless of distance from
activity, and shall document any
behavioral reactions in concert with
distance from piles being driven or
removed. Pile driving activities include
the time to install or remove a single
pile or series of piles, as long as the time
elapsed between uses of the pile driving
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equipment is no more than thirty
minutes.
A primary PSO would be placed at
the terminal where pile driving would
occur and a second observer would be
placed at Tanani Point, located
approximately 1 mi (1.6 km) southeast
of the terminal. This second observer is
at an advantage to observe species prior
to entering the Level A zone as they
move up Chilkoot Inlet, covering a
majority of the Level B zone. PSOs
would scan the waters using binoculars,
and/or spotting scopes, and would use
a handheld GPS or range-finder device
to verify the distance to each sighting
from the project site. All PSOs would be
trained in marine mammal
identification and behaviors and are
required to have no other project-related
tasks while conducting monitoring. The
following measures also apply to visual
monitoring:
(1) Monitoring will be conducted by
qualified observers, who will be placed
at the best vantage point(s) practicable
to monitor for marine mammals and
implement shutdown/delay procedures
when applicable by calling for the
shutdown to the hammer operator.
Qualified observers are trained
biologists, with the following minimum
qualifications:
(a) Visual acuity in both eyes
(correction is permissible) sufficient for
discernment of moving targets at the
water’s surface with ability to estimate
target size and distance; use of
binoculars may be necessary to correctly
identify the target;
(b) Advanced education in biological
science or related field (undergraduate
degree or higher required);
(c) Experience and ability to conduct
field observations and collect data
according to assigned protocols (this
may include academic experience);
(d) Experience or training in the field
identification of marine mammals,
including the identification of
behaviors;
(e) Sufficient training, orientation, or
experience with the construction
operation to provide for personal safety
during observations;
(f) Writing skills sufficient to prepare
a report of observations including but
not limited to the number and species
of marine mammals observed; dates and
times when in-water construction
activities were conducted; dates and
times when in-water construction
activities were suspended to avoid
potential incidental injury from
construction sound of marine mammals
observed within a defined shutdown
zone; and marine mammal behavior;
and
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(g) Ability to communicate orally, by
radio or in person, with project
personnel to provide real-time
information on marine mammals
observed in the area as necessary.
A draft marine mammal monitoring
report would be submitted to NMFS
within 90 days after the completion of
pile driving and removal activities. It
will include an overall description of
work completed, a narrative regarding
marine mammal sightings, and
associated marine mammal observation
data sheets. Specifically, the report must
include:
• Date and time that monitored
activity begins or ends;
• Construction activities occurring
during each observation period;
• Weather parameters (e.g., percent
cover, visibility);
• Water conditions (e.g., sea state,
tide state);
• Species, numbers, and, if possible,
sex and age class of marine mammals;
• Description of any observable
marine mammal behavior patterns,
including bearing and direction of travel
and distance from pile driving activity;
• Distance from pile driving activities
to marine mammals and distance from
the marine mammals to the observation
point;
• Locations of all marine mammal
observations; and
• Other human activity in the area.
If no comments are received from
NMFS within 30 days, the draft final
report will constitute the final report. If
comments are received, a final report
addressing NMFS comments must be
submitted within 30 days after receipt of
comments.
In the unanticipated event that the
specified activity clearly causes the take
of a marine mammal in a manner
prohibited by the IHA (if issued), such
as an injury, serious injury or mortality,
ADOT&PF would immediately cease the
specified activities and report the
incident to the Chief of the Permits and
Conservation Division, Office of
Protected Resources, NMFS, and the
Alaska Regional Stranding Coordinator.
The report would include the following
information:
• Description of the incident;
• Environmental conditions (e.g.,
Beaufort sea state, visibility);
• Description of all marine mammal
observations in the 24 hours preceding
the incident;
• Species identification or
description of the animal(s) involved;
• Fate of the animal(s); and
• Photographs or video footage of the
animal(s) (if equipment is available).
Activities would not resume until
NMFS is able to review the
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circumstances of the prohibited take.
NMFS would work with ADOT&PF to
determine what is necessary to
minimize the likelihood of further
prohibited take and ensure MMPA
compliance. ADOT&PF would not be
able to resume their activities until
notified by NMFS via letter, email, or
telephone.
In the event that ADOT&PF discovers
an injured or dead marine mammal, and
the lead PSO determines that the cause
of the injury or death is unknown and
the death is relatively recent (e.g., in
less than a moderate state of
decomposition as described in the next
paragraph), ADOT&PF would
immediately report the incident to the
Chief of the Permits and Conservation
Division, Office of Protected Resources,
NMFS, and the NMFS Alaska Stranding
Hotline and/or by email to the Alaska
Regional Stranding Coordinator. The
report would include the same
information identified in the paragraph
above. Activities would be able to
continue while NMFS reviews the
circumstances of the incident. NMFS
would work with ADOT&PF to
determine whether modifications in the
activities are appropriate.
In the event that ADOT&PF discovers
an injured or dead marine mammal and
the lead PSO determines that the injury
or death is not associated with or related
to the activities authorized in the IHA
(e.g., previously wounded animal,
carcass with moderate to advanced
decomposition, or scavenger damage),
ADOT&PF would report the incident to
the Chief of the Permits and
Conservation Division, Office of
Protected Resources, NMFS, and the
NMFS Alaska Stranding Hotline and/or
by email to the Alaska Regional
Stranding Coordinator, within 24 hours
of the discovery. ADOT&PF would
provide photographs or video footage (if
available) or other documentation of the
stranded animal sighting to NMFS and
the Marine Mammal Stranding Network.
Acoustic Monitoring
ADOT&PF relied on source level and
sound propagation models to estimate
Level A and harassment zones. To
validate the outputs of these models,
ADOT&PF will conduct acoustic
monitoring during the first two days of
pile driving. The acoustic monitoring
plan is available for review at https://
www.nmfs.noaa.gov/pr/permits/
incidental/construction.htm. In
summary, ADOT&PF will deploy three
bottom-mounted Autonomous
Multichannel Acoustic Recorders
(AMARs) and conduct spot
measurements with a hydrophone over
the side of a vessel. The AMARs will be
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set 10 m, 1000m and 5,000 m from the
pile. Within one week, ADOT&PF will
provide NMFS a report of their acoustic
measurements. NMFS will review the
report and if empirical data
demonstrates adjustments to Level A
and B take zones are warranted, those
adjustments will be made.
Negligible Impact Analysis and
Determination
NMFS has defined negligible impact
as ‘‘an impact resulting from the
specified activity that cannot be
reasonably expected to, and is not
reasonably likely to, adversely affect the
species or stock through effects on
annual rates of recruitment or survival’’
(50 CFR 216.103). A negligible impact
finding is based on the lack of likely
adverse effects on annual rates of
recruitment or survival (i.e., populationlevel effects). An estimate of the number
of takes alone is not enough information
on which to base an impact
determination. In addition to
considering estimates of the number of
marine mammals that might be ‘‘taken’’
through harassment, NMFS considers
other factors, such as the likely nature
of any responses (e.g., intensity,
duration), the context of any responses
(e.g., critical reproductive time or
location, migration), as well as effects
on habitat, and the likely effectiveness
of the mitigation. We also assess the
number, intensity, and context of
estimated takes by evaluating this
information relative to population
status. Consistent with the 1989
preamble for NMFS implementing
regulations (54 FR 40338; September 29,
1989), the impacts from other past and
ongoing anthropogenic activities are
incorporated into this analysis via their
impacts on the environmental baseline
(e.g., as reflected in the regulatory status
of the species, population size and
growth rate where known, ongoing
sources of human-caused mortality, or
ambient noise levels).
The Level A harassment zones
identified in Tables 3 and 4 are based
upon an animal exposed to impact pile
driving two piles per day. Considering
duration of impact driving each pile (up
to 15 minutes) and breaks between pile
installations (to reset equipment and
move pile into place), this means an
animal would have to remain within the
area estimated to be ensonified above
the Level A harassment threshold for
multiple hours. This is highly unlikely
given marine mammal movement
throughout the area. If an animal was
exposed to accumulated sound energy,
the resulting PTS would likely be small
(e.g., PTS onset) at lower frequencies
where pile driving energy is
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concentrated. Nevertheless, we propose
authorizing a small amount of Level A
take for four species which is
considered in our analysis.
Behavioral responses of marine
mammals to pile driving and removal at
the Terminal, if any, are expected to be
mild and temporary. Marine mammals
within the Level B harassment zone may
not show any visual cues they are
disturbed by activities (as noted during
modification to the Kodiak Ferry Dock)
or could become alert, avoid the area,
leave the area, or display other mild
responses that are not observable such
as changes in vocalization patterns.
Given the short duration of noisegenerating activities per day and that
pile driving and removal would occur
on 21 days across 4 months, any
harassment would be temporary. In
addition, ADOT&PF would not conduct
pile driving or removal during the
spring eulachon and herring runs as
well as the fall salmon runs, when
marine mammals are in greatest
abundance and engaging in
concentrated foraging behavior.
In summary and as described above,
the following factors primarily support
our preliminary determination that the
impacts resulting from this activity are
not expected to adversely affect the
species or stock through effects on
annual rates of recruitment or survival:
• No mortality is anticipated or
authorized.
• ADOT&PF would avoid pile driving
and removal during peak periods of
marine mammals abundance and
foraging (i.e., March 1 through May 31
eulachon and herring runs,).
• ADOT&PF would implement
mitigation measures such as vibratory
driving piles to the maximum extent
practicable, soft-starts, use of sound
attenuation devices, and shut downs.
• Monitoring reports from similar
work in Alaska have documented little
to no effect on individuals of the same
species impacted by the specified
activities.
Based on the analysis contained
herein of the likely effects of the
specified activity on marine mammals
and their habitat, and taking into
consideration the implementation of the
proposed monitoring and mitigation
measures, NMFS preliminarily finds
that the total marine mammal take from
the proposed activity will have a
negligible impact on all affected marine
mammal species or stocks.
Small Numbers
As noted above, only small numbers
of incidental take may be authorized
under Section 101(a)(5)(D) of the MMPA
for specified activities other than
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military readiness activities. The MMPA
does not define small numbers and so,
in practice, where estimated numbers
are available, NMFS compares the
number of individuals taken to the most
appropriate estimation of abundance of
the relevant species or stock in our
determination of whether an
authorization is limited to small
numbers of marine mammals.
Additionally, other qualitative factors
may be considered in the analysis, such
as the temporal or spatial scale of the
activities.
The amount of take NMFS proposes to
authorize is 0.03 to 12.3 percent of any
stock’s best population estimate. The
12.3 percent is based on the possibility
all 30 takes of killer whales are from the
West Coast Transient stock (population
size 243) which is highly unlikely. The
next lowest percent of stock is for the
Steller sea lion eDPS at 6.7 percent;
however, this is also conservative
because it assumes all pile driving
occurs in June which has the highest
Steller sea lion density and assumes all
takes are of individual animals which is
likely not the case. Harbor seal takes
represent 6.3 percent of the Lynn Canal/
Stephens passage population while
takes for the remaining five species,
including the Steller sea lion wDPS,
represent less than 1 percent of all
stocks.
Based on the analysis contained
herein of the proposed activity
(including the proposed mitigation and
monitoring measures) and the
anticipated take of marine mammals,
NMFS preliminarily finds that small
numbers of marine mammals will be
taken relative to the population size of
the affected species or stocks.
Endangered Species Act (ESA)
Section 7(a)(2) of the Endangered
Species Act of 1973 (ESA: 16 U.S.C.
1531 et seq.) requires that each Federal
agency insure that any action it
authorizes, funds, or carries out is not
likely to jeopardize the continued
existence of any endangered or
threatened species or result in the
destruction or adverse modification of
designated critical habitat. To ensure
ESA compliance for the issuance of
IHAs, NMFS consults internally, in this
case with NMFS Alaska Protected
Resources Division Office, whenever we
propose to authorize take for
endangered or threatened species.
NMFS is proposing to authorize take
of the Steller sea lion wDPS and the
Mexico humpback whale DPS which are
listed under the ESA. The Permit and
Conservation Division has requested
initiation of Section 7 consultation with
the Alaska Region for the issuance of
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this IHA. NMFS will conclude the ESA
consultation prior to reaching a
determination regarding the proposed
issuance of the authorization.
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Proposed Authorization
As a result of these preliminary
determinations, NMFS proposes to issue
an IHA to ADOT&PF for conducting pile
driving and removal at the Haines Ferry
Terminal, Alaska, from October 1, 2018
September 30, 2019 provided the
previously mentioned mitigation,
monitoring, and reporting requirements
are incorporated. This section contains
a draft of the IHA itself. The wording
contained in this section is proposed for
inclusion in the IHA (if issued).
1. This IHA is valid from October 1
2018, through September 30, 2019.
2. This IHA is valid only for pile
driving and removal during the Haines
Ferry Terminal Modification Project,
Haines, Alaska.
3. General Conditions.
(a) A copy of this IHA must be in the
possession of, its designees, and work
crew personnel operating under the
authority of this IHA.
(b) The species authorized for taking
is the Steller sea lions (Eumetopias
jubatus), harbor seals (Phoca vitulina),
harbor porpoise (Phocoena phocoena),
and Dall’s porpoise (Phocoenoides dalli)
humpback whale (Megaptera
novaeangliae) and killer whale (Orcinus
orca).
(c) The taking, by harassment, is
limited to the species listed in condition
3(b). See Table 6 for manner of taking
and numbers of take authorized, by
species.
(d) The taking by serious injury or
death of the species listed in condition
3(b) of this IHA or any taking of species
of marine mammal not listed in
condition 3(b) is prohibited and may
result in the modification, suspension,
or revocation of this IHA.
(e) The taking of any marine mammal
in a manner prohibited under this IHA
must be reported immediately to the
Office of Protected Resources, NMFS.
(f) ADOT&PF shall conduct briefings
between construction supervisors and
crews, marine mammal monitoring
team, and ADOT&PF staff prior to the
start of pile driving and removal for the
Haines Ferry Terminal Modification
Project, and when new personnel join
the work, in order to explain
responsibilities, communication
procedures, marine mammal monitoring
protocol, and operational procedures.
4. Mitigation
The holder of this Authorization is
required to implement the following
mitigation measures:
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(a) Timing Restrictions: Pile driving
and removal shall occur only during
daylight hours from October 1, 2018,
through September 30, 2019, excluding
March 1, 2019, to May 31, 2019.
(b) Weather Restrictions: If poor
environmental conditions restrict
visibility (e.g., from excessive wind or
fog, high Beaufort state), the
commencement of pile installation shall
be delayed.
(c) Pile Driving Operations
(i) ADOT&PF shall drive all piles with
a vibratory hammer to the maximum
extent possible (i.e., until a desired
depth is achieved or to refusal) prior to
using an impact hammer. ADOT&PF
shall also use the minimum hammer
energy needed to safely install the piles.
(ii) ADOT&PF shall use sound
attenuation devices (e.g., pile caps/
cushions) in an attempt to reduce source
levels.
(iii) ADOT&PF shall use a ‘‘soft start’’
technique at the beginning of impact
pile driving to allow any marine
mammal that may be in the immediate
area to leave before hammering at full
energy. The soft start requires
ADOT&PF to provide an initial set of
three strikes from the impact hammer at
40 percent energy, followed by a oneminute waiting period, then two
subsequent 3–strike sets.
(iv) ADOT&PF shall use a direct pull
method as the primary removal method
for piles and, if ineffective, then using
a vibratory hammer;
(d) Shut-down Procedures.
(i) A shut-down zone of 10 m shall be
established during impact pile driving.
Pile driving shall not commence until
marine mammals are not sighted within
the shut-down zone for a 15-minute
period. If a marine mammal enters the
shut down zone during pile driving, the
activity shall stop until the animal
leaves the shut-down zone or until 15
minutes has elapsed without
observation of the animal within the
zone.
(ii) If any marine mammal is sighted
within the Level A zone (see Tables 3
and 4) designated for that species prior
to pile-driving, or during the soft start,
ADOT&PF shall delay pile-driving until
the animal is confirmed to have moved
outside and on a path away from Level
A zone or if 15 minutes have elapsed
since the last sighting.
(iii) ADOT&PF shall use delay and
shut-down procedures, if a species for
which authorization has not been
granted or if a species for which
authorization has been granted but the
authorized takes are met, approaches or
is observed within the Level A and/or
B harassment zone.
