[Federal Register Volume 83, Number 111 (Friday, June 8, 2018)]
[Proposed Rules]
[Pages 26623-26640]
From the Federal Register Online via the Government Publishing Office [www.gpo.gov]
[FR Doc No: 2018-12409]
-----------------------------------------------------------------------
DEPARTMENT OF THE INTERIOR
Fish and Wildlife Service
50 CFR Part 17
[Docket No. FWS-R6-ES-2018-0008; FXES11130900000-189-FF09E42000]
RIN 1018-BC02
Endangered and Threatened Wildlife and Plants; Removing Oenothera
coloradensis (Colorado Butterfly Plant) From the Federal List of
Endangered and Threatened Plants
AGENCY: Fish and Wildlife Service, Interior.
ACTION: Proposed rule.
-----------------------------------------------------------------------
SUMMARY: We, the U.S. Fish and Wildlife Service (Service), propose to
remove the Colorado butterfly plant (Oenothera coloradensis, currently
listed as Gaura neomexicana ssp. coloradensis) from the Federal List of
Endangered and Threatened Plants (List) due to recovery. This
determination is based on a thorough review of the best available
scientific and commercial data, which indicate that the threats to the
Colorado butterfly plant have been eliminated or reduced to the point
that it has recovered, and that this plant is no longer likely to
become endangered in the foreseeable future and, therefore, no longer
meets the definition of a threatened species under the Endangered
Species Act of 1973, as amended (Act). This proposed rule, if made
final, would also remove the currently designated critical habitat for
the Colorado butterfly plant. We are seeking information, data, and
comments from the public on the proposed rule to remove the Colorado
butterfly plant from the List (i.e., ``delist'' the species). In
addition, we are also seeking input on considerations for post-
delisting monitoring of the Colorado butterfly plant.
DATES: We will accept comments received or postmarked on or before
August 7, 2018. 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
public hearings, in writing, at the address shown in FOR FURTHER
INFORMATION CONTACT by July 23, 2018.
ADDRESSES: Written comments: You may submit written comments by one of
the following methods:
Electronically: Go to the Federal eRulemaking Portal:
http://www.regulations.gov. In the Search box, enter Docket No. FWS-R6-
ES-2018-0008, 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 Rules link to locate this document. You may submit a
comment by clicking on the blue ``Comment Now!'' box. If your comments
will fit in the provided comment box, please use this feature of http://www.regulations.gov, as it is most compatible with our comment review
procedures. If you attach your comments as a separate document, our
preferred file format is Microsoft Word. If you attach multiple
comments (such as form letters), our preferred formation is a
spreadsheet in Microsoft Excel.
By hard copy: Submit by U.S. mail or hand-delivery to:
Public Comments Processing, Attn: FWS-R6-ES-2018-0008; U.S. Fish and
Wildlife Service; MS: BPHC; 5275 Leesburg Pike, Falls Church, VA 22041-
3803.
We request that you submit written 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 Public Comments, below, for
more details).
Document availability: This proposed rule and supporting documents,
including a copy of the draft post-delisting monitoring plan referenced
in this document, are available on http://www.regulations.gov at Docket
No. FWS-R6-ES-2018-0008. In addition, the supporting file for this
proposed rule will be available for public inspection, by appointment,
during normal business hours at the Wyoming Ecological Services Field
Office; 5353 Yellowstone Road, Suite 308A, Cheyenne, WY 82009;
telephone: 307-772-2374. Persons who use a telecommunications device
for the deaf (TDD) may call the Federal Relay Service at 800-877-8339.
FOR FURTHER INFORMATION CONTACT: Tyler A. Abbott, Field Supervisor,
telephone: 307-772-2374. Direct all questions or requests for
additional information to: COLORADO BUTTERFLY PLANT QUESTIONS, U.S.
Fish and Wildlife Service; Wyoming Ecological Services Field Office;
5353 Yellowstone Road, Suite 308A, Cheyenne, WY 82009. Individuals who
are hearing-impaired or speech-impaired may call the Federal Relay
Service at 800-877-8339.
SUPPLEMENTARY INFORMATION:
Information Requested
Public Comments
We want any final action resulting from this proposal to be as
accurate as possible. Therefore, we invite tribal and governmental
agencies, the scientific community, industry, and other interested
parties to submit comments or recommendations concerning any aspect of
this proposed rule. Comments should be as specific as possible. We
particularly seek comments and new information concerning:
(1) Our analyses of the Colorado butterfly plant's abundance,
distribution, and population trends;
(2) Potential impacts from disturbances, such as grazing and
residential, urban, and energy development;
(3) Conservation activities within the plant's range;
(4) Potential impacts from the effects of climate change; and
(5) Input on considerations for post-delisting monitoring of the
Colorado butterfly plant.
Please include sufficient supporting 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, may not meet the standard of
information required by section 4(b)(1)(A) of the Act (16 U.S.C. 1531
et seq.), which directs that determinations as to whether any species
is an endangered or threatened species must be made ``solely on the
basis of the best scientific and commercial data available.''
To issue a final rule to implement this proposed action, we will
take into consideration all comments and any additional information we
receive. Such communications may lead to a final rule that differs from
this proposal. All comments, including commenters' names and addresses,
if provided to us, will become part of the supporting record.
[[Page 26624]]
You may submit your comments and materials concerning the proposed
rule by one of the methods listed in ADDRESSES. Comments must be
submitted to http://www.regulations.gov before 11:59 p.m. (Eastern
Time) on the date specified in DATES. We will not consider hand-
delivered comments that we do not receive, or mailed comments that are
not postmarked, by the date specified in DATES.
We will post your entire comment--including your personal
identifying information--on http://www.regulations.gov. If you provide
personal identifying information in your comment, 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.
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, Wyoming Ecological Services Field Office (see Document
availability under ADDRESSES, above).
Public Hearing
Section 4(b)(5) of the Act provides for one or more public hearings
on this proposal, if requested. Requests must be received within 45
days after the date of publication of this proposed rule in the Federal
Register (see DATES, above). Such requests must be sent to the address
shown in FOR FURTHER INFORMATION CONTACT. We will schedule a public
hearing on this proposal, if any is requested, and announce the date,
time, and place of the hearing, as well as how to obtain reasonable
accommodations, in the Federal Register and local newspapers at least
15 days before the hearing.
Peer Review
In accordance with our policy, ``Notice of Interagency Cooperative
Policy for Peer Review in Endangered Species Act Activities,''
published on July 1, 1994 (59 FR 34270), we will seek the expert
opinion of at least three appropriate and independent specialists
regarding scientific data and interpretations contained in this
proposed rule. We will send copies of this proposed rule to the peer
reviewers immediately following its publication in the Federal
Register. We will ensure that the opinions of peer reviewers are
objective and unbiased by following the guidelines set forth in the
Director's Memo that updates and clarifies Service policy on peer
review (USFWS 2016a). The purpose of such review is to ensure that our
decisions are based on scientifically sound data, assumptions, and
analysis. Accordingly, our final decision may differ from that
described in this proposal.
Previous Federal Actions
On October 18, 2000, we published a rule in the Federal Register
(65 FR 62302) listing the Colorado butterfly plant, with the scientific
name Gaura neomexicana ssp. coloradensis, as a federally threatened
species. On January 11, 2005, we designated critical habitat for the
Colorado butterfly plant (70 FR 1940).
On May 25, 2010, we developed a recovery outline that laid out a
preliminary course of action for the recovery of the Colorado butterfly
plant. This recovery outline identified residential and urban
development as the most immediate and severe threat to the species,
with mowing and haying as an additional potential threat. A recovery
plan has not been developed for this species, although a draft was
assembled prior to the species' listing by the Service, the Nature
Conservancy, and the Wyoming Natural Diversity Database in 1987 (USFWS
1987, entire).
On December 17, 2012, we completed a 5-year review of the Colorado
butterfly plant. The review was revised in June 2016, to remove private
information protected under wildlife extension agreements (WEAs) from
the document. The 5-year review concluded that the species should
remain listed as threatened but also stated that threats currently
affecting the species were occurring at low levels overall for Colorado
butterfly plant populations and recommended further actions and
analyses prior to the next 5-year review to assist in determining
whether the species could be delisted.
Species Description and Life History
Detailed information regarding the Colorado butterfly plant's
biology and life history can be found in the Species Biological Report
for Colorado butterfly plant (USFWS 2017a, pp. 6-7), which was reviewed
by recovery partners. The Species Biological Report is an in-depth
review of the species' biology and threats, an evaluation of its
biological status, and an assessment of the resources and conditions
needed to maintain long-term viability. The Species Biological Report
is an interim approach taken as we transition to using a Species Status
Assessment (SSA) framework as the standard format that the Service uses
to analyze species as we make decisions under the Act, and includes
similar analyses of the species' viability in terms of its resiliency,
redundancy, and representation (USFWS 2016b, entire). We summarize
relevant information below.
The Colorado butterfly plant is a short-lived perennial herb that
is monocarpic or semelparous, meaning that it flowers once, sets seed,
and then dies. Flowering plants may, on rare occasions, flower a second
year or become vegetative the year after flowering (Floyd 1995, pp. 10-
15, 32). Pollinators for related species of Gaura and Colyphus
(Onagraceae, tribe Onagreae) consist of noctuid moths (Noctuidae) and
halictid bees (Lasioglossum; Clinebell et al. 2004, p. 378); both moths
and bees have been identified visiting Colorado butterfly plant flowers
during annual surveys (USFWS 2016c, entire). Additionally, one study
found that the Colorado butterfly plant does not exhibit a bimodal (day
and night) pollination system that is seen in other Gaura species,
since the majority of pollination occurs at night by noctuid moths
(Krakos et al. 2013, entire).
The Colorado butterfly plant is self-compatible; plants produce
flowers capable of forming viable seed with pollen from the same plant
(Floyd 1995, p. 4). During dispersal, many seeds fall to the ground
around parent plants (Floyd and Ranker 1998, p. 854). Because the seed
floats, it also may be dispersed downstream. Livestock and native
ungulates could provide an important dispersal mechanism as well,
through ingestion of the seeds (USFWS 2012, p. 27). Populations of this
species show evidence of a seedbank, an adaptation that enables the
species to take advantage of favorable growing seasons, particularly in
flood-prone areas (Holzel and Otte 2004, p. 279).
The number of individuals in a population of Colorado butterfly
plants appears to be influenced by rates of seedling establishment and
survival of vegetative rosettes to reproductive maturity. These factors
may be influenced by summer precipitation (Floyd and Ranker 1998, p.
858; Fertig 2000, p. 13). The combination of cool and moist spring
months is important in germination, and germination levels influence
the outcome of flowering plant population census in subsequent years.
Additionally, summer conditions, and temperature in particular, appear
to be an important mortality factor rather than influencing germination
(Laursen and Heidel 2003, p. 6). Differences in soil moisture and
vegetation cover may also influence recruitment success (Munk et al.
2002, p. 123).
The vegetative rosettes within a population may provide an
important
[[Page 26625]]
and particularly resilient stage of the life history of this species.
Individual vegetative rosettes appear to be capable of surviving
adverse stochastic events such as flooding (Mountain West Environmental
Services 1985, pp. 2-3) and adverse climatic years when new seedling
establishment is low. Therefore, episodic establishment of large
seedling recruitment classes may be important for the long-term growth,
replenishment, and survival of populations (Floyd and Ranker 1998,
entire).
