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Daily Rules, Proposed Rules, and Notices of the Federal Government

DEPARTMENT OF THE INTERIOR

Fish and Wildlife Service

50 CFR Part 17

[Docket No. FWS-R8-ES-2010-0077; 4500030113]

Endangered and Threatened Wildlife and Plants; 12-Month Finding on a Petition To List Spring Mountains Acastus Checkerspot Butterfly as an Endangered or Threatened Species

AGENCY: Fish and Wildlife Service, Interior.
ACTION: Notice of 12-month petition finding.
SUMMARY: We, the U.S. Fish and Wildlife Service (Service), announce a 12-month finding on a petition to list the Spring Mountains acastus checkerspot butterfly (Chlosyne acastus robusta) as an endangered species under the Endangered Species Act of 1973, as amended (Act). After review of the best available scientific and commercial information, we find that listing the Spring Mountains acastus checkerspot butterfly is not warranted at this time. However, we ask the public to submit to us any new information that becomes available concerning the threats to the Spring Mountains acastus checkerspot butterfly or its habitat at any time.
DATES: The finding announced in this document was made on September 27, 2012.
ADDRESSES: This finding is available on the internet athttp://www.regulations.govat Docket Number FWS-R8-ES-2010-0077. Supporting documentation we used in preparing this finding is available for public inspection, by appointment, during normal business hours at the U.S. Fish and Wildlife Service, Nevada Fish and Wildlife Office, 4701 North Torrey Pines Drive, Las Vegas, NV 89130. Please submit any new information, materials, comments, or questions concerning this finding to the above street address.
FOR FURTHER INFORMATION CONTACT: Edward D. Koch, Field Supervisor, Nevada Fish and Wildlife Office (seeADDRESSES); by telephone at 775-861-6300; or by facsimile at 775-861-6301. If you use a telecommunications device for the deaf (TDD), please call the Federal Information Relay Service (FIRS) at 800-877-8339.
SUPPLEMENTARY INFORMATION:

Background

Section 4(b)(3)(B) of the Act (16 U.S.C. 1531et seq.) requires that, for any petition to revise the Federal Lists of Threatened and Endangered Wildlife and Plants that contains substantial scientific or commercial information that listing a species may be warranted, we make a finding within 12 months of the date of receipt of the petition. In this finding we will determine that the petitioned action is: (1) Not warranted; (2) warranted; or (3) warranted, but the immediate proposal of a regulation implementing the petitioned action is precluded by other pending proposals to determine whether species are an endangered or threatened species, and expeditious progress is being made to add or remove qualified species from the Federal Lists of Endangered and Threatened Wildlife and Plants. Section 4(b)(3)(C) of the Act requires that we treat a petition for which the requested action is found to be warranted but precluded as though resubmitted on the date of such finding, that is, requiring a subsequent finding to be made within 12 months. We must publish these 12-month findings in theFederal Register.

Previous Federal Actions

On September 18, 2009, we received a petition dated September 16, 2009, from Bruce M. Boyd requesting that the Spring Mountains acastus checkerspot butterfly (Chlosyne acastus robusta) be listed as an endangered species under the Act. Included in the petition was information regarding the species' taxonomy, historical and current distribution, present status, and potential causes of decline. We acknowledged the receipt of the petition in a letter to Bruce M. Boyd, dated November 24, 2009. In that letter, we responded that we had reviewed the information presented in the petition and determined that issuing an emergency regulation temporarily listing the butterfly under section 4(b)(7) of the Act was not warranted (Service 2009, p. 1). We also stated that funding was secured and that we anticipated making an initial finding in fiscal year 2010 as to whether the petition contained substantial information indicating that the action may be warranted. On April 13, 2011, we published a 90-day petition finding (76 FR 20613) in which we concluded that the petition and information in our files provided substantial information indicating that listing the Spring Mountains acastus checkerspot butterfly may be warranted, and we initiated a status review. This notice constitutes the 12-month finding on the September 16, 2009, petition to list the Spring Mountains acastus checkerspot butterfly.

Taxonomy and Subspecies Description

William Henry Edwards (1874, pp. 16-17) provided the first descriptions of the sagebrush checkerspot butterfly (Chlosyne acastus(=Melitaea acastus)) from specimens collected during the Hayden expedition of 1871, Wheeler expedition of 1872, and by Henry Edwards, Esq. (Brown 1966, pp. 402-405). Specimens collected earlier by Edwards and namedMelitaea sterope(Edwards 1870, pp. 190-191) were considered a subspecies of northern checkerspot butterfly (Chlosyne palla), but were subsequently considered conspecific with sagebrush checkerspot butterflies (Pelham 2008, p. 379). Other synonyms of the generaChlosyneused with the speciesacastushave includedCharidryasandLemonias(Dyar 1903, pp. 17-18; Opler and Warren 2003, pp. 35-36; Pelham 2008, pp. 379-380).

Since Edwards' first descriptions of the species in 1870 and 1874, nine subspecies of sagebrush checkerspot butterfly have been named and are listed by Pelham in “A catalogue of the butterflies of the United States and Canada with a complete bibliography of the descriptive and systematic literature” published in volume 40 of the Journal of Research on the Lepidoptera (2008, pp. 379-380). The common names, acastus and sagebrush checkerspot butterflies, have been used interchangeably in the literature for species and subspecies; however, throughout this finding sagebrush checkerspot butterfly will be used to reference the species (Chlosyne acastus) and acastus checkerspot butterfly will be used to reference the subspecies (C. a. acastus). The other subspecies in the 2008 Pelham catalogue include: no common name (C. a. arkanyon); Dorothy's checkerspot butterfly (C. a. dorothyi); Neumoegen's checkerspot butterfly (C. a. neumoegeni); Spring Mountains acastus checkerspot butterfly (C. a. robusta); Sabina checkerspot butterfly (C. a . sabina); no common name (C. a. sterope); Death Valley checkerspot butterfly (C. a. vallismortis); and no common name (C. a. waucoba) (Bauer 1975, pp. 157-158; Garth and Tilden 1986, p. 82; Davenport 2004, p. 15; Pelham 2008, pp. 379-380).