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(iv) ADOT&PF shall use delay and
shut-down procedures, if a species for
which authorization has not been
granted or if a species for which
authorization has been granted but the
authorized takes are met, approaches or
is observed within the Level A and/or
B harassment zone (as appropriate).
5. Monitoring.
The holder of this Authorization is
required to abide by the following
monitoring conditions:
(a) Two qualified Protected Species
Observer (PSOs) shall be used to detect,
document, and minimize impacts to
marine mammals. One PSO shall be
stationed at the Terminal and another
shall be stationed at Tanani Point or
other vantage point that allows visual
line of sight across Chilkoot Inlet.
(b) Qualifications for PSOs for visual
monitoring include:
(i) Visual acuity in both eyes
(correction is permissible) sufficient for
discernment of harbor seals on land or
in the water with ability to estimate
target size and distance; use of
binoculars may be necessary to correctly
identify the target;
(ii) Advanced education in biological
science or related field (undergraduate
degree or higher required);
(iii) Experience and ability to conduct
field observations and collect data
according to assigned protocols (this
may include academic experience);
(iv) Experience or training in the field
identification of marine mammals,
including the identification of
behaviors;
(v) Sufficient training, orientation, or
experience with the construction
operation to provide for personal safety
during observations;
(vi) Writing skills sufficient to prepare
a report of observations including but
not limited to the number and species
of marine mammals observed; dates and
times when construction activities were
conducted; dates and times when
construction activities were suspended
to avoid potential incidental injury from
construction sound or visual
disturbance of marine mammals
observed; and marine mammal
behavior; and
(vii) Ability to communicate orally, by
radio or in person, with project
personnel to provide real-time
information on marine mammals
observed in the area as necessary.
(c) PSO Monitoring and Data
Collection: Monitoring shall be
conducted before, during, and after pile
driving and removal activities. PSOs
shall record all incidents of marine
mammal occurrence, regardless of
distance from activity, and shall
document any behavioral reactions in
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concert with distance from construction
activities. PSOs shall be placed at the
best vantage point(s) practicable to
monitor for marine mammals. The PSO
shall also conduct biological resources
awareness training for construction
personnel. The awareness training shall
be provided to brief construction
personnel on identification of marine
mammals (including neonates) and the
need to avoid and minimize impacts to
marine mammals. If new construction
personnel are added to the project, the
contractor shall ensure that the
personnel receive the mandatory
training before starting work. The PSO
shall have authority to stop construction
if marine mammals appear distressed
(evasive maneuvers, rapid breathing,
inability to flush) or in danger of injury.
(d) Monitoring requirements also
include:
(i) The holder of this Authorization
must designate at least one biologicallytrained, on-site individual(s), approved
in advance by NMFS, to monitor marine
mammal species. The PSO shall be
trained in marine mammal
identification and behaviors and are
required to have no other constructionrelated tasks while conducting
monitoring.
(ii) PSOs shall be provided with the
equipment necessary to effectively
monitor for marine mammals in order to
record species, behaviors, and responses
to construction activities.
(iii) Pre-activity Monitoring: At least
30 minutes prior to the start of all pile
driving, the PSO(s) must conduct
observations on the number, type(s),
location(s), and behavior(s) of marine
mammals.
(iv) Data collection during marine
mammal monitoring shall consist of
counts of all marine mammals by
species and number (if possible, also
include sex and age class), a description
of behavior, location, direction of
movement, type of construction that is
occurring, time construction activities
starts and ends, any noise or visual
disturbance, and time of the
observation. The type of take (i.e., Level
A or B) and the assumed cause (whether
related to construction activities or not)
shall be noted. Environmental
conditions such as weather, visibility,
temperature, tide level, current, and sea
state shall also be recorded. A written
log of dates and times of monitoring
activity shall be kept. The log shall
report the following information:
• Time of PSO arrival on site;
• Time of the commencement of
construction activities;
• Distances to all marine mammals
relative to the disturbance;
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18:05 Oct 12, 2017
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• Observations, notes on marine
mammal behavior during construction
activities, as described above, and on
the number and distribution observed in
the project vicinity;
• For observations of all other marine
mammals (if observed) the time and
duration of each animal’s presence in
the project vicinity; the number of
animals observed; the behavior of each
animal, including any response to
construction activities;
• Time of the cessation of
construction activities;
• Time of PSO departure from site;
and
• An estimate of the number (by
species) of marine mammals that are
known to have been disturbed by
construction activities (based on visual
observation) with a discussion of any
specific behaviors those individuals
exhibited. Disturbance must be recorded
according to NMFS’ three-point scale.
(v) Post-activity Monitoring: At least
30 minutes following the cessation of
pile driving for the day, the PSO(s) will
continue to scan for marine mammals
and document any sightings in
accordance with section 4(c)(iv) of this
IHA.
(e) Acoustic Monitoring: ADOT&PF
shall conduct acoustic monitoring at the
onset of pile driving per the Acoustic
Monitoring Plan. The data shall be
analyzed to determine if any
adjustments to the harassment zones are
warranted.
6. Reporting.
(a) The ADOT&PF shall submit a draft
report to NMFS within 90 days of the
completion of marine mammal
monitoring, or sixty days prior to the
issuance of any subsequent IHA for this
project (if required), whichever comes
first. The report shall include marine
mammal observations pre-activity,
during-activity, and post-activity of
construction, and shall also provide
descriptions of any behavioral responses
by marine mammals due to disturbance
from construction activities and a
complete description of total take
estimate based on the number of marine
mammals observed during the course of
construction. If comments are received
from the NMFS Office of Protected
Resources on the draft report, a final
report shall be submitted to NMFS
within 30 days thereafter following
resolution of comments on the draft
report from NMFS. If no comments are
received from NMFS, the draft report
will be considered to be the final report.
This report must contain the
informational elements described above
and in the monitoring plan of the
application and at minimum shall also
include:
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Fmt 4703
Sfmt 4703
(b) Reporting injured or dead marine
mammals:
(i) In the unanticipated event that the
specified activity clearly causes the take
of a marine mammal in a manner
prohibited by this IHA, such as serious
injury or mortality, ADOT&PF shall
immediately cease the specified
activities and report the incident to the
NMFS’ Office of Protected Resources
and the West Coast Regional Stranding
Coordinator. The report must include
the following information:
• Time and date of the incident;
• Description of the incident;
• Environmental conditions (e.g.,
wind speed and direction, tidal
conditions, cloud cover, and visibility);
• Description of all marine mammal
observations and active sound
• Species identification or
description of the animal(s) involved;
• Fate of the animal(s); and
• Photographs or video footage of the
animal(s).
Activities shall not resume until
NMFS is able to review the
circumstances of the prohibited take.
NMFS will work with ADOT&PF to
determine what measures are necessary
to minimize the likelihood of further
prohibited take and ensure MMPA
compliance. ADOT&PF may not resume
their activities until notified by NMFS.
(ii) In the event that ADOT&PF
discovers an injured or dead marine
mammal, and the lead PSO determines
that the cause of the injury or death is
unknown and the death is relatively
recent (e.g., in less than a moderate state
of decomposition), ADOT&PF shall
immediately report the incident to the
NMFS’ Office of Protected Resources
and the Alaska Regional Stranding
Coordinator. The report must include
the same information identified in
6(b)(i) of this IHA. Activities may
continue while NMFS reviews the
circumstances of the incident. NMFS
will work with the ADOT&PF to
determine whether additional
mitigation measures or modifications to
the activities are appropriate.
(iii) In the event that the ADOT&PF
discovers an injured or dead marine
mammal, and the lead PSO determines
that the injury or death is not associated
with or related to the activities
authorized in the IHA (e.g., previously
wounded animal, carcass with moderate
to advanced decomposition, or
scavenger damage), the ADOT&PF shall
report the incident to the NMFS’ Office
of Protected Resources and the Alaska
Regional Stranding Coordinator within
24 hours of the discovery. ADOT&PF
shall provide photographs or video
footage or other documentation of the
stranded animal sighting to NMFS.
E:\FR\FM\13OCN1.SGM
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Federal Register / Vol. 82, No. 197 / Friday, October 13, 2017 / Notices
7. This Authorization may be
modified, suspended or withdrawn if
the holder fails to abide by the
conditions prescribed herein, or if
NMFS determines the authorized taking
is having more than a negligible impact
on the species or stock of affected
marine mammals.
Request for Public Comments
We request comment on our analyses,
the draft authorization, and any other
aspect of this Notice of Proposed IHA
for the proposed Haines Ferry Terminal
Dock Modification Project. Please
include with your comments any
supporting data or literature citations to
help inform our final decision on the
request for MMPA authorization.
Dated: October 6, 2017.
Donna S. Wieting,
Director, Office of Protected Resources,
National Marine Fisheries Service.
[FR Doc. 2017–22145 Filed 10–12–17; 8:45 am]
BILLING CODE 3510–22–P
DEPARTMENT OF COMMERCE
National Oceanic and Atmospheric
Administration
RIN 0648–XF739
Nominations to the Marine Fisheries
Advisory Committee
National Marine Fisheries
Service (NMFS), National Oceanic and
Atmospheric Administration (NOAA),
Commerce.
ACTION: Notice; request for nominations.
AGENCY:
Nominations are being sought
for appointment by the Secretary of
Commerce to fill vacancies on the
Marine Fisheries Advisory Committee
(MAFAC or Committee) that are open or
will be pending in February 2018.
MAFAC is the only Federal advisory
committee with the responsibility to
advise the Secretary of Commerce
(Secretary) on all matters concerning
living marine resources that are the
responsibility of the Department of
Commerce. The Committee makes
recommendations to the Secretary to
assist in the development and
implementation of Departmental
regulations, policies, and programs
critical to the mission and goals of
NMFS. Nominations are encouraged
from all interested parties involved with
or representing interests affected by
NMFS actions in managing living
marine resources. Nominees should
possess demonstrable expertise in a
field related to the management of living
marine resources and be able to fulfill
the time commitments required for two
asabaliauskas on DSKBBXCHB2PROD with NOTICES
SUMMARY:
VerDate Sep<11>2014
18:05 Oct 12, 2017
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annual meetings and year round
subcommittee work. Individuals serve
for a term of three years for no more
than two consecutive terms if reappointed. NMFS is seeking qualified
nominees to fill upcoming vacancies
being created by term limits.
DATES: Nominations must be
postmarked or have an email date stamp
on or before November 27, 2017.
ADDRESSES: Nominations should be sent
to Heidi Lovett, MAFAC Assistant
Director, NMFS Office of Policy, 14th
Floor, 1315 East-West Highway, Silver
Spring, MD 20910.
FOR FURTHER INFORMATION CONTACT:
Heidi Lovett, MAFAC Assistant
Director; (301) 427–8034; email:
heidi.lovett@noaa.gov.
SUPPLEMENTARY INFORMATION: The
MAFAC was approved by the Secretary
on December 28, 1970, and
subsequently chartered under the
Federal Advisory Committee Act, 5
U.S.C. App. 2, on February 17, 1971.
The Committee meets twice a year with
supplementary subcommittee meetings
as determined necessary by the
Committee Chair and Subcommittee
Chairs. No less than 15 and no more
than 21 individuals may serve on the
Committee. Membership is comprised of
highly qualified, diverse individuals
representing commercial, recreational,
subsistence, and aquaculture fisheries
interests; seafood industry;
environmental organizations; academic
institutions; tribal and consumer
groups; and other living marine resource
interest groups from a balance of U.S.
geographical regions, including the
Western Pacific and Caribbean.
A MAFAC member cannot be a
Federal employee, member of a Regional
Fishery Management Council, registered
Federal lobbyist, State employee, or
agent of a foreign principal. Selected
candidates must pass a security check
and submit a financial disclosure form.
Membership is voluntary, and except for
reimbursable travel and related
expenses, service is without pay.
Each nomination submission should
include the nominee’s name, a cover
letter describing the nominee’s
qualifications and interest in serving on
the Committee, curriculum vitae or
resume of the nominee, and no more
than three supporting letters describing
the nominee’s qualifications and
interest in serving on the Committee.
Self-nominations are acceptable. The
following contact information should
accompany each nominee’s submission:
name, address, telephone number, fax
number, and email address (if
available).
PO 00000
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47717
Nominations should be sent to Heidi
Lovett (see ADDRESSES) and must be
received by November 27, 2017. The full
text of the Committee Charter and its
current membership can be viewed at
the NMFS’ Web page at
www.nmfs.noaa.gov/mafac.htm.
Dated: October 10, 2017.
Jennifer Lukens,
Director for the Office of Policy, National
Marine Fisheries Service.
[FR Doc. 2017–22220 Filed 10–12–17; 8:45 am]
BILLING CODE 3510–22–P
DEPARTMENT OF COMMERCE
National Oceanic and Atmospheric
Administration
RIN 0648–XF535
Takes of Marine Mammals Incidental to
Specified Activities; Taking Marine
Mammals Incidental to the Gary Paxton
Industrial Park Dock Modification
Project.
National Marine Fisheries
Service (NMFS), National Oceanic and
Atmospheric Administration (NOAA),
Commerce.
ACTION: Notice; issuance of incidental
harassment authorization.
AGENCY:
NMFS has issued an
incidental harassment authorization
(IHA) to the City and Borough of Sitka
(CBS) for the taking marine mammals
incidental to modifying the Gary Paxton
Industrial Park (GPIP) dock in Sawmill
Cove, Alaska.
DATES: The IHA is valid from October 1,
2017 through December 31, 2017.
ADDRESSES: Electronic copies of the
applications and supporting documents,
as well as a list of the references cited
in this document, may be obtained
online at: www.nmfs.noaa.gov/pr/
permits/incidental/construction.htm.
FOR FURTHER INFORMATION CONTACT:
Jaclyn Daly, Office of Protected
Resources, NMFS, (301) 427–8401.
SUPPLEMENTARY INFORMATION:
SUMMARY:
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
E:\FR\FM\13OCN1.SGM
13OCN1
]]>Agencies
[Federal Register Volume 82, Number 197 (Friday, October 13, 2017)]
[Notices]
[Pages 47700-47717]
From the Federal Register Online via the Government Publishing Office [www.gpo.gov]
[FR Doc No: 2017-22145]
-----------------------------------------------------------------------
DEPARTMENT OF COMMERCE
National Oceanic and Atmospheric Administration
XRIN 0648-XF547
Takes of Marine Mammals Incidental to Specified Activities;
Taking Marine Mammals Incidental to the Haines Ferry Terminal
Modification Project
AGENCY: National Marine Fisheries Service (NMFS), National Oceanic and
Atmospheric Administration (NOAA), Commerce.
ACTION: Proposed incidental harassment authorization; request for
comments.
-----------------------------------------------------------------------
SUMMARY: NMFS has received a request from the Alaska Department of
Transportation and Public Facilities (ADOT&PF) for authorization to
take marine mammals incidental to the Haines Ferry Terminal
Modification Project in Haines, Alaska. Pursuant to the Marine Mammal
Protection Act (MMPA), NMFS is requesting comments on its proposal to
issue an incidental harassment authorization (IHA) to incidentally take
marine mammals during the specified activities.
DATES: Comments and information must be received no later than November
13, 2017.
ADDRESSES: Comments should be addressed to Jolie Harrison, Chief,
Permits and Conservation Division, Office of Protected Resources,
National Marine Fisheries Service. Physical comments should be sent to
1315 East-West Highway, Silver Spring, MD 20910 and electronic comments
should be sent to ITP.Daly@noaa.gov.
Instructions: NMFS is not responsible for comments sent by any
other method, to any other address or individual, or received after the
end of the comment period. Comments received electronically, including
all attachments, must not exceed a 25-megabyte file size. Attachments
to electronic comments will be accepted in Microsoft Word or Excel or
Adobe PDF file formats only. All comments received are a part of the
public record and will generally be posted online at www.nmfs.noaa.gov/pr/permits/incidental/construction.htm without change. All personal
identifying information (e.g., name, address) voluntarily submitted by
the commenter may be publicly accessible. Do not submit confidential
business information or otherwise sensitive or protected information.