Taxonomy
The Colorado butterfly plant, a member of the evening primrose
family (Onagraceae), was listed as Gaura neomexicana ssp. coloradensis
in 2000 (65 FR 62302; October 18, 2000). Molecular studies by Hoggard
et al. (2004, p. 143) and Levin et al. (2004, pp. 151-152) and
subsequent revisions of the classification of the family Onagraceae
(Wagner et al. 2007, p. 211) transferred the taxon previously known as
Gaura neomexicana Wooton to Oenothera as Oenothera coloradensis ssp.
neomexicana (Wooton) W.L. Wagner & Hoch. More recent analyses showed
that there are no infraspecific entities (any taxa below the rank of
species) within the taxon; the listed entity is now recognized as
Oenothera coloradensis (Wagner et al. 2013, p. 67). A more detailed
assessment of the taxonomy of the Colorado butterfly plant is available
in the species Biological Report (USFWS 2017a, pp. 4-6). The taxonomic
and nomenclatural changes do not alter the description, range, or
threat status of the listed entity.
Throughout this proposed rule, we will use the current scientific
name and rank, Oenothera coloradensis, for the Colorado butterfly
plant. We acknowledge, however, that the listing of the Colorado
butterfly plant in the Code of Federal Regulations (CFR) will continue
to be identified as Gaura neomexicana ssp. coloradensis until such time
as we publish a correction or a final delisting rule in the Federal
Register.
Species Abundance, Habitat, and Distribution
The Colorado butterfly plant is a regional endemic riparian species
known from 34 12-digit hydrologic unit code watersheds (watersheds) (28
extant and 6 extirpated), found from Boulder, Douglas, Larimer, and
Weld Counties in Colorado, Laramie and Platte Counties in Wyoming, and
western Kimball County in Nebraska (see figure below). Prior to 1984,
few extensive searches for the plant had been conducted, and data taken
from herbarium specimens were the primary basis of understanding the
extent of the species' historical distribution. At that time, the plant
was known from a few historical and presumably extirpated locations in
southeastern Wyoming and several locations in northern Colorado, as
well as from three extant occurrences in Laramie County in Wyoming and
Weld County in Colorado. Prior to listing, extensive surveys were
conducted in 1998, to document the status of the known occurrences, and
all still contained Colorado butterfly plants (Fertig 1998a, entire).
BILLING CODE 4333-15-P
[[Page 26626]]
[GRAPHIC] [TIFF OMITTED] TP08JN18.007
BILLING CODE 4333-15-C
Habitat Description
The Colorado butterfly plant occurs on subirrigated (water reaches
plant root zone from below the soil surface), alluvial soils derived
from conglomerates, sandstones, and tuffaceous mudstones and siltstones
of the Tertiary White River, Arikaree, and Oglalla Formations (Love and
Christiansen 1985 in Fertig 2000, p. 6) on level or slightly sloping
floodplains and drainage bottoms at elevations of 1,524-1,951 meters
(m) (5,000-6,400 feet (ft)). Populations are typically found in
habitats created and maintained by streams active within their
floodplains, with vegetation that is relatively open and not overly
dense or overgrown (65 FR 62302; October 18, 2000). Populations occur
in a range of ecological settings, including streamside, outside of the
stream channel but within the floodplain, and spring-fed wet meadows.
The plant is often found in but not restricted to early- to mid-
succession riparian habitat. Historically, flooding was probably the
main cause of disturbances in the plant's habitat, although wildfire
and grazing by native herbivores also may have been important. Although
flowering and fruiting stems may exhibit increased dieback because of
the abovementioned events, vegetative rosettes appear to be little
affected (Mountain West Environmental Services 1985, pp. 2-3).
It commonly occurs in communities dominated by nonnative and
disturbance-tolerant native species including: Agrostis stolonifera
(creeping bentgrass), Poa pratensis (Kentucky bluegrass), Glycyrrhiza
lepidota (American licorice), Cirsium flodmanii (Flodman's thistle),
Grindelia squarrosa (curlytop gumweed), and Equisetum laevigatum
(smooth scouring rush). Its habitat on Warren Air Force Base (AFB)
includes wet meadow zones dominated by Panicum virgatum (switchgrass),
Muhlenbergia richadrsonis (mat muhly), Schizachyrium scoparium (little
bluestem), Spartina pectinata (prairie cordgrass), and other native
grasses. All of these habitat types are usually intermediate in
moisture ranging from wet, streamside communities dominated by sedges,
rushes, and cattails to dry, upland prairie habitats (Fertig 1998a, pp.
2-4).
Typically, Colorado butterfly plant habitat is open, without dense
or woody vegetation. The establishment and survival of seedlings
appears to be enhanced at sites where tall and dense vegetation has
been removed by some form of disturbance. In the absence of occasional
disturbance, the plant's habitat can become choked by dense growth of
willows, grasses, and exotic plants (Fertig 1996, p. 12). This prevents
new seedlings from becoming established and replacing plants that have
died (Fertig 1996, pp. 12-14).
For the purposes of this analysis, we consider all occurrences of
the Colorado
[[Page 26627]]
butterfly plant within the same watershed to be one population. There
are no data (e.g., genetic relatedness) available to more precisely
define populations, and although distance of 1 km (0.6 mi) or greater
may exceed the distance traveled by pollinators, it is possible that
seeds may disperse over much greater distances (Heidel 2016, pers.
comm.). Therefore, because these gaps are probably too small to prevent
the dispersal of pollinators and/or seeds between subpopulations,
colonies along the same stream reach should be considered part of the
same population. This varies from the characterization of populations
in both the listing decision (65 FR 62302; October 18, 2000) and
critical habitat designation (70 FR 1940; January 11, 2005), where
populations were defined by landowner and/or proximity within a
drainage. We find organizing populations by watershed more accurately
describes components of population ecology (genetic exchange within a
geographic area), and stressors affecting the species tend to vary by
watershed. Because of this new organization of population structure,
some populations considered distinct and separate during the 2000
listing decision are now combined and vice versa, although many
populations are the same in this proposed rule as they were presented
in the 2000 listing rule.
Population Abundance and Trends
The Colorado butterfly plant occurred historically and persists in
various ecological settings described above under Habitat Description
including wet meadows, stream channels, stream floodplains, and spring-
fed wetlands. A detailed summary of the status of the species between
1979 and 2016 is provided in the species' Biological Report (USFWS
2017a, pp. 13-22).
In 1998 and 1999, in preparation for listing the species, the
rangewide census of flowering individuals was estimated at 47,300 to
50,300, with the majority of these occurring in Wyoming (Fertig 1998a,
p. 5; Fertig 2000, pp. 8-13). However, a population was discovered in
Colorado in 2005 that had a peak census of 26,000 plants in 2011,
bringing the total rangewide population to approximately 73,300 to
76,300 plants over time. Another population was discovered upstream of
known populations on Horse Creek in Laramie County, Wyoming, in 2016
with only 17 individuals, although the area had just been hayed and was
likely an incomplete representation of the total number of plants in
this population (USFWS 2016c, entire).
Average numbers may be a more appropriate way to represent
populations than the minimum and maximum values, although all provide
insight into the population's resiliency, or the ability to withstand
stochastic events. The number of reproductive individuals in a
population is somewhat driven by environmental factors and varies
considerably, so understanding the variability in the number of
individuals present in any given year is meaningful in assessing
population resiliency. Population numbers have fluctuated five-fold
over the course of the longest-running monitoring study (28 years)
conducted on Warren AFB. There, the population peaked at over 11,000
flowering plants in 1999 and 2011, making it one of the largest
populations rangewide, and then dropped to 1,916 plants in 2008 (Heidel
et al. 2016, p. 1). The Warren AFB population numbers provide some
indication of how population numbers can vary in landscapes not managed
for agricultural purposes, and it is likely that numbers vary even more
dramatically on managed landscapes. If this fluctuation was applied to
the rangewide population estimates above, then total rangewide numbers
for average years might be less than 50 percent of rangewide estimates
in favorable years (Handwerk 2016, pers. comm.; Heidel 2016, pers.
comm.).
The final listing rule (65 FR 62302; October 18, 2000) defined
large populations as those containing more than 3,000 reproductive
individuals; moderate populations as those containing 500 to 2,500
reproductive individuals; and small populations having fewer than 500
reproductive individuals. At the time, the species was represented by
10 stable or increasing populations, 4 extant but declining
populations, 3 likely small populations, and 9 likely extirpated
populations. However, after monitoring roughly half the known
populations annually for the past 13 years, we understand that
population size fluctuates significantly from year to year; therefore,
population size in any given year is not a good indicator of
resiliency. Therefore, our estimates of resiliency are now based on
averages of population censuses over multiple years and trends of
populations in response to management and stressors. Based on this, we
now have 15 highly resilient populations, 2 moderately resilient
populations, 6 low resiliency populations, 2 populations with unknown
resiliency, 3 introduced populations, and records of 6 extirpated
populations.
Colorado
In 2005, when critical habitat was designated for the Colorado
butterfly plant, only a single population was known from Colorado. That
population was not designated as critical habitat because it was
protected under a WEA. Currently, the species is known to occur in
Adams, Boulder, Douglas, Jefferson, Larimer, and Weld Counties in
northern Colorado, spanning 12 watersheds (see figure above). Six
historical occurrences have not been documented since 1984, and are
presumed extirpated. Three of the eight records in Colorado are
introduced and do not represent indigenous populations, and are either
seeded into the wild or into a garden. These introduced sites were not
designed specifically for species' conservation, and therefore are not
the focus of this species status evaluation in Colorado.
The majority of Colorado butterfly plants in Colorado are located
on lands managed by the City of Fort Collins Natural Areas Department
(Ft. Collins or CFCNAD) in Weld and Larimer Counties. The plants are
distributed among three distinct habitats on either side of Interstate
25 and have numbered between 3 to more than 26,000 reproductive
individuals. These areas are being managed to maintain suitable habitat
for the species (CFCNAD 2008, p. 1; CFCNAD 2010, p. 1; CFCNAD 2011a,
entire; CFCNAD 2011b, entire; CFCNAD 2014, entire). Annual census
information on flowering individuals at the Meadow Springs Ranch in
Weld County indicates that the large fluctuations in population numbers
are actually around a stable mean (434 flowering plant average, median
of 205, range of 45-1,432 flowering plants). Other populations in
Colorado have not been routinely monitored; consequently, no trend
information is available (USFWS 2016c, entire). In summary, the species
is represented in Colorado by two highly resilient, three low
resiliency, and three introduced populations.
Nebraska
Populations of the Colorado butterfly plant in Nebraska are
considered at the edge of the species' range and exist at higher
elevations than we knew at the time we listed the species. Surveys
conducted in 1985, along Lodgepole Creek near the Nebraska/Wyoming
border in Kimball County, found just over 2,000 flowering plants (Rabbe
2016, pers. comm). A survey in 1992 found two populations of Colorado
butterfly plant: One population (547 plants) along Lodgepole Creek and
one population (43 plants) at Oliver Reservoir State Recreation Area
(SRA) in the southwest panhandle of Nebraska in Kimball County (Fertig
2000a, p. 12).
[[Page 26628]]
Survey results from 2004 suggested the species was extirpated from the
State. In 2005, no critical habitat was designated in Nebraska.