Large expanses of desert geographically separate the Spring Mountains acastus checkerspot butterfly from all other sagebrush checkerspot butterfly populations and subspecies, with the exception of Neumoegen's checkerspot butterflies, which have a range that is adjacent to the Spring Mountains acastus checkerspot butterfly (Austin 1998, p. 577). Biologically, the Spring Mountains acastus checkerspot butterfly is largely separated from the Neumoegen's checkerspot butterfly by different flight periods with only a brief period of potential overlap. Neumoegen's checkerspot butterflies have previously been considered a distinct species (Ehrlich and Ehrlich 1961, p. 135; dos Passos 1969, p. 118; Bauer 1975, p. 158; Austin and Austin 1980, p. 40). In addition to a later flight period, Neumoegen's checkerspot butterflies use different larval host plants than Spring Mountains acastus checkerspot butterflies (Austin and Leary 2008, p. 102). While this may currently assist with classifications (Ackery 1988, pp. 95-203), the use of larval host plants to identify butterflies to the species or subspecies level may not be conclusive because host plant relationships may be evolutionarily dynamic, meaning that host plant use may change during the evolutionary process (Wahlberg 2001, p. 530). Details of Spring Mountains acastus checkerspot butterfly's biology and life history are provided below.

Subspecies of adult sagebrush checkerspot butterflies have similar morphological characteristics. The wingspan of adult sagebrush checkerspot butterfly species may range from 1.2-1.5 inches (in) (3.0-3.8 centimeters (cm)) (Opler 1999, p. 299). The upperside of the wing is a spider-web-like pattern of orange and black (Layberryet al.1998, p. 187). The hindwing underside has bands of mostly creamy white and orange-red spots (Layberryet al.1998, p. 187) with dark margins. The forewing underside is primarily orange. In addition, male and female sagebrush checkerspot butterflies are similar in appearance (Layberryet al.1998, p. 187). While there are similarities amongst the subspecies of sagebrush checkerspot butterflies, there are subtle variations, which were described by Austin 1998 (p. 577), that distinguish the Spring Mountains acastus checkerspot butterfly from other nearby subspecies.

In his description of the adult Spring Mountains acastus checkerspot butterfly, Austin 1998 (p. 577) compares it to the acastus checkerspot butterfly, Death Valley checkerspot butterfly, and the Neumoegen's checkerspot butterfly. Compared to the acastus checkerspot butterfly, the Spring Mountains acastus checkerspot butterfly is described as being larger in size, having a more orange than yellow aspect, and having broader black marks and less basal black on the upperside of the hindwing (Austin 1998, p. 577). The Spring Mountains acastus checkerspot butterfly has less contrast than the acastus checkerspot butterfly between the darker and paler orange areas on both surfaces, especially for females (Austin 1998, p. 577). In addition, the Spring Mountains acastus checkerspot butterfly is described as having a deeper yellow in the pale areas on the underside of the hindwing than the acastus checkerspot butterfly (Austin 1998, p. 577).

Compared to the Death Valley checkerspot butterfly, the Spring Mountains acastus checkerspot butterfly is larger and deeper orange with less contrast (Austin 1998, p. 577). The Death Valley checkerspot butterfly is yellowish-orange with narrower black markings than the Spring Mountains acastus checkerspot butterfly (Austin 1998, p. 577). The underside of the Spring Mountains acastus checkerspot butterfly has a heavier black pattern towards the outside edge of the wings and has a more orange color, which appears more washed out (Austin 1998, p. 577). In addition, the lines of checkerspot pattern on the underside near the base of the hindwing are thicker in the Spring Mountains acastus checkerspot butterfly than the Death Valley checkerspot butterfly (Austin 1998, p. 577).

Compared to the Spring Mountains acastus checkerspot butterfly, the Neumoegen's checkerspot butterfly is paler orange with narrower or inconspicuous to absent black lines that run across the wing (Austin 1998, p. 577). In addition the Neumoegen's checkerspot butterfly has more brilliant pale white areas on the underside of the hindwing than the deeper yellow of the Spring Mountains acastus checkerspot butterfly (Austin 1998, p. 577).

The similarities in appearance among and between species of checkerspot butterflies (for example,Chlosyne acastus, C. gabbii, C. palla, and C. whitneyi) have led to challenges in distinguishing species and subspecies (Higgins 1960, pp. 395, 421, 426; Ehrlich and Ehrlich 1961, p. 132; Ferris and Brown 1981, pp. 325-326; Scott 1986, pp. 305-307). In addition, there have been specific conflicting taxonomic views about the sagebrush checkerspot butterflies in the Spring Mountains (Austin and Austin 1980, p. 40; Austin 1981, p. 71; Austin 1985, p. 108; Bauer 1975, pp. 155-156; Brittenet al.1993, p. 133; Emmelet al.1998, pp. 141-142; Higgins 1960, p. 428; Kons 2000, p. 532).

Austin recognized the Spring Mountains acastus checkerspot butterfly (Chlosyne acastus robusta) as a distinct subspecies based on differences in size and wing color characteristics (Austin 1998, pp. 576-577). Austin (1998, p. 576) notes that distinct phenotypes ofC. acastusare present in certain montanepopulations, which provide the context for the designation of subspecies. Another study used phylogenetic, morphological, distributional, and biological information to taxonomically evaluate the Spring Mountains acastus checkerspot butterfly (Kons 2000, p. 2). Kons (2000, pp. 549-555) did not recognize populations of sagebrush checkerspot butterflies in the Spring Mountains as a subspecies due to the similarity of the characters he examined and compared between sagebrush checkerspot butterflies and other checkerspot butterflies. However, there are differences in the geographic distribution or continuity and biological characteristics between the sagebrush checkerspot butterfly population in the Spring Mountains and populations elsewhere that support Austin's (1998, pp. 576-577) designation of the Spring Mountains acastus checkerspot butterfly as a subspecies.

Even though there is conflicting information on the taxonomic designation of the Spring Mountains acastus checkerspot butterfly, Austin (1998, p. 576) is cited as the reference for the subspecies level taxonomic designation for the Spring Mountains acastus checkerspot butterfly in the Integrated Taxonomic Information System (ITIS). The ITIS is hosted by the United States Geological Survey (USGS) Center for Biological Informatics (CBI) and is the result of a partnership of Federal agencies formed to satisfy their mutual needs for scientifically credible taxonomic information. ITIS recognizes the Spring Mountains acastus checkerspot butterfly as a valid subspecies (Retrieved June 18, 2012, from the Integrated Taxonomic Information System on-line database,http://www.itis.gov). Based upon the best available information, populations of sagebrush checkerspot butterflies in the Spring Mountains are considered a valid subspecies and are, thus, a valid taxonomic entity for consideration for listing under the Act.

Distribution

The Spring Mountains acastus checkerspot butterfly is known only from the Spring Mountains in Clark and Nye Counties, Nevada (Austin 1998, p. 577), at elevations ranging from minimums near 1,800 meters (m) (5,900 feet (ft)) to maximums of 2,700 m (8,900 ft) (Weisset al.1997, p. 17). The majority of observations and habitat for the Spring Mountains acastus checkerspot butterfly occur within the Spring Mountains National Recreation Area (SMNRA), which is managed by the U.S. Department of Agriculture's Forest Service (Forest Service), Humboldt-Toiyabe National Forest. However, one colony occurs on private property bordered by Forest Service-managed lands, and an incidental observation at another location was documented on lands managed by the U.S. Department of the Interior, Bureau of Land Management.