FOR FURTHER INFORMATION CONTACT: Jaclyn Daly, Office of Protected
Resources, NMFS, (301) 427-8401. Electronic copies of the applications
and supporting documents, as well as a list of the references cited in
this document, may be obtained online at: www.nmfs.noaa.gov/pr/permits/incidental/construction.htm. In case of problems accessing these
documents, please call the contact listed above.
SUPPLEMENTARY INFORMATION:
Background
Sections 101(a)(5)(A) and (D) of the MMPA (16 U.S.C. 1361 et seq.)
direct the Secretary of Commerce to allow, upon request, the
incidental, but not intentional, taking of small numbers of marine
mammals by U.S. citizens who engage in a specified activity (other than
commercial fishing) within a specified geographical region if certain
findings are made and either regulations are issued or, if the taking
is limited to harassment, a notice of a proposed authorization is
provided to the public for review.
An authorization for incidental takings shall be granted if NMFS
finds that the taking will have a negligible impact on the species or
stock(s), will not have an unmitigable adverse impact on the
availability of the species or stock(s) for subsistence uses (where
relevant), and if the permissible methods of taking and requirements
pertaining to the mitigation, monitoring and reporting of such takings
are set forth.
NMFS has defined ``negligible impact'' in 50 CFR 216.103 as ``an
impact resulting from the specified activity that cannot be reasonably
expected to, and is not reasonably likely to, adversely affect the
species or stock through effects on annual rates of recruitment or
survival.''
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.
The MMPA states that the term ``take'' means to harass, hunt,
capture, kill or attempt to harass, hunt, capture, or kill any marine
mammal.
Except with respect to certain activities not pertinent here, the
MMPA defines ``harassment'' as: Any act of pursuit, torment, or
annoyance which (i) has the potential to injure a marine mammal or
marine mammal stock in the wild (Level A harassment); or (ii) has the
potential to disturb a marine mammal or marine mammal stock in the wild
by causing disruption of behavioral patterns, including, but not
limited to, migration, breathing, nursing, breeding, feeding, or
sheltering (Level B harassment).
National Environmental Policy Act
To comply with the National Environmental Policy Act of 1969 (NEPA;
42 U.S.C. 4321 et seq.) and NOAA Administrative Order (NAO)
[[Page 47701]]
216-6A, NMFS must review our proposed action with respect to
environmental consequences on the human environment.
Accordingly, NMFS has preliminarily determined that the issuance of
the proposed IHA qualifies to be categorically excluded from further
NEPA review. This action is consistent with categories of activities
identified in CE B4 of the Companion Manual for NOAA Administrative
Order 216-6A, which do not individually or cumulatively have the
potential for significant impacts on the quality of the human
environment and for which we have not identified any extraordinary
circumstances that would preclude this categorical exclusion.
We will review all comments submitted in response to this notice
prior to concluding our NEPA process or making a final decision on the
IHA request.
Summary of Request
On January 9, 2017, NMFS received a request from ADOT&PF for an IHA
to take marine mammals incidental to conducting improvements at the
Haines Ferry Terminal. On February 3, 2017, NMFS requested additional
information and ADOT&PF submitted a revised application on March 27,
2017, which NMFS deemed adequate and complete. However, after further
discussions, ADOT&PF submitted a final application on May 30, 2017, and
then subsequently sent a request on August 17, 2017, to change the
effective dates in the application to accommodate a delayed
construction schedule. ADOT&PF's request is for harassment only and
NMFS concurs that serious injury or mortality is not expected to result
from this activity. Therefore, an IHA is appropriate.
ADOT&PF's request is for take of humpback whale (Megaptera
novaeangliae), harbor seals (Phoca vitulina), harbor porpoise (Phocoena
phocoena), and Dall's porpoise (Phocoenoides dalli) by Level A and
Level B harassment, and an additional two species, Steller sea lion
(Eumetopias jubatus) and killer whale (Orcinus orca) by Level B
harassment only. Pile driving would occur for 19 days and pile removal
would take 2 additional days (total of 21 days) over the course of 4
months from October 1, 2018, through September 30, 2019, but excluding
March 1 through May 31, 2019. No subsequent IHA would be necessary to
complete the project.
Description of Proposed Activity
Overview
ADOT&PF is proposing to construct two new berths and associated
infrastructure adjacent at the existing Haines Ferry Terminal (see
Attachment 1 in ADOT&PF's application for project drawings). The
project includes impact and vibratory pile driving and vibratory pile
removal. Sounds resulting from pile driving and removal may result in
the incidental take of marine mammals by Level A and Level B harassment
up to approximately 4.78 and 21.1 square kilometers (km\2\),
respectively, around the terminal. The terminal is located in southeast
Alaska in Lutak Inlet.
Dates and Duration
The IHA would be valid from October 1, 2018, through September 30,
2019; however, pile driving and removal would occur for only 21 days
over the course of four months during this time period and work would
not occur from March 1 through May 31, 2019. ADOT&PF anticipates up to
1 hour of vibratory pile driving and 15 to 30 minutes of impact pile
driving per day.
Specified Geographic Region
The northern part of Lynn Canal braids into several inlets
including Chilkat, Chilkoot, Taiya and Lutak Inlets. Tanani Point marks
the confluence of Lutak Inlet and Chilkoot Inlet and is located
approximately one mile (mi) southeast of the terminal. The Terminal is
located near the mouth of Lutak Inlet, approximately four miles north
of the town of Haines, in northern Southeast Alaska at 59[deg]16'54''
N., 135[deg]27'44.6'' W. (see Figures 1-1 and 1-2 in ADOT's
application). At the terminal where pile driving may occur, Lutak Inlet
is approximately 1.3 miles (mi) wide and water depth ranges from 20-40
feet (ft; 6-9 meters (m)); however, water depth in Lynn Canal reaches
over 300 ft (91 m). Lutak Inlet is a glacial scoured fiord,
characterized by a typical U-shaped glacial valley. The sediment is
homogeneous, consisting of dark gray, silty gravel material, as well as
cobbles and boulders. Other than the terminal, the region is not
industrialized and is surrounded by several state parks and the Glacier
Bay National Park and Preserve.
Detailed Description of Specific Activities
The Terminal is a multi-use dock used by Alaska Marine Highway
Systems (AMHS) mainline and fast ferries, Alaska Marine Lines (AML)
(tug and barge), and Delta Western (tug and barge). It is the second
busiest AMHS port of call and can see up to four ferries coming and
going during any given day in summer. The AMHS provides a
transportation link for Alaska residents and businesses, as well as for
non-residents visiting the state.
The Haines Ferry Terminal Modification Project involves
constructing an AMHS End Berth Facility adjacent to the existing dock.
The expansion is necessary because the current configuration does not
allow for operation of the new Alaska Class vessels, which are expected
to be operational in 2018. Specifically, modification work includes
removing an existing structure and installing moorings, vehicle
transfer float, float restraint structures, steel transfer bridges and
associated abutment and bearing structure, berthing structures,
catwalks and gangways, and a pile-supported passenger waiting shelter.
The structure to be removed with a vibratory hammer is comprised of
four 30-inch (in) cylindrical steel pipe piles. To construct the new
infrastructure, ADOT&PF would install 37 new piles. Fifteen piles would
be 36-in diameter with 1 in. wall thickness. The remaining 22 piles
would be 30-in diameter and \3/4\ in thick. To minimize noise
propagation, the steel piles would be driven with a vibratory hammer,
as practicable, except for final proofing, which would require use of
an impact hammer. Based on previous pile driving work at the Terminal
in 2015, ADOT&PF anticipates each pile would require up 45 to 60
minutes of vibratory driving (to account for proper placement and
alignment of the pile) followed by an average of 700 strikes of the
impact hammer for a total average installation time of 60-90 minutes.
One pile driver would be used onsite; therefore, only one pile would be
installed at a time. A construction barge may be used during the
project to facilitate pile driving and removal; however, the barge
would be anchored.
All pile driving and removal would occur within 500 feet (152
meters) of the shoreline. Assuming two 30 in diameter piles could be
removed each day, pile removal would take two days. Pile driving the
30-in piles is expected to take 11 days while an additional 8 days
would be necessary to install the 36-in piles. In total, ADOT&PF would
be elevating noise levels around the project area for 21 days (two days
of pile removal plus 19 days of pile driving) of the 4 month
construction window (four months from October 1, 2018, through
September 30, 2019, excluding March 1, 2019 through May, 31 2019).
Other work for the project includes using a clamshell bucket dredge
to
[[Page 47702]]
remove sediment around the terminal. However, dredging is not
anticipated to result in the taking of marine mammals; therefore, this
activity will not be discussed further.
Proposed mitigation, monitoring, and reporting measures are
described in detail later in this document (please see the Proposed
Mitigation and Proposed Monitoring and Reporting sections).
Description of Marine Mammals in the Area of Specified Activities
Sections 3 and 4 of the application summarize available information
regarding status and trends, distribution and habitat preferences, and
behavior and life history, of the potentially affected species.
Additional information regarding population trends and threats may be
found in NMFS Stock Assessment Reports (SAR; www.nmfs.noaa.gov/pr/sars/
), and more general information about these species (e.g., physical and
behavioral descriptions) may be found on NMFS Web site
(www.nmfs.noaa.gov/pr/species/mammals/).
Table 1 lists all species with expected potential for occurrence in
Lynn Canal and summarizes information related to the population or
stock, including regulatory status under the MMPA and ESA and potential
biological removal (PBR), where known. For taxonomy, we follow
Committee on Taxonomy (2016). PBR is defined by the MMPA as the maximum
number of animals, not including natural mortalities, that may be
removed from a marine mammal stock while allowing that stock to reach
or maintain its optimum sustainable population (as described in NMFS
SARs). While no mortality is anticipated or authorized here, PBR and
annual serious injury and mortality from anthropogenic sources are
included here as gross indicators of the status of the species and
other threats.
Marine mammal abundance estimates presented in this document
represent the total number of individuals that make up a given stock or
the total number estimated within a particular study or survey area.
NMFS stock abundance estimates for most species represent the total
estimate of individuals within the geographic area, if known, that
comprises that stock. For some species, this geographic area may extend
beyond U.S. waters. All managed stocks in this region are assessed in
NMFS's U.S. Alaska SARs (Muto et al. 2017). All values presented in
Table 1 are the most recent available at the time of publication and
are available in the draft 2016 SARs (available online at:
www.nmfs.noaa.gov/pr/sars/draft.htm).
Three cetacean species have ranges near the terminal but are
unlikely to occur in the project area: The Pacific white-sided dolphin
(Lagenorhynchus obliquidens), gray whale (Eschrichtius robustus), and
minke whale (Balaenopera acutorostrata). The range of Pacific white-
sided dolphin is suggested to overlap with Lynn Canal (Angliss and
Allen, 2015), but no sightings have been documented in the project area
(Dahlheim et al. 2009, MOS 2016). Gray whale sightings in this northern
portion of Southeast Alaska are very rare; there have only been eight
sightings since 1997 (MOS 2016). These observations were made in the
lower portions of Lynn Canal and were not close to the Lutak Inlet/
upper Lynn Canal area. Finally, only one minke whale has been observed
in Taiya Inlet over the past five years (MOS 2016).
Table 1--Marine Mammals Potentially Present Within Upper Lynn Canal During the Specified Activity
--------------------------------------------------------------------------------------------------------------------------------------------------------
Stock abundance
Nbest, (CV, Nmin,
Common name Scientific name MMPA Stock ESA/MMPA status; most recent PBR Annual M/SI
Strategic (Y/N) \1\ abundance survey) \3\
\2\
--------------------------------------------------------------------------------------------------------------------------------------------------------
Order Cetartiodactyla--Cetacea--Superfamily Mysticeti (baleen whales)
--------------------------------------------------------------------------------------------------------------------------------------------------------
Family Balaenidae
--------------------------------------------------------------------------------------------------------------------------------------------------------
Humpback whale................... Megaptera Central North E, D,Y.............. 10,103 (0.3, 7,890, 83 24
novaeangliae. Pacific. 2006).
--------------------------------------------------------------------------------------------------------------------------------------------------------
Superfamily Odontoceti (toothed whales, dolphins, and porpoises)
--------------------------------------------------------------------------------------------------------------------------------------------------------
Family Delphinidae
--------------------------------------------------------------------------------------------------------------------------------------------------------
Killer whale..................... Orcinus orca........ Alaska Resident..... -, N................ 2,347 (N/A, 2,347, 24 1
2012) \4\.
Northern Resident... -, N................ 261 (N/A, 261, 1.96 0
2011) \4\.
Gulf of Alaska, -, N................ 587 (N/A, 587, 5.9 1
Aleutian Islands, 2012) \4\.
Bering Sea.
West Coast Transient -, N................ 243 (N/A, 243, 2.4 0
2009) \4\.
--------------------------------------------------------------------------------------------------------------------------------------------------------
Family Phocoenidae (porpoises)
--------------------------------------------------------------------------------------------------------------------------------------------------------
Harbor porpoise.................. Phocoena phocoena... Southeast Alaska.... -, Y................ 975 (0.10, 896, 8.9 \5\ 34
2012) \5\.
Dall's porpoise.................. Phocoenoides dalli.. Alaska.............. -,N................. 83,400 (0.097, N/A, Undet 38
1993).
--------------------------------------------------------------------------------------------------------------------------------------------------------
Order Carnivora--Superfamily Pinnipedia
--------------------------------------------------------------------------------------------------------------------------------------------------------
Family Otariidae (eared seals and sea lions)
--------------------------------------------------------------------------------------------------------------------------------------------------------
Steller sea lion................. Eumetopias jubatus.. Western U.S......... E, D; Y............. 49,497 (2014)...... 297 233
Eastern U.S......... -, D, Y............. 60,131-74,448 1,645 92.3
(2013).
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[[Page 47703]]
Family Phocidae (earless seals)
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Harbor seal...................... Phoca vitulina Lynn Canal/Stephens -, N................ 9,478 (8,605, 2011) 155 50
richardii. Passage.
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\1\ Endangered Species Act (ESA) status: Endangered (E), Threatened (T)/MMPA status: Depleted (D). A dash (-) indicates that the species is not listed
under the ESA or designated as depleted under the MMPA. Under the MMPA, a strategic stock is one for which the level of direct human-caused mortality
exceeds PBR or which is determined to be declining and likely to be listed under the ESA within the foreseeable future. Any species or stock listed
under the ESA is automatically designated under the MMPA as depleted and as a strategic stock.
\2\ NMFS marine mammal stock assessment reports online at: www.nmfs.noaa.gov/pr/sars/. CV is coefficient of variation; Nmin is the minimum estimate of
stock abundance. In some cases, CV is not applicable (N/A).
\3\ These values, found in NMFS's SARs, represent annual levels of human-caused mortality plus serious injury from all sources combined (e.g.,
commercial fisheries, ship strike). Annual M/SI often cannot be determined precisely and is in some cases presented as a minimum value or range. A CV
associated with estimated mortality due to commercial fisheries is presented in some cases.
\4\ N is based on counts of individual animals identified from photo-identification catalogs.
\5\ In the 2016 SAR for harbor porpoise, NMFS identified population estimates and PBR for porpoises within inland southeast Alaska waters (these
abundance estimates have not been corrected for g(0); therefore, they are likely conservative). The Annual M/SI value provided is for all Alaska
fisheries, not just inland waters of southeast Alaska.
Pinnipeds
Steller Sea Lion
Steller sea lion populations that primarily occur west of 144[deg]
W. (Cape Suckling, Alaska) comprise the western Distinct Population
Segment (wDPS), while all others comprise the eastern DPS (eDPS);
however, there is regular movement of both DPSs across this boundary
(Muto et al. 2017). Both of these populations may occur in the action
area. Steller sea lions were listed as threatened range-wide under the
ESA on 26 November 1990 (55 FR 49204). Steller sea lions were
subsequently partitioned into the western and eastern DPSs in 1997
(Muto et al. 2017), with the wDPS being listed as endangered under the
ESA and the eDPS remaining classified as threatened (62 FR 24345) until
it was delisted in November 2013. In August 1993, NMFS published a
final rule designating critical habitat for the Steller sea lion as a
20-nautical mile buffer around all major haul-outs and rookeries, as
well as associated terrestrial, air and aquatic zones, and three large
offshore foraging areas (50 CFR 226.202). There is no Steller sea lion
critical habitat in the action area.
