[Federal Register Volume 78, Number 144 (Friday, July 26, 2013)]
[Rules and Regulations]
[Pages 45405-45439]
From the Federal Register Online via the Government Printing Office [www.gpo.gov]
[FR Doc No: 2013-17089]



[[Page 45405]]

Vol. 78

Friday,

No. 144

July 26, 2013

Part IV





Department of the Interior





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Fish and Wildlife Service





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50 CFR Part 17





Endangered and Threatened Wildlife and Plants; Reclassification of 
Acmispon dendroideus var. traskiae (=Lotus d. subsp. traskiae) and 
Castilleja grisea as Threatened Throughout Their Ranges; Final Rule

Federal Register / Vol. 78 , No. 144 / Friday, July 26, 2013 / Rules 
and Regulations

[[Page 45406]]


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DEPARTMENT OF THE INTERIOR

Fish and Wildlife Service

50 CFR Part 17

[Docket No. FWS-R8-ES-2012-0007; FXES11130900000C5-123-FF09E32000]
RIN 1018-AY04


Endangered and Threatened Wildlife and Plants; Reclassification 
of Acmispon dendroideus var. traskiae (=Lotus d. subsp. traskiae) and 
Castilleja grisea as Threatened Throughout Their Ranges

AGENCY: Fish and Wildlife Service, Interior.

ACTION: Final rule.

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SUMMARY: We, the U.S. Fish and Wildlife Service (Service), are 
reclassifying Acmispon dendroideus var. traskiae (San Clemente Island 
lotus) and Castilleja grisea (San Clemente Island paintbrush) from 
endangered to threatened. The endangered designation no longer 
correctly reflects the status of these plants due to substantial 
improvement in their status. This action is based on a review of the 
best available scientific and commercial data, which indicate that the 
ongoing threats are not of sufficient imminence, intensity, or 
magnitude to indicate that A. d. var. traskiae and C. grisea are 
presently in danger of extinction across their ranges. While both taxa 
will continue to be impacted by military training activities and land 
use, erosion, nonnative plants, and fire, the significant increase in 
abundance (number of occurrences) of both taxa reduces the severity and 
magnitude of threats and the likelihood that any one event would affect 
all occurrences of either taxon. Additionally, the Department of the 
Navy (Navy) is implementing conservation actions through their 
Integrated Natural Resources Management Plan and has successfully 
reduced threats impacting both taxa and their habitat.

DATES: This rule becomes effective on August 26, 2013.

ADDRESSES: This final rule is available on the Internet at http://www.regulations.gov at Docket Number [FWS-R8-ES-2012-0007]. Comments 
and materials received, as well as supporting documentation used in the 
preparation of this rule, will be available for public inspection, by 
appointment, during normal business hours at: U.S. Fish and Wildlife 
Service, Carlsbad Fish and Wildlife Office, 2177 Salk Avenue, Suite 
250, CA 92008.

FOR FURTHER INFORMATION CONTACT: Jim Bartel, Field Supervisor, Carlsbad 
Fish and Wildlife Office (see ADDRESSES); by telephone at 760-431-9440; 
or by facsimile (fax) at 760-431-9624. If you use a telecommunications 
device for the deaf (TDD), please call the Federal Information Relay 
Service (FIRS) at 800-877-8339.

SUPPLEMENTARY INFORMATION: 

Executive Summary

    This is a final rule to reclassify Acmispon dendroideus var. 
traskiae and Castilleja grisea as threatened under the Act.
    Species addressed. Acmispon (previously listed as Lotus) 
dendroideus var. traskiae (previously San Clemente Island broom and 
currently known as San Clemente Island lotus), and Castilleja grisea 
(San Clemente Island paintbrush) are endemic to San Clemente Island, 
which is located 64 miles (mi) (103 kilometers (km)) west of San Diego, 
California. Current habitat conditions for A. d. var. traskiae and C. 
grisea on San Clemente Island are the result of present and historical 
land use practices. San Clemente Island is owned by the U.S. Department 
of the Navy and, with its associated offshore range complex, is the 
primary maritime training area for the Navy Pacific Fleet and Navy Sea, 
Air and Land teams (SEALs). The island also supports training by the 
U.S. Marine Corps, the U.S. Air Force, and other military 
organizations.
    Purpose of the Regulatory Action. Under the Endangered Species Act, 
we may be petitioned to list, delist, or reclassify a species. On May 
18, 2010, we received a petition dated May 13, 2010, from the Pacific 
Legal Foundation, requesting, among other actions, that we reclassify 
Acmispon dendroideus var. traskiae and Castilleja grisea from 
endangered to threatened under the Act, based on the analysis and 
recommendations contained in the 2007 5-year reviews for these taxa. In 
2011, we published a 90-day finding, which concluded that the petition 
contained substantial information indicating reclassification of the 
two San Clemente Island plants may be warranted. In 2012, we published 
a 12-month finding and proposed rule, and found that the petitioned 
action to downlist A. d. var. traskiae and C. grisea was warranted. 
Threats to these taxa, though ongoing, have been reduced since listing 
and are being managed by the Navy through implementation of their 
Integrated Natural Resources Management Plan. Occurrences of both taxa 
have increased in number as a result. Therefore, we have determined in 
this final rule that A. d. var. traskiae and C. grisea no longer meet 
the definition of endangered under the Endangered Species Act. Instead, 
both taxa will be reclassified from endangered to threatened to afford 
continued protection from ongoing threats.
    This rule changes the listing of Acmispon dendroideus var. traskiae 
and Castilleja grisea from endangered to threatened.
    Basis for the Regulatory Action. The increase in the number of 
occurrences of Acmispon dendroideus var. traskiae and Castilleja grisea 
throughout the current range of each taxon demonstrates the success of 
the Navy's continued management activities on San Clemente Island. As a 
result, both taxa have increased their distribution and threats have 
been sufficiently reduced such that they are no longer in danger of 
extinction throughout all or a significant portion of their range. 
Therefore, these taxa no longer meet the definition of endangered under 
the Endangered Species Act. However, impacts due to military training 
activities, erosion, nonnatives, and fire are ongoing and the best 
available information indicates these taxa are likely to become 
endangered within the foreseeable future throughout all or a 
significant portion of their ranges. Therefore, we are reclassifying A. 
d. var. traskiae and C. grisea from endangered to threatened. All 
comments we received support this action.

Acronyms Used

    We use several acronyms throughout the preamble to this proposed 
rule. To assist the reader, we set them forth here:
AFP = Artillery Firing Point
AVMA = Assault Vehicle Maneuver Area
BMP = Best Management Practices
CESA = California Endangered Species Act (State of California)
CDFW = California Department of Fish and Wildlife (formerly CDFG, 
California Department of Fish and Game)
CNDDB = California Natural Diversity Database
DPS = Distinct Population Segment
EO = California Natural Diversity Database element occurrence
GIS = Geographic Information System
INRMP = Integrated Natural Resources Management Plan
IOA = Infantry Operations Areas
IPCC = Intergovernmental Panel on Climate Change
MOFMP = Military Operations and Fire Management Plan
Navy = United States Department of the Navy
NEPA = National Environmental Policy Act (Federal)
NPPA = Native Plant Protection Act (State of California)
OMB = Office of Management and Budget
PL = Point Location
SEALs = Navy Sea, Air, and Land teams

[[Page 45407]]

SERG = San Diego State University Soil Ecology and Restoration Group
SHOBA = Shore Bombardment Area
SPR = Significant Portion of the Range
SWAT = Special Warfare Training Areas
TAR = Training Area Ranges
USFWS; Service = United States Fish and Wildlife Service

Background

    This is a final rule to reclassify Acmispon dendroideus var. 
traskiae and Castilleja grisea as threatened under the Act. It is our 
intent to discuss in this final rule only those topics directly 
relevant to the reclassification of A. d. var. traskiae and C. grisea 
under the Endangered Species Act of 1973, as amended (Act) (16 U.S.C. 
1531 et seq.). For more information on the biology and ecology of these 
taxa, refer to the 12-month finding and proposed rule to reclassify A. 
d. var. traskiae and C. grisea from endangered to threatened, which 
published in the Federal Register on May 16, 2012 (77 FR 29078).

Previous Federal Actions

    Acmispon dendroideus var. traskiae and Castilleja grisea were 
listed as endangered under the Act on August 11, 1977 (42 FR 40682). 
Subsequently, a Recovery Plan for Channel Island species, including A. 
d. var. traskiae and C. grisea, was finalized in 1984 (USFWS 1984, pp. 
1-165), and 5-year status reviews were completed for each of these taxa 
in 2007 (USFWS 2007a, pp. 1-22; USFWS 2007b, pp. 1-19) and 2012 (USFWS 
2012a, pp. 1-11; USFWS 2012b, pp. 1-9). These status reviews 
recommended reclassification of A. d. var. traskiae and C. grisea from 
endangered to threatened status.
    On May 18, 2010, we received a petition dated May 13, 2010, from 
the Pacific Legal Foundation requesting that the Service delist 
Oenothera californica (avita) subsp. eurekensis (Eureka Valley evening-
primrose) and Swallenia alexandrae (Eureka Valley dunegrass), and 
downlist tidewater goby (Eucyclogobius newberryi), Malacothamnus 
clementinus (San Clemente Island bush mallow), Acmispon dendroideus 
(Lotus scoparius subsp.) var. traskiae, and Castilleja grisea from 
endangered to threatened under the Act. The petition was based on the 
analysis and recommendations contained in the 2007 5-year reviews for 
these taxa. In a letter to the petitioner dated September 10, 2010, we 
acknowledged receipt of the petition and initiated a review of the 
petition under a provision of section 4 of the Act. We stated that we 
anticipated making an initial 90-day finding in Fiscal Year 2011 (based 
on available staffing and funding) as to whether or not the petition 
presented substantial information indicating that the requested action 
may be warranted.
    On January 19, 2011, we published a 90-day finding (76 FR 3069). In 
the 90-day finding, we concluded that the petition and information in 
our files provided substantial information that indicated the delisting 
of Oenothera californica (avita) subsp. eurekensis and Swallenia 
alexandrae, and downlisting of tidewater goby, Malacothamnus 
clementinus, Acmispon dendroideus (Lotus scoparius subsp.) var. 
traskiae, and Castilleja grisea may be warranted, and announced that we 
were initiating status reviews for these species. On May 16, 2012, we 
announced the completion of our status review of the three San Clemente 
Island plant taxa, and issued a proposed rule to reclassify A. d. var. 
traskiae and C. grisea from endangered to threatened (we found 
reclassification of M. clementinus was not warranted) (77 FR 29078, 
USFWS 2012, p. 29078). This document is our final rule to reclassify A. 
d. var. traskiae and C. grisea from endangered to threatened (the 12-
month findings for O. c. (avita) subsp. eurekensis, S. alexandrae, and 
tidewater goby will be addressed in separate documents).

Taxonomic Correction

    Acmispon dendroideus var. traskiae has undergone taxonomic 
realignments since it was listed in 1977 (42 FR 40682; August 11, 
1977). In our proposed rule to reclassify this taxon as a threatened 
species, we accepted the change of scientific name to Acmispon 
dendroideus (Greene) Brouillet var. traskiae (Noddin) Brouillet from 
Lotus dendroideus subsp. traskiae. This change was supported by 
morphological and molecular data (Allan and Porter 2000, p. 1876; 
Sokoloff 2000, p. 128; Brouillet 2008, p. 389). Please see the Species 
Description and Taxonomy--Acmispon dendroideus var. traskiae section of 
the proposed rule for a detailed explanation of this taxonomic 
correction.

Changes From Proposed Rule

    (1) In the proposed rule to reclassify Acmispon dendroideus var. 
traskiae and Castilleja grisea, we defined occurrences of the two taxa 
by mapping smaller groupings of plants (point locations) and combining 
point locations that fall within 0.25 mi (402 m) of one another with 
any corresponding California Natural Diversity Database (CNDDB) 
polygons representing elemental occurrences. Since publication of the 
proposed rule, most of the point locations have been assigned elemental 
occurrence numbers in CNDDB, and many elemental occurrences in CNDDB 
have been combined.
    (2) The Navy informed us that the West Cove occurrence of 
Castilleja grisea was an error. Therefore, we removed the West Cove 
occurrence from our records and revised discussions of the taxon in 
this rule. This change has no effect on our finding regarding the 
reclassification of the taxon; although we recognize one less 
occurrence of the species, more individual C. grisea plants have been 
identified since the publication of the proposed rule, indicating that 
the plant's abundance is continuing to increase in response to the 
Navy's recovery efforts.
    Current information for each occurrence of Acmispon dendroideus 
var. traskiae and Castilleja grisea is presented in table 1 and in 
figures 1 and 2. Groups of plants were described in the past using many 
different terms including: Point localities, populations, occurrences, 
and element occurrences. Unless referring to a specific author's 
research and language, we refer to identifiable and separable groups of 
plants as ``occurrences'' in this final rule. We defined these 
occurrences by mapping smaller groupings of plants (point locations) 
and combining point locations that fall within 0.25 mi (402 m) of one 
another with any corresponding California Natural Diversity Database 
(CNDDB) polygons. These combined points meet the broader California 
Department of Fish and Wildlife (CDFW) definition of an element 
occurrence, which is a record of an observation or series of 
observations. Information for each occurrence of these two taxa is 
described in table 1.

[[Page 45408]]



  Table 1--Distribution and Status of Occurrences of Acmispon dendroideus var. traskiae (San Clemente Island Lotus) and Castilleja grisea (San Clemente
                                                                   Island Paintbrush)
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                                   Element occurrence       Status \2\ at
      Location description         (EO) No. and point     listing; year of         Current status         Current threats \3\        Military use \4\
          (occurrences)             location (PL) \1\       first record             (reference)
--------------------------------------------------------------------------------------------------------------------------------------------------------
                                                           Acmispon dendroideus var. traskiae
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Eagle Canyon....................  EO 1, 21; 9 PLs.....  extant; 1980 CNDDB..  extant (Junak 2006, SERG  A: land use, erosion,    low military value;
                                                                               2008, CNDDB 2013).        nonnatives, fire; E:     area recently closed.
                                                                                                         movement, fire,
                                                                                                         climate.
Bryce Canyon....................  EO 1; 14 PLs........  unknown.............  Extant (SERG 2009, CNDDB  A: nonnatives, fire; E:  low military value;
                                                                               2013).                    fire, climate.           area recently closed.
North Mosquito Cove.............  EO 1; 14 PLs........  extant; 1939          Extant (SERG 2010)......  A: land use, erosion,    low military value;
                                                         herbarium record.                               nonnatives, fire; E:     area recently closed.
                                                                                                         movement, fire,
                                                                                                         climate.
Canchalagua Canyon (including     EO 4, 23; 21 PLs....  unknown.............  extant (SERG 2011)......  A: land use, erosion,    low military value;
 south Mosquito Cove).                                                                                   nonnatives, fire; E:     area recently closed.
                                                                                                         movement, fire,
                                                                                                         climate.
Thirst Canyon (including Vista    EO 20, 8 PLs........  unknown.............  Extant (SERG 2009, CNDDB  A: nonnatives, fire; E:  medium military value.
 Canyon).                                                                      2013).                    fire, climate.
Cave Canyon.....................  EO 22, 42, 43; 3 PLs  unknown.............  presumed extant (Junak    A: nonnatives, fire; E:  medium military value.
                                                                               1997, CNDDB 2013).        fire, climate.
Horse Canyon....................  EO 41; 2 PLs........  unknown.............  presumed extant (Junak    A: nonnatives, fire; E:  medium military value.
                                                                               1997, CNDDB 2013).        fire, climate.
Pyramid Head....................  EO 5; 1 PL..........  extant; 1979 CNDDB..  presumed extant (Junak    A: nonnatives, fire; E:  high military value;
                                                                               1997).                    fire, climate.           area closed.
SHOBA Boundary (north to Twin     EO 17, 18, 19, 33; 8  unknown.............  presumed extant (Junak    A: nonnatives; E:        medium military value.
 Dams Canyon).                     PLs.                                        1996, CNDDB 2013).        climate.
Twin Dams Canyon................  EO 32; 2 PLs........  unknown.............  Extant (Junak 2006,       A: nonnatives; E:        medium military value.
                                                                               CNDDB 2013).              climate.
Horton Canyon (including Stone,   EO 13; 27 PLs.......  unknown.............  Extant (SERG 2010)......  A: erosion, nonnatives;  medium military value.
 Burn's, and Horton Canyons).                                                                            E: climate.
Tota Canyon.....................  EO 13; 7 PLs........  unknown.............  presumed extant (SERG     A: erosion, nonnatives;  low military value.
                                                                               2010, CNDDB 2013).        E: climate.
Lemon Tank Canyon (including      EO 16, 25; 19 PLs...  unknown.............  extant (Junak 2004,       A: erosion, nonnatives;  low military value;
 Nanny Canyon).                                                                CNDDB 2013).              E: movement, climate.    area partially closed.
Larkspur Canyon.................  EO 24; 2 PLs........  unknown.............  extant (SERG 2011, CNDDB  A: erosion, nonnatives,  low military value.
                                                                               2013).                    fire; E: movement,
                                                                                                         fire, climate.
Chamish Canyon..................  EO 3; 1 PL..........  extant; 1980 CNDDB..  presumed extant (Junak    A: erosion, nonnatives,  low military value.
                                                                               1997).                    fire; E: movement,
                                                                                                         fire, climate.
Box Canyon......................  EO 40; 2 PLs........  unknown.............  presumed extant (Junak    A: nonnatives; E:        low military value.
                                                                               1997, CNDDB 2013).        climate.
Norton Canyon...................  EO 36, 38, 39; 1 PL.  unknown.............  extant (Junak 2004,       A: nonnatives; E:        low military value.
                                                                               CNDDB 2013).              climate, hybridization.
Upper Middle Ranch Canyon.......  EO 10, 5 PLs........  unknown.............  extant (Junak 2004).....  A: erosion, nonnatives;  low military value.
                                                                                                         E: climate.
Lower Middle Ranch Canyon.......  EO 37; 3 PLs........  unknown.............  extant (SERG 2008, CNDDB  A: nonnatives; E:        low military value.
                                                                               2013).                    climate.
Waymuck Canyon..................  EO 34; 4 PLs........  unknown.............  extant (SERG 2011, CNDDB  A: nonnatives; E:        high military value.
                                                                               2013).                    climate.
Warren Canyon...................  EO 35, 12; 20 PLs...  unknown.............  extant (SERG 2011, CNDDB  A: erosion, nonnatives;  high military value.
                                                                               2013).                    E: movement, climate.
Middle Wallrock Canyon..........  EO 29, 31; 10 PLs...  unknown.............  extant (Junak 2004,       A: nonnatives; E:        high military value.
                                                                               CNDDB 2013).              movement, climate.
Upper Wallrock Canyon...........  EO 30; 3 PLs........  unknown.............  extant (Junak 2006,       A: erosion, nonnatives;  high military value.
                                                                               CNDDB 2013).              E: climate.
Seal Cove Terraces..............  EO 14, 27, 28; 3 PLs  unknown.............  extant (Junak 2004,       A: erosion, nonnatives,  high military value.
                                                                               CNDDB 2013).              fire; E: movement,
                                                                                                         fire, climate.
Eel Cove Canyon (including        EO 26; 6 PLs........  unknown.............  extant (SERG 2010, CNDDB  A: erosion, nonnatives,  high military value.
 terraces).                                                                    2013).                    fire; E: movement,
                                                                                                         fire, climate.
Middle Island Plateau...........  EO 7; 6 PLs.........  unknown.............  extant (Tierra Data       A: land use, erosion,    high military value.
                                                                               2007).                    nonnatives, fire; E:
                                                                                                         movement, fire,
                                                                                                         climate.

[[Page 45409]]

 
Wilson Cove.....................  EO 11; 52 PLs.......  extant; 1981 CNDDB..  extant (SERG 2010)......  A: land use, erosion,    high military value.
                                                                                                         nonnatives, fire; E:
                                                                                                         movement, fire,
                                                                                                         climate, hybridization.
North Wilson Cove...............  EO 9; no PLs........  extant; 1959          Unknown.................  A: erosion, nonnatives;  high military value.
                                                         herbarium record.                               E: climate.
North Island Terraces...........  EO 15; no PLs.......  unknown.............  presumed extant (CNDDB    A: erosion, nonnatives;  medium military value.
                                                                               1996).                    E: movement, climate.
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                                                                    Castilleja grisea
--------------------------------------------------------------------------------------------------------------------------------------------------------
Thirst Canyon (including Vista    EO 3; 21 PLs........  extant; 1980 CNDDB..  extant (SERG 2010)......  A: nonnatives, fire; E:  medium military value.
 Canyon).                                                                                                climate.
Eagle Canyon (including Grove     EO 3; 50 PLs........  extant; 1979          extant (Tierra Data       A: land use, erosion,    low military value;
 Canyon).                                                herbarium record.     2006).                    nonnatives, fire; E:     area recently closed.
                                                                                                         movement, climate.
Bryce Canyon....................  EO 3, 50; 43 PLs....  extant; 1979 GIS      extant (SERG 2010, CNDDB  A: land use, erosion,    low military value;
                                                         data.                 2013).                    nonnatives, fire; E:     area recently closed.
                                                                                                         movement, climate.
Canchalagua Canyon (including     EO 3, 29; 56 PLs....  extant; 1963          extant (SERG 2011, CNDDB  A: land use, erosion,    low military value;
 south Mosquito Cove and                                 herbarium record.     2013).                    nonnatives, fire, fire   area recently closed.
 Matriarch Canyon).                                                                                      management; E:
                                                                                                         movement, climate.
Knob Canyon.....................  EO 2; 21 PLs........  extant; 1979 CNDDB..  extant (Tierra Data       A: land use, erosion,    low military value;
                                                                               2006, SERG 2008).         nonnatives, fire, fire   area recently closed.
                                                                                                         management; E:
                                                                                                         movement, climate.
Pyramid Head....................  EO 1; 25 PLs........  extant; 1965          extant (SERG 2011)......  A: land use, erosion,    high military value;
                                                         herbarium record.                               nonnatives, fire; E:     partially recently
                                                                                                         movement, climate.       closed.
Snake Canyon (including Sun       EO 1; 4 PLs.........  extant; 1939 CNDDB..  presumed extant (Junak    A: nonnatives, fire; E:  high military value;
 Point).                                                                       1997).                    fire, climate.           area closed.
Upper Chenetti Canyon...........  EO 34, 53; 1 PL.....  unknown.............  extant (Junak 2004,       A: nonnatives, erosion,  high military value;
                                                                               CNDDB 2013).              fire, fire management;   area closed.
                                                                                                         E: fire, climate.
Horse Beach Canyon..............  EO 25; 49 PLs.......  extant; 1939          presumed extant (Junak    A: land use, erosion,    high military value;
                                                         herbarium record.     2006).                    nonnatives, fire, fire   area closed.
                                                                                                         management; E:
                                                                                                         movement, fire,
                                                                                                         climate.
China Canyon....................  EO 25, 28, 50; 6 PLs  extant; 1939          presumed extant (Junak    A: land use, erosion,    high military value;
                                                         herbarium record.     1997; SERG 2009, CNDDB    nonnatives, fire, fire   area closed.
                                                                               2013).                    management; E:
                                                                                                         movement, fire,
                                                                                                         climate.
Red Canyon......................  EO 36; no PLs.......  extant; 1975          presumed extant (CNDDB    A: land use, erosion,    high military value;
                                                         herbarium record.     1986).                    nonnatives, fire, fire   area closed.
                                                                                                         management; E:
                                                                                                         movement, fire,
                                                                                                         climate.
Kinkipar Canyon.................  EO 52; 2 PLs........  unknown.............  extant (SERG 2006, CNDDB  A: nonnatives, fire; E:  medium military value.
                                                                               2013).                    climate.
Cave Canyon.....................  EO 17, 38; 9 PLs....  extant; 1980 CNDDB..  extant (SERG 2009, CNDDB  A: nonnatives, fire; E:  medium military value.
                                                                               2013).                    climate.
Horse Canyon....................  EO 26, 67; 6 PLs....  unknown.............  extant (SERG 2010, CNDDB  A: nonnatives, fire; E:  medium military value.
                                                                               2013).                    climate.
Upper Horse Canyon..............  EO 19; 1 PL.........  extant; 1979 CNDDB..  extant (Junak 2004).....  A: erosion, nonnatives,  medium military value.
                                                                                                         fire; E: climate.
SHOBA Boundary (north to and      EO 3; 55 PLs........  extant; 1965 CNDDB..  extant (Junak 2006, SERG  A: nonnatives; E:        medium military value.
 including Twin Dams Canyon).                                                  2011).                    climate.
Horton Canyon (including Stone    EO 3; 24 PLs........  extant; 1981 CNDDB..  extant (Junak 2006, SERG  A: erosion, nonnatives;  medium military value.
 and Burn's Canyons).                                                          2010).                    E: climate.