The Spring Mountains acastus checkerspot butterfly occurs throughout the Spring Mountains and has been observed in 17 areas (Table 1). However, the number of occupied areas reported in past studies varies (12 occupied areas were reported in Boyd and Austin 1999, p. 20) based on how observations are spatially grouped. Four of these areas (Trough Spring, Kyle Canyon, Griffith Peak Trail/Harris Spring Road/Harris Mountain Road, and Potosi Mountain/Mt. Potosi/Boy Scout Camp) are referred to interchangeably as colonies or population sites (Boyd and Austin 1999, pp. 9, 20-21; Boyd and Austin 2002, pp. 5, 13; Boyd 2004, pp. 2-3). Colonies are isolated populations (Scott 1986, p. 108) based on mate-locating behavior (Boyd and Austin 2002, p. 5; Boyd 2009, p. 1) of one or more males observed over a period of time, and they represent more than one incidental observation or sighting. Researchers define colonies of Spring Mountains acastus checkerspot butterflies based on the mate-locating behavior of males, also referred to as mate-locating sites (Boyd and Austin 2002, p. 5; Boyd 2009, p. 1). Currently, only four colonies are known to exist. The remaining 13 areas are referred to as incidental observations or sighting areas (Boyd and Austin 2001, p. 2; Boyd and Austin 2002, p. 3; Boyd 2004, p. 3), where intermittent observations of a few butterflies were recorded at a location. Observations at incidental sighting areas, and the potential for subsequent dispersal of individuals, may indicate the presence of additional unknown colonies (Boyd and Austin 1999, pp. 60-61; Boydet al.2000, p. 10). The areas where the Spring Mountains acastus checkerspot butterfly has been observed in a colony or sighting area represent the overall known population of the subspecies (Table 1).

Table 1—Areas Where Spring Mountains Acastus Checkerspot Butterfly Observations Have Been Documented [Areas ordered from north to south] Observation area First year
  • observed
  • Mt. Stirling 1983. Big Timber Spring 1995 or before. Wheeler Pass Road 1987. Trough Spring* 2001. McFarland Spring/Whisky Spring/Camp Bonanza 2003. Willow Spring/Willow Creek 1979. Clark Canyon 1994. Foxtail Canyon 1998. Deer Creek and picnic area 1965. Deer Creek Road (Telephone Canyon side) 1981 or 1987. Kyle Canyon—lower 1996 or before. Kyle Canyon—middle* 1950. Kyle Canyon—upper 1987. Griffith Peak Trail/Harris Spring Road/Harris Mountain Road * 1990. Coal Spring 1992. Switchback Spring 2003. Potosi Mountain/Mt. Potosi/Boy Scout Camp * 1995. * Colony. Sources: Weiss et al.1995, pp. 4, 19; Weisset al.1997, pp. 6-7, 47; Boyd and Austin 1999, pp. 19-21; Boyd 2004, pp. 2-3; Nevada Natural Heritage Program 2009.
    Status and Trends

    Weisset al.(1997, p. 2) indicated that butterfly populations are highly dynamic, and butterfly distributions can be highly variable from year to year. Butterflies may be restricted to moist and cool habitats during dry, warm periods, potentially expanding their distribution during periods marked by cooler and moister conditions (Weisset al.1997, pp. 2-3). Sagebrush checkerspot butterfly populations may undergo extreme fluctuations as a result of rainfall, parasitism, and other factors (Stout 2011,http://www.raisingbutterflies.org). Some subspecies, such as the Spring Mountains acastus checkerspot butterfly, may exist as a metapopulation (“local populations which interact via individuals moving among populations”) (Hanski and Gilpin 1991, p. 7) within the Spring Mountains (Weisset al.1997, p. 3). If this is the case, maintenance of dispersal corridors and unoccupied habitats is an important management consideration (Weisset al.1997, p. 3).

    Determining the status of adults at a colony requires multiple visits during appropriate flight conditions and frequently enough to intercept a potentially short flight period. For example, in 1977, Austin and Austin (1980, p. 40) reported visits to the same area of Kyle Canyon in which the Spring Mountains acastus checkerspot butterflywas observed on 2, 5, and 7 July, but not on 17 or 30 June and 15 July. Thus, this flight period may have been less than 2 weeks. In contrast, they reported that, in 1965, the flight period lasted over a 5-week period. While these observations may indicate a variable flight period, it is also possible that the perceived flight period may vary as a result of a dynamic interrelationship between search effort and abundance. In addition, assessments of population status and trends based on counts of particular life stages may be complicated by irregular life-history phenomena, such as an extended diapause (a period of dormancy, commonly induced by seasonal change in photoperiod (day length) or temperature) (Sands and New 2008, pp. 81-85). Unnecessary conservation concerns may arise as a result of irregular diapause that results in perceived changes in abundance (Sands and New 2008, pp. 81-85).

    The largest known colony of Spring Mountains acastus checkerspot butterfly occurs at Griffith Peak Trail/Harris Spring Road/Harris Mountain Road. This was first documented as a sighting area in 1990, and later described as a potential colony in 1999 (Boyd and Austin 1999, p. 20). The Trough Spring colony was first identified in 2001 (Boyd and Austin 2002, p. 5). Boyd (2004, p. 3) stated that a single male observed at Willow Spring/Willow Creek in 2003 may have dispersed from Trough Spring or another unknown colony, because there had been no sightings in the area since the 1980s. The Spring Mountains acastus checkerspot butterfly was first documented at Potosi Mountain/Mt. Potosi/Boy Scout Camp in 1995 (Weisset al.1995, p. 6), and was described as a colony for the first time in 2000 (Boydet al.2000, p. 4).