In Lynn Canal, Steller sea lions are most likely part of the eDPS;
however, wDPS animals have moved into the area over the past several
years. The first western DPS Steller sea lion documented in Lynn Canal
occurred in 2003 at Benjamin Island in southern Lynn Canal
(approximately 97 km or 60 miles south from the Ferry Terminal and 40
km or 25 miles north of Juneau, Alaska). This animal was subsequently
re-sighted in 2003 and 2004. Two additional animals have been observed
at Benjamin Island in 2005 and 2006. The Alaska Department of Fish and
Game (ADF&G) has documented 88 western DPS Steller sea lions in the
eastern region, of which 40 percent were female, and nine of these
animals gave birth at rookeries in the eastern region. Data suggest
five out of these nine females have permanently immigrated to the
eastern region. Branded individuals from the western DPS have also been
observed at Gran Point located about 22.5 km (14 mi) southeast of the
project area. The eDPS stock has been increasing (Muto et al. 2017).
Pup counts for the wDPS have been decreasing; however, this could be
due to movement of adult females out of the region (suggesting some
level of permanent emigration) indicating that sea lions may have
responded to meso-scale (on the order of 100s of kilometers)
variability in their environment (Muto et al. 2017).
Steller sea lions use terrestrial haulout sites to rest and take
refuge. They also gather on well-defined, traditionally used rookeries
to pup and breed. These habitats are typically gravel, rocky, or sand
beaches; ledges; or rocky reefs (Allen and Angliss, 2013). Gran Point,
which is located 14 mi (22.5 km) southeast of the project area, is the
closest year-round Steller sea lion haulout. However, during the spring
eulachon run, a seasonal haulout site is located on Taiya Point at the
southern tip of Taiya Inlet (approximately 5 km or 3.1 mi from Haines
Terminal). The eulachon run (which occurs for approximately three to
four weeks during mid-March through May) in Lutak Inlet is extremely
important to Steller sea lions for seasonal foraging. These spawning
aggregations of forage fish provide densely aggregated, high-energy
prey for Steller sea lions (and harbor seals) for brief time periods
and influence haulout use (Sigler et al. 2004; Womble et al. 2005;
Womble and Sigler 2006). The pre-spawning aggregations and spawning
season for many forage fish species occur between March and May in
Southeast Alaska just prior to the breeding season of sea lions
(Pitcher et al. 2001; Womble and Sigler 2006). After May, Steller sea
lion presence in the action area declines (see section 4.2 in ADOT&PF's
application for more detailed information on fish runs and
corresponding Steller sea lion presence).
Steller sea lions are included in subsistence harvests. From 2011-
2012, an average of 50 animals from this stock were harvested each
year, which is higher than previous estimates of 30 animals, on
average, per year from 2004-2008 (Muto and Angliss, 2015). Incidental
entanglement in fishing gear and marine debris is the biggest
contributor to their annual human-caused mortality rate. In addition,
since 2012, known cases of intentional mortality (e.g., gunshot,
explosives) have also contributed to this rate with an average of 15
animals per year from 2012 through 2015 (Muto et al. 2016).
Harbor Seal
Harbor seals generally are nonmigratory, with local movements
associated with such factors as tides, weather, season, food
availability, and reproduction (Scheffer and Slipp 1944, Fisher 1952,
Bigg 1969, 1981, Hastings et al. 2004).
Harbor seals are included in subsistence harvests. From 2011-2012,
[[Page 47704]]
an average of 50 seals from the Lynn Canal/Stephens Passage stock were
harvested each year, which is higher than previous estimates of 30
animals, on average, per year from 2004-2008 (Muto et al. 2017).
Entanglement is the biggest contributor to their annual human-caused
mortality. Lynn Canal/Stephens Passage harbor seals are not listed as
depleted or strategic under the MMPA and are not listed under the ESA.
Cetaceans
Humpback Whale
Under the MMPA, there are three stocks of humpback whales in the
North Pacific: (1) The California/Oregon/Washington and Mexico stock,
consisting of winter/spring populations in coastal Central America and
coastal Mexico which migrate to the coast of California to southern
British Columbia in summer/fall (Calambokidis et al. 1989, Steiger et
al. 1991, Calambokidis et al. 1993); (2) the central North Pacific
stock, consisting of winter/spring populations of the Hawaiian Islands
which migrate primarily to northern British Columbia/Southeast Alaska,
the Gulf of Alaska, and the Bering Sea/Aleutian Islands (Perry et al.
1990, Calambokidis et al. 1997); and (3) the western North Pacific
stock, consisting of winter/spring populations off Asia which migrate
primarily to Russia and the Bering Sea/Aleutian Islands. The central
North Pacific stock is the only stock that is found near the project
activities.
On September 8, 2016, NMFS published a final decision changing the
status of humpback whales under the ESA (81 FR 62259), effective
October 11, 2016. Previously, humpback whales were listed under the ESA
as an endangered species worldwide. In the 2016 decision, NMFS
recognized the existence of 14 DPSs, classified four of those as
endangered and one as threatened, and determined that the remaining
nine DPSs do not warrant protection under the ESA. WNP DPS whales do
not occur in Southeast Alaska. Whales from the Mexico DPS, which is a
threatened species, have a 6.1 percent probability of occurrence in
Southeast Alaska. Humpback whales in Southeast Alaska are most likely
to be from the Hawaii DPS (93.9 percent probability), which is not
protected under the ESA.
Humpback whales are not common in the action area but, if they are
sighted, are generally present during mid- to late spring (mid-May
through June) and vacate the area by July to follow large aggregations
of forage fish in lower Lynn Canal. However, in recent years humpback
whales have been observed at the entrance to Taiya Inlet throughout the
fall months (MOS 2016). Four to five whales were observed in the area
from spring 2015 to November (MOS 2016).
Killer Whale
Based on data regarding association patterns, acoustics, movements,
and genetic differences, eight killer whale stocks are now recognized:
(1) The Alaska Resident stock; (2) the Northern Resident stock; (3) the
Southern Resident stock; (4) the Gulf of Alaska, Aleutian Islands, and
Bering Sea Transient stock; (5) the AT1 Transient stock; (6) the West
Coast transient stock, occurring from California through southeastern
Alaska; and (7) the Offshore stock, and (8) the Hawaiian stock. Only
the Alaska resident; Northern resident; Gulf of Alaska, Aleutian
Islands, and Bering Sea Transient (Gulf of Alaska transient); and the
West coast transient stocks are considered in this application because
other stocks occur outside the geographic area under consideration. Any
of these four stocks could be seen in the action area; however, the
Northern resident stock is most likely to occur in the area.
The Alaska resident stock is found from southeastern Alaska to the
Aleutian Islands and Bering Sea. Intermixing of Alaska residents have
been documented among the three areas, at least as far west as the
eastern Aleutian Islands (Allen and Angliss, 2013). The Northern
resident stock occurs from Washington State through part of
southeastern Alaska. The Northern Resident stock is a transboundary
stock and includes killer whales that frequent British Columbia, Canada
and southeastern Alaska (Dahlheim et al., 1997; Ford et al., 2000). The
Gulf of Alaska transient stock occurs mainly from Prince William Sound
through the Aleutian Islands and Bering Sea. The West coast transient
stock includes animals that occur in California, Oregon, Washington,
British Columbia and southeastern Alaska.
Transient killer whales occur in smaller, less matrilineal
groupings than resident killer whales. They are also more likely to
rely on stealth tactics when foraging, making fewer and less
conspicuous calls, and edging along shorelines and around headlands in
order to hunt their prey, including, Steller sea lions, harbor seals,
and smaller cetaceans, in highly coordinated attacks (Barrett-Lennard
et al. 2011). Residents often travel in much larger and closer knit
groups within which they share any fish they catch.
Data from Lutak Inlet suggests that a small number of killer whales
infrequently enter the inlet, generally during spring fish runs when
large aggregations of pinnipeds are also present (K. Hastings, pers.
comm.). Up to 15 to 20 killer whales have been observed in Taiya Inlet
4 to 5 times a year from early spring through fall (MOS 2016).
Transient killer whales have also been observed in Lutak Inlet in front
of the Terminal when sea lions are present (K. Hastings, pers. comm.),
presumably following their preferred food source. The mean group size
of four to six animals documented by Dahlheim et al. (2009) is
consistent with 4 to 5 sightings of up to 20 whales outside Taiya (MOS
2016) and Lutak Inlets.
Harbor Porpoise
In Alaska, harbor porpoises are currently divided into three
stocks, based primarily on geography. These are (1) the Southeast
Alaska stock--occurring from the northern border of British Columbia to
Cape Suckling, Alaska, (2) the Gulf of Alaska stock--occurring from
Cape Suckling to Unimak Pass, and (3) the Bering Sea stock--occurring
throughout the Aleutian Islands and all waters north of Unimak Pass
(Allen and Angliss 2014). Only the Southeast Alaska stock is considered
in this application because the other stocks are not found in the
geographic area under consideration. The total estimated annual level
of human-caused mortality and serious injury (M/SI) for harbor porpoise
in Alaska (n=34) exceeds the calculated PBR of 8.9 harbor porpoise.
However, this calculated PBR is based on the minimum population
estimate for harbor porpoise in inland waters of southeast Alaska only
(n=896) while the annual level of human caused M/SI is derived from
take in all fisheries throughout Alaska. Therefore, PBR represents the
total amount of animals that can be removed from all harbor porpoise
stocks in Alaska combined. No mortality or serious injury of harbor
porpoise from the Southeast Alaska stock has been observed incidental
to U.S. commercial fisheries in Alaska in 2010-2014 (Breiwick 2013; MML
unpubl. data). Population trends and status of this stock relative to
its optimum sustainable population are currently unknown.
In Lynn Canal, observations of harbor porpoise are not frequent and
occur primarily in lower Lynn Canal; however, the species has been
observed as far north as Haines during the
[[Page 47705]]
summer surveys (Dahlheim et al. 2009). At the Haines Ferry Terminal,
one small pod of harbor porpoise were observed on September 22, 2015
(ADOT&PF 2015). In addition, approximately 30 individuals have been
observed in multiple groups of two or three, from spring through fall
(MOS 2016).
There are no subsistence use of this species; however, entanglement
in fishing gear contributes to human-caused mortality and serious
injury. Muto et al. (2016) also reports harbor porpoise are vulnerable
to physical modifications of nearshore habitats resulting from urban
and industrial development (including waste management and nonpoint
source runoff) and activities such as construction of docks and other
over-water structures, filling of shallow areas, dredging, and noise
(Linnenschmidt et al. 2013).
Dall's Porpoise
Currently one stock of Dall's porpoise is recognized in Alaskan
waters (Muto et al. 2015). Dall's porpoise have not been observed in
the waters of Lutak Inlet immediately adjacent to the Terminal but may
be present in northern Lynn Canal. Local observers have observed only
three to six Dall's porpoises in Taiya Inlet during the early spring
and late fall (MOS 2016).
At present, there is no reliable information on trends in abundance
for the Alaska stock of Dall's porpoise (Muto et al. 2015). From 2009
to 2013, no mortality or serious injury of Dall's porpoise was reported
to the NMFS Alaska. There are also no subsistence uses of this species
(Muto et al. 2015). Dall's porpoise are vulnerable to physical
modifications of nearshore habitats resulting from urban and industrial
development, including waste management and nonpoint source runoff) and
noise (Linnenschmidt et al. 2013).
Marine Mammal Hearing
Hearing is the most important sensory modality for marine mammals
underwater, and exposure to anthropogenic sound can have deleterious
effects. To appropriately assess the potential effects of exposure to
sound, it is necessary to understand the frequency ranges marine
mammals are able to hear. Current data indicate that not all marine
mammal species have equal hearing capabilities (e.g., Richardson et
al., 1995; Wartzok and Ketten, 1999; Au and Hastings, 2008). To reflect
this, Southall et al. (2007) recommended that marine mammals be divided
into functional hearing groups based on directly measured or estimated
hearing ranges on the basis of available behavioral response data,
audiograms derived using auditory evoked potential techniques,
anatomical modeling, and other data. Note that no direct measurements
of hearing ability have been successfully completed for mysticetes
(i.e., low-frequency cetaceans). Subsequently, NMFS (2016) described
generalized hearing ranges for these marine mammal hearing groups.
Generalized hearing ranges were chosen based on the approximately 65
decibels (dB) threshold from the normalized composite audiograms, with
the exception for lower limits for low-frequency cetaceans where the
lower bound was deemed to be biologically implausible and the lower
bound from Southall et al. (2007) retained. The functional groups and
the associated frequencies are indicated below (note that these
frequency ranges correspond to the range for the composite group, with
the entire range not necessarily reflecting the capabilities of every
species within that group):
Low-frequency cetaceans (mysticetes): generalized hearing
is estimated to occur between approximately 7 hertz (Hz) and 35
kilohertz (kHz);
Mid-frequency cetaceans (larger toothed whales, beaked
whales, and most delphinids): Generalized hearing is estimated to occur
between approximately 150 Hz and 160 kHz;
High-frequency cetaceans (porpoises, river dolphins, and
members of the genera Kogia and Cephalorhynchus; including two members
of the genus Lagenorhynchus, on the basis of recent echolocation data
and genetic data): Generalized hearing is estimated to occur between
approximately 275 Hz and 160 kHz;
Pinnipeds in water; Phocidae (true seals): generalized
hearing is estimated to occur between approximately 50 Hz to 86 kHz;
and
Pinnipeds in water; Otariidae (eared seals): generalized
hearing is estimated to occur between 60 Hz and 39 kHz.
The pinniped functional hearing group was modified from Southall et
al. (2007) on the basis of data indicating that phocid species have
consistently demonstrated an extended frequency range of hearing
compared to otariids, especially in the higher frequency range
(Hemil[auml] et al., 2006; Kastelein et al., 2009; Reichmuth and Holt,
2013).
For more detail concerning these groups and associated frequency
ranges, please see NMFS (2016) for a review of available information.
Six marine mammal species (four cetacean and two pinniped (one otariid
and one phocid) species) have the reasonable potential to co-occur with
the proposed survey activities. Of the cetacean species that may be
present, one is classified as a low-frequency cetacean (i.e., all
mysticete species), one is classified as a mid-frequency cetacean
(i.e., all delphinid and ziphiid species and the sperm whale), and two
are classified as high-frequency cetaceans (i.e., porpoise and Kogia
spp.).
Potential Effects of Specified Activities on Marine Mammals and Their
Habitat
This section includes a summary and discussion of the ways that
components of the specified activity may impact marine mammals and
their habitat. The ``Estimated Take by Incidental Harassment'' section
later in this document will include a quantitative analysis of the
number of individuals that are expected to be taken by this activity.
The ``Negligible Impact Analysis and Determination'' section will
consider the content of this section, the ``Estimated Take by
Incidental Harassment'' section, and the ``Proposed Mitigation''
section, to draw conclusions regarding the likely impacts of these
activities on the reproductive success or survivorship of individuals
and how those impacts on individuals are likely to impact marine mammal
species or stocks.
The introduction of anthropogenic noise into the aquatic
environment from pile driving and removal is the primary means by which
marine mammals may be harassed from ADOT&PF's specified activity.
Animals exposed to natural or anthropogenic sound may experience
physical and psychological effects, ranging in magnitude from none to
severe (Southall et al. 2007). In general, exposure to pile driving
noise has the potential to result in auditory threshold shifts and
behavioral reactions (e.g., avoidance, temporary cessation of foraging
and vocalizing, changes in dive behavior). Exposure to anthropogenic
noise can also lead to non-observable physiological responses such an
increase in stress hormones. Additional noise in a marine mammal's
habitat can mask acoustic cues used by marine mammals to carry out
daily functions such as communication and predatory and prey detection.
The effects of pile driving noise on marine mammals are dependent on
several factors, including, but not limited to, sound type (e.g.,
impulsive vs. non-impulsive), the species, age and sex class (e.g.,
adult male vs. mom with calf), duration of exposure, the distance
between the pile and the animal, received levels, behavior at time of
exposure, and previous history with exposure (Southall et al., 2007,
Wartzok et al.
[[Page 47706]]
2004). Here we discuss physical auditory effects (threshold shifts)
followed by behavioral effects and potential impacts on habitat.
NMFS defines a noise-induced threshold shift (TS) as ``a change,
usually an increase, in the threshold of audibility at a specified
frequency or portion of an individual's hearing range above a
previously established reference level'' (NMFS, 2016). The amount of
threshold shift is customarily expressed in dB (ANSI 1995, Yost 2007).
