[Federal Register Volume 85, Number 190 (Wednesday, September 30, 2020)]
[Proposed Rules]
[Pages 61700-61717]
From the Federal Register Online via the Government Publishing Office [www.gpo.gov]
[FR Doc No: 2020-19027]


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DEPARTMENT OF THE INTERIOR

Fish and Wildlife Service

50 CFR Part 17

[Docket No. FWS-R4-ES-2019-0069; FXES11130900000-189-FF0932000]
RIN 1018-BE14


Endangered and Threatened Wildlife and Plants; Reclassifying the 
Virgin Islands Tree Boa From Endangered to Threatened With a Section 
4(d) Rule

AGENCY: Fish and Wildlife Service, Interior.

ACTION: Proposed rule.

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SUMMARY: We, the U.S. Fish and Wildlife Service (Service), propose to 
reclassify the Virgin Islands tree boa (Virgin Islands boa; 
Chilabothrus (= Epicrates) granti) from an endangered species to a 
threatened species with a rule issued under section 4(d) of the 
Endangered Species Act of 1973 (Act), as amended. If we finalize this 
rule as proposed, it would reclassify the Virgin Islands boa from 
endangered to threatened on the List of Endangered and Threatened 
Wildlife (List). This proposal is based on a thorough review of the 
best available scientific data, which indicate that the species' status 
has improved such that it is not currently in danger of extinction 
throughout all or a significant portion of its range. We are also 
proposing a rule under the authority of section 4(d) of the Act that 
provides measures that are necessary and advisable to provide for the 
conservation of the Virgin Islands boa. Further, we are correcting the 
List to change the scientific name of the Virgin Islands boa in the 
List from Epicrates monensis granti to Chilabothrus granti to reflect 
the currently accepted taxonomy. Virgin Islands boa is a distinct 
species, not a subspecies, and Epicrates is no longer the 
scientifically accepted genus for this species.

DATES: We will accept comments received or postmarked on or before 
November 30, 2020. 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 16, 2020.

ADDRESSES: Written comments: You may submit comments on this proposed 
rule by one of the following methods:
    (1) Electronically: Go to the Federal eRulemaking Portal: http://www.regulations.gov. In the Search box, enter FWS-R4-ES-2019-0069, 
which is the docket number for this rulemaking. Then, click on the 
Search button. On the resulting page, in the Search panel on the left 
side of the screen, under the Document Type heading, click on the 
Proposed Rule box to locate this document. You may submit a comment by 
clicking on ``Comment Now!''
    (2) By hard copy: Submit by U.S. mail to: Public Comments 
Processing, Attn: FWS-R4-ES-2019-0069; U.S. Fish and Wildlife Service, 
MS: JAO/1N, 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 http://www.regulations.gov. This 
generally means that we will post any personal information you provide 
us (see Information Requested, below, for more information).
    Document availability: The proposed rule and supporting documents 
(including the species status assessment (SSA) report and references 
cited) are available at http://www.regulations.gov under Docket No. 
FWS-R4-ES-2019-0069.

FOR FURTHER INFORMATION CONTACT: Edwin E. Mu[ntilde]iz, Field 
Supervisor, U.S. Fish and Wildlife Service, Caribbean Ecological 
Services Field Office, Road 301 Km 5.1, Corozo Ward, Boquer[oacute]n, 
Puerto Rico 00622; or P.O. Box 491, Boquer[oacute]n, Puerto Rico 00622; 
telephone 787-851-7297. Persons who use a telecommunications device for 
the deaf (TDD) may call the Federal Relay Service at 800-877-8339.

SUPPLEMENTARY INFORMATION:

Executive Summary

    Why we need to publish a rule. Under the Act, a species may warrant 
reclassification from endangered to threatened if it no longer meets 
the definition of endangered (in danger of extinction). The Virgin 
Islands boa is listed as endangered, and we are proposing to reclassify 
it as threatened because we have determined it is no longer in danger 
of extinction. Reclassifications can only be made by issuing a rule. 
Furthermore, extending the ``take'' prohibitions in section 9 of the 
Act to threatened species, such as those we are proposing for this 
species under a section 4(d) rule, can only be made by issuing a rule. 
Finally, the change of the scientific name of the Virgin Islands boa in 
the List from Epicrates monensis granti to Chilabothrus granti, can 
only be made effective by issuing a rule.

[[Page 61701]]

    What this rule does. We propose to reclassify the Virgin Islands 
tree boa from an endangered species to a threatened species with a rule 
issued under section 4(d) of the Act to provide measures that are 
necessary and advisable to provide for the conservation of this 
species. We also change the scientific name in the List to reflect the 
currently accepted taxonomy.
    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 Virgin Islands boa is 
not currently in danger of extinction and, therefore, does not meet the 
definition of an endangered species, but is still affected by the 
following current and ongoing stressors to the extent that the species 
meets the definition of a threatened species under the Act:
     Habitat loss and fragmentation from human development 
(Factor A).
     Direct and indirect predation/competition by exotic 
mammals such as rats, cats, and possibly, to a lesser extent, mongoose 
(Factor C).
     Stochastic events such as hurricanes and sea level rise, 
exacerbated by the cumulative effects of climate change (Factor E).
     Intentional harm due to fear of snakes (Factor E).
    We are also proposing a section 4(d) rule. When we list a species 
as threatened, section 4(d) of the Act allows us to issue regulations 
that are necessary and advisable to provide for the conservation of the 
species. Accordingly, we are proposing a 4(d) rule for the Virgin 
Islands boa that would, among other things, prohibit take associated 
with capturing, handling, trapping, collecting, or other activities, 
including intentional or incidental introduction of exotic species, 
such as cats or rats that compete with, prey upon, or destroy the 
habitat of the Virgin Islands boa. The proposed 4(d) rule would also 
except from these prohibitions take associated with certain 
conservation efforts.
    Peer review. 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 sought the expert 
opinions of six appropriate specialists regarding the species status 
assessment report (SSA). We received responses from five specialists on 
the SSA report, which informed this proposed rule. The purpose of peer 
review is to ensure that our listing determinations, critical habitat 
designations, and 4(d) rules are based on scientifically sound data, 
assumptions, and analyses. The peer reviewers have expertise in the 
biology, habitat, and threats to the species.
    Because we will consider all comments and information we receive 
during the comment period, our final determination may differ from this 
proposal. Based on the new information we receive (and 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. Such final decisions would be a logical outgrowth of this 
proposal, as long as we: (1) Base the decisions on the best scientific 
and commercial data available, after considering all of the relevant 
factors; (2) do not rely on factors Congress has not intended us to 
consider; and (3) articulate a rational connection between the facts 
found and the conclusions made, including why we changed our 
conclusion.

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 and information from other concerned governmental agencies, 
Native American tribes, the scientific community, industry, or any 
other interested party concerning this proposed rule.
    We particularly seek comments on:
    (1) Information concerning the biology and ecology of the Virgin 
Islands boa.
    (2) Relevant data concerning any stressors (or lack thereof) to the 
Virgin Islands boa, particularly any data on the possible effects of 
climate change as it relates to habitat, and the extent of Territorial 
protection and management that would be provided to this boa as a 
threatened species.
    (3) Reasons why we should or should not reclassify the Virgin 
Islands boa from an endangered species to a threatened species under 
the Act.
    (4) Information concerning activities that should be considered 
under a rule issued in accordance with section 4(d) of the Act (16 
U.S.C. 1531 et seq.) as a prohibition or exception within U.S. 
territory that would contribute to the conservation of the species. In 
particular, we are seeking input from experts regarding species 
restoration and captive propagation practices and related activities, 
or whether take associated with any other activities should be 
considered excepted from the prohibitions in the 4(d) rule.
    (5) Current or planned activities within the geographic range of 
the Virgin Islands boa that may either negatively impact or benefit the 
species.
    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, will not be considered in 
making a determination, as 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 http://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 http://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 http://www.regulations.gov, or by 
appointment, during normal business hours, at the U.S. Fish and 
Wildlife Service, Caribbean Ecological Services Field Office (see FOR 
FURTHER INFORMATION CONTACT).

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

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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 at least 15 days before the 
hearing. For the immediate future, we will provide these public 
hearings using webinars that will be announced on the Service's 
website, in addition to the Federal Register. The use of these virtual 
public hearings is consistent with our regulation at 50 CFR 
424.16(c)(3).

Previous Federal Actions

    The Virgin Islands boa was originally listed as an endangered 
subspecies (Epicrates inornatus granti) of the Puerto Rican boa 
(Epicrates inornatus at time of listing, now Chilabothrus inornatus) on 
October 13, 1970 (35 FR 16047), under the Endangered Species 
Conservation Act of 1969, and remained listed with the passage of the 
Act in 1973. In 1979, we published a technical correction (44 FR 70677, 
December 7, 1979) revising the scientific name of the Virgin Islands 
boa from Epicrates inornatus granti to Epicrates monensis granti. A 
recovery plan for this species was completed in 1986 (Service 1986, 
entire) and updated in September 2019. The most recent 5-year review, 
completed in 2009, recommended reclassifying the Virgin Islands boa to 
a threatened species due to the population stabilizing (Service 2009, 
entire). Based on this recommendation, we initiated a species status 
assessment (SSA) and completed an SSA report in 2018 (Service 2018, 
entire).

Supporting Documents

    A species status assessment (SSA) team prepared an SSA report for 
the Virgin Islands boa. 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. The Service sent the SSA report to six 
independent peer reviewers and received five responses. The Service 
also sent the SSA report to state partners, including scientists with 
expertise in Virgin Islands boa habitat, for review. We received review 
from two experts from the Puerto Rico Department of Natural and 
Environmental Resources.