    DataSmiths (2007, p. 17) concluded that absence of adults at a site does not necessarily equate to ephemeral occupation or extirpation. Observations of the Spring Mountains acastus checkerspot butterfly illustrate this point. Boydet al.(2000, p. 4) searched 17 areas (8 historical and 9 potential sites) for the Spring Mountains acastus checkerspot butterfly in 1999. During the 1999 surveys, Spring Mountains acastus checkerspot butterflies were observed at five of the eight historical sites (including Kyle Canyon (middle) Colony Site), with two of these described as potential new colonies (Griffith Peak Trail/Harris Spring Road/Harris Mountain Road and Potosi Mountain/Mt. Potosi/Boy Scout Camp). During 2003 surveys, the Spring Mountains acastus checkerspot butterfly was observed again in the Willow Spring/Willow Creek area (Boyd 2004, pp. 2-3) where it had not been seen during surveys in 1999 (Boyd and Austin 1999, Table 7, p. 98). Similarly, in 2003, the Spring Mountains acastus checkerspot butterfly was observed in the McFarland Spring/Whisky Spring/Camp Bonanza area (Boyd 2004, p. 2), even though it had not been observed there during previous surveys in 1998 (Boyd and Austin 1999, Table 12). These examples demonstrate that a lack of observations at a site does not necessarily mean that a site is extirpated because adult surveys will not detect diapausing larvae, and short adult flight periods coupled with low numbers may drastically reduce the likelihood of observing Spring Mountains acastus checkerspot butterflies.

    Yearly population variation also is seen in the fluctuation in numbers of Spring Mountains acastus checkerspot butterflies observed during repeat surveys at the same locations (Table 2). Surveys from 2000 and 2001 at the Griffith Peak Trail/Harris Spring Road/Harris Mountain Road site found that the highest total number of individuals observed on a single day increased from 19 to 104. In 2003, the highest number observed on a single day at the same site decreased to 27. In a 2006 interview with Bruce Boyd regarding observations that year, Boyd reported that the Spring Mountains acastus checkerspot butterfly had “done better” than other endemic species and had “good numbers” at Griffith Peak Trail/Harris Spring Road/Harris Mountain Road, as well as at Potosi Mountain/Mt. Potosi/Boy Scout Camp (Boyd 2006, pers. comm.). At locations where the butterfly was observed in 2006, Boyd stated that it appeared to be in “appropriate” numbers (Boyd 2006, pers. comm.). These observations support the conclusions of Weisset al.(1997, p. 2) of highly dynamic butterfly populations where sightings may occur periodically throughout a species' range, and populations at colony sites may fluctuate.

    Table 2—Summary of Monitoring Results of Spring Mountains Acastus Checkerspot Butterfly at Three Colony Sites From 1998 Through 2011 Using Standardized Survey Methods Year 1998 1999 2000 2001 2002 2003 2006 2007 2008 2010 2011 Kyle Canyon (middle) Highest #/day 4-10 5 6 8 6 7 4 1 4 1 # Visits 16 11 9 6 4 4 1 6 8 6 Peak date(s) NR 6/19 6/15 & 6/30 6/18 6/24 6/10 6/21 6/13 & 6/21 6/24 6/13 Griffith Peak Trail/Harris Spring Road/Harris Mountain Road Highest #/day 19 104 50 27 2* 5 # Visits 9 5 5 4 3 Peak date 6/11 6/18 6/20 6/29 6/27 & 7/11 Trough Spring Highest #/day 20 41 1 # Visits 3 5 3 Peak date 6/18 6/1 6/10 Sources:(Boyd and Austin 1999, Table 8; Boyd 2004, p. 8; Jones and Stokes 2007a, p. 4; Jones and Stokes 2007b, p. 3; Kingsley 2008, p. 3, Service 2011a, pp. 1-3, Thompsonet al.2012, Table 2). NR = not reported. * = did not use a standardized survey method.

    Surveys were conducted in 2010 and 2011 for adult Spring Mountains acastus checkerspot butterflies using both standardized and non-standardized methods. In 2010, at the Griffith Peak Trail/Harris Spring Road/Harris Mountain Road colony site, there were a total of four butterflies observed during the season (two by Pinyon 2011, p. 19; and two by Service 2011a, pp. 1-3), and the highest number of butterflies observed on a single day was two (Service 2011a, pp. 1-3). Numbers appeared to increase in 2011 at this colony site with a total of 86 reported observations (59 by Pinyon 2011, p. 19; 4 by Service 2011a, pp. 1-3; 23 by Thompsonet al.2012, Table 2), and the highest number of butterflies observed on a single day was 13 (Pinyon 2011, p. 19). The 13 individuals observed by Pinyon in 2011 were not observed using a standardized method similar to Pollard and Yates (1993 cited in Boyd and Austin 1999, p. 33) and described by Boyd and Austin (1999, p. 33), and are, therefore, not reported in Table 2. Results of the standardized surveys performed by Thompsonet al.(2012, Table 2) at the other colony sites are shown in Table 2. Surveys for Spring Mountains acastus checkerspot butterfly were planned for 2012; however those data are not yet available.

    Habitat

    Sagebrush checkerspot butterfly habitat is described as dry washes in sagebrush-juniper woodland, oak or mixed conifer woodland, and streambeds (Opler 1999, p. 199). Elevations used by Spring Mountains acastus checkerspot butterfly coincide with the intergraded upper elevation of piñyon-juniper (Pinus monophylla- Juniperus osteosperma) communities at 1,250-2,500 m (4,100-8,200 ft) and the lower elevation white fir-ponderosa pine (Abies concolor- Pinus ponderosavar.scopulorum) communities at 2,000-2,530 m (6,560-8,300 ft) (Niles and Leary 2007, pp. 5-6). Open vegetation communities associated with previous fire disturbances appear to be the preferred habitat (Boyd and Austin 2002, p. 5).

    Biology Adults

    The flight season of the Spring Mountains acastus checkerspot butterfly is between mid-May and mid-July (Austin and Austin 1980 p. 40; Weisset al.1997, pp. 6, 37; Austin 1998, p. 576; Boyd 2004, pp. 1-2), peaking near the later part of June (Weisset al.1997, pp. 6, 37; Boyd and Austin 1999, p. 20; Boyd and Austin 2002, p. 4; Boyd 2004, p. 8). Distances moved during flight periods have not been documented, although Schrieret al.(1976, p. 285) observed that the closely related northern checkerspot butterfly could move as far as 1.6 km (1 mi). During the flight season, Spring Mountains acastus checkerspot butterfly adults have been observed nectaring onEriodictyon angustifolium(yerba santa),Heliomeris multiflora var. nevadensis(=Viguiera multiflora;Nevada golden-eye),Packera multilobata(=Senecio multilobatus;lobeleaf groundsel),Ceanothussp. (ceanothus),C. greggii(Mojave ceanothus),Melilotussp. (clover),Penstemon palmeri(Palmer penstemon), andApocynumsp. (dogbane) (Austin and Austin 1980, p. 40; Weisset al.1995, p. 9; Boydet al.2000, p. 6; Jones & Stokes 2007a, p. 4; Thompsonet al.2012, p. 22).