A TS can be permanent or temporary. As described in NMFS (2016), there
are numerous factors to consider when examining the consequence of TS,
including, but not limited to, the signal temporal pattern (e.g.,
impulsive or non-impulsive), likelihood an individual would be exposed
for a long enough duration or to a high enough level to induce a TS,
the magnitude of the TS, time to recovery (seconds to minutes or hours
to days), the frequency range of the exposure (i.e., spectral content),
the hearing and vocalization frequency range of the exposed species
relative to the signal's frequency spectrum (i.e., how animal uses
sound within the frequency band of the signal; e.g., Kastelein et al.
2014b), and the overlap between the animal and the source (e.g.,
spatial, temporal, and spectral). When analyzing the auditory effects
of noise exposure, it is often helpful to broadly categorize sound as
either impulsive--noise with high peak sound pressure, short duration,
fast rise-time, and broad frequency content--or non-impulsive. When
considering auditory effects, vibratory pile driving is considered to
be non-impulsive source while impact pile driving is treated as an
impulsive source.
Permanent Threshold Shift (PTS)--NMFS defines PTS as a permanent,
irreversible increase in the threshold of audibility at a specified
frequency or portion of an individual's hearing range above a
previously established reference level (NMFS, 2016). Available data
from humans and other terrestrial mammals indicate that a 40 dB
threshold shift approximates PTS onset (see Ward et al. 1958, 1959;
Ward 1960; Kryter et al. 1966; Miller 1974; Ahroon et al. 1996;
Henderson et al. 2008).
With the exception of a single study unintentionally inducing PTS
in a harbor seal (Kastak et al., 2008), there are no empirical data
measuring PTS in marine mammals largely due to the fact that, for
various ethical reasons, experiments involving anthropogenic noise
exposure at levels inducing PTS are not typically pursued or authorized
(NMFS, 2016).
Temporary Threshold Shift (TTS)--A temporary, reversible increase
in the threshold of audibility at a specified frequency or portion of
an individual's hearing range above a previously established reference
level (NMFS, 2016). Based on data from cetacean TTS measurements (see
Southall et al. 2007 for a review), a TTS of 6 dB is considered the
minimum threshold shift clearly larger than any day-to-day or session-
to-session variation in a subject's normal hearing ability (Schlundt et
al. 2000; Finneran et al. 2000; Finneran et al. 2002). As described in
Finneran (2016), marine mammal studies have shown the amount of TTS
increases with cumulative sound exposure level (SELcum) in
an accelerating fashion: At low exposures with lower SELcum,
the amount of TTS is typically small and the growth curves have shallow
slopes. At exposures with higher higher SELcum, the growth
curves become steeper and approach linear relationships with the noise
SEL.
Depending on the degree (elevation of threshold in dB), duration
(i.e., recovery time), and frequency range of TTS, and the context in
which it is experienced, TTS can have effects on marine mammals ranging
from discountable to serious (similar to those discussed in auditory
masking, below). For example, a marine mammal may be able to readily
compensate for a brief, relatively small amount of TTS in a non-
critical frequency range that takes place during a time when the animal
is traveling through the open ocean, where ambient noise is lower and
there are not as many competing sounds present. Alternatively, a larger
amount and longer duration of TTS sustained during time when
communication is critical for successful mother/calf interactions could
have more serious impacts. We note that reduced hearing sensitivity as
a simple function of aging has been observed in marine mammals, as well
as humans and other taxa (Southall et al., 2007), so we can infer that
strategies exist for coping with this condition to some degree, though
likely not without cost.
The potential for TTS from impact pile driving exists. After
exposure to playbacks of impact pile driving sounds (rate 2760 strikes/
hour) in captivity, mean TTS increased from 0 dB after 15 minute
exposure to 5 dB after 360 minute exposure; recovery occurred within 60
minute (Kastelein et al. 2016). However, one must consider duration of
exposure in the field. Installing piles at the Haines terminal requires
700 strikes per pile (average 15 minutes) with re-set time and one hour
of vibratory pile driving before impact driving the second pile. Given
marine mammals are likely moving through the action area and not
remaining for extended periods of time, the potential for TTS declines.
Behavioral Harassment
Exposure to noise from pile driving and removal also has the
potential to behavioral disturb marine mammals. Disturbance may result
in changing durations of surfacing and dives, number of blows per
surfacing, or moving direction and/or speed; reduced/increased vocal
activities; changing/cessation of certain behavioral activities (such
as socializing or feeding); visible startle response or aggressive
behavior (such as tail/fluke slapping or jaw clapping); avoidance of
areas where sound sources are located. Pinnipeds may increase their
haul-out time, possibly to avoid in-water disturbance (Thorson and
Reyff, 2006). These potential behavioral responses to sound are highly
variable and context-specific and reactions, if any, depend on species,
state of maturity, experience, current activity, reproductive state,
auditory sensitivity, time of day, and many other factors (Richardson
et al., 1995; Wartzok et al., 2003; Southall et al., 2007). For
example, animals that are resting may show greater behavioral change in
response to disturbing sound levels than animals that are highly
motivated to remain in an area for feeding (Richardson et al., 1995;
NRC, 2003; Wartzok et al., 2003).
If a marine mammal does react to an underwater sound by changing
its behavior or moving a small distance, the impacts of that change may
not be important to the individual, the stock, or the species as a
whole. However, if a sound source displaces marine mammals from an
important feeding or breeding area for a prolonged period, impacts on
the animals could be important. In general, pinnipeds seem more
tolerant of, or at least habituate more quickly to, potentially
disturbing underwater sound than do cetaceans, and generally seem to be
less responsive to exposure to industrial sound than most cetaceans.
In 2016, ADOT&PF documented observations of marine mammals during
construction activities (i.e., pile driving and down-hole drilling) at
the Kodiak Ferry Dock (see 80 FR 60636 for Final IHA Federal Register
notice). In the marine mammal monitoring report for that project (ABR
2016), 1,281 Steller sea lions were observed within the Level B
disturbance zone during pile driving or drilling (i.e., documented as
Level B take). Of these, 19 individuals demonstrated an alert behavior,
7 were
[[Page 47707]]
fleeing, and 19 swam away from the project site. All other animals (98
percent) were engaged in activities such as milling, foraging, or
fighting and did not change their behavior. In addition, two sea lions
approached within 20 meters of active vibratory pile driving
activities. Three harbor seals were observed within the disturbance
zone during pile-driving activities; none of them displayed disturbance
behaviors. Fifteen killer whales and three harbor porpoise were also
observed within the Level B harassment zone during pile driving. The
killer whales were travelling or milling while all harbor porpoises
were travelling. No signs of disturbance were noted for either of these
species. Given the similarities in activities and habitat and the fact
the same species are involved, we expect similar behavioral responses
of marine mammals to the specified activity. That is, disturbance, if
any, is likely to be temporary and localized (e.g., small area
movements).
Masking and Acoustic Habitat
Masking is the obscuring of sounds of interest to an animal by
other sounds, typically at similar frequencies. It may be caused by
both natural (e.g., wind, waves, other animals) or anthropogenic (e.g.,
pile driving) sources. Marine mammals are highly dependent on sound,
and their ability to recognize sound signals amid other sound is
important in communication and detection of both predators and prey.
Masking may partially or entirely reduce the audibility of acoustic
signals (Southall et al. 2007). Background ambient sound may interfere
with or mask the ability of an animal to detect a sound signal even
when that signal is above its absolute hearing threshold.
Masking of natural sounds can result when human activities produce
high levels of background sound at frequencies important to marine
mammals. Conversely, if the background level of underwater sound is
high (e.g., on a day with strong wind and high waves), an anthropogenic
sound source would not be detectable as far away as would be possible
under quieter conditions and would itself be masked. Masking is also
likely to result in more severe consequences when continuous. At the
Haines terminal, pile driving is intermittent. That is, vibratory
hammering would occur for approximately one hour followed by a break
before impact hammering to allow changes in equipment. There would also
be another delay before driving the second pile. Further, pile driving
would not occur for multiple consecutive days but instead would be
spaced out over 19 days (plus 2 days for pile removal) over the course
of approximately four months. Therefore, while masking may occur if a
marine mammal if a marine mammal is in the terminal area, it would be
of short duration. In addition, ADOT&PF would conduct pile driving
outside of important foraging times (i.e., spring echelon runs) the
action area does not support key reproduction or other vital areas.
Therefore, the impact of masking is likely to be minimal.
Marine Mammal Habitat Effects
Construction activities at the Haines Ferry terminal could have
localized, temporary impacts on marine mammal habitat and their prey by
increasing in-water sound pressure levels and slightly decreasing water
quality. Increased noise levels may adversely affect marine mammal prey
in the vicinity of the project area. During impact pile driving,
elevated levels of underwater noise would ensonify across Lutak Inlet
where both fish and mammals occur and could affect foraging success.
ADOT&PF would avoid pile driving during the more critical months (March
1 through May 31) when ephemeral fish run in the inlet, thereby
avoiding the greatest densities of marine mammals.
In-water pile driving, pile removal, and dredging activities would
also cause short-term effects on water quality due to increased
turbidity. Dredging is likely to cause the greatest increase in
suspended solids; however, turbidity plumes created is localized to
about 7.6 m (25 ft) and could last from a few minutes to several hours.
Any contaminants associated with the re-suspended sediments would be
tightly bound to the sediment matrix. Because of the relatively small
dredge area, turbidity plumes would be limited to the immediate
vicinity of the terminal and adjacent portion of the inlet. ADOT&PF
would employ standard construction best management practices (BMPs; see
section 9 and 11.1 in ADOT's application), thereby, reducing any
impacts. Therefore, the impact from increased turbidity levels is
expected to be discountable.
Estimated Take
This section provides an estimate of the number of incidental takes
proposed for authorization through this IHA, which will inform both
NMFS' consideration of whether the number of takes is small and the
negligible impact determination.
Harassment is the only type of take expected to result from these
activities. Except with respect to certain activities not pertinent
here, section 3(18) of the MMPA defines ``harassment'' as: Any act of
pursuit, torment, or annoyance which (i) has the potential to injure a
marine mammal or marine mammal stock in the wild (Level A harassment);
or (ii) has the potential to disturb a marine mammal or marine mammal
stock in the wild by causing disruption of behavioral patterns,
including, but not limited to, migration, breathing, nursing, breeding,
feeding, or sheltering (Level B harassment).
Authorized takes would primarily be by Level B harassment, as use
of the impact and vibratory hammers has the potential to result in
disruption of behavioral patterns and/or TTS for individual marine
mammals. Impact pile driving may also result in auditory injury (Level
A harassment) for mysticetes, high frequency cetaceans, and phocids due
to modeled auditory injury zones based on exposure to noise from
installing two piles per day. However, there are multiple hours between
impact pile driving each pile; therefore, these zones are conservative
as animals are not known to linger in the area. Therefore, PTS
potential is low and, if occurs, would likely be minimal (e.g., PTS
onset). Auditory injury is not expected for mid-frequency species and
otariids as the accumulation of energy does not reach NMFS' PTS
thresholds. The death of a marine mammal is also a type of incidental
take. However, as described previously, no mortality is anticipated or
proposed to be authorized for this activity. Below we describe how the
take is estimated.
Described in the most basic way, we estimate take by considering:
(1) Acoustic thresholds above which NMFS believes the best available
science indicates marine mammals may be behaviorally harassed or incur
some degree of permanent hearing impairment; (2) the area or volume of
water that will be ensonified above these levels in a day; (3) the
density or occurrence of marine mammals within these ensonified areas;
and, (4) the number of days of activities. Below, we describe these
components in more detail and present the proposed take estimate.
Acoustic Thresholds
Using the best available science, NMFS has developed acoustic
thresholds that identify the received level of underwater sound above
which exposed marine mammals would be reasonably expected to be
behaviorally harassed (equated to Level B harassment) or to incur PTS
of some degree (equated to Level A harassment).
Level B Harassment for non-explosive sources--Though significantly
driven by received level, the onset of behavioral
[[Page 47708]]
disturbance from anthropogenic noise exposure is also informed to
varying degrees by other factors related to the source (e.g.,
frequency, predictability, duty cycle), the environment (e.g.,
bathymetry), and the receiving animals (e.g., hearing, motivation,
experience, demography, behavioral context) making effects difficult to
predict (Southall et al., 2007, Ellison et al., 2011). Based on what
the available science indicates and the practical need to use a
threshold based on a factor that is both predictable and measurable for
most activities, NMFS uses a generalized acoustic threshold based on
received level to estimate the onset of behavioral harassment. NMFS
predicts that marine mammals are likely to be behaviorally harassed in
a manner we consider Level B harassment when exposed to underwater
anthropogenic noise above received levels of 120 dB re 1 microPascal
([mu]Pa) root mean square (rms) for continuous (e.g. vibratory pile-
driving, drilling) and above 160 dB re 1 [mu]Pa (rms) for non-explosive
impulsive (e.g., seismic airguns, impact pile driving) or intermittent
(e.g., scientific sonar) sources. ADOT&PF includes the use of
continuous (vibratory pile driving) and impulsive (impact pile
driving); therefore, the 120 and 160 dB re 1 [mu]Pa (rms) thresholds
are applicable.
Level A harassment for non-explosive sources--NMFS' Technical
Guidance for Assessing the Effects of Anthropogenic Sound on Marine
Mammal Hearing (Technical Guidance, 2016) identifies dual criteria to
assess auditory injury (Level A harassment) for five different marine
mammal groups (based on hearing sensitivity) as a result of exposure to
noise from two different types of sources (impulsive or non-impulsive).
These thresholds were developed by compiling and synthesizing the
best available science and soliciting input multiple times from both
the public and peer reviewers to inform the final product, and are
provided in Table 2. The references, analysis, and methodology used in
the development of the thresholds are described in NMFS 2016 Technical
Guidance, which may be accessed at: https://www.nmfs.noaa.gov/pr/acoustics/guidelines.htm.
Table 2--Thresholds Identifying the Onset of Permanent Threshold Shift
----------------------------------------------------------------------------------------------------------------
PTS onset acoustic thresholds * (received level)
Hearing group ------------------------------------------------------------------------
Impulsive Non-impulsive
----------------------------------------------------------------------------------------------------------------
Low-Frequency (LF) Cetaceans........... Cell 1: Lpk,flat: 219 dB; Cell 2: LE,LF,24h: 199 dB.
LE,LF,24h: 183 dB.
Mid-Frequency (MF) Cetaceans........... Cell 3: Lpk,flat: 230 dB; Cell 4: LE,MF,24h: 198 dB.
LE,MF,24h: 185 dB.
High-Frequency (HF) Cetaceans.......... Cell 5: Lpk,flat: 202 dB; Cell 6: LE,HF,24h: 173 dB.
LE,HF,24h: 155 dB.
Phocid Pinnipeds (PW) (Underwater)..... Cell 7: Lpk,flat: 218 dB; Cell 8: LE,PW,24h: 201 dB.
LE,PW,24h: 185 dB.
Otariid Pinnipeds (OW) (Underwater).... Cell 9: Lpk,flat: 232 dB; Cell 10: LE,OW,24h: 219 dB.
LE,OW,24h: 203 dB.
----------------------------------------------------------------------------------------------------------------
* Dual metric acoustic thresholds for impulsive sounds: Use whichever results in the largest isopleth for
calculating PTS onset. If a non-impulsive sound has the potential of exceeding the peak sound pressure level
thresholds associated with impulsive sounds, these thresholds should also be considered.
Note: Peak sound pressure (Lpk) has a reference value of 1 [mu]Pa, and cumulative sound exposure level (LE) has
a reference value of 1[mu]Pa2s. In this Table, thresholds are abbreviated to reflect American National
Standards Institute standards (ANSI 2013). However, peak sound pressure is defined by ANSI as incorporating
frequency weighting, which is not the intent for this Technical Guidance. Hence, the subscript ``flat'' is
being included to indicate peak sound pressure should be flat weighted or unweighted within the generalized
hearing range. The subscript associated with cumulative sound exposure level thresholds indicates the
designated marine mammal auditory weighting function (LF, MF, and HF cetaceans, and PW and OW pinnipeds) and
that the recommended accumulation period is 24 hours. The cumulative sound exposure level thresholds could be
exceeded in a multitude of ways (i.e., varying exposure levels and durations, duty cycle). When possible, it
is valuable for action proponents to indicate the conditions under which these acoustic thresholds will be
exceeded.