However, a 2008 survey along historically occupied habitat and the
Oliver Reservoir SRA, located 12 plants in four locations on private
lands along Lodgepole Creek: 5 plants in areas where the species had
been located before and 7 plants in areas newly watered by a landowner
piping water into Lodgepole Creek from a cattle stock tank. No plants
were found at the Oliver Reservoir SRA (Wooten 2008, p. 4). These areas
have not been surveyed since 2008. Outside of these occurrences, no
other populations of the species are known to occur in Nebraska (Rabbe
2016, pers. comm.).
Wyoming
Extant populations of Colorado butterfly plant in Wyoming occur
throughout most of Laramie County and extend northward into Platte
County (USFWS 2012, pp. 11-21), spanning 17 watersheds (see figure
above). Over 90 percent of known occurrences in Wyoming are on private
lands, with parts of two occurrences on State school trust lands, one
occurrence on State lands, and one occurrence on Federal lands.
Populations in Wyoming that are found partly or fully on State school
trust lands are managed for agricultural uses. The population on
Federal lands occurs on Warren AFB located adjacent to Cheyenne,
provides information on species trends as it may have occurred prior to
human settlement of the area (with wild grazers and natural
streamflow), and represents the level of hydrological complexity of
three different sizes of streams. The highest census numbers at Warren
AFB totaled over 11,000 plants in 1998 and 2011, and the mean census
numbers for all other years have remained at or above 50 percent of
that peak, based on 1988-2016 numbers (Heidel et al. 2016, pp. 11-14).
In terms of genetic representation, a study conducted on Colorado
butterfly plants occupying three drainages at Warren AFB found that one
of the drainages was genetically unique and more diverse than the other
two drainages (Floyd 1995, pp. 73-81). Another study at Warren AFB
found that plants in one of the drainages contained unique alleles,
sharing genetic composition with only a small number of individuals
from the second and no individuals of the third drainage, indicating
fine-scale genetic variability within that portion of the species'
range (Tuthill and Brown 2003, p. 251). Assuming similar genetic
structure across the species' range, this result suggests a high degree
of genetic representation at the species' level. This genetic
information, however, does not provide sufficient strength in terms of
sample size in discerning populations from each other.
The Service has agreements with 11 private landowners within six
watersheds in Laramie County, Wyoming, and one watershed in Weld
County, Colorado (described in detail under Conservation Efforts,
below), since 2004 to conduct annual monitoring of the Colorado
butterfly plant. We also provide management recommendations to help
landowners maintain habitat for the species. Many of the landowners
graze cattle or horses where the species occurs; others use the areas
for haying operations. Populations at these locations may fluctuate by
as much as 100-fold annually (USFWS 2012, pp. 11-21; USFWS 2016c,
entire). For example, one population was heavily grazed for over a
decade, leading to counts of fewer than 30 reproductive individuals for
several years, but when the grazing pressure was relieved, the
population rebounded within 1 year to more than 600 reproductive
individuals (USFWS 2016c, entire). This may indicate that either a
robust seedbank was present or vegetative rosettes avoided the intense
grazing pressure and bolted after grazing diminished. The total number
of plants counted in Wyoming under these agreements has varied from
approximately 1,000 to over 21,000 reproductive individuals since 2004.
Combining annual census numbers from all monitored populations in
Wyoming, we have observed small to extreme population fluctuations
(USFWS 2012, pp. 11-21; USFWS 2016c, entire). Wyoming is represented by
13 highly resilient populations, 2 moderately resilient populations,
and 2 populations with unknown resiliency due to lack of information.
The listing decision (65 FR 62302, October 18, 2000, see p. 62308)
stated that ``[i]n order for a population to sustain itself, there must
be enough reproducing individuals and sufficient habitat to ensure
survival of the population. It is not known if the scattered
populations of [the Colorado butterfly plant] contain sufficient
individuals and diversity to ensure their continued existence over the
long term.'' Today, we understand that, regarding ecological
representation, the species is characterized by having at least one
population within each ecological setting and within all but the
southern-most portions of the historical range. Furthermore, most
extant populations have high resiliency (with more than 100
reproductive individuals in most years). Additionally, most populations
contain individuals in more than one ecological setting, such as
individuals along the creek bank and individuals outside of the creek
bank and in the floodplain of the creek. While surveyors typically
census the number of flowering individuals during surveys due to
relative ease in counting, the number of flowering plants in a survey
location in any given year does not represent the resiliency of the
population. Resiliency is determined through a combination of number of
flowering individuals, trends in this number, and response of the
population to stochastic events.
Conservation Efforts
The Service has worked with partners to protect existing
populations. Much of this work has been accomplished through voluntary
cooperative agreements. For example, beginning in 2004, the Service has
entered into 11 WEAs with private landowners, representing six
watersheds, to manage riparian habitat for Colorado butterfly plant (70
FR 1940; January 11, 2005). These 15-year WEAs cover a total of 1,038
hectares (ha) (2,564 acres (ac)) of the species' habitat along 59 km
(37 mi) of stream. These agreements represent approximately one-third
of the known populations of Colorado butterfly plant in Wyoming and
Colorado, including some of the largest populations on private lands.
All of the landowners have agreed to the following:
(1) Allow Service representatives or their designee access to the
property for monitoring or fence installation;
(2) Coordinate hay cutting activities in areas managed primarily
for hay production to consider the Colorado butterfly plant's seed
production needs;
(3) Prevent application of herbicides closer than 30.5 m (100 ft)
from known subpopulations of the Colorado butterfly plant; and
(4) Manage livestock grazing activities in conjunction with
conservation needs of the Colorado butterfly plant.
One of the landowners signed a 10-year agreement instead of a 15-
year agreement that was renewed for an additional 10 years in 2015. The
remaining agreements expire in late 2019. We anticipate that
participating landowners will continue to support the work being
performed under the WEAs and will seek renewal of these agreements if
the species remains listed under the Act. Based on the ongoing
relationship that the Service has with these participating landowners,
we anticipate that they would support the inclusions of their
properties under the
[[Page 26629]]
post-delisting monitoring program should the Colorado butterfly plant
be delisted.
One of the benefits of the WEAs for both the Service and private
landowners is that we can review the population numbers annually and
together develop management recommendations to improve growing
conditions for the species. Populations occurring within designated
critical habitat (see figure, above) have not been surveyed since 2004,
and their trends, threats, and viabilities are uncertain. However, no
projects potentially impacting critical habitat for this species have
occurred. Additionally, we reviewed aerial imagery of the critical
habitat units and found only two minimal changes between 2004 and 2015
(reflecting habitat conditions at the time of designation and the most
recent aerial imagery available) throughout all critical habitat units;
these changes affect only a few acres of designated critical habitat
(USFWS 2017b, entire). Consequently, we determine that activities
occurring on critical habitat are likely the same as they were at the
time of designation. Furthermore, because many of the private lands
included in the critical habitat designation are adjacent to lands
under WEAs, we determine that the populations occurring within
designated critical habitat are likely stable, and fluctuating
similarly to populations on lands that we monitor under WEAs. We have
no reason to believe that populations occurring on designated critical
habitat are responding to stressors differently than those populations
we monitor. Therefore, populations throughout the species' range on
private, local, and Federal lands either have been observed to be, or
are highly likely to be, fluctuating around a stable population size.
The Service and the U.S. Air Force signed a memorandum of agreement
(MOA) on January 18, 1982 (updated in 1999 and 2004) to facilitate the
preservation, conservation, and management of the Colorado butterfly
plant (USFWS 1982, entire; USFWS 1999, entire; USFWS 2004, entire). In
2004, Warren AFB developed a conservation and management plan for the
species (Warren AFB 2004, entire) that was added to their integrated
natural resources management plan in 2014 (Warren AFB 2014, entire).
Through these plans, the Service partners with the U.S. Air Force and
Wyoming Natural Diversity Database to monitor and protect the
population of the Colorado butterfly plant on the Warren AFB. This
includes annual monitoring; nonnative, invasive species control and
eradication; and maintenance of appropriate floodplain characteristics
for the species. Based on 29 years of monitoring and management, the
population of the Colorado butterfly plant on the Warren AFB is doing
well, with some areas declining while others are increasing (Heidel et
al. 2016, entire).
Three populations in Larimer and Weld Counties, Colorado, occur on
properties owned by the City of Fort Collins, and two are among the
largest across the species' range. The City of Fort Collins developed a
10-year master plan for the Natural Areas Department in 2014, which
provides a framework for the conservation and preservation of natural
areas, including the populations of the Colorado butterfly plant. The
master plan prescribes conservation actions that allow for the
persistence of the Colorado butterfly plant on the landscape (CFCNAD
2016a, entire), including prescribed burns to eliminate competition,
managed grazing, and improved security of water flow to the species'
habitat.
In summary, these agreements and plans have provided useful data,
facilitated good management of nine of the largest and most resilient
populations, and resulted in stable or increasing population trends.
Because of the information we obtained through these agreements and
plans, we are able to understand the resilience of individual plants
and populations, the representation of the species within its
ecological settings, and the redundancy of the plant population's
numbers and potential for connectivity.
Summary of Factors Affecting the Species
Section 4 of the Act and its implementing regulations (50 CFR part
424) set forth the procedures for listing species, reclassifying
species, or removing species from listed status. ``Species'' is defined
by the Act as including any species or subspecies of fish or wildlife
or plants, and any distinct vertebrate population segment of fish or
wildlife that interbreeds when mature (16 U.S.C. 1532(16)). A species
may be determined to be an endangered or threatened species due to one
or more of the five factors described in section 4(a)(1) of the Act:
(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.
Determining whether the status of a species has improved to the
point that it can be downlisted (i.e., reclassified from endangered to
threatened) or delisted requires consideration of whether the species
meets the definitions of either an endangered species or threatened
species contained in the Act. For species that are already listed as
endangered species or threatened species, this analysis of threats is
an evaluation of both the threats currently facing the species and the
threats that are reasonably likely to affect the species in the
foreseeable future following the delisting or downlisting and the
removal or reduction of the Act's protections.
A species is an ``endangered species'' for purposes of the Act if
it is in danger of extinction throughout all or a significant portion
of its range and is a ``threatened species'' if it is likely to become
an endangered species within the foreseeable future throughout all or a
significant portion of its range. The word ``range'' in the significant
portion of its range phrase refers to the range in which the species
currently exists, and the word ``significant'' refers to the value of
that portion of the range being considered to the conservation of the
species. We consider ``foreseeable future'' as that period of time
within which a reliable prediction can be reasonably relied upon in
making a determination about the future conservation status of a
species, as described in the Solicitor's opinion dated January 16,
2009. We consider 15 to 20 years to be a reasonable period of time
within which reliable predictions can be made for the Colorado
butterfly plant. This time period includes at least five generations of
the species, coincides with the duration of one renewal of the WEAs
expiring in 2019, and aligns with the timeframes for predictions
regarding municipal development and growth in the area. For the
purposes of this analysis, we first evaluate the status of the species
throughout all of its range, then consider whether the species is in
danger of extinction or likely to become so in any significant portion
of its range.
In considering what factors might constitute threats, we must look
beyond the exposure of the species to a particular factor to evaluate
whether the species may respond to the factor in a way that causes
actual impacts to the species. If there is exposure to a factor, but no
response, or only a positive response, that factor is not a threat. If
there is exposure to a factor and the species responds negatively, the
factor
[[Page 26630]]
may be a threat, and we attempt to determine how significant a threat
it is. If the threat is significant it may drive, or contribute to, the
risk of extinction of the species such that the species warrants
listing as an endangered species or a threatened species as those terms
are defined by the Act. This does not necessarily require empirical
proof of a threat. The combination of exposure and some corroborating
evidence of how the species is likely impacted could suffice. The mere
identification of factors that could impact a species negatively is not
sufficient to compel a finding that listing is appropriate; we require
evidence that these factors individually or cumulatively are operative
threats that act on the species to the point that the species meets the
definition of an endangered species or threatened species under the
Act.