[[Page 45410]]

 
Lemon Tank Canyon (including      EO 3; 14 PLs........  unknown.............  extant (SERG 2010)......  A: land use, erosion,    low military value;
 Tota Canyon).                                                                                           nonnatives, fire; E:     area closed.
                                                                                                         movement, fire,
                                                                                                         climate.
Nanny Canyon....................  EO 13, 60; 3 PLs....  extant; 1979 CNDDB..  extant (Junak 2004,       A: nonnatives; E:        low military value;
                                                                               CNDDB 2013).              movement, climate.       area partially closed.
Larkspur Canyon (including        EO 14, 68; 15 PLs...  extant; 1981 CNDDB..  extant (SERG 2006-2011,   A: land use, erosion,    low military value.
 Chamish Canyon).                                                              CNDDB 2013).              nonnatives, fire; E:
                                                                                                         movement, fire,
                                                                                                         climate.
Box Canyon......................  EO 20, 66; 22 PLs...  extant; 1979 CNDDB..  extant (SERG 2011, CNDDB  A: nonnatives; E: fire,  low military value.
                                                                               2013).                    climate.
Upper Norton Canyon.............  EO 20; 6 PLs........  extant; 1979 CNDDB..  extant (SERG 2011)......  A: nonnatives; E: fire,  low military value.
                                                                                                         climate.
Middle Ranch Canyon.............  EO 24, 65; 8 PLs....  extant; 1981 CNDDB..  extant (SERG 2008, CNDDB  A: nonnatives; E:        low military value.
                                                                               2013).                    climate.
Waymuck Canyon..................  EO 22; 1 PL.........  unknown.............  extant (Junak 2004).....  A: nonnatives; E:        high military value.
                                                                                                         climate.
Plain northeast of Warren Canyon  EO 63, 64; 4 PLs....  unknown.............  extant (Tierra Data       A: land use, erosion,    medium military value.
                                                                               2007, CNDDB 2013).        nonnatives; E:
                                                                                                         movement, climate.
Seal Cove Terraces..............  EO 62; 2 PLs........  unknown.............  extant (CNDDB 1985, SERG  A: erosion, nonnatives,  high military value.
                                                                               2010, CNDDB 2013).        fire; E: movement,
                                                                                                         fire, climate.
Eel Cove Canyon (including        EO 61; 3 PLs........  unknown.............  extant (Junak 2004,       A: nonnatives, fire; E:  high military value.
 terraces).                                                                    CNDDB 2013).              movement, fire,
                                                                                                         climate.
Terrace Canyon (south to          EO 55, 56, 57, 58,    unknown.............  presumed extant (SERG     A: erosion, nonnatives;  high military value.
 terraces around Spray).           59, 69; 6 PLs.                              2004, CNDDB 2013).        E: movement, climate.
--------------------------------------------------------------------------------------------------------------------------------------------------------
\1\ EO: element occurrence, as defined and described according to the California Natural Diversity Database. PL: point locations of plants.
\2\ Threats identified in the listing rule for these two taxa include: Factor A: habitat modification by feral animals; Factor C: grazing by animals;
  Factor E: nonnative plants.
\3\ Current threats: Nonnatives = Nonnative Plants; Movement = Movement of Vehicles and Troops; Climate = Climate Change; Genetic = Genetic Diversity.
\4\ Military value as defined in the Navy's 2002 INRMP. Values defined according to the management emphasis, with high-value areas designated for
  maximum military use and low-value areas retaining the greatest flexibility for maintaining natural resource values.

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    (3) In the proposed rule, we discussed a study by Liston et al. 
(1990), who performed genetic analysis on 38 plants (6 Acmispon 
argophyllus var. argenteus and 32 Acmispon dendroideus var. traskiae) 
in the vicinity of Wilson Cove to determine the extent of hybridization 
between the two taxa (Liston et al. 1990, pp. 239-244). Liston et al. 
(1990, p. 240) detected 4 hybrids out of the 38 plants examined (11 
percent). Since publication of the proposed rule, we received 
information from a peer reviewer regarding a more recent study. Dr. 
Mitchell McGlaughlin (University of Northern Colorado, 2012, pers. 
comm.) in collaboration with Dr. Kaius Helenurm analyzed 219 A. d. var.

[[Page 45413]]

traskiae and A. argophyllus var. argenteus plants and found evidence of 
hybridization in 12 plants (approximately 5 percent). The hybrid plants 
were found at Wilson Cove, Pyramid Head, Bryce Canyon, Eagle Canyon, 
Waymuck Canyon (between 1 and 4 hybrids were documented at each site 
out of an average of 20 plants sampled per site) (McGlaughlin 2012, 
pers. comm). McGlaughlin (2012, pers. comm.) concludes that the data 
indicate hybridization between these taxa is relatively rare and may 
not represent a significant threat to A. d. var. traskiae. Further 
details of this study are discussed below in the Five-Factor Analysis 
for A. d. var. traskiae.

Recovery

    Section 4(f) of the Act directs us to develop and implement 
recovery plans for the conservation and survival of endangered and 
threatened species unless we determine that such a plan will not 
promote the conservation of the species. The Act directs that, to the 
maximum extent practicable, we incorporate into each plan:
    (1) Site-specific management actions that may be necessary to 
achieve the plan's goals for conservation and survival of the species;
    (2) Objective, measurable criteria, which when met would result in 
a determination, in accordance with the provisions of section 4 of the 
Act, that the species be removed from the list; and
    (3) Estimates of the time required and cost to carry out the plan.
    Revisions to the list (adding, removing, or reclassifying a 
species) must reflect determinations made in accordance with sections 
4(a)(1) and 4(b) of the Act. Section 4(a)(1) requires that the 
Secretary determine whether a species is endangered or threatened (or 
not) because of one or more of five threat factors. Objective, 
measurable criteria, or recovery criteria contained in recovery plans, 
help indicate when we would anticipate an analysis of the five threat 
factors under section 4(a)(1) would result in a determination that a 
species is no longer endangered or threatened. Section 4(b) of the Act 
requires that the determination be made ``solely on the basis of the 
best scientific and commercial data available.''
    While recovery plans are intended to provide guidance to the 
Service, States, and other partners on methods of minimizing threats to 
listed species and on criteria that may be used to determine when 
recovery is achieved, they are not regulatory documents and cannot 
substitute for the determinations and promulgation of regulations 
required under section 4(a)(1) of the Act. Determinations to remove a 
species from the list made under section 4(a)(1) of the Act must be 
based on the best scientific and commercial data available at the time 
of the determination, regardless of whether that information differs 
from the recovery plan.
    In the course of implementing conservation actions for a species, 
new information is often gained that requires recovery efforts to be 
modified accordingly. There are many paths to accomplishing recovery of 
a species, and recovery may be achieved without all criteria being 
fully met. For example, one or more recovery criteria may have been 
exceeded while other criteria may not have been accomplished, yet the 
Service may judge that, overall, the threats have been minimized 
sufficiently, and the species is robust enough, that the Service may 
reclassify the species from endangered to threatened or perhaps delist 
the species. In other cases, recovery opportunities may have been 
recognized that were not known at the time the recovery plan was 
finalized. These opportunities may be used instead of methods 
identified in the recovery plan.
    Likewise, information on the species may be learned that was not 
known at the time the recovery plan was finalized. The new information 
may change the extent that criteria need to be met for recognizing 
recovery of the species. Overall, recovery of species is a dynamic 
process requiring adaptive management, planning, implementing, and 
evaluating the degree of recovery of a species that may, or may not, 
fully follow the guidance provided in a recovery plan.
    Thus, while the recovery plan provides important guidance on the 
direction and strategy for recovery, and indicates when a rulemaking 
process may be initiated, the determination to remove a species from 
the Federal List of Endangered and Threatened Plants (50 CFR 17.12) is 
ultimately based on an analysis of whether a species is no longer 
endangered or threatened. The following discussion provides a brief 
review of recovery planning for Acmispon dendroideus var. traskiae and 
Castilleja grisea, as well as an analysis of the recovery criteria and 
goals as they relate to evaluating the status of the taxa.
    In 1984, we published the California Channel Islands Species 
Recovery Plan (Recovery Plan) that addresses seven listed taxa 
(including Acmispon dendroideus var. traskiae and Castilleja grisea) 
and three candidate taxa distributed among three of the Channel Islands 
(USFWS 1984). Recovery plans are intended to guide actions to recover 
listed species and to provide measurable objectives against which to 
measure progress towards recovery. Following guidance in effect at that 
time, the Recovery Plan was not focused on criteria that specifically 
addressed the point at which threats identified for each species in the 
listing rule would be removed or sufficiently ameliorated. Given the 
threats in common to the species addressed, the Recovery Plan is broad 
in scope and focuses on restoration of habitats and ecosystem function. 
Instead of specific criteria, it included six general objectives 
covering all of the plant and animal species:
    Objective 1: Identify present adverse impacts to biological 
resources and strive to eliminate them.
    Objective 2: Protect known resources from further degradation by: 
(a) Removal of feral herbivores, carnivores, and selected exotic plant 
species; (b) control of erosion in sensitive locations; and (c) direct 
military operations and adverse recreational uses away from 
biologically sensitive areas.
    Objective 3: Restore habitats by revegetation of disturbed areas 
using native species.
    Objective 4: Identify areas of San Clemente Island where habitat 
restoration and population increase of certain addressed taxa may be 
achieved through a careful survey of the island and research on habitat 
requirements of each taxon.
    Objective 5: Delist or upgrade the listing status of those taxa 
that achieve vigorous, self-sustaining population levels as the result 
of habitat stabilization, restoration, and preventing or minimizing 
adverse human-related impacts.
    Objective 6: Monitor effectiveness of recovery effort by 
undertaking baseline quantitative studies and subsequent followup work 
(USFWS 1984, pp. 106-107).
    Progress has been made toward achieving these objectives. Our 
review of the Recovery Plan focuses on the actions identified that 
promote the recovery of Acmispon dendroideus var. traskiae and 
Castilleja grisea. The Recovery Plan adopts a generalized strategy of 
eliminating or controlling selected nonnative species and restoring 
habitat conditions on the Channel Islands to support viable, self-
sustaining occurrences of each of the addressed taxa. The Recovery Plan 
states that ``[o]nce the threats to these taxa have been removed or 
minimized and the habitats are restored, adequately protected, and 
properly managed, reclassification for some taxa may be considered'' 
(USFWS 1984, p. 108).

[[Page 45414]]

Actions specified in the Recovery Plan that are pertinent to recovery 
of the endangered San Clemente Island plant taxa include:
    (1) Removing feral animals;
    (2) Removing or controlling selected nonnative plants;
    (3) Controlling erosion;
    (4) Revegetating eroded and disturbed areas;
    (5) Reintroducing and reestablishing listed plant species 
populations;
    (6) Modifying existing management plans to minimize habitat 
disturbance and incorporate recovery actions into natural resource 
management plans;
    (7) Protecting habitat by minimizing habitat loss and disturbance 
and by preventing the introduction of additional nonnative organisms;
    (8) Determining the habitat and other ecological requirements of 
the listed plant taxa (such as reproductive biology and fire 
tolerance);
    (9) Evaluating the success of management actions;
    (10) Increasing public support for recovery efforts; and
    (11) Using existing laws and regulations to protect each taxon.

Recovery Plan Implementation

    The primary objective of the Recovery Plan is to restore endangered 
and threatened species to nonlisted status. Though the specific sizes 
and numbers of occurrences needed for self-sustaining populations for 
each species were not identified, habitat restoration and protection 
that would result in achieving self-sustaining populations were 
discussed (see Objective 5). The Recovery Plan stated that 
reclassification of these taxa may be considered after threats have 
been removed or sufficiently minimized and the habitat is restored. 
Specific criteria for determining when threats have been removed or 
sufficiently minimized were not identified in the Recovery Plan, but 
six objectives were described in general to achieve recovery of the 
Channel Island species. This section provides a summary of actions and 
activities that have been implemented according to the 1984 Recovery 
Plan (USFWS 1984, pp. 106-107) and contribute to achievement of these 
objectives.

Objective 1: Identify present adverse impacts to biological resources 
and strive to eliminate them.

    The Navy has taken significant steps to eliminate incidental 
impacts to Acmispon dendroideus var. traskiae and Castilleja grisea by 
educating Navy personnel stationed on San Clemente Island. The Navy 
also created the position of Island Operations Manager to increase 
support for recovery efforts on the island. This individual's role is 
to act as a liaison between the Navy's natural resource branch and 
other island users (Larson 2009, pers. comm.). The Island Operations 
Manager educates users of the island to the uniqueness and fragility of 
the island's ecosystem, and briefs new operational groups as they come 
onto the island (Larson 2009, pers. comm.). These briefings inform 
operational groups of the Navy's natural resource management 
responsibilities under the law, and may include additional information 
about threats to, and locations of, listed taxa.
    The Recovery Plan recommends that existing laws and regulations be 
used to protect Acmispon dendroideus var. traskiae and Castilleja 
grisea from threats on San Clemente Island. Based on the occurrence of 
these taxa on federally owned land, the primary laws with potential to 
protect them include the National Environmental Policy Act (NEPA) and 
the Act. NEPA requires Federal action agencies to integrate 
environmental values into their decision making processes by 
considering the environmental impacts of their proposed actions and 
reasonable alternatives to those actions. The Navy has implemented NEPA 
since its enactment in 1970. Likewise, the Navy has a history of 
consultation and coordination with us under the Act regarding the 
effects of various San Clemente Island activities on federally listed 
species since taxa on the island were first listed in 1977. Finally, 
pursuant to the Sikes Act Improvement Act (Sikes Act), the Navy adopted 
an Integrated Natural Resources Management Plan (INRMP) for San 
Clemente Island in 2002 that helps guide the management and protection 
of these taxa (Navy 2002, pp. 1.1-8.12).
    The Sikes Act (16 U.S.C. 670) authorizes the Secretary of Defense 
to develop cooperative plans with the Secretaries of Agriculture and 
the Interior for natural resources on public lands (see Sikes Act 
Improvement Act section under Factor D. Inadequacy of Existing 
Regulatory Mechanisms below for further discussion). An INRMP is a plan 
that is intended ``. . . to guide installation commanders in managing 
their natural resources in a manner that is consistent with the 
sustainability of those resources while ensuring continued support of 
the military mission'' (Navy 2002, p. 1-1). To achieve this, the INRMP 
identifies goals and objectives for specified management units and 
their natural resources. The following objectives have been 
incorporated as part of the INRMP to address the Recovery Plan task of 
incorporating recovery actions into existing management plans (Navy 
2002, pp. 4-38-4-40):
    (1) Protect, monitor, and restore plants and cryptograms (soil 
crusts composed of living cyanobacteria, algae, fungi, or moss) in 
order to manage for their long-term sustainability on the island;
    (2) Conduct status surveys for listed plants;
    (3) Ensure that Management Focus Plants have a network of suitable 
sites;
    (4) Perform studies to determine the pollinators of Acmispon 
dendroideus var. traskiae and Castilleja grisea; and
    (5) Continue to apply genetic research and management approaches to 
rare plant management.
    Through these mechanisms, the Navy is required to identify and 
address all threats to these species during the INRMP planning process. 
If possible, threats are ameliorated, eliminated, or mitigated through 
this procedure. The Navy has strived to fulfill this objective through 
both internal planning (INRMP) and through compliance with Federal law 
(consultations with us under the Act and preparing environmental review 
documents under NEPA). As discussed below under the five factors, the 
actions taken by the Navy under the INRMP have not completely 
eliminated all adverse impacts, but their efforts have greatly reduced 
many of the current threats impacting these taxa. These contributions 
to the elimination of adverse impacts partially fulfill, but do not 
fully achieve, the objective for the two species.

Objective 2: Protect known resources from further degradation by: (a) 
removal of feral herbivores, carnivores, and selected exotic plant 
species; (b) control of unnatural erosion in sensitive locations; and 
(c) directing military operations and adverse recreational uses away 
from biologically sensitive areas.

    In 1992, the Navy fulfilled a major part of this objective by 
removing the last of the feral goats and pigs from San Clemente Island. 
Nonnative plants have also been targeted for removal from San Clemente 
Island, and efforts to control nonnatives have been implemented on an 
annual basis since approximately 1993 (O'Connor 2009a, pers. comm.; 
Munson 2013, pers. comm.). The specific nonnative plants targeted and 
amount of money allocated to this program are adjusted on an annual 
basis (O'Connor 2009b, pers. comm.; Munson 2013, pers. comm.). The 
effectiveness of this program was improved by providing authorization 
to apply herbicides (O'Connor 2009b, pers.

[[Page 45415]]

comm.; Munson 2013, pers. comm.). Priorities in the nonnative plant 
program are currently focused on new nonnatives to the island and 
particularly destructive nonnative species.
    The Navy is also taking steps to minimize the effects of erosion on 
the island. Erosion control measures are being incorporated into 
project designs to minimize the potential to exacerbate existing 
erosion (O'Connor 2009c, pers. comm.; Munson 2013, pers. comm.). With 
the expansion of military operational areas, the Navy committed to 
prepare and implement an erosion control plan that will minimize soil 
erosion within and adjoining the operational areas (Navy 2008b, pp. 5-
30; USFWS 2008 p. 62). The Navy is nearing finalization of the erosion 
control plan, and has agreed not to conduct training activities that 
may lead to impacts from erosion until the plan is successfully 
implemented (Munson 2013, pers. comm.). The Navy is using best 
management practices (BMPs) when creating and approving projects that 
might contribute to erosion on the island (Munson 2013, pers. comm.). 
It is, however, unclear whether erosion control measures will be 
implemented consistently in areas that are closed to monitoring and 
access due to unexploded ordnance. The proposed erosion control plan 
includes development and application of BMPs such as: establishing 
setbacks and buffers from steep slopes, drainages, and sensitive 
resources; constructing site-specific erosion control structures; 
conducting revegetation and routine maintenance; and monitoring and 
adjusting the BMPs as appropriate. The Navy has taken steps to reduce 
the threat of erosion on the island and contribute to the achievement 
of this objective.
    The Navy is taking precautions to avoid plants when possible to 
minimize direct impacts to Acmispon dendroideus var. traskiae and 
Castilleja grisea resulting from military activities. For example, in 
the Military Operations and Fire Management Plan (MOFMP), the Navy 
proposed to develop a Training Area Range (TAR) that contained A. d. 
var. traskiae within its boundaries. After consultation with the 
Service, the Navy revised these boundaries to avoid most of the A. d. 
var. traskiae and minimize the impact of training on the species (USFWS 
2008, p. 118).
    This objective has been largely met for Acmispon dendroideus var. 
traskiae and Castilleja grisea. Feral herbivores have been removed, 
erosion control measures are being implemented, and military activities 
are avoiding direct impacts to plants whenever possible. The Navy is 
also developing an erosion control plan for military activities.

Objective 3: Restore habitats by revegetation of disturbed areas using 
native species.

    Since 2001, the Navy has contracted with the San Diego State 
University Soil Ecology and Restoration Group (SERG) to propagate and 
outplant (transplant individuals from the greenhouse to vegetative 
communities) native species on the island (Howe 2009, pers. comm.; 
Munson 2013, pers. comm.). The SERG has outplanted about 4,000 native 
plants in the past 5 years, and thousands of native plants were 
outplanted by SERG before that time (Munson 2013, pers. comm.). There 
have been about 4,000 recruits documented at outplanting sites (Munson 
2013, pers. comm.). This program has not included propagation and 
outplanting of listed plant taxa, except in one instance to replace 
Acmispon dendroideus var. traskiae plants that were extirpated during a 
scrap metal removal project (Munson 2011, pers. comm.). The outplanting 
of native species is primarily focused on restoring sensitive habitats 
on the island and improving habitat conditions for endangered animal 
taxa (such as the San Clemente loggerhead shrike (Lanius ludovicianus 
mearnsi)), with some revegetation of eroded and disturbed areas 
(O'Connor 2009b, pers. comm.; Munson 2013, pers. comm.). Although only 
one of the restoration efforts was specifically designed for the 
benefit of one of the plant taxa addressed in this rule, restoration of 
the island's vegetation communities should help improve habitat 
suitability for both taxa by reducing the spread of invasive nonnative 
plants and restoring ecological processes. Although progress has been 
made toward restoring disturbed areas, areas still exist (e.g., 
especially within SHOBA) that need further restoration of native 
species. Therefore, while restoration is occurring, the objective has 
not been fully met at this time for Acmispon dendroideus var. traskiae 
and Castilleja grisea.

Objective 4: Identify areas of San Clemente Island where habitat 
restoration and population increase of certain addressed taxa may be 
achieved through a careful survey of the island and research on habitat 
requirements of each taxon.