I. Proposed Reclassification Determination

Background

    A thorough review of the taxonomy, life history, ecology, and 
overall viability of the Virgin Islands boa is presented in the SSA 
report (Service 2018, entire; available at https://www.fws.gov/southeast/ and at http://www.regulations.gov under Docket No. FWS-R4-
ES-2019-0069). A summary of this information follows:
    The Virgin Islands boa is endemic to Puerto Rico and the Virgin 
Islands (U.S. and British). Originally, the Virgin Islands boa was 
considered a subspecies of the Puerto Rican boa (Epicrates inornatus; 
Stull 1933, pp. 1-2), but was later found to be more closely related to 
the Mona Island boa, and the nomenclature for the two snakes was 
altered to reflect two subspecies, Epicrates monensis monensis (Mona 
Island boa) and E. m. granti (Virgin Islands boa) (Sheplan and Schwartz 
1974, pp. 94-104). More recently, molecular phylogeny work indicates 
that the genus Epicrates is paraphyletic (a group composed of a 
collection of organisms, including the most recent common ancestor of 
all those organisms), and the West Indian clade (as opposed to the 
mainland clade) was designated as Chilabothrus (Reynolds et al. 2013, 
entire). As a result, the Virgin Islands boa is now considered its own 
species. We accept the change of the Virgin Islands boa's 
classification from the subspecies Epicrates monensis granti to the 
species Chilabothrus granti and are amending the scientific name to 
match the currently accepted nomenclature.
    The Virgin Islands boa is a medium-length, slender, nonvenomous 
snake. The largest snout-vent lengths (SVL) recorded for the species 
were 1,066 millimeters (mm; 42 inches (in)) for females and 1,112 mm 
(44 in) for males (total body lengths 1,203 mm (47 in) and 1,349 mm (53 
in), respectively; Tolson 2005, entire), although most specimens range 
between 600 and 800 mm (24-31 in) SVL, with an average mass of 165 
grams (6 ounces) (USVI Division of Wildlife, unpub. data). Adults are 
gray-brown with dark-brown blotches that are partially edged with 
black, and feature a blue-purple iridescence on their dorsal surface; 
the ventral surface is creamy white or yellowish white. Newborns, on 
the other hand, have an almost grayish-white body color with black 
blotches and weigh 2.0-7.2 grams (0.07-0.25 ounces) with SVLs of 200-
350 mm (approx. 8-14 inches) (Tolson 1992, pers. comm.).
    The Virgin Islands boa occurs in subtropical dry forest and 
subtropical moist forest (Service 2009, p. 11). Subtropical dry forest 
covers approximately 14 percent (128,420 hectares (ha); 317,332 acres 
(ac)) of Puerto Rico and the U.S. Virgin Islands (USVI), typically 
receives less than 750 mm (29 in) rainfall annually (Ewel and Whitmore 
1973, pp. 9-20), and is characterized by small (less than 5 meter (m; 
16 feet (ft)) deciduous trees with high densities of interlocking 
branches and vines connecting adjacent tree canopies (Ewel and Whitmore 
1973, p. 10). Subtropical moist forest covers approximately 58 percent 
(538,130 ha; 1,329,750 acres) of Puerto Rico and USVI and typically 
receives more than 1,100 mm (43 in) of annual rainfall. It is dominated 
by semi-evergreen and evergreen deciduous trees up to 20 m (66 ft) tall 
with rounded crowns. The Virgin Islands boa has also been reported to 
occur in mangrove forest, thicket/scrub, disturbed lower vegetation, 
and artificial structures (Harvey and Platenberg 2009, p. 114; Tolson 
2003, entire).
    Habitat needs for Virgin Islands boa can be divided into those for 
foraging and those for resting. Factors contributing to foraging 
habitat quality are tree density and connectivity, presence of arboreal 
and ground-level refugia, prey density, and rat presence/density 
(Tolson 1988, pp. 234-235). Tree density is more important than tree 
species or diversity; Virgin Islands boas do not appear to prefer a 
particular tree species after accounting for availability and structure 
(Platenberg 2018, pers. comm.). The highest densities of Virgin Islands 
boas are found where there are few or no exotic predators and high 
densities of lizard prey (Tolson 1988, p. 233; Tolson 1996b, p. 410). 
Resting habitat includes refugia for inactive boas to use during the 
day. Refugia can be the axils (angles between trunk and branches) of 
Cocos or Sabal species, tree holes, termite nests, or under rocks and 
debris (Tolson 1988, p. 233).
    The Virgin Islands boa forages at night by gliding slowly along 
small branches in search of sleeping lizards (Service 1986, p. 6). The 
primary prey for the Virgin Islands boa is the Puerto Rican crested 
anole (Anolis cristatellus), and the greatest concentrations of Virgin 
Islands boa are found where Anolis densities exceed 60 individuals/100 
m\2\ (1,076 ft\2\; Tolson 1988, p. 233). Other prey species include 
ground lizard (Ameiva exsul), house mouse (Mus musculus), small birds, 
iguana (Iguana iguana) hatchlings, and likely other small animals 
encountered (Maclean 1982, pp. 30-31, 37; Tolson 1989, p.

[[Page 61703]]

165; Tolson 2005, p. 9; Platenberg 2018, pers. comm.). The Virgin 
Islands boa may also compete for prey and other niche components with 
the Puerto Rican racer (Borikenophis portoricensis), a snake native to 
Puerto Rico, the U.S. and British Virgin Islands, and surrounding cays.
    Much of what is known about Virgin Islands boa life history comes 
from studies in captivity. Lifespans in captivity often exceed 20 
years, and sometimes exceed 30 years (7% of captive Virgin Islands boas 
exceeded 30 years of age; Smith 2018, pers. comm.), but typical 
lifespans in the wild are not known. Sexual maturity is reached at 2-3 
years of age (Tolson 1989, Tolson and Pi[ntilde]ero 1985), and boas are 
still reproductive at >20 years of age (Tolson 2018, pers. comm.). 
Females breed biennially, but studies have suggested that annual 
breeding may occur in some conditions (Tolson and Pi[ntilde]ero 1985). 
Courtship behaviors and copulation occur from February through May, and 
interaction with conspecifics of the opposite sex appears to be 
necessary for reproductive cycling (Tolson 1989). The gestation period, 
observed from a single known copulation between two individuals, is 
about 132 days (Tolson 1989). Virgin Islands boas give birth to live 
young from late August through October to litters of 2-10 young, and 
litter size increases with female body size (Tolson 1992, pers. comm.).
    The exact historical distribution of the Virgin Islands boa is 
unknown, but its present disjointed distribution suggests that it was 
once more widely distributed across small islands within its range. In 
the 1970s, when the Virgin Islands boa was originally listed, its range 
was identified as three islands: Puerto Rico (no specific site), St. 
Thomas, USVI (from a single record), and Tortola in the British Virgin 
Islands (BVI) (from one report) (44 FR 70677, December 7, 1979). When 
the recovery plan was written (1986), 71 individuals were reported in 
two populations: one on the eastern side of St. Thomas in the USVI, and 
one at Cayo Diablo, an offshore islet in Puerto Rico (Service 2009).
    Currently, the Virgin Islands boa occurs on six islands between 
Puerto Rico, USVI, and BVI: the eastern Puerto Rican islands of Cayo 
Diablo and Culebra; R[iacute]o Grande on the Puerto Rican main island; 
eastern St. Thomas and an offshore cay in USVI (USVI Cay; an introduced 
population); and Tortola. A seventh population (also introduced) on the 
Puerto Rican island of Cayo Ratones may still remain, although after 
the reestablishment of rats on this island after 2004, the status of 
this population is uncertain (Service 2018, p. 24). A recent survey did 
not find Virgin Islands boas on Cayo Ratones in 2018 (Island 
Conservation 2018, pp. 5, 17). However, because Virgin Islands boas are 
difficult to find, and the 2018 surveys were not extensive (e.g., did 
not survey the whole island), there is currently not enough evidence to 
conclude the Cayo Ratones population has been extirpated. Lastly, there 
is also one report from 2004 that the species occurs on Greater St. 
James Island in St. Thomas, but nothing is known about that potential 
population (Dempsey 2019, pers. comm.). In 2009, based on all known 
populations in Puerto Rico and the USVI, an estimated 1,300-1,500 
Virgin Islands boas were thought to occur (Service 2009, p. 8), 
although many population sizes used for this estimate are highly 
speculative. Based on the 2018 SSA (Service 2018, entire), current 
population trend estimates for Puerto Rico and USVI are either 
declining, potentially declining, considered rare, or unknown and most 
populations are small or considered rare (Service 2018, p. 30).
    The population in Tortola Island, BVI, was confirmed in 2018, but 
there are no specific data regarding the status of that population 
(McGowan 2018, pers. comm.). In addition, according to anecdotal 
reports, the species is thought to occur on Jost Van Dyke, Guana 
Island, Necker Cay, Great Camanoe, and Virgin Gorda of the BVI (Mayer 
and Lazell 1988, entire), but data and confirmed observations are 
limited. There is not enough information to reliably assess the status 
of Virgin Islands boa populations on those islands.

Regulatory and Analytical Framework

Regulatory Framework

    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 is an ``endangered species'' or a ``threatened 
species.'' 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 expected response by the species, 
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.
    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

[[Page 61704]]

future on a case-by-case basis. The term foreseeable future extends 
only so far into the future as the Services 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 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 status review for the species, including an assessment of 
the potential threats to the species. The SSA report does not represent 
a decision by the Service on whether the species should be proposed for 
listing as an endangered or threatened species under the Act. It does, 
however, 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. 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-2019-0069 on http://www.regulations.gov and at https://www.fws.gov/southeast/.
    To assess the Virgin Islands boa's viability, we used the three 
conservation biology principles of resiliency, redundancy, and 
representation (Shaffer and Stein 2000, pp. 306-310). Briefly, 
resiliency supports the ability of the species to withstand 
environmental and demographic stochasticity (for example, wet or dry, 
warm or cold years), redundancy supports the ability of the species to 
withstand catastrophic events (for example, droughts, large pollution 
events), and representation supports the ability of the species to 
adapt over time to long-term changes in the environment (for example, 
climate changes). In general, the more resilient and redundant a 
species is and the more representation it has, the more likely it is to 
sustain populations over time, even under changing environmental 
conditions. 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. This process 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.

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. In the SSA report (Service 
2018, pp. 12-18), we reviewed all factors (i.e., threats, stressors) 
that could be affecting the Virgin Islands boa now or in the future. 
However, in this proposed rule, we will focus our discussion only on 
those factors that could meaningfully impact the status of the species. 
The risk factors affecting the status of the Virgin Islands boa vary 
from location to location, but generally include habitat loss and 
degradation from development, introduced predators, sea level rise 
(SLR) and a changing climate, and public attitudes towards snakes. 
Where habitat is available but the species is not present (i.e., most 
of the small islands in the eastern Puerto Rico bank and USVI), it is 
believed that absences are due to local extirpation resulting from 
habitat degradation and colonization of exotic species (Service 2009, 
p. 11). We discuss each of the risk factors below.

Development

    Virgin Islands boas occur on both privately and publicly owned 
land. Virgin Islands boas have been observed living in developed areas 
around residences and can persist within developed areas if habitat 
patches are available, but only if no cats or rats are around 
(Platenberg and Harvey 2010, p. 552; Platenberg 2018, pers. comm.). 
Where boas coexist with urban development, development continues to 
threaten populations via habitat destruction, especially in St. Thomas, 
R[iacute]o Grande (Puerto Rico), and Culebra Island where habitat has 
declined throughout decades. In St. Thomas, available habitat has 
declined due to development for resorts, condos, and related 
infrastructure, and has become more constricted and isolated 
(Platenberg and Harvey 2010, p. 552). In Puerto Rico, human populations 
are decreasing, but residential development continues to increase 
island-wide, including around protected areas (Castro-Prieto et al. 
2017, entire). Consequences of human development on the boa and its 
habitat not only include habitat loss and fragmentation due to 
deforestation, but also mortality from vehicular strikes, an increase 
in predators such as cats and rats, and an increase in human-boa 
conflicts that results in snakes being killed because of fear of snakes 
(Service 2018, pp. 13-14).
    Both Puerto Rico and the USVI have regulatory mechanisms 
established to protect the species and its habitat throughout 
consultation processes for the authorization of development projects. 
Presently, the Virgin Islands boa is legally protected under Puerto 
Rico's Commonwealth Law No. 241-1999 (12 L.P.R.A. Sec.107), known as 
the New Wildlife Law of Puerto Rico. This law has provisions to protect 
habitat for all wildlife species, including plants and animals. In 
addition, the species is protected by Puerto Rico Department of Natural 
and Environmental Resources (PRDNER)'s Regulation 6766, which under 
Article 2.06 prohibits collecting, cutting, and removing, among other 
activities, listed plant and animal individuals within the jurisdiction 
of Puerto Rico (DRNA 2004). In USVI, Act No. 5665, known as the Virgin 
Islands' Indigenous and Endangered Species Act, which is enforced by 
the U.S. Virgin Islands Department of Planning and Natural Resources 
(VIDPNR), protects the species.
    Despite these regulations being in place, including the requirement 
for developers to conduct environmental assessments and mitigate damage 
to the species and habitat, the regulations have proved difficult to 
enforce, they are often ignored by developers, and they do not cover 
all development activities in all Virgin Islands boa habitat 
(Platenberg 2011, pers. comm.). For

[[Page 61705]]

example, in St. Thomas, major permit applications submitted for 
projects in the coastal zone require an environmental impact assessment 
that addresses endangered species and protected habitat, but these 
requirements do not apply to smaller projects or those outside of the 
coastal zone. Furthermore, as noted in one study, even though a 
protocol was developed and applied to delineate habitat on protected 
sites and identify mitigation strategies, the absence of a legal 
mechanism to enforce mitigation has led to varying success as 
developers are slow to accept, and often ignore, the mitigation process 
(Platenberg and Harvey 2010, pp. 551-552).
    Most offshore cays within the species' range are part of the 
Territorial Government or protected as wildlife refuges, thus formally 
protecting Virgin Islands boa habitat for three of the six populations 
(i.e., Cayo Diablo, Cayo Ratones, and USVI Cay). Cayo Ratones and Cayo 
Diablo are included in La Cordillera Natural Reserve managed by the 
PRDNER, and the offshore cay in USVI is managed and protected by the 
VIDPNR. Furthermore, even though Virgin Islands boa habitat on 
privately owned land on Culebra Island is currently under pressure from 
urban and tourism development and deforestation, more than 1,000 acres 
of suitable habitat on the island are protected within the Service's 
Culebra National Wildlife Refuge.