    Spring Mountains acastus checkerspot butterfly males may seek females all day by perching and sometimes patrolling gulches (Scott 1986, p. 307; Kingsley 2008, pp. 7-8). Washes and linear features are used primarily as mating sites during the flight season (Boyd and Austin 2001, p. 6; Boyd and Austin 2002, p. 5). Males may perch on several projecting objects in the same area, such as rocks or branches (Scott 1986, pp. 46-47, 307; Kingsley 2008, pp. 4, 7-8). At these sites, the males behave territorially. They remain in the same area and pursue any other butterflies or insects that come within a zone of a few square meters around the male, continuing this behavior towards the intruding animal until it leaves (Boyd and Austin 2001, p. 5; Boyd and Austin 2002, p. 5; Kingsley 2008, pp. 4, 7-8). During a brief flight season (Weisset al.1997, pp. 6, 37), females remain at the site long enough to find a male to mate with, and then leave the area to oviposit (Boyd and Austin 2001, p. 6; Boyd and Austin 2002, p. 5). Mating has been observed to last 40 minutes (Boyd 2004, p. 3). Sagebrush checkerspot butterflies have a high mating success, as indicated by a high percentage (>95) of females with spermatophores (a sac containing sperm) (Shields 1967, pp. 90, 123; Rhainds 2010, pp. 212-213). Approximately 10 days after mating, the female lays her eggs (Nunnallee 2011, p. 6).

    Eggs

    Clusters of sagebrush checkerspot butterfly eggs are laid on the underside of host leaves and sometimes on flower buds (Scott 1986, p. 307; Stout 2011,http://www.raisingbutterflies.org). Sagebrush checkerspot butterflies may lay 100 to 150 eggs in a cluster (Nunnallee 2011, p. 6). It may be advantageous for female butterflies to lay eggs in clusters to reduce exposure to predation or if host plants are rare or dispersed (Stamp 1980, p. 376). Eggs hatch after 6 days (Nunnallee 2011, p. 6), and the young larvae are gregarious on leaves or flowers (Scott 1986, p. 307; Nunnallee 2011, p. 6).

    Larvae

    Gregarious pre-diapause larvae of sagebrush checkerspot butterflies form silk webbing where they feed together on the larval host plant (Nunnallee 2011, p. 6; Opleret al.2011,http://www.butterfliesandmoths.org;Stout 2011,http://www.raisingbutterflies.org). It is hypothesized that gregarious larvae may reduce rates of parasitism on the larvae because of collective defenses and may also facilitate feeding on larval host plants, particularly for early larvae, by enhancing the ability of larvae to overcome plant defenses (Chew and Robbins 1984, p. 75).Chrysothamnus viscidiflorushas been documented as a larval host plant (Boyd and Austin 2002, p. 2; Austin and Leary 2008, p. 99), is a widely distributed shrub in Western North America (Anderson 1986a, b as cited in McArthur and Stevens 2004, p. 531; Stubbendieck 2003, p. 248), and has a range that coincides with many of the ranges shown for sagebrush checkerspot butterflies (Opler 1999, p. 199; Opleret al.2011,http://www.butterfliesandmoths.org). Common names used interchangeably for subspecies ofC. viscidiflorushave included Douglas rabbitbrush, chamisa, green rabbitbrush, low rabbitbrush, yellow rabbitbrush, viscid rabbitbrush, sticky-leaved rabbitbrush, downy rabbitbrush, and narrow-leaved rabbitbrush (Stubbendiecket al.2003, p. 249; McArthur and Stevens 2004, p. 532; Niles and Leary 2007, p. 19). Three subspecies ofC. viscidiflorushave been documented in the Spring Mountains, includingC. v. lanceolatus(variously known as viscid rabbitbrush, sticky-leaved rabbitbrush, and yellow rabbitbrush),C. v. puberulus(downy rabbitbrush), andC. v. viscidiflorus(known as viscid rabbitbrush, sticky-leaved rabbitbrush, and narrow-leaved rabbitbrush) (Niles and Leary 2007, p. 19). A common name forChrysothamnus viscidiflorus viscidiflorushas not been accepted (Young and Evans 1974, p. 469).

    In the Spring Mountains, Niles and Leary (2007, p. 9) quantified the abundance of the various subspecies ofChrysothamnus viscidiflorusas rare, occasional, common, and abundant.Chrysothamnus viscidiflorusssp.lanceolatusis occasional to common on slopes, ridges, and in washes (Niles andLeary 2007, p. 19).Chrysothamnus viscidiflorusssp.puberulus(= var.puberulus) is occasional to rocky washes and on slopes (Niles and Leary 2007, p. 19). Of butterfly host plants described by Weisset al.(1997, Figure 4),Chrysothamnus viscidiflorusis present in areas with low tree canopy cover (mean of 17 percent).Chrysothamnus viscidiflorusssp.viscidiflorus(= var.viscidiflorus) is occasional to sandy-gravelly washes (Niles and Leary 2007, p. 19).Chrysothamnus viscidiflorushas many erect stems that are 1 to 3.5 ft (0.3 to 1.1 m) tall, growing from a base (McArthur and Stevens 2004, p. 531). In the Spring Mountains,C. viscidiflorushas been categorized as widespread, with a large population, and is considered very robust to human disturbance (Nachlinger and Reese 1996, pp. 66, 70). More recent information indicates that the larval host plant is widely distributed, but locally uncommon, within the Spring Mountains (D. Thompson 2012, pers. comm.). It is unknown whether or not habitat is a limiting factor for the subspecies.

    It is unknown which of these subspecies ofChrysothamnus viscidiflorusare used as a larval host plant by the Spring Mountains acastus checkerspot butterfly; however, in maps prepared by Jones and Stokes (2007b, Figure 5a), Spring Mountains acastus checkerspot butterfly observations appeared to be more closely associated withC. v. ssp. viscidiflorusthanC. v.ssp.puberulus.Warren (2005, p. 232) reported that all sagebrush checkerspot butterfly subspecies in Oregon useC. v.ssp.viscidiflorusas a host plant, but that other subspecies ofC. viscidiflorusmay be used as well.C. viscidiflorusis the most commonly reported species of larval host plant for sagebrush checkerspot butterfly subspecies, but other plant species have been reported (Service 2011b, p. 4).

    While not documented as a larval host plant for the Spring Mountains acastus checkerspot butterfly,Machaeranthera canescensoccurs in similar habitats (Niles and Leary 2007, p. 20) used by the Spring Mountains acastus checkerspot butterfly. Locations with reported occurrences ofM. canescensin the Kyle Canyon area (Jones and Stokes 2007b, Figure 13) are near Spring Mountains acastus checkerspot butterfly observation areas (Jones and Stokes 2007b, Figure 5a). Further study using appropriate methods (Shieldset al.1969, p. 24) will be required to determine if Spring Mountains acastus checkerspot butterfly uses other larval host plants.