    A number of studies have addressed the ecology, taxonomy, and 
genetics of Acmispon dendroideus var. traskiae and Castilleja grisea 
since they were listed. Evans and Bohn (1987, pp. 537-545) observed 
insects on plants, collected seeds, and studied the germination of A. 
d. var. traskiae and C. grisea. Junak and Wilken (1998, pp. 1-426) 
studied flowering and fruiting in natural populations and performed 
germination trials with collected seeds from both taxa. Allan (1999, 
pp. 46-105) observed pollinators and germinated seeds collected from A. 
d. var. traskiae. Liston et al. (1990) confirmed suspected 
hybridization between A. d. var. traskiae and A. argophyllus var. 
argenteus using genetic techniques. Additionally, Allan (1999, pp. 46-
105) surveyed the genetics of a number of taxa within the genus Lotus, 
including a group that includes A. d. var. traskiae, to compare genetic 
divergence between California mainland and island taxa. Helenurm et al. 
(2005, pp. 1221-1227) studied patterns of genetic variation among 
occurrences of C. grisea. These studies have helped to elucidate 
potential plant pollinators and mating systems, develop plant 
propagation techniques, and design management strategies that take into 
consideration genetic factors. There is a growing body of knowledge on 
the habitat requirements and life history of listed species on the 
island. This research, encouraged and supported by the Navy, will 
continue to contribute to achieving Objective 4 and to planning 
successful restoration of habitat and recovery of both taxa. Additional 
surveys and research necessary to identify appropriate restoration, 
management, and recovery actions include: research on the degree of 
hybridization in A. d. var. traskiae and study of the host plants of C. 
grisea. Thus, this objective has not been fully achieved at this time 
for these taxa.

Objective 5: Delist or upgrade the listing status of those taxa that 
achieve vigorous, self-sustaining population levels as the result of 
habitat stabilization, restoration, and preventing or minimizing 
adverse human-related impacts.

    The distributions of Acmispon dendroideus var. traskiae and 
Castilleja grisea have increased substantially over much of the island 
since listing. There are now vigorous, self-sustaining occurrences of 
A. d. var. traskiae and C. grisea on San Clemente Island, as described 
above. Threats to these taxa have also been reduced due to management 
actions carried out by the Navy (USFWS 2007a, pp. 1-22; USFWS 2007b, 
pp. 1-19). Although the goal of delisting has not yet been met, the 
objective to improve the status of A. d. var. traskiae and C. grisea to 
the point they can be reclassified has been met.

[[Page 45416]]

    Objective 6: Monitor effectiveness of recovery efforts by 
undertaking baseline quantitative studies and subsequent followup work.
    To evaluate the success of management actions undertaken to benefit 
listed plant taxa, the Navy implemented a long-term vegetation 
monitoring study (Tierra Data Inc. 2005, pp. i-96 and Appendices) and 
commissioned sensitive plant surveys (Junak and Wilken 1998, pp. 1-416; 
Junak 2006, pp. 1-176). Overall, vegetation trend monitoring reveals 
that the cover of both native and nonnative plant species has changed 
since the removal of feral goats and pigs, but the response of 
individual species and vegetative communities has varied, with some 
species and communities exhibiting greater changes than others. 
Discerning long-term vegetative community trends is difficult because 
the vegetative community study was preceded by a wet year that likely 
had a strong influence on the data collected (Tierra Data Inc. 2005, p. 
29). Within the few monitoring plots that included Acmispon dendroideus 
var. traskiae and Castilleja grisea, occurrence counts varied among 
years and did not provide a clear indication of trend (Tierra Data Inc. 
2005, pp. 79-80). The clearest indication of the success of feral 
animal removals for listed taxa was obtained from rare plant survey 
data (Junak and Wilken 1998, pp. 1-416, GIS data; Junak 2006, pp. 1-
176, GIS data; Tierra Data Inc. 2008, pp. 1-24, appendices and GIS 
data; SERG 2009-2011, GIS data). These surveys have added substantially 
to the number of documented occurrences of each taxon.
    Rare plant surveys and island flora studies have documented many 
more locations occupied by Acmispon dendroideus var. traskiae and 
Castilleja grisea than were known at the time of listing. Since 
listing, 23 additional occurrences of A. d. var. traskiae, and 10 
additional occurrences of C. grisea have been documented (Table 1). It 
is unknown whether the higher number of occurrences represents 
detections due to increased survey efforts, recruitment from the seed 
bank, or recolonization by the plants as a result of management actions 
implemented by the Navy to conserve listed species on the island. 
However, this improvement in the documented status of Acmispon 
dendroideus var. traskiae and Castilleja grisea suggests that feral 
goats and pigs were a significant threat to each. Thus, their improved 
status may largely be due to the implementation of a single action 
identified in the Recovery Plan. Because portions of the island remain 
closed, monitoring effectiveness of recovery efforts is not being fully 
implemented. Occurrences for each species, as described in the proposed 
rule, are closed to access for monitoring or any recovery efforts. 
Thus, Objective 6 cannot be fully met for the two taxa under current 
operational closure directives.

Summary of Recovery Plan Implementation

    In summary, while the Recovery Plan does not include taxon-specific 
downlisting or delisting criteria for measuring the recovery of 
Acmispon dendroideus var. traskiae and Castilleja grisea, many of the 
actions identified in the Recovery Plan have been implemented to 
benefit these taxa. Most significantly, the Navy removed feral goats 
and pigs from San Clemente Island in 1992. The improvement in the 
documented status of each of these listed plant taxa suggests that the 
removal of these animals was integral to establishing vigorous, self-
sustaining occurrences.
    Threats are reduced in areas occupied by Acmispon dendroideus var. 
traskiae and Castilleja grisea, and many of the objectives have been 
met in part or full for these two taxa. Additionally, the ecology and 
genetics of each of these taxa have been studied, and a number of 
programs are now in place to improve habitat suitability, prevent 
introductions of nonnative species, guide and track management efforts, 
and protect occurrences of these plant taxa. We investigated other 
potential threats for these taxa and concluded that they do not pose 
significant impacts at all occurrences. Based on our review of the 
Recovery Plan, we conclude that the status of Acmispon dendroideus var. 
traskiae and Castilleja grisea has improved due to activities being 
implemented by the Navy on San Clemente Island. The effects of these 
activities on the status of both taxa are discussed in further detail 
below.

Summary of Comments and Recommendations

    In the proposed rule published on May 16, 2012 (77 FR 29078), we 
requested that all interested parties submit written comments on the 
proposal by July 16, 2012. We also contacted appropriate Federal and 
State agencies, scientific experts and organizations, and other 
interested parties and invited them to comment on the proposal. 
Newspaper notices inviting general public comment were published in the 
San Diego Union-Tribune. We did not receive any requests for a public 
hearing.
    During the comment period for the proposed rule, we received two 
comment letters (one from a peer reviewer and one from the Navy) 
directly addressing the proposed reclassification of Acmispon 
dendroideus var. traskiae and Castilleja grisea with threatened status. 
All substantive information provided during the comment period has 
either been incorporated directly into this final determination or 
addressed below.

Peer Review

    In accordance with our peer review policy published on July 1, 1994 
(59 FR 34270), we solicited expert opinion from four knowledgeable 
individuals with scientific expertise that included familiarity with 
the two plant taxa and their habitat, biological needs, recovery 
efforts, and threats. We received a response from one of the peer 
reviewers.
    We reviewed all comments received from the peer reviewer for 
substantive issues and new information regarding the listing of 
Acmispon dendroideus var. traskiae and Castilleja grisea. In general, 
the peer reviewer expressed support for reclassifying the two taxa as 
threatened, and supported our finding that downlisting of Malacothamnus 
clementinus is not warranted at this time. The peer reviewer also 
provided additional information about A. d. var. traskiae, and provided 
general technical and grammatical corrections. The peer reviewer 
expressed four comments that are addressed in the following summary and 
incorporated into the final rule as appropriate.

Peer Reviewer Comments

    (1) Comment: The peer reviewer expressed agreement with our finding 
regarding Malacothamnus clementinus (downlisting not warranted), but 
was concerned that portions of the island are closed to biological 
resource managers and the effects of these closures may greatly impact 
the management and survival of the species. The reviewer indicated that 
being able to access the closed sites will be important to future 
determinations regarding the status of the species. The peer reviewer 
also expressed concern with other aspects of our discussion of M. 
clementinus, its biology, and threats.
    Our Response: We agree that access to all sites supporting 
Malacothamnus clementinus occurrences for monitoring and management of 
the species and its habitat is a consideration for future 
determinations regarding the status of the plant. We will continue to 
work with the Navy to find ways to monitor and manage occurrences in 
areas that are closed to resource managers.

[[Page 45417]]

    Because we found downlisting of Malacothamnus clementinus not 
warranted in our 2012 finding (77 FR 29078), it is not addressed in 
this document. However, we appreciate the peer reviewer's comments and 
suggestions, and will consider them when evaluating the species' status 
in the future.
    (2) Comment: The peer reviewer expressed agreement with our finding 
regarding Acmispon dendroideus var. traskiae (downlisting is 
warranted). The reviewer also provided summaries of unpublished 
conservation genetics data for the taxon, suggesting that: (a) 
Hybridization is occurring between A. d. var. traskiae and A. 
argophyllus var. argenteus, but at a lower level than suggested in 
previous work by Liston et al. (1990); and (b) the occurrence at Wilson 
Cove has been modified over time by translocation of A. d. var. 
traskiae plants from throughout the island to that location.
    Our Response: We have incorporated these data into this final 
downlisting rule where appropriate.
    (3) Comment: The peer reviewer expressed agreement with our finding 
regarding Castilleja grisea (downlisting is warranted) and our proposal 
to downlist the species.
    Our Response: We appreciate the peer reviewer's review of our 
finding and proposal to downlist Castilleja grisea.
    (4) Comment: The peer reviewer identified technical and grammatical 
errors in the preamble of our finding and proposed downlisting rule.
    Our Response: We thank the reviewer for these observations and we 
made corrections in this final downlisting rule where appropriate.

Comments From U.S. Navy

    (5) Comment: The Navy expressed appreciation for our recommendation 
to downlist Castilleja grisea and Acmispon dendroideus var. traskiae, 
and encouraged us to move forward with a final downlisting rule. 
However, the Navy did not agree with our finding regarding 
Malacothamnus clementinus (downlisting not warranted) and explained why 
they believe this species should also be downlisted. They also provided 
additional information regarding the current status and ongoing 
management of M. clementinus.
    Our Response: We thank the Navy for their review. This final rule 
reclassifies Castilleja grisea and Acmispon dendroideus var. traskiae 
from endangered to threatened.
    On May 16, 2012, in response to a petition seeking its downlisting, 
the Service made a finding that downlisting was not warranted for 
Malacothamnus clementinus (77 FR 29078). The 2012 finding was finalized 
based upon the best available information, and it constitutes our final 
determination on the subject petition for that species, in accordance 
with section 4(b)(3)(B)(i) of the Act. Malacothamnus clementinus will 
therefore not be evaluated in this document. However, we thank the Navy 
for the additional information they provided, which will be considered 
when we evaluate the status of M. clementinus in the future. While not 
addressed in this document, we will through separate correspondence 
respond to the Navy's comments regarding Malacothamnus clementinus.

Summary of Changes From Proposed Rule

    We have not made any substantive changes in this final rule, based 
on the comments that were received during the comment period. The two 
commenters were in favor of downlisting Acmispon dendroideus var. 
traskiae and Castilleja grisea (see Summary of Comments and 
Recommendations section above). The range of both taxa has expanded 
since listing, and the threats continue to be reduced through 
conservation actions implemented by the Navy. Therefore, as proposed, 
we are reclassifying A. d. var. traskiae and C. grisea from endangered 
to threatened.

Summary of Factors Affecting the Taxa

    Section 4 of the Act and its implementing regulations (50 CFR 424) 
set forth procedures for listing species, reclassifying species, or 
removing species from the Federal Lists of Endangered and Threatened 
Wildlife and Plants. ``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)). Once the ``species'' is determined, we 
then evaluate whether that species may be endangered or threatened 
because of one or more of the five factors described in section 4(a)(1) 
of the Act. Those factors are:
    (A) The present or threatened destruction, modification, or 
curtailment of its habitat or range;
    (B) Overutilization for commercial, recreational, scientific, or 
educational purposes;
    (C) Disease or predation;
    (D) The inadequacy of existing regulatory mechanisms; or
    (E) Other natural or manmade factors affecting its continued 
existence.
    We must consider these same five factors in reclassifying or 
delisting a species. Listing, reclassifying, or delisting may be 
warranted based on any of the above threat factors, either singly or in 
combination. For species that are already listed as threatened or 
endangered, an 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.
    Under section 3 of the Act, a species is ``endangered'' if it is in 
danger of extinction throughout all or a significant portion of its 
range, and is ``threatened'' if it is likely to become endangered in 
the foreseeable future throughout all or a significant portion of its 
range. The word ``range'' 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. The ``foreseeable future'' is the period of time over which 
events or effects reasonably can or should be anticipated, or trends 
extrapolated. Based on currently available data and this analysis, the 
period over which we can anticipate or extrapolate trends is 
approximately 40 years. This determination is based on the following: 
We listed Acmispon dendroideus var. traskiae and Castilleja grisea 36 
years ago. Since then, recovery has been slow, but the status of 
Acmispon dendroideus var. traskiae and Castilleja grisea has improved 
in response to the complete removal of goats and pigs in 1992. 
Additionally, the Navy has worked to develop and implement management 
plans to reduce threats for the conservation of listed plants and their 
habitat on the island. As a result, we have observed an increase in the 
distribution and abundance of both taxa over the past 20 years. 
However, we anticipate military land use and other threats will 
continue to affect both species throughout their ranges into the 
future. While threats remain on the island, management plans are in 
place, and we now have a better understanding of how the status of 
these taxa and habitats may continue to recover on the island. We 
expect that it will take an equivalent number of years of additional 
monitoring to determine the effectiveness of current and planned 
management in reducing and ameliorating those threats and determine the 
species' response to those efforts. Therefore, based on currently 
available data and for the purposes of this analysis, we acknowledge 
the foreseeable future, the period over which we can anticipate effects 
or extrapolate trends, is approximately 40 years.

[[Page 45418]]

    We considered and evaluated the best available scientific and 
commercial information for this analysis. Information pertaining to 
Acmispon dendroideus var. traskiae and Castilleja grisea in relation to 
the five factors provided in section 4(a)(1) of the Act is discussed 
below. For the purposes of this analysis, we will first evaluate 
whether the currently listed species should be considered threatened or 
endangered throughout all their ranges. If we determine that the 
species are threatened, then we will consider whether there are any 
significant portions of their ranges where they are in danger of 
extinction or likely to become endangered within the foreseeable 
future. The five factors listed under section 4(a)(1) of the Act and 
their applications to A. d. var. traskiae and C. grisea are presented 
below.

Acmispon dendroideus var. traskiae (San Clemente Island lotus)

    In the 2007 status review, we acknowledged that the predominant 
threat at listing (grazing and rooting from feral herbivores) was 
ameliorated with the removal of goats and pigs from the island in 1992 
(USFWS 2007a, pp. 1-22). Threats to Acmispon dendroideus var. traskiae 
identified in the 2007 status review include: (1) Erosion, (2) invasive 
nonnative species, (3) fire, (4) land use, (5) lack of access to SHOBA, 
and (6) hybridization. Impacts to habitat from erosion, nonnatives, 
fire, and land use are discussed below under Factor A, and 
hybridization is discussed under Factor E below. In 2007, lack of 
access to SHOBA was described as a threat because it ``can undermine 
the effectiveness of invasive species control programs that often rely 
on treatments during a particular time in an organism's life cycle'' 
(USFWS 2007a, p. 16). While lack of access to portions of the island 
still limits our ability to fully assess the status of the taxon, lack 
of access to SHOBA is not considered a threat. Rather, the lack of 
access contributes to uncertainty in assessing threats and the taxon's 
response to those threats and to actions taken to ameliorate threats. 
In this finding, we focus on threats responsible for impacting the 
listed entity or habitat where it occurs, not our inability to access 
these areas.

Factor A. The Present or Threatened Destruction, Modification, or 
Curtailment of Its Habitat or Range

    The final listing rule (42 FR 40682; August 11, 1977) identified 
the following threats to Acmispon dendroideus var. traskiae: habitat 
alteration and destruction, competition from nonnative species, and 
direct predation caused by nonnative herbivores (goats and pigs). With 
the final removal of these herbivores in 1992, the vegetation on San 
Clemente Island has rebounded, and the status of many rare plant 
occurrences, including A. d. var. traskiae, has improved (Junak and 
Wilken 1998, p. 18; Junak 2006a, pers. comm.). Although the principle 
threat to A. d. var. traskiae identified in the final listing rule has 
been eliminated, erosion as a result of overgrazing and invasive 
nonnative plants are ongoing threats to habitat of A. d. var. traskiae. 
We also identified habitat alteration and disturbance from the Navy's 
use of the island for military operations and training as threats to 
the habitats occupied by A. d. var. traskiae in the Recovery Plan and 
the 2007 status review (USFWS 1984, pp. 58-63; USFWS 2007a, pp. 11, 
12). Fire is an additional threat to habitat recognized since listing. 
Below, we discuss impacts of the following threats that affect the 
habitat or range of A. d. var. traskiae: (1) Land use, (2) erosion, (3) 
nonnative plants, and (4) fire.
Land Use
    In this section we describe threats considered likely based on land 
use designations. At the time of listing, the Navy had acquired the 
island, although military operations were not intense and feral grazers 
were still on the island. Since listing, training activities and land 
use by the Navy have increased significantly. Since it was first listed 
in 1977, the Navy has consulted and coordinated with us regarding the 
effects of various activities on Acmispon dendroideus var. traskiae and 
Castilleja grisea (USFWS 2002, pp. 1-21; USFWS 2003, p. 1; USFWS 2004, 
pp. 1-2; USFWS 2008, pp. 1-237). These consultations have addressed 
numerous activities including training, fire management, the 
installation of wind turbines, missile tests, maintenance and 
construction of Ridge Road and the assault vehicle maneuver route, 
construction of berthing buildings, and development and use of training 
areas.
    Most recently, training activities approved in the Military 
Operations and Fire Management Plan (MOFMP) include substantial 
increases in vehicle and foot traffic in the Infantry Operations Areas 
(IOA) (Navy 2008b, pp. 2-1 to 2-52). Examples of projected increases in 
training levels relative to a representative year of training prior to 
2008 include: 11 percent increase in naval fire support exercises, 23 
percent increase in land bombing exercises, 150 percent increase in 
explosive ordnance disposal, 60 percent increase in artillery 
operations, 90 percent increase in land demolitions, 19 percent 
increase in land navigation exercises, and 96 percent increase in SEAL 
platoon operations (USFWS 2008, p. 11).
    We considered the status and distribution of Acmispon dendroideus 
var. traskiae, and the various management, avoidance, and minimization 
measures in place, including those the Navy will implement with the new 
MOFMP, in our 2008 biological opinion (we also considered impacts to 
Castilleja grisea). We concluded that ongoing and likely impacts from 
the proposed increases in military training activities would not 
jeopardize the continued existence of A. d. var. traskiae and C. grisea 
(USFWS 2008, p. 90).
    Eight of 29 Acmispon dendroideus var. traskiae occurrences (28 
percent) occur within SHOBA, which supports a variety of training 
operations involving both live and inert munitions fire (Eagle Canyon, 
Bryce Canyon, North Mosquito Cove, Canchalagua Canyon, Thirst Canyon, 
Cave Canyon, Horse Canyon, and Pyramid Head). Most of the land area of 
the SHOBA serves as a buffer from the Impact Areas, although military 
training in parts of SHOBA could result in habitat alteration due to 
off-highway vehicle and large-scale troop movements through the 
military impact and training areas (IOA and AVMA). Most of the 
occurrences within SHOBA are located along the eastern escarpment, 
which should provide a level of protection from training impacts. 
Large-scale troop movements are less likely in this area, because of 
the extreme slope of the escarpment. Training impacts may become 
difficult to assess and manage with the recent closure of the eastern 
escarpment due to unexploded ordnance.
    Four of 29 Acmispon dendroideus var. traskiae occurrences (14 
percent) are within or partially within the IOA and may experience 
direct impacts (Canchalagua Canyon, Middle Island Plateau, North 
Mosquito Cove, and Eagle Canyon). Nine occurrences (31 percent) are 
within 1,000 ft (305 m) of the IOA, and could experience diffuse or 
accidental impacts associated with troop movement (Upper Middle Ranch 
Canyon, Warren Canyon, Horton Canyon, Upper Wallrock Canyon, Tota 
Canyon, Lemon Tank Canyon, Larkspur Canyon, Chamish Canyon, and North 
Island Terraces). These areas near the IOA are at less risk of 
disturbance than the occurrences within the IOA, and would only be 
likely to sustain diffuse or accidental impacts to the habitat. While 
the increase in military training