Predation and Competition

    One of the primary threats to Virgin Islands boa populations is 
predation by exotic mammalian predators, mainly cats and rats, and 
possibly, to a lesser degree, mongoose. Mongoose are not likely a major 
predator of Virgin Islands boa because mongoose are terrestrial and 
active during the day, while Virgin Islands boas are arboreal and 
active primarily at night, although not exclusively (Service 2018, p. 
14). Feral cats are known to prey upon boas (Tolson 1996b, p. 409), and 
cat populations around human development are further bolstered by cat 
feeding stations set up by residents. There has not been direct 
evidence of rats preying upon Virgin Islands boas, but boas are not 
present on islands with high densities of rats (Tolson 1986, 
unpaginated; Tolson 1988, p. 235). Rats likely negatively impact Virgin 
Islands boas by competing for prey, or by inducing behavioral changes 
in Anolis prey that make them less likely to be encountered by boas 
(Tolson 1988, p. 235). However, rats may also predate on neonate boas 
(Service 1986, p. 12). Complete predator removal on large developed 
islands is challenging, but is feasible on smaller cays. Prior to 
reintroduction of the boas, rats were eliminated from Cayo Ratones and 
the USVI Cay using anticoagulant poison (Tolson 1996b, p. 410), 
although Cayo Ratones was recolonized by rats sometime after August 
2004, highlighting the importance of ongoing monitoring for rat 
presence after a removal project. Cayo Ratones was thought to harbor 
one of the most robust Virgin Islands boa populations, but during the 
recent 2018 survey, no boas were found (Island Conservation 2018, p. 
20). There are no Virgin Islands boas present on islands with 
established rat populations and no rat predators (such as cats).

Effects of Climate Change, Including Sea Level Rise

    Climate change will continue to influence Virgin Islands boa 
persistence into the future. Species that are dependent on specialized 
habitat types or limited in distribution (including the Virgin Islands 
boa) are most susceptible to the impacts of climate change (Byers and 
Norris 2011, p. 22).
    The climate in the southeastern United States and Caribbean has 
warmed about two degrees Fahrenheit from a cool period in the 1960s and 
1970s, and temperatures are expected to continue to rise (Carter et al. 
2014, pp. 398-399). Projections for future precipitation trends in this 
area are less certain than those for temperature, but suggest that 
overall annual precipitation will decrease, and that tropical storms 
will occur less frequently but with more force (i.e., more category 4 
and 5 hurricanes) than historical averages (Carter et al. 2014, pp. 
398-399; Knutson et al. 2010, pp. 161-162). With increasing 
temperatures and decreasing precipitation, drought could negatively 
influence Virgin Islands boa populations. After a severe drought in 
eastern Puerto Rico, Anolis populations crashed on Cayo Diablo and body 
condition indices of the boas plummeted (Tolson 2018, pers. comm.).
    Sea levels are expected to rise globally, potentially exceeding 1 m 
(3 feet) of SLR by 2100 (Reynolds et al. 2012, p. 3). Local SLR impacts 
will depend not only on how much the ocean level itself rises, but also 
on land subsidence or changes in offshore currents (Carter et al. 2014, 
p. 400). Impacts on terrestrial ecosystems can be temporary, via 
submergence of habitat during storm surges, or permanent, via salt 
water intrusion into the water table, inundation of habitat, and 
erosion. SLR and hurricane storm surges in the Caribbean are predicted 
to inundate low-lying islands and parts of larger islands (Bellard et 
al. 2014, pp. 203-204). The low-lying islands of Cayo Diablo and the 
USVI Cay, which support Virgin Islands boa populations, and the island 
of Cayo Ratones, which may still support a population, are all 
vulnerable to SLR and storm surges in the future. Boa populations on 
R[iacute]o Grande, Culebra, and St. Thomas are not considered at risk 
from SLR; however, the three cays (Cayo Diablo, Cayo Ratones, and USVI 
Cay) could see 10-23 percent loss due to SLR over the next 30 years 
(Service 2018, pp. 38-46). Past and current observations suggest that 
the species can survive major hurricane events, although lasting 
impacts to habitat, particularly die-off of vegetation inundated by 
storm surges, have been observed (Platenberg 2018, pers. comm.; Smith 
2018, unpaginated; Tolson 1991, pp. 12, 16; Yrigoyen 2018, pers. 
comm.). Loss of habitat due to storm surge impacts is similar to loss 
of habitat due to development; loss of low-lying forest habitat could 
result in decreased habitat availability for the Virgin Islands boas 
and their prey.

Persecution by Residents

    Intentional killing of the more common and larger sized Puerto 
Rican boa (Chilabothrus inornatus) due to fear or superstitious beliefs 
has been well documented in the literature (Bird-Pic[oacute] 1994, p. 
35; Puente-Rol[oacute]n and Bird-Pic[oacute] 2004, p. 343; Joglar 2005, 
p. 146). Thus, Virgin Islands boas in proximity to developed areas 
where people fear snakes are susceptible to intentional killings. 
Public encounters with Virgin Islands boas in the more populated 
R[iacute]o Grande and Culebra locations are considered questionable 
because of the rarity of boas in those populations, and there are only 
a couple of anecdotal records of intentional killings between those 
areas (Service 2009, pp. 15-16). In the highly developed east side of 
St. Thomas, about 10 percent of the Virgin Islands boa records in St. 
Thomas are from dead boas killed by humans on private property 
(Platenberg 2006, unpub. data). We have no further information to 
assess the magnitude of this threat, but it is likely that intentional 
killings of Virgin Islands boas still occur, are not being documented, 
and would be particularly detrimental to rare populations such as in 
R[iacute]o Grande. The Service is not aware of a law enforcement case 
related to the boa in Puerto Rico or the USVI. Populations that occur 
within protected areas are not expected to be exposed to this threat.

[[Page 61706]]

Conservation Measures That Affect the Species

    Positive influences on Virgin Islands boa viability have been 
habitat protection, predator control, and captive breeding and 
reintroduction. Two populations of Virgin Islands boa were reintroduced 
to protected cays after predators had been removed, one on Cayo Ratones 
(Puerto Rico) in 1993, and another on USVI Cay in 2002. Founders for 
these reintroductions came largely from a cooperative captive-breeding 
program initiated in 1985 between the Service, DNER, VIDPNR, and the 
Toledo Zoological Garden. Cayo Diablo provided the founding individuals 
for the captive population that was reintroduced to Cayo Ratones (6 
kilometers (3.5 miles) away from Cayo Diablo), and St. Thomas provided 
the founding individuals for the captive population that was 
reintroduced to the USVI Cay (4 kilometers (2.5 miles) away from St. 
Thomas).
    The Cayo Ratones population originated from 41 captive-born boas 
(offspring of Cayo Diablo boas) released between 1993 and 1995. Post-
release survival was high: 82.6 percent of individuals and 89 percent 
of neonates survived at least 1 year (Tolson 1996a, unpaginated). By 
2004, the population had grown to an estimated 500 boas (Tolson et al. 
2008, p. 68). Unfortunately, since 2004, Cayo Ratones has been 
recolonized by rats, and no boas were found during surveys in 2018 
(Island Conservation 2018, pp. 5, 20). However, because Virgin Islands 
boas are difficult to find, and this survey was not exhaustive, we 
believe it is premature to conclude the population has been extirpated. 
Intensive follow-up surveys are needed to confirm whether a population 
still persists or is extirpated, but it is clear that the population 
has declined.
    The USVI Cay reintroduction was initiated with the release of 42 
Virgin Islands boas in 2002 and 2003, 11 from captivity and 31 from St. 
Thomas. Follow-up surveys in 2003-2004 provided an estimate of 168 boas 
(202 boas/ha), which researchers suspected was near carrying capacity 
for the island (Tolson 2005, p. 9). More recent surveys in 2018 
detected 20 boas over 2 nights, resulting in an estimate of 26-33 boas 
across the island (Island Conservation 2018, pp. 20-30). Differences in 
survey and analysis methodologies complicate direct comparisons of 
population size between these time points. Recent surveys also indicate 
that there are no rats on the island.
    Factors for consideration for future reintroduction sites include 
the presence and amount of suitable habitat (e.g., appropriate forest 
structure, adequate prey base, available refugia), protection status or 
threat of development, the presence/absence/eradication of exotic 
predators, and geomorphology that provides protection from SLR and 
hurricane storm surges that are likely to affect the persistence of 
low-lying habitat. Potential sites for new introductions have been 
suggested (Reynolds et al. 2015, p. 499) and need to be further 
assessed, although one new effort is in the early stages of 
implementation. Some areas may require that predators be removed before 
boas are moved and future monitoring is ensured to prevent 
recolonization. In addition to reintroductions to new sites, 
augmentation of existing populations may prove beneficial or necessary 
for the persistence of existing populations, particularly on developed 
islands and cays where predators have become reestablished.
    In conclusion, the Virgin Islands boa still faces the threat of 
development on St. Thomas, R[iacute]o Grande, and Culebra Island, and 
regulatory mechanisms addressing this threat are difficult to enforce 
or do not cover all development actions affecting the species. Human 
development results in habitat loss from deforestation and 
fragmentation, mortality from vehicular strikes, and increased 
predation by cats and rats. In addition, impacts from changes in 
climate could affect habitat. Drought could negatively influence Virgin 
Islands boa populations through loss of prey. SLR and storm surges are 
expected to inundate low-lying islands, such as Cayo Diablo, Cayo 
Ratones, and the USVI Cay, which currently support Virgin Islands boa 
populations. Finally, persecution of boas by citizens, due to fear or 
superstition, can affect individual boas, although there has never been 
a systematic study of the impact of these events on the overall 
population.
    When considering conservation actions and how they influence the 
viability of Virgin Islands boa, about half of known localities where 
Virgin Islands boas occur are on small offshore islets managed for 
conservation. In addition, predator removal has been successful at 
smaller cays, such as USVI Cay, although the reestablishment of rats on 
Cayo Ratones illustrates the need for continued monitoring and removal 
efforts. Lastly, successful reintroductions of Virgin Islands boas 
occurred on these islands after the eradication of predators; however, 
additional predator removal and augmentation of reintroduced boa 
populations may be needed on cays where predators have become 
reestablished.

