Endangered and Threatened Wildlife and Plants; Threatened Species Status With Section 4(d) Rule for the Miami Cave Crayfish, 64856-64870 [2023-20293]
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Federal Register / Vol. 88, No. 181 / Wednesday, September 20, 2023 / Proposed Rules
change(s). We appreciate any and all
comments, but those most useful and
likely to influence decisions on the final
regulations will be those that either
involve personal experience or include
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other than those listed (see ADDRESSES)
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rulemaking and considered.
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State regulatory program approval,
State-Federal cooperative agreement,
required program amendments.
David A. Berry,
Regional Director, Unified Regions 5, 7–11.
[FR Doc. 2023–20349 Filed 9–19–23; 8:45 am]
BILLING CODE 4310–05–P
DEPARTMENT OF THE INTERIOR
Fish and Wildlife Service
50 CFR Part 17
[Docket No. FWS–R4–ES–2023–0103;
FF09E21000 FXES1111090FEDR 234]
RIN 1018–BG31
Endangered and Threatened Wildlife
and Plants; Threatened Species Status
With Section 4(d) Rule for the Miami
Cave Crayfish
Fish and Wildlife Service,
Interior.
ACTION: Proposed rule.
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AGENCY:
We, the U.S. Fish and
Wildlife Service (Service), propose to
list the Miami cave crayfish
(Procambarus milleri), a crayfish species
from Miami-Dade County, Florida, as a
threatened species under the
Endangered Species Act of 1973, as
amended (Act). This determination also
SUMMARY:
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serves as our 12-month finding on a
petition to list the Miami cave crayfish.
After a review of the best available
scientific and commercial information,
we find that listing the species is
warranted. Accordingly, we propose to
list the Miami cave crayfish as a
threatened species with a rule issued
under section 4(d) of the Act (‘‘4(d)
rule’’). If we finalize this proposed rule,
it would add this species to the List of
Endangered and Threatened Wildlife
and extend the Act’s protections to the
species.
DATES: We will accept comments
received or postmarked on or before
November 20, 2023. Comments
submitted electronically using the
Federal eRulemaking Portal (see
ADDRESSES, below) must be received by
11:59 p.m. eastern time on the closing
date. We must receive requests for a
public hearing, in writing, at the address
shown in FOR FURTHER INFORMATION
CONTACT by November 6, 2023.
ADDRESSES: You may submit comments
by one of the following methods:
(1) Electronically: Go to the Federal
eRulemaking Portal: https://
www.regulations.gov. In the Search box,
enter FWS–R4–ES–2023–0103, which is
the docket number for this rulemaking.
Then, click on the Search button. On the
resulting page, in the panel on the left
side of the screen, under the Document
Type heading, check the Proposed Rule
box to locate this document. You may
submit a comment by clicking on
‘‘Comment.’’
(2) By hard copy: Submit by U.S. mail
to: Public Comments Processing, Attn:
FWS–R4–ES–2023–0103, U.S. Fish and
Wildlife Service, MS: PRB/3W, 5275
Leesburg Pike, Falls Church, VA 22041–
3803.
We request that you send comments
only by the methods described above.
We will post all comments on https://
www.regulations.gov. This generally
means that we will post any personal
information you provide us (see
Information Requested, below, for more
information).
Availability of supporting materials:
Supporting materials, such as the
species status assessment report, are
available at https://www.regulations.gov
at Docket No. FWS–R4–ES–2023–0103.
FOR FURTHER INFORMATION CONTACT:
Lourdes Mena, Division Manager,
Florida Classification and Recovery,
U.S. Fish and Wildlife Service, Florida
Ecological Services Field Office, 7915
Baymeadows Way, Suite 200,
Jacksonville, FL 32256–7517; telephone
904–731–3134. Individuals in the
United States who are deaf, deafblind,
hard of hearing, or have a speech
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disability may dial 711 (TTY, TDD, or
TeleBraille) to access
telecommunications relay services.
Individuals outside the United States
should use the relay services offered
within their country to make
international calls to the point-ofcontact in the United States. For a
summary of the proposed rule, please
see the ‘‘rule summary document’’ in
docket FWS–R4–ES–2023–0103 on
https://www.regulations.gov.
SUPPLEMENTARY INFORMATION:
Executive Summary
Why we need to publish a rule. Under
the Act, a species warrants listing if it
meets the definition of an endangered
species (in danger of extinction
throughout all or a significant portion of
its range) or a threatened species (likely
to become an endangered species within
the foreseeable future throughout all or
a significant portion of its range). If we
determine that a species warrants
listing, we must list the species
promptly and designate the species’
critical habitat to the maximum extent
prudent and determinable. We have
determined that the Miami cave crayfish
meets the definition of a threatened
species; therefore, we are proposing to
list it as such. Listing a species as an
endangered or threatened species can be
completed only by issuing a rule
through the Administrative Procedure
Act rulemaking process (5 U.S.C. 551 et
seq.).
What this document does. We
propose to list the Miami cave crayfish
as a threatened species with a rule
under section 4(d) of the Act.
The basis for our action. Under the
Act, we may determine that a species is
an endangered or threatened species
because of any of five factors: (A) The
present or threatened destruction,
modification, or curtailment of its
habitat or range; (B) overutilization for
commercial, recreational, scientific, or
educational purposes; (C) disease or
predation; (D) the inadequacy of
existing regulatory mechanisms; or (E)
other natural or manmade factors
affecting its continued existence. We
have determined that the primary threat
to Miami cave crayfish is saltwater
intrusion caused by sea level rise as a
result of climate change.
Information Requested
We intend that any final action
resulting from this proposed rule will be
based on the best scientific and
commercial data available and be as
accurate and as effective as possible.
Therefore, we request comments or
information from other governmental
agencies, Native American Tribes, the
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scientific community, industry, or any
other interested parties concerning this
proposed rule. We particularly seek
comments concerning:
(1) The species’ biology, range, and
population trends, including:
(a) Biological or ecological
requirements of the species, including
habitat requirements for feeding,
breeding, and sheltering;
(b) Genetics and taxonomy;
(c) Historical and current range,
including distribution patterns and the
locations of any additional populations
of this species;
(d) Historical and current population
levels, and current and projected trends;
and
(e) Past and ongoing conservation
measures for the species, its habitat, or
both.
(2) Threats and conservation actions
affecting the species, including:
(a) Factors that may be affecting the
continued existence of the species,
which may include habitat modification
or destruction, overutilization, disease,
predation, the inadequacy of existing
regulatory mechanisms, or other natural
or manmade factors.
(b) Biological, commercial trade, or
other relevant data concerning any
threats (or lack thereof) to this species.
(c) Existing regulations or
conservation actions that may be
addressing threats to this species.
(3) Additional information concerning
the historical and current status of this
species.
(4) Information on regulations that
may be necessary and advisable to
provide for the conservation of the
Miami cave crayfish and that we can
consider in developing a 4(d) rule for
the species. In particular, information
concerning the extent to which we
should include any of the section 9
prohibitions in the 4(d) rule or whether
we should consider any additional
exceptions from the prohibitions in the
4(d) rule.
(5) Information on sea level rise and
saltwater intrusion future projections in
the Biscayne Aquifer.
Please include sufficient information
with your submission (such as scientific
journal articles or other publications) to
allow us to verify any scientific or
commercial information you include.
Please note that submissions merely
stating support for, or opposition to, the
action under consideration without
providing supporting information,
although noted, do not provide
substantial information necessary to
support a determination. Section
4(b)(1)(A) of the Act directs that
determinations as to whether any
species is an endangered or a threatened
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species must be made solely on the
basis of the best scientific and
commercial data available.
You may submit your comments and
materials concerning this proposed rule
by one of the methods listed in
ADDRESSES. We request that you send
comments only by the methods
described in ADDRESSES.
If you submit information via https://
www.regulations.gov, your entire
submission—including any personal
identifying information—will be posted
on the website. If your submission is
made via a hardcopy that includes
personal identifying information, you
may request at the top of your document
that we withhold this information from
public review. However, we cannot
guarantee that we will be able to do so.
We will post all hardcopy submissions
on https://www.regulations.gov.
Comments and materials we receive,
as well as supporting documentation we
used in preparing this proposed rule,
will be available for public inspection
on https://www.regulations.gov.
Our final determination may differ
from this proposal because we will
consider all comments we receive
during the comment period as well as
any information that may become
available after this proposal. Based on
the new information we receive (and, if
relevant, any comments on that new
information), we may conclude that the
species is endangered instead of
threatened, or we may conclude that the
species does not warrant listing as either
an endangered species or a threatened
species. In addition, we may change the
parameters of the prohibitions or the
exceptions to those prohibitions in the
4(d) rule if we conclude it is appropriate
in light of comments and new
information received. For example, we
may expand the prohibitions to include
prohibiting additional activities if we
conclude that those additional activities
are not compatible with conservation of
the species. Conversely, we may
establish additional exceptions to the
prohibitions in the final rule if we
conclude that the activities would
facilitate or are compatible with the
conservation and recovery of the
species. In our final rule, we will clearly
explain our rationale and the basis for
our final decision, including why we
made changes, if any, that differ from
this proposal.
Public Hearing
Section 4(b)(5) of the Act provides for
a public hearing on this proposal, if
requested. Requests must be received by
the date specified in DATES. Such
requests must be sent to the address
shown in FOR FURTHER INFORMATION
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CONTACT.
We will schedule a public
hearing on this proposal, if requested,
and announce the date, time, and place
of the hearing, as well as how to obtain
reasonable accommodations, in the
Federal Register and local newspapers
at least 15 days before the hearing. We
may hold the public hearing in person
or virtually via webinar. We will
announce any public hearing on our
website, in addition to the Federal
Register. The use of virtual public
hearings is consistent with our
regulations at 50 CFR 424.16(c)(3).
Previous Federal Actions
We received a petition from the
Center for Biological Diversity, Alabama
Rivers Alliance, Clinch Coalition,
Dogwood Alliance, Gulf Restoration
Network, Tennessee Forests Council,
West Virginia Highlands Conservancy,
Tierra Curry, and Noah Greenwald on
April 20, 2010, to list 404 aquatic,
riparian, and wetland species from the
southeastern United States as threatened
or endangered species and to designate
critical habitat under the Endangered
Species Act (Act). The Miami cave
crayfish was included in this petition.
On September 27, 2011, we published a
90-day finding in the Federal Register
(76 FR 59836), concluding that the
petition presented substantial
information that indicated listing the
Miami cave crayfish may be warranted.
This document serves as both our 12month warranted petition finding and
our proposed rule to list this species.
Peer Review
A species status assessment (SSA)
team prepared an SSA report for the
Miami cave crayfish. The SSA team was
composed of Service biologists, in
consultation with other species experts.
The SSA report represents a
compilation of the best scientific and
commercial data available concerning
the status of the species, including the
impacts of past, present, and future
factors (both negative and beneficial)
affecting the species.
In accordance with our joint policy on
peer review published in the Federal
Register on July 1, 1994 (59 FR 34270),
and our August 22, 2016, memorandum
updating and clarifying the role of peer
review of listing actions under the Act,
we solicited independent scientific
review of the information contained in
the Miami cave crayfish SSA report. We
sent the SSA report to four independent
peer reviewers and received three
responses. Results of this structured
peer review process can be found at
https://regulations.gov. In preparing this
proposed rule, we incorporated the
results of these reviews, as appropriate,
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As discussed in Peer Review above,
we received comments from three peer
reviewers on the draft SSA report. We
reviewed all comments we received
from the peer reviewers for substantive
issues and new information regarding
the contents of the SSA report. The peer
reviewers generally concurred with our
methods and conclusions and provided
additional information, clarifications,
and suggestions, including clarification
on our methodology used to determine
the quantity of habitat and other
editorial suggestions. Two peer
reviewers provided additional locations
of Miami cave crayfish within the
established range of the species that we
incorporated into the SSA report.
Otherwise, no substantive changes to
our analysis and conclusions within the
SSA report were deemed necessary, and
peer reviewer comments are addressed
in version 1.0 of the SSA report.
10 miles (mi) (3–16 kilometers (km)) in
width and rising 3.2–28.2 ft (1–8.6 m)
above sea level between Everglades
National Park, Homestead, and North
Miami (Fish and Stewart 1991, p. 4;
Wacker et al. 2014, p. 26; Whitman and
Yeboah-Forson 2015, pp. 782, 790;
Meeder and Harlem 2019, pp. 560–561).
The Miami Limestone and Fort
Thompson Formation on the Atlantic
Coastal Ridge are highly porous
(containing large holes and cavities),
resembling a sponge, whereas those
same geologic layers in the surrounding
area are partly or completely cemented
with mud and sand. The Miami cave
crayfish is adapted to the unique
porosity of the Atlantic Coastal Ridge,
which provides nutrient flow and
subterranean space to inhabit. Miami
cave crayfish likely occupy the Biscayne
Aquifer from the top of the water table
in the Miami Limestone to the bottom
of the Fort Thompson Formation. The
species has not been observed outside of
the Atlantic Coastal Ridge, despite
surveys done in the surrounding area.
I. Proposed Listing Determination
Regulatory and Analytical Framework
Background
Regulatory Framework
A thorough review of the taxonomy,
life history, and ecology of the Miami
cave crayfish (Procambarus milleri) is
presented in the SSA report (version
1.1; Service 2022, pp. 3–18).
The Miami cave crayfish is a
relatively small, freshwater,
subterranean crayfish endemic to
southern and central Miami-Dade
County, Florida. On an evolutionary
timescale, the Miami cave crayfish is
recently adapted to the belowground
aquifer environment as is indicated by
the presence of both pigment and eye
facets in some individuals. Miami cave
crayfish are opportunistic omnivores,
primarily consuming surficial detritus
that filters down through the porous
limestone into their aquifer habitat
(Radice and Loftus 1995, p. 114).
Individuals may also consume
amphipods and isopods found in the
same habitat (Hobbs 1971, p. 114).
The species was first described based
on specimens collected from a 22-foot
(ft; 6.7-meter (m)) deep well, south of
Miami in 1968 (Hobbs 1971, entire).
Additional confirmed reports of the
species followed in 1992, 2000–2004,
2009, and most recently in 2018. The
species has been collected from wells
7.9–36 ft (2.41–11 m) deep in the Miami
Limestone and Fort Thompson
Formation within the Biscayne Aquifer
along the Atlantic Coastal Ridge.
The Atlantic Coastal Ridge is a
northeast-to-southwest-trending
elevated feature, varying between 1.8–
Section 4 of the Act (16 U.S.C. 1533)
and the implementing regulations in
title 50 of the Code of Federal
Regulations set forth the procedures for
determining whether a species is an
endangered species or a threatened
species, issuing protective regulations
for threatened species, and designating
critical habitat for endangered and
threatened species. In 2019, jointly with
the National Marine Fisheries Service,
the Service issued a final rule that
revised the regulations in 50 CFR part
424 regarding how we add, remove, and
reclassify endangered and threatened
species and the criteria for designating
listed species’ critical habitat (84 FR
45020; August 27, 2019). On the same
day, the Service also issued final
regulations that, for species listed as
threatened species after September 26,
2019, eliminated the Service’s general
protective regulations automatically
applying to threatened species the
prohibitions that section 9 of the Act
applies to endangered species (84 FR
44753; August 27, 2019).
The Act defines an ‘‘endangered
species’’ as a species that is in danger
of extinction throughout all or a
significant portion of its range, and a
‘‘threatened species’’ as a species that is
likely to become an endangered species
within the foreseeable future throughout
all or a significant portion of its range.
The Act requires that we determine
whether any species is an endangered
into the SSA report, which is the
foundation for this proposed rule.
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species or a threatened species because
of any of the following factors:
(A) The present or threatened
destruction, modification, or
curtailment of its habitat or range;
(B) Overutilization for commercial,
recreational, scientific, or educational
purposes;
(C) Disease or predation;
(D) The inadequacy of existing
regulatory mechanisms; or
(E) Other natural or manmade factors
affecting its continued existence.
These factors represent broad
categories of natural or human-caused
actions or conditions that could have an
effect on a species’ continued existence.
In evaluating these actions and
conditions, we look for those that may
have a negative effect on individuals of
the species, as well as other actions or
conditions that may ameliorate any
negative effects or may have positive
effects.
We use the term ‘‘threat’’ to refer in
general to actions or conditions that are
known to or are reasonably likely to
negatively affect individuals of a
species. The term ‘‘threat’’ includes
actions or conditions that have a direct
impact on individuals (direct impacts),
as well as those that affect individuals
through alteration of their habitat or
required resources (stressors). The term
‘‘threat’’ may encompass—either
together or separately—the source of the
action or condition or the action or
condition itself.
However, the mere identification of
any threat(s) does not necessarily mean
that the species meets the statutory
definition of an ‘‘endangered species’’ or
a ‘‘threatened species.’’ In determining
whether a species meets either
definition, we must evaluate all
identified threats by considering the
species’ expected response and the
effects of the threats—in light of those
actions and conditions that will
ameliorate the threats—on an
individual, population, and species
level. We evaluate each threat and its
expected effects on the species, then
analyze the cumulative effect of all of
the threats on the species as a whole.
We also consider the cumulative effect
of the threats in light of those actions
and conditions that will have positive
effects on the species, such as any
existing regulatory mechanisms or
conservation efforts. The Secretary
determines whether the species meets
the definition of an ‘‘endangered
species’’ or a ‘‘threatened species’’ only
after conducting this cumulative
analysis and describing the expected
effect on the species now and in the
foreseeable future.
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The Act does not define the term
‘‘foreseeable future,’’ which appears in
the statutory definition of ‘‘threatened
species.’’ Our implementing regulations
at 50 CFR 424.11(d) set forth a
framework for evaluating the foreseeable
future on a case-by-case basis. The term
‘‘foreseeable future’’ extends only so far
into the future as we can reasonably
determine that both the future threats
and the species’ responses to those
threats are likely. In other words, the
foreseeable future is the period of time
in which we can make reliable
predictions. ‘‘Reliable’’ does not mean
‘‘certain’’; it means sufficient to provide
a reasonable degree of confidence in the
prediction. Thus, a prediction is reliable
if it is reasonable to depend on it when
making decisions.
It is not always possible or necessary
to define the foreseeable future as a
particular number of years. Analysis of
the foreseeable future uses the best
scientific and commercial data available
and should consider the timeframes
applicable to the relevant threats and to
the species’ likely responses to those
threats in view of its life-history
characteristics. Data that are typically
relevant to assessing the species’
biological response include speciesspecific factors such as lifespan,
reproductive rates or productivity,
certain behaviors, and other
demographic factors.
Analytical Framework
The SSA report documents the results
of our comprehensive biological review
of the best scientific and commercial
data regarding the status of the species,
including an assessment of the potential
threats to the species. The SSA report
does not represent our decision on
whether the species should be proposed
for listing as an endangered or
threatened species under the Act.
However, it does provide the scientific
basis that informs our regulatory
decisions, which involve the further
application of standards within the Act
and its implementing regulations and
policies.
To assess Miami cave crayfish
viability, we used the three conservation
biology principles of resiliency,
redundancy, and representation (Shaffer
and Stein 2000, pp. 306–310). Briefly,
resiliency is the ability of the species to
withstand environmental and
demographic stochasticity (for example,
wet or dry, warm or cold years),
redundancy is the ability of the species
to withstand catastrophic events (for
example, droughts, large pollution
events), and representation is the ability
of the species to adapt to both near-term
and long-term changes in its physical
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and biological environment (for
example, climate conditions,
pathogens). In general, species viability
will increase with increases in
resiliency, redundancy, and
representation (Smith et al. 2018, p.
306). Using these principles, we
identified the species’ ecological
requirements for survival and
reproduction at the individual,
population, and species levels, and
described the beneficial and risk factors
influencing the species’ viability.
The SSA process can be categorized
into three sequential stages. During the
first stage, we evaluated the individual
species’ life-history needs. The next
stage involved an assessment of the
historical and current condition of the
species’ demographics and habitat
characteristics, including an
explanation of how the species arrived
at its current condition. The final stage
of the SSA involved making predictions
about the species’ responses to positive
and negative environmental and
anthropogenic influences. Throughout
all of these stages, we used the best
available information to characterize
viability as the ability of a species to
sustain populations in the wild over
time. We use this information to inform
our regulatory decision.
The following is a summary of the key
results and conclusions from the SSA
report; the full SSA report can be found
at Docket FWS–R4–ES–2023–0103 on
https://www.regulations.gov and at
https://ecos.fws.gov/ecp/species/9832.
Summary of Biological Status and
Threats
In this discussion, we review the
biological condition of the species and
its resources, and the threats that
influence the species’ current and future
condition, in order to assess the species’
overall viability and the risks to that
viability.
Species Needs
The SSA report contains a detailed
discussion of the Miami cave crayfish
individual and population requirements
(Service 2022, pp. 23–27); we provide a
summary here. Based upon the best
available scientific and commercial
information, and acknowledging
existing ecological uncertainties, the
resource and demographic needs for
breeding, feeding, sheltering, and
dispersal of the Miami cave crayfish are
characterized as:
• Sufficient freshwater quality and
availability to support a suitable aquatic
environment for movement and healthy
individuals.
• Sufficient quantities of mega-porous
limestone to provide the structure
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needed for Miami cave crayfish
movement and shelter. The Miami cave
crayfish has adapted to these megaporous limestone layers in the Biscayne
Aquifer, which provides them with
structures through which juvenile and
adult Miami cave crayfish can travel
between areas within the aquifer
system, facilitating connectivity;
microhabitats in which individuals can
shelter or hide from intra- and
interspecific threats; and enhanced
groundwater flow for improved water
quality and food availability (Loftus and
Trexler 2004, p. 49, Hobbs and Means
1972, p. 401; Caine 1978, pp. 323, 325,
Fish and Stewart 1991, p. 47; Wacker et
al. 2014, pp. 27–40).