[[Page 45419]]

could affect the taxon, the Navy through implementation of the INRMP 
will avoid and minimize impacts to individuals or occurrences of A. d. 
var. traskiae (as a rare plant taxon), to the extent practicable while 
meeting operational needs (Navy 2002, p. 1-2).
    Because of the taxon's close proximity to Navy facilities, military 
activities have the potential to impact habitat at one of the largest 
known occurrences of Acmispon dendroideus var. traskiae, near Wilson 
Cove. All construction, maintenance, and training activities in the 
Wilson Cove area go through a site approval request process. Through 
this process, the areas are assessed to see if the activities will 
potentially impact any listed species, including A. d. var. traskiae. 
Part of this occurrence is within a TAR where tactical training and 
movement are projected to occur, possibly causing habitat damage 
through troop traffic (USFWS 2008, pp. 119-120). The Navy recently did 
work at Wilson Cove that affected A. d. var. traskiae; they assessed 
the impact to be a loss of habitat occupied by 50 plants. The Navy 
worked to salvage plant material and outplant back to the site. Thus 
far, this outplanting has been successful, the habitat has rebounded, 
and more plants are present in the area than before the work was done 
(Munson 2013, pers. comm.).
    The majority of Acmispon dendroideus var. traskiae occurrences (24 
of 29 occurrences, 83 percent) are located outside of heavily impacted 
training areas. Though five occurrences (17 percent; Wilson Cove, 
Canchalagua Canyon, Middle Island Plateau, North Mosquito Cove, and 
Eagle Canyon) are partially or wholly within the boundaries of an IOA 
or TAR, many of the impacts to these occurrences would be diffuse, and 
are unlikely to have a high impact on the species' habitat. Although 
land use is likely to impact A. d. var. traskiae habitat, the Navy has 
demonstrated its commitment to help conserve and manage listed species 
on the island. Land use appears to pose a high-magnitude threat to the 
habitat of a small percentage of the occurrences of A. d. var. traskiae 
on San Clemente Island.
Erosion
    Erosion and associated soil loss caused by browsing of feral goats 
and rooting of feral pigs likely modified the island's habitat (Navy 
2002, p. 1-14). Defoliation from overgrazing on San Clemente Island 
increased erosion over much of the island, especially on steep slopes 
where denuded soils can quickly wash away during storm events (Johnson 
1980, p. 107; Navy 2002, pp. 1-14, 3-9; Tierra Data Inc. 2007, pp. 6-
7). Erosion was identified in the INRMP as a threat to the canyon 
woodland habitat and maritime desert scrub where Acmispon dendroideus 
var. traskiae occurs (Navy 2002, p. 4-3). Gullying and other processes 
may concentrate surface runoff to unnatural levels, leading to 
accelerated erosion in the canyons below (Tierra Data Inc. 2007, p. 6). 
Acmispon dendroideus var. traskiae occurs within steep canyon areas 
where such concentration of flows may be a threat to its habitat or 
range.
    Although more vegetative cover is now present than at the time of 
listing, erosion is still a threat to the recovery of Acmispon 
dendroideus var. traskiae, especially in areas where it grows in close 
proximity to roads. The Navy studied the potential for erosion from 
several proposed military activities (Tierra Data Inc. 2007, pp. 1-45, 
Appendices). Increased military activities are expected to cause 
erosion through soil compaction or other soil disturbances in occupied 
habitat areas associated with roadways or vehicle maneuver areas, 
especially where the taxon is located within training area boundaries 
(IOA) (Tierra Data Inc. 2007, p. 12). The four A. d. var. traskiae 
occurrences within or partially within the IOA are likely to be further 
impacted by erosion (Table 1). Three of these occurrences (Canchalagua 
Canyon, North Mosquito Cove, and Eagle Canyon) are along the eastern 
escarpment, which has recently been closed to biological monitoring due 
to unexploded ordnance. The threat of erosion to this area will be 
difficult to assess if the closure remains into the future. The nine 
occurrences near the IOA (within 1,000 ft (305 m)) could experience 
erosion from nearby training activities.
    Roads can concentrate water flow causing incised channels and 
erosion of slopes (Forman and Alexander 1998, pp. 216-217). This 
increased erosion around roads can degrade habitat, especially along 
the steep canyons associated with the eastern escarpment of the island. 
Nine of 29 Acmispon dendroideus var. traskiae occurrences (31 percent) 
are within 500 ft (152 m) of a road on the island (Eel Cove Canyon, 
Seal Cove Terraces, Lemon Tank Canyon, Wilson's Cove, North Wilson's 
Cove, Upper Middle Ranch Canyon, Eagle Canyon, North Mosquito Cove, and 
Canchalagua Canyon) (Forman and Alexander 1998, p. 217). These 
occurrences could be subject to diffuse disturbance and road effects 
that degrade habitat quality. The largest known occurrence of A. d. 
var. traskiae, Wilson Cove, occurs on gradual or steep slopes where 
erosion is evident (USFWS 2008, p. 117). Military activities in this 
area have the potential to adversely affect the taxon's habitat due to 
its proximity to Navy facilities and the level of human activity and 
traffic in the area.
    The Navy incorporates erosion control measures into all site-
feasibility studies and project planning, design, and construction to 
minimize the potential to exacerbate existing erosion and avoid impacts 
to listed species (Munson 2013, pers. comm.). The INRMP requires that 
all projects include erosion conservation work and associated funding 
(Navy 2002, p. 4-89). These conservation actions include best 
management practices for construction and engineering, choosing sites 
that are capable of sustaining disturbance with minimum soil erosion, 
and stabilizing disturbed sites with native plants (Navy 2002, pp. 4-
89--4-91). Additionally, the Navy has agreed not to conduct training 
activities that may lead to impacts from erosion until an erosion 
control plan is successfully implemented. They are developing the 
erosion control plan for San Clemente Island to reduce the impacts of 
erosion to Acmispon dendroideus var. traskiae habitat in areas likely 
to experience increased and expanded military operations (Munson 2013, 
pers. comm.). This erosion control plan will address military 
operations associated with the IOA, Assault Vehicle Maneuver Area 
(AVMA), and Artillery Firing Point (AFP).
    The processes and results of erosion are threats to the habitat of 
Acmispon dendroideus var. traskiae, particularly to 17 of 29 
occurrences that are within an IOA, within 1,000 ft (305 m) of an IOA, 
or within 500 ft (152 m) of a road. Erosion may lead to overall habitat 
degradation and the loss of individuals or groupings of plants in a 
given area. However, this taxon has persisted despite current levels of 
erosion. The processes and results of erosion are island-wide threats 
to the habitat or range of A. d. var. traskiae, particularly to the 17 
occurrences in or adjacent to military training areas or roads. 
Therefore, erosion is still considered a threat to the habitat of A. d. 
var. traskiae.
Nonnative Species
    Spread of nonnative plants into Acmispon dendroideus var. traskiae 
habitat is another threat identified in the final listing rule (42 FR 
40682). Nonnative plants can diminish the abundance or survival of 
native species by altering natural ecosystem processes such as fire 
regimes, nutrient cycling,

[[Page 45420]]

hydrology, and energy budgets, and by competing with native plants for 
water, space, light, and nutrients (Zink et al. 1995, p. 307; Brooks 
1999, pp. 16-17; Mack et al. 2000, p. 689). By 1992, researchers had 
documented 99 nonnative plant species on San Clemente Island (Kellogg 
and Kellogg 1994, p. 5), and transfer of nonnative species to the 
island continues to be a problem (Dunn 2006, pers. comm.; Junak 2006b, 
pers. comm.; Kellogg 2006, pers. comm.; O'Connor 2009c, pers. comm.).
    Nonnative species of particular concern include Avena barbata 
(slender oat), Bromus spp. (bromes), Foeniculum vulgare (sweet fennel), 
and Brassica tournefortii (Sahara mustard), which have already invaded 
the habitat of most Acmispon dendroideus var. traskiae occurrences. 
Another nonnative species, Carpobrotus edulis (iceplant), also appears 
to be hindering the recovery of A. d. var. traskiae (Allan 1999, p. 
92). This nonnative species occupies large areas of Wilson Cove where 
it may alter the habitat (Allan 1999, p. 92) by changing vegetation 
structure and creating an environment less hospitable to A. d. var. 
traskiae. Since nonnative herbivores were removed from the island, the 
most significant structural alteration to the habitat has been the 
proliferation of nonnative annual grasses, such as Avena spp. (oats), 
Bromus spp., and Vulpia myuros (annual fescue). Annual grasses vary in 
abundance with rainfall, potentially changing the vegetative community 
from shrubs to grasses and increasing the fuel load in wet years (see 
Factor A--Fire section below).
    Although previous invasions of nonnatives probably occurred through 
introductions in grazing fodder, current nonnative species invasions 
are typically introduced by military activities and training on the 
island. Nonnative plants constitute a rangewide threat to the habitat 
of all native plants on San Clemente Island, including all occurrences 
of Acmispon dendroideus var. traskiae. Roadsides tend to provide 
conditions (high disturbance, seed dispersal from vehicles, ample light 
and water) preferable to nonnative species (Forman and Alexander 1998, 
p. 210). The nine occurrences within 500 ft (152 m) of roads on the 
island may be subject to diffuse disturbance and road effects that 
degrade habitat quality along the road, including impacts caused by 
nonnative plants species (Forman and Alexander 1998, p. 217).
    Potential impacts from nonnative plants to habitats on San Clemente 
Island are minimized through annual implementation of the Navy's 
island-wide nonnative plant control program (O'Connor 2009b, pers. 
comm.; Munson 2013, pers. comm.). The focus of the nonnative plant 
species program is to control plants on the island with the potential 
to adversely impact habitat of federally listed species, which includes 
eradication of isolated occurrences of nonnatives, and early detection 
and eradication of new nonnative species (Navy 2008b, p. 5-28). This 
program targets nonnative species for elimination using herbicide and 
mechanical removal, with priorities currently focused on new invasions 
and particularly destructive nonnative species. Nonnative species 
management targets are identified and prioritized annually by Navy 
natural resource managers (Munson 2013, pers. comm.). These tactics are 
successful in isolating and limiting some species, such as Foeniculum 
vulgare, to a few locations (Howe 2011, pers. comm.; Munson 2013, pers. 
comm.). To reduce the potential for transport of nonnative plants to 
San Clemente Island, military and nonmilitary personnel inspect 
tactical ground vehicles and remove any visible plant material, dirt, 
or mud prior to transporting the vehicles to San Clemente Island (USFWS 
2008, p. 63). This cleaning helps prevent nonnative plants from 
reaching the island, but once there, nonnative plants are easily spread 
from one area to another by the movement of vehicles.
    Acmispon dendroideus var. traskiae has persisted on the island and, 
despite the continued risk of encroachment to habitat by nonnatives, 
the range of this taxon has expanded from 6 to 29 occurrences since 
listing. Impacts from nonnative plants may be a persistent, but low-
level, threat to A. d. var. traskiae habitat.
Fire
    Fire was not considered a threat to habitat occupied by Acmispon 
dendroideus var. traskiae at the time of listing (42 FR 40682; August 
11, 1977). Since that time, however, over 50 percent of the island has 
experienced at least one wildfire (Navy 2002, Map 3-3, p. 3-32), and 
some habitat has burned multiple times with very short intervals 
between fires (Navy 2002, Map 3-4, p. 3-33). Between 1990 and 2004, the 
island experienced 114 wildfires suspected to be from Navy operational 
sources (Navy 2008a, pp. 5-18, 5-19). The majority of fires are 
concentrated in SHOBA, potentially impacting habitat occupied by eight 
occurrences within Impact Areas I and II where military training 
exercises employ live ordnance and incendiary devices (Eagle Canyon, 
Bryce Canyon, North Mosquito Cove, Canchalagua Canyon, Thirst Canyon, 
Cave Canyon, Horse Canyon, and Pyramid Head). Fires are also 
occasionally ignited by activities north of SHOBA, such as training 
activities near Eel Point (possibly impacting Seal Cove Terraces and 
Eel Cove Canyon occurrences) (Navy 2002, Map 3-4, p. 3-33).
    Increased fire frequency resulting from intensified military uses 
could lead to localized changes in vegetation on San Clemente Island, 
which could be detrimental to Acmispon dendroideus var. traskiae 
habitat. The Navy recently approved a significant expansion in the 
number of locations where live fire and demolition training will take 
place (Navy 2008a, pp. 2-3--2-38), including TAR north of SHOBA (TAR 
17--Eel Cove Canyon and Seal Cove Terraces, and TAR 14 and 15--Larkspur 
and Chamish Canyon). These higher levels of training have not occurred 
in recent history, and will likely expand from current levels. In 
addition to demolitions, certain proposed munitions exercises involve 
the use of incendiary devices, such as illumination rounds, white 
phosphorous, and tracer rounds, which pose a high risk of fire 
ignition. Additionally, smoke, flares, and pyrotechnics are proposed 
for use within TAR 11 (Wilson's Cove) toward the eastern shore, and 
expanded live fire and demolition training is proposed within TAR 16 
(Middle Island Plateau) toward the center of the island. It is likely 
that the fire pattern on the island will change in response to this 
increase in ignition sources, with fires becoming more common within 
and adjoining the training areas north of SHOBA.
    At the time of listing, fire was not identified as a habitat threat 
because of lack of fire history and the low intensity of military 
training on the island. Since that time, military training has 
significantly increased, and we have better records of the fire 
frequency on the island. Approximately 14 of the 29 occurrences of 
Acmispon dendroideus var. traskiae fall within areas that may be 
subject to recurrent fire associated with military training (Table 1). 
This includes locations that fall within 1,000 ft (305 m) of TAR, where 
the Navy conducts live fire and demolition training, and occurrences 
within SHOBA (SHOBA serves as a buffer for Impact Areas I and II). 
Fires that escape designated training areas may threaten habitat on 
other parts of the island, but because of the broad distribution of the 
species, one fire is unlikely to spread throughout the entire range. 
The Navy's implementation of the MOFMP will limit the frequency with 
which fires escape impact areas and TAR. Through

[[Page 45421]]

the annual review process, the Navy identifies mechanisms to reduce 
fire return intervals within areas where this taxon is concentrated 
(USFWS 2008, pp. 91-122). The Navy's implementation of an MOFMP will 
help to reduce the risk of habitat conversion by fire, although the 
habitat of A. d. var. traskiae could be altered by increased fire 
frequency and spread of nonnative grass. Although the threat is 
ameliorated through the MOFMP, fire remains an island-wide threat to A. 
d. var. traskiae habitat, particularly to the 14 occurrences that fall 
within areas that may be subject to recurrent fire associated with 
military training.
Summary of Factor A
    San Clemente Island was used for sheep ranching, cattle ranching, 
goat grazing, and pig farming from 1850 until 1934 (Navy 2002, pp. 3-
4). These grazers were not completely removed from the island until 
1992, and their effects on the taxon and its habitat as well as other 
threats led us to classify Acmispon dendroideus var. traskiae as 
endangered in the 1977 listing rule (42 FR 40682). Currently, A. d. 
var. traskiae habitat is threatened by destruction and modification 
caused by land use, erosion, nonnative plants, and fire. To help reduce 
these threats, the Navy is implementing an MOFMP, an INRMP, and an 
island-wide nonnative species control program (Navy 2002, pp. 1-1--8-
12; USFWS 2008, pp. 1-237). The MOFMP has been helpful in informing 
strategic decisions for training using live fire or incendiary devices. 
The Navy has also agreed not to conduct training activities that may 
lead to impacts from erosion until an erosion control plan is 
successfully implemented. Natural resource managers have been 
successful in decreasing the prevalence of particularly destructive 
nonnatives, such as Foeniculum vulgare. Though increased impacts 
associated with military training could threaten the taxon in the 
future, 24 of 29 occurrences (83 percent) of A. d. var. traskiae fall 
outside of training areas (IOA or TAR) where the most intensive habitat 
disturbances are likely to occur. Impacts to the habitat from land use, 
erosion, nonnative plants, and fire are ongoing, and though they have 
been reduced due to the expanded range of A. d. var. traskiae and 
conservation efforts discussed above, we expect these threats will 
continue to impact A. d. var. traskiae habitat now and in the future as 
recovery of the taxon and its habitat continues.

Factor B. Overutilization for Commercial, Recreational, Scientific, or 
Educational Purposes

    In the listing rule (42 FR 40682; August 11, 1977), we did not 
identify any threats from overutilization, and no new information 
indicates that overutilization is a threat to Acmispon dendroideus var. 
traskiae. Although voucher herbarium specimens of A. d. var. traskiae 
and seeds have been collected for research and seed banking, 
overutilization of A. d. var. traskiae for any purpose is not currently 
considered a threat nor is expected to be in the future.

Factor C. Disease or Predation

    Grazing of feral goats and rooting of feral pigs were considered a 
direct threat to Acmispon dendroideus var. traskiae in the final 
listing rule (42 FR 40682; August 11, 1977). As stated above, however, 
nonnative mammalian herbivores were removed from San Clemente Island by 
1992, and this threat was ameliorated, as recognized in our 2007 status 
review (USFWS 2007a, p. 13). Currently, no other predators or diseases 
on San Clemente Island are known to pose a significant threat to A. d. 
var. traskiae and none are expected to pose a threat in the future.

Factor D. Inadequacy of Existing Regulatory Mechanisms

    The Act requires us to examine the adequacy of existing regulatory 
mechanisms with respect to those existing and foreseeable threats that 
may affect Acmispon dendroideus var. traskiae. The inadequacy of 
existing regulatory mechanisms was not considered a threat to A. d. 
var. traskiae at listing (42 FR 40682; August 11, 1977). Since it was 
listed as endangered, the Act has been and continues to be the primary 
Federal law that affords protection to A. d. var. traskiae. Our 
responsibilities in administering the Act include sections 7, 9, and 
10.
    Section 7(a)(1) of the Act requires all Federal agencies, including 
the Navy, to utilize their authorities in furtherance of the purposes 
of the Act by carrying out programs for the conservation of endangered 
and threatened species. Section 7(a)(2) of the Act requires Federal 
agencies, including the Navy and us, to ensure that actions funded, 
authorized, or carried out do not ``jeopardize'' the continued 
existence of a listed species. Section 7(a)(2) of the Act also requires 
Federal agencies to ensure that such actions do not result in the 
destruction or adverse modification of habitat in areas designated as 
critical habitat; however, we have not designated or proposed critical 
habitat for this taxon.
    The section 7(a)(2) prohibition against jeopardy applies to plants 
as well as animals, but other protections of the Act are more limited 
for plant species. Section 9(a)(2) does not prohibit the taking of a 
protected plant, thus no incidental take statement is prepared in the 
analysis of effects associated with a project. A non-jeopardy opinion 
for plants, therefore, would not include reasonable and prudent 
measures to minimize the impact of incidental take. However, voluntary 
conservation recommendations may be included, which are discretionary 
actions the action agency can implement relevant to the proposed 
action.
    Under section 9(a)(2) of the Act, with respect to endangered plant 
taxa, it is unlawful to remove and reduce to possession (collect) any 
endangered plants from areas under Federal jurisdiction, or to 
maliciously damage or destroy endangered plants in any such area. 
Protections provided plants listed as threatened are the same, except 
that the Code of Federal Regulations stipulates protections are not 
extended to seeds of cultivated specimens of threatened plants (50 CFR 
17.71). This change in protections would not have an effect on the 
conservation of Acmispon dendroideus var. traskiae, because 
conservation of this taxon does not require protection for seeds of 
cultivated plants.
    The Navy has consulted and coordinated with us regarding the 
effects of various activities on Acmispon dendroideus var. traskiae 
(and Castilleja grisea) since they were first listed in 1977. We 
concluded that ongoing and likely impacts from the proposed increases 
in military training activities on the island would not jeopardize the 
continued existence of A. d. var. traskiae or C. grisea (USFWS 2008, 
pp. 1-237). We continue to coordinate with the Navy to protect these 
taxa and their habitats.
    Listing Acmispon dendroideus var. traskiae provided a variety of 
protections, including the prohibitions against removing or destroying 
plants within areas under Federal jurisdiction and the conservation 
mandates of section 7 for all Federal agencies. These protections would 
continue to be afforded to A. d. var. traskiae if it is downlisted. In 
the following discussion, we evaluate additional protections provided 
by other regulatory mechanisms to determine whether they effectively 
reduce or remove threats to A. d. var. traskiae.

[[Page 45422]]

Other Federal Protections

National Environmental Policy Act (NEPA)

    All Federal agencies are required to adhere to the National 
Environmental Policy Act (NEPA) of 1970 (42 U.S.C. 4321 et seq.) for 
projects they fund, authorize, or carry out. The Council on 
Environmental Quality's regulations for implementing NEPA (40 CFR parts 
1500-1518) state that agencies shall include a discussion on the 
environmental impacts of the various project alternatives (including 
the proposed action), any adverse environmental effects that cannot be 
avoided, and any irreversible or irretrievable commitments of resources 
involved (40 CFR part 1502). NEPA itself is a disclosure law, and does 
not require subsequent minimization or mitigation measures by the 
Federal agency involved. Although Federal agencies may include 
conservation measures for Acmispon dendroideus var. traskiae as a 
result of the NEPA process, any such measures are typically voluntary 
in nature and are not required by the statute. NEPA does not itself 
regulate activities that might affect A. d. var. traskiae, but it does 
require full evaluation and disclosure of information regarding the 
effects of contemplated Federal actions on sensitive species and their 
habitats. On San Clemente Island, the Navy must meet the NEPA 
requirements for actions significantly affecting the quality of the 
human environment. Typically, the Navy prepares Environmental 
Assessments and Environmental Impact Statements on operational plans 
and new or expanding training actions. Absent the listing of A. d. var. 
traskiae, we would expect the Navy to continue to meet the procedural 
requirements of NEPA for its actions, including evaluating the 
environmental impacts to rare plant species and other natural 
resources. However, as explained above, NEPA does not itself regulate 
activities that might affect species listed as endangered or threatened 
under the Act.

Sikes Act Improvement Act (Sikes Act)

    The Sikes Act (16 U.S.C. 670) authorizes the Secretary of Defense 
to develop cooperative plans with the Secretaries of Agriculture and 
the Interior for natural resources on public lands. The Sikes Act 
Improvement Act of 1997 requires Department of Defense installations to 
prepare INRMPs that provide for the conservation and rehabilitation of 
natural resources on military lands consistent with the use of military 
installations to ensure the readiness of the Armed Forces. An INRMP is 
a plan intended ``. . . to guide installation commanders in managing 
their natural resources in a manner that is consistent with the 
sustainability of those resources while ensuring continued support of 
the military mission'' (Navy 2002, p. 1-1). INRMPs are developed in 
coordination with the State and the Service, and are generally updated 
every 5 years. Although an INRMP is technically not a regulatory 
mechanism because its implementation is subject to funding 
availability, it is an important guiding document that helps to 
integrate natural resource protection with military readiness and 
training.
San Clemente Island Integrated Natural Resources Management Plan 
(INRMP)
    Pursuant to the Sikes Act, the Navy adopted an INRMP for San 
Clemente Island that identifies multiple objectives for protecting 
Acmispon dendroideus var. traskiae and its habitat to help to reduce 
threats to this taxon (Navy 2002). The INRMP discloses actions through 
the NEPA process and to comply with such legislation and regulations as 
the Endangered Species Act, Federal Noxious Weed Act of 1974 (7 U.S.C. 
2801), the Comprehensive Environmental Response, Compensation, and 
Liability Act (42 U.S.C. 9601), the Resource Conservation and Recovery 
Act (42 U.S.C. 6901), and Soil Conservation Act (16 U.S.C. 3B).
    Goals and objectives in the INRMP for specified management units on 
the island are identified based on each unit's ranking for both 
military and natural resource value. Natural resource management 
objectives for the management units are stepped down from broader 
natural resource objectives identified for species and habitats. 
Natural resource objectives of relevance to the protection of A. d. 
var. traskiae in the INRMP include: ``Protect, monitor, and restore 
plants and cryptograms in order to manage for their long-term 
sustainability on the island'' (Navy 2002, p. 4-39).
    The INRMP specifically includes the following objectives for 
Acmispon dendroideus var. traskiae management: removal of nonnatives, 
restoration of native grasses and scrub species, monitoring of the 
taxon, studies of response to fire, and studies and inventory of insect 
pollinators (Navy 2002, p. D-11). To date, multiple INRMP management 
strategies have been implemented for the conservation of A. d. var. 
traskiae. Other INRMP strategies that target the plant communities 
within which this taxon occurs include: controlling erosion, with 
priority given to locations where erosion may be affecting listed 
species; producing a new vegetation map; reducing nonnative plant cover 
from 1992-1993 baseline levels; managing the size and intervals of 
fires; experimenting with fire management to improve native plant 
dominance while protecting sensitive plant occurrences; and conducting 
genetic and biological studies of A. d. var. traskiae and Castilleja 
grisea across the island.
    To date, the Navy has implemented multiple INRMP management 
strategies, or aspects of them that benefit both taxa. They have 
implemented rare plant surveys and documented new occurrences of 
Acmispon dendroideus var. traskiae and Castilleja grisea on the island. 
Genetic research and natural history studies have also been performed. 
The Navy has made concerted efforts to control escape of fire from 
military training activities, and they have annually implemented 
nonnative plant species control activities, with a focus on species 
that have the potential to compete with listed species (O'Connor 2009b, 
pers. comm.; Munson 2013, pers. comm.). Overall, considerable progress 
has been made toward the identified INRMP goals to maintain sustainable 
occurrences and implement strategies that help reduce threats to A. d. 
var. traskiae and C. grisea.
    The INRMP is an important guiding document that helps to integrate 
the military's mission with natural resource protection on San Clemente 
Island. Although the INRMP includes objectives targeted toward habitat 
protection of optimal Acmispon dendroideus var. traskiae and Castilleja 
grisea habitat, the Navy's operational needs may diverge from INRMP 
natural resource goals. For example, control measures for erosion, 
fire, and nonnatives described in the INRMP may not be implemented 
effectively or consistently in those areas that are operationally 
closed due to the presence of unexploded ordnance. The MOFMP, Erosion 
Control Plan, and nonnative plant species control conducted on the 
island are discussed above under Acmispon dendroideus var. traskiae --
Factor A. The Present or Threatened Destruction, Modification, or 
Curtailment of Its Habitat or Range. The INRMP provides protection to 
covered taxa whether they are listed as endangered or threatened under 
the Act, and additionally covers taxa that are not listed, but require 
special management. However, as noted under the other factors, while 
the INRMP helps to ameliorate threats and provides some protection for 
A. d. var. traskiae occurrences, those occurrences within Impact Areas 
or operationally closed

[[Page 45423]]

areas may not benefit from the conservation measures. While the INRMP 
has reduced the severity of threats and contributed to conservation of 
the species, it still allows for land use consistent with military 
readiness and training. Thus, Navy activities will continue to impact 
A. d. var. traskiae as described under Factor A.
    The Navy is currently revising the 2002 INRMP, and future 
iterations of this plan may differ from the existing INRMP. Pending 
completion of the new INRMP, the Navy continues to implement the 2002 
INRMP. We expect that the revised INRMP will continue to manage for 
natural resource conservation to the maximum extent practicable based 
on the Navy's historical commitment to implement beneficial management 
actions for native flora and fauna, and their continued cooperation 
with the Service to provide conservation actions that benefit taxa such 
as Acmispon dendroideus var. traskiae and Castilleja grisea and their 
habitat.