Summary of Current Condition

    For the Virgin Islands boa to maintain viability, its populations, 
or some portion thereof, must be resilient. For the SSA, our 
classification of resiliency relied heavily on habitat characteristics 
in the absence of highly certain population size or trend estimates. 
The habitat characteristics we assessed were: Degree of habitat 
protection (or, conversely, development risk), presence of introduced 
predators, and vulnerability to storm surges (Service 2018, p. 31).
    Representation can be measured by the breadth of genetic or 
environmental diversity within and among populations and gauges the 
probability that a species is capable of adapting to environmental 
changes. A range-wide genetic analysis of the Virgin Islands boa showed 
there was little genetic variation; however, the same study found that 
each sampled locality had unique mtDNA haplotypes, indicating a lack of 
gene flow between islands (Rodr[iacute]guez-Robles et al. 2015, 
entire). Therefore, in the SSA we used genetics to delineate 
representative units.
    The species also needs to exhibit some degree of redundancy in 
order to maintain viability. Catastrophic events that could affect both 
single and multiple populations of the Virgin Islands boa include 
drought, hurricanes, and colonization or recolonization of exotic 
predators. This species occurs in geographically isolated groups and 
does not disperse from island to island to interact and interbreed; 
therefore, for purposes of analyzing redundancy, all boas within each 
island were considered to be individual populations.

Resiliency

    Because resiliency is a population-level attribute, the key to 
assessing it is the ability to delineate populations. As discussed 
above, we considered all boas within each island to be single 
populations. On small offshore cays, what we define as a population 
might consist of a single interbreeding deme (or subdivision) of Virgin 
Islands boas. On larger islands, what we define as a population 
functions more as a metapopulation, with multiple interbreeding groups 
in isolated habitat patches that may interact weakly via dispersal and 
recolonization of extirpated patches. Alternately, multiple occupied 
patches on large islands may be completely isolated from one another 
(Service 2018, p. 20).

[[Page 61707]]

    Six island populations were considered: Cayo Diablo, Cayo Ratones, 
Culebra Island, R[iacute]o Grande (Puerto Rico), St. Thomas, and USVI 
Cay (USVI). We acknowledge the uncertainty about the persistence of 
Virgin Islands boas on Cayo Ratones due to the recolonization of the 
island by rats; however, because of reasons described previously, we 
included this island in our analysis. Further, one or more populations 
exist in the BVI, but data are severely limited, and for the SSA, we 
lacked sufficient data from these islands to incorporate them into our 
viability analysis. In addition, other populations may occur on islands 
in Puerto Rico and USVI, but Virgin Islands boa habitat and activity 
patterns make them difficult to find, and we could not confirm any to 
be extant at the time we completed our analysis.
    Resiliency scores for each population were generated by combining 
scores for three habitat metrics (Protection/Development Risk, Exotic 
Mammals, and Storm Surge Risk) and one population metric (Population 
Size and/or Trend, dependent on availability). Each metric was weighted 
equally, with the overall effect that habitat (three metrics) was 
weighted three times higher than population size/trend (one metric). 
For each metric, populations were assigned a score of -1, 0, or 1, as 
described below in table 1.
    The scores were based on the best available information for each 
population, gathered from the literature and species experts. 
Monitoring data are scarce. The Virgin Islands boa recovery plan 
(Service 1986, pp. 16-19) called for periodic monitoring to estimate 
population sizes and trends, but surveys since then have been few and 
far between. Survey methodology and reporting have varied from 
population to population, with survey results given as estimated 
abundances, estimated densities, or encounter rates per person-hour of 
searching. The above-described factors in combination contribute to 
high levels of uncertainty in current and past population sizes, and 
how they have changed over time. Accordingly, resiliency 
classifications relied more heavily on habitat conditions than 
population size and trend estimates.

     Table 1--Description of Habitat and Population Factor Scores To Determine Virgin Islands Boa Population
                                                   Resiliency
----------------------------------------------------------------------------------------------------------------
                                                   Habitat metrics                            Population metric
                         ---------------------------------------------------------------------------------------
          Score            Habitat protection/                                                Population  size/
                            development risk       Exotic mammals       Storm surge risk           trend *
----------------------------------------------------------------------------------------------------------------
-1......................  Habitat not           Exotic mammals        Topography and        Relatively low
                           protected, at risk    present.              elevation leaves      population size and/
                           of being developed.                         population            or declining trend.
                                                                       vulnerable to storm
                                                                       surges.
0.......................  Some habitat          NA..................  NA..................  Relatively moderate
                           protected, some at                                                population size and
                           risk of being                                                     stable trend, OR
                           developed.                                                        High degree of
                                                                                             uncertainty in
                                                                                             population size/
                                                                                             trends.
1.......................  Habitat protected in  Exotic mammals        Protected by          Relatively high
                           identified            absent.               topography and        population size and/
                           protected area.                             elevation.            or growth.
----------------------------------------------------------------------------------------------------------------
* Population size/trend scores are relative and were based on the best available information for each
  population, gathered from the literature and species experts.

    The scores for each population across all metrics were summed, and 
final population resiliency categories were assigned as follows:

Low Resiliency: -4 to -2
Moderately Low Resiliency: -1
Moderate Resiliency: 0
Moderately High Resiliency: 1
High Resiliency: 2 to 4

    Applying these resiliency categories to the six populations of 
Virgin Islands boa, we determined that one population has moderately 
high resiliency (Cayo Diablo), one has moderate resiliency (USVI Cay), 
one has moderately low resiliency (Culebra), and three have low 
resiliency (Cayo Ratones, R[iacute]o Grande, and St. Thomas).
    The population classified as having moderately high resiliency 
(Cayo Diablo) occurs on a small offshore island that is free of exotic 
rats and cats and is protected for conservation. In addition, Cayo 
Diablo was surveyed in 2018 with 10 boas being found (Island 
Conservation 2018). Extrapolating the density within the transect area 
(2.9 boas/ha) to the entire island, the model provides an estimate of 
20 boas on the island (95% confidence interval 13-39), which is much 
lower than earlier unpublished survey results, however comparisons 
cannot be made between the surveys because of different survey and 
analytical methodologies (Service 2018, p.23). Primarily because of the 
protected and exotic-mammal-free state of the habitat, this population 
is considered to have moderately high resiliency to demographic and 
environmental stochastic events and disturbances (e.g., fluctuations in 
demographic rates, variation in climatic conditions, illegal human 
activities).
    The USVI Cay population, also on a protected offshore island with 
no exotic mammals, was determined to have moderate resiliency. Recent 
surveys have revealed a potential decline in abundance and the loss of 
two prey species (Smith 2018a, pp. 7-8), possibly as a result of 
density dependence as the population approached carrying capacity after 
reintroduction. Over two separate survey efforts in 2018, researchers 
found a total of 64 boas (Smith 2018ab, entire).
    Three of the populations (R[iacute]o Grande, Culebra, and St. 
Thomas) with low or moderately low resiliency occur on larger and 
higher elevation islands, which provide more protection from storm 
surges, but have more human-boa interactions, habitat loss and 
fragmentation from development, and exotic cats and rats. Recent 
surveys in 2018 on R[iacute]o Grande found three boas (three survey 
nights) (Island Conservation 2018, p. 20). For Culebra, surveys in 2018 
found no boas (Island Conservation 2018, p. 20); however, two 
individuals were documented in February 2019 within the Culebra 
National Wildlife Refuge (Puente-Rol[oacute]n and Vega-Castillo 2019, 
p. 18). On October 2019, another individual was confirmed in an area 
outside of the Refuge (Rom[aacute]n 2019, pers. comm.). For St. Thomas, 
there have been no recent systematic surveys for the species as much of 
eastern St. Thomas is

[[Page 61708]]

inaccessible due to private ownership or impenetrable habitat; however, 
opportunistic observations have averaged about 10 observations of 
Virgin Islands boa per year since 2000. The remaining low-resiliency 
population (Cayo Ratones) is classified as such as a result of the 
recolonization of rats on the island and resulting declining trend--or 
possible extirpation--of boas, as no boas were detected during recent 
survey efforts (Island Conservation 2018).

Representation

    A range-wide genetic analysis of Virgin Islands boa showed that 
there was little genetic variation within the species 
(Rodr[iacute]guez-Robles et al. 2015, p. 150), supporting the idea that 
there is only one representative unit of Virgin Islands boa. However, 
each sampled island, and each sampled locality within the same island, 
had unique mtDNA haplotypes, indicating a lack of gene flow between 
islands/populations (Rodr[iacute]guez-Robles et al. 2015, p. 150). 
These results suggest that each population has a different genetic 
signature, perhaps as a result of genetic adaptations to their local 
environment, or genetic drift with increasing isolation of small 
populations. The reintroduction program took this view, and managed 
captive populations sourced from Cayo Diablo and St. Thomas separately 
(Tolson 1996b, p. 412). To minimize the chances of introducing 
individuals poorly suited to their new environment, the captive 
population sourced from Cayo Diablo founded the reintroduced population 
on nearby Cayo Ratones, and the captive St. Thomas population founded 
the reintroduced population on the nearby USVI Cay (Tolson 1996b, p. 
412).
    In addition to genetic differences, the six populations also have 
noticeable phenotypic differences. These are not just limited to 
coloration differences between USVI and Puerto Rican populations 
(Tolson 1996b, p. 412); Cayo Diablo reportedly has lighter coloration 
than the R[iacute]o Grande and Culebra populations (Tolson 2018, pers. 
comm.). The R[iacute]o Grande population also occurs in a different 
habitat type (subtropical moist forest) than the others (subtropical 
dry or littoral forest; Tolson 1996b, p. 410).
    In light of this information, we considered each of the four 
natural populations in Puerto Rico and USVI as a representative unit 
(table 2). The Cayo Diablo population is considered to have moderately 
high resiliency. As this was the source for the low-resiliency Cayo 
Ratones population, there are two populations representing the Cayo 
Diablo genetic signature. Similarly, the USVI Cay population was 
sourced from St. Thomas, so there are two populations with St. Thomas 
representation, with neither considered to have high resiliency. The 
other two natural populations, Culebra and R[iacute]o Grande, both 
characterized as having moderately low or low resiliency, have not been 
used for captive breeding and reintroduction, so have no additional 
populations on other islands with the same genetic characteristics. 
Overall, three of four representative units have at least one moderate 
resilient population.
    While currently we could consider the USVI Cay and Cayo Ratones 
reintroduced populations (currently with moderate and low resiliency, 
respectively) to be redundant populations sharing the same genetic 
signature and adaptive potential as their source populations, all of 
the islands occupied by Virgin Islands boa are isolated from each 
other. Without human-mediated movement of boas between islands, the 
reintroduced populations are expected to diverge genetically from their 
source populations over time, and may at some point in the future 
(decades to centuries; Reynolds et al. 2015, entire) be different 
enough to be considered its own unique representative unit.