    Ericameria nauseosa (= Chrysothamnus nauseosus;rubber rabbitbrush) also has been suspected of being a larval host plant of the Spring Mountains acastus checkerspot butterfly (Weisset al.1997, p. 6). Boyd and Austin (1999, pp. 20-21) unsuccessfully attempted to feedE. nauseosato Spring Mountains acastus checkerspot butterfly larvae, and reported that their results were inconclusive. Early inferences thatE. nauseosamay be the larval host plant for the Spring Mountains acastus checkerspot butterfly may be attributed to early uncertainty about its taxonomy and its close resemblance to the northern checkerspot butterfly, which has been documented to useE. nauseosaandC. viscidiflorusas larval host plants (Scott 1986, p. 306; Austin and Leary 2008, p. 102), and the interchangeable use of the generic common name rabbitbrush when referring to rubber or green rabbitbrush. The best available scientific and commercial information does not indicate there is any use ofE. nauseosaby sagebrush checkerspot butterflies (Service 2011b, p. 4).

    After feeding on the larval host plant during favorable conditions, larvae enter diapause, which allows them to survive through the winter, and which is likely a result of decreasing temperature and photoperiod (Scott 1979, p. 172). Spring Mountains acastus checkerspot butterfly larvae diapause under rocks as half-grown larvae during the winter (Scott 1979, pp. 172, 191; Scott 1986, pp. 27, 307; Opleret al.2011,http://www.butterfliesandmoths.org). During times of unfavorable weather, sagebrush checkerspot butterflies may diapause for many months or years (Scott 1986, p. 307; Opleret al.2011,http://www.butterfliesandmoths.org).

    After winter, post-diapause larvae of other subspecies have been reported to be solitary (Nunnallee 2011, p. 6); however, Spring Mountains acastus checkerspot butterfly larvae of different instars (larval stages of growth between molts of the exoskeleton (Scott 1986, p. 21)) have been observed together in the Spring Mountains (Boyd 2004, p. 3). When disturbed, larvae will release and fall to the understory, where they roll into tight balls and are difficult to find (Wolfe 2004, p. 13). Stamp (1984, p. 6) hypothesized that thrashing by checkerspot butterflies after disturbance may be an adaptation to prevent parasitization by wasps or flies. There are no known reports of parasites or disease in populations of Spring Mountains acastus checkerspot butterflies, likely because of limited numbers and past research emphasis on adults, and because it is difficult to detect parasites or disease in checkerspot and other butterflies. Parasites documented to infect Neumoegen's checkerspot butterfly include theSiphosturmia confusafly (Stireman and Singer 2003, p. 630) and braconid waspCotesia(=Apanteles) koebelei(Krombeinet al.1979, p. 249). It has been reported that for the subspecies acastus checkerspot butterfly, populations fluctuate as a result of parasitism (Stout 2011,http://www.raisingbutterflies.org). In fact, larval mortality in many species of butterflies occurs as a result of predation (including parasitism) and starvation (Haukioja 1993, as cited in Kuussaariet al.2004, p. 148).

    When enough suitable food is present, and after reaching an adequate size, larvae find a pupation site where they attach themselves to a silk mat (Scott 1986, p. 13) on a leaf or twig (Stout 2011,http://www.raisingbutterflies.org). In 2002, one of four larvae removed from the population at the Griffith Peak Trail colony site successfully pupated in 11 days (Boyd 2004, p. 3), while other subspecies are reported to pupate in 18 days (Nunnallee 2011, p. 6). After pupation, adult butterflies emerge to feed and seek mates.

    Summary of Information Pertaining to the Five Factors

    Section 4 of the Act (16 U.S.C. 1533) and implementing regulations (50 CFR part 424) set forth procedures for adding species to, removing species from, or reclassifying species on the Federal Lists of Endangered and Threatened Wildlife and Plants. Under section 4(a)(1) of the Act, a species may be determined to be endangered or threatened based on any of the following five factors:

    (A) The present or threatened destruction, modification, or curtailment of its habitat or range;

    (B) Overutilization for commercial, recreational, scientific, or educational purposes;

    (C) Disease or predation;

    (D) The inadequacy of existing regulatory mechanisms; or

    (E) Other natural or manmade factors affecting its continued existence.

    In making this finding, information pertaining to the Spring Mountains acastus checkerspot butterfly in relation to the five factors provided in section 4(a)(1) of the Act is discussed below. In considering what factors might constitute threats to a species, we must look beyond the exposure of the species to a particular factor to evaluate whether the species may respond to that factor in a way that causes actual impacts to the species. If there is exposure to afactor and the species responds negatively, the factor may be a threat and, during the status review, we attempt to determine how significant a threat it is. The threat is significant if it drives, or contributes to, the risk of extinction of the species such that the species warrants listing as endangered or threatened as those terms are defined in the Act. However, the identification of factors that could impact a species negatively may not be sufficient to compel a finding that the species warrants listing. The information must include evidence sufficient to suggest that these factors are operative threats that act on the species to the point that the species may meet the definition of an endangered or threatened species under the Act.

    In making our 12-month finding on the petition we considered and evaluated the best available scientific and commercial information.

    Factor A. The Present or Threatened Destruction, Modification, or Curtailment of Its Habitat or Range All Sites Fire Suppression

    The Spring Mountains acastus checkerspot butterfly may be negatively affected by fire suppression as inferred by its proximity to areas with fire disturbance (Boyd and Austin 2002, p. 5; Boyd 2004, p. 3-4). It has been speculated that effects to the Spring Mountains acastus checkerspot butterfly may occur as a result of inhibited dispersal (Boyd 2004, p. 3-4). One mechanism for the inhibited dispersal could be a decrease in larval host plants across the landscape caused by fire suppression.Chrysothamnus viscidiflorusincreases vigorously and rapidly at disturbed sites (Nachlinger and Reese 1996, p. 32; McArthur and Stevens 2004, p. 532). After a disturbance, such as a fire,C. viscidiflorusmay dominate the habitat for a long period of time (Young and Evans 1974, p. 469).

    Fire suppression in the Spring Mountains has resulted in long-term successional changes, including increased forest area and forest structure (higher canopy cover, more young trees, and more trees that are intolerant of fire) (Nachlinger and Reese 1996, p. 37; Amell 2006, pp. 6-9; Boyd and Murphy 2008, pp. 22-28; Dentonet al.2008, p. 21, Abellaet al.2011, pp.10, 12). Overall, we have limited information about how the frequency, size, or severity of fire has changed through time. However, the available evidence does not suggest that fire suppression has reduced the amount of habitat for the species, is likely to do so in the future, or that habitat is a limiting factor for the Spring Mountains acastus checkerspot butterfly. Therefore, based on the currently available information fire suppression is not currently a threat to the subspecies, nor does it indicate that it is likely to become so in the future.