Federal Noxious Weed Act

    The Federal Noxious Weed Act of 1975 (88 Stat. 2148, 7 U.S.C. 2801) 
established a Federal program that has subsequently been largely 
superseded by other statutes, including the Plant Protection Act (7 
U.S.C. 7701, et seq.), to control the spread of noxious weeds. The 1990 
amendment to the Federal Noxious Weed Act (7 U.S.C. 2814), has been 
retained, and requires each Federal land-managing agency to: designate 
an office or person adequately trained in managing undesirable plant 
species to develop and coordinate a program to control such plants on 
the agency's land; establish and adequately fund this plant management 
program through the agency's budget process; complete and implement 
cooperative agreements with the States regarding undesirable plants on 
agency land; and establish integrated management systems (as defined in 
the section) to control or contain undesirable plants targeted under 
the cooperative agreements. In accordance with this direction, the Navy 
(through implementation of their INRMP) works to control the 
introduction of nonnative plant species to the island and to control or 
remove those currently present, which are actions that assist in 
protecting Acmispon dendroideus var. traskiae habitat.

Soil Conservation and Domestic Allotment Act

    The Soil Conservation and Domestic Allotment Act of 1935 (16 U.S.C. 
590(a, b), 49 Stat. 163) recognized that the wastage of soil and 
moisture resources on farm, grazing, and forest lands of the Nation, 
resulting from soil erosion, is a menace to the national welfare. The 
Act further provided for the control and prevention of soil erosion to 
preserve natural resources, control floods, prevent impairment of 
reservoirs, and maintain the navigability of rivers and harbors, 
protect public health and public lands, and relieve unemployment, and 
authorized the Secretary of Agriculture to coordinate and direct all 
activities with relation to soil erosion. In order to effectuate this 
policy, the Secretary of Agriculture authorizes, from time to time, 
that the following actions may be performed on lands owned or 
controlled by the United States or any of its agencies, with the 
cooperation of the agency having jurisdiction: Conduct surveys, 
investigations, and research relating to the character of soil erosion 
and the preventive measures needed; publish the results of any such 
surveys, investigations, or research; disseminate information 
concerning such methods; conduct demonstrational projects in areas 
subject to erosion by wind or water; and carry out preventative 
measures, including, but not limited to, engineering operations, 
methods of cultivation, the growing of vegetation, and changes in use 
of land. These measures are addressed through various objectives 
outlined in the Navy's INRMP, and implementation of these measures 
assist Acmispon dendroideus var. traskiae by encouraging management 
actions that prevent and control erosion, thus protecting Acmispon 
dendroideus var. traskiae habitat.
State Protections
    Since the time of listing, Acmispon dendroideus var. traskiae has 
benefited from additional State protections under the Native Plant 
Protection Act (NPPA) and California Endangered Species Act (CESA; 
listed 1982). Both the NPPA and CESA include prohibitions forbidding 
the ``take'' of State-listed species (California Fish & Game Code, 
Sections 1908 and 2080). With regard to prohibitions of unauthorized 
take under NPPA, landowners are exempt from this prohibition for plants 
to be taken in the process of habitat modification. Where landowners 
are notified by the State that a rare or endangered plant is growing on 
their land, the landowners are required to notify CDFW 10 days in 
advance of changing land use in order to allow salvage of listed plants 
(California Fish & Game Code, Section 1913). Sections 2081(b) and (c) 
of CESA allow CDFW to issue incidental take permits for State-listed 
threatened and endangered species if:
    (1) The authorized take is incidental to an otherwise lawful 
activity;
    (2) The impacts of the authorized take are minimized and fully 
mitigated;
    (3) The measures required to minimize and fully mitigate the 
impacts of the authorized take are roughly proportional in extent to 
the impact of the taking on the species, maintain the applicant's 
objectives to the greatest extent possible, and are capable of 
successful implementation;
    (4) Adequate funding is provided to implement the required 
minimization and mitigation measures and to monitor compliance with and 
the effectiveness of the measures; and
    (5) Issuance of the permit will not jeopardize the continued 
existence of a State-listed species.
    However, the range of Acmispon dendroideus var. traskiae is 
restricted to a Federal military installation, so listing under NPPA 
and CESA may afford protection to this species only in rare instances 
when the lead agency is a non-Federal agency or when proposed 
activities fall under other State laws.
Summary of Factor D
    The inadequacy of existing regulatory mechanisms was not indicated 
as a threat to Acmispon dendroideus var. traskiae at the time of 
listing or in the recent status review. Because San Clemente Island is 
under Federal ownership, various laws, regulations, and policies 
administered by the Federal Government provide protective mechanisms 
for the species and its habitat. Primary Federal laws that provide some 
benefit for the species and its habitat include the Act, NEPA, Sikes 
Act, Federal Noxious Weed Act, and the Soil Conservation and Domestic 
Allotment Act.
    The regulatory mechanisms outlined above help to reduce threats for 
the conservation of Acmispon dendroideus var. traskiae. In continuance 
of a long history of cooperative conservation efforts, the Navy 
implements several conservation actions that benefit this plant taxon. 
The Navy has implemented an MOFMP to reduce the risk of fire on the 
island and a nonnative plant species control program. In response to 
the conservation actions proposed and the current status of the listed 
taxon, we issued a non-jeopardy biological opinion on the Navy's MOFMP. 
The provisions included in the San Clemente Island INRMP provide for 
protection of A. d. var. traskiae occurrences and adaptive management 
of its habitat in order to help address threats to the plant from 
military

[[Page 45424]]

activities and nonnative plants. Implementation may not be extended to 
occurrences in operationally closed areas, but only three occurrences 
of the taxon occur in these areas. Acmispon dendroideus var. traskiae 
occurrences are afforded protection through Federal mechanisms, and 
thus the inadequacy of existing regulatory mechanisms is not considered 
a current threat to the taxon. However, the Act is the primary law 
providing protection to this taxon; in the absence of the Act, the 
existing regulatory mechanisms are not adequate to conserve A. d. var. 
traskiae throughout its range.

Factor E. Other Natural or Manmade Factors Affecting Its Continued 
Existence

    The 1977 listing rule identified nonnatives as a threat to Acmispon 
dendroideus var. traskiae under Factor E (42 FR at 40684; August 11, 
1977). In this 5-factor analysis, impacts from nonnative plants are 
discussed above under Factor A as a threat to habitat. Other threats 
attributable to Factor E that have been identified since listing 
include: (1) Movement of vehicles and troops, (2) fire, (3) climate 
change, and (4) hybridization. Factor E addresses threats to 
individuals of the species, rather than the habitat modification 
threats that are discussed in Factor A. Therefore, while some threats 
are discussed in both sections, in this section we are focusing on the 
direct impacts to individuals of A. d. var. traskiae.
Movement of Vehicles and Troops
    Military training activities within SWAT, TAR, and the IOA often 
entail the movement of vehicles and troops over the landscape, which 
has the potential of trampling or crushing individual plants. SWATs are 
large areas that typically support the movement of small groups to 
reach an objective or destination. The dispersed movement of troops 
through these areas is likely to result in occasional trampling of 
plants, with minor or temporary impacts at the occurrence level. TARs 
are generally smaller areas designated to accommodate intensive use and 
bombardment. Plants located within TARs are, therefore, more vulnerable 
to being trampled by vehicle and troop movements, particularly as the 
level of military training increases in these areas.
    Use of the IOA, at its highest intensity, involves the movement of 
battalion-sized landings of troops (1,500 individuals) from the 
northern to southern end of the island several times a year (Navy 
2008b, pp. 2-1 to 2-52). During such operations, the Navy anticipates 
that about half of the troops will travel on roads in vehicles, while 
the other half will proceed on foot (Navy 2008b, pp. 2-1 to 2-52). 
Thirteen occurrences of A. d. var. traskiae are partially or wholly 
within the boundaries of a training area (IOA, TAR, or SWAT). Loss of 
individual plants from proposed increases in troop and vehicle 
movements within SWAT, TAR, and the IOA is likely to increase, though 
this will not significantly impact the survival and recovery of this 
taxon because of the diffuse nature of this threat and the location of 
much of the taxon along the eastern escarpment, away from military 
training activities (USFWS 2008, pp. 113-122). Based on the 
distribution of Acmispon dendroideus var. traskiae occurrences, and 
type of troop movements likely to occur, impacts due to trampling and 
crushing are considered a low-level threat to its long-term 
persistence.
Fire
    Although not specifically mentioned in the listing rule, intense or 
frequent fires threaten individuals at 14 of 29 (48 percent) of 
Acmispon dendroideus var. traskiae occurrences. In the Factor A 
discussion above, we addressed impacts of fire on the habitat. This 
section covers the discrete threat to individuals or occurrences of A. 
d. var. traskiae. It is unknown if A. d. var. traskiae is adapted to 
periodic fires, though it is likely that this taxon is resilient to 
occasional fires (Navy 2002, p. D-10; Tierra Data Inc. 2005, p. 80). 
Adult plants have been lost in fires, but subsequent recruitment from 
the seed bank resulted in replacement numbers of juvenile plants 
(Tierra Data Inc. 2005, p. 80). Aside from this observation, the 
relationship between fire and the life history of A. d. var. traskiae 
has not been adequately studied. Additionally, the taxon's tolerance to 
fire frequency is unknown. The seed bank may become depleted in areas 
that burn more frequently if individuals burn before they produce 
seeds. Although an individual plant has the ability to produce vast 
amounts of seed, the seed bank must be replenished regularly for the 
taxon to persist (Junak and Wilken 1998, p. 257).
    Acmispon dendroideus var. traskiae occurs in some areas of the 
island that may experience elevated fire frequency, such as in SHOBA 
and surrounding Eel Point (Eagle Canyon, Bryce Canyon, North Mosquito 
Cove, Canchalagua Canyon, Thirst Canyon, Cave Canyon, Horse Canyon, 
Pyramid Head, Seal Cove Terraces, and Eel Cove Canyon) (discussed in A. 
d. var. traskiae--Factor A). Increased fire frequency from intensified 
military use could also lead to localized changes in vegetation, 
resulting in indirect adverse effects on A. d. var. traskiae. The 
potential for frequent fire at many of the occurrences within SHOBA is 
reduced by their location on the eastern escarpment of the island, away 
from Impact Areas I and II. However, this threat may become difficult 
to assess with the recent closure of the eastern escarpment area due to 
unexploded ordnance. The Navy's fire management practices are 
anticipated to minimize frequency of ignitions as well as the spread of 
fires (as described above in Factor A).
    The Navy conducts annual reviews of fire management and fire 
occurrence that allow for adaptive management. While the threat of fire 
remains, these measures should minimize loss of individuals or 
occurrences of Acmispon dendroideus var. traskiae. At the present time, 
fire management does not pose a threat as fuelbreak locations have not 
been proposed in the vicinity of this taxon. Although the Navy has 
planned and implemented fire management, fire continues to threaten 14 
occurrences of A. d. var. traskiae. Due to the continued impacts of 
fire within SHOBA, fire remains a Factor E threat to the existence of 
A. d. var. traskiae.
Climate Change
    Consideration of climate change is a component of our analyses 
under the Endangered Species Act, and applies to our analysis of both 
taxa. In general terms, ``climate change'' refers to a change in the 
state of the climate (whether due to natural variability, human 
activity, or both) that can be identified by changes in the mean or 
variability of its properties, and that persists for an extended 
period--typically decades or longer (Intergovernmental Panel on Climate 
Change (IPCC) 2007a, p. 78).
    Changes in climate are occurring. Examples include warming of the 
global climate system over recent decades, and substantial increases in 
precipitation in some regions of the world and decreases in other 
regions (for these and other examples see IPCC 2007a, p. 30; Solomon et 
al. 2007, pp. 35-54, 82-85).
    Most of the observed increase in global average temperature since 
the mid-20th century cannot be explained by natural variability in 
climate, and is very likely due to the observed increase in greenhouse 
gas concentrations in the atmosphere as a result of human activities, 
particularly emissions of carbon dioxide from fossil fuel use (IPCC 
2007a, p. 5 and Figure SPM.3; Solomon et al. 2007, pp. 21-35).

[[Page 45425]]

Therefore, to project future changes in temperature and other climate 
conditions, scientists use a variety of climate models (which include 
consideration of natural processes and variability) in conjunction with 
various scenarios of potential levels and timing of greenhouse gas 
emissions (e.g., Meehl et al. 2007 entire; Ganguly et al. 2009, pp. 
11555, 15558; Prinn et al. 2011, pp. 527, 529).
    The projected magnitude of average global warming for this century 
is very similar under all combinations of models and emissions 
scenarios until about 2030. Thereafter, the projections show greater 
divergence across scenarios. Despite these differences in projected 
magnitude, however, the overall trajectory is one of increased warming 
throughout this century under all scenarios, including those which 
assume a reduction of greenhouse gas emissions (Meehl et al. 2007, pp. 
760-764; Ganguly et al. 2009, pp. 15555-15558; Prinn et al. 2011, pp. 
527, 529). (For examples of other global climate projections, see IPCC 
2007b, p. 8).
    Various types of changes in climate can have direct or indirect 
effects on species and these may be positive or negative depending on 
the species and other relevant considerations, including interacting 
effects with existing habitat fragmentation or other nonclimatic 
variables. Vulnerability to climate change has three main components: 
Exposure to changes in climate, sensitivity to such changes, and 
adaptive capacity (IPCC 2007a, p. 89; Glick et al 2011, pp. 19-22). 
Because aspects of these components can vary by species and situation, 
as can interactions among climatic and nonclimatic conditions, there is 
no single way to conduct our analyses. We use the best scientific and 
commercial data available to identify potential impacts and responses 
by species that may arise in association with different components of 
climate change, including interactions with nonclimatic conditions.
    As is the case with all potential threats, if a species is 
currently affected or is expected to be affected in a negative way by 
one or more climate-related impacts, this does not necessarily mean the 
species meets the definition of a threatened or endangered species as 
defined under the Act. The impacts of climate change and other 
conditions would need to be to the level that the species is in danger 
of extinction, or likely to become so, throughout all or a significant 
portion of its range. If a species is listed as threatened or 
endangered, knowledge regarding the species' vulnerability to, and 
impacts from, climate-associated changes in environmental conditions 
can be used to help devise appropriate strategies for its recovery.
    While projections from global climate model simulations are 
informative and in some cases are the only or the best scientific 
information available, various downscaling methods are being used to 
provide higher-resolution projections that are more relevant to the 
spatial scales used to assess impacts to a given species (see Glick et 
al, 2011, pp. 58-61). With regard to the area of analysis for the San 
Clemente Island and specifically for the taxa at issue here, downscaled 
projections are available at least with respect to southern California.
    San Clemente Island is located within a Mediterranean climatic 
regime, but with a significant maritime influence. Climate change 
models indicate a 1.8 to 5.4 degrees Fahrenheit (1 to 3 degrees 
Celsius) increase in average temperature for southern California by the 
year 2070 (Field et al. 1999, p. 5; Cayan et al. 2008, p. S26; PRBO 
2011, p. 40). Over the same timespan, a 10 to 37 percent decrease in 
annual precipitation is predicted (PRBO 2011, p. 40), though other 
models predict little to no change in annual precipitation (Field et 
al. 1999, pp. 8-9; Cayan et al. 2008, p. S26). Although the island has 
a short rainy season, the presence of fog during the summer months 
helps to reduce drought stress for many plant species (Halvorson et al. 
1988, p. 111; Fischer et al. 2009, p. 783). However, fog projections 
remain uncertain (Field et al. 1999, pp. 21-22). Researchers also have 
substantial uncertainty in precipitation projections, and relatively 
little consensus concerning precipitation patterns and projections for 
southwestern California (PRBO 2011, p. 40). San Clemente Island 
typically gets less rainfall than the neighboring mainland areas 
(Tierra Data 2005, p. 4). Therefore, the models may underestimate the 
effects of precipitation changes on island vegetation. Additionally, 
changes in sea level and temperature may be more acute on small islands 
due to their high vulnerability (surrounded by ocean) and low adaptive 
capacity (from limited size) (IPCC 2007b, p. 1). Less rainfall and 
warmer air temperatures could limit the range of Acmispon dendroideus 
var. traskiae in the future, although no research has directly explored 
the effects of climate change on the taxon.
    Since listing of Acmispon dendroideus var. traskiae, the potential 
impact of ongoing, accelerated climate change has become a recognized 
threat to the flora and fauna of the United States (IPCC 2007a, pp. 1-
52; PRBO 2011, pp. 1-68). However, the impacts of predicted future 
climate change to A. d. var. traskiae remain unclear. The best 
available information does not provide sufficient certainty on how and 
when climate change will affect the taxon, the extent of average 
temperature increases in California, or potential changes to the level 
of threat posed by fire on San Clemente Island. The most recent 
literature on climate change includes predictions of hydrological 
changes, higher temperatures, and expansion of drought areas (IPCC 
2007a, pp. 1-18). While we recognize that climate change is an 
important issue with potential effects to listed species and their 
habitats, the best available information does not inform accurate 
predictions regarding its impacts to A. d. var. traskiae at this time.
Hybridization
    Acmispon dendroideus var. traskiae is known to hybridize with 
Acmispon argophyllus var. argenteus. In 1990, Liston et al. (p. 240) 
confirmed hybridization between co-occurring populations of A. d. var. 
traskiae and A. a. var. argenteus in Wilson Cove. At that time, they 
detected only 4 hybrid individuals out of 38 individuals tested, and 
failed to detect hybridization in another area of co-occurrence at the 
southern end of the island.
    Liston et al. (1990, pp. 240-243) offered three hypotheses for the 
scarcity of confirmed hybrid individuals. First, hybrids may have 
reduced fitness and be selected against, or be sterile and thus unable 
to produce viable seed even if backcrossed to the parent taxa. In this 
situation, hybridization would not be a threat to the genetic integrity 
of Acmispon dendroideus var. traskiae. Second and conversely, if the 
fertile hybrids are recent in origin (within the last 20 years), and 
because both parental taxon are long-lived woody perennials, few hybrid 
individuals would be expected due to the slower development and 
lifespan of the taxa. If this assumption is correct, then the genetic 
integrity of the largest known occurrence of A. d. var. traskiae in 
Wilson Cove, and the other occurrences containing hybrids, might be at 
risk of introgressive hybridization (introduction of genes from one 
species to another resulting in fertile hybrids). Introgressive 
hybridization could lead to the loss of genetic variation and lower 
fitness of A. d. var. traskiae. Finally, the limited number of hybrid 
plants (four) might be an artifact of the genetic testing method used 
by the study. A single diagnostic locus was used to detect hybrids, so 
although first-generation hybrids would be detected, later generations 
would be more difficult to

[[Page 45426]]

detect (Liston et al. 1990, pp. 240-243). If this is the case, the 
study could have underestimated the extent of hybridization between the 
two taxa.
    Liston et al. (1990, p. 243) suggested further investigation of 
these hypotheses before management recommendations are made to the 
Navy. Hybridization may threaten, and could diminish, the genetic 
diversity of the taxon, especially in the already disturbed occurrence 
of Wilson Cove (Allan 1999, pp. 91-92). Allan (1999, p. 91) stated that 
Acmispon dendroideus var. traskiae should be ``closely monitored.'' The 
more recent data from McGlaughlin (2012, pers. comm.) suggest that 
hybridization among A. d. var. traskiae and A. argophyllus var. 
argenteus may be a rare event and may not be a substantial threat. For 
now, hybridization with A. a. var. argenteus remains a concern at the 
largest of the 29 occurrences (Wilson's Cove) and the 4 other areas 
where hybrids have been found. Biologists have also observed other 
unconfirmed hybrids (no genetic testing done) elsewhere on the island 
(e.g., Norton Canyon) (Howe 2009, pers. comm.; Braswell 2011, pers. 
obs.). Additional information is needed to determine the extent and 
magnitude of this threat to A. d. var. traskiae.
Summary of Factor E
    Threats associated with military activities and fire continue to 
impact Acmispon dendroideus var. traskiae at 18 of 29 occurrences (62 
percent) on San Clemente Island (Wilson Cove, Canchalagua Canyon, 
Middle Island Plateau, North Mosquito Cove, Eagle Canyon, Larkspur 
Canyon, Chamish Canyon, Lemon Tank Canyon, Seal Cove Terraces, Eel Cove 
Canyon, Middle Wallrock Canyon, Warren Canyon, North Island Terraces, 
Bryce Canyon, Thirst Canyon, Cave Canyon, Horse Canyon, and Pyramid 
Head). Incidental trampling and crushing of individual plants is likely 
to increase with increases in training levels on the island. However, 
the Navy is implementing conservation measures that will improve 
conditions for A. d. var. traskiae, which has expanded its distribution 
on the island. Military training activities have the potential to 
ignite fires that can spread to habitat supporting this taxon, though 
the majority of the occurrences are outside of the areas designated for 
live fire and demolition. In preparation for these training efforts, 
the Navy implemented a fire management plan within the MOFMP that will 
limit the frequency of fires escaping the Impact Areas.
    Climate change may also likely impact Acmispon dendroideus var. 
traskiae, though the magnitude of this threat is largely unknown. The 
genetic integrity of A. d. var. traskiae may be threatened by 
hybridization with A. argophyllus var. argenteus at one of the largest 
occurrences and requires further investigation; however, the rate of 
hybridization appears to be rare.
    Overall, the threats described under Factor E are either of unknown 
magnitude (climate change), of low likelihood (hybridization), or have 
been reduced through conservation measures implemented by the Navy 
(fire and military activities). Although impacts to Acmispon 
dendroideus var. traskiae due to fire and military activities have been 
reduced, we expect impacts will continue now and in the future.