• Sufficient quantities of detritus
filtering from the surface into the
subterranean aquifer to support both the
Miami cave crayfish and the amphipods
and isopods upon which the crayfish
may also feed.
Miami cave crayfish abundance is
limited to the availability and condition
of these resources in the Biscayne
Aquifer along the Atlantic Coastal
Ridge. While there is high confidence in
these identified species needs,
uncertainty exists as to the exact
parameters and quantities needed for
each of these factors, as no ecological or
quantitative studies have been
completed on them.
Threats
The main threats affecting the Miami
cave crayfish are related to shifts in
climate largely as a result of increasing
greenhouse gas emissions. Saltwater
intrusion into the Biscayne Aquifer as a
result of sea level rise, more frequent
tidal flooding (increase of tides above
the mean high tide), and increasing
intensity of storm events (such as
hurricanes) are the predominant threats
to the Miami cave crayfish and its
habitat. Additional threats with greater
uncertainty and likely less severity to
the Miami cave crayfish include water
quality degradation, groundwater
pumping, and modification of surface
cover resulting from urban
development. We also evaluated
existing ongoing conservation measures
and regulatory mechanisms. In the SSA
report, we considered additional threats:
modification of subterranean limestone,
competition and predation, disease, and
overutilization. We concluded that, as
indicated by the best available scientific
and commercial information, these
additional threats are currently having
little to no impact on the Miami cave
crayfish, and thus their overall effect
now is expected to be minimal and the
best available information does not
indicate this will change in the future.
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For full descriptions of all threats and
how they impact the Miami cave
crayfish, please see the SSA report
(Service 2022, pp. 27–78).
Saltwater Intrusion
Although the salinity tolerance of
Miami cave crayfish has not been
assessed, surrogate species, such as the
closely related Everglades crayfish
(Procambarus alleni), indicate it is
highly unlikely that the species could
persist in the salinity levels found in
areas affected by saltwater intrusion.
Surface-dwelling crayfish are able to
persist in saline environments in the
short-term, but exposure to salinity
levels above naturally occurring levels
for long periods of time can cause
inhibition of growth, limited to no
reproduction, lower hatching success,
and mortality (Vesely´ et al. 2017, pp. 4–
5). Additionally, when comparing the
salinity levels found in the closely
related, brackish-water-dwelling
Everglades crayfish to salinity levels
found in areas of the Biscayne Aquifer
affected by saltwater intrusion, the
salinity levels in areas affected by
saltwater intrusion far exceeded
tolerances of the Everglades crayfish
(Hendrix and Loftus 2000, p. 194;
Service 2022, p. 69). This indicates that
a closely related, saline-tolerant species
of crayfish would not be able to tolerate
the salinity levels that the Miami cave
crayfish would be experiencing in areas
of saltwater intrusion. Therefore, we
concluded the Miami cave crayfish
likely cannot persist in areas affected by
saltwater intrusion, because it needs
sufficient freshwater in order to survive
and reproduce.
Saltwater intrusion occurs when
saltwater enters into a freshwater
aquifer system. Four main processes
contribute to the intrusion of saltwater
into aquifer systems like the Biscayne
Aquifer: (1) the escape of saltwater that
had been previously stored in
sedimentary rocks, (2) the gradual
advance of oceanwater along the base of
the aquifer as a result of lowering
freshwater levels within the aquifer and
sea level rise, (3) seepage of hypersaline
(extremely salty) water from coastal
saltwater marshes, and (4) leakage of
saltwater from canal systems that feed
into the ocean (Prinos et al. 2014, pp.
12–16). Processes two and four are of
greatest concern to the Biscayne Aquifer
within the range of Miami cave crayfish
because of large sea level rise
projections, the potential effects from
the planned construction of a curtain
wall west of the Atlantic Coastal Ridge
(discussed below), and the extensive
canal network in the area. Additionally,
the area’s low altitude and topographic
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gradient, high permeability, and the
bordering saltwater sources of the
Atlantic Ocean, Biscayne Bay, and
Florida Bay make it especially
susceptible to saltwater intrusion
(Prinos et al. 2014, p. 2).
Sea level rise—Regional sea levels
could rise between 1.41 ft (0.43 m) and
4.53 ft (1.38 m) by 2070. Temperatures
are predicted to rise as well, while dry
seasons, droughts, and tropical storms
are likely to become more extreme (IPCC
2014, pp. 1452–1456; Infanti et al. 2020,
entire; IPCC 2021, pp. 32, 33). The
cumulation of all of these climatic
factors is highly likely to result in the
continued inland migration of the
saltwater interface in the Biscayne
Aquifer along the Atlantic Coastal
Ridge. The loss of habitat along the
eastern edge of the Atlantic Coastal
Ridge is particularly impactful since
these coastal areas exhibit the greatest
aquifer depths and, thus, the greatest
overall quantity of Miami cave crayfish
habitat.
Curtain wall—In the western range of
the species, a project started in 2012
that may impact saltwater intrusion is
the construction of a 19- to 31-mile (31to 50-kilometer) curtain wall west of the
Atlantic Coastal Ridge. The curtain
wall’s purpose is to manage waters
within the Everglades wetland
ecosystem and protect the coastal
urbanized area of Miami-Dade County
from flooding (Owosina 2020,
unpaginated). The project is expected to
be completed in five-to-10-mile
increments within the next ten years if
funding can be secured. The curtain
wall will alter the superficial water flow
that reaches the Miami-Dade area, but
we are not certain of the level of effects
or dynamics to the Biscayne Aquifer,
particularly to the east of the structure
on the Atlantic Coastal Ridge where
water flow from the Everglades wetland
ecosystem in the east may be reduced.
Groundwater will still flow under the
curtain wall. The recommended
configuration for further study (a 27mile South scenario) will include gaps
in the curtain wall and is seeking to
balance restoration and flood control
while mitigating impacts to Biscayne
Bay, Taylor Slough, and water supply
(South Florida Water Management
District 2023, p. 9–89–9–92).
Currently, a general eastward and
southeastward direction of groundwater
flow along the Atlantic Coastal Ridge
counters the encroachment of saltwater
from the ocean (Prinos et al. 2014, p. 6).
Weakening of this eastward and
southeastward water flow may cause
increased saltwater intrusion and
subsequent loss of Miami cave crayfish
habitat. In addition, any potential loss of
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freshwater recharge provided by the
Everglades wetland ecosystem may drop
the groundwater levels of the Biscayne
Aquifer on the Atlantic Coastal Ridge,
further contributing to saltwater
intrusion.
Canals—Modern water management
and its impact on saltwater intrusion
has a long history in the Miami area,
beginning with the coordinated draining
of the Everglades wetland ecosystem in
1845. Historically, canals along the
Atlantic Coastal Ridge aided in draining
the adjacent wetland systems, which,
along with groundwater pumping, led to
a permanent drop of about 9.5 ft (2.9 m)
in regional groundwater levels within
the Biscayne Aquifer (Prinos et al. 2014,
pp. 2, 64). As a result, saltwater
intrusion began to expand inward from
the coast (Prinos et al. 2014, p. 64).
Concurrently, saltwater flowed up the
expanded canal systems from the ocean
and seeped into the surrounding aquifer
system (Prinos et al. 2014, p. 64).
Today’s water management system is
operated by the South Florida Water
Management District and includes a
complex, interconnected network of
water conservation areas, well-fields,
water control structures, levees, pumps,
and canals. Despite the installation of
salinity control structures along most of
the tidal canal system in Miami-Dade
County, saltwater seepage from canals
into the adjacent aquifer system is still
one of the primary mechanisms by
which saltwater intrusion occurs in the
region (Prinos et al. 2014, pp. 42, 43,
47–55, 66).
In summary, saltwater intrusion is the
primary threat to the Miami cave
crayfish, because it causes complete loss
of habitat and is projected to get worse
in the future; and the species has no
dispersal potential outside of its current,
restricted range.
Groundwater Pumping
Residents of Miami-Dade County have
been pumping freshwater out of the
Biscayne Aquifer for residential,
agricultural, industrial, municipal, and
recreational use since the first public
supply wells were drilled in 1899
(Prinos et al. 2014, p. 18; Hughes and
White 2016, pp. 27–29). As the
population has grown, so too has the
demand for freshwater. Public
groundwater withdrawals increased in
line with population growth until 2006
when demand on the aquifer was
mitigated by stricter water use
regulations (Bradner et al. 2005, p. 1;
Prinos et al. 2014, p. 7).
Although 90 percent of the freshwater
consumed by Miami-Dade County
residents is pumped from the Biscayne
Aquifer, these are not the only South
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Florida populations drawing from the
aquifer’s groundwater reserves. Over 4
million people in Broward and Palm
Beach Counties also rely on the
Biscayne Aquifer for their freshwater
needs, and groundwater piped from the
Biscayne Aquifer to the Florida Keys
serves as the main source of potable
water for all of Monroe County (Bradner
et al. 2005, p. 1; Prinos et al. 2014, p.
7). Consequently, the U.S.
Environmental Protection Agency (EPA)
has designated the Biscayne Aquifer as
a sole-source aquifer (i.e., the only
viable groundwater source in the region;
EPA 2016, entire).
As mentioned in the Canals
discussion above, groundwater pumping
was part of what caused an estimated
9.5-ft (2.9-m) drop in water levels
compared to levels before the drainage
of the Everglades (Prinos et al. 2014, p.
17). This drop in water level roughly
equates to an 11 percent loss in
potential Miami cave crayfish habitat
since the 1840s (Service 2022, pp. 53).
An 11 percent loss in habitat from
potential historical levels is significant
because the species has an already
limited range.
In addition to causing direct loss of
habitat, groundwater withdrawal can
exacerbate the effects of saltwater
intrusion. Lower freshwater levels as a
result of groundwater withdrawal can
cause saltwater intrusion to move
further inland (Prinos et al. 2014, pp.
12–16). Lower freshwater levels also act
synergistically with sea level rise to
increase the rate of saltwater intrusion
encroachment into the aquifer.
The most uncertain but potentially
most impactful result of groundwater
pumping is from the pumping process
itself. Mortality events are possible for
Miami cave crayfish that get sucked into
a water pump system. In fact, the
original specimens from which the
species was first described were
deceased individuals collected from a
water pump trap (Hobbs 1971, p. 114).
However, public water supply wells
may have water pumps that are deep
enough to avoid impacting the Miami
cave crayfish. For example, the MiamiDade Water and Sewer Department
Northwest Wellfield has wells
constructed with 46 feet of casing,
meaning water is being pumped deeper
than 46 feet (Krupa et al. 2001, p. 3).
The deepest Miami cave crayfish have
been collected from is 36 feet deep.
Therefore, public water supply wells
may not have a significant effect on the
species depending on the depth of the
well. Private water supply, agricultural,
or other types of wells that are
shallower may have a more significant
impact to the species. Overall, the
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extent of mortality resulting from water
pumping is unknown but could be
having ongoing impacts on the species.
Water Quality Degradation
The high permeability of the Biscayne
Aquifer, particularly along the Atlantic
Coastal Ridge, makes its groundwater
vulnerable to contamination from
surficial inputs, belowground septic
tanks, and adjoining water bodies
(Bradner et al. 2005, entire; Potter et al.
2007, p. 1306; Florida Department of
Environmental Protection 2019, entire).
In particular, the sandy soils typical to
the Atlantic Coastal Ridge contain
relatively small amounts of soil organic
matter and exhibit low water retention,
increasing the potential for leaching of
surface contaminants into groundwater
below (Marchi et al 2016, pp. 237–238).
Additionally, the high interconnectivity
of the Biscayne Aquifer facilitates the
relatively rapid and extensive spread of
contaminants well beyond their point of
origin (Harvey et al. 2008, entire;
Shapiro et al. 2008, entire).
Pharmaceuticals, pesticides, volatile
organic compounds, excess nutrients,
and excess trace elements are
introduced into groundwater throughout
Miami-Dade County by a variety of land
uses associated with development,
agriculture, and recreation. These
contaminants are concentrated in canals
and other water bodies from which they
seep into the Biscayne Aquifer. A
current and comprehensive regional
assessment of groundwater
contamination across the endemic range
of Miami cave crayfish is not available;
however, there are many sources of
pollutants including human wastewater,
agriculture, and golf courses, among
others (Service 2022, pp. 59–61).
Using other crayfish and crustaceans
as analogues, we predict that Miami
cave crayfish likely experience
increased morbidity, mortality, and
reproductive loss when exposed to
anthropogenic contaminants (Service
2022, p. 58). However, although
pollutants may be a significant threat to
the species, the scope and magnitude of
this threat is not known because of the
lack of information on the levels of
pollutants across the range of the Miami
cave crayfish.
Modification of Surface Cover
The subterranean communities
supporting Miami cave crayfish are
dependent on the influx of detritus from
surficial sources. When surface
vegetation is lost or is blocked by
impermeable land cover from entering
subterranean habitats, the food supply
of the species can be compromised. The
majority of the surface cover above
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Miami cave crayfish habitat is
impermeable cover (greater than 85
percent). Because of the large amount of
impermeable cover above subterranean
habitat, there is likely less detritus
available for the Miami cave crayfish.
However, the best available information
does not indicate that the amount of
detritus filtering down into Miami cave
crayfish habitat has been significantly
reduced because of impermeable cover.
Summary of Threats
The primary threat to the Miami cave
crayfish is saltwater intrusion as a result
of sea level rise, increased high tide
flooding, increased intensity of storm
events, groundwater pumping, and
altered hydrologic flows. Saltwater
intrusion results in a complete loss of
habitat, which is significant because the
Miami cave crayfish has a restricted
range. Additional threats with greater
uncertainty and likely less severity
include mortality from groundwater
pumps, water quality degradation, and
impermeable surface cover limiting
detritus flow into subterranean habitat.
Current Conditions
The current condition of the Miami
cave crayfish is described in terms of
population resiliency, redundancy, and
representation across the species. The
analysis of these conservation principles
to understand the species’ current
viability is described in more detail in
the Miami cave crayfish SSA report
(Service 2022, pp. 78–93).
Historically, all Miami cave crayfish
were likely part of one metapopulation
that had some degree of connectivity.
Currently, the Miami cave crayfish still
exists in one population restricted to the
Biscayne Aquifer along the Atlantic
Coastal Ridge. However, a series of
canals cross the Atlantic Coastal ridge
reduce connectivity. For the purposes of
this assessment, we divided the Atlantic
Coastal Ridge into seven analysis units
to assess resiliency of the Miami cave
crayfish. Reduced connectivity from
canals creates semi-isolated areas,
which led us to delineating seven
analysis units using the network of
canals as boundaries (Service 2022, p.
22).
To determine the current resiliency
for the seven analysis units, we assessed
habitat metrics, such as freshwater
availability, detritus availability,
freshwater quality, and habitat quantity.
For each metric if greater than 79
percent of the measured factor is in a
natural, anthropogenically unaltered
state it ranked as a high condition, 51–
79 percent ranked as a moderate
condition, and 50 percent or less ranked
as a low condition.
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Freshwater Availability
Saltwater intrusion is the primary
threat to the Miami cave crayfish
because it reduces the amount of
freshwater available for the species’
habitat. Currently, saltwater intrusion is
affecting six of the seven analysis units
for the Miami cave crayfish (Service
2022, p. 68; Prinos 2019, entire). Two
units have greater than 50 percent of
habitat affected by saltwater intrusion,
four units have 17 to 26 percent of
habitat affected, and two units have 0 to
5 percent of habitat affected (Service
2022, p. 88). Overall, a majority of
Miami cave crayfish habitat is currently
unaffected by saltwater intrusion and is
considered to be in a high condition.
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Availability of Detritus and Freshwater
Quality
Currently, we have little to no
information on whether the amount of
detritus filtering down into Miami cave
crayfish habitat has been significantly
reduced because of impermeable cover;
effects of pollution on water quality; or
mortality resulting from groundwater
pumping or subsurface modification
activities, such as mining. While these
stressors likely affect the resiliency of
the Miami cave crayfish, we do not
know the direct effects to the species
and its needs.
Because we do not know the direct
effects impermeable cover, pollutants,
and activities that cause mortality have
on the Miami cave crayfish, we
estimated the magnitude of these
stressors on the species and its needs
based on indirect measures.
To assess the availability of detritus,
we compared the amount of permeable
cover currently above Miami cave
crayfish habitat to the amount of
permeable cover that was historically
present. Each analysis unit has less than
37 percent surface area remaining that is
permeable cover (Service 2022, p. 85).
Permeable cover is defined as surface
cover with vegetation that provides
detritus directly into the subterranean
habitat. All analysis units are
considered in a low condition for the
quality of surface cover. We
acknowledge that we do not know the
amount of detritus needed by the Miami
cave crayfish nor the current amount of
available detritus in the Biscayne
Aquifer; therefore, there is significant
uncertainty in this metric.
To assess water quality, we estimated
the number of potential sources of
pollution within the range of the
species. We categorized different land
use types, such as agriculture, by the
pollutants they may be inputting into
the Biscayne Aquifer. Then, we
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measured the amount of surface cover in
each analysis unit that is likely
inputting pollutants into the aquifer.
Each analysis unit is in a low condition
for water quality because of the large
number of potential inputs of pollutants
into Miami cave crayfish habitat. We
acknowledge that we do not know the
water quality parameters needed by the
Miami cave crayfish nor the amount of
pollution within the range of the
species; therefore, there is significant
uncertainty in this metric.
Habitat Quantity
To assess habitat quantity, we
estimated the total physical volumetric
habitat available to the species (i.e., the
total subterranean karstic limestone that
is submerged in the Biscayne aquifer).
We used the most recent available data
for the depth of the Biscayne Aquifer on
the Atlantic Coastal Ridge (Hughes and
White 2016, p. 26) and subtracted out
certain land uses, like limestone mines,
and sewer line infrastructure (MiamiDade County 2018, entire and MiamiDade County 2021a, entire). We then
compared the amount of subterranean,
karstic limestone aquifer habitat
currently available to the amount that
was historically present. All analysis
units are in a high condition relative to
habitat quantity (Service 2022, p. 80).
Resiliency, Redundancy, and
Representation
Although we found overall resilience
to be low in all analysis units, we
determined the Miami cave crayfish
currently has sufficient resiliency to
withstand environmental and
demographic stochasticity. A majority of
the Miami cave crayfish range is in a
high condition for freshwater
availability and habitat quantity is in a
high condition for all seven analysis
units. Our measures of available detritus
and water quality are in a low condition
across the range. However, we put
greater weight on the freshwater
availability and habitat quantity metrics
because they are direct measures of the
species’ needs, whereas we put less
weight on the availability of detritus
and freshwater quality metrics because
they are indirect measures of the
species’ needs with significant
assumptions. We then assessed the best
available demographic data for the
Miami cave crayfish.
Surveys since 2000 indicate the
species is present in all analysis units
except for the one analysis unit most
impacted by saltwater intrusion (Service
2022, p. 21). The most comprehensive
surveys were completed in the period
2000–2004, confirming presence of the
species distributed throughout the range
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(Service 2022, p. 21). Subsequently, one
anecdotal observation in 2009 along
with a survey effort in 2018 confirmed
presence in a total of four analysis units
spread throughout the range (Service
2022, p. 21). The effects of impermeable
land cover and pollution in the
Biscayne Aquifer have been impacting
the Miami cave crayfish for multiple
decades; therefore, the continued
presence of the species throughout the
range indicates it currently has
sufficient resiliency to these stressors.
In summary, the Miami cave crayfish
currently has sufficient resiliency to
withstand environmental and
demographic stochasticity because there
is enough freshwater and habitat
available. Despite our measures of
available detritus and water quality
being in low condition, the Miami cave
crayfish has consistently been found
throughout its range through multiple
decades of impermeable land cover and
pollution in the Biscayne Aquifer,
indicating that it currently has sufficient
resiliency to these stressors. We
combined our habitat metric analysis
with the best available information on
the demographics of the species to
determine that the Miami cave crayfish
currently has sufficient resiliency to
withstand environmental and
demographic stochasticity.
The Miami cave crayfish currently has
limited ability to withstand catastrophic
events and adapt to a changing
environment because it has naturally
low redundancy and representation due
to its high level of endemism. The
narrowly distributed, isolated nature of
the single population of the species
indicates it has limited ability to
withstand stochastic or catastrophic
events through dispersal. Because the
species evolved in a unique
subterranean aquifer system with little
historical variation, we conclude that it
has low potential to adapt to
environmental changes to its habitat. As
a single-aquifer endemic with no
dispersal opportunities outside the
current range, the species depends
entirely on the continued availability of
its habitat along the Atlantic Coastal
Ridge. Even though redundancy and
representation are inherently low for the
Miami cave crayfish because of its
endemism, they are both similar to
historical levels.
Future Condition
In the SSA report, we analyzed four
scenarios that incorporated changes in
saltwater intrusion caused by sea level
rise, urbanization, water quality
condition caused by pollution, and
water quantity condition caused by
groundwater pumping. The main driver
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of the future condition of the species is
the movement of saltwater intrusion
further inland because of sea level rise.
Urbanization, pollution levels, and
groundwater pumping levels do not
change significantly into the future
because they are already at high levels
and there is limited capacity for more
development, though they may increase
if the limited available land is
developed. Subsequently, we focus on
the future effects of saltwater intrusion
in this document. Further discussion of
future changes in urbanization, water
quality condition, and water quantity
condition can be found in the SSA
report (Service 2022, pp. 94–100).
As sea level rises, more Miami cave
crayfish habitat will become unsuitable
because saltwater will intrude further
inland into the Biscayne Aquifer. The
Biscayne Aquifer has varied depth,
ranging from 50 ft (15 m) in the most
inland extent of the range to 90 ft (27
m) in the most coastal extent of the
range (Hughes and White 2016, p. 26).
Because the aquifer is deepest closer to
the coast, there is more Miami cave
crayfish habitat within this area. Coastal
habitat will be increasingly impacted by
saltwater intrusion, which is significant
because the largest volume of habitat
will be lost first.