The Colorado butterfly plant is federally listed as threatened.
Below, we present a summary of threats affecting the species and its
habitats in the past, present, and predicted into the future. A
detailed evaluation of factors affecting the species at the time of
listing can be found in the listing determination (65 FR 62302; October
18, 2000) and designation of critical habitat (70 FR 1940; January 11,
2005). An evaluation of factors affecting the species after 2005 can be
found in the 2012 5-year review (USFWS 2012, entire). The primary
threats to the species identified at the time of listing include
overgrazing by cattle or horses, haying or mowing at inappropriate
times of the year, habitat degradation resulting from vegetation
succession or urbanization of the habitat, habitat conversion to
cropland or subdivision, water development, herbicide spraying, and
competition with exotic plants (Marriott 1987, pp. 26-27; Fertig 1994,
pp. 39-41, Fertig 2000a, pp. 16-17). Since the time of listing, oil and
gas development and the effects of climate change have become potential
threats to this species and are analyzed under Factor A and Factor E,
respectively, below.
A. The Present or Threatened Destruction, Modification, or Curtailment
of Its Habitat or Range
Residential, Urban, and Energy Development
At the time of listing (65 FR 62302; October 18, 2000), residential
and urban development around the cities of Cheyenne and Fort Collins
were identified as past causes of habitat conversion and habitat loss
to the Colorado butterfly plant; these types of development were not a
concern in Nebraska at the time of listing nor are they now. Although
difficult to quantify because land conversion was not tracked during
the settlement of the West, likely a few hundred acres of formerly
suitable habitat were converted to residential and urban sites,
contributing to loss of habitat (Fertig 1994, p. 38; Fertig 2000a, pp.
16-17). Much of the species' range occurs along the northern Front
Range of the Rocky Mountains in Colorado and Wyoming, which has
experienced dramatic growth in the recent past and is predicted to grow
considerably in the future (Regional Plan Association 2016, entire),
particularly in Larimer and Weld Counties in Colorado (University of
Colorado Boulder 2015, pp. 119-120). The demand that urban development
places on water resources also has the ability to dewater the streams
and lower groundwater levels required by the species to maintain self-
sustaining populations, and is explored below.
The two large populations of the Colorado butterfly plant in
Larimer and Weld Counties, Colorado, occur on lands managed as open
space by Fort Collins, and are not directly subject to residential or
urban development. Consequently, despite projected increases in human
density and urban development along the northern Front Range, these
lands are managed to allow for the persistence of these populations,
with managed grazing or burning (CFCNAD 2016b, entire). Fort Collins
does not own all mineral rights on these lands; therefore, sensitive
areas within these boundaries may be impacted by mineral development.
However, in light of this potential threat, the city completed a
planning process in which they highlighted areas to be avoided by
mineral development (The Nature Conservancy 2013, entire). While oil
and gas development has increased in northern Colorado and southeastern
Wyoming since the time of listing, no oil or gas wells have been
proposed or likely will be proposed in areas that will directly or
indirectly impact populations of the Colorado butterfly plant in
Colorado or in Wyoming, particularly due to the species' occurrence in
riparian and wetland habitats. Because the plant occurs in riparian and
wetland habitats that routinely flood, it is likely that oil and gas
wells will be sited outside of population boundaries. While there is
potential for indirect effects through spills or sedimentation, we have
no specific information about those effects on the species to date.
According to publicly available information, there are no current
proposals for urban or residential development on lands containing
populations of Colorado butterfly plant in Wyoming. Monitoring of lands
under agreement (CFCNAD, WEAs, and Warren AFB) has also shown that
neither urbanization nor conversion to intensive agricultural
activities has occurred as predicted in the final listing rule (65 FR
62302, October 18, 2000; USFWS 2012, pp. 11-22; USFWS 2016c, entire).
Populations at WAFB remained stable over the past 29 years without
being managed for agricultural purposes, although numbers of
reproductive individuals fluctuate during any given year (Heidel et
al., 2016, pp. 14-18). Since the time of listing, the Service has
received few requests for consultation under section 7 of the Act for
projects that may adversely affect this species. Informal consultations
have been limited to grazing, power lines, pipelines, road development,
and drainage crossing projects, and avoidance and minimization of
potential impacts has been readily achieved (USFWS 2017c, entire).
Furthermore, chapters 3 and 4 of the Laramie County Land Use
Regulations address floodplain management and require specific
provisions and permits for construction within floodplains (Laramie
County 2011, pp. 165-185), which encompass all Colorado butterfly plant
habitat within the county; these regulations, therefore, extend some
level of protection to the species and its habitat. These regulations
are in place to ``promote public health, safety, and general welfare
and to minimize public and private losses due to flood conditions''
(Laramie County 2011, p. 165), and protect many resources, including
the Colorado butterfly plant and its habitat, by limiting development
in the floodplains. These regulations are discussed in detail under
Factor D, below.
The threats of residential and urban development, once considered
significant threats to the Colorado butterfly plant, have been largely
avoided because most development has occurred outside of the habitat in
which this species occurs. Annual monitoring conducted by the Service
since 2004 indicates that populations are stable and unaffected by any
development that has occurred within the species' range. While human
population growth and development are predicted for the Front Range of
the Rocky Mountains in Colorado into the future, these areas are
outside of the species' occupied habitat, and we do not anticipate
development in the protected areas under management of Fort Collins,
and do not anticipate development due to continued restrictions against
[[Page 26631]]
development within the floodplain. Additionally, increases in oil and
gas development in northern Colorado and southeastern Wyoming have not
directly or indirectly impacted populations of the Colorado butterfly
plant. Current ownership and management by Fort Collins and Warren AFB
of lands containing a majority of large populations of the Colorado
butterfly plant protect the species from current and future impacts due
to residential, urban, and energy development.
Agricultural Practices
At the time of listing (65 FR 62302; October 18, 2000), conversion
of grassland to farmlands, mowing grasslands, and grazing were
considered threats to the Colorado butterfly plant. Prior to listing,
the conversion of moist, native grasslands to commercial croplands was
widespread throughout much of southeastern Wyoming and northeastern
Colorado (Compton and Hugie 1993, p. 22), as well as in Nebraska.
However, conversion from native grassland to cropland has slowed
throughout the species' range since the time of listing, with no lands
converted in Laramie County and just 12 ha (30 ac) converted in Platte
County between 2011 and 2012 (FSA 2013, entire).
Mowing areas for hay production that are occupied by the Colorado
butterfly plant was identified as a threat at the time of listing, if
conducted at an inappropriate time of year (prior to seed maturation)
(Fertig 1994, p. 40; USFWS 1997, p. 8). However, monitoring over the
past 13 years indicates that mowing prior to seed maturation occurs
infrequently. Even in areas where early season mowing has occurred,
annual monitoring has shown high numbers of reproductive plants present
in subsequent years, suggesting that mowing for hay production is not a
threat to the species (USFWS 2016c, entire).
The agricultural practices of grazing and herbicide application
threatened the Colorado butterfly plant at the time of listing.
However, since then, the Service has made and continues to make
recommendations to cooperating landowners on agricultural management
that fosters resiliency in populations of the species. We believe that
these measures have decreased the severity of these stressors. We also
anticipate that landowners will continue their current agricultural
practices into the future, based on the data we have collected from
WEAs (USFWS 2016c, entire) and analysis of aerial imagery of designated
critical habitat (USFWS 2017b, entire). Through these agreements, we
also learned that the species is highly adapted to withstand stochastic
events. The assessment that the species is highly resilient is based on
the information obtained through the WEAs; we do not rely on the
implementation of the WEAs to ensure that the species remains highly
resilient. Instead, we believe the plant will continue to thrive even
if protections are removed. Grazing is further explored under Factor C,
below, and herbicide spraying is further explored under Factor E,
below.
Water Management
At the time of listing (65 FR 62302; October 18, 2000), water
management (actions that moved water to croplands, such as irrigation
canals, diversions, and center pivot irrigation development) was
considered a threat that would remove moisture from Colorado butterfly
plant habitat. The management of water resources for livestock
production and domestic and commercial human consumption, coupled with
increasing conversion of lands for agricultural production, often led
to channelization and isolation of water resources; changes in
seasonality of flow; and fragmentation, realignment, and reduction of
riparian and moist lowland habitat (Compton and Hugie 1993, p. 22). All
of these actions could negatively impact suitable habitat for the
species.
Dewatering portions of Lodgepole Creek in Kimball County, Nebraska,
has led to the extirpation of some of the species' known historical
populations there, and low likelihood of long-term resiliency for the
two extant populations last monitored in 2008 (Rabbe 2016, pers.
comm.). Extant populations in Nebraska continue to experience
dewatering and overgrazing on private land. However, when water was
reintroduced to formerly occupied habitat after being absent for more
than 10 years, a population was rediscovered (Wooten 2008, p. 4). While
rediscovery of this population indicates persistence of a viable
seedbank for at least 10 years, numbers of plants within the population
declined from over 600 plants (Fertig 2000a, p. 12) to 12 plants
(Wooten 2008, p. 4), and the application of water that allowed plants
to grow was temporary, which suggests the population has a low
likelihood of long-term resiliency.
In 2016, the Colorado Water Conservation Board on behalf of Fort
Collins filed an instream flow right on Graves Creek, the stream that
feeds the population of Colorado butterfly plants in Soapstone Prairie
(CFCNAD 2016b, entire). While the water right has not yet been granted,
we believe that this instream flow right will protect and maintain
subirrigation of this large and important population through ensuring
adequate water availability to the species throughout the year.
The entire range of the Colorado butterfly plant occurs within the
Platte River Basin. Water usage in the Platte River system is managed
collaboratively by the States of Colorado, Wyoming, and Nebraska, and
the Department of the Interior, through the Platte River Recovery
Implementation Program (PRRIP). The PRRIP, which began in 1997,
provides a mechanism for existing and new water users and water-
development activities in the Platte River Basin to operate in
regulatory compliance with the Act regarding potential impacts to the
five Platte River ``target species'' in Nebraska: Grus americana
(whooping crane), Sterna (Sternula) antillarum (interior least tern),
Charadrius melodus (northern Great Plains population of piping plover),
Scaphirhynchus albus (pallid sturgeon), and Platanthera praeclara
(western prairie fringed orchid). Because the PRRIP ensures that
shortages to the target flows in the central Platte River will be
substantially reduced by keeping water within the basin more
consistently throughout the year (PRRIP 2016), the hydrological
component of habitat for the Colorado butterfly plant will be better
maintained as well.
In summary, water management can directly and indirectly impact the
Colorado butterfly plant. While management of water resources has
negatively impacted the species on a localized scale in the past, there
is no indication that water management throughout the majority of the
species' range poses a current threat to the species because programs
and policies currently in place, such as the PRRIP and Graves Creek
instream flow right, provide substantial assurances that the
hydrological component of currently occupied habitat will remain
protected over the long term.