Ensonified Area
Here, we describe operational and environmental parameters of the
activity that will feed into identifying the area ensonified above the
acoustic thresholds.
ADOT&PF prepared an acoustic modeling report that discusses their
modeling approach and identifies modeled source levels and harassment
zones for the Haines Ferry Terminal project (Quijano et al., 2016). A
summary of the methods of the modeling effort is presented here; the
full report is available at https://www.nmfs.noaa.gov/pr/permits/incidental/construction.htm.
To assess potential underwater noise exposure of marine mammals
during pile driving, ADOT&PF used two models: A Pile Driving Source
Model (PDSM) to estimate the sound radiation generated by the pile
driver acting upon the pile (i.e., source levels), and a Full Waveform
Range-dependent Acoustic Model (FWRAM) to simulate sound propagation
away from the pile. The modeling considered the effect of pile driving
equipment, bathymetry, water sound speed profile, and seabed
geoacoustic parameters to predict the acoustic footprint from impact
and vibratory pile driving of cylindrical pipe piles with respect to
NMFS Level A and Level B thresholds. The report presents scenarios in
which one pile or two piles are driven per day; however, for purposes
here, NMFS considered only the two pile scenario since ADOT&PF has
indicated that up to two piles could be driven per day. The resulting
Level A harassment distances represent the location at which an animal
would remain for the entire duration it takes to drive one pile, reset,
and then drive another pile that, in reality, occurs over multiple
hours in one day. The Level B isopleth distances represent
instantaneous exposure to the Level B harassment criterion.
To model sounds resulting from impact and vibratory pile driving of
30-in and 36-in cylindrical pipe pipes, the PDSM was used in
conjunction with GRL Engineer's Wave Equation Analysis Program
(GRLWEAP) pile driving simulation software to obtain an equivalent pile
source signature (i.e., source level) consisting of a vertical array of
discrete point sources (Table 3). This signature accounts for several
parameters that describe the operation: Pile type, material, size, and
length; the pile driving equipment; and approximate pile penetration
rate. The amplitude and phase of the point sources along the array were
computed so that they collectively mimicked the time-frequency
characteristics of the acoustic wave at the pile wall that results from
a hammer strike (impact driving) or from forced vibration (vibratory
driving) at the top end of the pile. This approach estimates spectral
levels within the band 10-800 Hz where
[[Page 47709]]
most of the energy from pile driving is concentrated. An extrapolation
method (Zykov et al. 2016) was used to extend modeled levels in 1/3-
octave-bands up to 25 kHz, by applying a -2 dB per 1/3-octave-band
roll-off coefficient to the SEL value starting at the 800 Hz band. This
was done to estimate the acoustic energy at higher frequencies to
compare to NMFS thresholds.
Once the pile source signature was computed, the FWRAM sound
propagation modeling code was used to determine received levels as a
function of depth, range, and azimuth direction. FWRAM is a time-domain
acoustic model that used, as input, the PDSM-generated array of point
sources representing the pile and computes synthetic pressure
waveforms. To exclude sound field outliers, NMFS uses the maximum range
at which the given sound level was encountered after excluding 5
percent of the farthest such points (R95%) to estimate
harassment threshold distances. To account for hearing groups, full-
spectrum frequency-dependent weighting functions were applied at each
frequency. The model also showed the transition from down-slope to up-
slope propagation as the sound crosses Lutak Inlet, resulting in a
sound field that decays at a constant rate with range.
Steel cylindrical pipe piles 41 m (135 ft) long with \1/2\ in thick
walls were modeled for a total penetration of 14 m (46 ft) into the
sediment. In the case of vibratory pile driving, both pile sizes were
assumed to be driven by an ICE-44B vibratory pile driver. For impact
pile driving, the parameters corresponding to the Delmag D30-32 and
D36-32 impact pile drivers were used to model scenarios with 30-in and
36-in diameter piles, respectively. Sound energy was accumulated over a
specified number of hammer strikes, not as a function of time. The
number of strikes required to install a single pile (assumed to be 700
strikes per pile) was estimated based on pile driving logs from another
pile driving project at Haines. Sound footprints were calculated for
the installation of two piles (thus, accumulated over 1400 strikes).
For vibratory pile driving, sound energy was accumulated for the two
piles that could be installed or removed in a 24-hour period.
Modeled source levels and distances to NMFS acoustic thresholds
based on these source levels and the sound propagation model are
presented in Table 3 and 4.
Table 3--Impact Pile Driving: Modeled Source Levels and Harassment Zones for Impact Driving Two Piles per Day
[A dash indicates the threshold was not reached*]
----------------------------------------------------------------------------------------------------------------
Level A
threshold Level A Level B (160 Level B
Hearing group distance threshold area dB) threshold threshold area
(R95%) (km) (km\2\) distance (km) (km\2\)
----------------------------------------------------------------------------------------------------------------
30 inch piles: modeled SL = 179.5 dB SEL
----------------------------------------------------------------------------------------------------------------
Low-frequency cetacean.......................... 1.65 3.17 1.98 4.52
Mid-frequency cetacean.......................... -- --
High-frequency cetacean......................... 1.45 1.13
Phocid pinniped................................. 0.26 0.09
Otarrid pinniped................................ -- --
----------------------------------------------------------------------------------------------------------------
36 inch piles: modeled SL = 180.9 dB SEL
----------------------------------------------------------------------------------------------------------------
Low-frequency cetacean.......................... 2.04 4.78 2.67 6.79
Mid-frequency cetacean.......................... -- --
High-frequency cetacean......................... 1.49 2.17
Phocid pinniped................................. 0.33 0.15
Otarrid pinniped................................ -- --
----------------------------------------------------------------------------------------------------------------
* NMFS also considers peak sound pressure levels; however, in no case were these thresholds reached or greater
than the SEL distances.
Table 4--Vibratory Pile Driving: Modeled Source Levels and Harassment Zones for Vibratory Driving Two Piles per
Day
[A dash indicates the threshold was not reached*]
----------------------------------------------------------------------------------------------------------------
Level A
threshold Level A Level B (160 Level B
Hearing group Distance threshold area dB) threshold threshold area
(R95%) (km) (km\2\) distance (km) (km\2\)
----------------------------------------------------------------------------------------------------------------
30 inch piles: modeled SL = 177.6 dB rms
----------------------------------------------------------------------------------------------------------------
ALL............................................. -- -- 5.61 21.14
----------------------------------------------------------------------------------------------------------------
36 inch piles: modeled SL = 179.8 dB rms
----------------------------------------------------------------------------------------------------------------
Low-frequency cetacean.......................... 0.02 <0.01 5.62 21.17
Mid-frequency cetacean.......................... -- --
High-frequency cetacean......................... -- --
Phocid pinniped................................. -- --
Otarrid pinniped................................ -- --
----------------------------------------------------------------------------------------------------------------
* NMFS also considers peak sound pressure levels; however, in no case were these thresholds reached or greater
than the SEL distances.
[[Page 47710]]
The modeling approach described above and in ADOT&PF's application
constitutes a new approach in that it models both source levels and
propagation loss to estimate distances to NMFS harassment thresholds.
Some preliminary data comparing measured sound levels to those produced
by the models has been presented, but no peer reviewed analysis has
been undertaken. To test the validity of the model, NMFS has included a
proposed requirement that ADOT&PF conduct a source source verification
(SSV) study upon the onset of pile driving to validate the model or, if
necessary, adjust the harassment zones based on measured data. This SSV
study will also provide the first measurements of sound levels
generated by 36-in piles driven by ADOT&PF. ADOT&PF has prepared a
draft acoustic monitoring plan which can be found at www.nmfs.noaa.gov/pr/permits/incidental/construction.htm. We welcome comments on the
ADOT&PF's source level modeling approach and the acoustic monitoring
plan.
Marine Mammal Occurrence
In this section we provide the information about the presence,
density, or group dynamics of marine mammals that will inform the take
calculations.
The data on marine mammals in this area are diverse and fairly
robust due mostly to ADF&G surveys. Strong seasonal occurrence of
marine mammals in this area is well documented; therefore, density
estimates for each species were calculated by month rather than
averaged throughout the year. For example, we have already discussed
the seasonality of Steller sea lions and how prey aggregations affect
their abundance. Monthly Steller sea lion densities were calculated
based on abundance surveys conducted at Gran Point (ADF&G, pers. comm).
Considering the Steller sea lion data used to calculate density is from
Gran Point, ADOT&PF used this location to mark the southern boundary of
the action area. The area from Gran Point north that encompasses Lutak
Inlet and Lynn Canal is 91.3 km\2\; this area was used for all species'
density estimates. For species other than Steller sea lion, average
sighting rate was used to calculate density (i.e., species occurrence
rate per month/91.3km\2\). Harbor seals are generally present in the
action area throughout the year, but their local abundance is clearly
defined by the presence of available prey. During mid-March through
mid-June, they are abundant in Lutak Inlet. For these months, an
average of 100 seals per day in the inlet is considered a conservative
estimate. For all other months, an estimate of 10 seals per month was
incorporated into the density equation. Humpback whales are present in
the action area from mid-April through June at a rate of five whales
per month and given that a few whales have atypically remained in the
area through the fall months (MOS 2016), we assumed two whales may
remain within the action area from August through November. Densities
for killer whales were calculated assuming five animals enter the area
seasonally from one of the resident or transient stocks, and may remain
from April through November. Harbor porpoise may be present in low
numbers (average of five per month) throughout the year. Finally,
Dall's porpoise are not sighted very frequently but tend to travel in
larger groups; therefore, ten animals per for the four months of
construction were considered in the density calculations. Table 5
provides the resulting marine mammal densities for months when terminal
construction would occur (again, no pile activities would occur from
March 1 through May 31 to avoid peak marine mammal abundance and
critical foraging periods). Although the table provides all relevant
months, we used the months with highest density to calculate estimated
take for each species, thus producing the most conservative estimates.
Please refer to section 6.6.1 in ADOT's application for supporting data
information.
Table 5--Marine Mammal Density Estimates (Animals/km\2\) During Months When Pile Activities May Occur
----------------------------------------------------------------------------------------------------------------
Species Jan Feb June July Aug Sept Oct Nov Dec
----------------------------------------------------------------------------------------------------------------
Steller sea lion............... 2.06 1.87 7.55 1.35 0 0.01 1.85 1.59 2.47
Harbor seal.................... 0.109 0.109 1.09 0.109 0.109 0.109 0.109 0.109 0.109
Humpback whale................. 0 0 0.054 0.054 0.022 0.022 0.022 0.022 0
Killer whale................... 0 0 0.054 0.054 0.054 0.054 0.054 0.054 0
Harbor porpoise................ 0.054 0.054 0.054 0.054 0.054 0.054 0.054 0.054 0.054
Dall's porpoise................ 0 0 0 0.03 0.03 0.03 0.03 0 0
----------------------------------------------------------------------------------------------------------------
Take Calculation and Estimation
Here we describe how the information provided above is brought
together to produce a quantitative take estimate.
The following equation was used to calculate potential Level A take
per species per pile type: Level A harassment zone/pile installation
method/pile type * June density * # of pile driving days/pile type. As
described above, there would be 19 days of pile driving and 2 days of
pile removal for a total of 21 pile activity days. We used the June
density because, when densities changed throughout the year, this is
when the highest density of all species occurs in the project area
within the project in-water work window (with the exception of Dall's
porpoise-see below) and ADOT&PF could conduct activities during this
month. Therefore, the resulting take estimates assume all work is
conducted in June, producing conservative estimates. The resulting
Level A takes by pile type (30-in and 36-in) were then added to
generate a total take number. For Level B harassment, the equation is
the same; however, we first subtracted any Level A area from its
corresponding Level B zone so not to ``double count'' takes.
ADOT&PF may take 1.9 humpback whales by Level A harassment when
impact driving 30'' piles (i.e., 3.17 km\2\ * 0.054 animals/km\2\ * 11
days). ADOT&PF may take 2.1 humpback whales by Level A harassment when
impact driving 36-in piles (i.e., 4.78 km\2\ * 0.054 animals/km\2\ * 8
days). Together, these equal 4 (i.e., 1.9 from 30-in + 2.1 from 36'')
potential Level A takes (Table 6). The Level B harassment zone for
impact driving 30'' piles was calculated as 4.52 km\2\-3.17 km\2\ =
1.35 km\2\. As such, potential take is calculated as 1.35 km\2\ * 0.054
animals/km\2\ * 11 days = 1 animal. To calculate take from impact
driving 36'' piles, the Level A zone (4.78 km\2\) was subtracted from
the Level B zone (6.79 km\2\) and the process was repeated: 2.01 km\2\
* 0.054 animals/km\2\ * 8 days = 1 animal. These takes were then added
for a total of 2 takes from Level B harassment from impact pile
driving. Finally, we included the potential Level B takes from
vibratory pile driving and removal (Level B area = 21.1 km\2\) using
the method as described above. The resulting Level B takes (n = 24)
were
[[Page 47711]]
added to the impact pile driving Level B takes (n = 2) for a total
Level B take of 26 humpback whales.
For killer whales, Level B takes from vibratory pile driving were
calculated using June density and the full 21.1 km\2\ Level B zone
since no Level A takes are predicted: 21.1 km\2\ * 0.054 animals/km\2\
* 21 days = 24 animals. Level B take from impact driving 30-in piles is
calculated as 4.52 km\2\ * 0.054 animals/km\2\ * 11 days = 2.7 killer
whales. Level B take from impact driving was calculated as 6.79 km\2\ *
0.054 animals/km\2\ * 8 days = 2.9 killer whales. Together, we proposed
to authorize Level B take of 30 killer whales over the 21 days of pile
activity.
For Dall's porpoise, we used the July density of 0.03 animals/km\2\
in the take equations. The resulting Level A take was lower than the
average group size; therefore, we increased to the number of takes to
represent the possibility one group of ten Dall's porpoise may come
within the Level A zone during impact pile driving. For Level B take,
calculated take fell between 10 and 20 animals; therefore, we assumed
two groups of ten each may occur within the Level B zone and are
proposing to authorize 20 Level B takes.
Harbor porpoise take estimates were based on a density of .054
porpoise/km\2\ with a Level A isopleth of 1.13 km\2\ and 2.17 km\2\ for
impact pile driving 30-in (11 days) and 36-in (8 days) piles,
respectively. The resulting 1 animal is less than the average group
size; therefore, we are proposing to authorize the take of three harbor
porpoise. For Level B, calculated take was estimated at 28 animals.
Level B take numbers for harbor porpoise were based on a 21.1km\2\
impact zone for vibratory pile driving while an isopleth of 4.62 km\2\
and 3.39 km\2\ were used for pile driving 30-in (11 days) and 36-in (8
days) piles.
Harbor seal Level A take numbers were based on 1.09 seals/km\2\, a
Level A zone of 0.09 and 0.15 km\2\ for impact pile driving 30-in (11
days) and 36-in (8 days) piles, respectively. In total, three Level A
takes of harbor seals are expected. For Level B, a 21.1 km\2\ impact
zone for vibratory pile driving was used whereas a 6.64 km\2\ and 4.43
km\2\ isopleth were used for impact pile driving 36-in and 30-in piles.
In all, Level B take numbers for vibratory and impact pile driving were
598. It is important to note that given harbor seals are more likely to
haul-out and linger within the Level B harassment zone, it is more
likely that this number represents exposures and not individual seals.
As with all other species, it is also likely animals will travel
through the Level B zone heading up the inlet and then back down again.
Because individual identification is not always possible, these
separate sighting events would be counted as individual takes.
For Steller sea lions, Level B takes from vibratory pile driving
were calculated using the most conservative June density (assuming
worst case scenario that all work occurs in June) and the full 21.1
km\2\ Level B zone since no Level A takes are predicted: 21.1 km\2\ *
7.55 animals/km\2\ * 21 days = 3345.4 animals. Level B take from impact
driving 30-in piles was calculated as 4.52 km\2\ * 7.55 animals/km\2\ *
11 days = 375.4 sea lions. Level B take from impact driving 36-in piles
was calculated as 6.79 km\2\ * 7.55 animals/km\2\ * 8 days = 410.1 sea
lions. Together, NMFS proposes to authorize 4131 takes of sea lions
over the 21 days of pile activity. This amount is not believed to be
the number of individual Steller sea lions harassed but some lesser
amount of individuals with repeated exposures.