       Table 2--Representation: Number of Virgin Islands Boa Populations of Each Resiliency Class in Each
   Representative Unit, Corresponding to Natural (Not Introduced) Populations, Which Themselves Correspond to
                                            Unique Genetic Signatures
----------------------------------------------------------------------------------------------------------------
                                                    Moderately
                                                       high          Moderate     Moderately low  Low resiliency
     Natural population  (genetic signature)        resiliency      resiliency      resiliency      populations
                                                    populations     populations     populations
----------------------------------------------------------------------------------------------------------------
Cayo Diablo.....................................               1               0               0               1
Culebra.........................................               0               0               1               0
R[iacute]o Grande...............................               0               0               0               1
St. Thomas......................................               0               1               0               1
----------------------------------------------------------------------------------------------------------------

Redundancy

    Redundancy describes the ability of a species to withstand 
catastrophic events. Measured by the number of populations, their 
resiliency (ability of a species to withstand environmental and 
demographic stochasticity (e.g., wet or dry years)) and their 
distribution (and connectivity), redundancy gauges the probability that 
the species has a margin of safety to withstand or return from 
catastrophic events (such as a rare destructive natural event or 
episode involving many populations).
    The exact historical distribution of the Virgin Islands boa is 
unknown, but their present disjointed distribution suggests that they 
were once more widely distributed across small islands within their 
range, which have been subject to local extirpations from habitat 
degradation, invasive species, and historical climate and sea level 
changes. However, for current redundancy, we identified the six 
populations in Puerto Rico and USVI (and one or more populations in the 
BVI of unknown status). As discussed above, three of these populations 
are considered to have resiliency; therefore, the species is moderately 
buffered against the effects of catastrophic events.

Summary

    Of the six assessed populations, the Cayo Diablo population is the 
only one that currently has moderately high resiliency, the USVI Cay 
population has moderate resiliency, and the Culebra population has 
moderately low resiliency. The other three assessed populations 
currently have low resiliency. Redundancy for the species includes 
populations on six islands in Puerto Rico and USVI, and possibly more 
in the BVI, although not part of this assessment. Representation 
consists of four representative units, two of which have two 
populations representing its genetic signature, and three of the four 
units have populations with some level of resiliency.
    The Virgin Islands boa has demonstrated some ability to adapt to 
changing environmental conditions over time from both anthropogenic 
threats (e.g., habitat disturbance due to

[[Page 61709]]

development) and natural disturbances (e.g., predation and hurricanes). 
Compared to historical distribution at the time of listing that 
included three locations (Puerto Rico, St. Thomas, and Tortola), the 
species currently has six populations (potentially more if the species 
persists in the BVI and others are eventually confirmed). Three of the 
six current populations exhibit varying levels of resiliency from 
moderately high to moderately low, whereas three exhibit low 
resiliency. Since the species was listed as an endangered species in 
1970, it has demonstrated some degree of resiliency despite threats.

Future Conditions

    To assess the future resiliency, redundancy, and representation for 
the Virgin Islands boa, we considered impacts of human development, 
habitat protection and restoration, reintroductions, public outreach 
and education, and SLR. We predicted resiliency at two future time 
points, 30 years and ~80 years in the future (2048 and 2100). 
Predictions made at the 80-year time point are based only on SLR and 
hurricane storm surges as predictions about the other factors are too 
uncertain to allow for a meaningful analysis. As discussed in 
Determination of Status below, all of the impacts were considered at 
the 30-year time step. With input from species' experts, we chose the 
30-year time step in order to encompass multiple generations of Virgin 
Islands boa (which can live past 20 years and reproduce at 2-3 years of 
age; Tolson 1989, p. 166; Tolson and Pi[ntilde]ero 1985, unpaginated). 
In addition, we considered the time required to plan and execute a 
reintroduction (about 10 years; Tolson 2018, pers. comm.) and how a 30-
year time step would allow us to see results of reintroduction efforts. 
Lastly, we considered the time required for habitat restoration to be 
realized (10 years or less; Platenberg 2018, pers. comm). The 30-year 
time step coincides with the foreseeable future for this analysis 
(i.e., the period of time in which we can make reliable predictions). 
For information on predictions made at the 80-year time step, see the 
SSA report (Service 2018, pp. 38-46).
    We did not explicitly consider the role that genetics may play in 
the future. Although the absence of natural migration of boas between 
islands isolates these populations and makes them vulnerable to 
inbreeding and genetic drift, no genetic abnormalities or evidence of 
inbreeding depression have been observed in the boa (Tolson 1996b, p. 
412). We also did not explicitly consider the impacts of climate change 
(other than SLR and hurricane storm surges) on the boas and their 
habitat. Species that are dependent on specialized habitat types and 
limited in distribution and migration ability, such as the Virgin 
Islands boa, are susceptible to the impacts of climate change (Byers 
and Norris 2011, p. 22), but the direction, magnitude, and timeframe of 
these impacts on the species are uncertain.
    Below we present three plausible future scenarios for the Virgin 
Islands boa over the next 30 years (to 2048): Status Quo, Conservation, 
and Pessimistic. Impacts of climate change and SLR are treated the same 
across all three scenarios, as the trajectory of climate change will 
proceed regardless of different levels of local conservation for Virgin 
Islands boa. For all three scenarios, SLR is considered to occur at a 
rate of 0.30 meters (1 foot) by 2048, and 0.61-0.91 meters (2-3 feet) 
by 2100 (Church et al. 2013; Service 2018, pp. 38-41). Multiple major 
hurricanes are expected to strike within the Virgin Islands boa's 
range.
    Under a status quo scenario: Development continues at the current 
pace, and development and exotic mammals continue to negatively impact 
Virgin Islands boa populations. Boa population sizes in these developed 
areas decline, as they are suspected to currently be in decline by 
species experts (but hard data are lacking to confirm trends). No new 
habitat is protected. Under this scenario, one new reintroduction that 
has already been initiated with the 2018 capture of snakes to 
reinvigorate captive breeding takes place.
    Under a conservation scenario: While development continues on 
human-occupied islands, under this scenario new Virgin Islands boa 
habitat is protected from development on the Puerto Rico main island, 
and additional habitat is protected on Culebra and St. Thomas (where 
some habitat is already protected), to preserve and restore habitat and 
habitat connectivity. Because of the size of the islands and human 
populations there, exotic cats and rats remain problematic, but this 
risk would be reduced by conservation efforts including predator 
control and effective community outreach and education about the effect 
of free-roaming cats on native wildlife. Regulations and enforcement 
improve on protected lands. Rats are eradicated (and eradication 
efforts are monitored) from Cayo Ratones and, if necessary, more boas 
are translocated there. Reintroductions occur at a rate of one site per 
decade, including the one reintroduction already planned, and 
struggling populations on developed islands are augmented.
    Under a pessimistic scenario: Under the Pessimistic scenario, no 
reintroductions occur, presumably due to reduced funds or changes in 
governmental or conservation priorities. No additional habitat is 
protected, and development continues to impact populations on human-
inhabited islands. Exotic mammals remain a threat where already 
present. Rats colonize Cayo Diablo and recolonize the USVI Cay.
    Given current resources, priorities, and conservation momentum, the 
Status Quo scenario is the most likely scenario for the future. The 
Status Quo scenario includes the implementation of a new 
reintroduction, which is planned but contingent on continued funding 
(not yet secured) and a long-term commitment to manage and propagate a 
captive population, select a suitable site (which may involve rat 
eradication), reintroduce boas, and conduct post-release monitoring. 
The likelihoods of the Conservation and Pessimistic scenarios are 
contingent upon the decisions, resources, and priorities of management 
and conservation organizations, which are difficult to predict. The 
Pessimistic scenario is likely if funds and effort are not directed to 
captive breeding and reintroduction, community outreach and education, 
habitat protection and restoration, and ongoing monitoring of Virgin 
Islands boas, their habitat, and exotic species. The Conservation 
scenario is likely if abundant funds and effort are directed towards 
these initiatives.

Resiliency

    Under all three future scenarios, the three populations on 
developed islands are predicted to remain at low resiliency or become 
extirpated by 2048 (table 3). Even with conservation efforts to prevent 
extirpation, none of the populations are expected to improve their 
resiliency because of the magnitude of the threats facing them. Cayo 
Diablo, the population with the highest resiliency, is expected to 
continue to have high resiliency unless the island is colonized by 
rats, which could drive the population to extirpation. Cayo Ratones, 
which presently has a robust rat population, will remain at low 
resiliency and potential extirpation unless rats are eradicated; 
supplemental translocations may also be necessary, but more surveys are 
necessary to determine the needs of the population. Given that the 
threats facing populations on developed islands will be very difficult 
to surmount, the most effective way to increase the

[[Page 61710]]

overall resiliency of populations range-wide is to reintroduce new 
populations in quality protected habitat, prevent future colonization 
by exotic predators, and have continual predator eradication 
monitoring.

  Table 3--Summary Table of Future Resiliency for Virgin Islands Boa Populations in 2048 Under Three Scenarios
----------------------------------------------------------------------------------------------------------------
                                     Current        Future--status    Future--conservation   Future--pessimistic
          Population                resiliency        quo (2048)             (2048)                (2048)
----------------------------------------------------------------------------------------------------------------
Cayo Diablo...................  Moderately High..  Moderately High.  High.................  Low/Extirpated.
Cayo Ratones..................  Low..............  Low/Extirpated..  High.................  Low/Extirpated.
Culebra.......................  Moderately Low...  Low/Extirpated..  Moderately Low.......  Low/Extirpated.
R[iacute]o Grande.............  Low..............  Low/Extirpated..  Low..................  Low/Extirpated.
St. Thomas....................  Low..............  Low/Extirpated..  Low..................  Low/Extirpated.
USVI Cay......................  Moderate.........  Moderate........  High.................  Low/Extirpated.
New (introduced) populations    None.............  1 High..........  3 High...............  None.
 (pops).
Summary (# pops)..............  6 pops...........  3-7 pops........  9 pops...............  0-6 pops.
                                Low: 3...........  Low/Extirpated:   Low: 2...............  Low/Extirpated: 6.
                                Mod Low: 1.......   4.               Mod Low:1............  High: 0.
                                Moderate: 1......  Moderate: 1.....  High: 6..............
                                Mod High: 1......  Mod High:1......
                                                   High: 1.........
----------------------------------------------------------------------------------------------------------------

Redundancy

    The total number of populations under the Status Quo scenario is 
three to seven depending on whether four populations become extirpated 
or remain at a low resiliency. Under the Pessimistic scenario, all 
populations are predicted to be extirpated or remain at low resiliency. 
The Conservation scenario improves redundancy by introducing three new 
populations that are expected to have high resiliency, improving the 
resiliency of the Cayo Ratones population by eradicating rats and 
providing translocations if needed, and preventing low-resiliency 
populations from becoming extirpated, for a total of nine populations. 
As time goes on after the horizon of our 30-year scenarios, SLR becomes 
more important to consider, as current populations with the highest 
resiliency potential are the same populations that will be most at risk 
from SLR.

Representation

    In the Current Condition section above, we identified each natural 
(not introduced) Virgin Islands boa population as a representative 
unit. Under this concept, a reintroduced population is of the same 
representative unit as the source population used for the 
reintroduction, and future representation for the species depends 
highly on how reintroductions are carried out (table 11 in Service 
2018, p. 59).
    The Status Quo scenario includes one reintroduction sourced from 
the USVI Cay population, which was originally sourced from the St. 
Thomas population. Therefore, the new reintroduced population would be 
considered part of the St. Thomas representative unit. The Conservation 
scenario includes two additional reintroductions, which could be 
sourced from any population. Sourcing new reintroductions from Culebra 
or R[iacute]o Grande would improve redundancy within representative 
units, but other factors such as geographic proximity to the 
reintroduction site and availability of source boas also factor into 
the decision of where to source reintroductions. The Pessimistic 
scenario does not include any new reintroduced populations.