Natural Succession and Competition With Nonnative, Invasive Species
In the absence of periodic disturbance, natural succession of the
plant community in areas occupied by the Colorado butterfly plant moves
from open habitats to dense coverage of grasses and forbs, and then to
willows and other woody species. The semi-open habitats preferred by
this species can become choked by tall and dense growth of willows;
grasses; and nonnative, invasive species (Fertig 1994, p. 19; Fertig
2000a, p. 17). Natural disturbances such as flooding, fire, and native
ungulate grazing were sufficient
[[Page 26632]]
in the past to create favorable habitat conditions for the species.
However, the natural flooding regime within the species' floodplain
habitat has been altered by construction of flood control structures
and by irrigation and channelization practices (Compton and Hugie 1993,
p. 23; Fertig 1994, pp. 39-40). Consequently, the species relies on an
altered flood regime and other sources of disturbance to maintain its
habitat.
In the absence of natural disturbances today, managed disturbance
may be necessary to maintain and create areas of suitable habitat
(Fertig 1994, p. 22; Fertig 1996, pp. 12-14; Fertig 2000a, p. 15).
However, populations can persist without natural disturbances such as
fire and flooding through natural dieback of woody vegetation and
native ungulate grazing (Heidel et al., 2016, pp. 2-5). Additionally,
some Federal programs, such as those administered by the U.S.
Department of Agriculture's Natural Resources Conservation Service,
focus on enhancing or protecting riparian areas by increasing
vegetation cover and pushing the habitat into later successional
stages, which removes the types of disturbance the Colorado butterfly
plant needs (65 FR 62302; October 18, 2000, p. 62307). However, these
programs are implemented in only a small portion of the species' range.
The Service learned from monitoring the 11 WEA properties that the
typical approach of managing for livestock grazing, coupled with an
altered flood regime, appears to provide the correct timing and
intensity of disturbance to maintain suitable habitat for the species
(USFWS 2012, pp. 9-21; USFWS 2016c, entire). There has been no
noticeable change in general management practices or change in the
natural succession rate in either the WEA properties or the designated
critical habitat since the agreements were signed or the critical
habitat was designated, and we have no reason to believe that these
practices or rates will change in the foreseeable future. Therefore,
through the information we have gathered since the time of listing, it
appears that natural succession is not occurring at the level
previously considered to threaten this species.
The final listing rule (65 FR 62302; October 18, 2000) included
competition with exotic plants and noxious weeds as a threat to the
Colorado butterfly plant. Competition with exotic plants and noxious
weeds, here referred to as nonnative, invasive species, may pose a
threat to the Colorado butterfly plant, particularly given the species'
adaptation to more open habitats. In areas of suitable habitat for
Colorado butterfly plant, the following plants may become dominant: The
native Salix exigua (coyote willow); nonnative, invasive Cirsium
arvense (Canada thistle); and nonnative, invasive Euphorbia esula
(leafy spurge). Salix in particular increases in the absence of grazing
or mowing. These species can outcompete and displace the Colorado
butterfly plant, presumably until another disturbance removes competing
vegetation and creates openings for Colorado butterfly plant seedlings
to germinate (Fertig 1998a, p. 17). Since 2004, we have monitored
populations of the Colorado butterfly plant that have slowly decreased
in numbers or disappeared following the invasion and establishment of
these other plant species, only to see Colorado butterfly plants return
to the area following disturbance (USFWS 2016c, entire). Additionally,
at least one population has moved to an uninvaded area downstream of
its former invaded habitat (Handwerk 2016, pers. comm.), suggesting
that populations can move to find more suitable habitat nearby.
Prior to listing, biological control agents were used to control
nonnative, invasive species at Warren AFB and may have depressed
numbers and extent of Canada thistle and leafy spurge. Introduced gall-
forming flies have slowly become established on Warren AFB and have
reduced the vigor, height, and reproductive ability of small patches of
Canada thistle (Fertig 1997, p. 15), at least in some years (Heidel et
al., 2016, p. 16). Also on the Warren AFB, a biocontrol agent for leafy
spurge, a different flea beetle than infests the Colorado butterfly
plant, was observed in 1997 (Fertig 1998b, p. 18). While the effects of
biocontrol agents on nonnative, invasive species appear promising, we
do not have current information on the status of biocontrol of these
agents.
Natural succession was considered a threat to the Colorado
butterfly plant at the time of listing. However, we now understand that
the altered flood regime of today, coupled with disturbance from fire
and grazing, is sufficient to maintain suitable habitat throughout much
of the species' range. Competition with nonnative, invasive species is
an ongoing stressor for portions of populations, although these
invasive species tend not to survive the regular disturbances that
create habitat for the Colorado butterfly plant. Therefore, while
individuals or populations may be out-competed by native or nonnative,
invasive species at higher succession levels, periodic disturbance
maintains or creates new habitats for the Colorado butterfly plant.
Summary of Factor A
The following stressors warranted consideration as possible current
or future threats to the Colorado butterfly plant habitat under Factor
A: (1) Residential, urban, and energy development; (2) agricultural
practices; (3) water management; and (4) natural succession and
competition with nonnative, invasive species. However, these stressors
are either being adequately managed, have not occurred to the extent
anticipated at the time of listing, or new information indicates that
the species is tolerant of the stressor as described above. While these
stressors may be responsible for loss of historical populations (they
have negatively affected population redundancy), and are currently
negatively affecting the populations in Nebraska, we do not anticipate
a rangewide increase in these stressors in the future, although they
will continue at some level.
B. Overutilization for Commercial, Recreational, Scientific, or
Educational Purposes
Factor B was not considered a threat to the species at the time of
listing (65 FR 62302; October 18, 2000). We are aware of three
unpermitted collections of seeds of the Colorado butterfly plant for
scientific and/or commercial purposes since the publication of the
final listing rule. These three collections were limited events that
occurred at an introduction site in Colorado and from a large, robust
population in Wyoming. Based on recent population data, these
unpermitted collection events had no apparent impact on the number and
distribution of plants within these populations or the species' habitat
(based on Heidel et al., 2016, p. 13; USFWS 2016c, entire). Other than
these collections, we are not aware of any attempts to use the Colorado
butterfly plant for commercial, recreational, scientific, or
educational purposes. In the future, we do not anticipate this species
will be collected due to its lack of showiness for much of the year and
because it occurs in generally inaccessible areas.
Summary of Factor B
At the time of listing, Factor B was not considered a threat to the
Colorado butterfly plant. We are aware of only three unpermitted
collections of the seeds of the species since listing. These collection
events had no apparent effect on the number and distribution of plants
from which they were taken. Based on available information, we do not
consider there to be threats now or
[[Page 26633]]
in the future related to overutilization for commercial, recreational,
scientific, or educational purposes.
C. Disease or Predation
The listing of the Colorado butterfly plant (65 FR 62302; October
18, 2000) did not include threats from disease or predation, although
livestock grazing was described as a potential threat if grazing
pressures were high. No diseases are known to affect this species. In
2007, a precipitous decline in plant numbers was observed in many
populations monitored in Colorado and Wyoming. The exact cause of the
decline was not positively identified, but weather and insect herbivory
were two potential contributing factors. Weather-related impacts
included an early start to the growing season, lower than normal spring
precipitation levels (which were magnitudes lower than in all previous
years), and higher mean temperatures in late summer. Insect herbivory
also was suspected, as virtually all reproductive plants were riddled
with holes, flowering and fruit production was curtailed or greatly
reduced on all plants, and some bolted plants died before flowering.
Interestingly, no vegetative (i.e., non-reproductive) plants showed
similar evidence of herbivory (Heidel et al., 2011, pp. 284-285).
Flowering plant numbers remained low or declined further in 2008.
Surveyors identified one or more flea beetle species that may have been
responsible for the herbivory. The likely flea beetle species (Altica
foliaceae) is a native species, and its numbers are not known to be
affected by human causes.
Insect herbivory may not be a severe or immediate threat to
Colorado or Wyoming populations as the above-referenced impacted
populations rebounded to pre-infestation numbers in 2009 and 2010
(Heidel et al., 2011, p. 286). However, insect herbivory may be
episodic and potentially tied to climate; preliminary tests have been
conducted on its potential impact on population resiliency (Heidel et
al., 2011, p. 286). For example, in 2014, intense herbivory from flea
beetles at Soapstone Prairie and Meadow Springs Ranch resulted in high
mortality and a reduction in bolting of vegetative rosettes (Strouse
2017, pers. comm.), and numbers of reproductive individuals in those
populations were low in 2015 and 2016. We found that these populations
rebounded in 2017 to record numbers, in the same way populations
rebounded after the 2007 flea-beetle-caused decline. This herbivory has
not been reported for the Nebraska populations, although it is possible
that similar insect herbivory influenced 2008 survey results in
Nebraska.
Colorado butterfly plant is highly palatable to a variety of insect
and mammalian herbivores including Gaura moth (Schinia gaura), cattle,
horses, and pronghorn (Antilocapra americana), but the plant appears to
have some capacity to compensate for herbivory by increasing branch and
fruit production (Fertig 1994, p. 6; Fertig 2000a, p. 17). Livestock
grazing can be a threat at some sites if grazing pressures are high or
if use is concentrated during the summer flowering and fruiting period.
Additionally, plants may be occasionally uprooted or trampled by
livestock and wildlife. In at least two locations where a population
was divided by a fence, the heavily grazed side of the fence had few or
no Colorado butterfly plants, while the ungrazed side had many
(Marriott 1987, p. 27; USFWS 2016c, entire).
Heavy grazing at key times of the year during the life cycle of the
Colorado butterfly plant may be detrimental to populations by
temporarily removing reproductive individuals and eliminating seed
production for that year. However, even after many years of intensive
grazing, populations rebounded upon relief (USFWS 2012, pp. 11-21;
USFWS 2016c, entire). This response is likely due to survival of non-
reproductive individuals and recruitment from the seedbank. Moderate
grazing acts as a disturbance that keeps the habitat in an open or
semi-open state suitable for this species, and light to medium grazing
can provide benefits by reducing the competing vegetative cover and
allowing seedlings to become established (USFWS 1997, p. 8).
Summary of Factor C
In general, while disease or predation has had an occasional
negative impact on individuals and localities, most of these impacts do
not appear to affect entire populations, nor do these impacts persist
for any extended period of time. Individuals are resilient to damage;
vegetative plants (basal rosettes) appear to be resistant to damage
from grazing activities and are capable of withstanding stochastic
events, and reproductive plants send out additional flowering branches
upon injury. Also, the lack of any known diseases affecting the species
and the species' redundancy of many populations distributed across most
of the historical range would likely provide a buffer to any type of
catastrophic disease outbreak.
D. The Inadequacy of Existing Regulatory Mechanisms
Under this factor, we examine whether the stressors identified
within the other factors may be ameliorated or exacerbated by an
existing regulatory mechanism. Section 4(b)(1)(A) of the Act requires
the Service to take into account ``those efforts, if any, being made by
any State or foreign nation, or any political subdivision of a State or
foreign nation, to protect such species.'' In relation to Factor D
under the Act, we interpret this language to require the Service to
consider relevant Federal, State, and Tribal laws, regulations, and
other such binding legal mechanisms that may ameliorate or exacerbate
any of the threats we describe in threats analyses under the other four
factors, or otherwise enhance conservation of the species. Our
consideration of these mechanisms is described in detail within our
analysis of each of the factors (see discussion under each of the other
factors).
For currently listed species, we consider the adequacy of existing
regulatory mechanisms to address threats to the species absent the
protections of the Act. Therefore, we examine whether other regulatory
mechanisms would remain in place if the species were delisted, and the
extent to which those mechanisms will continue to help ensure that
future threats will be reduced or minimized.