For our evaluation of future
condition, we used modeled projections
of sea level rise (Sweet et al. 2017,
entire; Sweet et al. 2018, entire). We
modeled threats to the year 2070,
representing a 50-year time horizon,
corresponding to the range of available
urbanization and climate change model
forecasts (Carr and Zwick 2016, entire;
Sweet et al. 2017, entire; Sweet et al.
2018, entire). In addition, 50 years
represents an appropriate biological
timeframe during which responses of
the species to potential changes in
habitat can be reasonably assessed.
Although the lifespan and generation
time for Miami cave crayfish are
currently unknown, estimates for these
measures based on those reported for
other subterranean crayfish taxa (Taylor
et al. 1996, p. 27; Huryn et al. 2008, pp.
1, 12–15; Longshaw and Stebbing 2016,
p. 68) suggest that three generations of
the species would likely be represented
in a 50-year time span.
No projections currently exist that
predict the extent of saltwater intrusion
into the Biscayne Aquifer by 2070, so
we estimated the inland movement of
the saltwater interface from its 2018
position (Prinos 2019, unpaginated)
based on the projections of regional sea
level rise, the degree of aquifer
drawdown, and anthropogenic
interventions potentially altering
saltwater intrusion. The regional sea
level rise scenarios adopted from Sweet
et al. (2017 and 2018) (e.g.,
Intermediate, Intermediate High, and
Extreme scenarios) encompass the
extent of sea level rise predicted by the
low-end and high-end likely ranges for
the representative concentration
pathway (RCP) 4.5 and RCP 8.5
emissions scenarios for future global
temperatures projected by the
Intergovernmental Panel on Climate
Change assessment report 5 (Sweet et al.
2018, p. 24).
After we had completed our SSA,
version 1.0, new sea level rise
projections were made publicly
available (Sweet et al. 2022, entire). We
compared the Sweet et al. (2017, entire)
sea level rise projections to the new
updated Sweet et al. (2022, entire)
projections and added this comparison
64863
summary as an appendix to the SSA
report (Service 2023, version 1.1). The
Sweet et al. (2022, entire) sea level rise
scenarios project lower sea level rise in
2070 when compared to projections
from Sweet et al. (2017, entire).
However, including the additional
effects of high tide flooding, similar loss
of habitat would be expected as seen in
our projections using Sweet et al. 2017.
The intermediate sea level rise
scenario (1.41-ft (0.43-m) regional sea
level rise projection) is represented in
the SSA report by scenario 4; the
intermediate-high sea level rise scenario
(2.49-ft (0.76-m) regional sea level rise
projection) is represented in the SSA
report by scenarios 1 and 2; and the
extreme sea level rise scenario (4.53-ft
(1.38-m) regional sea level rise
projection) is represented by scenario 3
(Sweet et al. 2017 and 2018, entire).
In scenario 4, saltwater intrusion will
cause increased habitat loss in the two
analysis units in a low condition and
the one analysis unit in a moderate
condition, while also causing one high
condition unit to drop to a moderate
condition (Service 2022, pp. 106–107;
table 1). In scenarios 1 and 2, saltwater
intrusion will cause two units to
decrease from a high to moderate
condition, one unit will decrease from
a moderate to a low condition, and one
unit will decrease from a low to
extirpated condition. In scenario 3,
saltwater intrusion will cause three
units to be completely extirpated and
the remaining four units to drop to a
low condition, meaning over 50 percent
of the habitat in those units would be
lost (Service 2022, pp. 104–105; table 1).
In all of our future scenarios, a
significant loss of habitat would result
from saltwater intrusion (table 1).
TABLE 1—CONDITION OF FRESHWATER AVAILABILITY FOR THE CURRENT CONDITION AND THE FUTURE CONDITION FOR
EACH SCENARIO FOR EACH ANALYSIS UNIT OF THE MIAMI CAVE CRAYFISH
Analysis unit
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1
2
3
4
5
6
7
....................
....................
....................
....................
....................
....................
....................
Current condition:
freshwater availability
Scenario 4: 1
freshwater
availability
Scenario 1: 2
freshwater
availability
Scenario 2: 2
freshwater
availability
High .............................
High .............................
High .............................
High .............................
Low ..............................
Moderate ......................
Low ..............................
High .............................
High .............................
Moderate ......................
High .............................
Low ..............................
Moderate ......................
Low ..............................
Moderate ......................
Moderate ......................
Moderate ......................
High .............................
Extirpated .....................
Low ..............................
Low ..............................
Moderate ......................
Moderate ......................
Low ..............................
High .............................
Extirpated .....................
Low ..............................
Low ..............................
Scenario 3: 3
freshwater
availability
Low.
Low.
Low.
Low.
Extirpated.
Extirpated.
Extirpated.
Scenarios 4 and 3 represent the upper and lower bounds of projected scenarios for the future condition of the species:
1 Scenario 4: Intermediate sea level rise scenario (1.41-ft (0.43-m) regional sea level rise).
2 Scenarios 1 and 2: Intermediate-high sea level rise scenario (2.49-ft (0.76-m) regional sea level rise).
3 Scenario 3: Extreme sea level rise scenario (4.53-ft (1.38-m) regional sea level rise).
Resiliency, redundancy, and
representation would all be reduced in
the future because of habitat loss due to
saltwater intrusion. With less habitat
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available, Miami cave crayfish
abundance would likely decline. Fewer
Miami cave crayfish in the aquifer and
less available habitat reduces the ability
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of the species to withstand
environmental and demographic
stochasticity and also its ability to
withstand catastrophic events. A lower
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population size also reduces the genetic
diversity of the species, further limiting
its adaptive capacity. Additionally, the
Miami cave crayfish has no ability to
disperse outside of its current range,
also limiting its ability to adapt to
changing conditions. Overall, the Miami
cave crayfish will likely be significantly
more vulnerable to stressors in the
future because of habitat loss due to
increased impacts of saltwater intrusion
due to sea level rise.
We note that, by using the SSA
framework to guide our analysis of the
scientific information documented in
the SSA report, we have analyzed the
cumulative effects of identified threats
and conservation actions on the species.
To assess the current and future
condition of the species, we evaluate the
effects of all the relevant factors that
may be influencing the species,
including threats and conservation
efforts. Because the SSA framework
considers not just the presence of the
factors, but to what degree they
collectively influence risk to the entire
species, our assessment integrates the
cumulative effects of the factors and
replaces a standalone cumulative effects
analysis.
Conservation Efforts and Regulatory
Mechanisms
Regulations that help to protect
Miami cave crayfish habitat include
water management regulations that
reduce groundwater withdrawal and
pollution.
The South Florida Water Management
District is responsible for water
management in Miami-Dade County and
regulates water use and production
throughout the region. In 2007, the
South Florida Water Management
District passed a rule that prevents
water consumers from sourcing new or
additional supplies of freshwater that
are recharged by the Everglades
ecosystem. Water users are now
required to use alternative sources, such
as recycled water, treated wastewater
pumped into the Biscayne Aquifer for
recharge purposes, groundwater
reserves in the Floridan aquifer system,
or general water conservation practices
(South Florida Water Management
District 2008, entire; Hughes and White
2016, pp. 2–3). The measure has already
resulted in decreased rates of public
water withdrawal from the Biscayne
Aquifer (Bradner et al. 2005, p. 1; Prinos
et al. 2014, p. 7).
Another key regulation adopted by
the South Florida Water Management
District that counters freshwater
withdrawal from the Biscayne Aquifer is
its year-round landscape watering
restrictions (Chapter 40E–24, Florida
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Administrative Code). These restrictions
stipulate specific times that landscape
watering is permitted, thus restricting
the amount of groundwater that can be
withdrawn from those using public or
privately owned water utility systems or
wells. However, some large sources of
water consumption are exempted by
these regulations, namely athletic play
areas (e.g., golf courses, sports facilities,
equestrian and livestock arenas),
agricultural operations with
consumptive use permits, and water
users practicing hand watering (e.g.,
with hoses) (South Florida Water
Management District 2021a,
unpaginated).
Biscayne Aquifer groundwater has
limited protective benefits from
pollution under Federal, State, and
county regulations. Most regulatory
protections focus on surface water
quality, which offers indirect benefits to
the quality of freshwater within the
Biscayne Aquifer system. The primary
laws and ordinances pertaining to water
quality protection that directly or
indirectly affect groundwater quality in
the endemic range of Miami cave
crayfish include (but are not limited to):
• Comprehensive Environmental
Response, Compensation, and Liability
Act of 1980 (the Superfund law) (42
U.S.C. 9601 et seq.): identifies,
evaluates, and cleans up sites
contaminated with hazardous
substances.
• Resource Conservation and
Recovery Act (42 U.S.C., ch. 82, sec.
6901 et seq.): establishes standards for
the treatment, storage, and disposal of
hazardous waste from municipal and
industrial sources, including that
contained in underground storage tanks.
• Safe Drinking Water Act (42 U.S.C.
300f): establishes national primary
drinking water regulations for
contaminants that may cause adverse
public health effects, including
mandatory requirements related to
maximum contaminant levels and
treatments.
• Clean Water Act of 1972 (33 U.S.C.
1251 et seq.): indirectly benefits
groundwater quality by protecting the
quality of surficial waters.
• The Everglades Forever Act
(Section 373.4592(4)(f), F.S.): establishes
best management practices in the
Everglades Agricultural Area, which is
underlaid by the Biscayne Aquifer that
indirectly benefits from these
regulations.
• The Grizzle-Figg Statute (Section
403.086, F.S.): outlines requirements for
safe sewage disposal facilities and
treatment of discharges from these
sewage facilities.
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• Identification of Impaired Surface
Waters (Section 62–303, F.S.):
establishes water quality standards and
protocols by which Florida assesses,
lists, and delists impaired surface
waters, which indirectly protects
adjacent aquifer systems.
• Miami-Dade County Ordinance for
Florida-Friendly Fertilizer Use for
Urban Landscapes: regulates fertilizer
application and use in the incorporated
and unincorporated areas of the county.
• Miami-Dade County Wellfield
Protection Regulations: prohibits or
limits activities that use or store
hazardous materials, generate hazardous
waste, excavate to any depth, or require
the installation of septic tanks within a
wellfield protection area.
Currently, there are no conservation
efforts specific to the Miami cave
crayfish.
The Miami cave crayfish is listed in
the State Wildlife Action Plan as a
species of greatest concern (Florida Fish
and Wildlife Conservation Commission
2019, p. 163).
Determination of Miami Cave Crayfish
Status
Section 4 of the Act (16 U.S.C. 1533)
and its implementing regulations (50
CFR part 424) set forth the procedures
for determining whether a species meets
the definition of an endangered species
or a threatened species. The Act defines
an ‘‘endangered species’’ as a species in
danger of extinction throughout all or a
significant portion of its range, and a
‘‘threatened species’’ as a species likely
to become an endangered species within
the foreseeable future throughout all or
a significant portion of its range. The
Act requires that we determine whether
a species meets the definition of an
endangered species or a threatened
species because of any of the following
factors: (A) The present or threatened
destruction, modification, or
curtailment of its habitat or range; (B)
overutilization for commercial,
recreational, scientific, or educational
purposes; (C) disease or predation; (D)
the inadequacy of existing regulatory
mechanisms; or (E) other natural or
manmade factors affecting its continued
existence.
Status Throughout All of Its Range
After evaluating threats to the species
and assessing the cumulative effect of
the threats under the Act’s section
4(a)(1) factors, we found that impacts
from saltwater intrusion caused by
rising sea levels is the most substantial
threat to the Miami cave crayfish
viability. In the foreseeable future, we
anticipate that saltwater intrusion will
continue to move inland as climate-
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change-induced sea level rise continues,
causing the loss of Miami cave crayfish
habitat and having the greatest influence
on Miami cave crayfish viability. We
also considered the effects of
development, pollution in the Biscayne
Aquifer, activities that can cause
mortality, and minor threats including
modification of subterranean limestone,
competition and predation, disease, and
overutilization for their cumulative
effects.
The Miami cave crayfish exists in one
population restricted to the Biscayne
Aquifer along the Atlantic Coastal
Ridge. Pollution and impermeable
surface cover may be negatively
affecting resiliency of the species by
decreasing water quality and limiting
the detritus filtering into the aquifer.
However, these impacts are highly
uncertain, so we put the greatest weight
on habitat availability and available
survey data. Currently, two analysis
units are significantly (greater than 50
percent) affected by saltwater intrusion
with five analysis units not significantly
(0 to 26 percent) affected by saltwater
intrusion. Overall, a majority of the
Miami cave crayfish range is currently
unaffected by saltwater intrusion and is
considered to be in a high condition.
Additionally, survey data indicate the
Miami cave crayfish is present
throughout the range despite multidecadal threats impacting the species.
We conclude that there is sufficient
habitat available to the species and the
Miami cave crayfish is still distributed
throughout its range; therefore, it
currently has a sufficient level of
resiliency.
Based on its limited geographical
range, redundancy and representation
are inherently low for the Miami cave
crayfish and likely similar to historical
levels. Redundancy has been slightly
reduced from historical levels because
saltwater intrusion has reduced the
available habitat near the coast,
negatively impacted the ability of the
species to withstand catastrophic
events. Similarly, current representation
has been slightly reduced from
historical levels because habitat loss
reduces the population size of the
species, decreasing the amount of
potential genetic diversity. Overall,
redundancy and representation remain
similar to historical levels. Given the
current resiliency, redundancy, and
representation of the Miami cave
crayfish across its range, we conclude
that the species is not currently in
danger of extinction throughout its
range.
We next considered whether the
species is likely to become in danger of
extinction within the foreseeable future
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throughout all of its range. In
considering the foreseeable future for
the Miami cave crayfish, we analyzed
expected changes in sea level rise and
the resulting inland movement of
saltwater intrusion out to 2070 (Service
2022, pp. 100–107). We determined that
this timeframe represents a period for
which we can reliably predict both the
threats to the species and the species’
response to those threats.
By 2070, the Miami cave crayfish is
projected to lose significant amounts of
habitat as saltwater encroaches further
inland into the Biscayne Aquifer.
Projected habitat losses range from
losing close to 50 percent of the habitat
in one additional analysis unit in the
intermediate sea level rise scenario
(scenario 4), to losing greater than 50
percent of all available habitat in the
extreme sea level rise scenario (scenario
3). Intermediate scenarios 1 and 2 are
projected to have only one remaining
analysis unit in a high condition, one
extirpated unit, and the remaining units
being in either a moderate or low
condition, meaning a majority of the
habitat would be affected by saltwater
intrusion. The Miami cave crayfish
already has a limited range with
naturally low redundancy and
representation levels, ultimately making
it completely dependent on the
availability of its habitat. Therefore, the
projected loss of habitat in the
foreseeable future would leave the
species extremely vulnerable to
stochastic or catastrophic events.
Additionally, the Miami cave crayfish
has no ability to disperse outside of its
current range and is unlikely to be able
to adapt to a saltwater environment.
Thus, after assessing the best available
information, we conclude that the
Miami cave crayfish is not currently in
danger of extinction but is likely to
become in danger of extinction within
the foreseeable future throughout all of
its range.
Status Throughout a Significant Portion
of Its Range
Under the Act and our implementing
regulations, a species may warrant
listing if it is in danger of extinction or
likely to become so in the foreseeable
future throughout all or a significant
portion of its range. The court in Center
for Biological Diversity v. Everson, 435
F. Supp. 3d 69 (D.D.C. 2020) (Everson),
vacated the provision of the Final Policy
on Interpretation of the Phrase
‘‘Significant Portion of Its Range’’ in the
Endangered Species Act’s Definitions of
‘‘Endangered Species’’ and ‘‘Threatened
Species’’ (hereafter ‘‘Final Policy’’; 79
FR 37578, July 1, 2014) that provided if
the Services determine that a species is
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threatened throughout all of its range,
the Services will not analyze whether
the species is endangered in a
significant portion of its range.
Therefore, we proceed to evaluating
whether the species is endangered in a
significant portion of its range—that is,
whether there is any portion of the
species’ range for which both (1) the
portion is significant; and (2) the species
is in danger of extinction in that
portion. Depending on the case, it might
be more efficient for us to address the
‘‘significance’’ question or the ‘‘status’’
question first. We can choose to address
either question first. Regardless of
which question we address first, if we
reach a negative answer with respect to
the first question that we address, we do
not need to evaluate the other question
for that portion of the species’ range.
Following the court’s holding in
Everson, we now consider whether there
are any significant portions of the
species’ range where the species is in
danger of extinction now (i.e.,
endangered). In undertaking this
analysis for the Miami cave crayfish, we
choose to address the status question
first—we consider information
pertaining to the geographic distribution
of both the species and the threats that
the species faces to identify portions of
the range where the species may be
endangered.
We evaluated the range of the Miami
cave crayfish to determine if the species
is in danger of extinction now in any
portion of its range. The range of a
species can theoretically be divided into
portions in an infinite number of ways.
We focused our analysis on portions of
the species’ range that may meet the
definition of an endangered species. For
the Miami cave crayfish, we considered
whether the threats or their effects on
the species are greater in any
biologically meaningful portion of the
species’ range than in other portions
such that the species is in danger of
extinction now in that portion.
We examined the following threats:
saltwater intrusion, water quality
degradation, groundwater pumping, and
modification of surface cover resulting
from urban development, including
cumulative effects. The primary threat
to the Miami cave crayfish is saltwater
intrusion caused by rising sea levels,
which is affecting the coastal analysis
units the most currently. The other
threats of water quality degradation,
groundwater pumping, and
modification of surface cover are largely
having an effect across the range of the
species. Therefore, we focused our
evaluation on the threat of saltwater
intrusion.
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In considering whether the threats or
their effects on the species are greater in
any biologically meaningful portion of
the species’ range, there are two analysis
units affected by saltwater intrusion
more than the other units. Currently,
these two analysis units (portion) are
significantly (greater than 50 percent)
affected by saltwater intrusion and the
other five analysis units are not
significantly (0 to 26 percent) affected
by saltwater intrusion. We determined
this portion may have a different status
than the rest of the range and then
considered whether this portion may be
significant.
This portion is small in size relative
to the entire range of the species; it
represents less than 25 percent of the
range. In addition, the habitat in this
portion is neither unique or better
quality compared to the rest of the range
and most Miami cave crayfish have been
observed farther inland. Therefore, we
do not find this portion to be significant.
Therefore, no portion of the species’
range provides a basis for determining
that the species is in danger of
extinction in a significant portion of its
range, and we determine that the
species is likely to become in danger of
extinction within the foreseeable future
throughout all of its range. This does not
conflict with the courts’ holdings in
Desert Survivors v. U.S. Department of
the Interior, 321 F. Supp. 3d 1011,
1070–74 (N.D. Cal. 2018) and Center for
Biological Diversity v. Jewell, 248 F.
Supp. 3d 946, 959 (D. Ariz. 2017)
because, in reaching this conclusion, we
did not apply the aspects of the Final
Policy, including the definition of
‘‘significant’’ that those court decisions
held to be invalid.
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Determination of Status
Our review of the best available
scientific and commercial information
indicates that the Miami cave crayfish
meets the definition of a threatened
species. Therefore, we propose to list
the Miami cave crayfish as a threatened
species in accordance with sections
3(20) and 4(a)(1) of the Act.
Available Conservation Measures
Conservation measures provided to
species listed as endangered or
threatened species under the Act
include recognition as a listed species,
planning and implementation of
recovery actions, requirements for
Federal protection, and prohibitions
against certain practices. Recognition
through listing results in public
awareness, and conservation by Federal,
State, Tribal, and local agencies, private
organizations, and individuals. The Act
encourages cooperation with the States
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and other countries and calls for
recovery actions to be carried out for
listed species. The protection required
by Federal agencies, including the
Service, and the prohibitions against
certain activities are discussed, in part,
below.
The primary purpose of the Act is the
conservation of endangered and
threatened species and the ecosystems
upon which they depend. The ultimate
goal of such conservation efforts is the
recovery of these listed species, so that
they no longer need the protective
measures of the Act. Section 4(f) of the
Act calls for the Service to develop and
implement recovery plans for the
conservation of endangered and
threatened species. The goal of this
process is to restore listed species to a
point where they are secure, selfsustaining, and functioning components
of their ecosystems.
The recovery planning process begins
with development of a recovery outline
made available to the public soon after
a final listing determination. The
recovery outline guides the immediate
implementation of urgent recovery
actions while a recovery plan is being
developed. Recovery teams (composed
of species experts, Federal and State
agencies, nongovernmental
organizations, and stakeholders) may be
established to develop and implement
recovery plans. The recovery planning
process involves the identification of
actions that are necessary to halt and
reverse the species’ decline by
addressing the threats to its survival and
recovery. The recovery plan identifies
recovery criteria for review of when a
species may be ready for reclassification
from endangered to threatened
(‘‘downlisting’’) or removal from
protected status (‘‘delisting’’), and
methods for monitoring recovery
progress. Recovery plans also establish
a framework for agencies to coordinate
their recovery efforts and provide
estimates of the cost of implementing
recovery tasks. Revisions of the plan
may be done to address continuing or
new threats to the species, as new
substantive information becomes
available. The recovery outline, draft
recovery plan, final recovery plan, and
any revisions will be available on our
website as they are completed (https://
ecos.fws.gov/ecp/species/9832), or from
our Florida Ecological Services Field
Office (see FOR FURTHER INFORMATION
CONTACT).
Implementation of recovery actions
generally requires the participation of a
broad range of partners, including other
Federal agencies, States, Tribes,
nongovernmental organizations,
businesses, and private landowners.
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Examples of recovery actions include
habitat restoration (e.g., restoration of
native vegetation), research, captive
propagation and reintroduction, and
outreach and education. The recovery of
many listed species cannot be
accomplished solely on Federal lands
because their range may occur primarily
or solely on non-Federal lands. To
achieve recovery of these species
requires cooperative conservation efforts
on private, State, and Tribal lands.