Table 6 includes the total proposed take levels, by species, manner
of taking, and the percentage of stock potentially taken by Level B
harassment (we did not include Level A take percentages as the proposed
number of take is essentially zero percent for all stocks).
Table 6--Estimated Take by Level A and Level B Harassment, by Species and Month, Resulting From Impact and
Vibratory Pile Driving
----------------------------------------------------------------------------------------------------------------
Stock or DPS Level B % of
Species Stock or DPS size \1\ Level A Level B stock/DPS
----------------------------------------------------------------------------------------------------------------
Steller sea lion.............. eastern U.S..... 60,131 0 \2\ 4,131 6.7
western U.S..... 49,497 0 \2\ 83 0.16
Harbor Seal................... Lynn............ 9,478 3 598 6.3
Canal/Stephens..
Passage.........
Humpback whale................ Central North 10,103 4 \3\ 26 0.3
Pacific.
Killer whale.................. Alaska Resident. 2,347 0 30 1.3-12.3
Northern 261 0
Resident.
Gulf of Alaska, 587 0
Aleutian
Islands, Bering
Sea.
West Coast 243 0
Transient.
Harbor porpoise............... Southeast Alaska 975 \4\ 3 28 0.27
Dall's porpoise............... Alaska.......... 83,400 \4\ 10 \4\ 20 0.04
----------------------------------------------------------------------------------------------------------------
\1\ Stock or DPS size here is Nbest according to NMFS 2016 Stock Assessment Reports.
\2\ Calculated Level B take of all SSL's is based on a June density of 7.55 animals which equals 4131
individuals. Based on the percent of branded animals at Gran Point and in consultation with the Alaska
Regional Office, we used a 2 percent distinction factor to determine the number of animals potentially from
the western DPS.
\3\ Calculated Level B take of all humpback whales is based on a June density of 0.054 animals which equals 4131
individuals. For ESA section 7 consultation purposes, 6.1 percent are designated to the Mexico DPS and the
remaining are designated to the Hawaii DPS; therefore, we assigned 2 Level B takes to the Mexico DPS.
\4\ The calculated Level A take for harbor porpoise and Dall's porpoise is less than the average group size;
therefore, we are proposing to authorize Level A take of one group of each species (i.e., 3 and 10 animals,
respectively). For Dall's porpoise, we propose to authorize two groups (i.e., 20 animals) to be taken by Level
B harassment. The calculated amount of Level B take for harbor porpoise is sufficient to cover multiple
groups; therefore, no adjustments were made.
Proposed Mitigation
In order to issue an IHA under Section 101(a)(5)(D) of the MMPA,
NMFS must set forth the permissible methods of taking pursuant to such
activity, ``and other means of effecting the least practicable impact
on such species or stock and its habitat, paying particular attention
to rookeries, mating grounds, and areas of similar significance, and on
the availability of such species or stock for taking'' for
[[Page 47712]]
certain subsistence uses (latter not applicable for this action). NMFS
regulations require applicants for incidental take authorizations to
include information about the availability and feasibility (economic
and technological) of equipment, methods, and manner of conducting such
activity or other means of effecting the least practicable adverse
impact upon the affected species or stocks and their habitat (50 CFR
216.104(a)(11)).
In evaluating how mitigation may or may not be appropriate to
ensure the least practicable adverse impact on species or stocks and
their habitat, as well as subsistence uses where applicable, we
carefully consider two primary factors:
(1) The manner in which, and the degree to which, the successful
implementation of the measure(s) is expected to reduce impacts to
marine mammals, marine mammal species or stocks, and their habitat, as
well as subsistence uses. This considers the nature of the potential
adverse impact being mitigated (likelihood, scope, range). It further
considers the likelihood that the measure will be effective if
implemented (probability of accomplishing the mitigating result if
implemented as planned) the likelihood of effective implementation
(probability implemented as planned) and,
(2) the practicability of the measures for applicant
implementation, which may consider such things as cost, impact on
operations, and, in the case of a military readiness activity,
personnel safety, practicality of implementation, and impact on the
effectiveness of the military readiness activity.
The following mitigation measures are proposed in the IHA:
Schedule: No pile driving or removal would occur from
March 1 through May 31 to avoid peak marine mammals abundance periods
and critical foraging periods.
Pile Driving Delay/Shut-Down: If an animal comes within 10
m (33 ft) of a pile being driven or removed, ADOT&PF would shut down.
Pile driving activities would only be conducted during daylight hours
when it is possible to visually monitor for marine mammals. If poor
environmental conditions restrict visibility (e.g., from excessive wind
or fog, high Beaufort state), pile installation would be delayed. If a
species for which authorization has not been granted or if a species
for which authorization has been granted but the authorized takes are
met, ADOT&PF would delay or shut-down pile driving if the marine
mammals approaches or is observed within the Level A and/or B
harassment zone. In the unanticipated event that the specified activity
clearly causes the take of a marine mammal in a manner prohibited by
the IHA, such as serious injury or mortality, the protected species
observer (PSO) on watch would immediately call for the cessation of the
specified activities and immediately report the incident to the Chief
of the Permits and Conservation Division, Office of Protected
Resources, NMFS, and NMFS Alaska Regional Office.
Soft-start: For all impact pile driving, a ``soft start''
technique will be used at the beginning of each pile installation to
allow any marine mammal that may be in the immediate area to leave
before hammering at full energy. The soft start requires ADOT&PF to
provide an initial set of three strikes from the impact hammer at 40
percent energy, followed by a one-minute waiting period, then two
subsequent 3-strike sets. If any marine mammal is sighted within the
Level A zone designated for that species prior to pile-driving, or
during the soft start, ADOT&PF will delay pile-driving until the animal
is confirmed to have moved outside and on a path away from Level A zone
or if 15 minutes have elapsed since the last sighting.
Other best management practices: ADOT&PF will drive all
piles with a vibratory hammer to the maximum extent possible (i.e.,
until a desired depth is achieved or to refusal) prior to using an
impact hammer. ADOT&PF will also use the minimum hammer energy needed
to safely install the piles. ADOT&PF will also utilize sound
attenuation devices (e.g., pile caps/cushions) to reduce source levels
and, by association, received levels. However, because the actual
amount of reduction of sound energy from using those devices in
unknown, ADOT&PF and NMFS used relied on unattenuated source levels to
calculate harassment zones.
Based on our evaluation of the applicant's proposed measures, as
well as other measures considered by NMFS, we have preliminarily
determined that the proposed mitigation measures provide the means
effecting the least practicable impact on the affected species or
stocks and their habitat, paying particular attention to rookeries,
mating grounds, and areas of similar significance.
Proposed Monitoring and Reporting
In order to issue an IHA for an activity, Section 101(a)(5)(D) of
the MMPA states that NMFS must set forth requirements pertaining to the
monitoring and reporting of such taking. The MMPA implementing
regulations at 50 CFR 216.104 (a)(13) indicate that requests for
authorizations must include the suggested means of accomplishing the
necessary monitoring and reporting that will result in increased
knowledge of the species and of the level of taking or impacts on
populations of marine mammals that are expected to be present in the
proposed action area. Effective reporting is critical both to
compliance as well as ensuring that the most value is obtained from the
required monitoring.
Monitoring and reporting requirements prescribed by NMFS should
contribute to improved understanding of one or more of the following:
Occurrence of marine mammal species or stocks in the area
in which take is anticipated (e.g., presence, abundance, distribution,
density).
Nature, scope, or context of likely marine mammal exposure
to potential stressors/impacts (individual or cumulative, acute or
chronic), through better understanding of: (1) Action or environment
(e.g., source characterization, propagation, ambient noise); (2)
affected species (e.g., life history, dive patterns); (3) co-occurrence
of marine mammal species with the action; or (4) biological or
behavioral context of exposure (e.g., age, calving or feeding areas).
Individual marine mammal responses (behavioral or
physiological) to acoustic stressors (acute, chronic, or cumulative),
other stressors, or cumulative impacts from multiple stressors.
How anticipated responses to stressors impact either: (1)
Long-term fitness and survival of individual marine mammals; or (2)
populations, species, or stocks.
Effects on marine mammal habitat (e.g., marine mammal prey
species, acoustic habitat, or other important physical components of
marine mammal habitat).
Mitigation and monitoring effectiveness.
Visual Monitoring
Monitoring would be conducted 30 minutes before, during, and 30
minutes after pile driving and removal activities. In addition,
observers shall record all incidents of marine mammal occurrence,
regardless of distance from activity, and shall document any behavioral
reactions in concert with distance from piles being driven or removed.
Pile driving activities include the time to install or remove a single
pile or series of piles, as long as the time elapsed between uses of
the pile driving
[[Page 47713]]
equipment is no more than thirty minutes.
A primary PSO would be placed at the terminal where pile driving
would occur and a second observer would be placed at Tanani Point,
located approximately 1 mi (1.6 km) southeast of the terminal. This
second observer is at an advantage to observe species prior to entering
the Level A zone as they move up Chilkoot Inlet, covering a majority of
the Level B zone. PSOs would scan the waters using binoculars, and/or
spotting scopes, and would use a handheld GPS or range-finder device to
verify the distance to each sighting from the project site. All PSOs
would be trained in marine mammal identification and behaviors and are
required to have no other project-related tasks while conducting
monitoring. The following measures also apply to visual monitoring:
(1) Monitoring will be conducted by qualified observers, who will
be placed at the best vantage point(s) practicable to monitor for
marine mammals and implement shutdown/delay procedures when applicable
by calling for the shutdown to the hammer operator. Qualified observers
are trained biologists, with the following minimum qualifications:
(a) Visual acuity in both eyes (correction is permissible)
sufficient for discernment of moving targets at the water's surface
with ability to estimate target size and distance; use of binoculars
may be necessary to correctly identify the target;
(b) Advanced education in biological science or related field
(undergraduate degree or higher required);
(c) Experience and ability to conduct field observations and
collect data according to assigned protocols (this may include academic
experience);
(d) Experience or training in the field identification of marine
mammals, including the identification of behaviors;
(e) Sufficient training, orientation, or experience with the
construction operation to provide for personal safety during
observations;
(f) Writing skills sufficient to prepare a report of observations
including but not limited to the number and species of marine mammals
observed; dates and times when in-water construction activities were
conducted; dates and times when in-water construction activities were
suspended to avoid potential incidental injury from construction sound
of marine mammals observed within a defined shutdown zone; and marine
mammal behavior; and
(g) Ability to communicate orally, by radio or in person, with
project personnel to provide real-time information on marine mammals
observed in the area as necessary.
A draft marine mammal monitoring report would be submitted to NMFS
within 90 days after the completion of pile driving and removal
activities. It will include an overall description of work completed, a
narrative regarding marine mammal sightings, and associated marine
mammal observation data sheets. Specifically, the report must include:
Date and time that monitored activity begins or ends;
Construction activities occurring during each observation
period;
Weather parameters (e.g., percent cover, visibility);
Water conditions (e.g., sea state, tide state);
Species, numbers, and, if possible, sex and age class of
marine mammals;
Description of any observable marine mammal behavior
patterns, including bearing and direction of travel and distance from
pile driving activity;
Distance from pile driving activities to marine mammals
and distance from the marine mammals to the observation point;
Locations of all marine mammal observations; and
Other human activity in the area.
If no comments are received from NMFS within 30 days, the draft
final report will constitute the final report. If comments are
received, a final report addressing NMFS comments must be submitted
within 30 days after receipt of comments.
In the unanticipated event that the specified activity clearly
causes the take of a marine mammal in a manner prohibited by the IHA
(if issued), such as an injury, serious injury or mortality, ADOT&PF
would immediately cease the specified activities and report the
incident to the Chief of the Permits and Conservation Division, Office
of Protected Resources, NMFS, and the Alaska Regional Stranding
Coordinator. The report would include the following information:
Description of the incident;
Environmental conditions (e.g., Beaufort sea state,
visibility);
Description of all marine mammal observations in the 24
hours preceding the incident;
Species identification or description of the animal(s)
involved;
Fate of the animal(s); and
Photographs or video footage of the animal(s) (if
equipment is available).
Activities would not resume until NMFS is able to review the
circumstances of the prohibited take. NMFS would work with ADOT&PF to
determine what is necessary to minimize the likelihood of further
prohibited take and ensure MMPA compliance. ADOT&PF would not be able
to resume their activities until notified by NMFS via letter, email, or
telephone.
In the event that ADOT&PF discovers an injured or dead marine
mammal, and the lead PSO determines that the cause of the injury or
death is unknown and the death is relatively recent (e.g., in less than
a moderate state of decomposition as described in the next paragraph),
ADOT&PF would immediately report the incident to the Chief of the
Permits and Conservation Division, Office of Protected Resources, NMFS,
and the NMFS Alaska Stranding Hotline and/or by email to the Alaska
Regional Stranding Coordinator. The report would include the same
information identified in the paragraph above. Activities would be able
to continue while NMFS reviews the circumstances of the incident. NMFS
would work with ADOT&PF to determine whether modifications in the
activities are appropriate.
In the event that ADOT&PF discovers an injured or dead marine
mammal and the lead PSO determines that the injury or death is not
associated with or related to the activities authorized in the IHA
(e.g., previously wounded animal, carcass with moderate to advanced
decomposition, or scavenger damage), ADOT&PF would report the incident
to the Chief of the Permits and Conservation Division, Office of
Protected Resources, NMFS, and the NMFS Alaska Stranding Hotline and/or
by email to the Alaska Regional Stranding Coordinator, within 24 hours
of the discovery. ADOT&PF would provide photographs or video footage
(if available) or other documentation of the stranded animal sighting
to NMFS and the Marine Mammal Stranding Network.
Acoustic Monitoring
ADOT&PF relied on source level and sound propagation models to
estimate Level A and harassment zones. To validate the outputs of these
models, ADOT&PF will conduct acoustic monitoring during the first two
days of pile driving. The acoustic monitoring plan is available for
review at https://www.nmfs.noaa.gov/pr/permits/incidental/construction.htm. In summary, ADOT&PF will deploy three bottom-mounted
Autonomous Multichannel Acoustic Recorders (AMARs) and conduct spot
measurements with a hydrophone over the side of a vessel. The AMARs
will be
[[Page 47714]]
set 10 m, 1000m and 5,000 m from the pile. Within one week, ADOT&PF
will provide NMFS a report of their acoustic measurements. NMFS will
review the report and if empirical data demonstrates adjustments to
Level A and B take zones are warranted, those adjustments will be made.
Negligible Impact Analysis and Determination
NMFS has defined negligible impact as ``an impact resulting from
the specified activity that cannot be reasonably expected to, and is
not reasonably likely to, adversely affect the species or stock through
effects on annual rates of recruitment or survival'' (50 CFR 216.103).
A negligible impact finding is based on the lack of likely adverse
effects on annual rates of recruitment or survival (i.e., population-
level effects). An estimate of the number of takes alone is not enough
information on which to base an impact determination. In addition to
considering estimates of the number of marine mammals that might be
``taken'' through harassment, NMFS considers other factors, such as the
likely nature of any responses (e.g., intensity, duration), the context
of any responses (e.g., critical reproductive time or location,
migration), as well as effects on habitat, and the likely effectiveness
of the mitigation. We also assess the number, intensity, and context of
estimated takes by evaluating this information relative to population
status. Consistent with the 1989 preamble for NMFS implementing
regulations (54 FR 40338; September 29, 1989), the impacts from other
past and ongoing anthropogenic activities are incorporated into this
analysis via their impacts on the environmental baseline (e.g., as
reflected in the regulatory status of the species, population size and
growth rate where known, ongoing sources of human-caused mortality, or
ambient noise levels).
The Level A harassment zones identified in Tables 3 and 4 are based
upon an animal exposed to impact pile driving two piles per day.
Considering duration of impact driving each pile (up to 15 minutes) and
breaks between pile installations (to reset equipment and move pile
into place), this means an animal would have to remain within the area
estimated to be ensonified above the Level A harassment threshold for
multiple hours. This is highly unlikely given marine mammal movement
throughout the area. If an animal was exposed to accumulated sound
energy, the resulting PTS would likely be small (e.g., PTS onset) at
lower frequencies where pile driving energy is concentrated.