Combination of Factors--Acmispon dendroideus var. traskiae

    A species may be affected by more than one threat in combination. 
Within the preceding review of the five listing factors, we have 
identified multiple threats that may have interrelated impacts on 
Acmispon dendroideus var. traskiae (these interrelated impacts also 
occur for Castilleja grisea). For example, fires (Factor A and E) may 
be more intense or frequent in the habitat if greater amounts of 
nonnative grass (Factor A) are present in the vegetative community. 
Similarly, fires (Factor A and E) also may become more frequent if the 
climate changes (Factor E) into a drier, hotter environment. The 
movement of vehicles and troops (Factor E) and land use (Factor A) can 
also create more disturbance and erosion (Factor A) in A. d. var. 
traskiae habitat (as well as C. grisea habitat). The historical past on 
San Clemente is an illustration of interacting threats: Nonnative 
herbivores (Factor C) ate and killed much of the vegetation, causing 
greater impacts of erosion (Factor A) on the island. Thus, the taxons' 
productivity may be reduced because of these threats, either singularly 
or in combination. However, it is not necessarily easy to determine 
(nor is it necessarily determinable) whether a particular threat is the 
primary threat having the greatest effect on the viability of the 
species, or whether it is exacerbated by or working in combination with 
other potential threats to have cumulative or synergistic effects on 
the species. While the combination of factors is a threat to the 
existence of A. d. var. traskiae, we are unable to determine the 
magnitude or extent of cumulative or synergistic effects of the 
combination of factors on the viability of the taxon at this time.

Castilleja grisea (San Clemente Island paintbrush)

    In the 2007 status review, we stated that the predominant threat at 
listing (nonnative herbivores) was removed from San Clemente Island in 
1992 (USFWS 2007b, pp. 1-19). Additional threats to Castilleja grisea 
that we identified in 2007 include: (1) Erosion, (2) invasive nonnative 
species, (3) fire, (4) land use, and (5) lack of access to SHOBA. The 
first four of these threats are discussed below under Factor A. As 
discussed previously, lack of access to SHOBA is not considered a 
threat, though it limits our ability to assess all occurrences of the 
taxon reviewed here.

Factor A. The Present or Threatened Destruction, Modification, or 
Curtailment of Their Habitat or Range

    Under this listing factor in the final listing rule, we identified 
habitat modification by browsing feral goats and rooting feral pigs as 
threats to Castilleja grisea and other island taxa (42 FR 40682). As 
discussed above, the Navy removed the last of the remaining feral goats 
and pigs from San Clemente Island in 1992 (Kellogg and Kellogg 1994, p. 
5), which resulted in improved habitat conditions, and led to changes 
in the cover of native and nonnative plants on the island (Tierra Data 
Inc. 2005, pp. i-96; Kellogg 2006, pers. comm.). The Recovery Plan 
identified habitat alteration and disturbance from the Navy's use of 
the island for military operational and training needs as additional 
threats to the habitats occupied by C. grisea (USFWS 1984, pp. 58-63). 
Additional threats identified since listing include alteration of 
habitats on San Clemente Island by military training activities, fire, 
and fire management. Below, we discuss the impacts of the following 
threats that affect the habitat or range of C. grisea: (1) Land use, 
(2) erosion, (3) nonnative plants, (4) fire, and (5) fire management.
Land Use
    The distribution of Castilleja grisea includes 28 occurrences 
distributed across the southern 15.5 mi (25 km) of the island, 
particularly along the eastern escarpment. Training activities approved 
in the MOFMP would include substantial increases in vehicle and foot 
traffic in the IOA, leading to habitat modification. Ten of the 28 
occurrences (36 percent) are within or partially within the IOA and 
experience direct habitat impacts (plain northeast of Warren Canyon, 
Larkspur Canyon, Lemon Tank Canyon, Eagle Canyon, Bryce Canyon, Horse 
Beach Canyon, China Canyon, Knob Canyon,

[[Page 45427]]

Canchalagua Canyon, and Pyramid Head). An additional three occurrences 
(11 percent) are near the IOA (within 1,000 ft (305 m)) and could 
experience diffuse or accidental impacts to C. grisea habitat (Thirst 
Canyon, SHOBA Boundary Occurrence, and Upper Horse Canyon). Recent area 
closures due to unexploded ordnance could make habitat impacts from 
training difficult to assess for 10 occurrences in the future (36 
percent; Nanny Canyon, Lemon Tank Canyon, Eel Point, Eagle Canyon, 
Bryce Canyon, Horse Beach Canyon, China Canyon, Knob Canyon, 
Canchalagua Canyon, and Pyramid Head).
    The southern portion of Castilleja grisea's distribution extends 
through SHOBA where impacts to the habitat are likely. Certain 
munitions exercises involve the use of incendiary devices, such as 
illumination rounds, white phosphorous, and tracer rounds, which pose a 
high risk of fire ignition (USFWS 2008, pp. 11-13). Because of the 
elevated risk of fire associated with training activities, the Navy 
targets live and inert munitions fire toward Impact Areas I and II 
within SHOBA where bombardments and land demolition are concentrated. 
Four occurrences (14 percent) are within or partially within Impact 
Areas (China Canyon, Red Canyon, Upper Chenetti Canyon, and Horse Beach 
Canyon). Currently, the Impact Areas are closed to nonmilitary 
personnel, so the plant's status at these four occurrences is unknown, 
as well as the status of any conservation action that would otherwise 
be expected to be implemented in these areas (USFWS 2008, p. 50).
    Also within SHOBA, an occurrence of Castilleja grisea is located in 
lower Horse Beach Canyon, above Horse Beach. Horse Beach (TAR 21) is 
used for special warfare training activities that include the use of 
live fire, illumination rounds, and tracers. Training activities within 
parts of SHOBA pose a direct threat to habitat due to associated ground 
disturbance and land demolition. Twelve of the 28 occurrences (43 
percent) are at least partially within the boundaries of a training 
area (IOA, TAR, AVMA, or Impact Area) (Plain northeast of Warren 
Canyon, Larkspur Canyon, Lemon Tank Canyon, Eagle Canyon, Bryce Canyon, 
China Canyon, Knob Canyon, Canchalagua Canyon, Pyramid Head, Red 
Canyon, Upper Chenetti Canyon, and Horse Beach Canyon). The other 16 
occurrences are located outside of heavily impacted training areas. 
Within training areas, many of the impacts to these 12 occurrences 
would be diffuse and are unlikely to have a high impact on the species. 
The Navy has demonstrated their efforts to help conserve and manage 
listed species on the island by ameliorating habitat impacts through 
implementation of the MOFMP and INRMP. Impacts to the habitat from land 
use are likely to continue in the future, but appear to pose a high-
magnitude threat to the habitat of a small number of occurrences of C. 
grisea on San Clemente Island.
Erosion
    Erosion and associated soil loss caused by browsing of feral goats 
and rooting of feral pigs likely modified the island's habitat (Navy 
2002, p. 1-14). Overgrazing on San Clemente Island resulted in 
defoliation, which led to increased erosion over much of the island, 
especially on steep slopes where denuded soils can be quickly washed 
away during storm events (Johnson 1980, p. 107; Navy 2002, pp. 1-14, 3-
9; Tierra Data Inc. 2007, pp. 6-7). There may be residual impacts from 
historical grazing, and vegetation may be slow to recover and hold 
soil. In the INRMP, erosion was identified as a threat to the canyon 
woodland habitat and maritime desert scrub, which is habitat for 
Castilleja grisea (Navy 2002, pp. 4-3, 4-12). The process of soil 
erosion can lead to destruction of terraces, steep slopes, and canyons 
that support the growth and reproduction of C. grisea (Navy 2002, p. D-
23).
    Increased military activities where Castilleja grisea occurs within 
training area boundaries are expected to increase erosion associated 
with roadways, through soil compaction and other soil disturbances. The 
impacts from erosion are anticipated along the ridgeline of the eastern 
escarpment, affecting eight occurrences (Pyramid Head, Knob Canyon, 
Canchalagua Canyon, Bryce Canyon, Eagle Canyon, Thirst Canyon, SHOBA 
Boundary occurrence, and Horton Canyon) (Tierra Data Inc. 2007, pp. 12-
18; Navy 2008a, p. G-8). Closure of the eastern escarpment within SHOBA 
due to unexploded ordnance could make assessing this threat and 
implementing conservation measures in these eight occurrences difficult 
in the future.
    The Navy studied the potential for erosion from several proposed 
military activities (Tierra Data Inc. 2007, pp. 1-45, Appendices). 
Approximately 12 Castilleja grisea occurrences fall partially or wholly 
within the boundaries of a designated training area (IOA, TAR, AVMA, or 
Impact Area), and are likely to be impacted by erosion. Fourteen 
occurrences of C. grisea are at least partially within 500 ft (152 m) 
of a road (paved or unpaved) (China Canyon, Horse Beach Canyon, Pyramid 
Head, Knob Canyon, Canchalagua Canyon, Bryce Canyon, Eagle Canyon, 
Upper Horse Canyon, Plain northeast of Warren Canyon, Horton Canyon, 
Seal Cove Terraces, Lemon Tank Canyon, Larkspur Canyon, and Terrace 
Canyon) (Forman and Alexander 1998, p. 217). These occurrences could be 
subject to diffuse disturbance and road effects that degrade the 
habitat quality. Roads can concentrate water flow, causing incised 
channels and erosion of slopes (Forman and Alexander 1998, pp. 216-
217). This increased erosion near roads can degrade habitat, especially 
along the steep canyons and ridges.
    Along the eastern escarpment, Castilleja grisea is found in steep 
canyons in proximity to roads where it may be vulnerable to runoff 
during storm events (Navy 2008a, pp. G-4, G-8). At the southern end of 
the species' range, one occurrence is downslope from Horse Beach Canyon 
Road along a poorly maintained dirt road that is proposed to serve as 
part of the Assault Vehicle Maneuver Corridor. This location is likely 
to have an elevated risk from erosion (USFWS 2008, p. 99).
    The Navy incorporates erosion control measures into all site 
feasibility studies and project design to minimize the potential to 
exacerbate existing erosion and avoid impacts to listed species (Munson 
2013, pers. comm.). The INRMP requires that all projects include 
erosion conservation work (Navy 2002, p. 4-89). These conservation 
actions include best management practices, choosing sites that are 
capable of sustaining disturbance with minimum soil erosion, and 
stabilizing disturbed sites (Navy 2002, pp. 4-89-4-91). An erosion 
control plan for San Clemente Island is in the development stage, with 
expectations to reduce impacts of erosion where Castilleja grisea 
occurs in areas with increased and expanded military operations (Munson 
2013, pers. comm.). This erosion control plan will address military 
operations associated with the IOA, AVMA and AFP.
    In areas that will not be covered under the erosion control plan, 
erosion control measures are already being incorporated into project 
designs to minimize the potential to exacerbate existing erosion and 
avoid impacts to listed species (Munson 2013, pers. comm.). 
Additionally, the Navy has agreed not to conduct training activities 
that may lead to impacts from erosion until the plan is successfully 
implemented. The processes and results of erosion cause island-wide 
impacts to C. grisea, particularly to the occurrences in or adjacent to 
military training areas or roads. Sixteen occurrences of C.

[[Page 45428]]

grisea (57 percent) are in areas that could be subject to, and 
threatened by, erosion from training activities or road use (Plain 
northeast of Warren Canyon, Larkspur Canyon, Lemon Tank Canyon, Eagle 
Canyon, Bryce Canyon, China Canyon, Knob Canyon, Canchalagua Canyon, 
Pyramid Head, Red Canyon, Upper Chenetti Canyon, Horse Beach Canyon, 
Upper Horse Canyon, Horton Canyon, Seal Cove Terraces, and Terrace 
Canyon). Occurrences in operationally closed areas may not be afforded 
the conservation measures outlined by the Navy.
    Despite existing levels of erosion on the island, the distribution 
of Castilleja grisea has increased since listing. The Navy incorporates 
erosion control measures into all projects to minimize the potential to 
exacerbate existing erosion and avoid impacts to habitat and listed 
species. Although the Navy works to ameliorate the threat of erosion, 
management efforts are not possible in areas that are closed to natural 
resource personnel. Erosion is an island-wide threat to C. grisea, 
particularly to the 16 occurrences in or adjacent to military training 
areas or roads. Therefore, erosion is still considered a threat to the 
habitat of C. grisea.
Nonnative Plants
    One of the threats to Castilleja grisea identified in the final 
listing rule was the spread of nonnative plants into its habitat (42 FR 
40682, 40684). Nonnatives can alter habitat structure, ecological 
processes such as fire regimes, nutrient cycling, hydrology, and energy 
budgets, as well as compete for water, space, light, and nutrients (for 
discussion of nonnatives on San Clemente Island, see above discussion 
on Nonnative Species under Acmispon dendroideus var. traskiae--Factor 
A). Castilleja grisea is often associated with native maritime desert 
scrub vegetation types, where nonnative grasses are present but not a 
dominant component of the plant community (Tierra Data Inc. 2005, pp. 
29-42).
    Although previous invasions of nonnative species were probably 
introduced in grazing fodder, current invasions are typically 
introduced and spread around the island by military activities and 
training (see above discussion on Nonnative Species under Acmispon 
dendroideus var. traskiae--Factor A). Nonnative plants constitute a 
rangewide threat to all native plants on San Clemente Island, including 
all occurrences of Castilleja grisea. A total of 9 occurrences (32 
percent) are within 500 ft (152 m) of Ridge Road or China Point Road, 
and may be subject to diffuse disturbance and road effects that degrade 
the habitat quality along the road (China Canyon, Horse Beach Canyon, 
Pyramid Head, Knob Canyon, Canchalagua Canyon, Bryce Canyon, Eagle 
Canyon, Plain northeast of Warren Canyon, and Lemon Tank Canyon) 
(Forman and Alexander 1998, p. 217). Roadsides tend to create 
conditions preferred by nonnative species (high disturbance, seed 
dispersal from vehicles, ample light and water) (Forman and Alexander 
1998, p. 210). Nonnatives, including Foeniculum vulgare and 
Mesembryanthemum crystallinum (crystalline iceplant), have been found 
in the disturbed shoulders along the road between Ridge Road and China 
Point in SHOBA (Braswell 2011, pers. obs.).
    Potential impacts from nonnative plants are expected to be 
minimized by annual implementation of the Navy's island-wide nonnative 
plant control program (O'Connor 2009b, pers. comm.; Munson 2013, pers. 
comm.; see above discussion on Nonnative Species under Acmispon 
dendroideus var. traskiae--Factor A). This program targets nonnative 
species for elimination using herbicide and mechanical removal, 
prioritizing species that are new to the island or are particularly 
destructive. The program has been successful at isolating and limiting 
some species, such as Foeniculum vulgare, to a few locations (Howe 
2011, pers. comm.). To reduce the potential for transport of nonnative 
plants to San Clemente Island, military and nonmilitary personnel 
inspect tactical ground vehicles, and remove any visible plant 
material, dirt, or mud prior to going onto the island (USFWS 2008, p. 
63). This precaution helps to control the movement of nonnative plants 
onto the island, but once on the island nonnatives are easily spread by 
the movement of vehicles from one area to another. Although nonnative 
plants will continue to pose a rangewide risk to C. grisea, it is a 
threat of low intensity, and the Navy has taken steps to curtail 
habitat conversion from nonnative plants.
    Nonnative plant species are an island-wide threat to the native 
vegetative community. The Navy has taken preventative and conservation 
measures through funding and implementing nonnative plant species 
control on the island. Management and control of nonnative plants, 
however, is not in place at the four occurrences that are closed to 
natural resource managers. However, outside of these areas, Castilleja 
grisea has persisted on the island. Despite the continued risk of 
encroachment by nonnatives, Castilleja grisea remains on the island, 
and its range has continued to expand. Impacts from nonnative plants 
are a persistent, but low-level, threat to C. grisea habitat.
Fire
    Fire was not considered a threat to Castilleja grisea habitat at 
the time of listing (42 FR 40682; August 11, 1977). Since that time, 
however, over 50 percent of the island has experienced at least one 
wildfire (Navy 2002, Map 3-3, p. 3-32). The majority of fires are 
concentrated in SHOBA, potentially impacting 15 of 28 occurrences (54 
percent; Thirst Canyon, Eagle Canyon, Bryce Canyon, Canchalagua Canyon, 
Knob Canyon, Pyramid Head, Snake Canyon, Upper Chenetti Canyon, Horse 
Beach Canyon, China Canyon, Red Canyon, Kinkipar Canyon, Cave Canyon, 
Horse Canyon, and Upper Horse Canyon). Seven occurrences occur within 
the eastern escarpment in SHOBA where impacts from fire are less likely 
(Thirst Canyon, Eagle Canyon, Bryce Canyon, Canchalagua Canyon, Knob 
Canyon, Pyramid Head, and Snake Canyon). Recent closure of this area 
limits the ability to assess the status and manage habitat at these 
occurrences.
    Because of the elevated risk of fire associated with training 
activities, the Navy targets live and inert munitions fire towards two 
delineated Impact Areas. The risk of frequent fire is higher in Impact 
Areas I and II, potentially affecting the habitat of four occurrences. 
The effects of fire, and the state of plants within the Impact Areas, 
are currently unknown due to closure of the area (USFWS 2008, p. 50). 
Fires are occasionally ignited by activities north of SHOBA, posing a 
low-magnitude threat to the habitat at 13 occurrences (46 percent; 
SHOBA Boundary, Horton Canyon, Lemon Tank Canyon, Nanny Canyon, 
Larkspur Canyon, Box Canyon, Upper Norton Canyon, Middle Ranch Canyon, 
Waymuck Canyon, Plain northeast of Warren Canyon, Seal Cove Terraces, 
Eel Cove Canyon, and Terrace Canyon) (Navy 2002, Map 3-4, p. 3-33).
    Increased fire frequency from intensified military use could lead 
to localized changes in vegetation (see above discussion on fire 
frequency under Acmispon dendroideus var. traskiae--Factor A). The Navy 
has significantly expanded the number of locations where live fire and 
demolition training will take place (USFWS 2008, pp. 21-37), including 
TAR north of SHOBA (TAR 17--Eel Cove Canyon and Seal Cove Terraces, and 
TAR 14 and 15--Larkspur Canyon). In addition to demolitions, the Navy 
has proposed certain munitions exercises involving the use of 
incendiary devices, such as

[[Page 45429]]

illumination rounds, white phosphorous, and tracer rounds, which pose a 
high risk of fire ignition. They have also approved expanded live fire 
and demolition training within TAR 16 (Lemon Tank Canyon) toward the 
center of the island. The fire pattern on the island will likely change 
due to this increase in ignition sources, with fires becoming more 
common within and adjoining the training areas north of SHOBA.
    At the time of listing, we did not identify fire as a threat 
because of lack of fire history and the low intensity of military 
training on the island. Since that time, military training has 
significantly increased, and we have better records of the fire 
frequency on the island. Approximately 18 occurrences (64 percent) of 
Castilleja grisea fall within areas that may be subject to recurrent 
fires associated with military training. This includes locations that 
fall within SHOBA that serve as a buffer for Impact Areas I and II, and 
occurrences near live fire and demolition training areas. Occurrences 
of C. grisea have been discovered within and outside of the impact 
areas in SHOBA (Junak and Wilken 1998, p. 298; Navy 2002, p. D-20), 
indicating that the species is tolerant of at least occasional fire. 
High fire frequency may be a potential threat that could limit the 
distribution of C. grisea by overwhelming its tolerance threshold 
(Brooks et al. 2004, p. 683; Jacobson et al. 2004, p. 1). Frequent fire 
may exceed a plant taxon's capacity to persist by depleting seed banks 
and reducing reproductive output when fire occurs at higher than 
natural frequencies in C. grisea habitat (Zedler et al. 1983, pp. 811-
815).
    Within the Impact Areas or operationally closed zones, the Navy is 
not implementing fire suppression and firefighting because of safety 
hazards from the presence of unexploded ordnance. Fires that escape 
designated training areas threaten other parts of the island, though it 
is unlikely that one fire is capable of spreading throughout the entire 
range of the species due to its broad distribution across the island. 
The Navy's implementation of the MOFMP will limit the frequency with 
which fires escape Impact Areas and TAR. Through the annual review 
process, the Navy will identify mechanisms to reduce fire return 
intervals within areas and habitats where this taxon is concentrated 
(USFWS 2008, pp. 91-122). Although the threat is ameliorated through 
the MOFMP, fire remains an island-wide threat to C. grisea habitat, 
particularly to the habitat at the 18 occurrences that fall within 
areas that may be subject to recurrent fire associated with military 
training.
Fire Management
    Fire suppression techniques are used by the Navy on San Clemente 
Island as described in the MOFMP, including creation of firebreaks 
(bare soil created through manual or herbicide removal of vegetation), 
use of fire retardants (spraying of fire retardants along fire breaks), 
and aerial drops of saltwater from aircraft. All of these activities 
have the potential to impact Castilleja grisea individuals and 
occurrences. However, within the MOFMP, the Navy proposed the 
implementation of a fire management plan directed at fire suppression, 
fire prevention, and fuels management (Navy 2008b, p. 3.11-62). This 
plan was developed to provide flexibility for the timing of military 
training and will modify the level of fire suppression resources 
required to be present during training activities (Navy 2008b, p. 3.11-
62). The Navy also committed to conducting an annual review of fire 
management and fire occurrences that will allow for adaptive management 
and changes in the MOFMP (USFWS 2008, pp. 91-122).
    The Navy maintains fuelbreaks within SHOBA along the boundaries of 
Impact Areas I and II to prevent the spread of fire outside of the 
areas (USFWS 2008, p. 57). Four documented occurrences of Castilleja 
grisea are within the Impact Areas; these occurrences are likely 
exposed to impacts from higher intensity training, such as bombardment 
and weapon fire. Some of these occurrences are near fuelbreaks and may 
be impacted by erosion or invasive nonnative plants caused by fuelbreak 
maintenance. Additionally, occurrences on the eastern escarpment near 
the firebreaks on Ridge Road (Canchalagua Canyon, Knob Canyon) might be 
impacted by the creation and maintenance of firebreaks (USFWS 2008, p. 
57).
    The Navy uses herbicides and strip burning to create fuelbreaks on 
the island, and maintains these fuelbreaks with continued use of 
herbicides and fire retardant (Phos-Chek D75F) (USFWS 2008, pp. 97-98). 
The use of fire retardant or herbicide, as proposed in the MOFMP, 
results in the loss of Castilleja grisea habitat within the fuelbreak 
footprint (USFWS 2008, p. 81). The use of Phos-Chek may also allow or 
facilitate the expansion and persistence of nonnative species due to 
the fertilizing effect of this retardant (Larson et al. 1999, p. 115; 
Kalabokidis 2000, p. 130). Fire retardants act as a source of nitrogen 
and phosphorous, which are nutrients that can affect plant species 
composition (Larson and Duncan 1982, p. 702). The Navy has begun a 
study on the effects of Phos-Chek on San Clemente Island vegetation, 
and has avoided application of Phos-Chek within 300 ft (91.4 m) of 
mapped listed species (including C. grisea) to the extent allowable 
with fuelbreak installation (USFWS 2008, pp. 97-98).
    We anticipate the Navy will construct additional fuelbreaks to 
minimize the risk of fire spreading from areas of live fire and 
demolition training north of SHOBA (USFWS 2008, p. 98). In the MOFMP, 
the Navy agreed to conduct preseason briefings for firefighting 
personnel on the guidelines for fire suppression, and the limitations 
associated with the use of Phos-Chek and saltwater drops (USFWS 2008, 
pp. 97-98). The impact of saltwater on the habitat of Castilleja grisea 
has not yet been assessed. However, if salt persists in the soil, the 
composition of the plant community could change to favor more salt-
tolerant taxa.
    To minimize the potential for effects to listed species, the Navy 
considers the documented locations of listed species on the island as 
fuelbreak lines are developed (Navy 2009, p. 4-32). The majority of 
Castilleja grisea habitat is not impacted by fire management, and only 
6 occurrences (21 percent) are associated with fuelbreaks. Even if 
expanded in conjunction with increased levels of training activities, 
the benefits of fuelbreaks outweigh the detrimental impacts of 
recurrent fire to C. grisea habitat. The threat of fire management to 
C. grisea habitat is restricted mainly to occurrences within SHOBA, and 
particularly to occurrences in the Impact Areas. Because of the 
isolated nature of this threat and its role in prevention of fire, fire 
management is a low-magnitude threat to C. grisea habitat.
Summary of Factor A
    The habitat of Castilleja grisea is threatened by destruction and 
modification of habitat associated with land use, erosion, the spread 
of nonnatives, fire, and fire management. To help ameliorate these 
threats, the Navy is implementing an MOFMP, an INRMP, and the island-
wide control of nonnative plants (Navy 2002, pp. 1-1-8-12; USFWS 2008, 
pp. 1-237). The MOFMP has been helpful in informing strategic decisions 
for training using live fire or incendiary devices. The Navy has agreed 
not to conduct training activities that may lead to impacts from 
erosion until an erosion control plan is successfully implemented 
(Munson 2013, pers. comm.). Natural resource

[[Page 45430]]

managers have been successful at decreasing the prevalence of 
particularly destructive nonnatives, such as Foeniculum vulgare. In 
recent years, the Navy has strictly prohibited access to Impact Areas I 
and II within SHOBA for biological monitoring and conservation actions 
(USFWS 2008, p. 50), so the status of the four occurrences in these 
areas remains unknown. Recently, closures along the eastern escarpment 
in SHOBA have also limited the monitoring and management of four 
occurrences (Knob Canyon, Canchalagua Canyon, Bryce Canyon, and Eagle 
Canyon). However, 16 occurrences (57 percent) of C. grisea fall outside 
Impact Areas, IOA, AVMA, TAR, and fuelbreaks, where the most intensive 
habitat disturbances are likely to take place. Threats posed by land 
use, erosion, nonnatives, fire, and fire management are ongoing, and 
though impacts have been reduced due to the expanded range of C. grisea 
and conservation efforts, we expect these threats will continue to 
impact C. grisea habitat now and in the future as recovery of the 
species and its habitat continues.