If this species is listed, funding for
recovery actions will be available from
a variety of sources, including Federal
budgets, State programs, and cost-share
grants for non-Federal landowners, the
academic community, and
nongovernmental organizations. In
addition, pursuant to section 6 of the
Act, the State of Florida would be
eligible for Federal funds to implement
management actions that promote the
protection or recovery of the Miami cave
crayfish. Information on our grant
programs that are available to aid
species recovery can be found at:
https://www.fws.gov/service/financialassistance.
Although the Miami cave crayfish is
only proposed for listing under the Act
at this time, please let us know if you
are interested in participating in
recovery efforts for this species.
Additionally, we invite you to submit
any new information on this species
whenever it becomes available and any
information you may have for recovery
planning purposes (see FOR FURTHER
INFORMATION CONTACT).
Section 7 of the Act is titled
Interagency Cooperation and mandates
all Federal action agencies to use their
existing authorities to further the
conservation purposes of the Act and to
ensure that their actions are not likely
to jeopardize the continued existence of
listed species or adversely modify
critical habitat. Regulations
implementing section 7 are codified at
50 CFR part 402.
Section 7(a)(2) states that each Federal
action agency shall, in consultation with
the Secretary, ensure that any action
they authorize, fund, or carry out is not
likely to jeopardize the continued
existence of a listed species or result in
the destruction or adverse modification
of designated critical habitat. Each
Federal agency shall review its action at
the earliest possible time to determine
whether it may affect listed species or
critical habitat. If a determination is
made that the action may affect listed
species or critical habitat, formal
consultation is required (50 CFR
402.14(a)), unless the Service concurs in
writing that the action is not likely to
adversely affect listed species or critical
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habitat. At the end of a formal
consultation, the Service issues a
biological opinion, containing its
determination of whether the Federal
action is likely to result in jeopardy or
adverse modification.
In contrast, section 7(a)(4) of the Act
requires Federal agencies to confer with
the Service on any action which is likely
to jeopardize the continued existence of
any species proposed to be listed under
the Act or result in the destruction or
adverse modification of critical habitat
proposed to be designated for such
species. Although the conference
procedures are required only when an
action is likely to result in jeopardy or
adverse modification, action agencies
may voluntarily confer with the Service
on actions that may affect species
proposed for listing or critical habitat
proposed to be designated. In the event
that the subject species is listed or the
relevant critical habitat is designated, a
conference opinion may be adopted as
a biological opinion and serve as
compliance with section 7(a)(2).
Examples of discretionary actions for
the Miami cave crayfish that may be
subject to conference and consultation
procedures under section 7 are land
management or other landscape-altering
activities on Federal lands administered
by the U.S. Army Corps of Engineers,
U.S. Coast Guard, U.S. Department of
Transportation, and U.S. Department of
Housing and Urban Development as
well as actions on State, Tribal, local, or
private lands that require a Federal
permit (such as a permit from the U.S.
Army Corps of Engineers under section
404 of the Clean Water Act (33 U.S.C.
1251 et seq.) or a permit from the
Service under section 10 of the Act) or
that involve some other Federal action
(such as funding from the Federal
Highway Administration, Federal
Aviation Administration, or the Federal
Emergency Management Agency).
Federal actions not affecting listed
species or critical habitat—and actions
on State, Tribal, local, or private lands
that are not federally funded,
authorized, or carried out by a Federal
agency—do not require section 7
consultation. Federal agencies should
coordinate with the local Service Field
Office (see FOR FURTHER INFORMATION
CONTACT) with any specific questions on
section 7 consultation and conference
requirements.
It is the policy of the Services, as
published in the Federal Register on
July 1, 1994 (59 FR 34272), to identify
to the extent known at the time a
species is listed, specific activities that
will not be considered likely to result in
violation of section 9 of the Act. To the
extent possible, activities that will be
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considered likely to result in violation
will also be identified in as specific a
manner as possible. The intent of this
policy is to increase public awareness of
the effect of a proposed listing on
proposed and ongoing activities within
the range of the species proposed for
listing. Although most of the
prohibitions in section 9 of the Act
apply to endangered species, sections
9(a)(1)(G) and 9(a)(2)(E) of the Act
prohibit the violation of any regulation
under section 4(d) pertaining to any
threatened species of fish or wildlife, or
threatened species of plant,
respectively. Section 4(d) of the Act
directs the Secretary to promulgate
protective regulations that are necessary
and advisable for the conservation of
threatened species. As a result, we
interpret our policy to mean that, when
we list a species as a threatened species,
to the extent possible, we identify
activities that will or will not be
considered likely to result in violation
of the protective regulations under
section 4(d) for that species.
At this time, we are unable to identify
specific activities that will or will not be
considered likely to result in violation
of section 9 of the Act beyond what is
already clear from the descriptions of
prohibitions and exceptions established
by protective regulation under section
4(d) of the Act.
Questions regarding whether specific
activities would constitute violation of
section 9 of the Act should be directed
to the Florida Ecological Services Field
Office (see FOR FURTHER INFORMATION
CONTACT).
II. Proposed Rule Issued Under Section
4(d) of the Act
Background
Section 4(d) of the Act contains two
sentences. The first sentence states that
the Secretary shall issue such
regulations as she deems necessary and
advisable to provide for the
conservation of species listed as
threatened species. The U.S. Supreme
Court has noted that statutory language
similar to the language in section 4(d) of
the Act authorizing the Secretary to take
action that she ‘‘deems necessary and
advisable’’ affords a large degree of
deference to the agency (see Webster v.
Doe, 486 U.S. 592, 600 (1988)).
Conservation is defined in the Act to
mean the use of all methods and
procedures which are necessary to bring
any endangered species or threatened
species to the point at which the
measures provided pursuant to the Act
are no longer necessary. Additionally,
the second sentence of section 4(d) of
the Act states that the Secretary may by
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64867
regulation prohibit with respect to any
threatened species any act prohibited
under section 9(a)(1), in the case of fish
or wildlife, or section 9(a)(2), in the case
of plants. Thus, the combination of the
two sentences of section 4(d) provides
the Secretary with wide latitude of
discretion to select and promulgate
appropriate regulations tailored to the
specific conservation needs of the
threatened species. The second sentence
grants particularly broad discretion to
the Service when adopting one or more
of the prohibitions under section 9.
The courts have recognized the extent
of the Secretary’s discretion under this
standard to develop rules that are
appropriate for the conservation of a
species. For example, courts have
upheld, as a valid exercise of agency
authority, rules developed under section
4(d) that included limited prohibitions
against takings (see Alsea Valley
Alliance v. Lautenbacher, 2007 WL
2344927 (D. Or. 2007); Washington
Environmental Council v. National
Marine Fisheries Service, 2002 WL
511479 (W.D. Wash. 2002)). Courts have
also upheld 4(d) rules that do not
address all of the threats a species faces
(see State of Louisiana v. Verity, 853
F.2d 322 (5th Cir. 1988)). As noted in
the legislative history when the Act was
initially enacted, ‘‘once an animal is on
the threatened list, the Secretary has an
almost infinite number of options
available to [her] with regard to the
permitted activities for those species.
[She] may, for example, permit taking,
but not importation of such species, or
[she] may choose to forbid both taking
and importation but allow the
transportation of such species’’ (H.R.
Rep. No. 412, 93rd Cong., 1st Sess.
1973).
The provisions of this proposed 4(d)
rule would promote conservation of the
Miami cave crayfish by encouraging
projects and activities that would
prevent increased saltwater intrusion
into Miami cave crayfish habitat,
improve water quality in the aquifer,
and promote surface cover permeability.
The provisions of this proposed rule are
one of many tools that we would use to
promote the conservation of the Miami
cave crayfish. This proposed 4(d) rule
would apply only if and when we make
final the listing of the Miami cave
crayfish as a threatened species.
As mentioned previously in Available
Conservation Measures, section 7(a)(2)
of the Act requires Federal agencies,
including the Service, to ensure that any
action they authorize, fund, or carry out
is not likely to jeopardize the continued
existence of any endangered species or
threatened species or result in the
destruction or adverse modification of
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designated critical habitat of such
species. In addition, even before the
listing of any species or the designation
of its critical habitat is finalized, section
7(a)(4) of the Act requires Federal
agencies to confer with the Service on
any agency action which is likely to
jeopardize the continued existence of
any species proposed to be listed under
the Act or result in the destruction or
adverse modification of critical habitat
proposed to be designated for such
species.
These requirements are the same for
a threatened species with a speciesspecific 4(d) rule. For example, as with
an endangered species, if a Federal
agency determines that an action is ‘‘not
likely to adversely affect’’ a threatened
species, it will require the Service’s
written concurrence (50 CFR 402.13(c)).
Similarly, if a Federal agency
determinates that an action is ‘‘likely to
adversely affect’’ a threatened species,
the action will require formal
consultation with the Service and the
formulation of a biological opinion (50
CFR 402.14(a)).
Provisions of the Proposed 4(d) Rule
Exercising the Secretary’s authority
under section 4(d) of the Act, we have
developed a proposed rule that is
designed to address the Miami cave
crayfish’s conservation needs. As
discussed previously in Summary of
Biological Status and Threats, we have
concluded that the Miami cave crayfish
is likely to become in danger of
extinction within the foreseeable future
primarily due to saltwater intrusion
caused by sea level rise. Section 4(d)
requires the Secretary to issue such
regulations as she deems necessary and
advisable to provide for the
conservation of each threatened species
and authorizes the Secretary to include
among those protective regulations any
of the prohibitions that section 9(a)(1) of
the Act prescribes for endangered
species. We find that, if finalized, the
protections, prohibitions, and
exceptions in this proposed rule as a
whole satisfy the requirement in section
4(d) of the Act to issue regulations
deemed necessary and advisable to
provide for the conservation of the
Miami cave crayfish.
The protective regulations we are
proposing for the Miami cave crayfish
incorporate prohibitions from section
9(a)(1) to address the threats to the
species. Section 9(a)(1) prohibits the
following activities for endangered
wildlife: importing or exporting; take;
possession and other acts with
unlawfully taken specimens; delivering,
receiving, carrying, transporting, or
shipping in interstate or foreign
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commerce in the course of commercial
activity; or selling or offering for sale in
interstate or foreign commerce. This
proposed protective regulation includes
all of these prohibitions because the
Miami cave crayfish is at risk of
extinction in the foreseeable future and
putting these prohibitions in place will
help to prevent further degradation of
habitat and decrease synergistic,
negative effects from other ongoing or
future threats.
In particular, this proposed 4(d) rule
would provide for the conservation of
the Miami cave crayfish by prohibiting
the following activities, unless they fall
within specific exceptions or are
otherwise authorized or permitted:
importing or exporting; take (as set forth
at 50 CFR 17.21(c)(1) with exceptions as
discussed below); possession and other
acts with unlawfully taken specimens;
delivering, receiving, carrying,
transporting, or shipping in interstate or
foreign commerce in the course of
commercial activity; or selling or
offering for sale in interstate or foreign
commerce.
Under the Act, ‘‘take’’ means to
harass, harm, pursue, hunt, shoot,
wound, kill, trap, capture, or collect, or
to attempt to engage in any such
conduct. Some of these provisions have
been further defined in regulations at 50
CFR 17.3. Take can result knowingly or
otherwise, by direct and indirect
impacts, intentionally or incidentally.
Regulating take would help preserve the
species’ one population and decrease
synergistic, negative effects from other
ongoing or future threats. Therefore, we
propose to prohibit take of the Miami
cave crayfish, except for take resulting
from those actions and activities
specifically excepted by the 4(d) rule.
Exceptions to the prohibition on take
would include all of the general
exceptions to the prohibition on take of
endangered wildlife, as set forth in 50
CFR 17.21 and additional exceptions, as
described below.
The proposed 4(d) rule would also
provide for the conservation of the
species by allowing exceptions that
incentivize conservation actions or that,
while they may have some minimal
level of take of the Miami cave crayfish,
are not expected to rise to the level that
would have a negative impact (i.e.,
would have only de minimis impacts)
on the species’ conservation. The
proposed exceptions to these
prohibitions include activities that will
prevent further saltwater intrusion into
the Biscayne Aquifer and water
management activities that improve
water quality or enhance natural
infiltration into the Biscayne Aquifer:
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(1) Activities that will prevent further
saltwater intrusion into the Biscayne
Aquifer include coastal resiliency
projects and canal maintenance or
construction that prevent backflow of
salt water, and
(2) Water management activities or
coastal wetland restoration projects that
improve freshwater and estuarine
habitats; improve salinity distribution
and reestablish productive nursery
habitat along the shoreline; restore the
quantity, quality, timing, and
distribution of freshwater to Biscayne
Bay and Biscayne National Park; restore
the spatial extent of natural coastal
glades habitat; or enhance natural
infiltration into the Biscayne Aquifer.
Despite these prohibitions regarding
threatened species, we may under
certain circumstances issue permits to
carry out one or more otherwiseprohibited activities, including those
described above. The regulations that
govern permits for threatened wildlife
state that the Director may issue a
permit authorizing any activity
otherwise prohibited with regard to
threatened species. These include
permits issued for the following
purposes: for scientific purposes, to
enhance propagation or survival, for
economic hardship, for zoological
exhibition, for educational purposes, for
incidental taking, or for special
purposes consistent with the purposes
of the Act (50 CFR 17.32). The statute
also contains certain exemptions from
the prohibitions, which are found in
sections 9 and 10 of the Act.
We recognize the special and unique
relationship with our State natural
resource agency partners in contributing
to conservation of listed species. State
agencies often possess scientific data
and valuable expertise on the status and
distribution of endangered, threatened,
and candidate species of wildlife and
plants. State agencies, because of their
authorities and their close working
relationships with local governments
and landowners, are in a unique
position to assist us in implementing all
aspects of the Act. In this regard, section
6 of the Act provides that we must
cooperate to the maximum extent
practicable with the States in carrying
out programs authorized by the Act.
Therefore, any qualified employee or
agent of a State conservation agency that
is a party to a cooperative agreement
with us in accordance with section 6(c)
of the Act, who is designated by his or
her agency for such purposes, would be
able to conduct activities designed to
conserve the Miami cave crayfish that
may result in otherwise prohibited take
without additional authorization.
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Nothing in this proposed 4(d) rule
would change in any way the recovery
planning provisions of section 4(f) of the
Act, the consultation requirements
under section 7 of the Act, or our ability
to enter into partnerships for the
management and protection of the
Miami cave crayfish. However,
interagency cooperation may be further
streamlined through planned
programmatic consultations for the
species between us and other Federal
agencies, where appropriate. We ask the
public, particularly State agencies and
other interested stakeholders that may
be affected by the proposed 4(d) rule, to
provide comments and suggestions
regarding additional guidance and
methods that we could provide or use,
respectively, to streamline the
implementation of this proposed 4(d)
rule (see Information Requested, above).
III. Critical Habitat
Background
Critical habitat is defined in section 3
of the Act as:
(1) The specific areas within the
geographical area occupied by the
species, at the time it is listed in
accordance with the Act, on which are
found those physical or biological
features
(a) Essential to the conservation of the
species, and
(b) Which may require special
management considerations or
protection; and
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(2) Specific areas outside the
geographical area occupied by the
species at the time it is listed, upon a
determination that such areas are
essential for the conservation of the
species.
We have found critical habitat to be
prudent and determinable for the Miami
cave crayfish and have developed a
proposed critical habitat rule for this
species. On August 29, 2023, we were
informed that the Office of Information
and Regulatory Affairs (OIRA) in the
Office of Management and Budget
(OMB) determined that our proposed
critical habitat rule is significant under
Executive Order 12866. Therefore, we
will publish a proposed critical habitat
rule for the Miami cave crayfish
following interagency review of the
proposed critical habitat rule.
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Required Determinations
Clarity of the Rule
We are required by E.O.s 12866 and
12988 and by the Presidential
Memorandum of June 1, 1998, to write
all rules in plain language. This means
that each rule we publish must:
(1) Be logically organized;
(2) Use the active voice to address
readers directly;
(3) Use clear language rather than
jargon;
(4) Be divided into short sections and
sentences; and
(5) Use lists and tables wherever
possible.
If you feel that we have not met these
requirements, send us comments by one
of the methods listed in ADDRESSES. To
better help us revise the rule, your
comments should be as specific as
possible. For example, you should tell
us the numbers of the sections or
paragraphs that are unclearly written,
which sections or sentences are too
long, the sections where you feel lists or
tables would be useful, etc.
National Environmental Policy Act (42
U.S.C. 4321 et seq.)
Regulations adopted pursuant to
section 4(a) of the Act are exempt from
the National Environmental Policy Act
(NEPA; 42 U.S.C. 4321 et seq.) and do
not require an environmental analysis
under NEPA. We published a notice
outlining our reasons for this
determination in the Federal Register
on October 25, 1983 (48 FR 49244). This
includes listing, delisting, and
reclassification rules, as well as critical
habitat designations and speciesspecific protective regulations
promulgated concurrently with a
decision to list or reclassify a species as
threatened. The courts have upheld this
position (e.g., Douglas County v.
Babbitt, 48 F.3d 1495 (9th Cir. 1995)
(critical habitat); Center for Biological
Diversity v. U.S. Fish and Wildlife
Service., 2005 WL 2000928 (N.D. Cal.
Aug. 19, 2005) (concurrent 4(d) rule)).
In accordance with the President’s
memorandum of April 29, 1994
(Government-to-Government Relations
with Native American Tribal
Governments; 59 FR 22951), E.O. 13175
(Consultation and Coordination with
Indian Tribal Governments), and the
Department of the Interior’s manual at
Frm 00034
Fmt 4702
Sfmt 4702
512 DM 2, we readily acknowledge our
responsibility to communicate
meaningfully with federally recognized
Tribes on a government-to-government
basis. In accordance with Secretaries’
Order 3206 of June 5, 1997 (American
Indian Tribal Rights, Federal-Tribal
Trust Responsibilities, and the
Endangered Species Act), we readily
acknowledge our responsibilities to
work directly with Tribes in developing
programs for healthy ecosystems, to
acknowledge that Tribal lands are not
subject to the same controls as Federal
public lands, to remain sensitive to
Indian culture, and to make information
available to Tribes.
References Cited
A complete list of references cited in
this rulemaking is available on the
internet at https://www.regulations.gov
and upon request from the Florida
Ecological Services Field Office (see FOR
FURTHER INFORMATION CONTACT).
Authors
The primary authors of this proposed
rule are the staff members of the Fish
and Wildlife Service’s Species
Assessment Team and the Florida
Ecological Services Field Office.
List of Subjects in 50 CFR Part 17
Endangered and threatened species,
Exports, Imports, Plants, Reporting and
recordkeeping requirements,
Transportation, Wildlife.
Proposed Regulation Promulgation
Accordingly, we propose to amend
part 17, subchapter B of chapter I, title
50 of the Code of Federal Regulations,
as set forth below:
PART 17—ENDANGERED AND
THREATENED WILDLIFE AND PLANTS
1. The authority citation for part 17
continues to read as follows:
■
Authority: 16 U.S.C. 1361–1407; 1531–
1544; and 4201–4245, unless otherwise
noted.
2. In § 17.11, amend paragraph (h) by
adding an entry for ‘‘Crayfish, Miami
cave’’ to the List of Endangered and
Threatened Wildlife in alphabetical
order under CRUSTACEANS to read as
follows:
■
Government-to-Government
Relationship With Tribes
PO 00000
64869
§ 17.11 Endangered and threatened
wildlife.
*
*
*
(h) * * *
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*
*
64870
Federal Register / Vol. 88, No. 181 / Wednesday, September 20, 2023 / Proposed Rules
Common name
*
CRUSTACEANS
*
Crayfish, Miami cave .........
*
Scientific name
*
*
*
*
Procambarus milleri ..........
*
3. Amend § 17.46 by adding
paragraph (e) to read as follows:
Special rules—crustaceans.
lotter on DSK11XQN23PROD with PROPOSALS1
*
*
*
*
*
(e) Miami cave crish (Procambarus
milleri).
(1) Prohibitions. The following
prohibitions that apply to endangered
wildlife also apply to the Miami cave
crayfish. Except as provided under
paragraph (e)(2) of this section and
§§ 17.4 and 17.5, it is unlawful for any
person subject to the jurisdiction of the
United States to commit, to attempt to
commit, to solicit another to commit, or
cause to be committed, any of the
following acts in regard to this species:
(i) Import or export, as set forth at
§ 17.21(b) for endangered wildlife.
(ii) Take, as set forth at § 17.21(c)(1)
for endangered wildlife.
(iii) Possession and other acts with
unlawfully taken specimens, as set forth
at § 17.21(d)(1) for endangered wildlife.
(iv) Interstate or foreign commerce in
the course of a commercial activity, as
set forth at § 17.21(e) for endangered
wildlife.
(v) Sale or offer for sale, as set forth
at § 17.21(f) for endangered wildlife.
(2) Exceptions from prohibitions. In
regard to this species, you may:
(i) Conduct activities as authorized by
a permit under § 17.32.
(ii) Take, as set forth at § 17.21(c)(2)
through (4) for endangered wildlife.
(iii) Take, as set forth at § 17.31(b).
(iv) Possess and engage in other acts
with unlawfully taken wildlife, as set
forth at § 17.21(d)(2) for endangered
wildlife.
(v) Take incidental to an otherwise
lawful activity caused by:
(A) Activities that will prevent further
saltwater intrusion into the Biscayne
Aquifer, such as coastal resiliency
projects and canal maintenance or
construction that prevent backflow of
salt water; or
Status
*
*
*
Wherever found ................
*
*
*
*
■
§ 17.46
Where listed
Listing citations and applicable rules
*
*
*
[Federal Register citation when published as a final rule]; 50 CFR
17.46(e); 4d
T
(B) Water management activities or
coastal wetland restoration projects that
improve freshwater and estuarine
habitats; improve salinity distribution
and reestablish productive nursery
habitat along the shoreline; restore the
quantity, quality, timing, and
distribution of freshwater to Biscayne
Bay and Biscayne National Park; restore
the spatial extent of natural coastal
glades habitat; or enhance natural
infiltration into the Biscayne Aquifer.