Nevertheless, we propose authorizing a small amount of Level A take for
four species which is considered in our analysis.
Behavioral responses of marine mammals to pile driving and removal
at the Terminal, if any, are expected to be mild and temporary. Marine
mammals within the Level B harassment zone may not show any visual cues
they are disturbed by activities (as noted during modification to the
Kodiak Ferry Dock) or could become alert, avoid the area, leave the
area, or display other mild responses that are not observable such as
changes in vocalization patterns. Given the short duration of noise-
generating activities per day and that pile driving and removal would
occur on 21 days across 4 months, any harassment would be temporary. In
addition, ADOT&PF would not conduct pile driving or removal during the
spring eulachon and herring runs as well as the fall salmon runs, when
marine mammals are in greatest abundance and engaging in concentrated
foraging behavior.
In summary and as described above, the following factors primarily
support our preliminary determination that the impacts resulting from
this activity are not expected to adversely affect the species or stock
through effects on annual rates of recruitment or survival:
No mortality is anticipated or authorized.
ADOT&PF would avoid pile driving and removal during peak
periods of marine mammals abundance and foraging (i.e., March 1 through
May 31 eulachon and herring runs,).
ADOT&PF would implement mitigation measures such as
vibratory driving piles to the maximum extent practicable, soft-starts,
use of sound attenuation devices, and shut downs.
Monitoring reports from similar work in Alaska have
documented little to no effect on individuals of the same species
impacted by the specified activities.
Based on the analysis contained herein of the likely effects of the
specified activity on marine mammals and their habitat, and taking into
consideration the implementation of the proposed monitoring and
mitigation measures, NMFS preliminarily finds that the total marine
mammal take from the proposed activity will have a negligible impact on
all affected marine mammal species or stocks.
Small Numbers
As noted above, only small numbers of incidental take may be
authorized under Section 101(a)(5)(D) of the MMPA for specified
activities other than military readiness activities. The MMPA does not
define small numbers and so, in practice, where estimated numbers are
available, NMFS compares the number of individuals taken to the most
appropriate estimation of abundance of the relevant species or stock in
our determination of whether an authorization is limited to small
numbers of marine mammals. Additionally, other qualitative factors may
be considered in the analysis, such as the temporal or spatial scale of
the activities.
The amount of take NMFS proposes to authorize is 0.03 to 12.3
percent of any stock's best population estimate. The 12.3 percent is
based on the possibility all 30 takes of killer whales are from the
West Coast Transient stock (population size 243) which is highly
unlikely. The next lowest percent of stock is for the Steller sea lion
eDPS at 6.7 percent; however, this is also conservative because it
assumes all pile driving occurs in June which has the highest Steller
sea lion density and assumes all takes are of individual animals which
is likely not the case. Harbor seal takes represent 6.3 percent of the
Lynn Canal/Stephens passage population while takes for the remaining
five species, including the Steller sea lion wDPS, represent less than
1 percent of all stocks.
Based on the analysis contained herein of the proposed activity
(including the proposed mitigation and monitoring measures) and the
anticipated take of marine mammals, NMFS preliminarily finds that small
numbers of marine mammals will be taken relative to the population size
of the affected species or stocks.
Endangered Species Act (ESA)
Section 7(a)(2) of the Endangered Species Act of 1973 (ESA: 16
U.S.C. 1531 et seq.) requires that each Federal agency insure that any
action it authorizes, funds, or carries out is not likely to jeopardize
the continued existence of any endangered or threatened species or
result in the destruction or adverse modification of designated
critical habitat. To ensure ESA compliance for the issuance of IHAs,
NMFS consults internally, in this case with NMFS Alaska Protected
Resources Division Office, whenever we propose to authorize take for
endangered or threatened species.
NMFS is proposing to authorize take of the Steller sea lion wDPS
and the Mexico humpback whale DPS which are listed under the ESA. The
Permit and Conservation Division has requested initiation of Section 7
consultation with the Alaska Region for the issuance of
[[Page 47715]]
this IHA. NMFS will conclude the ESA consultation prior to reaching a
determination regarding the proposed issuance of the authorization.
Proposed Authorization
As a result of these preliminary determinations, NMFS proposes to
issue an IHA to ADOT&PF for conducting pile driving and removal at the
Haines Ferry Terminal, Alaska, from October 1, 2018 September 30, 2019
provided the previously mentioned mitigation, monitoring, and reporting
requirements are incorporated. This section contains a draft of the IHA
itself. The wording contained in this section is proposed for inclusion
in the IHA (if issued).
1. This IHA is valid from October 1 2018, through September 30,
2019.
2. This IHA is valid only for pile driving and removal during the
Haines Ferry Terminal Modification Project, Haines, Alaska.
3. General Conditions.
(a) A copy of this IHA must be in the possession of, its designees,
and work crew personnel operating under the authority of this IHA.
(b) The species authorized for taking is the Steller sea lions
(Eumetopias jubatus), harbor seals (Phoca vitulina), harbor porpoise
(Phocoena phocoena), and Dall's porpoise (Phocoenoides dalli) humpback
whale (Megaptera novaeangliae) and killer whale (Orcinus orca).
(c) The taking, by harassment, is limited to the species listed in
condition 3(b). See Table 6 for manner of taking and numbers of take
authorized, by species.
(d) The taking by serious injury or death of the species listed in
condition 3(b) of this IHA or any taking of species of marine mammal
not listed in condition 3(b) is prohibited and may result in the
modification, suspension, or revocation of this IHA.
(e) The taking of any marine mammal in a manner prohibited under
this IHA must be reported immediately to the Office of Protected
Resources, NMFS.
(f) ADOT&PF shall conduct briefings between construction
supervisors and crews, marine mammal monitoring team, and ADOT&PF staff
prior to the start of pile driving and removal for the Haines Ferry
Terminal Modification Project, and when new personnel join the work, in
order to explain responsibilities, communication procedures, marine
mammal monitoring protocol, and operational procedures.
4. Mitigation
The holder of this Authorization is required to implement the
following mitigation measures:
(a) Timing Restrictions: Pile driving and removal shall occur only
during daylight hours from October 1, 2018, through September 30, 2019,
excluding March 1, 2019, to May 31, 2019.
(b) Weather Restrictions: If poor environmental conditions restrict
visibility (e.g., from excessive wind or fog, high Beaufort state), the
commencement of pile installation shall be delayed.
(c) Pile Driving Operations
(i) ADOT&PF shall drive all piles with a vibratory hammer to the
maximum extent possible (i.e., until a desired depth is achieved or to
refusal) prior to using an impact hammer. ADOT&PF shall also use the
minimum hammer energy needed to safely install the piles.
(ii) ADOT&PF shall use sound attenuation devices (e.g., pile caps/
cushions) in an attempt to reduce source levels.
(iii) ADOT&PF shall use a ``soft start'' technique at the beginning
of impact pile driving to allow any marine mammal that may be in the
immediate area to leave before hammering at full energy. The soft start
requires ADOT&PF to provide an initial set of three strikes from the
impact hammer at 40 percent energy, followed by a one-minute waiting
period, then two subsequent 3-strike sets.
(iv) ADOT&PF shall use a direct pull method as the primary removal
method for piles and, if ineffective, then using a vibratory hammer;
(d) Shut-down Procedures.
(i) A shut-down zone of 10 m shall be established during impact
pile driving. Pile driving shall not commence until marine mammals are
not sighted within the shut-down zone for a 15-minute period. If a
marine mammal enters the shut down zone during pile driving, the
activity shall stop until the animal leaves the shut-down zone or until
15 minutes has elapsed without observation of the animal within the
zone.
(ii) If any marine mammal is sighted within the Level A zone (see
Tables 3 and 4) designated for that species prior to pile-driving, or
during the soft start, ADOT&PF shall delay pile-driving until the
animal is confirmed to have moved outside and on a path away from Level
A zone or if 15 minutes have elapsed since the last sighting.
(iii) ADOT&PF shall use delay and shut-down procedures, if a
species for which authorization has not been granted or if a species
for which authorization has been granted but the authorized takes are
met, approaches or is observed within the Level A and/or B harassment
zone.
(iv) ADOT&PF shall use delay and shut-down procedures, if a species
for which authorization has not been granted or if a species for which
authorization has been granted but the authorized takes are met,
approaches or is observed within the Level A and/or B harassment zone
(as appropriate).
5. Monitoring.
The holder of this Authorization is required to abide by the
following monitoring conditions:
(a) Two qualified Protected Species Observer (PSOs) shall be used
to detect, document, and minimize impacts to marine mammals. One PSO
shall be stationed at the Terminal and another shall be stationed at
Tanani Point or other vantage point that allows visual line of sight
across Chilkoot Inlet.
(b) Qualifications for PSOs for visual monitoring include:
(i) Visual acuity in both eyes (correction is permissible)
sufficient for discernment of harbor seals on land or in the water with
ability to estimate target size and distance; use of binoculars may be
necessary to correctly identify the target;
(ii) Advanced education in biological science or related field
(undergraduate degree or higher required);
(iii) Experience and ability to conduct field observations and
collect data according to assigned protocols (this may include academic
experience);
(iv) Experience or training in the field identification of marine
mammals, including the identification of behaviors;
(v) Sufficient training, orientation, or experience with the
construction operation to provide for personal safety during
observations;
(vi) Writing skills sufficient to prepare a report of observations
including but not limited to the number and species of marine mammals
observed; dates and times when construction activities were conducted;
dates and times when construction activities were suspended to avoid
potential incidental injury from construction sound or visual
disturbance of marine mammals observed; and marine mammal behavior; and
(vii) Ability to communicate orally, by radio or in person, with
project personnel to provide real-time information on marine mammals
observed in the area as necessary.
(c) PSO Monitoring and Data Collection: Monitoring shall be
conducted before, during, and after pile driving and removal
activities. PSOs shall record all incidents of marine mammal
occurrence, regardless of distance from activity, and shall document
any behavioral reactions in
[[Page 47716]]
concert with distance from construction activities. PSOs shall be
placed at the best vantage point(s) practicable to monitor for marine
mammals. The PSO shall also conduct biological resources awareness
training for construction personnel. The awareness training shall be
provided to brief construction personnel on identification of marine
mammals (including neonates) and the need to avoid and minimize impacts
to marine mammals. If new construction personnel are added to the
project, the contractor shall ensure that the personnel receive the
mandatory training before starting work. The PSO shall have authority
to stop construction if marine mammals appear distressed (evasive
maneuvers, rapid breathing, inability to flush) or in danger of injury.
(d) Monitoring requirements also include:
(i) The holder of this Authorization must designate at least one
biologically-trained, on-site individual(s), approved in advance by
NMFS, to monitor marine mammal species. The PSO shall be trained in
marine mammal identification and behaviors and are required to have no
other construction-related tasks while conducting monitoring.
(ii) PSOs shall be provided with the equipment necessary to
effectively monitor for marine mammals in order to record species,
behaviors, and responses to construction activities.
(iii) Pre-activity Monitoring: At least 30 minutes prior to the
start of all pile driving, the PSO(s) must conduct observations on the
number, type(s), location(s), and behavior(s) of marine mammals.
(iv) Data collection during marine mammal monitoring shall consist
of counts of all marine mammals by species and number (if possible,
also include sex and age class), a description of behavior, location,
direction of movement, type of construction that is occurring, time
construction activities starts and ends, any noise or visual
disturbance, and time of the observation. The type of take (i.e., Level
A or B) and the assumed cause (whether related to construction
activities or not) shall be noted. Environmental conditions such as
weather, visibility, temperature, tide level, current, and sea state
shall also be recorded. A written log of dates and times of monitoring
activity shall be kept. The log shall report the following information:
Time of PSO arrival on site;
Time of the commencement of construction activities;
Distances to all marine mammals relative to the
disturbance;
Observations, notes on marine mammal behavior during
construction activities, as described above, and on the number and
distribution observed in the project vicinity;
For observations of all other marine mammals (if observed)
the time and duration of each animal's presence in the project
vicinity; the number of animals observed; the behavior of each animal,
including any response to construction activities;
Time of the cessation of construction activities;
Time of PSO departure from site; and
An estimate of the number (by species) of marine mammals
that are known to have been disturbed by construction activities (based
on visual observation) with a discussion of any specific behaviors
those individuals exhibited. Disturbance must be recorded according to
NMFS' three-point scale.
(v) Post-activity Monitoring: At least 30 minutes following the
cessation of pile driving for the day, the PSO(s) will continue to scan
for marine mammals and document any sightings in accordance with
section 4(c)(iv) of this IHA.
(e) Acoustic Monitoring: ADOT&PF shall conduct acoustic monitoring
at the onset of pile driving per the Acoustic Monitoring Plan. The data
shall be analyzed to determine if any adjustments to the harassment
zones are warranted.
6. Reporting.
(a) The ADOT&PF shall submit a draft report to NMFS within 90 days
of the completion of marine mammal monitoring, or sixty days prior to
the issuance of any subsequent IHA for this project (if required),
whichever comes first. The report shall include marine mammal
observations pre-activity, during-activity, and post-activity of
construction, and shall also provide descriptions of any behavioral
responses by marine mammals due to disturbance from construction
activities and a complete description of total take estimate based on
the number of marine mammals observed during the course of
construction. If comments are received from the NMFS Office of
Protected Resources on the draft report, a final report shall be
submitted to NMFS within 30 days thereafter following resolution of
comments on the draft report from NMFS. If no comments are received
from NMFS, the draft report will be considered to be the final report.
This report must contain the informational elements described above and
in the monitoring plan of the application and at minimum shall also
include:
(b) Reporting injured or dead marine mammals:
(i) In the unanticipated event that the specified activity clearly
causes the take of a marine mammal in a manner prohibited by this IHA,
such as serious injury or mortality, ADOT&PF shall immediately cease
the specified activities and report the incident to the NMFS' Office of
Protected Resources and the West Coast Regional Stranding Coordinator.
The report must include the following information:
Time and date of the incident;
Description of the incident;
Environmental conditions (e.g., wind speed and direction,
tidal conditions, cloud cover, and visibility);
Description of all marine mammal observations and active
sound
Species identification or description of the animal(s)
involved;
Fate of the animal(s); and
Photographs or video footage of the animal(s).
Activities shall not resume until NMFS is able to review the
circumstances of the prohibited take. NMFS will work with ADOT&PF to
determine what measures are necessary to minimize the likelihood of
further prohibited take and ensure MMPA compliance. ADOT&PF may not
resume their activities until notified by NMFS.
(ii) In the event that ADOT&PF discovers an injured or dead marine
mammal, and the lead PSO determines that the cause of the injury or
death is unknown and the death is relatively recent (e.g., in less than
a moderate state of decomposition), ADOT&PF shall immediately report
the incident to the NMFS' Office of Protected Resources and the Alaska
Regional Stranding Coordinator. The report must include the same
information identified in 6(b)(i) of this IHA. Activities may continue
while NMFS reviews the circumstances of the incident. NMFS will work
with the ADOT&PF to determine whether additional mitigation measures or
modifications to the activities are appropriate.
(iii) In the event that the ADOT&PF discovers an injured or dead
marine mammal, and the lead PSO determines that the injury or death is
not associated with or related to the activities authorized in the IHA
(e.g., previously wounded animal, carcass with moderate to advanced
decomposition, or scavenger damage), the ADOT&PF shall report the
incident to the NMFS' Office of Protected Resources and the Alaska
Regional Stranding Coordinator within 24 hours of the discovery.
ADOT&PF shall provide photographs or video footage or other
documentation of the stranded animal sighting to NMFS.
[[Page 47717]]
7. This Authorization may be modified, suspended or withdrawn if
the holder fails to abide by the conditions prescribed herein, or if
NMFS determines the authorized taking is having more than a negligible
impact on the species or stock of affected marine mammals.
Request for Public Comments
We request comment on our analyses, the draft authorization, and
any other aspect of this Notice of Proposed IHA for the proposed Haines
Ferry Terminal Dock Modification Project. Please include with your
comments any supporting data or literature citations to help inform our
final decision on the request for MMPA authorization.
Dated: October 6, 2017.
Donna S. Wieting,
Director, Office of Protected Resources, National Marine Fisheries
Service.
[FR Doc. 2017-22145 Filed 10-12-17; 8:45 am]
BILLING CODE 3510-22-P