Factor B. Overutilization for Commercial, Recreational, Scientific, or 
Educational Purposes

    In the listing rule (42 FR 40682; August 11, 1977), we did not 
identify any threats from overutilization, and there is no new 
information to indicate that overutilization is a threat to Castilleja 
grisea. Although voucher herbarium specimens of C. grisea and seeds 
have been collected for research and seed banking, overutilization of 
C. grisea for any purpose is not currently considered a threat nor 
expected to be in the future.

Factor C. Disease or Predation

    Grazing of feral goats and rooting of feral pigs were considered a 
direct threat to Castilleja grisea in the final listing rule (42 FR 
40682; August 11, 1977). As stated above, this threat was ameliorated 
by the removal of all goats and pigs from San Clemente Island in 1992, 
as recognized in our 2007 status review (USFWS 2007b, p. 11). 
Currently, no other predators or diseases on San Clemente Island are 
known to pose a significant threat to C. grisea, nor are they expected 
to become a threat in the future.

Factor D. Inadequacy of Existing Regulatory Mechanisms

    The Act requires us to examine the adequacy of existing regulatory 
mechanisms with respect to those existing and foreseeable threats that 
may affect Castilleja grisea. The inadequacy of existing regulatory 
mechanisms was not indicated as a threat to C. grisea at the time of 
listing (42 FR 40682; August 11, 1977). Since it was listed as 
endangered, C. grisea has been and continues to be primarily protected 
by the Act. Our responsibilities in administering the Act include 
sections 7, 9, and 10 (for more information on our responsibilities, 
see above discussion under Acmispon dendroideus var. traskiae--Factor 
D). Critical habitat has not been designated or proposed for this 
taxon.
    Listing Castilleja grisea as endangered provided a variety of 
protections, including the prohibitions against removing or destroying 
plants within areas under Federal jurisdiction and the conservation 
mandates of section 7 for all Federal agencies. These protections would 
continue to be afforded to C. grisea if it is downlisted. For plants 
listed as threatened, protections are the same, except that the Code of 
Federal Regulations stipulates protections are not extended to seeds of 
cultivated specimens of threatened plants (50 CFR 17.71). This change 
in protections would not have an effect on the conservation of C. 
grisea, because conservation of this taxon does not require protection 
for seeds of cultivated plants. In the following discussion, we 
evaluate protections provided by other regulatory mechanisms to 
determine whether they effectively remove threats to C. grisea.

Other Federal Protections

National Environmental Policy Act (NEPA)

    All Federal agencies are required to adhere to the National 
Environmental Policy Act (NEPA) of 1970 (42 U.S.C. 4321 et seq.) for 
projects they fund, authorize, or carry out. The Council on 
Environmental Quality's regulations for implementing NEPA (40 CFR parts 
1500-1518) state that agencies shall include a discussion on the 
environmental impacts of the various project alternatives (including 
the proposed action), any adverse environmental effects that cannot be 
avoided, and any irreversible or irretrievable commitments of resources 
involved (40 CFR part 1502). The NEPA itself is a disclosure law, and 
does not require subsequent minimization or mitigation measures by the 
Federal agency involved. Although Federal agencies may include 
conservation measures for Castilleja grisea as a result of the NEPA 
process, any such measures are typically voluntary in nature and are 
not required by the statute. NEPA does not itself regulate activities 
that might affect C. grisea, but it does require full evaluation and 
disclosure of information regarding the effects of contemplated Federal 
actions on sensitive species and their habitats.
    On San Clemente Island, the Navy must meet the NEPA requirements 
for actions significantly affecting the quality of the human 
environment. Typically, the Navy prepares Environmental Assessments and 
Environmental Impact Statements on operational plans and new or 
expanding training actions. Absent the listing of Castilleja grisea, we 
would expect the Navy to continue to meet the procedural requirements 
of NEPA for its actions, including evaluating the environmental impacts 
to rare plant species and other natural resources. However, as 
explained above, NEPA does not itself regulate activities that might 
affect species listed as endangered or threatened under the Act.

Sikes Act Improvement Act (Sikes Act)

    The Sikes Act (16 U.S.C. 670) authorizes the Secretary of Defense 
to develop cooperative plans with the Secretaries of Agriculture and 
the Interior for natural resources on public lands. The Sikes Act 
Improvement Act of 1997 requires Department of Defense installations to 
prepare INRMPs that provide for the conservation and rehabilitation of 
natural resources on military lands consistent with the use of military 
installations to ensure the readiness of the Armed Forces. An INRMP is 
a plan intended `` . . . to guide installation commanders in managing 
their natural resources in a manner that is consistent with the 
sustainability of those resources while ensuring continued support of 
the military mission'' (Navy 2002, p. 1-1). INRMPs are developed in 
coordination with the State and the Service, and are generally updated 
every 5 years. Although an INRMP is technically not a regulatory 
mechanism because its implementation is subject to funding 
availability, it is an important guiding document that helps to 
integrate the military's mission with natural resource protection.
San Clemente Island Integrated Natural Resources Management Plan 
(INRMP)
    Pursuant to the Sikes Act, the Navy adopted an INRMP for San 
Clemente Island that identifies multiple objectives for protecting 
Castilleja grisea and its habitat to help reduce threats to this taxon 
(Navy 2002). The INRMP also disclosed actions through the NEPA process, 
and to comply with such legislation and regulations as the

[[Page 45431]]

Endangered Species Act, the Federal Noxious Weed Act of 1974 (7 U.S.C. 
2801), the Comprehensive Environmental Response, Compensation, and 
Liability Act (42 U.S.C. 9601), the Resource Conservation and Recovery 
Act (42 U.S.C. 6901), and the Soil Conservation Act (16 U.S.C. 3B) (see 
INRMP section above under Acmispon dendroideus var. traskiae--Factor 
D).
    Natural resource objectives of relevance to the protection of 
Castilleja grisea in the INRMP include an objective to: ``Protect, 
monitor, and restore plants and cryptograms in order to manage for 
their long-term sustainability on the island'' (Navy 2002, p. 4-39). 
The INRMP specifically includes the following objectives for C. grisea 
management: recovery of native shrub communities that are host plants 
for the species, the removal of nonnatives, monitoring of the species, 
studies of preferred host plants, study of plant's response to fire, 
and studies and inventory of insect pollinators (Navy 2002, pp. D-20, 
D-21). Multiple INRMP management strategies have been implemented for 
the conservation of C. grisea. Other INRMP strategies that target the 
plant communities within which this species occurs include: controlling 
erosion, with priority given to locations where erosion may be 
affecting listed species; producing a new vegetation map; reducing 
nonnative plant cover; managing the size and intervals of fires; 
experimenting with fire management to improve native plant dominance 
while protecting sensitive plant occurrences; and conducting genetic 
and biological studies of C. grisea across the island.
    The MOFMP, Erosion Control Plan, and nonnative plant species 
control conducted on the island are discussed above under Castilleja 
grisea--Factor A. The Present or Threatened Destruction, Modification, 
or Curtailment of Its Habitat or Range. As noted under the other 
factors, while the INRMP helps to ameliorate threats and provides some 
protection for C. grisea occurrences, those occurrences within Impact 
Areas or operationally closed areas may not benefit from the 
conservation measures. While the INRMP has reduced the severity of 
threats and contributed to conservation of the species, it still allows 
for land use consistent with military readiness and training. Thus, 
Navy activities will continue to impact C. grisea and habitat where it 
occurs, as described under Factor A and E.
    See also the section above for Acmispon dendroideus var. traskiae 
for discussion related to the Federal Noxious Weed Act and the Soil 
Conservation and Domestic Allotment Act, which also apply to Castilleja 
grisea.
State Protections
    Since the time of listing, Castilleja grisea has benefited from 
additional State protections under the Native Plant Protection Act 
(NPPA) and California Endangered Species Act (CESA; listed 1982) (see 
State Protections for Acmispon dendroideus var. traskiae above, which 
provides additional information that also applies to C. grisea). 
However, the range of C. grisea is restricted to a Federal military 
installation, so listing under NPPA and CESA may only afford protection 
to this species in rare instances when the lead agency is a non-Federal 
agency or when proposed activities fall under other State laws.
Summary of Factor D
    The regulatory mechanisms above help to reduce threats for the 
conservation of Castilleja grisea. In continuance of a long history of 
cooperative conservation efforts, the Navy implemented several 
conservation actions that benefit this plant taxon. The Navy has 
implemented an MOFMP to reduce the risk of fire on the island and a 
nonnative plant species control program. In response to the 
conservation actions proposed and the current status of the listed 
taxon, we issued a non-jeopardy biological opinion on the Navy's MOFMP. 
The provisions included in the San Clemente Island INRMP provide 
protection to all C. grisea occurrences and adaptive management of its 
habitat in order to help address threats to the plant from military 
activities and nonnative plants. However, as indicated in the 
discussion under Factor A, not all management tools described in the 
INRMP are in place, and conservation management may not be implemented 
at four occurrences that have been closed to natural resource managers. 
Castilleja grisea occurrences are afforded protection through Federal 
mechanisms, and thus the inadequacy of existing regulatory mechanisms 
is not considered a current threat to the species. However, the Act is 
the primary law providing protection to this taxon; in the absence of 
the Act, the existing regulatory mechanisms are not adequate to 
conserve C. grisea throughout its range.

Factor E. Other Natural or Manmade Factors Affecting Their Continued 
Existence

    The 1977 listing rule identified competition from nonnative plants 
as a threat to Castilleja grisea under ``Other Natural or Manmade 
Factors Affecting Their Continued Existence'' (42 FR 40682; August 11, 
1977). In this 5-factor analysis, we discuss impacts from nonnative 
plants above under Factor A as a threat to habitat. Other Factor E 
threats identified since listing that currently impact C. grisea plants 
include: (1) Movement of vehicles and troops, (2) fire, and (3) climate 
change. Factor E addresses threats to individuals of the species, 
rather than the habitat modification threats that are discussed in 
Factor A. Therefore, while some threats are discussed in both sections, 
in this section we are focusing on the direct impacts to individuals of 
C. grisea.
Movement of Vehicles and Troops
    Military training activities within training areas often entail the 
movement of vehicles and troops over the landscape with the potential 
of trampling or crushing individual plants (for discussion of SWAT, 
TAR, and IOA, see above discussion for Acmispon dendroideus var. 
traskiae--Factor E). Based on the distribution of Castilleja grisea 
occurrences and type of troop movements likely to occur, impacts due to 
trampling and crushing are likely to occur within the IOA or AVMA, 
along roads, and in the Impact Areas. Specifically, major troop 
movements and vehicle landings are planned through Horse Beach and the 
Horse Beach Canyon occurrence, with troops and assault vehicles moving 
north along Horse Beach Road from the beach (USFWS 2008, pp. 30, 41). 
These operations could affect the Horse Beach Canyon and China Canyon 
occurrences (USFWS 2008, pp. 85-86). The status of these plants is 
currently unknown because of closure of the Impact Areas (USFWS 2008, 
p. 50).
    Fifteen of the 28 documented occurrences of Castilleja grisea are 
partially or wholly within the boundaries of a training area (IOA, TAR, 
AVMA, SWAT, or Impact Area), and may be impacted by trampling (Terrace 
Canyon, Larkspur Canyon, Nanny Canyon, Lemon Tank Canyon, Seal Cove 
Canyon, Eel Cove Canyon, Plain northeast of Warren Canyon, Eagle 
Canyon, Bryce Canyon, Horse Beach Canyon, China Canyon, Red Canyon, 
Knob Canyon, Canchalagua Canyon, and Pyramid Head). Recent 
documentation of C. grisea within these training areas suggests that, 
while the individual plants have the potential to be impacted by the 
activities described above, they are able to sustain themselves under 
the recent levels of traffic from vehicles and troops associated with 
training activities

[[Page 45432]]

(SERG 2009-2011, GIS data). Steep slopes along the eastern escarpment 
may also afford the eight C. grisea occurrences there some topographic 
protection from vehicle and troop movements. The anticipated loss of 
individual plants from proposed increases in troop and vehicle movement 
is likely to increase in the future, though this will likely be a low-
level impact to the survival and recovery of C. grisea because it is 
diffuse and managed by the Navy (USFWS 2008, pp. 91-102).
Fire
    Although not specifically mentioned in the listing rule, intense or 
frequent fires could threaten Castilleja grisea. In the Factor A 
discussion above, we addressed impacts of fire on the habitat; this 
section covers the discrete threats to individuals of C. grisea. It is 
unknown if C. grisea is adapted to periodic fires, though it is likely 
that this taxon is resilient to occasional fires (Navy 2002, p. D-10; 
Tierra Data Inc. 2005, p. 80). Castilleja grisea has recently been 
documented in portions of Horse Beach Canyon that burned up to three 
times since 1979, and a large occurrence was discovered in Pyramid Cove 
the year following a fire (Navy 1996, p. 5-2). The mechanisms and 
conditions under which C. grisea can tolerate fire, and at what 
frequency, are unknown. At higher than natural fire frequencies, fire 
has the potential to exceed a plant's capacity to persist by depleting 
seed banks and reducing reproductive output (Zedler et al. 1983, pp. 
811-815). The response of C. grisea to fire may also be governed by the 
response of its host species to fire.
    Castilleja grisea occurs in some areas of the island that may 
experience elevated fire frequency, such as SHOBA and especially the 
Impact Areas (Red Canyon, China Canyon, Horse Beach Canyon, Upper 
Chenetti Canyon) (discussed in Factor A above). The potential for 
frequent fire at many of the occurrences within SHOBA is reduced by 
their location on the eastern side of the island, away from Impact 
Areas I and II. In conjunction with its expansion of training 
activities, the Navy implemented a fire management plan within the 
MOFMP that is focused on fire prevention, fuels management, and fire 
suppression. These measures should minimize the frequency and spread of 
fires that could result in loss of C. grisea individuals.
    Castilleja grisea is likely to withstand occasional fires, as 
demonstrated through its stability on the island since listing. Fires 
may escape the military training areas and spread to other areas of the 
island, but are not likely to disturb the entire distribution of C. 
grisea at one time because this taxon is widely distributed across San 
Clemente Island. Also, the species is associated with steep canyon 
areas where fires are less likely to impact the plant. Nine C. grisea 
occurrences (32 percent) are more vulnerable to the spread of fire 
associated with military training (Eel Cove Canyon, Seal Cove Terraces, 
Red Canyon, China Canyon, Horse Beach Canyon, Upper Chenetti Canyon, 
Larkspur Canyon, Lemon Tank Canyon, and Snake Canyon). These 
occurrences include locations that fall within 0.5 mi (805 m) of TAR, 
or within Impact Areas where live fire and demolition training will be 
performed.
    The Navy's fire management practices minimize ignitions as well as 
the spread of fires (as described above in Factor A). The Navy is 
conducting annual reviews of fire management and fire occurrences that 
will allow for adaptive management. These measures should minimize the 
frequency and spread of fires that could result in loss of individuals 
of C. grisea. Although, in areas operationally closed to natural 
resource managers, conservation actions may not be implemented, and the 
plant's status remains unknown. We anticipate that the Navy's 
implementation of the MOFMP will limit the frequency with which fires 
escape Impact Areas and TAR and that, through the annual review 
process, the Navy will identify mechanisms to reduce fire return 
intervals in areas not designated for incendiary use (USFWS 2008, pp. 
91-122). Therefore, the impact of fire on individual C. grisea plants 
is likely a low-level threat to long-term persistence of this taxon.
Climate Change
    For general information regarding climate change impacts, see above 
discussion on climate change under Acmispon dendroideus var. traskiae--
Factor E. Since listing of Castilleja grisea (USFWS 1977, p. 40684), 
the potential impacts of ongoing, accelerated climate change have 
become a recognized threat to the flora and fauna of the United States 
(IPCC 2007a, pp. 1-52; PRBO 2011, pp. 1-68) (for discussion of climate 
change scenarios in California, see Acmispon dendroideus var. 
traskiae--Factor E above). San Clemente is located within a 
Mediterranean climatic regime, but with a significant maritime 
influence. Climate change models predict an increase in average 
temperature for southern California. There is substantial uncertainty 
in precipitation projections, and relatively little consensus 
concerning precipitation patterns and projections for southwestern 
California (PRBO 2011, p. 40). Less rainfall and warmer air 
temperatures could limit the range of C. grisea, although there is no 
direct research on the effects of climate change on the species. 
Castilleja grisea occurs in great numbers on the eastern side of the 
island, where fog contributes to a wetter climate. This area could 
become drier if fog is less frequent, possibly affecting moisture 
availability for C. grisea. The impacts of predicted future climate 
change to C. grisea remain unclear. While we recognize that climate 
change is an important issue with potential effects to listed species 
and their habitats, information is not available to make accurate 
predictions regarding its effects to C. grisea at this time.
Summary of Factor E
    Castilleja grisea continues to be impacted by military activities 
and fire at 16 of the 28 (57 percent) occurrences on San Clemente 
Island. Military training activities have the potential to ignite fires 
within C. grisea habitat, though only a few of the occurrences are 
within the Impact Areas and TAR where the highest impacts are 
concentrated. The threat from fire is reduced by implementation of the 
Navy's MOFMP, which should limit the frequency of fires escaping from 
the Impact Areas, although suppression will not likely occur within the 
boundaries of the Impact Areas. Threats from trampling and crushing of 
individual plants are likely to increase due to increases in training 
on the island. However, C. grisea has expanded its distribution on the 
island, and the Navy is implementing conservation measures that will 
continue to improve conditions for this taxon. Finally, climate change 
may likely influence this taxon, though the magnitude of this rangewide 
threat or how it may affect this taxon is unknown at this time. Given 
the distribution of the species and the conservation measures that will 
be implemented by the Navy, the threats described here currently and in 
the future are either of limited extent or adequately managed to reduce 
and minimize impacts to the species, while the potential overall threat 
of climate change remains unknown across this taxon's range. Although 
these threats are ongoing and could directly impact occurrences of this 
species, we are of the view that they are not likely to result in 
serious impacts to most of the known occurrences, now or in the future.

[[Page 45433]]

Combination of Factors--Castilleja grisea

    A species may be affected by more than one threat in combination. 
Within the preceding review of the five listing factors, we have 
identified multiple threats that may have interrelated impacts on the 
species (see above discussion on Combination of Factors under Acmispon 
dendroideus var. traskiae--Factor E). The species' productivity may be 
reduced because of these threats, either singularly or in combination. 
However, it is not easy to determine (nor is it necessarily 
determinable) whether a particular threat is the primary threat having 
the greatest effect on the viability of the species, or whether it is 
exacerbated by or working in combination with other potential threats 
to have cumulative or synergistic effects on the species. While the 
combination of factors is a threat to the existence of Castilleja 
grisea, we are unable to determine the magnitude or extent of 
cumulative or synergistic effects of the combination of factors on the 
viability of the species at this time.

Determination

    We have carefully assessed the best scientific and commercial 
information available regarding the past, present, and future threats 
to Acmispon dendroideus var. traskiae and Castilleja grisea, including 
information presented in the May 18, 2010, petition, available in our 
files, and through our 90-day and 12-month findings and proposed rule 
in response to this petition, as well as other available published and 
unpublished information. We also consulted with species experts and 
Navy staff who are actively managing for the conservation of A. d. var. 
traskiae and C. grisea on San Clemente Island.
    A direct threat identified in the listing rule (42 FR 40682), 
grazing from feral herbivores, was eliminated by 1992 through the 
complete removal of goats and pigs from the island (Factors A and C). 
This action also fulfilled one of the primary goals of the Recovery 
Plan under Objective 2 (USFWS 1984, p. 107). However, as a result of 
years of grazing, impacts from nonnative plants and erosion have 
continued to increase on the island. Our review of the status of 
Acmispon dendroideus var. traskiae and Castilleja grisea determined 
that threats to these species under Factors A and E are present. The 
Navy's natural resource management and INRMP for the island have 
substantially helped to reduce impacts from many of the threats to 
these species. The Navy implements natural resource management through 
the control of nonnative species, execution of the fire management 
plan, and avoidance of federally listed species. Despite current 
impacts from these threats to the habitat and individuals of these 
taxa, surveys indicate that the range of both has increased since the 
time of listing. Increased survey efforts and survey accuracy have also 
shown that these taxa occupy significantly more sites than were known 
at listing. The extent to which this represents the detection of 
previously unknown occurrences, recruitment from the existing seed 
bank, recolonization associated with dispersal events, or positive 
response to management and conservation efforts is not known. 
Regardless, the increase of both the range and number of occurrences 
for both taxa indicates an overall improved status for these taxa since 
listing.
    The surveys and discoveries of new occurrences also contribute to 
the achievement of objectives in the Recovery Plan (Objective 6; USFWS 
1984, p. 107). The Navy has taken measures to locate the heaviest 
impacts of military operations away from the species to the extent 
feasible while meeting operational needs, which will minimize, but not 
fully eliminate, the damage or destruction of individuals or 
occurrences of Acmispon dendroideus var. traskiae and Castilleja 
grisea, partially fulfilling Objective 1 of the Recovery Plan (USFWS 
1984, p. 107; USFWS 2008, pp. 90, 101, 121).