Martha Williams,
Director, U.S. Fish and Wildlife Service.
[FR Doc. 2023–20293 Filed 9–19–23; 8:45 am]
BILLING CODE 4333–15–P
DEPARTMENT OF THE INTERIOR
Fish and Wildlife Service
*
*
*
Cascades frog (Rana cascadae), plains
spotted skunk (Spilogale interrupta,
formerly recognized as one of three
subspecies of eastern spotted skunk
(Spilogale putorius interrupta)),
sicklefin chub (Macrhybopsis meeki),
sturgeon chub (Macrhybopsis gelida),
Tennessee cave salamander
(Gyrinophilus palleucus), and Yazoo
crayfish (Faxonius hartfieldi, formerly
Orconectes hartfieldi). However, we ask
the public to submit to us at any time
any new information relevant to the
status of any of the species mentioned
above or their habitats.
DATES: The findings in this document
were made on September 20, 2023.
ADDRESSES: Detailed descriptions of the
bases for these findings are available on
the internet at https://
www.regulations.gov under the
following docket numbers:
50 CFR Part 17
Species
[FF09E21000 FXES1111090FEDR 234]
Endangered and Threatened Wildlife
and Plants; One Species Not
Warranted for Delisting and Six
Species Not Warranted for Listing as
Endangered or Threatened Species
AGENCY:
Fish and Wildlife Service,
Interior.
Notification of findings.
ACTION:
We, the U.S. Fish and
Wildlife Service (Service), announce
findings that one species is not
warranted for delisting and six species
are not warranted for listing as
endangered or threatened species under
the Endangered Species Act of 1973, as
amended (Act). After a thorough review
of the best available scientific and
commercial information, we find that it
is not warranted at this time to delist the
southern sea otter (Enhydra lutris
nereis). We also find that is not
warranted at this time to list the
SUMMARY:
Cascades frog ..........
Plains spotted skunk
Sicklefin chub ...........
Southern sea otter ....
Sturgeon chub ..........
Tennessee cave salamander.
Yazoo crayfish ..........
Docket No.
FWS–R1–ES–2023–
0127.
FWS–R3–ES–2023–
0128.
FWS–R6–ES–2023–
0130.
FWS–R8–ES–2023–
0132.
FWS–R6–ES–2023–
0131.
FWS–R4–ES–2023–
0133.
FWS–R4–ES–2023–
0134.
Those descriptions are also available
by contacting the appropriate person as
specified under FOR FURTHER
INFORMATION CONTACT. Please submit any
new information, materials, comments,
or questions concerning this finding to
the appropriate person, as specified
under FOR FURTHER INFORMATION
CONTACT.
FOR FURTHER INFORMATION CONTACT:
Species
Contact information
Cascades frog .................................
Jeff Dillon, Endangered Species Division Manager, Oregon Fish and Wildlife Office, jeffrey_dillon@fws.gov,
503–231–6179.
John Weber, Field Supervisor, Missouri Field Office, John_S_Weber@fws.gov, 573–825–6048.
Plains spotted skunk .......................
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E:\FR\FM\20SEP1.SGM
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Agencies
[Federal Register Volume 88, Number 181 (Wednesday, September 20, 2023)]
[Proposed Rules]
[Pages 64856-64870]
From the Federal Register Online via the Government Publishing Office [www.gpo.gov]
[FR Doc No: 2023-20293]
-----------------------------------------------------------------------
DEPARTMENT OF THE INTERIOR
Fish and Wildlife Service
50 CFR Part 17
[Docket No. FWS-R4-ES-2023-0103; FF09E21000 FXES1111090FEDR 234]
RIN 1018-BG31
Endangered and Threatened Wildlife and Plants; Threatened Species
Status With Section 4(d) Rule for the Miami Cave Crayfish
AGENCY: Fish and Wildlife Service, Interior.
ACTION: Proposed rule.
-----------------------------------------------------------------------
SUMMARY: We, the U.S. Fish and Wildlife Service (Service), propose to
list the Miami cave crayfish (Procambarus milleri), a crayfish species
from Miami-Dade County, Florida, as a threatened species under the
Endangered Species Act of 1973, as amended (Act). This determination
also serves as our 12-month finding on a petition to list the Miami
cave crayfish. After a review of the best available scientific and
commercial information, we find that listing the species is warranted.
Accordingly, we propose to list the Miami cave crayfish as a threatened
species with a rule issued under section 4(d) of the Act (``4(d)
rule''). If we finalize this proposed rule, it would add this species
to the List of Endangered and Threatened Wildlife and extend the Act's
protections to the species.
DATES: We will accept comments received or postmarked on or before
November 20, 2023. Comments submitted electronically using the Federal
eRulemaking Portal (see ADDRESSES, below) must be received by 11:59
p.m. eastern time on the closing date. We must receive requests for a
public hearing, in writing, at the address shown in FOR FURTHER
INFORMATION CONTACT by November 6, 2023.
ADDRESSES: You may submit comments by one of the following methods:
(1) Electronically: Go to the Federal eRulemaking Portal: https://www.regulations.gov. In the Search box, enter FWS-R4-ES-2023-0103,
which is the docket number for this rulemaking. Then, click on the
Search button. On the resulting page, in the panel on the left side of
the screen, under the Document Type heading, check the Proposed Rule
box to locate this document. You may submit a comment by clicking on
``Comment.''
(2) By hard copy: Submit by U.S. mail to: Public Comments
Processing, Attn: FWS-R4-ES-2023-0103, U.S. Fish and Wildlife Service,
MS: PRB/3W, 5275 Leesburg Pike, Falls Church, VA 22041-3803.
We request that you send comments only by the methods described
above. We will post all comments on https://www.regulations.gov. This
generally means that we will post any personal information you provide
us (see Information Requested, below, for more information).
Availability of supporting materials: Supporting materials, such as
the species status assessment report, are available at https://www.regulations.gov at Docket No. FWS-R4-ES-2023-0103.
FOR FURTHER INFORMATION CONTACT: Lourdes Mena, Division Manager,
Florida Classification and Recovery, U.S. Fish and Wildlife Service,
Florida Ecological Services Field Office, 7915 Baymeadows Way, Suite
200, Jacksonville, FL 32256-7517; telephone 904-731-3134. Individuals
in the United States who are deaf, deafblind, hard of hearing, or have
a speech disability may dial 711 (TTY, TDD, or TeleBraille) to access
telecommunications relay services. Individuals outside the United
States should use the relay services offered within their country to
make international calls to the point-of-contact in the United States.
For a summary of the proposed rule, please see the ``rule summary
document'' in docket FWS-R4-ES-2023-0103 on https://www.regulations.gov.
SUPPLEMENTARY INFORMATION:
Executive Summary
Why we need to publish a rule. Under the Act, a species warrants
listing if it meets the definition of an endangered species (in danger
of extinction throughout all or a significant portion of its range) or
a threatened species (likely to become an endangered species within the
foreseeable future throughout all or a significant portion of its
range). If we determine that a species warrants listing, we must list
the species promptly and designate the species' critical habitat to the
maximum extent prudent and determinable. We have determined that the
Miami cave crayfish meets the definition of a threatened species;
therefore, we are proposing to list it as such. Listing a species as an
endangered or threatened species can be completed only by issuing a
rule through the Administrative Procedure Act rulemaking process (5
U.S.C. 551 et seq.).
What this document does. We propose to list the Miami cave crayfish
as a threatened species with a rule under section 4(d) of the Act.
The basis for our action. Under the Act, we may determine that a
species is an endangered or threatened species because of any of five
factors: (A) The present or threatened destruction, modification, or
curtailment of its habitat or range; (B) overutilization for
commercial, recreational, scientific, or educational purposes; (C)
disease or predation; (D) the inadequacy of existing regulatory
mechanisms; or (E) other natural or manmade factors affecting its
continued existence. We have determined that the primary threat to
Miami cave crayfish is saltwater intrusion caused by sea level rise as
a result of climate change.
Information Requested
We intend that any final action resulting from this proposed rule
will be based on the best scientific and commercial data available and
be as accurate and as effective as possible. Therefore, we request
comments or information from other governmental agencies, Native
American Tribes, the
[[Page 64857]]
scientific community, industry, or any other interested parties
concerning this proposed rule. We particularly seek comments
concerning:
(1) The species' biology, range, and population trends, including:
(a) Biological or ecological requirements of the species, including
habitat requirements for feeding, breeding, and sheltering;
(b) Genetics and taxonomy;
(c) Historical and current range, including distribution patterns
and the locations of any additional populations of this species;
(d) Historical and current population levels, and current and
projected trends; and
(e) Past and ongoing conservation measures for the species, its
habitat, or both.
(2) Threats and conservation actions affecting the species,
including:
(a) Factors that may be affecting the continued existence of the
species, which may include habitat modification or destruction,
overutilization, disease, predation, the inadequacy of existing
regulatory mechanisms, or other natural or manmade factors.
(b) Biological, commercial trade, or other relevant data concerning
any threats (or lack thereof) to this species.
(c) Existing regulations or conservation actions that may be
addressing threats to this species.
(3) Additional information concerning the historical and current
status of this species.
(4) Information on regulations that may be necessary and advisable
to provide for the conservation of the Miami cave crayfish and that we
can consider in developing a 4(d) rule for the species. In particular,
information concerning the extent to which we should include any of the
section 9 prohibitions in the 4(d) rule or whether we should consider
any additional exceptions from the prohibitions in the 4(d) rule.
(5) Information on sea level rise and saltwater intrusion future
projections in the Biscayne Aquifer.
Please include sufficient information with your submission (such as
scientific journal articles or other publications) to allow us to
verify any scientific or commercial information you include.
Please note that submissions merely stating support for, or
opposition to, the action under consideration without providing
supporting information, although noted, do not provide substantial
information necessary to support a determination. Section 4(b)(1)(A) of
the Act directs that determinations as to whether any species is an
endangered or a threatened species must be made solely on the basis of
the best scientific and commercial data available.
You may submit your comments and materials concerning this proposed
rule by one of the methods listed in ADDRESSES. We request that you
send comments only by the methods described in ADDRESSES.
If you submit information via https://www.regulations.gov, your
entire submission--including any personal identifying information--will
be posted on the website. If your submission is made via a hardcopy
that includes personal identifying information, you may request at the
top of your document that we withhold this information from public
review. However, we cannot guarantee that we will be able to do so. We
will post all hardcopy submissions on https://www.regulations.gov.
Comments and materials we receive, as well as supporting
documentation we used in preparing this proposed rule, will be
available for public inspection on https://www.regulations.gov.
Our final determination may differ from this proposal because we
will consider all comments we receive during the comment period as well
as any information that may become available after this proposal. Based
on the new information we receive (and, if relevant, any comments on
that new information), we may conclude that the species is endangered
instead of threatened, or we may conclude that the species does not
warrant listing as either an endangered species or a threatened
species. In addition, we may change the parameters of the prohibitions
or the exceptions to those prohibitions in the 4(d) rule if we conclude
it is appropriate in light of comments and new information received.
For example, we may expand the prohibitions to include prohibiting
additional activities if we conclude that those additional activities
are not compatible with conservation of the species. Conversely, we may
establish additional exceptions to the prohibitions in the final rule
if we conclude that the activities would facilitate or are compatible
with the conservation and recovery of the species. In our final rule,
we will clearly explain our rationale and the basis for our final
decision, including why we made changes, if any, that differ from this
proposal.
Public Hearing
Section 4(b)(5) of the Act provides for a public hearing on this
proposal, if requested. Requests must be received by the date specified
in DATES. Such requests must be sent to the address shown in FOR
FURTHER INFORMATION CONTACT. We will schedule a public hearing on this
proposal, if requested, and announce the date, time, and place of the
hearing, as well as how to obtain reasonable accommodations, in the
Federal Register and local newspapers at least 15 days before the
hearing. We may hold the public hearing in person or virtually via
webinar. We will announce any public hearing on our website, in
addition to the Federal Register. The use of virtual public hearings is
consistent with our regulations at 50 CFR 424.16(c)(3).
Previous Federal Actions
We received a petition from the Center for Biological Diversity,
Alabama Rivers Alliance, Clinch Coalition, Dogwood Alliance, Gulf
Restoration Network, Tennessee Forests Council, West Virginia Highlands
Conservancy, Tierra Curry, and Noah Greenwald on April 20, 2010, to
list 404 aquatic, riparian, and wetland species from the southeastern
United States as threatened or endangered species and to designate
critical habitat under the Endangered Species Act (Act). The Miami cave
crayfish was included in this petition. On September 27, 2011, we
published a 90-day finding in the Federal Register (76 FR 59836),
concluding that the petition presented substantial information that
indicated listing the Miami cave crayfish may be warranted. This
document serves as both our 12-month warranted petition finding and our
proposed rule to list this species.
Peer Review
A species status assessment (SSA) team prepared an SSA report for
the Miami cave crayfish. The SSA team was composed of Service
biologists, in consultation with other species experts. The SSA report
represents a compilation of the best scientific and commercial data
available concerning the status of the species, including the impacts
of past, present, and future factors (both negative and beneficial)
affecting the species.
In accordance with our joint policy on peer review published in the
Federal Register on July 1, 1994 (59 FR 34270), and our August 22,
2016, memorandum updating and clarifying the role of peer review of
listing actions under the Act, we solicited independent scientific
review of the information contained in the Miami cave crayfish SSA
report. We sent the SSA report to four independent peer reviewers and
received three responses. Results of this structured peer review
process can be found at https://regulations.gov. In preparing this
proposed rule, we incorporated the results of these reviews, as
appropriate,
[[Page 64858]]
into the SSA report, which is the foundation for this proposed rule.
Summary of Peer Reviewer Comments
As discussed in Peer Review above, we received comments from three
peer reviewers on the draft SSA report. We reviewed all comments we
received from the peer reviewers for substantive issues and new
information regarding the contents of the SSA report. The peer
reviewers generally concurred with our methods and conclusions and
provided additional information, clarifications, and suggestions,
including clarification on our methodology used to determine the
quantity of habitat and other editorial suggestions. Two peer reviewers
provided additional locations of Miami cave crayfish within the
established range of the species that we incorporated into the SSA
report. Otherwise, no substantive changes to our analysis and
conclusions within the SSA report were deemed necessary, and peer
reviewer comments are addressed in version 1.0 of the SSA report.
I. Proposed Listing Determination
Background
A thorough review of the taxonomy, life history, and ecology of the
Miami cave crayfish (Procambarus milleri) is presented in the SSA
report (version 1.1; Service 2022, pp. 3-18).
The Miami cave crayfish is a relatively small, freshwater,
subterranean crayfish endemic to southern and central Miami-Dade
County, Florida. On an evolutionary timescale, the Miami cave crayfish
is recently adapted to the belowground aquifer environment as is
indicated by the presence of both pigment and eye facets in some
individuals. Miami cave crayfish are opportunistic omnivores, primarily
consuming surficial detritus that filters down through the porous
limestone into their aquifer habitat (Radice and Loftus 1995, p. 114).
Individuals may also consume amphipods and isopods found in the same
habitat (Hobbs 1971, p. 114).
The species was first described based on specimens collected from a
22-foot (ft; 6.7-meter (m)) deep well, south of Miami in 1968 (Hobbs
1971, entire). Additional confirmed reports of the species followed in
1992, 2000-2004, 2009, and most recently in 2018. The species has been
collected from wells 7.9-36 ft (2.41-11 m) deep in the Miami Limestone
and Fort Thompson Formation within the Biscayne Aquifer along the
Atlantic Coastal Ridge.
The Atlantic Coastal Ridge is a northeast-to-southwest-trending
elevated feature, varying between 1.8-10 miles (mi) (3-16 kilometers
(km)) in width and rising 3.2-28.2 ft (1-8.6 m) above sea level between
Everglades National Park, Homestead, and North Miami (Fish and Stewart
1991, p. 4; Wacker et al. 2014, p. 26; Whitman and Yeboah-Forson 2015,
pp. 782, 790; Meeder and Harlem 2019, pp. 560-561). The Miami Limestone
and Fort Thompson Formation on the Atlantic Coastal Ridge are highly
porous (containing large holes and cavities), resembling a sponge,
whereas those same geologic layers in the surrounding area are partly
or completely cemented with mud and sand. The Miami cave crayfish is
adapted to the unique porosity of the Atlantic Coastal Ridge, which
provides nutrient flow and subterranean space to inhabit. Miami cave
crayfish likely occupy the Biscayne Aquifer from the top of the water
table in the Miami Limestone to the bottom of the Fort Thompson
Formation. The species has not been observed outside of the Atlantic
Coastal Ridge, despite surveys done in the surrounding area.
Regulatory and Analytical Framework
Regulatory Framework
Section 4 of the Act (16 U.S.C. 1533) and the implementing
regulations in title 50 of the Code of Federal Regulations set forth
the procedures for determining whether a species is an endangered
species or a threatened species, issuing protective regulations for
threatened species, and designating critical habitat for endangered and
threatened species. In 2019, jointly with the National Marine Fisheries
Service, the Service issued a final rule that revised the regulations
in 50 CFR part 424 regarding how we add, remove, and reclassify
endangered and threatened species and the criteria for designating
listed species' critical habitat (84 FR 45020; August 27, 2019). On the
same day, the Service also issued final regulations that, for species
listed as threatened species after September 26, 2019, eliminated the
Service's general protective regulations automatically applying to
threatened species the prohibitions that section 9 of the Act applies
to endangered species (84 FR 44753; August 27, 2019).
The Act defines an ``endangered species'' as a species that is in
danger of extinction throughout all or a significant portion of its
range, and a ``threatened species'' as a species that is likely to
become an endangered species within the foreseeable future throughout
all or a significant portion of its range. The Act requires that we
determine whether any species is an endangered species or a threatened
species because of any of the following factors:
(A) The present or threatened destruction, modification, or
curtailment of its habitat or range;
(B) Overutilization for commercial, recreational, scientific, or
educational purposes;
(C) Disease or predation;
(D) The inadequacy of existing regulatory mechanisms; or
(E) Other natural or manmade factors affecting its continued
existence.
These factors represent broad categories of natural or human-caused
actions or conditions that could have an effect on a species' continued
existence. In evaluating these actions and conditions, we look for
those that may have a negative effect on individuals of the species, as
well as other actions or conditions that may ameliorate any negative
effects or may have positive effects.
We use the term ``threat'' to refer in general to actions or
conditions that are known to or are reasonably likely to negatively
affect individuals of a species. The term ``threat'' includes actions
or conditions that have a direct impact on individuals (direct
impacts), as well as those that affect individuals through alteration
of their habitat or required resources (stressors). The term ``threat''
may encompass--either together or separately--the source of the action
or condition or the action or condition itself.
However, the mere identification of any threat(s) does not
necessarily mean that the species meets the statutory definition of an
``endangered species'' or a ``threatened species.'' In determining
whether a species meets either definition, we must evaluate all
identified threats by considering the species' expected response and
the effects of the threats--in light of those actions and conditions
that will ameliorate the threats--on an individual, population, and
species level. We evaluate each threat and its expected effects on the
species, then analyze the cumulative effect of all of the threats on
the species as a whole. We also consider the cumulative effect of the
threats in light of those actions and conditions that will have
positive effects on the species, such as any existing regulatory
mechanisms or conservation efforts. The Secretary determines whether
the species meets the definition of an ``endangered species'' or a
``threatened species'' only after conducting this cumulative analysis
and describing the expected effect on the species now and in the
foreseeable future.
[[Page 64859]]
The Act does not define the term ``foreseeable future,'' which
appears in the statutory definition of ``threatened species.'' Our
implementing regulations at 50 CFR 424.11(d) set forth a framework for
evaluating the foreseeable future on a case-by-case basis. The term
``foreseeable future'' extends only so far into the future as we can
reasonably determine that both the future threats and the species'
responses to those threats are likely. In other words, the foreseeable
future is the period of time in which we can make reliable predictions.
``Reliable'' does not mean ``certain''; it means sufficient to provide
a reasonable degree of confidence in the prediction. Thus, a prediction
is reliable if it is reasonable to depend on it when making decisions.
It is not always possible or necessary to define the foreseeable
future as a particular number of years. Analysis of the foreseeable
future uses the best scientific and commercial data available and
should consider the timeframes applicable to the relevant threats and
to the species' likely responses to those threats in view of its life-
history characteristics. Data that are typically relevant to assessing
the species' biological response include species-specific factors such
as lifespan, reproductive rates or productivity, certain behaviors, and
other demographic factors.
Analytical Framework
The SSA report documents the results of our comprehensive
biological review of the best scientific and commercial data regarding
the status of the species, including an assessment of the potential
threats to the species. The SSA report does not represent our decision
on whether the species should be proposed for listing as an endangered
or threatened species under the Act. However, it does provide the
scientific basis that informs our regulatory decisions, which involve
the further application of standards within the Act and its
implementing regulations and policies.
To assess Miami cave crayfish viability, we used the three
conservation biology principles of resiliency, redundancy, and
representation (Shaffer and Stein 2000, pp. 306-310). Briefly,
resiliency is the ability of the species to withstand environmental and
demographic stochasticity (for example, wet or dry, warm or cold
years), redundancy is the ability of the species to withstand
catastrophic events (for example, droughts, large pollution events),
and representation is the ability of the species to adapt to both near-
term and long-term changes in its physical and biological environment
(for example, climate conditions, pathogens). In general, species
viability will increase with increases in resiliency, redundancy, and
representation (Smith et al. 2018, p. 306). Using these principles, we
identified the species' ecological requirements for survival and
reproduction at the individual, population, and species levels, and
described the beneficial and risk factors influencing the species'
viability.
The SSA process can be categorized into three sequential stages.