Summary

    Conservation of existing populations of Virgin Islands boas and 
their habitat on developed islands, via population augmentation and 
habitat restoration (in occupied areas and to establish migration 
corridors), is important to contribute to resiliency and redundancy 
within representative areas for the species. The future condition of 
the Virgin Islands boa was assessed under three scenarios 30 years into 
the future. Under the Status Quo scenario, development continues to 
impact the populations on developed islands, no new habitat is 
protected, and one new reintroduction takes place. Two moderately high 
or high-resiliency populations are predicted to remain after 30 years 
(Cayo Diablo and a new reintroduced population), while USVI Cay remains 
in moderate resiliency, and the remaining four populations are 
predicted to have low resiliency or potentially be extirpated.
    Under the Conservation scenario, some habitat on the three 
developed islands is protected for conservation/restoration, 
reintroductions occur at a rate of one per decade, and presence of 
exotic mammals are monitored and controlled (though likely not 
eradicated) via continuous eradication efforts and public outreach. Six 
high-resiliency populations are predicted to exist after 30 years. 
Under this scenario, three populations are expected to have moderately 
low or low resiliency, but are protected from complete extirpation by 
active conservation measures. Under the Pessimistic scenario, 
development continues to impact populations on developed islands, no 
reintroductions occur, and rats colonize/recolonize the islands where 
they are not currently present. No highly resilient populations are 
predicted to remain after 30 years, and all six current populations are 
at risk of extirpation.
    Redundancy increases under the Status Quo and Conservation 
scenarios; however, under the Pessimistic scenario, no high-resiliency 
populations remain. Representation remains the same four units under 
the Status Quo scenario. Under the Conservation scenario, redundancy 
may improve within representative units with the addition of two more 
reintroduced populations, depending on where those populations are 
sourced. Based on our analysis, we consider the Status Quo scenario to 
be the most likely scenario, and therefore expect the Virgin Islands 
boa will have three resilient populations at our 30-year timeframe, 
with continued redundancy and representation.
    We also assessed the risk from SLR and hurricanes at 30 years into 
the future. In 30 years, SLR alone is unlikely to significantly impact 
Virgin Islands boa populations, with approximately 4-5 percent of land 
predicted to be inundated (Service 2018, p. 43). Habitat on low-lying 
cays (Cayo Diablo, Cayo Ratones, and USVI Cay) has proven to be 
resilient to hurricanes

[[Page 61711]]

in the past, and likely will remain so with 0.30 meters (1 foot) of SLR 
expected over the next 30 years, although the exact impacts of any 
particular future storm are impossible to predict. Overall, USVI Cay is 
most at risk from SLR and storm impacts, while there is a moderate risk 
of SLR impacts to Virgin Islands boas and habitat on Cayo Diablo and 
Cayo Ratones, and low risk at Culebra, R[iacute]o Grande, and St. 
Thomas.
    We note that, by using the SSA framework to guide our analysis of 
the scientific information documented in the SSA report, we have not 
only analyzed individual effects on the species, but we have also 
analyzed their potential cumulative effects. We incorporate the 
cumulative effects into our SSA analysis when we characterize the 
current and future condition of the species. Our assessment of the 
current and future conditions encompasses and incorporates the threats 
individually and cumulatively. Our current and future condition 
assessment is iterative because it accumulates and evaluates the 
effects of all the 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.

Recovery and Recovery Plan Implementation

    Section 4(f) of the Act directs us to develop and implement 
recovery plans for the conservation and survival of endangered and 
threatened species unless we determine that such a plan will not 
promote the conservation of the species. Recovery plans are not 
regulatory documents and are instead intended to establish goals for 
long-term conservation of a listed species; define criteria that are 
designed to indicate when the threats facing a species have been 
removed or reduced to such an extent that the species may no longer 
need the protections of the Act; and provide guidance to our Federal, 
State, and other governmental and nongovernmental partners on methods 
to minimize threats to listed species.
    There are many paths to accomplishing recovery of a species, and 
recovery may be achieved without all of the criteria in a recovery plan 
being fully met. For example, one or more criteria may be exceeded 
while other criteria may not yet be accomplished. In that instance, we 
may determine that the threats are minimized sufficiently and the 
species is robust enough to delist. In other cases, recovery 
opportunities may be discovered that were not known when the recovery 
plan was finalized. These opportunities may be used instead of methods 
identified in the recovery plan. Likewise, information on the species 
may be learned that was not known at the time the recovery plan was 
finalized. The new information may change the extent to which existing 
criteria are appropriate for recognizing recovery of the species. 
Recovery of a species is a dynamic process requiring adaptive 
management that may, or may not, follow all of the guidance provided in 
a recovery plan.
    The Virgin Islands Tree Boa Recovery Plan, issued by the Service on 
March 27, 1986, did not contain measurable criteria. An amendment to 
the recovery plan was issued in September 2019 to include quantitative 
delisting criteria. The amended recovery plan suggests that recovery be 
defined in the following terms:
     Delisting Criterion 1. Existing two (2) Virgin Islands boa 
populations with the highest resiliency (Cayo Diablo and USVI Cay) 
exhibit a stable or increasing trend, evidenced by natural recruitment 
and multiple age classes. This criterion has been partially met. 
Ensuring the conservation of resilient populations is important for the 
recovery of the Virgin Islands boa as it will help those populations to 
further withstand catastrophic and stochastic events. The populations 
of the Virgin Islands boa at Cayo Diablo and USVI Cay are considered 
potentially declining (Tolson 2004, p. 11; Tolson et al. 2008, p. 68), 
and currently have moderately high and moderate resiliency, 
respectively (Service 2018, pp. 23, 28). Both Cayo Diablo and USVI cay 
are free of exotic predators/competitors and are protected as part of 
natural reserves. Habitat conditions are recovering following 
hurricanes, and Virgin Islands boas continue to persist, with upwards 
of 20 boas estimated on Cayo Diablo, and boas appear to be at carrying 
capacity on USVI Cay (Service 2018, pp. 23, 28). In addition, these 
resilient populations may serve as sources to establish the new 
populations outlined in Criterion 2, if maintained at their current 
level. Virgin Islands boas have already been collected from the USVI 
Cay population to establish a captive-breeding program in order to 
implement Criterion 2.
    Five islands (Culebra, R[iacute]o Grande (Puerto Rico), St. Thomas, 
Cayo Ratones, and Tortola) currently have Virgin Islands boas present, 
although population numbers and age class structures are unknown. Cayo 
Ratones had a thriving population, with 41 introduced boas in 1993-1995 
having high survival and wild reproduction and were able to increase 
numbers to nearly 500 boas by 2005 (Tolson et al. 2008, p. 68; Service 
2018, p. 24). However, recent surveys in 2018 did not detect any boas, 
but did uncover a robust rat population (Island Conservation 2018, 
entire; Service 2018, p. 24). Because Virgin Islands boas are hard to 
find and habitat conditions remain in good condition post hurricanes, 
there is not enough evidence to indicate boa extirpation, although the 
reestablishment of rats is likely causing decline in this population. 
For Culebra, surveys in 2018 found no boas (Island Conservation 2018, 
p. 20); however, two individuals were documented in February 2019 
within the Culebra National Wildlife Refuge (Puente-Rol[oacute]n and 
Vega-Castillo 2019, p. 18). On October 2019, another individual was 
confirmed in an area outside of the Refuge (Rom[aacute]n 2019, pers. 
comm.). The Puerto Rican R[iacute]o Grande population has consistent 
but very low encounter rates for Virgin Islands boas, with three 
observed during recent 2018 surveys. These two populations were 
determined to have low (R[iacute]o Grande) and moderately low (Culebra) 
resiliency. Similarly, the species has been sighted on St. Thomas 
(Platenberg and Harvey 2010, entire), and earlier estimates assessed 
the population to be about 400 individuals (Tolson 1991, p. 11). 
Despite lack of recent surveys on St. Thomas (primarily due to 
inaccessibility of habitat), opportunistic reports indicate 
approximately 10 Virgin Islands boa observations per year since 2000 
(Service 2018, p. 27). The SSA classifies this population as having low 
resiliency. Virgin Islands boas are known to occur on Tortola (and 
likely several other British Virgin islands); however, no data are 
available about the size or status of those populations (Service 2018, 
p. 29).
     Delisting Criterion 2. Establish three (3) additional 
populations that show a stable or increasing trend, evidenced by 
natural recruitment and multiple age classes. This criterion has not 
been met. Increasing the number of resilient populations will improve 
the species' viability. In order to expand the species' distribution, 
these new populations will be established on protected suitable habitat 
where threats from invasive mammals are not present and SLR will have 
minimal impact on the habitat. In addition, increasing the number of 
populations and broadening the species' distribution will enhance their 
ability to

[[Page 61712]]

withstand catastrophic and stochastic events. For this species, it is 
believed that three additional populations exhibiting these traits is 
necessary to ensure sufficient redundancy such that the species will no 
longer require protection under the Act.
     Delisting Criterion 3. Threats are reduced or eliminated 
to the degree that the species is viable for the foreseeable future. 
This criterion has been partially met. The primary threats to Virgin 
Islands boa are development, predation/competition from exotic mammals, 
climate change, and persecution from the public. Virgin Islands boa 
populations have coexisted with urban development on Culebra, 
R[iacute]o Grande, St. Thomas, and several British Virgin islands, 
although impacts from the development appear to cause a decline in 
these populations. Consequences of human development on the boa and its 
habitat include habitat loss and fragmentation due to deforestation, 
mortality from vehicular strikes, and an increase in predators/
competitors, such as cats and rats. Three islands (Cayo Diablo, Cayo 
Ratones, and USVI Cay) are protected from development impacts. The 
threat of predation/competition by exotic mammals can be reduced/
eliminated, but requires continual monitoring and eradication efforts. 
In 1985, a successful rat control program was started, and Cayo Ratones 
and USVI Cay were identified as potentially suitable for the 
reintroduction of the species. At one time, rats had been eliminated on 
Cayo Ratones, but they have since returned and are in robust numbers. 
Rats on USVI Cay have been eliminated, and Virgin Islands boas are 
established there. In areas where urban development is prevalent, it is 
unlikely that feral cats and rats will be fully eradicated. Storm surge 
and SLR are the effects of climate change that are projected to impact 
Virgin Islands boa populations; however, the species has thus far 
proven to be resilient to severe storms (and associated storm surge) 
and SLR is not expected to significantly impact the species in the 
foreseeable future (see Future Conditions, above). Finally, intentional 
killing of Virgin Islands boas, whether due to fear of snakes or 
confusion with other snakes, has been identified as a threat; however, 
the extent of the effect of persecution on Virgin Islands boa 
populations is unknown.

Summary

    The amended Virgin Islands boa recovery plan (Service 2019) 
contains three recovery criteria for delisting the species: Two Virgin 
Islands boa populations exhibit a stable or increasing trend, evidenced 
by natural recruitment and multiple age classes; three additional 
populations show a stable or increasing trend, evidenced by natural 
recruitment and multiple age classes; and threats are reduced or 
eliminated to the degree that the species is viable for the foreseeable 
future. Based on the information gathered and analyzed, two of these 
criteria have been partially met.