    Our review of the best available information indicates that habitat modification or destruction associated with fire suppression is not a threat to the subspecies, nor does the available information indicate that it is likely to become so in the future. In addition, we discuss the habitat threats at individual colony sites below.

    Griffith Peak Trail/Harris Spring Road/Harris Mountain Road Colony Site

    Aside from the limited information about the effects of fire suppression on the Spring Mountains acastus checkerspot butterfly rangewide, there is no information available to indicate that habitat modification or destruction is a threat to the Griffith Peak Trail/Harris Spring Road/Harris Mountain Road colony, nor does the available information indicate that it is likely to become so in the future.

    Kyle Canyon (Middle) Colony Site Highway Modifications and Power Line Maintenance

    Highway modifications and power line maintenance activities may have affected the Spring Mountains acastus checkerspot butterfly in areas near the Kyle Canyon (middle) colony site. Highway modifications and power line maintenance (grading, sod dumping, large vehicle occurrence (as indicated by tracks), and clearing) were observed in 1998 in the Kyle Canyon area (Boyd and Austin 1999, p. 59), and in 2006, historical grading, repairing and roadway replacement, and illegal dumping also were observed near the Kyle Canyon (middle) colony site (Jones and Stokes 2007a, Appendix B). However, these reports do not provide information or references that characterize the scope, immediacy, and intensity of any of these potential stressors (processes or events with negative impacts). While the reports indicate that these activities took place in the same area where Spring Mountains acastus checkerspot butterfly occurs, there is no available information indicating the level of exposure, such as whether larval and nectar plants were impacted. The site was inventoried 16 times in 1998, and, based on the descriptions provided in the report (Boyd and Austin 1999, p. 10) and the absence of any further disturbance documented in subsequent surveys (11 visits in 1999, 9 visits in 2000, 7 visits in 2001, 6 in 2002, and 5 in 2003) (Boydet al.2000, pp. 1-36; Boyd and Austin 2001, pp. 1-38; Boyd and Austin 2002, pp. 1-30; Boyd 2004, pp. 1-11), it appears that these activities may be localized and infrequent. In addition, an increase in the number of individuals observed from 1999 to 2001 at the Kyle Canyon (middle) colony site (Table 2) after the highway modifications and power line maintenance suggests that these activities did not cause sufficient impacts to cause a decline at this colony site. No information is available regarding highway modifications and power line maintenance at the Kyle Canyon (middle) Colony Site after 2006.

    Highway modifications and power line maintenance activities have occurred historically in localized areas. Although we are not aware of any further highway modification projects, we understand that maintenance activities can take place in the future, know of no planned specific action. The information suggests that currently the intensity of this stressor is low and the exposure to the Spring Mountains acastus checkerspot butterfly is insignificant because these activities occur infrequently in small areas within the butterfly's range. Therefore, we have determined that highway modifications and power line maintenance are not threats to the Spring Mountains acastus checkerspot butterfly now, nor does the available information indicate that they are likely to become so in the future.

    Fuel Treatments

    Fuel reduction projects may affect the Spring Mountains acastus checkerspot butterfly negatively or beneficially. The effects of fuel reduction treatments on butterflies depend upon the timing (Pilliodet al.2006, p. 23). Fuel reduction projects could affect the Spring Mountains acastus checkerspot butterfly negatively by reducing the quantity or quality of habitat and affecting survival or fecundity. On the other hand, fuel reduction projects could beneficially affect the Spring Mountains acastus checkerspot butterfly by creating conditions that favor nectar and larval host plants (Weisset al.1997, p. 27). As mentioned above,Chrysothamnus viscidiflorusincreases vigorously and rapidly at disturbed sites (McArthur and Stevens 2004, p. 532) and may dominate the habitat for a long period of time following disturbance (Young and Evans 1974, p. 469).

    The U.S. Forest Service implemented the Spring Mountains Hazardous Fuels Reduction Project in the SpringMountains between 2008 and 2011 (Lillis 2010). It was designed to reduce the volume and cover of woody vegetation to lower the wildfire risk to life and property in the SMNRA wildland-urban interface (Forest Service 2007a, pp. 1-18; Forest Service 2007b, pp. 1-57). Design criteria were developed to reduce or avoid potential resource conflicts, including those associated with the Spring Mountains acastus checkerspot butterfly (Forest Service 2007a, p. 4).

    In areas where the Spring Mountains Hazardous Fuels Reduction Project coincides with the Spring Mountains acastus checkerspot butterfly, the likelihood of direct mortality to the butterfly or impacts to its habitat were minimized by implementing the design criteria in the project's environmental assessment (Forest Service 2007b, Appendix B, Design Criteria B1, B6, W5, W6, W7, W11, M1). The design criteria provided for surveys of butterflies and habitat, habitat mapping, restrictions on host plant removal in core colonies, avoidance of host plants, minimization of disturbance by using manual methods, weed prevention, education of implementation crews, monitoring during implementation, and post-project monitoring of butterflies and their habitat. The scope or geographic extent of the Spring Mountains Hazardous Fuels Reduction Project is localized because it occurs along the wildland-urban interface in one colony site area, Kyle Canyon (middle). The project's initial entry has already occurred, but re-treating of shrubs may occur every 5 to 10 years after the initial treatment (Forest Service 2007a, p. 3).

    The level of exposure to the Spring Mountains acastus checkerspot butterfly's eggs and larvae from the Spring Mountains Hazardous Fuels Reduction Project is low to insignificant because of the project design criteria and the short time required for eggs to hatch. Exposure of active larvae to impacts from fuel reduction projects would be small to insignificant when design criteria are planned and implemented, such as avoiding larval host plants and ensuring that the method (for example, manual versus mechanical) and timing (periods of larval inactivity) of treatment result in larvae having a lower likelihood of exposure. Impacts to Spring Mountains acastus checkerspot butterfly pupae are likely insignificant because they affix to the underside of leaves for a short period in this stage, and are provided some protection by their larval host plant. Finally, Spring Mountains acastus checkerspot butterfly adults are mobile and may escape threats from fuels reduction projects. Effects on breeding adult Spring Mountains acastus checkerspot butterflies are likely insignificant because a short time is required for successful copulation and the duration of fuel treatment activities is likely brief. The Forest Service avoids treatment of vegetation along dry washes (Forest Service 2007a, W8), which also reduces the likelihood of exposure and impacts to breeding Spring Mountains acastus checkerspot butterflies.