During the first stage, we evaluated the individual species' life-
history needs. The next stage involved an assessment of the historical
and current condition of the species' demographics and habitat
characteristics, including an explanation of how the species arrived at
its current condition. The final stage of the SSA involved making
predictions about the species' responses to positive and negative
environmental and anthropogenic influences. Throughout all of these
stages, we used the best available information to characterize
viability as the ability of a species to sustain populations in the
wild over time. We use this information to inform our regulatory
decision.
The following is a summary of the key results and conclusions from
the SSA report; the full SSA report can be found at Docket FWS-R4-ES-
2023-0103 on https://www.regulations.gov and at https://ecos.fws.gov/ecp/species/9832.
Summary of Biological Status and Threats
In this discussion, we review the biological condition of the
species and its resources, and the threats that influence the species'
current and future condition, in order to assess the species' overall
viability and the risks to that viability.
Species Needs
The SSA report contains a detailed discussion of the Miami cave
crayfish individual and population requirements (Service 2022, pp. 23-
27); we provide a summary here. Based upon the best available
scientific and commercial information, and acknowledging existing
ecological uncertainties, the resource and demographic needs for
breeding, feeding, sheltering, and dispersal of the Miami cave crayfish
are characterized as:
Sufficient freshwater quality and availability to support
a suitable aquatic environment for movement and healthy individuals.
Sufficient quantities of mega-porous limestone to provide
the structure needed for Miami cave crayfish movement and shelter. The
Miami cave crayfish has adapted to these mega-porous limestone layers
in the Biscayne Aquifer, which provides them with structures through
which juvenile and adult Miami cave crayfish can travel between areas
within the aquifer system, facilitating connectivity; microhabitats in
which individuals can shelter or hide from intra- and interspecific
threats; and enhanced groundwater flow for improved water quality and
food availability (Loftus and Trexler 2004, p. 49, Hobbs and Means
1972, p. 401; Caine 1978, pp. 323, 325, Fish and Stewart 1991, p. 47;
Wacker et al. 2014, pp. 27-40).
Sufficient quantities of detritus filtering from the
surface into the subterranean aquifer to support both the Miami cave
crayfish and the amphipods and isopods upon which the crayfish may also
feed.
Miami cave crayfish abundance is limited to the availability and
condition of these resources in the Biscayne Aquifer along the Atlantic
Coastal Ridge. While there is high confidence in these identified
species needs, uncertainty exists as to the exact parameters and
quantities needed for each of these factors, as no ecological or
quantitative studies have been completed on them.
Threats
The main threats affecting the Miami cave crayfish are related to
shifts in climate largely as a result of increasing greenhouse gas
emissions. Saltwater intrusion into the Biscayne Aquifer as a result of
sea level rise, more frequent tidal flooding (increase of tides above
the mean high tide), and increasing intensity of storm events (such as
hurricanes) are the predominant threats to the Miami cave crayfish and
its habitat. Additional threats with greater uncertainty and likely
less severity to the Miami cave crayfish include water quality
degradation, groundwater pumping, and modification of surface cover
resulting from urban development. We also evaluated existing ongoing
conservation measures and regulatory mechanisms. In the SSA report, we
considered additional threats: modification of subterranean limestone,
competition and predation, disease, and overutilization. We concluded
that, as indicated by the best available scientific and commercial
information, these additional threats are currently having little to no
impact on the Miami cave crayfish, and thus their overall effect now is
expected to be minimal and the best available information does not
indicate this will change in the future.
[[Page 64860]]
For full descriptions of all threats and how they impact the Miami cave
crayfish, please see the SSA report (Service 2022, pp. 27-78).
Saltwater Intrusion
Although the salinity tolerance of Miami cave crayfish has not been
assessed, surrogate species, such as the closely related Everglades
crayfish (Procambarus alleni), indicate it is highly unlikely that the
species could persist in the salinity levels found in areas affected by
saltwater intrusion. Surface-dwelling crayfish are able to persist in
saline environments in the short-term, but exposure to salinity levels
above naturally occurring levels for long periods of time can cause
inhibition of growth, limited to no reproduction, lower hatching
success, and mortality (Vesel[yacute] et al. 2017, pp. 4-5).
Additionally, when comparing the salinity levels found in the closely
related, brackish-water-dwelling Everglades crayfish to salinity levels
found in areas of the Biscayne Aquifer affected by saltwater intrusion,
the salinity levels in areas affected by saltwater intrusion far
exceeded tolerances of the Everglades crayfish (Hendrix and Loftus
2000, p. 194; Service 2022, p. 69). This indicates that a closely
related, saline-tolerant species of crayfish would not be able to
tolerate the salinity levels that the Miami cave crayfish would be
experiencing in areas of saltwater intrusion. Therefore, we concluded
the Miami cave crayfish likely cannot persist in areas affected by
saltwater intrusion, because it needs sufficient freshwater in order to
survive and reproduce.
Saltwater intrusion occurs when saltwater enters into a freshwater
aquifer system. Four main processes contribute to the intrusion of
saltwater into aquifer systems like the Biscayne Aquifer: (1) the
escape of saltwater that had been previously stored in sedimentary
rocks, (2) the gradual advance of oceanwater along the base of the
aquifer as a result of lowering freshwater levels within the aquifer
and sea level rise, (3) seepage of hypersaline (extremely salty) water
from coastal saltwater marshes, and (4) leakage of saltwater from canal
systems that feed into the ocean (Prinos et al. 2014, pp. 12-16).
Processes two and four are of greatest concern to the Biscayne Aquifer
within the range of Miami cave crayfish because of large sea level rise
projections, the potential effects from the planned construction of a
curtain wall west of the Atlantic Coastal Ridge (discussed below), and
the extensive canal network in the area. Additionally, the area's low
altitude and topographic gradient, high permeability, and the bordering
saltwater sources of the Atlantic Ocean, Biscayne Bay, and Florida Bay
make it especially susceptible to saltwater intrusion (Prinos et al.
2014, p. 2).
Sea level rise--Regional sea levels could rise between 1.41 ft
(0.43 m) and 4.53 ft (1.38 m) by 2070. Temperatures are predicted to
rise as well, while dry seasons, droughts, and tropical storms are
likely to become more extreme (IPCC 2014, pp. 1452-1456; Infanti et al.
2020, entire; IPCC 2021, pp. 32, 33). The cumulation of all of these
climatic factors is highly likely to result in the continued inland
migration of the saltwater interface in the Biscayne Aquifer along the
Atlantic Coastal Ridge. The loss of habitat along the eastern edge of
the Atlantic Coastal Ridge is particularly impactful since these
coastal areas exhibit the greatest aquifer depths and, thus, the
greatest overall quantity of Miami cave crayfish habitat.
Curtain wall--In the western range of the species, a project
started in 2012 that may impact saltwater intrusion is the construction
of a 19- to 31-mile (31- to 50-kilometer) curtain wall west of the
Atlantic Coastal Ridge. The curtain wall's purpose is to manage waters
within the Everglades wetland ecosystem and protect the coastal
urbanized area of Miami-Dade County from flooding (Owosina 2020,
unpaginated). The project is expected to be completed in five-to-10-
mile increments within the next ten years if funding can be secured.
The curtain wall will alter the superficial water flow that reaches the
Miami-Dade area, but we are not certain of the level of effects or
dynamics to the Biscayne Aquifer, particularly to the east of the
structure on the Atlantic Coastal Ridge where water flow from the
Everglades wetland ecosystem in the east may be reduced. Groundwater
will still flow under the curtain wall. The recommended configuration
for further study (a 27-mile South scenario) will include gaps in the
curtain wall and is seeking to balance restoration and flood control
while mitigating impacts to Biscayne Bay, Taylor Slough, and water
supply (South Florida Water Management District 2023, p. 9-89-9-92).
Currently, a general eastward and southeastward direction of
groundwater flow along the Atlantic Coastal Ridge counters the
encroachment of saltwater from the ocean (Prinos et al. 2014, p. 6).
Weakening of this eastward and southeastward water flow may cause
increased saltwater intrusion and subsequent loss of Miami cave
crayfish habitat. In addition, any potential loss of freshwater
recharge provided by the Everglades wetland ecosystem may drop the
groundwater levels of the Biscayne Aquifer on the Atlantic Coastal
Ridge, further contributing to saltwater intrusion.
Canals--Modern water management and its impact on saltwater
intrusion has a long history in the Miami area, beginning with the
coordinated draining of the Everglades wetland ecosystem in 1845.
Historically, canals along the Atlantic Coastal Ridge aided in draining
the adjacent wetland systems, which, along with groundwater pumping,
led to a permanent drop of about 9.5 ft (2.9 m) in regional groundwater
levels within the Biscayne Aquifer (Prinos et al. 2014, pp. 2, 64). As
a result, saltwater intrusion began to expand inward from the coast
(Prinos et al. 2014, p. 64). Concurrently, saltwater flowed up the
expanded canal systems from the ocean and seeped into the surrounding
aquifer system (Prinos et al. 2014, p. 64).
Today's water management system is operated by the South Florida
Water Management District and includes a complex, interconnected
network of water conservation areas, well-fields, water control
structures, levees, pumps, and canals. Despite the installation of
salinity control structures along most of the tidal canal system in
Miami-Dade County, saltwater seepage from canals into the adjacent
aquifer system is still one of the primary mechanisms by which
saltwater intrusion occurs in the region (Prinos et al. 2014, pp. 42,
43, 47-55, 66).
In summary, saltwater intrusion is the primary threat to the Miami
cave crayfish, because it causes complete loss of habitat and is
projected to get worse in the future; and the species has no dispersal
potential outside of its current, restricted range.
Groundwater Pumping
Residents of Miami-Dade County have been pumping freshwater out of
the Biscayne Aquifer for residential, agricultural, industrial,
municipal, and recreational use since the first public supply wells
were drilled in 1899 (Prinos et al. 2014, p. 18; Hughes and White 2016,
pp. 27-29). As the population has grown, so too has the demand for
freshwater. Public groundwater withdrawals increased in line with
population growth until 2006 when demand on the aquifer was mitigated
by stricter water use regulations (Bradner et al. 2005, p. 1; Prinos et
al. 2014, p. 7).
Although 90 percent of the freshwater consumed by Miami-Dade County
residents is pumped from the Biscayne Aquifer, these are not the only
South
[[Page 64861]]
Florida populations drawing from the aquifer's groundwater reserves.
Over 4 million people in Broward and Palm Beach Counties also rely on
the Biscayne Aquifer for their freshwater needs, and groundwater piped
from the Biscayne Aquifer to the Florida Keys serves as the main source
of potable water for all of Monroe County (Bradner et al. 2005, p. 1;
Prinos et al. 2014, p. 7). Consequently, the U.S. Environmental
Protection Agency (EPA) has designated the Biscayne Aquifer as a sole-
source aquifer (i.e., the only viable groundwater source in the region;
EPA 2016, entire).
As mentioned in the Canals discussion above, groundwater pumping
was part of what caused an estimated 9.5-ft (2.9-m) drop in water
levels compared to levels before the drainage of the Everglades (Prinos
et al. 2014, p. 17). This drop in water level roughly equates to an 11
percent loss in potential Miami cave crayfish habitat since the 1840s
(Service 2022, pp. 53). An 11 percent loss in habitat from potential
historical levels is significant because the species has an already
limited range.
In addition to causing direct loss of habitat, groundwater
withdrawal can exacerbate the effects of saltwater intrusion. Lower
freshwater levels as a result of groundwater withdrawal can cause
saltwater intrusion to move further inland (Prinos et al. 2014, pp. 12-
16). Lower freshwater levels also act synergistically with sea level
rise to increase the rate of saltwater intrusion encroachment into the
aquifer.
The most uncertain but potentially most impactful result of
groundwater pumping is from the pumping process itself. Mortality
events are possible for Miami cave crayfish that get sucked into a
water pump system. In fact, the original specimens from which the
species was first described were deceased individuals collected from a
water pump trap (Hobbs 1971, p. 114). However, public water supply
wells may have water pumps that are deep enough to avoid impacting the
Miami cave crayfish. For example, the Miami-Dade Water and Sewer
Department Northwest Wellfield has wells constructed with 46 feet of
casing, meaning water is being pumped deeper than 46 feet (Krupa et al.
2001, p. 3). The deepest Miami cave crayfish have been collected from
is 36 feet deep. Therefore, public water supply wells may not have a
significant effect on the species depending on the depth of the well.
Private water supply, agricultural, or other types of wells that are
shallower may have a more significant impact to the species. Overall,
the extent of mortality resulting from water pumping is unknown but
could be having ongoing impacts on the species.
Water Quality Degradation
The high permeability of the Biscayne Aquifer, particularly along
the Atlantic Coastal Ridge, makes its groundwater vulnerable to
contamination from surficial inputs, belowground septic tanks, and
adjoining water bodies (Bradner et al. 2005, entire; Potter et al.
2007, p. 1306; Florida Department of Environmental Protection 2019,
entire). In particular, the sandy soils typical to the Atlantic Coastal
Ridge contain relatively small amounts of soil organic matter and
exhibit low water retention, increasing the potential for leaching of
surface contaminants into groundwater below (Marchi et al 2016, pp.
237-238). Additionally, the high interconnectivity of the Biscayne
Aquifer facilitates the relatively rapid and extensive spread of
contaminants well beyond their point of origin (Harvey et al. 2008,
entire; Shapiro et al. 2008, entire).
Pharmaceuticals, pesticides, volatile organic compounds, excess
nutrients, and excess trace elements are introduced into groundwater
throughout Miami-Dade County by a variety of land uses associated with
development, agriculture, and recreation. These contaminants are
concentrated in canals and other water bodies from which they seep into
the Biscayne Aquifer. A current and comprehensive regional assessment
of groundwater contamination across the endemic range of Miami cave
crayfish is not available; however, there are many sources of
pollutants including human wastewater, agriculture, and golf courses,
among others (Service 2022, pp. 59-61).
Using other crayfish and crustaceans as analogues, we predict that
Miami cave crayfish likely experience increased morbidity, mortality,
and reproductive loss when exposed to anthropogenic contaminants
(Service 2022, p. 58). However, although pollutants may be a
significant threat to the species, the scope and magnitude of this
threat is not known because of the lack of information on the levels of
pollutants across the range of the Miami cave crayfish.
Modification of Surface Cover
The subterranean communities supporting Miami cave crayfish are
dependent on the influx of detritus from surficial sources. When
surface vegetation is lost or is blocked by impermeable land cover from
entering subterranean habitats, the food supply of the species can be
compromised. The majority of the surface cover above Miami cave
crayfish habitat is impermeable cover (greater than 85 percent).
Because of the large amount of impermeable cover above subterranean
habitat, there is likely less detritus available for the Miami cave
crayfish. However, the best available information does not indicate
that the amount of detritus filtering down into Miami cave crayfish
habitat has been significantly reduced because of impermeable cover.
Summary of Threats
The primary threat to the Miami cave crayfish is saltwater
intrusion as a result of sea level rise, increased high tide flooding,
increased intensity of storm events, groundwater pumping, and altered
hydrologic flows. Saltwater intrusion results in a complete loss of
habitat, which is significant because the Miami cave crayfish has a
restricted range. Additional threats with greater uncertainty and
likely less severity include mortality from groundwater pumps, water
quality degradation, and impermeable surface cover limiting detritus
flow into subterranean habitat.
Current Conditions
The current condition of the Miami cave crayfish is described in
terms of population resiliency, redundancy, and representation across
the species. The analysis of these conservation principles to
understand the species' current viability is described in more detail
in the Miami cave crayfish SSA report (Service 2022, pp. 78-93).
Historically, all Miami cave crayfish were likely part of one
metapopulation that had some degree of connectivity. Currently, the
Miami cave crayfish still exists in one population restricted to the
Biscayne Aquifer along the Atlantic Coastal Ridge. However, a series of
canals cross the Atlantic Coastal ridge reduce connectivity. For the
purposes of this assessment, we divided the Atlantic Coastal Ridge into
seven analysis units to assess resiliency of the Miami cave crayfish.
Reduced connectivity from canals creates semi-isolated areas, which led
us to delineating seven analysis units using the network of canals as
boundaries (Service 2022, p. 22).
To determine the current resiliency for the seven analysis units,
we assessed habitat metrics, such as freshwater availability, detritus
availability, freshwater quality, and habitat quantity. For each metric
if greater than 79 percent of the measured factor is in a natural,
anthropogenically unaltered state it ranked as a high condition, 51-79
percent ranked as a moderate condition, and 50 percent or less ranked
as a low condition.
[[Page 64862]]
Freshwater Availability
Saltwater intrusion is the primary threat to the Miami cave
crayfish because it reduces the amount of freshwater available for the
species' habitat. Currently, saltwater intrusion is affecting six of
the seven analysis units for the Miami cave crayfish (Service 2022, p.
68; Prinos 2019, entire). Two units have greater than 50 percent of
habitat affected by saltwater intrusion, four units have 17 to 26
percent of habitat affected, and two units have 0 to 5 percent of
habitat affected (Service 2022, p. 88). Overall, a majority of Miami
cave crayfish habitat is currently unaffected by saltwater intrusion
and is considered to be in a high condition.
Availability of Detritus and Freshwater Quality
Currently, we have little to no information on whether the amount
of detritus filtering down into Miami cave crayfish habitat has been
significantly reduced because of impermeable cover; effects of
pollution on water quality; or mortality resulting from groundwater
pumping or subsurface modification activities, such as mining. While
these stressors likely affect the resiliency of the Miami cave
crayfish, we do not know the direct effects to the species and its
needs.
Because we do not know the direct effects impermeable cover,
pollutants, and activities that cause mortality have on the Miami cave
crayfish, we estimated the magnitude of these stressors on the species
and its needs based on indirect measures.
To assess the availability of detritus, we compared the amount of
permeable cover currently above Miami cave crayfish habitat to the
amount of permeable cover that was historically present. Each analysis
unit has less than 37 percent surface area remaining that is permeable
cover (Service 2022, p. 85). Permeable cover is defined as surface
cover with vegetation that provides detritus directly into the
subterranean habitat. All analysis units are considered in a low
condition for the quality of surface cover. We acknowledge that we do
not know the amount of detritus needed by the Miami cave crayfish nor
the current amount of available detritus in the Biscayne Aquifer;
therefore, there is significant uncertainty in this metric.
To assess water quality, we estimated the number of potential
sources of pollution within the range of the species. We categorized
different land use types, such as agriculture, by the pollutants they
may be inputting into the Biscayne Aquifer. Then, we measured the
amount of surface cover in each analysis unit that is likely inputting
pollutants into the aquifer. Each analysis unit is in a low condition
for water quality because of the large number of potential inputs of
pollutants into Miami cave crayfish habitat. We acknowledge that we do
not know the water quality parameters needed by the Miami cave crayfish
nor the amount of pollution within the range of the species; therefore,
there is significant uncertainty in this metric.
Habitat Quantity
To assess habitat quantity, we estimated the total physical
volumetric habitat available to the species (i.e., the total
subterranean karstic limestone that is submerged in the Biscayne
aquifer). We used the most recent available data for the depth of the
Biscayne Aquifer on the Atlantic Coastal Ridge (Hughes and White 2016,
p. 26) and subtracted out certain land uses, like limestone mines, and
sewer line infrastructure (Miami-Dade County 2018, entire and Miami-
Dade County 2021a, entire). We then compared the amount of
subterranean, karstic limestone aquifer habitat currently available to
the amount that was historically present. All analysis units are in a
high condition relative to habitat quantity (Service 2022, p. 80).
Resiliency, Redundancy, and Representation
Although we found overall resilience to be low in all analysis
units, we determined the Miami cave crayfish currently has sufficient
resiliency to withstand environmental and demographic stochasticity. A
majority of the Miami cave crayfish range is in a high condition for
freshwater availability and habitat quantity is in a high condition for
all seven analysis units. Our measures of available detritus and water
quality are in a low condition across the range. However, we put
greater weight on the freshwater availability and habitat quantity
metrics because they are direct measures of the species' needs, whereas
we put less weight on the availability of detritus and freshwater
quality metrics because they are indirect measures of the species'
needs with significant assumptions. We then assessed the best available
demographic data for the Miami cave crayfish.
Surveys since 2000 indicate the species is present in all analysis
units except for the one analysis unit most impacted by saltwater
intrusion (Service 2022, p. 21). The most comprehensive surveys were
completed in the period 2000-2004, confirming presence of the species
distributed throughout the range (Service 2022, p. 21). Subsequently,
one anecdotal observation in 2009 along with a survey effort in 2018
confirmed presence in a total of four analysis units spread throughout
the range (Service 2022, p. 21). The effects of impermeable land cover
and pollution in the Biscayne Aquifer have been impacting the Miami
cave crayfish for multiple decades; therefore, the continued presence
of the species throughout the range indicates it currently has
sufficient resiliency to these stressors.
In summary, the Miami cave crayfish currently has sufficient
resiliency to withstand environmental and demographic stochasticity
because there is enough freshwater and habitat available. Despite our
measures of available detritus and water quality being in low
condition, the Miami cave crayfish has consistently been found
throughout its range through multiple decades of impermeable land cover
and pollution in the Biscayne Aquifer, indicating that it currently has
sufficient resiliency to these stressors. We combined our habitat
metric analysis with the best available information on the demographics
of the species to determine that the Miami cave crayfish currently has
sufficient resiliency to withstand environmental and demographic
stochasticity.
The Miami cave crayfish currently has limited ability to withstand
catastrophic events and adapt to a changing environment because it has
naturally low redundancy and representation due to its high level of
endemism. The narrowly distributed, isolated nature of the single
population of the species indicates it has limited ability to withstand
stochastic or catastrophic events through dispersal. Because the
species evolved in a unique subterranean aquifer system with little
historical variation, we conclude that it has low potential to adapt to
environmental changes to its habitat. As a single-aquifer endemic with
no dispersal opportunities outside the current range, the species
depends entirely on the continued availability of its habitat along the
Atlantic Coastal Ridge. Even though redundancy and representation are
inherently low for the Miami cave crayfish because of its endemism,
they are both similar to historical levels.