Determination of Virgin Islands Boa Status

    Section 4 of the Act (16 U.S.C. 1533), and its implementing 
regulations at 50 CFR part 424, set forth the procedures for 
determining whether a species meets the definition of endangered 
species or 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 ``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 
``endangered species'' or ``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 effects of the threats under the section 4(a)(1) factors, we 
find that, while the present or threatened destruction, modification, 
or curtailment of its habitat (Factor A) remains a threat for at least 
three of the populations, three of the six populations fully occur in 
protected areas, and we expect the species' population resiliency to 
ameliorate the threat in the future. The Virgin Islands boa's habitat 
is found on both private and publicly owned lands. Past, current and 
expanding urban development will continue to impact the Virgin Islands 
boa on the main islands (i.e., St. Thomas, R[iacute]o Grande (Puerto 
Rico), and Culebra), which are under development pressure related to 
urban expansion and tourism; however, not all areas of the species' 
range occur near population centers. Half of the currently known 
populations are found on islands and small islets that are managed for 
conservation by the territorial governments of Puerto Rico and USVI, 
and the Culebra Island population occurs both within private and 
protected areas (i.e., Culebra National Wildlife Refuge).
    Predation by exotic mammals, namely cats and rats, remains a threat 
to the Virgin Islands boa (Factor C). While there is no evidence of 
rats preying directly on the Virgin Islands boa, Virgin Islands boas 
are generally not present on islands with high densities of rats. This 
is likely due to competition for prey rather than predation. 
Reintroductions of Virgin Islands boas have been successful on islands 
where rat populations have been exterminated. Feral cats are known to 
prey on boas and are an ongoing threat to the species.
    The fear of snakes, as well as superstitious beliefs and even 
confusion with other snakes, may contribute to the intentional killing 
of Virgin Islands boas (Factor E), although there has not yet been a 
systematic study done to determine if these individual deaths are 
having a species-wide effect.
    Due to the limited distribution of Virgin Islands boas, climate 
change and SLR (Factor E) may also have an impact. Low-lying islands 
and parts of larger islands, where Virgin Islands boa populations are 
supported, are vulnerable to SLR and storm surge. The species has 
persisted despite major hurricane events, although there may be impacts 
to habitat (e.g., die-off of vegetation) due to storm surge.
    The Virgin Islands boa has demonstrated some ability to adapt to 
changing environmental conditions over time (representation) from both 
anthropogenic threats (e.g., habitat disturbance due to development) 
and natural disturbances (e.g., predation and hurricanes). Since the 
species was listed as an endangered species in 1970, it has 
demonstrated resiliency despite threats. Since the writing of the 
recovery plan (Service 1986, entire), two new populations have been 
reintroduced (Cayo Ratones and USVI Cay) and two previously unknown 
populations have been discovered (Culebra and R[iacute]o Grande), 
although the continued persistence of the Cayo Ratones population is 
uncertain. There are currently at least six populations (not including 
those potentially on the BVI) with varying levels of resiliency; one 
population has moderately high resiliency, one has moderate resiliency, 
one has moderately low resiliency, and three have low resiliency. Based 
on the biology of the species and the documented responses to the 
development and reintroductions since

[[Page 61713]]

listing, we expect the species to respond the same way in the 
foreseeable future.
    Our implementing regulations at 50 CFR 424.11(d) set forth a 
framework within which we evaluate the foreseeable future on a case-by-
case basis. The term foreseeable future extends only so far into the 
future as the Services 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 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.
    The foreseeable future described here uses the best available data 
and considers the species' life-history characteristics, threat 
projection timeframes, and environmental variability, which may affect 
the reliability of projections. We also considered the timeframes 
applicable to the relevant threats and to the species' likely responses 
to those threats in view of its life-history characteristics. We 
determined the foreseeable future to be 30 years from present. As 
discussed above, the SSA's future scenarios considered impacts from 
development, habitat restoration and protection, reintroductions of the 
Virgin Islands boa, and SLR. Based on the modeling and scenarios 
evaluated for Virgin Islands boa, we considered our ability to make 
reliable predictions in the future and the uncertainty with regard to 
how and to what degree the species would respond to factors within this 
timeframe. In addition, the timing and response of habitat to 
restoration efforts (presumably multiple efforts needed, and spaced out 
over time as funding and resources permit) and the species' response to 
those improved habitat conditions, as well as the lifespan of the 
species (which can exceed 20 years in captivity) also informed our 
foreseeable future timeframe.
    Taking into account the impacts of the factors based on the Status 
Quo scenario, and because the Virgin Islands boa contains three 
relatively resilient populations now (i.e., having moderately high to 
moderately low resiliency), and two of those populations are predicted 
to maintain their moderate to moderately high resiliency in the future, 
especially in populations where exotic mammals are not present, we 
expect the species to maintain populations on two of the six islands 
within the foreseeable future. However, continuation of the current 
population trends for these two populations into the future is 
dependent on management (e.g., habitat conservation/preservation and 
predator control/eradication). Under the Status Quo scenario, the three 
populations on developed islands are predicted to possibly become 
extirpated by 2048. Under the Conservation Scenario, up to six 
populations are predicted to become highly resilient within the 
foreseeable future. While threat intensity and management needs vary 
somewhat across the range of the species (e.g., urban population areas 
versus non-populated conserved areas), Virgin Islands boa populations 
on islands throughout the range of the species continue to be reliant 
on active conservation management and require adequate implementation 
of regulatory mechanisms, and all remain vulnerable to threats that 
could cause substantial population declines in the foreseeable future 
(e.g., feral cat predation).
    Despite the existing regulatory mechanisms and conservation 
efforts, the factors identified above continue to affect the Virgin 
Islands boa. However, the species has persisted with varying degrees of 
resiliency since it was listed in 1970. Once known from three 
locations, now known from at least six locations, the species was 
successfully introduced to two new locations (one possibly extirpated 
by uncontrolled exotic mammals) and discovered at two new locations, 
and could be at additional locations in the unsurveyed BVI and other 
areas in St. Thomas; thus, the known distribution has expanded since 
listing. Thus, after assessing the best available information, we 
determine that the Virgin Islands boa 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 
within the foreseeable future throughout all or a significant portion 
of its range. The court in Center for Biological Diversity v. Everson, 
2020 WL 437289 (D.D.C. Jan. 28, 2020) (Center for Biological 
Diversity), vacated the aspect of the 2014 Significant Portion of its 
Range Policy that provided that the Services do not undertake an 
analysis of significant portions of a species' range if the species 
warrants listing as threatened throughout all 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 Center for Biological Diversity, 
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 Virgin Islands boa, 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 any portions of the range 
where the species is endangered.
    For Virgin Islands boa, we considered whether the threats are 
geographically concentrated in any portion of the species' range at a 
biologically meaningful scale. We examined the following threats: 
Habitat loss and degradation from development, introduced predators, 
SLR and a changing climate, and public attitudes towards snakes, 
including cumulative effects. For detailed descriptions of each threat, 
see Summary of Biological Status and Threats, above.
    Impacts from habitat loss and degradation are prevalent throughout 
the range of the Virgin Islands boa. The boas occur on both privately 
and publicly owned land. Habitat loss and fragmentation from 
deforestation happens with the development of privately owned land, and 
even occurs around protected areas. Habitat loss also happens from SLR. 
Loss of habitat due to SLR and storm surge impacts is similar to loss 
of habitat due to

[[Page 61714]]

development where the loss of low-lying forest habitat could result in 
decreased habitat availability for the Virgin Islands boas and their 
prey. All known islands and cays that are occupied by Virgin Islands 
boas are threatened with habitat loss and fragmentation.
    Similarly, the threat of introduced predators is of concern range-
wide for the Virgin Islands boa. Feral cats are known to prey upon 
boas, and rats may predate on neonate boas or compete with boas for 
prey. Cats and rats are easily introduced to islands, usually via boat. 
Efforts to eliminate exotic mammalian predators has been successful on 
some of the smaller cays, but requires continual removal and monitoring 
on the larger developed islands.
    Climate change is expected to influence Virgin Islands boa 
persistence throughout its range into the future. Species that are 
limited in distribution, such as the Virgin Islands boa, are 
susceptible to the impacts of climate change. Temperatures throughout 
the Caribbean are expected to rise, precipitation is likely to decrease 
(resulting in drought), and tropical storms may occur less frequently 
but with more force. Every island and cay within the range of the 
Virgin Island boa is susceptible to these impacts from a changing 
climate.
    The intentional killing of Virgin Islands boas is a threat to the 
species regardless of where it occurs. While those boas that live in 
proximity to developed areas are more susceptible to intentional 
killings, public fear towards snakes is a threat that can impact the 
boas throughout their range.
    Low population numbers can be considered a threat such that the 
other threats acting on the species can result in a concentration of 
threats to extremely small populations. Data presented in the SSA 
indicate that current population trend estimates for Virgin Island boas 
in Puerto Rico and USVI are uncertain, indicating that they are either 
declining, potentially declining, considered rare, or unknown, but most 
populations are small or considered rare. Rarity does not necessarily 
equate to dangerously small population sizes, and because the survey 
methodologies and reporting has varied from population to population 
and over time, population size and trend estimates were not exclusively 
relied on to determine resiliency. Despite the rarity of Virgin Island 
boas on most islands, the species has demonstrated resiliency for 
decades, and is predicted to continue to maintain resiliency, despite 
threats. Therefore small population numbers across the range of the 
species are not considered to contribute to a concentration of threats.
    We found no concentration of threats in any portion of the Virgin 
Islands boa's range at a biologically meaningful scale. Thus, there are 
no portions of the species' range where the species has a different 
status from its rangewide status. 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 is consistent with 
the courts' holdings in Desert Survivors v. Department of the Interior, 
No. 16-cv-01165-JCS, 2018 WL 4053447 (N.D. Cal. Aug. 24, 2018), and 
Center for Biological Diversity v. Jewell, 248 F. Supp. 3d, 946, 959 
(D. Ariz. 2017).

Determination of Status

    Our review of the best available scientific and commercial 
information indicates that the Virgin Islands boa meets the definition 
of a threatened species. Therefore, we propose to reclassify the Virgin 
Islands boa as a threatened species in accordance with sections 3(20) 
and 4(a)(1) of the Act.

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 he deems 
necessary and advisable to provide for the conservation'' of species 
listed as threatened. The U.S. Supreme Court has noted that statutory 
language like ``necessary and advisable'' demonstrates a large degree 
of deference to the agency (see Webster v. Doe, 486 U.S. 592 (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 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 rules 
developed under section 4(d) as a valid exercise of agency authority 
where they prohibited take of threatened wildlife, or include a limited 
taking prohibition (see Alsea Valley Alliance v. Lautenbacher, 2007 
U.S. Dist. Lexis 60203 (D. Or. 2007); Washington Environmental Council 
v. National Marine Fisheries Service, 2002 U.S. Dist. Lexis 5432 (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 him with regard to the permitted activities for those species. He 
may, for example, permit taking, but not importation of such species, 
or he 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).
    Exercising our authority under section 4(d), we have developed a 
species-specific proposed rule that is designed to address the Virgin 
Islands boa's specific threats and conservation needs. Although the 
statute does not require the Service to make a ``necessary and 
advisable'' finding with respect to the adoption of specific 
prohibitions under section 9, we find that this rule taken as a whole 
satisfies the requirement in section 4(d) of the Act to issue 
regulations deemed necessary and advisable to provide for the 
conservation of the Virgin Islands boa. As discussed above under 
Summary of Biological Status and Threats, the Service has concluded 
that the Virgin Islands boa is likely to become in danger of extinction 
within the foreseeable future primarily due to development-associated 
impacts (i.e., habitat fragmentation and loss, vehicular strikes), 
predation/competition by exotic species, climate change, and 
persecution by the public. In addition, the species is management 
reliant in that it depends on maintaining current levels of management 
and establishing new populations into suitable habitat. Therefore, the 
provisions of this proposed 4(d) rule would promote

[[Page 61715]]

conservation of the Virgin Islands boa by encouraging species 
restoration efforts. The provisions of this proposed rule are one of 
many tools that the Service would use to promote the conservation of 
the Virgin Islands boa. The proposed 4(d) rule would apply only if and 
when the Service makes final the reclassification of the Virgin Islands 
boa as a threatened species.