    Although the Spring Mountains Hazardous Fuels Reduction Project may result in short-term negative impacts to the Spring Mountains acastus checkerspot butterfly, the best available information does not indicate that this project has affected the Spring Mountains acastus checkerspot butterfly negatively at the population level now, nor is it likely to in the future.

    Middle Kyle Complex Project

    The Forest Service purchased a golf course property in 2004 that will be used for the Middle Kyle Complex Project (Forest Service 2009, pp. 2-4). The project includes construction of a visitor center and associated trail, and design criteria are in place to prevent and minimize impacts to the Spring Mountains acastus checkerspot butterfly (Forest Service 2009, pp. 4-5). This design includes criteria and measures that will avoid and minimize temporary construction disturbance to known Spring Mountains acastus checkerspot butterfly breeding areas. The design criteria include the following: Prohibit construction of Kyle Canyon Wash Trail and bury utilities from early May to mid-July (to avoid the butterfly's flight season); erect temporary construction fencing along the proposed construction limits prior to any ground-disturbing activities; contain all activities within the approved construction limits; maintain temporary fencing until notified by the contracting officer; collect native seed from appropriate larval host and nectar plants; revegetate temporary disturbance areas following completion of construction; implement construction dust control measures to minimize impacts to blooming nectar plant populations; reduce off-trail use in documented Spring Mountains acastus checkerspot butterfly breeding and mate selection areas; and construct a fence or barrier adjacent to the newly constructed trail in Kyle Canyon Wash. When the project is implemented, in 2012 or later, the design criteria and measures should result in minimizing impacts to the Spring Mountains acastus checkerspot butterfly and its habitat in Kyle Canyon Wash. Any negative impacts from the project are anticipated to be minor and have negligible impacts to the overall population of the subspecies and habitat at this site.

    The Middle Kyle Complex Project will occur in a localized area, and, because of the design criteria, including avoidance of larval host plants, the project will result in low response, low intensity, and ultimately insignificant exposure of Spring Mountains acastus checkerspot butterflies to impacts. Therefore, we have determined that the Middle Kyle Complex Project is not a threat to the Spring Mountains acastus checkerspot butterfly now, nor does the available information indicate that it is likely to become one in the future.

    Potosi Mountain/Mt. Potosi/Boy Scout Camp Colony Site Fuel Treatments

    The Potosi Mountain/Mt. Potosi/Boy Scout Camp colony site is located at the Boy Scouts of America Kimball Scout Reservation, north of Potosi Mountain. A fuels reduction project, funded through a grant from the Nevada Division of Forestry, was implemented in April 2007 (Otero 2007, p. 6). The 2007 fuels reduction project resulted in cut wood waste stacked more than a meter high along and on both sides of the dirt road at this site, and it was asserted that the cut waste effectively blocked all male perching and mate-locating sites in June that year (Boyd 2009, p. 3). We interpret the term “blocked” to mean obstruction of male perching and mate-locating sites as a result of these areas being covered by debris. The best available information does not indicate that the larval host plant for the Spring Mountains acastus checkerspot butterfly occurred abundantly near the road at this colony site.Chrysothamnus viscidifloruswas not observed in this area after searching the sides of the canyon (Thompsonet al.2012, p. 24) where Spring Mountains acastus checkerspot butterflies have been historically observed (Weisset al.1997, p. 6). However, Spring Mountains acastus checkerspot butterflies may be using adjacent areas that contain the larval host plant and areas near the road for mate locating. Our analysis addresses the alleged impact caused by blocking male perching and mate-locating sites.

    The best available information does not indicate if, or to what extent, the alleged blocking of male perching sites had occurred at this site. The Potosi Mountain/Mt. Potosi/Boy Scout Camp colony site was visited two times in 2011, and waste piles were no longer present (Service 2011a, pp. 1-3).However, wood chips were present near the road and camping areas, but had mostly decomposed, with some patches remaining (Service 2011a, pp. 1-3). Fuel reduction projects likely will reoccur in the future as part of wildland-urban interface projects to prevent damage to life or property from wildfire; however, the available information does not indicate that fuel reduction is impacting the subspecies such that it is currently affected at the population level, nor does it indicate that it is likely to in the future.

    The best available information indicates that the fuels reduction project at the Boy Scouts of America Kimball Scout Reservation, north of Potosi Mountain, occurred in April before breeding activity occurred, and, thus, breeding adults likely were not disturbed. Although the number of sites available for perching by males may be reduced temporarily if cut waste is piled for later treatment (commonly chipping or burning), other sites along the road and in the canyon would be available within this site. The Spring Mountains acastus checkerspot butterfly has been observed using multiple perch sites during mate-locating (Kingsley 2008, pp. 4, 7-8). Because breeding occurs during a brief time period, the butterflies use multiple perch sites, and they likely exhibit a high breeding success rate (Shields 1967, p. 123; Rhainds 2010, pp. 212-213), impacts to the Spring Mountains acastus butterfly from the fuels reduction project at Potosi Mountain/Mt. Potosi/Boy Scout Camp colony site were likely minimal and insignificant.

    The fuels reduction project at the Potosi Mountain/Mt. Potosi/Boy Scout Camp colony site is localized and will likely occur again in the future because maintenance will be required and fires are being suppressed. The intensity and exposure of the impact from stacking cut waste to the Spring Mountains acastus checkerspot butterfly is low and insignificant because the best available information indicates that Spring Mountains acastus checkerspot butterflies are able to use more than one perching site and that they can successfully breed in only a short period of time. We have determined that the stacking of cut waste at the Potosi Mountain/Mt. Potosi/Boy Scout Camp colony site is not a threat to the Spring Mountains acastus checkerspot butterfly now, nor does the available information indicate that it is likely to become a threat in the future.

    Trough Spring Colony Site Off-Highway Vehicles

    Information in our files indicates that off-highway vehicles have been present at the Trough Spring colony site (Service 2011a, pp. 1-3). Off-highway vehicles could adversely affect the Spring Mountains acastus checkerspot butterfly by reducing the quantity or quality of habitat, reducing survival or fecundity, or directly impacting individuals. Off-highway vehicles were observed on the road that goes to Trough Spring during the 2011 field season, but no off-highway vehicles or signs of vehicle use were observed in Spring Mountains acastus checkerspot butterfly habitat with its larval host plant present (Service 2011a, pp. 1-3). Any vehicle access from the end of the road to Trough Spring and Spring Mountains acastus checkerspot butterfly habitat is inhibited by tree downfall and dense shrubs resulting from a wildfire (Service 2011a, pp. 1-3). In addition, the Trough Spring colony site is partially within the Mt. Charleston Wilderness, where motor vehicle