In our discussion under Factors A, B, C, and E, we evaluate the
significance of threats as mitigated by any conservation efforts and
existing regulatory mechanisms. Where threats exist, we analyze the
extent to which conservation measures and existing regulatory
mechanisms address the specific threats to the species. Regulatory
mechanisms, if they exist, may reduce or eliminate the impacts from one
or more identified threats. Presently, the Colorado butterfly plant is
a Tier 1 species in the Plants of Greatest Conservation Need in
Colorado (Colorado SWAP 2015, entire), and the species is listed on the
State endangered species list for Nebraska, and will continue to be so
designated due to the species' extreme rarity in Nebraska (Wooten 2008,
p. 1).
When we listed the Colorado butterfly plant in 2000 (65 FR 62302;
October 18, 2000), the majority of known populations occurred on
private lands managed primarily for agriculture, with one population at
Warren AFB, and a few other populations throughout the species' range
under various local jurisdictions. The listing decision described the
species' status as
[[Page 26634]]
Sensitive by the U.S. Forest Service, although no populations occurred
on Forest Service lands at the time. The listing decision also
described the lack of protection extended to the Colorado butterfly
plant through the Federal threatened status of Zapus hudsonius preblei
(Preble's meadow jumping mouse) that occurs in the same range of
habitats due to the two species' use of differing successional stages
of riparian habitats (65 FR 62302; October 18, 2000).
Today, the population on Warren AFB represents one of the largest
and most highly resilient populations of the species, is managed under
an integrated natural resources management plan (Warren AFB 2014,
entire) and a conservation and management plan under Air Force
Information 32-7064 (Warren AFB 2004, entire). These plans call for
annual monitoring, protection and maintenance, and research on threats
and genetic variability of the population located there. Additionally,
a Service employee stationed at Warren AFB manages its natural
resources, including management of the Colorado butterfly plant and its
habitat, such as directing the application of herbicide in the vicinity
of the species' habitat. These plans would remain post-delisting. The
population of the Colorado butterfly plant at Warren AFB has been
monitored since before listing to determine population trends, detect
any changes in its habitat, pursue viability assessment, and assess
population response to different hydrological conditions. The results
indicate that plant numbers fluctuate depending on climate and
hydrology, and seem to be capable of rebounding after extreme
stochastic events such as the flea beetle infestation of 2007 (Heidel
et al., 2016, pp. 15-17). Should the protections of the Act be removed
from this species upon delisting, the aforementioned plans would remain
in place, at least until the next plan revisions, which have yet to be
scheduled.
Discovery and subsequent protection of large populations of the
Colorado butterfly plant on lands owned and managed by Fort Collins are
an important addition to conservation of the species after it was
listed in 2000. The regulatory protections that these two populations
receive from occurring on municipal natural areas lands include
indefinite protections of land and water and restoring and
rehabilitating land and natural systems to build ecological diversity
and permanence (City of Fort Collins 2014, pp. 1-2). Populations
managed by Fort Collins are afforded protection from oil and gas
development (The Nature Conservancy 2013, entire) and from water
withdrawals (CFCNAD 2016b, entire), as discussed above under Factor A.
Also, as mentioned in ``Residential, Urban, and Energy Development''
under Factor A, the Laramie County Land Use Regulations address
floodplain management and require specific provisions and permits for
construction within floodplains (Laramie County 2011, pp. 165-185),
which encompass all Colorado butterfly plant habitat within the county;
therefore, these regulations extend some level of protection to the
species and its habitat. While protecting riparian and wetland species
is not the intent of these regulations, plants growing within the
floodplain receive the habitat protections outlined as part of the
floodplain construction avoidance provisions.
Lands without specific regulatory mechanisms contain most
populations of the Colorado butterfly plant. Over a decade of
monitoring 11 occurrences on private lands in Wyoming has documented
fluctuations in population size about a stable mean, apparently driven
by changes in precipitation and disturbance regime (USFWS 2012, pp. 11-
22; USFWS 2016c, entire). Management of lands under WEAs is discussed
in Conservation Efforts, above.
Populations of Colorado butterfly plant are not known to occur on
lands managed by the Bureau of Land Management (BLM) at this time,
although there is potential for populations to be discovered on BLM
lands in the future. Because of this possibility, the Service and BLM
in Wyoming have developed conservation measures under a Statewide
programmatic consultation under section 7 of the Act for the Colorado
butterfly plant. These conservation measures are incorporated into
BLM's 2008 Record of Decision and Approved Rawlins Resource Management
Plan (RMP; BLM 2008, entire) and include, but are not limited to: (1)
Buffering individuals and populations by 800 m (0.5 mi); (2)
implementing standards for healthy rangelands and guidelines for
livestock grazing management for the public lands administered by BLM
in the State of Wyoming; (3) limiting the number of grazing animals
within the permit area; and (4) protecting surface water through
prohibiting surface development in the following areas: Within 400 m
(0.25 mi) of the North Platte River; within 152 m (500 ft) of live
streams, lakes, reservoirs, and canals and associated riparian habitat;
and within 152 m (500 ft) of water wells, springs, or artesian and
flowing wells (BLM 2005, pp. 4-2 through 4-4). The newly discovered
population on Wild Horse Creek (WY-23) occurs within the agreement area
that BLM developed with the landowners, and so the conservation
measures included in the Rawlins RMP are applied to this population.
Water use is managed under the PRRIP, as described above under
Factor A, which ensures that water use in the Platte River is conducted
in a way to maintain volume at certain times of the year in the central
and lower reaches of the Platte River in Nebraska. Because all of the
watersheds in which the Colorado butterfly plant is found occur within
the PRRIP, the water on which the species depends is managed under this
program (PRRIP 2006). The water that this species requires would
continue to be included under the PRRIP even if the Colorado butterfly
plant is removed from the List of Threatened and Endangered Plants.
Summary of Factor D
At the time of listing (65 FR 62302; October 18, 2000), no Federal
or State laws or regulations specifically protected populations of the
Colorado butterfly plant and its habitat. However, two of the three
largest populations occur on Warren AFB and lands owned and managed for
the species by Fort Collins where regulatory mechanisms now exist.
Additionally, 13 years of annual monitoring of 11 survey areas on
private lands under WEAs that has occurred since the species was listed
has shown that land used for agricultural purposes can be compatible
with the resilience of the species, even without any regulatory
mechanism in place (see discussions under Factors A, C, and E).
Consequently, we find that existing regulatory mechanisms, as discussed
above, will continue to address stressors to the Colorado butterfly
plant absent protections under the Act.
E. Other Natural or Manmade Factors Affecting Its Continued Existence
Factor E requires the Service to consider any other factors that
may be affecting the Colorado butterfly plant. Under this factor, we
discuss small population size and restricted range, herbicide spraying,
and effects of climate change.
Small Population Size and Restricted Range
The final listing decision (65 FR 62302; October 18, 2000) included
the limited range and the small population size of many populations to
be a threat
[[Page 26635]]
to the Colorado butterfly plant. However, small population size and a
restricted range is not a threat in and of itself. Historically,
Colorado butterfly plant populations occurred from Castle Rock,
Colorado, north to Chugwater, Wyoming, and east into a small portion of
southwest Nebraska. The extent of its range was approximately 6,880 ha
(17,000 ac). Most of this range is still occupied, although some small
and/or peripheral populations in Nebraska and Colorado have been
extirpated since intensive survey efforts began. Despite the loss of
these populations, the species continues to maintain multiple
resilient, representative, and redundant populations throughout nearly
all of its range known at the time of listing (see figure, above).
We have evidence that populations throughout the range have
persisted despite stochastic events that may have caused short-term
declines in number of individuals. For example, a 100-year flood in
August 1985 on the Warren AFB inundated the Crow Creek portion of the
population, knocking down some plants and surrounding vegetation, and
depositing sediments (Rocky Mountain Heritage Task Force 1987, as cited
in Heidel et al., 2016, p. 2). Instead of being extirpated, these
populations rebounded in 1986 and continue to persist (summarized in
Heidel et al., 2016, pp. 2-18). Additionally, based on annual
monitoring of populations on private property in Wyoming, stochastic
events such as floods and hail storms have reduced population numbers
during the event year, then populations rebounded in following years
(USFWS 2012, pp. 11-22; USFWS 2016c, entire). Individual plants may be
vulnerable to random events such as fires, insect or disease outbreaks,
or other unpredictable events. However, this species is adapted to
disturbance, and rather than being extirpated, the seedbank can provide
opportunity for populations to rebound after such events.
The historical range included populations farther south into
Larimer and Weld Counties in Colorado that were lost prior to the
listing of the species in 2000. No populations in Larimer and Weld
Counties in Colorado have been extirpated since the species was listed,
and we do not think that further range restriction has occurred in this
portion of the species' range. In the future, species range restriction
may occur through loss of peripheral populations in Nebraska where
dewatering has removed formerly suitable habitat (Wooten 2008, entire).
However, these populations are downstream of highly viable populations
in Wyoming, and do not constitute a removal of the species from this
drainage entirely. The resiliency and redundancy of populations across
much of the species' range indicate that further range restriction is
not likely.
Herbicide Spraying
At the time of listing (65 FR 62302; October 18, 2000), the non-
selective use of broadleaf herbicides to control Canada thistle, leafy
spurge, and other nonnative, invasive plants was considered a threat to
the Colorado butterfly plant. Non-selective spraying has had negative
effects on some Colorado butterfly plant populations (Fertig 2000a, p.
16). For example, in 1983, which was prior to listing, nearly one-half
of the mapped population on Warren AFB was inadvertently destroyed when
sprayed with Tordon[supreg], a persistent herbicide (Miller 1987, as
cited in 65 FR 62302, October 18, 2000, p. 62307). The status of that
portion of the population is unknown due to a subsequent lack of clear
record-keeping at that time, prior to a Service biologist being
employed on site; all plant locations have been tracked in the time
after the Service biologist and Wyoming Natural Diversity Database
began working at Warren AFB. Herbicide use along road crossings in and
adjacent to plant populations was also noted (65 FR 62302, October 18,
2000, p. 62307).
After the 2000 listing of the Colorado butterfly plant, the Service
worked with Warren AFB and private landowners under WEAs to develop
best management practices for applying herbicides within the vicinity
of known occurrences to remove nonnative, invasive species while
minimizing adverse effects to individual Colorado butterfly plants. For
example, the WEAs require an herbicide-application buffer of 30.5 m
(100 ft) from known locations of the Colorado butterfly plant. However,
at one property, the landowner inadvertently sprayed individual plants
in spring 2016. During subsequent monitoring, Service staff observed
reddened plants with shriveled leaves, which likely reduced the vigor
of those individuals (USFWS 2016c, entire). We presume that there will
be no long-term effects on the population, and in fact, we found
vigorous Colorado butterfly plants growing in this area during surveys
in 2017. Furthermore, if the species is delisted, we anticipate that
landowners will continue to maintain this buffer in accordance with
requirements under the WEAs and that Warren AFB will continue to avoid
spraying herbicide in the vicinity of the species' habitat as
stipulated in their integrated natural resources management plan and
conservation and management plan.