Future Condition
In the SSA report, we analyzed four scenarios that incorporated
changes in saltwater intrusion caused by sea level rise, urbanization,
water quality condition caused by pollution, and water quantity
condition caused by groundwater pumping. The main driver
[[Page 64863]]
of the future condition of the species is the movement of saltwater
intrusion further inland because of sea level rise. Urbanization,
pollution levels, and groundwater pumping levels do not change
significantly into the future because they are already at high levels
and there is limited capacity for more development, though they may
increase if the limited available land is developed. Subsequently, we
focus on the future effects of saltwater intrusion in this document.
Further discussion of future changes in urbanization, water quality
condition, and water quantity condition can be found in the SSA report
(Service 2022, pp. 94-100).
As sea level rises, more Miami cave crayfish habitat will become
unsuitable because saltwater will intrude further inland into the
Biscayne Aquifer. The Biscayne Aquifer has varied depth, ranging from
50 ft (15 m) in the most inland extent of the range to 90 ft (27 m) in
the most coastal extent of the range (Hughes and White 2016, p. 26).
Because the aquifer is deepest closer to the coast, there is more Miami
cave crayfish habitat within this area. Coastal habitat will be
increasingly impacted by saltwater intrusion, which is significant
because the largest volume of habitat will be lost first.
For our evaluation of future condition, we used modeled projections
of sea level rise (Sweet et al. 2017, entire; Sweet et al. 2018,
entire). We modeled threats to the year 2070, representing a 50-year
time horizon, corresponding to the range of available urbanization and
climate change model forecasts (Carr and Zwick 2016, entire; Sweet et
al. 2017, entire; Sweet et al. 2018, entire). In addition, 50 years
represents an appropriate biological timeframe during which responses
of the species to potential changes in habitat can be reasonably
assessed. Although the lifespan and generation time for Miami cave
crayfish are currently unknown, estimates for these measures based on
those reported for other subterranean crayfish taxa (Taylor et al.
1996, p. 27; Huryn et al. 2008, pp. 1, 12-15; Longshaw and Stebbing
2016, p. 68) suggest that three generations of the species would likely
be represented in a 50-year time span.
No projections currently exist that predict the extent of saltwater
intrusion into the Biscayne Aquifer by 2070, so we estimated the inland
movement of the saltwater interface from its 2018 position (Prinos
2019, unpaginated) based on the projections of regional sea level rise,
the degree of aquifer drawdown, and anthropogenic interventions
potentially altering saltwater intrusion. The regional sea level rise
scenarios adopted from Sweet et al. (2017 and 2018) (e.g.,
Intermediate, Intermediate High, and Extreme scenarios) encompass the
extent of sea level rise predicted by the low-end and high-end likely
ranges for the representative concentration pathway (RCP) 4.5 and RCP
8.5 emissions scenarios for future global temperatures projected by the
Intergovernmental Panel on Climate Change assessment report 5 (Sweet et
al. 2018, p. 24).
After we had completed our SSA, version 1.0, new sea level rise
projections were made publicly available (Sweet et al. 2022, entire).
We compared the Sweet et al. (2017, entire) sea level rise projections
to the new updated Sweet et al. (2022, entire) projections and added
this comparison summary as an appendix to the SSA report (Service 2023,
version 1.1). The Sweet et al. (2022, entire) sea level rise scenarios
project lower sea level rise in 2070 when compared to projections from
Sweet et al. (2017, entire). However, including the additional effects
of high tide flooding, similar loss of habitat would be expected as
seen in our projections using Sweet et al. 2017.
The intermediate sea level rise scenario (1.41-ft (0.43-m) regional
sea level rise projection) is represented in the SSA report by scenario
4; the intermediate-high sea level rise scenario (2.49-ft (0.76-m)
regional sea level rise projection) is represented in the SSA report by
scenarios 1 and 2; and the extreme sea level rise scenario (4.53-ft
(1.38-m) regional sea level rise projection) is represented by scenario
3 (Sweet et al. 2017 and 2018, entire).
In scenario 4, saltwater intrusion will cause increased habitat
loss in the two analysis units in a low condition and the one analysis
unit in a moderate condition, while also causing one high condition
unit to drop to a moderate condition (Service 2022, pp. 106-107; table
1). In scenarios 1 and 2, saltwater intrusion will cause two units to
decrease from a high to moderate condition, one unit will decrease from
a moderate to a low condition, and one unit will decrease from a low to
extirpated condition. In scenario 3, saltwater intrusion will cause
three units to be completely extirpated and the remaining four units to
drop to a low condition, meaning over 50 percent of the habitat in
those units would be lost (Service 2022, pp. 104-105; table 1). In all
of our future scenarios, a significant loss of habitat would result
from saltwater intrusion (table 1).
Table 1--Condition of Freshwater Availability for the Current Condition and the Future Condition for Each
Scenario for Each Analysis Unit of the Miami Cave Crayfish
----------------------------------------------------------------------------------------------------------------
Current
condition: Scenario 4: \1\ Scenario 1: \2\ Scenario 2: \2\ Scenario 3: \3\
Analysis unit freshwater freshwater freshwater freshwater freshwater
availability availability availability availability availability
----------------------------------------------------------------------------------------------------------------
1................. High............. High............. Moderate......... Moderate......... Low.
2................. High............. High............. Moderate......... Moderate......... Low.
3................. High............. Moderate......... Moderate......... Low.............. Low.
4................. High............. High............. High............. High............. Low.
5................. Low.............. Low.............. Extirpated....... Extirpated....... Extirpated.
6................. Moderate......... Moderate......... Low.............. Low.............. Extirpated.
7................. Low.............. Low.............. Low.............. Low.............. Extirpated.
----------------------------------------------------------------------------------------------------------------
Scenarios 4 and 3 represent the upper and lower bounds of projected scenarios for the future condition of the
species:
\1\ Scenario 4: Intermediate sea level rise scenario (1.41-ft (0.43-m) regional sea level rise).
\2\ Scenarios 1 and 2: Intermediate-high sea level rise scenario (2.49-ft (0.76-m) regional sea level rise).
\3\ Scenario 3: Extreme sea level rise scenario (4.53-ft (1.38-m) regional sea level rise).
Resiliency, redundancy, and representation would all be reduced in
the future because of habitat loss due to saltwater intrusion. With
less habitat available, Miami cave crayfish abundance would likely
decline. Fewer Miami cave crayfish in the aquifer and less available
habitat reduces the ability of the species to withstand environmental
and demographic stochasticity and also its ability to withstand
catastrophic events. A lower
[[Page 64864]]
population size also reduces the genetic diversity of the species,
further limiting its adaptive capacity. Additionally, the Miami cave
crayfish has no ability to disperse outside of its current range, also
limiting its ability to adapt to changing conditions. Overall, the
Miami cave crayfish will likely be significantly more vulnerable to
stressors in the future because of habitat loss due to increased
impacts of saltwater intrusion due to sea level rise.
We note that, by using the SSA framework to guide our analysis of
the scientific information documented in the SSA report, we have
analyzed the cumulative effects of identified threats and conservation
actions on the species. To assess the current and future condition of
the species, we evaluate the effects of all the relevant factors that
may be influencing the species, including threats and conservation
efforts. Because the SSA framework considers not just the presence of
the factors, but to what degree they collectively influence risk to the
entire species, our assessment integrates the cumulative effects of the
factors and replaces a standalone cumulative effects analysis.
Conservation Efforts and Regulatory Mechanisms
Regulations that help to protect Miami cave crayfish habitat
include water management regulations that reduce groundwater withdrawal
and pollution.
The South Florida Water Management District is responsible for
water management in Miami-Dade County and regulates water use and
production throughout the region. In 2007, the South Florida Water
Management District passed a rule that prevents water consumers from
sourcing new or additional supplies of freshwater that are recharged by
the Everglades ecosystem. Water users are now required to use
alternative sources, such as recycled water, treated wastewater pumped
into the Biscayne Aquifer for recharge purposes, groundwater reserves
in the Floridan aquifer system, or general water conservation practices
(South Florida Water Management District 2008, entire; Hughes and White
2016, pp. 2-3). The measure has already resulted in decreased rates of
public water withdrawal from the Biscayne Aquifer (Bradner et al. 2005,
p. 1; Prinos et al. 2014, p. 7).
Another key regulation adopted by the South Florida Water
Management District that counters freshwater withdrawal from the
Biscayne Aquifer is its year-round landscape watering restrictions
(Chapter 40E-24, Florida Administrative Code). These restrictions
stipulate specific times that landscape watering is permitted, thus
restricting the amount of groundwater that can be withdrawn from those
using public or privately owned water utility systems or wells.
However, some large sources of water consumption are exempted by these
regulations, namely athletic play areas (e.g., golf courses, sports
facilities, equestrian and livestock arenas), agricultural operations
with consumptive use permits, and water users practicing hand watering
(e.g., with hoses) (South Florida Water Management District 2021a,
unpaginated).
Biscayne Aquifer groundwater has limited protective benefits from
pollution under Federal, State, and county regulations. Most regulatory
protections focus on surface water quality, which offers indirect
benefits to the quality of freshwater within the Biscayne Aquifer
system. The primary laws and ordinances pertaining to water quality
protection that directly or indirectly affect groundwater quality in
the endemic range of Miami cave crayfish include (but are not limited
to):
Comprehensive Environmental Response, Compensation, and
Liability Act of 1980 (the Superfund law) (42 U.S.C. 9601 et seq.):
identifies, evaluates, and cleans up sites contaminated with hazardous
substances.
Resource Conservation and Recovery Act (42 U.S.C., ch. 82,
sec. 6901 et seq.): establishes standards for the treatment, storage,
and disposal of hazardous waste from municipal and industrial sources,
including that contained in underground storage tanks.
Safe Drinking Water Act (42 U.S.C. 300f): establishes
national primary drinking water regulations for contaminants that may
cause adverse public health effects, including mandatory requirements
related to maximum contaminant levels and treatments.
Clean Water Act of 1972 (33 U.S.C. 1251 et seq.):
indirectly benefits groundwater quality by protecting the quality of
surficial waters.
The Everglades Forever Act (Section 373.4592(4)(f), F.S.):
establishes best management practices in the Everglades Agricultural
Area, which is underlaid by the Biscayne Aquifer that indirectly
benefits from these regulations.
The Grizzle-Figg Statute (Section 403.086, F.S.): outlines
requirements for safe sewage disposal facilities and treatment of
discharges from these sewage facilities.
Identification of Impaired Surface Waters (Section 62-303,
F.S.): establishes water quality standards and protocols by which
Florida assesses, lists, and delists impaired surface waters, which
indirectly protects adjacent aquifer systems.
Miami-Dade County Ordinance for Florida-Friendly
Fertilizer Use for Urban Landscapes: regulates fertilizer application
and use in the incorporated and unincorporated areas of the county.
Miami-Dade County Wellfield Protection Regulations:
prohibits or limits activities that use or store hazardous materials,
generate hazardous waste, excavate to any depth, or require the
installation of septic tanks within a wellfield protection area.
Currently, there are no conservation efforts specific to the Miami
cave crayfish.
The Miami cave crayfish is listed in the State Wildlife Action Plan
as a species of greatest concern (Florida Fish and Wildlife
Conservation Commission 2019, p. 163).
Determination of Miami Cave Crayfish Status
Section 4 of the Act (16 U.S.C. 1533) and its implementing
regulations (50 CFR part 424) set forth the procedures for determining
whether a species meets the definition of an endangered species or a
threatened species. The Act defines an ``endangered species'' as a
species in danger of extinction throughout all or a significant portion
of its range, and a ``threatened species'' as a species likely to
become an endangered species within the foreseeable future throughout
all or a significant portion of its range. The Act requires that we
determine whether a species meets the definition of an endangered
species or a threatened species because of any of the following
factors: (A) The present or threatened destruction, modification, or
curtailment of its habitat or range; (B) overutilization for
commercial, recreational, scientific, or educational purposes; (C)
disease or predation; (D) the inadequacy of existing regulatory
mechanisms; or (E) other natural or manmade factors affecting its
continued existence.
Status Throughout All of Its Range
After evaluating threats to the species and assessing the
cumulative effect of the threats under the Act's section 4(a)(1)
factors, we found that impacts from saltwater intrusion caused by
rising sea levels is the most substantial threat to the Miami cave
crayfish viability. In the foreseeable future, we anticipate that
saltwater intrusion will continue to move inland as climate-
[[Page 64865]]
change-induced sea level rise continues, causing the loss of Miami cave
crayfish habitat and having the greatest influence on Miami cave
crayfish viability. We also considered the effects of development,
pollution in the Biscayne Aquifer, activities that can cause mortality,
and minor threats including modification of subterranean limestone,
competition and predation, disease, and overutilization for their
cumulative effects.
The Miami cave crayfish exists in one population restricted to the
Biscayne Aquifer along the Atlantic Coastal Ridge. Pollution and
impermeable surface cover may be negatively affecting resiliency of the
species by decreasing water quality and limiting the detritus filtering
into the aquifer. However, these impacts are highly uncertain, so we
put the greatest weight on habitat availability and available survey
data. Currently, two analysis units are significantly (greater than 50
percent) affected by saltwater intrusion with five analysis units not
significantly (0 to 26 percent) affected by saltwater intrusion.
Overall, a majority of the Miami cave crayfish range is currently
unaffected by saltwater intrusion and is considered to be in a high
condition. Additionally, survey data indicate the Miami cave crayfish
is present throughout the range despite multi-decadal threats impacting
the species. We conclude that there is sufficient habitat available to
the species and the Miami cave crayfish is still distributed throughout
its range; therefore, it currently has a sufficient level of
resiliency.
Based on its limited geographical range, redundancy and
representation are inherently low for the Miami cave crayfish and
likely similar to historical levels. Redundancy has been slightly
reduced from historical levels because saltwater intrusion has reduced
the available habitat near the coast, negatively impacted the ability
of the species to withstand catastrophic events. Similarly, current
representation has been slightly reduced from historical levels because
habitat loss reduces the population size of the species, decreasing the
amount of potential genetic diversity. Overall, redundancy and
representation remain similar to historical levels. Given the current
resiliency, redundancy, and representation of the Miami cave crayfish
across its range, we conclude that the species is not currently in
danger of extinction throughout its range.
We next considered whether the species is likely to become in
danger of extinction within the foreseeable future throughout all of
its range. In considering the foreseeable future for the Miami cave
crayfish, we analyzed expected changes in sea level rise and the
resulting inland movement of saltwater intrusion out to 2070 (Service
2022, pp. 100-107). We determined that this timeframe represents a
period for which we can reliably predict both the threats to the
species and the species' response to those threats.
By 2070, the Miami cave crayfish is projected to lose significant
amounts of habitat as saltwater encroaches further inland into the
Biscayne Aquifer. Projected habitat losses range from losing close to
50 percent of the habitat in one additional analysis unit in the
intermediate sea level rise scenario (scenario 4), to losing greater
than 50 percent of all available habitat in the extreme sea level rise
scenario (scenario 3). Intermediate scenarios 1 and 2 are projected to
have only one remaining analysis unit in a high condition, one
extirpated unit, and the remaining units being in either a moderate or
low condition, meaning a majority of the habitat would be affected by
saltwater intrusion. The Miami cave crayfish already has a limited
range with naturally low redundancy and representation levels,
ultimately making it completely dependent on the availability of its
habitat. Therefore, the projected loss of habitat in the foreseeable
future would leave the species extremely vulnerable to stochastic or
catastrophic events. Additionally, the Miami cave crayfish has no
ability to disperse outside of its current range and is unlikely to be
able to adapt to a saltwater environment. Thus, after assessing the
best available information, we conclude that the Miami cave crayfish is
not currently in danger of extinction but is likely to become in danger
of extinction within the foreseeable future throughout all of its
range.
Status Throughout a Significant Portion of Its Range
Under the Act and our implementing regulations, a species may
warrant listing if it is in danger of extinction or likely to become so
in the foreseeable future throughout all or a significant portion of
its range. The court in Center for Biological Diversity v. Everson, 435
F. Supp. 3d 69 (D.D.C. 2020) (Everson), vacated the provision of the
Final Policy on Interpretation of the Phrase ``Significant Portion of
Its Range'' in the Endangered Species Act's Definitions of ``Endangered
Species'' and ``Threatened Species'' (hereafter ``Final Policy''; 79 FR
37578, July 1, 2014) that provided if the Services determine that a
species is threatened throughout all of its range, the Services will
not analyze whether the species is endangered in a significant portion
of its range.
Therefore, we proceed to evaluating whether the species is
endangered in a significant portion of its range--that is, whether
there is any portion of the species' range for which both (1) the
portion is significant; and (2) the species is in danger of extinction
in that portion. Depending on the case, it might be more efficient for
us to address the ``significance'' question or the ``status'' question
first. We can choose to address either question first. Regardless of
which question we address first, if we reach a negative answer with
respect to the first question that we address, we do not need to
evaluate the other question for that portion of the species' range.
Following the court's holding in Everson, we now consider whether
there are any significant portions of the species' range where the
species is in danger of extinction now (i.e., endangered). In
undertaking this analysis for the Miami cave crayfish, we choose to
address the status question first--we consider information pertaining
to the geographic distribution of both the species and the threats that
the species faces to identify portions of the range where the species
may be endangered.
We evaluated the range of the Miami cave crayfish to determine if
the species is in danger of extinction now in any portion of its range.
The range of a species can theoretically be divided into portions in an
infinite number of ways. We focused our analysis on portions of the
species' range that may meet the definition of an endangered species.
For the Miami cave crayfish, we considered whether the threats or their
effects on the species are greater in any biologically meaningful
portion of the species' range than in other portions such that the
species is in danger of extinction now in that portion.
We examined the following threats: saltwater intrusion, water
quality degradation, groundwater pumping, and modification of surface
cover resulting from urban development, including cumulative effects.
The primary threat to the Miami cave crayfish is saltwater intrusion
caused by rising sea levels, which is affecting the coastal analysis
units the most currently. The other threats of water quality
degradation, groundwater pumping, and modification of surface cover are
largely having an effect across the range of the species. Therefore, we
focused our evaluation on the threat of saltwater intrusion.
[[Page 64866]]
In considering whether the threats or their effects on the species
are greater in any biologically meaningful portion of the species'
range, there are two analysis units affected by saltwater intrusion
more than the other units. Currently, these two analysis units
(portion) are significantly (greater than 50 percent) affected by
saltwater intrusion and the other five analysis units are not
significantly (0 to 26 percent) affected by saltwater intrusion. We
determined this portion may have a different status than the rest of
the range and then considered whether this portion may be significant.
This portion is small in size relative to the entire range of the
species; it represents less than 25 percent of the range. In addition,
the habitat in this portion is neither unique or better quality
compared to the rest of the range and most Miami cave crayfish have
been observed farther inland. Therefore, we do not find this portion to
be significant.
Therefore, no portion of the species' range provides a basis for
determining that the species is in danger of extinction in a
significant portion of its range, and we determine that the species is
likely to become in danger of extinction within the foreseeable future
throughout all of its range. This does not conflict with the courts'
holdings in Desert Survivors v. U.S. Department of the Interior, 321 F.
Supp. 3d 1011, 1070-74 (N.D. Cal. 2018) and Center for Biological
Diversity v. Jewell, 248 F. Supp. 3d 946, 959 (D. Ariz. 2017) because,
in reaching this conclusion, we did not apply the aspects of the Final
Policy, including the definition of ``significant'' that those court
decisions held to be invalid.
Determination of Status
Our review of the best available scientific and commercial
information indicates that the Miami cave crayfish meets the definition
of a threatened species. Therefore, we propose to list the Miami cave
crayfish as a threatened species in accordance with sections 3(20) and
4(a)(1) of the Act.
Available Conservation Measures
Conservation measures provided to species listed as endangered or
threatened species under the Act include recognition as a listed
species, planning and implementation of recovery actions, requirements
for Federal protection, and prohibitions against certain practices.
Recognition through listing results in public awareness, and
conservation by Federal, State, Tribal, and local agencies, private
organizations, and individuals. The Act encourages cooperation with the
States and other countries and calls for recovery actions to be carried
out for listed species. The protection required by Federal agencies,
including the Service, and the prohibitions against certain activities
are discussed, in part, below.
The primary purpose of the Act is the conservation of endangered
and threatened species and the ecosystems upon which they depend. The
ultimate goal of such conservation efforts is the recovery of these
listed species, so that they no longer need the protective measures of
the Act. Section 4(f) of the Act calls for the Service to develop and
implement recovery plans for the conservation of endangered and
threatened species. The goal of this process is to restore listed
species to a point where they are secure, self-sustaining, and
functioning components of their ecosystems.
The recovery planning process begins with development of a recovery
outline made available to the public soon after a final listing
determination. The recovery outline guides the immediate implementation
of urgent recovery actions while a recovery plan is being developed.
Recovery teams (composed of species experts, Federal and State
agencies, nongovernmental organizations, and stakeholders) may be
established to develop and implement recovery plans. The recovery
planning process involves the identification of actions that are
necessary to halt and reverse the species' decline by addressing the
threats to its survival and recovery. The recovery plan identifies
recovery criteria for review of when a species may be ready for
reclassification from endangered to threatened (``downlisting'') or
removal from protected status (``delisting''), and methods for
monitoring recovery progress. Recovery plans also establish a framework
for agencies to coordinate their recovery efforts and provide estimates
of the cost of implementing recovery tasks. Revisions of the plan may
be done to address continuing or new threats to the species, as new
substantive information becomes available. The recovery outline, draft
recovery plan, final recovery plan, and any revisions will be available
on our website as they are completed (https://ecos.fws.gov/ecp/species/9832), or from our Florida Ecological Services Field Office (see FOR
FURTHER INFORMATION CONTACT).