Provisions of the Proposed 4(d) Rule

    The proposed 4(d) rule would provide for the conservation of the 
Virgin Islands boa by prohibiting the following activities, except as 
otherwise authorized or permitted: Import or export; take; possession 
and other acts with unlawfully taken specimens; delivery, receipt, 
transport, or shipment in interstate or foreign commerce in the course 
of commercial activity; or sale or offering for sale in interstate or 
foreign commerce. We also propose several exceptions to these 
prohibitions, which along with the prohibitions are set forth under 
Proposed Regulation Promulgation, below.
    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 
regulation at 50 CFR 17.3. Take can result knowingly or otherwise, by 
direct and indirect impacts, intentionally or incidentally. Regulating 
incidental and intentional take would help preserve the species' 
remaining populations, enable beneficial management actions to occur, 
and decrease synergistic, negative effects from other stressors.
    Protecting the Virgin Islands boa from direct and indirect forms of 
take, such as physical injury or killing, whether incidental or 
intentional, will help preserve and recover the remaining populations 
of the species. Therefore, we propose to prohibit intentional and 
incidental take of Virgin Islands boa, including, but not limited to, 
capturing, handling, trapping, collecting, destruction and modification 
of its habitat, or any other activities that would result in take of 
the species.
    As discussed above under Summary of Biological Status and Threats, 
a range of activities have the potential to impact the species, 
including development, intentional killing of boas by private citizens, 
and introduction of exotic predators/competitors (e.g., cats, rats). 
Regulating these activities will help preserve the remaining 
populations and protect individual boas.
    Protecting the Virgin Islands boa from incidental take, such as 
harm that results from habitat degradation, will likewise help preserve 
the species' populations and also decrease negative effects from other 
stressors impeding recovery of the species. The species' continuance 
may be dependent upon active management occurring on the islands and 
cays, especially as it concerns exotic predator control and human 
development. Most offshore islands and cays where the Virgin Islands 
boa is found are protected by municipal, territorial, and Federal 
agencies. However, existing land protections provided by those agencies 
are not comprehensive for the Virgin Islands boa and are often not 
enforced.
    We determined that one of the primary threats to the Virgin Islands 
boa is the presence of exotic mammals, which, when present in high 
densities, is indicative of a lack of boa populations. Therefore, any 
introduction of exotic species, such as cats or rats, that compete 
with, prey upon, or destroy the habitat of the Virgin Islands boa would 
further impact the species and its habitat and therefore will also be 
prohibited by the proposed 4(d) rule.
    Maintaining and expanding existing populations, and creating new 
populations, is also vital to the conservation of the Virgin Islands 
boa. Therefore, the proposed 4(d) rule would provide for the 
conservation of the species by excepting from the take prohibitions 
conservation efforts by Federal, Commonwealth, Territory, and municipal 
wildlife agencies to benefit the Virgin Islands boa, including control 
and eradication of exotic mammals, habitat restoration, and collection 
of broodstock, tissue collection for genetic analysis, captive 
propagation, and reintroduction into currently occupied and unoccupied 
areas within the historical range of the species. Efforts by these 
wildlife agency entities to monitor and survey Virgin Islands boa 
populations and habitat that require handling, temporary holding, pit 
tagging, tissue sampling, and release would also be excepted from the 
take prohibitions under this proposed 4(d) rule.
    The fear of snakes, as well as superstitious beliefs, may 
contribute to the intentional killing of boas. Although we cannot 
address fear or beliefs in a 4(d) rule, we can except from the 
prohibitions take associated with removing boas from houses and other 
structures to provide alternatives to killing individual boas. 
Therefore, the proposed 4(d) rule would except from the prohibitions 
take associated with nonlethal removal of Virgin Islands boas from 
human structures, and returning them to natural habitat.
    Even for activities prohibited by the 4(d) rule, including those 
described above, we may issue permits to carry out those activities 
involving threatened wildlife under certain circumstances. Regulations 
governing permits are codified at 50 CFR 17.32. With regard to 
threatened wildlife, a permit may be 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. There are also certain statutory exemptions from 
the prohibitions, which are found in sections 9 and 10 of the Act.
    The Service recognizes the special and unique relationship with our 
State, Commonwealth, and Territory natural resource agency partners in 
contributing to conservation of listed species. State, Commonwealth, 
and Territory agencies often possess scientific data and valuable 
expertise on the status and distribution of endangered, threatened, and 
candidate species of wildlife and plants. These agencies, because of 
their authorities and their close working relationships with local 
governments and landowners, are in a unique position to assist the 
Service in implementing all aspects of the Act. In this regard, section 
6 of the Act provides that the Service shall cooperate to the maximum 
extent practicable with the States, Commonwealths, and Territories in 
carrying out programs authorized by the Act. Therefore, any qualified 
employee or agent of a Commonwealth or Territory conservation agency 
that is a party to a cooperative agreement with the Service 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 Virgin Islands boa that may result in 
otherwise prohibited take without additional authorization.
    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 the ability of 
the Service to enter into partnerships for the management and 
protection of the Virgin Islands boa. However, interagency cooperation 
may be further streamlined through planned programmatic consultations 
for the species between Federal agencies and the Service. We ask the 
public, particularly Commonwealth and Territorial agencies and other 
interested stakeholders that may be affected by the proposed 4(d) rule, 
to provide comments and suggestions regarding

[[Page 61716]]

additional guidance and methods that the Service could provide or use, 
respectively, to streamline the implementation of this proposed 4(d) 
rule (see Information Requested, above).

Effects of This Proposed Rule

    This proposal, if made final, would revise 50 CFR 17.11 to 
reclassify the Virgin Islands boa from endangered to threatened on the 
List of Endangered and Threatened Wildlife. Additionally, if the 
proposed 4(d) rule is adopted in a final rule, the Service will detail 
prohibitions set forth at 50 CFR 17.21 and 17.32, except for incidental 
take associated with conservation efforts by Federal, Commonwealth, 
Territory, or municipal wildlife agencies; nonlethal removal from human 
structures; and monitoring and survey efforts of Virgin Islands boa. In 
addition, we will revise the List of Endangered and Threatened Wildlife 
to change the species' scientific name to Chilabothrus granti.

Required Determinations

Clarity of the Proposed Rule

    We are required by Executive Orders 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:
    (a) Be logically organized;
    (b) Use the active voice to address readers directly;
    (c) Use clear language rather than jargon;
    (d) Be divided into short sections and sentences; and
    (e) 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.)

    It is our position that, outside the jurisdiction of the U.S. Court 
of Appeals for the Tenth Circuit, we do not need to prepare 
environmental analyses pursuant to the National Environmental Policy 
Act (NEPA; 42 U.S.C. 4321 et seq.) in connection with designating 
critical habitat under the Act. We published a notice outlining our 
reasons for this determination in the Federal Register on October 25, 
1983 (48 FR 49244). This position was upheld by the U.S. Court of 
Appeals for the Ninth Circuit (Douglas County v. Babbitt, 48 F.3d 1495 
(9th Cir. 1995), cert. denied 516 U.S. 1042 (1996)).

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), Executive Order 13175, and the Department 
of the Interior's manual at 512 DM 2, we readily acknowledge our 
responsibility to communicate meaningfully with recognized Federal 
Tribes on a government-to-government basis. In accordance with 
Secretarial 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. There are no tribal lands associated 
with this proposed rule.

References Cited

    A complete list of references cited is available on the internet at 
http://www.regulations.gov under Docket No. FWS-R4-ES-2019-0069 and 
upon request from the Field Supervisor, Caribbean Ecological Services 
Field Office (see FOR FURTHER INFORMATION CONTACT, above).

Authors

    The primary authors of this proposed rule are staff members of the 
Service's Species Assessment Team and the Caribbean Ecological Services 
Field Office.

List of Subjects in 50 CFR Part 17

    Endangered and threatened species, Exports, Imports, Reporting and 
recordkeeping requirements, Transportation.

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.


Sec.  17.11  Endangered and threatened wildlife.

0
2. Amend Sec.  17.11 in paragraph (h) by revising the entry for ``Boa, 
Virgin Islands tree'' under REPTILES in the List of Endangered and 
Threatened Wildlife to read as follows:

----------------------------------------------------------------------------------------------------------------
                                                                                          Listing citations and
           Common name              Scientific name       Where listed        Status         applicable rules
----------------------------------------------------------------------------------------------------------------
 
                                                  * * * * * * *
            Reptiles
 
                                                  * * * * * * *
Boa, Virgin Islands tree........  Chilabothrus granti  Wherever found....            T   35 FR 16047, 10/13/
                                                                                          1970; 44 FR 70677, 12/
                                                                                          7/1979; [Federal
                                                                                          Register citation of
                                                                                          the final rule]. 50
                                                                                          CFR 17.42(j).\4d\
 
                                                  * * * * * * *
----------------------------------------------------------------------------------------------------------------

0
3. Amend Sec.  17.42 by adding paragraph (j) to read as set forth 
below:


Sec.  17.42   Special rules--reptiles.

* * * * *
    (j) Virgin Islands tree boa (Chilabothrus granti)--(1) 
Prohibitions. The following prohibitions that apply to endangered 
wildlife also apply to Virgin Islands tree boa. Except as provided 
under paragraph (j)(2) of this section and Sec. Sec.  17.4 and 17.5, it 
is unlawful for any person subject to the jurisdiction of

[[Page 61717]]

the United States to commit, to attempt to commit, to solicit another 
to commit, or cause to be committed, any of the following activities in 
regard to this species:
    (i) Import or export, as set forth at Sec.  17.21(b);
    (ii) Take, as set forth at Sec.  17.21(c)(1);
    (iii) Possession and other acts with unlawfully taken specimens, as 
set forth at Sec.  17.21(d)(1);
    (iv) Interstate or foreign commerce in the course of commercial 
activity, as set forth at Sec.  17.21(e); and
    (v) Sale or offer for sale, as set forth at Sec.  17.21(f).
    (vi) The intentional or incidental introduction of exotic species, 
such as cats or rats, that compete with, prey upon, or destroy the 
habitat of the Virgin Islands boa is also prohibited.
    (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 (c)(4) for 
endangered wildlife.
    (iii) Take, as set forth at Sec.  17.31(b).
    (iv) Possess and engage in other acts with unlawfully taken 
endangered wildlife, as set forth at Sec.  17.21(d)(2).
    (v) Incidental take of Virgin Islands tree boa resulting from:
    (A) Conservation efforts by Federal, Commonwealth, Territory, or 
municipal wildlife agencies, including, but not limited to, control and 
eradication of exotic mammals and habitat restoration, and collection 
of broodstock, tissue collection for genetic analysis, captive 
propagation, and reintroduction into currently occupied or unoccupied 
areas within the historical range of the Virgin Islands tree boa.
    (B) Nonlethal removal (and return to natural habitat) of Virgin 
Islands tree boa from human structures, defense of human life, and 
authorized capture and handling of Virgin Islands tree boas.
    (C) Efforts to monitor and survey Virgin Islands tree boa 
populations and habitat that may include handling, temporary holding, 
pit tagging, tissue sampling, and release.

Aurelia Skipwith,
Director, U.S. Fish and Wildlife Service.
[FR Doc. 2020-19027 Filed 9-29-20; 8:45 am]
BILLING CODE 4333-15-P