While herbicide application may continue to occasionally occur
within Colorado butterfly habitat, we know that unsprayed individuals
persist in the population and can repopulate Colorado butterfly plants
in areas where plants were killed. The seedbank can play an additional
role in restoring Colorado butterfly plants to areas that have been
sprayed. Based on our records, herbicide application is a management
tool used in conjunction with nonnative, invasive species removal in
only four of the known occurrences of the species, and these are among
our largest and most resilient populations of the species. Our records
indicate that, in general, application of buffers has been successful
at reducing the presence of invasive species and competition near the
Colorado butterfly plant (USFWS 2012, pp. 24-25; USFWS 2016c, entire),
and when conducted appropriately, herbicide application can help
improve habitat for the Colorado butterfly plant by eliminating
competition.
Effects of Climate Change
Impacts from climate change were not considered in the final rule
to list the species (65 FR 62302; October 18, 2000) or in the critical
habitat designation (70 FR 1940; January 11, 2005). Our current
analyses under the Act include consideration of ongoing and projected
changes in climate. The terms ``climate'' and ``climate change'' are
defined by the Intergovernmental Panel on Climate Change (IPCC).
``Climate'' refers to the mean and variability of different types of
weather conditions over time, with 30 years being a typical period for
such measurements, although shorter or longer periods also may be used
(IPCC 2007, p. 78). The term ``climate change'' thus refers to a change
in the mean or variability of one or more measures of climate (e.g.,
temperature or precipitation) that persists for an extended period,
typically decades or longer, whether the change is due to natural
variability, human activity, or both (IPCC 2007, p. 78). Various types
of changes in climate can have direct or indirect effects on species.
These effects may be positive, neutral, or negative and they may change
over time, depending on the species and other relevant considerations,
such as the effects of interactions of climate with other variables
(e.g., habitat fragmentation) (IPCC 2007, pp. 8-14, 18-19). In our
analyses, we use our expert judgment to weigh relevant information,
including uncertainty, in our consideration of various aspects of
climate change.
[[Page 26636]]
According to IPCC, ``most plant species cannot naturally shift
their geographical ranges sufficiently fast to keep up with current and
high projected rates of climate change on most landscapes'' (IPCC 2014,
p. 13). Plant species with restricted ranges may experience population
declines as a result of the effects of climate change. The concept of
changing climate can be meaningfully assessed both by looking into the
future and reviewing past changes. A review of Wyoming climate since
1895 indicates that there has been a significant increase in the
frequency of warmer-than-normal years, an increase in temperatures
throughout all regions of the State, and a decline in the frequency of
``wet'' winters (Shumann 2011). Data from the Cheyenne area over the
past 30 years indicate a rise in spring temperatures (Heidel et al.
2016). The current climate in Colorado butterfly plant habitat is quite
variable, with annual precipitation ranging from 25-50 cm (10-20 in) of
rain and 81-275 cm (32-108 in) of snow per year near the center of the
species' range at Cheyenne Municipal Airport (NOAA 2016, entire). The
years 2000 through 2006 appeared to have lower than average
precipitation (NOAA 2016, entire), which may have affected the ability
of plants to withstand flea beetle outbreak in 2007 (Heidel et al.
2011, p. 286). The Colorado butterfly plant is semelparous (individual
plants are first vegetative, then flower and fruit, and then die).
Therefore, individuals are likely capable of remaining in a vegetative
state under some conditions and duration until suitable flowering
conditions exist, suggesting that the species is adapted to variability
in the amount and timing of precipitation.
Climate change may affect the timing and amount of precipitation as
well as other factors linked to habitat conditions for the Colorado
butterfly plant. For example, climate models predict that by 2050,
watersheds containing the species will become warmer for all four
seasons, precipitation will increase in the winter, and remain about
the same in spring, summer, and fall (USGS 2016, pp. 1-3). Snow water
equivalent will decrease in winter and spring, and soil water storage
will decrease in all four seasons (USGS 2016, pp. 4-5). Modeling
predicts an increase in winter precipitation, but decreases in soil
water storage will mean less water for subirrigation of the species'
habitat. This may mean a shorter window for seed germination, lower
seed production, and potentially increased years at the rosette stage
to obtain sufficient resources to bolt and flower. However, we also
understand that C3 plants (plants which combine water,
sugar, and carbon dioxide in carbon fixation), including this species,
have a 41 percent proportional increase in growth resulting from a 100
percent increase in carbon dioxide (Poorter 1993, p. 77). This increase
in growth rate due to higher carbon dioxide may counteract the need to
spend more time in the vegetative portion of the life cycle in response
to climate change. Additionally, monitoring indicates that populations
are able to withstand several consecutive years of poor growing
conditions, and still rebound with suitable conditions (USFWS 2012, pp.
11-22; USFWS 2016c, entire). Climate change has the potential to affect
the species and its habitat if flea beetle outbreaks are fostered or if
flowering levels are suppressed. Although we lack scientific certainty
regarding what those changes may ultimately mean for the species, we
expect that the species' current adaptations to cope with climate
variability will mitigate the impact on population persistence.
Summary of Factor E
Under this factor, we discussed the Colorado butterfly plant's
small population size and restricted range, herbicide spraying, and
climate change.
In 2000, when we listed the species, the stochastic extirpation of
individual populations suggested that the range of the species might be
declining. Despite the fact that some populations in Colorado, Wyoming,
and Nebraska were extirpated prior to listing, and others in Nebraska
were extirpated after listing, four additional populations have been
discovered, two of which are protected, and there are still
representative and redundant populations occurring throughout the range
of the species. Further, individuals and populations are resilient to a
single herbicide application, and have been shown to survive or bounce
back from such events. Education of landowners has greatly reduced the
indiscriminate application of herbicides near populations of the
Colorado butterfly plant. Finally, while climate change presents a
largely unknown potential stressor to the species, individual plants
are capable of deferring the reproductive stage until suitable
conditions are available, populations are made up of individuals found
in a range of microhabitats, and populations are located within various
ecological settings within the species' range. This indicates that the
resiliency, redundancy, and representation of populations will maintain
the species in the face of climate change.
Combination of Factors
Many of the stressors discussed in this analysis could work in
concert with each other and result in a cumulative adverse effect to
the Colorado butterfly plant, e.g., one stressor may make the species
more vulnerable to other threats. For example, stressors discussed
under Factor A that individually do not rise to the level of a threat
could together result in habitat loss. Similarly, small population size
and a restricted range in combination with stressors discussed under
Factor A could present a potential concern. However, most of the
potential stressors we identified either have not occurred to the
extent originally anticipated at the time of listing or are adequately
managed as described in this proposal to delist the species.
Furthermore, those stressors that are evident, such as climate change
and grazing, appear well-tolerated by the species. In addition, for the
reasons discussed in this proposed rule, we do not anticipate stressors
to increase on lands that afford protections to the species (Warren AFB
and CFCNAD lands) where many of the largest populations occur.
Furthermore, the increases documented in the number and size of many
populations since the species was listed do not indicate that
cumulative effects of various activities and stressors are affecting
the viability of the species at this time or into the future.
Proposed Determination of Species 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 is an endangered species or threatened
species and should be included on the Federal Lists of Endangered and
Threatened Wildlife and Plants (listed). The Act defines an endangered
species as any species that is ``in danger of extinction throughout all
or a significant portion of its range'' and a threatened species as any
species that is ``likely to become an endangered species within the
foreseeable future throughout all or a significant portion of its
range.'' We may delist a species according to 50 CFR 424.11(d) if the
best available scientific and commercial data indicate that the species
is neither endangered or threatened for the following reasons: (1) The
species is extinct; (2) the species has recovered and is no longer
endangered or threatened; and/or (3) the original scientific data used
at the time the species was classified were in error.
[[Page 26637]]
Determination of Status Throughout All of the Colorado Butterfly
Plant's Range
We have carefully assessed the best scientific and commercial
information available regarding the past, present, and future threats
to the Colorado butterfly plant. We examined the status of the species
based on the 2010 Colorado butterfly plant recovery outline (USFWS
2010, entire). We also consulted with species experts and land
management staff with Fort Collins and Warren AFB who are actively
managing for the conservation of the Colorado butterfly plant.
The 2010 Colorado butterfly plant recovery outline presented a
recovery vision for the species in which the primary focus was
protection of existing populations, threats abatement, and research
(USFWS 2010, entire). The initial action plan focused on protection of
existing populations through partnerships with Warren AFB, Fort
Collins, and private landowners, followed by developing a recovery plan
that would contain objective, measurable recovery criteria which, when
met, would indicate that the species could be removed from the Federal
List of Endangered and Threatened Plants. In 2016, the Service's
Wyoming Ecological Services Field Office began development of a
recovery plan for the Colorado butterfly plant. In reviewing
information regarding population numbers and trends, as well as
threats, it appeared that most monitored extant populations were doing
well. Threats named at the time of listing were either affecting the
species at low levels, likely due to management actions to recover the
species, or not affecting the species at all, as was observed in
preparing the 2012 5-year status review (USFWS 2012, entire).
Therefore, the Service conducted an assessment of the status of the
species and whether it should remain on the List of Endangered and
Threatened Plants under the Act.
We carefully assessed the best scientific and commercial
information available regarding the past, present, and future threats
to the Colorado butterfly plant. We considered all of the stressors
identified at the time of listing in 2000, as well as newly identified
potential stressors such as oil and gas energy development and the
effects of climate change. The stressors considered in our five-factor
analysis (discussed in detail above under Summary of Factors Affecting
the Species) fall into one or more of the following categories:
Minimized or mitigated: The following stressors are
adequately managed, and existing information indicates that this will
not change in the future: Residential, urban, and energy development;
agricultural practices; water management; overutilization; and
herbicide spraying.
Avoided: The following stressor has not occurred to the
extent anticipated at the time of listing, and existing information
indicates that this will not change in the future: Restricted range.
Tolerated: The species is tolerant of the following
stressors, and existing information indicates that this will not change
in the future: Natural succession and competition with nonnative,
invasive species; disease and predation; and climate change.
These conclusions are supported by the available information
regarding the species' abundance, distribution, and trends, and are in
agreement with conclusions presented in our 2010 recovery outline
(USFWS 2010, entire) and in our 5-year review (USFWS 2012, entire).
Thus, after assessing the best available information, we conclude that
the Colorado butterfly plant is not in danger of extinction, nor is it
likely to become so in the foreseeable future.
Determination of Status Throughout a Significant Portion of the
Colorado Butterfly Plant's Range
Under the Act and our implementing regulations, a species may
warrant listing if it is an endangered or a threatened species
throughout all or a significant portion of its range. The Act defines
``endangered species'' as any species which is ``in danger of
extinction throughout all or a significant portion of its range,'' and
``threatened species'' as any species which is ``likely to become an
endangered species within the foreseeable future throughout all or a
significant portion of its range.'' The term ``species'' includes ``any
subspecies of fish or wildlife or plants, and any distinct population
segment [DPS] of any species of vertebrate fish or wildlife which
interbreeds when mature.'' We published a final policy interpretating
the phrase ``Significant Portion of its Range'' (SPR) (79 FR 37578).
The final policy states that (1) if a species is found to be an
endangered or a threatened species throughout a significant portion of
its range, the entire species is listed as an endangered or a
threatened species, respectively, and the Act's protections apply to
all individuals of the species wherever found; (2) a portion of the
range of a species is ``significant'' if the species is not currently
an endangered or a threatened species throughout all of its range, but
the portion's contribution to the viability of the species is so
important that, without the members in that portion, the species would
be in danger of extinction, or likely to become so in the foreseeable
future, throughout all of its range; (3) the range of a species is
considered to be the general geographical area within which that
species can be found at the time FWS or NMFS makes any particular
status determination; and (4) if a vertebrate species is an endangered
or a threatened species throughout an SPR, and the population in that
significant portion is a valid DPS, we will list the DPS rather than
the entire taxonomic species or subspecies.