Implementation of recovery actions generally requires the
participation of a broad range of partners, including other Federal
agencies, States, Tribes, nongovernmental organizations, businesses,
and private landowners. Examples of recovery actions include habitat
restoration (e.g., restoration of native vegetation), research, captive
propagation and reintroduction, and outreach and education. The
recovery of many listed species cannot be accomplished solely on
Federal lands because their range may occur primarily or solely on non-
Federal lands. To achieve recovery of these species requires
cooperative conservation efforts on private, State, and Tribal lands.
If this species is listed, funding for recovery actions will be
available from a variety of sources, including Federal budgets, State
programs, and cost-share grants for non-Federal landowners, the
academic community, and nongovernmental organizations. In addition,
pursuant to section 6 of the Act, the State of Florida would be
eligible for Federal funds to implement management actions that promote
the protection or recovery of the Miami cave crayfish. Information on
our grant programs that are available to aid species recovery can be
found at: https://www.fws.gov/service/financial-assistance.
Although the Miami cave crayfish is only proposed for listing under
the Act at this time, please let us know if you are interested in
participating in recovery efforts for this species. Additionally, we
invite you to submit any new information on this species whenever it
becomes available and any information you may have for recovery
planning purposes (see FOR FURTHER INFORMATION CONTACT).
Section 7 of the Act is titled Interagency Cooperation and mandates
all Federal action agencies to use their existing authorities to
further the conservation purposes of the Act and to ensure that their
actions are not likely to jeopardize the continued existence of listed
species or adversely modify critical habitat. Regulations implementing
section 7 are codified at 50 CFR part 402.
Section 7(a)(2) states that each Federal action agency shall, in
consultation with the Secretary, ensure that any action they authorize,
fund, or carry out is not likely to jeopardize the continued existence
of a listed species or result in the destruction or adverse
modification of designated critical habitat. Each Federal agency shall
review its action at the earliest possible time to determine whether it
may affect listed species or critical habitat. If a determination is
made that the action may affect listed species or critical habitat,
formal consultation is required (50 CFR 402.14(a)), unless the Service
concurs in writing that the action is not likely to adversely affect
listed species or critical
[[Page 64867]]
habitat. At the end of a formal consultation, the Service issues a
biological opinion, containing its determination of whether the Federal
action is likely to result in jeopardy or adverse modification.
In contrast, section 7(a)(4) of the Act requires Federal agencies
to confer with the Service on any action which is likely to jeopardize
the continued existence of any species proposed to be listed under the
Act or result in the destruction or adverse modification of critical
habitat proposed to be designated for such species. Although the
conference procedures are required only when an action is likely to
result in jeopardy or adverse modification, action agencies may
voluntarily confer with the Service on actions that may affect species
proposed for listing or critical habitat proposed to be designated. In
the event that the subject species is listed or the relevant critical
habitat is designated, a conference opinion may be adopted as a
biological opinion and serve as compliance with section 7(a)(2).
Examples of discretionary actions for the Miami cave crayfish that
may be subject to conference and consultation procedures under section
7 are land management or other landscape-altering activities on Federal
lands administered by the U.S. Army Corps of Engineers, U.S. Coast
Guard, U.S. Department of Transportation, and U.S. Department of
Housing and Urban Development as well as actions on State, Tribal,
local, or private lands that require a Federal permit (such as a permit
from the U.S. Army Corps of Engineers under section 404 of the Clean
Water Act (33 U.S.C. 1251 et seq.) or a permit from the Service under
section 10 of the Act) or that involve some other Federal action (such
as funding from the Federal Highway Administration, Federal Aviation
Administration, or the Federal Emergency Management Agency). Federal
actions not affecting listed species or critical habitat--and actions
on State, Tribal, local, or private lands that are not federally
funded, authorized, or carried out by a Federal agency--do not require
section 7 consultation. Federal agencies should coordinate with the
local Service Field Office (see FOR FURTHER INFORMATION CONTACT) with
any specific questions on section 7 consultation and conference
requirements.
It is the policy of the Services, as published in the Federal
Register on July 1, 1994 (59 FR 34272), to identify to the extent known
at the time a species is listed, specific activities that will not be
considered likely to result in violation of section 9 of the Act. To
the extent possible, activities that will be considered likely to
result in violation will also be identified in as specific a manner as
possible. The intent of this policy is to increase public awareness of
the effect of a proposed listing on proposed and ongoing activities
within the range of the species proposed for listing. Although most of
the prohibitions in section 9 of the Act apply to endangered species,
sections 9(a)(1)(G) and 9(a)(2)(E) of the Act prohibit the violation of
any regulation under section 4(d) pertaining to any threatened species
of fish or wildlife, or threatened species of plant, respectively.
Section 4(d) of the Act directs the Secretary to promulgate protective
regulations that are necessary and advisable for the conservation of
threatened species. As a result, we interpret our policy to mean that,
when we list a species as a threatened species, to the extent possible,
we identify activities that will or will not be considered likely to
result in violation of the protective regulations under section 4(d)
for that species.
At this time, we are unable to identify specific activities that
will or will not be considered likely to result in violation of section
9 of the Act beyond what is already clear from the descriptions of
prohibitions and exceptions established by protective regulation under
section 4(d) of the Act.
Questions regarding whether specific activities would constitute
violation of section 9 of the Act should be directed to the Florida
Ecological Services Field Office (see FOR FURTHER INFORMATION CONTACT).
II. Proposed Rule Issued Under Section 4(d) of the Act
Background
Section 4(d) of the Act contains two sentences. The first sentence
states that the Secretary shall issue such regulations as she deems
necessary and advisable to provide for the conservation of species
listed as threatened species. The U.S. Supreme Court has noted that
statutory language similar to the language in section 4(d) of the Act
authorizing the Secretary to take action that she ``deems necessary and
advisable'' affords a large degree of deference to the agency (see
Webster v. Doe, 486 U.S. 592, 600 (1988)). Conservation is defined in
the Act to mean the use of all methods and procedures which are
necessary to bring any endangered species or threatened species to the
point at which the measures provided pursuant to the Act are no longer
necessary. Additionally, the second sentence of section 4(d) of the Act
states that the Secretary may by regulation prohibit with respect to
any threatened species any act prohibited under section 9(a)(1), in the
case of fish or wildlife, or section 9(a)(2), in the case of plants.
Thus, the combination of the two sentences of section 4(d) provides the
Secretary with wide latitude of discretion to select and promulgate
appropriate regulations tailored to the specific conservation needs of
the threatened species. The second sentence grants particularly broad
discretion to the Service when adopting one or more of the prohibitions
under section 9.
The courts have recognized the extent of the Secretary's discretion
under this standard to develop rules that are appropriate for the
conservation of a species. For example, courts have upheld, as a valid
exercise of agency authority, rules developed under section 4(d) that
included limited prohibitions against takings (see Alsea Valley
Alliance v. Lautenbacher, 2007 WL 2344927 (D. Or. 2007); Washington
Environmental Council v. National Marine Fisheries Service, 2002 WL
511479 (W.D. Wash. 2002)). Courts have also upheld 4(d) rules that do
not address all of the threats a species faces (see State of Louisiana
v. Verity, 853 F.2d 322 (5th Cir. 1988)). As noted in the legislative
history when the Act was initially enacted, ``once an animal is on the
threatened list, the Secretary has an almost infinite number of options
available to [her] with regard to the permitted activities for those
species. [She] may, for example, permit taking, but not importation of
such species, or [she] may choose to forbid both taking and importation
but allow the transportation of such species'' (H.R. Rep. No. 412, 93rd
Cong., 1st Sess. 1973).
The provisions of this proposed 4(d) rule would promote
conservation of the Miami cave crayfish by encouraging projects and
activities that would prevent increased saltwater intrusion into Miami
cave crayfish habitat, improve water quality in the aquifer, and
promote surface cover permeability. The provisions of this proposed
rule are one of many tools that we would use to promote the
conservation of the Miami cave crayfish. This proposed 4(d) rule would
apply only if and when we make final the listing of the Miami cave
crayfish as a threatened species.
As mentioned previously in Available Conservation Measures, section
7(a)(2) of the Act requires Federal agencies, including the Service, to
ensure that any action they authorize, fund, or carry out is not likely
to jeopardize the continued existence of any endangered species or
threatened species or result in the destruction or adverse modification
of
[[Page 64868]]
designated critical habitat of such species. In addition, even before
the listing of any species or the designation of its critical habitat
is finalized, section 7(a)(4) of the Act requires Federal agencies to
confer with the Service on any agency action which is likely to
jeopardize the continued existence of any species proposed to be listed
under the Act or result in the destruction or adverse modification of
critical habitat proposed to be designated for such species.
These requirements are the same for a threatened species with a
species-specific 4(d) rule. For example, as with an endangered species,
if a Federal agency determines that an action is ``not likely to
adversely affect'' a threatened species, it will require the Service's
written concurrence (50 CFR 402.13(c)). Similarly, if a Federal agency
determinates that an action is ``likely to adversely affect'' a
threatened species, the action will require formal consultation with
the Service and the formulation of a biological opinion (50 CFR
402.14(a)).
Provisions of the Proposed 4(d) Rule
Exercising the Secretary's authority under section 4(d) of the Act,
we have developed a proposed rule that is designed to address the Miami
cave crayfish's conservation needs. As discussed previously in Summary
of Biological Status and Threats, we have concluded that the Miami cave
crayfish is likely to become in danger of extinction within the
foreseeable future primarily due to saltwater intrusion caused by sea
level rise. Section 4(d) requires the Secretary to issue such
regulations as she deems necessary and advisable to provide for the
conservation of each threatened species and authorizes the Secretary to
include among those protective regulations any of the prohibitions that
section 9(a)(1) of the Act prescribes for endangered species. We find
that, if finalized, the protections, prohibitions, and exceptions in
this proposed rule as a whole satisfy the requirement in section 4(d)
of the Act to issue regulations deemed necessary and advisable to
provide for the conservation of the Miami cave crayfish.
The protective regulations we are proposing for the Miami cave
crayfish incorporate prohibitions from section 9(a)(1) to address the
threats to the species. Section 9(a)(1) prohibits the following
activities for endangered wildlife: importing or exporting; take;
possession and other acts with unlawfully taken specimens; delivering,
receiving, carrying, transporting, or shipping in interstate or foreign
commerce in the course of commercial activity; or selling or offering
for sale in interstate or foreign commerce. This proposed protective
regulation includes all of these prohibitions because the Miami cave
crayfish is at risk of extinction in the foreseeable future and putting
these prohibitions in place will help to prevent further degradation of
habitat and decrease synergistic, negative effects from other ongoing
or future threats.
In particular, this proposed 4(d) rule would provide for the
conservation of the Miami cave crayfish by prohibiting the following
activities, unless they fall within specific exceptions or are
otherwise authorized or permitted: importing or exporting; take (as set
forth at 50 CFR 17.21(c)(1) with exceptions as discussed below);
possession and other acts with unlawfully taken specimens; delivering,
receiving, carrying, transporting, or shipping in interstate or foreign
commerce in the course of commercial activity; or selling or offering
for sale in interstate or foreign commerce.
Under the Act, ``take'' means to harass, harm, pursue, hunt, shoot,
wound, kill, trap, capture, or collect, or to attempt to engage in any
such conduct. Some of these provisions have been further defined in
regulations at 50 CFR 17.3. Take can result knowingly or otherwise, by
direct and indirect impacts, intentionally or incidentally. Regulating
take would help preserve the species' one population and decrease
synergistic, negative effects from other ongoing or future threats.
Therefore, we propose to prohibit take of the Miami cave crayfish,
except for take resulting from those actions and activities
specifically excepted by the 4(d) rule.
Exceptions to the prohibition on take would include all of the
general exceptions to the prohibition on take of endangered wildlife,
as set forth in 50 CFR 17.21 and additional exceptions, as described
below.
The proposed 4(d) rule would also provide for the conservation of
the species by allowing exceptions that incentivize conservation
actions or that, while they may have some minimal level of take of the
Miami cave crayfish, are not expected to rise to the level that would
have a negative impact (i.e., would have only de minimis impacts) on
the species' conservation. The proposed exceptions to these
prohibitions include activities that will prevent further saltwater
intrusion into the Biscayne Aquifer and water management activities
that improve water quality or enhance natural infiltration into the
Biscayne Aquifer:
(1) Activities that will prevent further saltwater intrusion into
the Biscayne Aquifer include coastal resiliency projects and canal
maintenance or construction that prevent backflow of salt water, and
(2) Water management activities or coastal wetland restoration
projects that improve freshwater and estuarine habitats; improve
salinity distribution and reestablish productive nursery habitat along
the shoreline; restore the quantity, quality, timing, and distribution
of freshwater to Biscayne Bay and Biscayne National Park; restore the
spatial extent of natural coastal glades habitat; or enhance natural
infiltration into the Biscayne Aquifer.
Despite these prohibitions regarding threatened species, we may
under certain circumstances issue permits to carry out one or more
otherwise-prohibited activities, including those described above. The
regulations that govern permits for threatened wildlife state that the
Director may issue a permit authorizing any activity otherwise
prohibited with regard to threatened species. These include permits
issued for the following purposes: for scientific purposes, to enhance
propagation or survival, for economic hardship, for zoological
exhibition, for educational purposes, for incidental taking, or for
special purposes consistent with the purposes of the Act (50 CFR
17.32). The statute also contains certain exemptions from the
prohibitions, which are found in sections 9 and 10 of the Act.
We recognize the special and unique relationship with our State
natural resource agency partners in contributing to conservation of
listed species. State agencies often possess scientific data and
valuable expertise on the status and distribution of endangered,
threatened, and candidate species of wildlife and plants. State
agencies, because of their authorities and their close working
relationships with local governments and landowners, are in a unique
position to assist us in implementing all aspects of the Act. In this
regard, section 6 of the Act provides that we must cooperate to the
maximum extent practicable with the States in carrying out programs
authorized by the Act. Therefore, any qualified employee or agent of a
State conservation agency that is a party to a cooperative agreement
with us in accordance with section 6(c) of the Act, who is designated
by his or her agency for such purposes, would be able to conduct
activities designed to conserve the Miami cave crayfish that may result
in otherwise prohibited take without additional authorization.
[[Page 64869]]
Nothing in this proposed 4(d) rule would change in any way the
recovery planning provisions of section 4(f) of the Act, the
consultation requirements under section 7 of the Act, or our ability to
enter into partnerships for the management and protection of the Miami
cave crayfish. However, interagency cooperation may be further
streamlined through planned programmatic consultations for the species
between us and other Federal agencies, where appropriate. We ask the
public, particularly State agencies and other interested stakeholders
that may be affected by the proposed 4(d) rule, to provide comments and
suggestions regarding additional guidance and methods that we could
provide or use, respectively, to streamline the implementation of this
proposed 4(d) rule (see Information Requested, above).
III. Critical Habitat
Background
Critical habitat is defined in section 3 of the Act as:
(1) The specific areas within the geographical area occupied by the
species, at the time it is listed in accordance with the Act, on which
are found those physical or biological features
(a) Essential to the conservation of the species, and
(b) Which may require special management considerations or
protection; and
(2) Specific areas outside the geographical area occupied by the
species at the time it is listed, upon a determination that such areas
are essential for the conservation of the species.
We have found critical habitat to be prudent and determinable for
the Miami cave crayfish and have developed a proposed critical habitat
rule for this species. On August 29, 2023, we were informed that the
Office of Information and Regulatory Affairs (OIRA) in the Office of
Management and Budget (OMB) determined that our proposed critical
habitat rule is significant under Executive Order 12866. Therefore, we
will publish a proposed critical habitat rule for the Miami cave
crayfish following interagency review of the proposed critical habitat
rule.
Required Determinations
Clarity of the Rule
We are required by E.O.s 12866 and 12988 and by the Presidential
Memorandum of June 1, 1998, to write all rules in plain language. This
means that each rule we publish must:
(1) Be logically organized;
(2) Use the active voice to address readers directly;
(3) Use clear language rather than jargon;
(4) Be divided into short sections and sentences; and
(5) Use lists and tables wherever possible.
If you feel that we have not met these requirements, send us
comments by one of the methods listed in ADDRESSES. To better help us
revise the rule, your comments should be as specific as possible. For
example, you should tell us the numbers of the sections or paragraphs
that are unclearly written, which sections or sentences are too long,
the sections where you feel lists or tables would be useful, etc.
National Environmental Policy Act (42 U.S.C. 4321 et seq.)
Regulations adopted pursuant to section 4(a) of the Act are exempt
from the National Environmental Policy Act (NEPA; 42 U.S.C. 4321 et
seq.) and do not require an environmental analysis under NEPA. We
published a notice outlining our reasons for this determination in the
Federal Register on October 25, 1983 (48 FR 49244). This includes
listing, delisting, and reclassification rules, as well as critical
habitat designations and species-specific protective regulations
promulgated concurrently with a decision to list or reclassify a
species as threatened. The courts have upheld this position (e.g.,
Douglas County v. Babbitt, 48 F.3d 1495 (9th Cir. 1995) (critical
habitat); Center for Biological Diversity v. U.S. Fish and Wildlife
Service., 2005 WL 2000928 (N.D. Cal. Aug. 19, 2005) (concurrent 4(d)
rule)).
Government-to-Government Relationship With Tribes
In accordance with the President's memorandum of April 29, 1994
(Government-to-Government Relations with Native American Tribal
Governments; 59 FR 22951), E.O. 13175 (Consultation and Coordination
with Indian Tribal Governments), and the Department of the Interior's
manual at 512 DM 2, we readily acknowledge our responsibility to
communicate meaningfully with federally recognized Tribes on a
government-to-government basis. In accordance with Secretaries' Order
3206 of June 5, 1997 (American Indian Tribal Rights, Federal-Tribal
Trust Responsibilities, and the Endangered Species Act), we readily
acknowledge our responsibilities to work directly with Tribes in
developing programs for healthy ecosystems, to acknowledge that Tribal
lands are not subject to the same controls as Federal public lands, to
remain sensitive to Indian culture, and to make information available
to Tribes.
References Cited
A complete list of references cited in this rulemaking is available
on the internet at https://www.regulations.gov and upon request from
the Florida Ecological Services Field Office (see FOR FURTHER
INFORMATION CONTACT).
Authors
The primary authors of this proposed rule are the staff members of
the Fish and Wildlife Service's Species Assessment Team and the Florida
Ecological Services Field Office.
List of Subjects in 50 CFR Part 17
Endangered and threatened species, Exports, Imports, Plants,
Reporting and recordkeeping requirements, Transportation, Wildlife.
Proposed Regulation Promulgation
Accordingly, we propose to amend part 17, subchapter B of chapter
I, title 50 of the Code of Federal Regulations, as set forth below:
PART 17--ENDANGERED AND THREATENED WILDLIFE AND PLANTS
0
1. The authority citation for part 17 continues to read as follows:
Authority: 16 U.S.C. 1361-1407; 1531-1544; and 4201-4245, unless
otherwise noted.
0
2. In Sec. 17.11, amend paragraph (h) by adding an entry for
``Crayfish, Miami cave'' to the List of Endangered and Threatened
Wildlife in alphabetical order under CRUSTACEANS to read as follows:
Sec. 17.11 Endangered and threatened wildlife.
* * * * *
(h) * * *
[[Page 64870]]
----------------------------------------------------------------------------------------------------------------
Listing citations
Common name Scientific name Where listed Status and applicable
rules
----------------------------------------------------------------------------------------------------------------
* * * * * * *
Crustaceans
* * * * * * *
Crayfish, Miami cave............ Procambarus milleri Wherever found..... T [Federal Register
citation when
published as a
final rule]; 50
CFR 17.46(e); \4d\
* * * * * * *
----------------------------------------------------------------------------------------------------------------
0
3. Amend Sec. 17.46 by adding paragraph (e) to read as follows:
Sec. 17.46 Special rules--crustaceans.
* * * * *
(e) Miami cave crish (Procambarus milleri).
(1) Prohibitions. The following prohibitions that apply to
endangered wildlife also apply to the Miami cave crayfish. Except as
provided under paragraph (e)(2) of this section and Sec. Sec. 17.4 and
17.5, it is unlawful for any person subject to the jurisdiction of the
United States to commit, to attempt to commit, to solicit another to
commit, or cause to be committed, any of the following acts in regard
to this species:
(i) Import or export, as set forth at Sec. 17.21(b) for endangered
wildlife.
(ii) Take, as set forth at Sec. 17.21(c)(1) for endangered
wildlife.
(iii) Possession and other acts with unlawfully taken specimens, as
set forth at Sec. 17.21(d)(1) for endangered wildlife.
(iv) Interstate or foreign commerce in the course of a commercial
activity, as set forth at Sec. 17.21(e) for endangered wildlife.
(v) Sale or offer for sale, as set forth at Sec. 17.21(f) for
endangered wildlife.
(2) Exceptions from prohibitions. In regard to this species, you
may:
(i) Conduct activities as authorized by a permit under Sec. 17.32.
(ii) Take, as set forth at Sec. 17.21(c)(2) through (4) for
endangered wildlife.
(iii) Take, as set forth at Sec. 17.31(b).
(iv) Possess and engage in other acts with unlawfully taken
wildlife, as set forth at Sec. 17.21(d)(2) for endangered wildlife.
(v) Take incidental to an otherwise lawful activity caused by:
(A) Activities that will prevent further saltwater intrusion into
the Biscayne Aquifer, such as coastal resiliency projects and canal
maintenance or construction that prevent backflow of salt water; or
(B) Water management activities or coastal wetland restoration
projects that improve freshwater and estuarine habitats; improve
salinity distribution and reestablish productive nursery habitat along
the shoreline; restore the quantity, quality, timing, and distribution
of freshwater to Biscayne Bay and Biscayne National Park; restore the
spatial extent of natural coastal glades habitat; or enhance natural
infiltration into the Biscayne Aquifer.
Martha Williams,
Director, U.S. Fish and Wildlife Service.
[FR Doc. 2023-20293 Filed 9-19-23; 8:45 am]
BILLING CODE 4333-15-P