The SPR policy is applied to all status determinations, including
analyses for the purposes of making listing, delisting, and
reclassification determinations. The procedure for analyzing whether
any portion is an SPR is similar, regardless of the type of status
determination we are making. The first step in our analysis of the
status of a species is to determine its status throughout all of its
range. If we determine that the species is in danger of extinction, or
likely to become so in the foreseeable future, throughout all of its
range, we list the species as an endangered (or threatened) species and
no SPR analysis will be required. If the species is neither an
endangered nor a threatened species throughout all of its range, we
determine whether the species is an endangered or a threatened species
throughout a significant portion of its range. If it is, we list the
species as an endangered or a threatened species, respectively; if it
is not, we conclude that listing the species is not warranted.
When we conduct an SPR analysis, we first identify any portions of
the species' range that warrant further consideration. The range of a
species can theoretically be divided into portions in an infinite
number of ways. However, there is no purpose to analyzing portions of
the range that are not reasonably likely to be significant and either
an endangered or a threatened species. To identify only those portions
that warrant further consideration, we determine whether there is
substantial information indicating that (1) the portions may be
significant and (2) the species may be in danger of extinction in those
portions or likely to become so within the foreseeable future. We
emphasize that answering these questions in the affirmative is not a
determination that the species is an endangered or a threatened species
throughout a significant portion of its range--rather, it is a step in
determining whether a more detailed analysis of the issue is
[[Page 26638]]
required. In practice, a key part of this analysis is whether the
threats are geographically concentrated in some way. If the threats to
the species are affecting it uniformly throughout its range, no portion
is likely to warrant further consideration. Moreover, if any
concentration of threats apply only to portions of the range that
clearly do not meet the biologically based definition of
``significant'' (i.e., the loss of that portion clearly would not be
expected to increase the vulnerability to extinction of the entire
species), those portions will not warrant further consideration.
If we identify any portions that may be both (1) significant and
(2) endangered or threatened, we engage in a more detailed analysis to
determine whether these standards are indeed met. The identification of
an SPR does not create a presumption, prejudgment, or other
determination as to whether the species in that identified SPR is an
endangered or a threatened species. We must go through a separate
analysis to determine whether the species is an endangered or a
threatened species in the SPR. To determine whether a species is an
endangered or a threatened species throughout an SPR, we will use the
same standards and methodology that we use to determine if a species is
an endangered or a threatened species throughout its range.
Depending on the biology of the species, its range, and the threats
it faces, it may be more efficient to address the ``significant''
question first, or the status question first. Thus, if we determine
that a portion of the range is not ``significant,'' we do not need to
determine whether the species is an endangered or a threatened species
there; if we determine that the species is not an endangered or a
threatened species in a portion of its range, we do not need to
determine if that portion is ``significant.''
We evaluated the range of the Colorado butterfly plant to determine
if any area could be considered a significant portion of its range. The
only portion of the range where threats are geographically concentrated
are the three populations in Nebraska. Grazing and water management,
particularly the dewatering of Lodgepole Creek downstream of the
Wyoming/Nebraska border in the three populations in Nebraska, has
proven to impact populations in that portion of the species' range.
This stressor has affected these populations to a level that the
populations were presumed extirpated at the time we designated critical
habitat for this species (70 FR 1940; January 11, 2005). However, after
water was reintroduced to the creek by a landowner, Colorado butterfly
plants were again observed in Lodgepole Creek (Wooten 2008, p. 4). It
is possible that the species only occurs in this portion of its range
during times of adequate subirrigation and surface flows, and that
seeds either remain dormant at this location for several years or are
transported from neighboring populations located upstream on Lodgepole
Creek in Wyoming. Nevertheless, the removal of water from Lodgepole
Creek impacts populations of the Colorado butterfly plant within this
portion of the species' range.
Because we identified an area on the periphery of the species'
current range as warranting further consideration due to the geographic
concentration of threats from water management, we then evaluated
whether this area may be significant to the Colorado butterfly plant
such that, without the members in that portion, the entire species
would be in danger of extinction, or likely to become so in the
foreseeable future, throughout all of its range. We can accomplish this
by considering the viability of the remainder of the range without the
portion and the biological or conservation importance of the portion.
The viability of the remainder of the range, should the three
populations in Nebraska be lost, will remain high: All of the highly
and moderately resilient populations occur in the remainder of the
range, which is comprised of more than 20 populations distributed
through a geographically connected area, and which contains all of the
ecological settings this species is known to inhabit.
Additionally, to determine significance of this threatened portion
of the range, we examined its contribution to the species' viability in
terms of its resiliency, redundancy, and representation. Regarding
redundancy, the populations within this portion of the range occur on
the eastern extreme of the historical range of the species and
represent a very small component of the total distribution of the
species, occurring downstream of several highly viable populations.
Therefore, these populations do not substantially increase redundancy
at the species level. Regarding resiliency, individual plants in this
portion of the range may be resilient to dewatering or other stressors,
but populations contain few individuals and are, therefore, threatened
by stochastic events. Regarding representation, we understand that
there may be connectivity among the populations occurring in Nebraska
and the populations upstream on Lodgepole Creek in Wyoming. However,
this connectivity is likely only through limited pollinator movement
among the few flowering plants at any location, and through seed
dispersal downstream from Wyoming to Nebraska, considering the distance
is too great (>1 km/0.6 mi) for most pollinators to travel (Heidel
2016, pers. comm.). Consequently, the populations in Nebraska are
likely not contributing any genetic information upstream. We do not
have genetic information on these populations, but we understand that
the populations in this portion of the species' range do not occupy
unique ecological settings, have unique morphology, or have differing
phenology than other populations of the species on Lodgepole Creek or
in the rest of the species' range.
After careful examination of the Colorado butterfly plant
population in the context of our definition of ``significant portion of
its range,'' we determine an area on the periphery of the range
warranted further consideration because threats are geographically
concentrated there. After identifying this area, we evaluate whether it
is significant and determine that it is not significant because, even
without Colorado butterfly plants in this area, the species would not
be in danger of extinction, or likely to become so in the foreseeable
future. This is because the remainder of the species is characterized
by high levels of resiliency, redundancy, and representation; the
remainder of the species contains all of the highly and moderately
resilient populations (high resiliency), is comprised of more than 20
populations distributed through a geographically connected area (high
redundancy), and includes all of the ecological settings this species
is known to inhabit (high representation). Therefore, we did not need
to determine if the species is in danger of extinction or likely to
become so in the foreseeable future in this peripheral area in
Nebraska.
Determination of Status for the Colorado Butterfly Plant
We have carefully assessed the best scientific and commercial
information available regarding the past, present, and future threats
to the Colorado butterfly plant. The threats that led to the species
being listed under the Act (primarily loss of the species' habitat
(Factor A) and small population size, restricted range, and herbicide
spraying (Factor E)) have not occurred to the extent anticipated at the
time of listing, or are being appropriately managed by the actions of
multiple conservation partners over the past 18 years. These actions
include habitat management,
[[Page 26639]]
monitoring, and research. Given commitments shown by private
landowners, local governments, cooperating agencies, and other partners
as discussed under Factor D, we expect conservation efforts will
continue to support a healthy, viable population of the species post-
delisting and into the foreseeable future. Furthermore, there is no
information to conclude that at any time over the next 20 years (as we
define the foreseeable future for this species) the species will be in
danger of extinction. Because the species is not in danger of
extinction now or within the foreseeable future throughout all or any
significant portion of its range, the species does not meet the
definition of an endangered species or threatened species. We therefore
propose to remove the Colorado butterfly plant from the Federal List of
Endangered and Threatened Wildlife at 50 CFR 17.11(h) due to recovery.
Because the species is neither in danger of extinction now nor likely
to become so in the foreseeable future throughout all or any
significant portion of its range, the species does not meet the
definition of an endangered species or a threatened species under the
Act.
Effects of the Rule
This proposal, if made final, would revise 50 CFR 17.12(h) to
remove the Colorado butterfly plant from the Federal List of Endangered
and Threatened Plants. The prohibitions and conservation measures
provided by the Act, particularly through sections 7 and 9, would no
longer apply to this species. Federal agencies would no longer be
required to consult with the Service under section 7 of the Act in the
event that activities they authorize, fund, or carry out may affect the
Colorado butterfly plant or its designated critical habitat. This
proposal, if made final, would also remove the designation of critical
habitat for the Colorado butterfly plant in Wyoming (codified at 50 CFR
17.96(a)).
Post-Delisting Monitoring
Section 4(g)(1) of the Act requires us, in cooperation with the
States, to implement a monitoring program for not less than 5 years for
all species that have been delisted due to recovery. The purpose of
this requirement is to develop a program that detects the failure of
any delisted species to sustain itself without the protective measures
provided by the Act. If, at any time during the monitoring period, data
indicate that protective status under the Act should be reinstated, we
can initiate listing procedures, including, if appropriate, emergency
listing.
We are proposing delisting for the Colorado butterfly plant based
on recovery actions taken and new information we have received. Since
delisting would be due in part to recovery actions taken by Warren AFB,
Fort Collins, and BLM, we have prepared a draft post-delisting
monitoring plan for the Colorado butterfly plant. The plan has been
developed with input from these and other partners.
It is our intent to work with our partners towards maintaining the
recovered status of the Colorado butterfly plant. While not required,
we intend to seek peer review comments on the draft post-delisting
monitoring plan (PDM plan), including its objectives and procedures. A
copy of the draft PDM plan is available at http://www.regulations.gov
under Docket No. FWS-R6-ES-2018-0008. You can submit your comments on
the draft PDM plan by one of the methods listed above under ADDRESSES.
Required Determinations
Clarity of This 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
We have determined that environmental assessments and environmental
impact statements, as defined under the authority of the National
Environmental Policy Act of 1969 (42 U.S.C. 4321 et seq.), need not be
prepared in connection with regulations pursuant to section 4(a) of the
Act. We published a notice outlining our reasons for this determination
in the Federal Register on October 25, 1983 (48 FR 49244).
Government-to-Government Relationship With Tribes
In accordance with the President's memorandum of April 29, 1994,
Government-to-Government Relations with Native American Tribal
Governments (59 FR 22951), E.O. 13175, 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. We have determined that no Tribes will
be affected by this rule.
References Cited
A complete list of all references cited in this proposed rule is
available at http://www.regulations.gov at Docket No. FWS-R6-ES-2018-
0008, or upon request from the Wyoming Ecological Services Field Office
(see ADDRESSES).
Authors
The primary authors of this proposed rule are staff members of the
Wyoming 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 hereby 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. 17.12 [Amended]
0
2. Amend Sec. 17.12(h) by removing the entry ``Gaura neomexicana ssp.
coloradensis'' under ``FLOWERING PLANTS'' from the List of Endangered
and Threatened Plants.
[[Page 26640]]
Sec. 17.96 [Amended]
0
3. Amend Sec. 17.96(a) by removing the entry ``Family Onagraceae:
Gaura neomexicana ssp. coloradensis (Colorado butterfly plant)''.
Dated: May 15, 2018.
James W. Kurth,
Deputy Director, U.S. Fish and Wildlife Service, Exercising the
Authority of the Director, for the U.S. Fish and Wildlife Service.
[FR Doc. 2018-12409 Filed 6-7-18; 8:45 am]
BILLING CODE 4333-15-P