Acmispon dendroideus var. traskiae

    Since listing and the removal of feral goats and pigs on San 
Clemente Island, the distribution of Acmispon dendroideus var. traskiae 
has expanded from 6 to 29 occurrences, mainly along the western 
terraces and eastern escarpment. These significant gains demonstrate 
alleviation of threats from feral ungulates and that the taxon is 
persisting despite existing and remaining threats across the landscape. 
The taxon faces continued impacts to its habitat from military training 
activities and land use, erosion, nonnative plants, and fire (see 
Acmispon dendroideus var. traskiae--Factor A). Impacts from land use 
include movement of vehicles and troops over the landscape, as well as 
the use of live fire, demolitions, and bombardments. Much of this 
activity is concentrated in training areas within the range of A. d. 
var. traskiae. However, many of these occurrences are along the eastern 
escarpment that is more protected from fire and military activity. 
Additionally, the majority of locations occupied by A. d. var. traskiae 
(24 of 29 occurrences, or 83 percent) fall outside of training areas, 
and thus do not receive intensive habitat disturbance. However, access 
to the eastern escarpment, within SHOBA and east of Ridge Road, was 
recently closed for safety concerns. As a result, the status of four 
occurrences (14 percent) are difficult to monitor now and in the 
future.
    The Navy implemented a nonnative plant management plan and an MOFMP 
to ameliorate habitat threats to the species. Erosion control measures 
are incorporated into all project designs to minimize the potential to 
exacerbate existing erosion and avoid impacts to listed species (Munson 
2013, pers. comm.). Additionally, the Navy has agreed not to conduct 
training activities that may lead to impacts from erosion until an 
erosion control plan is successfully implemented. It is anticipated 
that military training activities, erosion, nonnatives, and fire will 
have ongoing impacts to the taxon's habitat, although impacts from 
these threats are reduced due to the current distribution of this taxon 
and existing conservation efforts. As a result, the best available 
information indicates that the taxon is no longer in danger of 
extinction. However, ongoing impacts are likely to continue such that 
the taxon is still likely to become endangered within the foreseeable 
future throughout all or a significant portion of its range.
    Under the Sikes Act, the Navy implemented an INRMP to coordinate 
the management of natural resources on the island. Providing a 
framework for military operations, this plan helps to ameliorate 
threats to the federally listed species on the island, and provides for 
long-term conservation planning within the scope of military readiness. 
Provisions included in the INRMP provide some protection for Acmispon 
dendroideus var. traskiae and Castilleja grisea occurrences, and allow 
adaptive management of the habitat in order to minimize impacts to the 
taxa from military activities and nonnative plants. Benefits provided 
to the taxa by the conservation measures in the MOFMP may be limited in 
the Impact Areas and operationally closed areas because natural 
resource personnel are not provided access to these areas. Under the 
INRMP, occurrences of A. d. var. traskiae will continue to be impacted 
by military activities necessary for military readiness and training.
    As discussed above in relation to Factor D, there are existing 
regulatory mechanisms that provide protections to A. d. var. traskiae. 
However, these existing regulatory mechanisms, absent the protections 
of the Act, provide

[[Page 45434]]

insufficient certainty that efforts needed to address long-term 
conservation of the species will be implemented, or that they will be 
effective in reducing the level of threats to A. d. var. traskiae 
throughout its range.
    Individual Acmispon dendroideus var. traskiae plants also face 
threats on the island. Movement of vehicles and troops, fire, climate 
change, and hybridization with related species all impact the status of 
the species (see Acmispon dendroideus var. traskiae--Factor E). The 
steps that the Navy has taken to minimize impacts and avoid listed 
species to the extent practicable are ameliorating the threat of 
trampling individual A. d. var. traskiae plants caused by training. 
Hybridization has also been studied (fulfilling Objective 4 of the 
Recovery Plan), with confirmed hybrids occurring in Wilson Cove (Wilson 
Cove) and four other locations. The genetic integrity of A. d. var. 
traskiae may be threatened by hybridization with A. argophyllus var. 
argenteus at a few occurrences, including one of the largest occupied 
locations, and requires further investigation. Although these threats 
could directly impact occurrences of this taxon, we are of the view 
that they will not cause catastrophic decline in the number of A. d. 
var. traskiae occurrences at this time or the future.
    As discussed above in the Factor Analysis, a species may be 
affected by more than one threat in combination. For example, fires 
(Factors A and E) may be more intense or frequent in the habitat if 
there are greater amounts of nonnative grasses (Factor A) present in 
the vegetative community. Thus, the species' viability may be reduced 
because of threats in combination, but we are unable to determine the 
magnitude or extent of any synergistic effects of the various factors 
and their impact on Acmispon dendroideus var. traskiae at this time.
    In conclusion, we have carefully assessed the best scientific and 
commercial information available regarding the past, present, and 
future threats faced by Acmispon dendroideus var. traskiae. Though 
threats still exist (military training activities and land use, 
erosion, nonnative plants, and fire) and will continue into the 
foreseeable future, the range of this taxon has substantially increased 
since listing. The expanded number of occurrences reduces the severity 
and magnitude of threats and the likelihood that any one event would 
affect all occurrences of the species. Additionally, the Navy is 
implementing conservation actions through their INRMP to reduce threats 
impacting A. d. var. traskiae. However, ongoing threats from military 
training activities, erosion, nonnatives, and fire remain throughout 
its range. After review of the information pertaining to the five 
threat factors, we find that the ongoing threats are not of sufficient 
imminence, intensity, or magnitude to indicate that A. d. var. traskiae 
is presently in danger of extinction throughout all or a significant 
portion of its range. Rather, the best available information indicates 
this species is likely to become an endangered species within the 
foreseeable future throughout all or a significant portion of its range 
due to the impacts from the ongoing threats throughout the species 
range. Thus, A. d. var. traskiae meets the definition of a threatened 
species.

Castilleja grisea

    The known distribution of Castilleja grisea has expanded from 19 to 
28 documented occurrences since listing, likely due to the removal of 
feral goats and pigs from the island in 1992. These significant gains 
demonstrate some alleviation of threats from feral ungulates and that 
the species is persisting despite existing and remaining threats across 
the landscape.
    Castilleja grisea faces impacts to its habitat or range from 
military training activities and land use, erosion, nonnative plants, 
fire, and fire management (see Castilleja grisea--Factor A). The 
movement of vehicles and troops over the landscape, as well as use of 
live fire, demolitions, and bombardments, results in destruction and 
degradation of habitat occupied by C. grisea. Much of this activity is 
concentrated in SHOBA within training areas and Impact Areas. Four 
occurrences are within the Impact Areas, where frequent fire, habitat 
disturbance (bombardment), and troop and vehicle movement take place in 
the heavily used ranges. Access to parts of SHOBA, including the 
eastern escarpment and east of Ridge Road, were recently closed for 
safety concerns, so the status of the four occurrences may be difficult 
to assess in the future. However, these areas may be more protected 
from fire and military activity and are likely less impacted by habitat 
threats. In addition, a large proportion of C. grisea occurrences fall 
outside Impact Areas, TAR, and fuelbreaks, where the most intensive 
habitat disturbances are likely to take place. Although threats are 
being reduced due to the expanded range of C. grisea and conservation 
measures implemented by the Navy, we expect military training 
activities and land use, erosion, nonnative plants, fire, and fire 
management will continue to impact C. grisea habitat. As a result, the 
best available information indicates that the taxon is no longer in 
danger of becoming extinct. However, ongoing habitat disturbances are 
likely, such that the taxon is still likely to become endangered within 
the foreseeable future throughout all or a significant portion of its 
range.
    Threats impacting individual plants of Castilleja grisea on the 
island include: Movement of vehicles and troops, fire, and potentially 
climate change (see Castilleja grisea--Factor E). The Navy has 
ameliorated the threats to individual plants by taking steps to 
minimize training impacts and measures to avoid endangered species to 
the extent practicable. The threats described under Factor E are either 
of limited extent or adequately managed and are not likely to seriously 
impact most C. grisea occurrences.
    Under the Sikes Act, the Navy has implemented an INRMP to organize 
the management of natural resources on the island. Under the INRMP, 
occurrences of C. grisea will continue to be impacted by military 
activities necessary for military readiness and training.
    As discussed in our analysis of Factor D, above, there are existing 
regulatory mechanisms that provide some level of protection to C. 
grisea. However, existing regulatory mechanisms, absent the protections 
of the Act, provide insufficient certainty that efforts needed to 
address long-term conservation of the species will be implemented, or 
that they will be effective in reducing the level of threats to 
Castilleja grisea throughout its range.
    As discussed above in the Factor Analysis, a species may be 
affected by more than one threat in combination. For example, fires 
(Factors A and E) may be more intense or frequent in the habitat if 
there are greater amounts of nonnative grasses (Factor A) present in 
the vegetative community. Thus, the species' viability may be reduced 
because of threats in combination. Therefore, the combination of 
factors is a threat to the existence of Castilleja grisea, but we are 
unable to determine the magnitude or extent of any synergistic effects 
of the various factors and their impact at this time.
    In conclusion, we have carefully assessed the best scientific and 
commercial information available regarding the past, present, and 
future threats faced by Castilleja grisea. Though threats still exist 
(military training activities and land use, erosion, nonnative plants, 
fire, and fire management) and will continue into the foreseeable 
future, the range of this taxon has substantially increased since

[[Page 45435]]

listing. In addition, the Navy continues to implement conservation 
actions through their INRMP to manage and reduce threats impacting C. 
grisea. The expanded number of occurrences reduces the severity and 
magnitude of threats and we do not expect that impacts to the species 
brought on by any of the threats discussed or a combination thereof 
would destroy enough plants or occurrences to bring about extinction. 
However, ongoing threats from military training activities, erosion, 
nonnatives, and fire remain throughout its range. After review of the 
information pertaining to the five threat factors, we find that the 
ongoing threats are not of sufficient imminence, intensity, or 
magnitude to indicate that C. grisea is presently in danger of 
extinction throughout all or a significant portion of its range. 
Rather, the best available information indicates this species is likely 
to become an endangered species within the foreseeable future 
throughout all or a significant portion of its range due to the impacts 
from ongoing threats throughout the species range. Thus, C. grisea 
meets the definition of a threatened species.

Significant Portion of the Range Analysis

    Having determined that Acmispon dendroideus var. traskiae and 
Castilleja grisea do not meet the definition of endangered throughout 
their ranges, we must next consider whether there are any significant 
portions of their ranges that are in danger of extinction. 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 definition of ``species'' is 
also relevant to this discussion. The Act defines the term ``species'' 
as follows: ``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.'' 
The phrase ``significant portion of its range'' (SPR) is not defined by 
the statute, and we have never addressed in our regulations: (1) The 
consequences of a determination that a species is either endangered or 
likely to become so throughout a significant portion of its range, but 
not throughout all of its range; or (2) what qualifies a portion of a 
range as ``significant.''
    Two recent district court decisions have addressed whether the SPR 
language allows the Service to list or protect less than all members of 
a defined ``species'': Defenders of Wildlife v. Salazar, 729 F. Supp. 
2d 1207 (D. Mont. 2010), concerning the Service's delisting of the 
Northern Rocky Mountain gray wolf (74 FR 15123, Apr. 12, 2009); and 
WildEarth Guardians v. Salazar, 2010 U.S. Dist. LEXIS 105253 (D. Ariz. 
Sept. 30, 2010), concerning the Service's 2008 finding on a petition to 
list the Gunnison's prairie dog (73 FR 6660, Feb. 5, 2008). The Service 
had asserted in both of these determinations that it had authority, in 
effect, to protect only some members of a ``species,'' as defined by 
the Act (i.e., species, subspecies, or DPS), under the Act. Both courts 
ruled that the determinations were arbitrary and capricious on the 
grounds that this approach violated the plain and unambiguous language 
of the Act. The courts concluded that reading the SPR language to allow 
protecting only a portion of a species' range is inconsistent with the 
Act's definition of ``species.'' The courts concluded that once a 
determination is made that a species (i.e., species, subspecies, or 
DPS) meets the definition of ``endangered species'' or ``threatened 
species,'' it must be placed on the list in its entirety and the Act's 
protections applied consistently to all members of that species 
(subject to modification of protections through special rules under 
sections 4(d) and 10(j) of the Act).
    Consistent with that interpretation, and for the purposes of this 
finding, we interpret the phrase ``significant portion of its range'' 
in the Act's definitions of ``endangered species'' and ``threatened 
species'' to provide an independent basis for listing; thus there are 
two situations (or factual bases) under which a species would qualify 
for listing: A species may be endangered or threatened throughout all 
of its range; or a species may be endangered or threatened in only a 
significant portion of its range. If a species is in danger of 
extinction throughout an SPR, it, the species, is an ``endangered 
species.'' The same analysis applies to ``threatened species.'' 
Therefore, the consequence of finding that a species is endangered or 
threatened in only a significant portion of its range is that the 
entire species shall be listed as endangered or threatened, 
respectively, and the Act's protections shall be applied across the 
species' entire range.
    We conclude, for the purposes of this finding, that interpreting 
the SPR phrase as providing an independent basis for listing is the 
best interpretation of the Act because it is consistent with the 
purposes and the plain meaning of the key definitions of the Act; it 
does not conflict with established past agency practice (i.e., prior to 
the 2007 Solicitor's Opinion), as no consistent, long-term agency 
practice has been established; and it is consistent with the judicial 
opinions that have most closely examined this issue. Having concluded 
that the phrase ``significant portion of its range'' provides an 
independent basis for listing and protecting the entire species, we 
next turn to the meaning of ``significant'' to determine the threshold 
for when such an independent basis for listing exists.
    Although there are potentially many ways to determine whether a 
portion of a species' range is ``significant,'' we conclude, for the 
purposes of this finding, that the significance of the portion of the 
range should be determined based on its biological contribution to the 
conservation of the species. For this reason, we describe the threshold 
for ``significant'' in terms of an increase in the risk of extinction 
for the species. We conclude that a biologically based definition of 
``significant'' best conforms to the purposes of the Act, is consistent 
with judicial interpretations, and best ensures species' conservation. 
Thus, for the purposes of this finding, a portion of the range of a 
species is ``significant'' if its contribution to the viability of the 
species is so important that, without that portion, the species would 
be in danger of extinction.
    We evaluate biological significance based on the principles of 
conservation biology using the concepts of redundancy, resiliency, and 
representation. Resiliency describes the characteristics of a species 
that allow it to recover from periodic disturbance. Redundancy (having 
multiple populations distributed across the landscape) may be needed to 
provide a margin of safety for the species to withstand catastrophic 
events. Representation (the range of variation found in a species) 
ensures that the species' adaptive capabilities are conserved. 
Redundancy, resiliency, and representation are not independent of each 
other, and some characteristic of a species or area may contribute to 
all three. For example, distribution across a wide variety of habitats 
is an indicator of representation, but it may also indicate a broad 
geographic distribution contributing to redundancy (decreasing the 
chance that any one event affects the entire species), and the 
likelihood that some habitat types are less susceptible to certain 
threats, contributing to resiliency (the ability of the species to 
recover from disturbance). None of these concepts is intended to be 
mutually exclusive, and a portion of a species'

[[Page 45436]]

range may be determined to be ``significant'' due to its contributions 
under any one of these concepts.
    For the purposes of this finding, we determine if a portion's 
biological contribution is so important that the portion qualifies as 
``significant'' by asking whether, without that portion, the 
representation, redundancy, or resiliency of the species would be so 
impaired that the species would have an increased vulnerability to 
threats to the point that the overall species would be in danger of 
extinction (i.e., would be ``endangered''). Conversely, we would not 
consider the portion of the range at issue to be ``significant'' if 
there is sufficient resiliency, redundancy, and representation 
elsewhere in the species' range that the species would not be in danger 
of extinction throughout its range if the population in that portion of 
the range in question became extirpated (extinct locally).
    We recognize that this definition of ``significant'' establishes a 
threshold that is relatively high. On the one hand, given that the 
consequences of finding a species to be endangered or threatened in an 
SPR would be listing the species throughout its entire range, it is 
important to use a threshold for ``significant'' that is robust. It 
would not be meaningful or appropriate to establish a very low 
threshold whereby a portion of the range can be considered 
``significant'' even if only a negligible increase in extinction risk 
would result from its loss. Because nearly any portion of a species' 
range can be said to contribute some increment to a species' viability, 
use of such a low threshold would require us to impose restrictions and 
expend conservation resources disproportionately to conservation 
benefit: listing would be rangewide, even if only a portion of the 
range of minor conservation importance to the species is imperiled. On 
the other hand, it would be inappropriate to establish a threshold for 
``significant'' that is too high. This would be the case if the 
standard were, for example, that a portion of the range can be 
considered ``significant'' only if threats in that portion result in 
the entire species' being currently endangered or threatened. Such a 
high bar would not give the SPR phrase independent meaning, as the 
Ninth Circuit held in Defenders of Wildlife v. Norton, 258 F.3d 1136 
(9th Cir. 2001).
    The definition of ``significant'' used in this finding carefully 
balances these concerns. By setting a relatively high threshold, we 
minimize the degree to which restrictions will be imposed or resources 
expended that do not contribute substantially to species conservation. 
But we have not set the threshold so high that the phrase ``in a 
significant portion of its range'' loses independent meaning. 
Specifically, we have not set the threshold as high as it was under the 
interpretation presented by the Service in the Defenders litigation. 
Under that interpretation, the portion of the range would have to be so 
important that current imperilment there would mean that the species 
would be currently imperiled everywhere. Under the definition of 
``significant'' used in this finding, the portion of the range need not 
rise to such an exceptionally high level of biological significance. 
(We recognize that if the species is imperiled in a portion that rises 
to that level of biological significance, then we should conclude that 
the species is in fact imperiled throughout all of its range, and that 
we would not need to rely on the SPR language for such a listing.) 
Rather, under this interpretation we ask whether the species would be 
endangered everywhere without that portion, i.e., if that portion were 
completely extirpated. In other words, the portion of the range need 
not be so important that even being in danger of extinction in that 
portion would be sufficient to cause the remainder of the range to be 
endangered; rather, the complete extirpation (in a hypothetical future) 
of the species in that portion would be required to cause the remainder 
of the range to be endangered.
    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 have no reasonable potential to be 
significant and threatened or endangered. 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 
there or likely to become so within the foreseeable future. Depending 
on the biology of the species, its range, and the threats it faces, it 
might be more efficient for us to address the significance 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 endangered or threatened there; if we 
determine that the species is not endangered or threatened in a portion 
of its range, we do not need to determine if that portion is 
``significant.'' In practice, a key part of the portion status analysis 
is whether the threats are geographically concentrated in some way. If 
the threats to the species are essentially uniform throughout its 
range, no portion is likely to warrant further consideration. Moreover, 
if any concentration of threats applies only to portions of the 
species' range that clearly would not meet the biologically based 
definition of ``significant,'' such portions will not warrant further 
consideration.
    Having determined that Acmispon dendroideus var. traskiae and 
Castilleja grisea are no longer endangered throughout their ranges as a 
consequence of the threats evaluated under the five factors in the Act, 
we must next consider whether there are any significant portions of 
these two species' ranges where they are currently endangered. A 
portion of a species' range is significant if it is part of the current 
range of the species and is important to the conservation of the 
species as evaluated based upon its representation, resiliency, or 
redundancy.

Acmispon dendroideus var. traskiae

    Applying the process described above, we evaluated the range of 
Acmispon dendroideus var. traskiae to determine if any units could be 
considered a significant portion of its range. This taxon is an island 
endemic restricted to a single, small island, with no natural division 
in its range. Because of its limited range and number of occurrences in 
close proximity to one another, no portion is likely to have a greater 
contribution to representation, resiliency, or redundancy than other 
portions. Furthermore, the existing and potential primary direct and 
indirect threats from military training activities, nonnative plant 
species, fire, and erosion are relatively uniform across San Clemente 
Island, indicating that no portions of its range are experiencing a 
greater severity or magnitude of threats. We conclude that there are no 
portions that warrant further consideration under this analysis.
    In summary, the primary threats to Acmispon dendroideus var. 
traskiae are relatively uniform throughout its range. We determined 
that none of the existing or potential threats, either alone or in 
combination with others, currently place A. d. var. traskiae in danger 
of extinction throughout all or a significant portion of its range. 
However, without the continued protections of the Act, this taxon is 
likely to become endangered throughout its range in the foreseeable 
future. There is no available information indicating that there has 
been a range contraction to A. d. var. traskiae and therefore, we find 
that lost

[[Page 45437]]

historical range does not constitute a significant portion of the range 
for this species. Threatened status is, therefore, appropriate for A. 
d. var. traskiae throughout its entire range.

Castilleja grisea

    Applying the process described above, we evaluated the range of 
Castilleja grisea to determine if any units could be considered a 
significant portion of its range (also see the Significant Portion of 
the Range Analysis section above for Acmispon dendroideus var. 
traskiae). This island endemic is restricted to a single, small island 
with no natural division in its range. Because of its limited range and 
number of occurrences in close proximity to one another, no portion is 
likely to have a greater contribution to its representation, 
resiliency, or redundancy than other portions. The primary threats to 
C. grisea, military training activities, nonnative plant species, fire, 
and erosion, are relatively uniform throughout its range (San Clemente 
Island), indicating that no portion is experiencing a greater severity 
or magnitude of threats. We conclude that there are no portions that 
warrant further consideration under this analysis. We determined that 
none of the existing or potential threats, either alone or in 
combination with others, currently place C. grisea in danger of 
extinction throughout all of its range. However, without the continued 
protections of the Act, this taxon is likely to become endangered 
throughout its range in the foreseeable future. There is no available 
information indicating that there has been a range contraction to C. 
grisea and therefore, we find that lost historical range does not 
constitute a significant portion of the range for this species. 
Threatened status is, therefore, appropriate for C. grisea throughout 
its entire range.

Available Conservation Measures

    Conservation measures provided to species listed as endangered or 
threatened species under the Act include recognition, recovery actions, 
requirements for Federal protection, and prohibitions against certain 
practices. Recognition through listing results in public awareness and 
conservation by Federal, State, Tribal, and local agencies, private 
organizations, and individuals. The Act encourages cooperation with the 
States and requires that recovery actions be carried out for all listed 
species. The protection required by Federal agencies and the 
prohibitions against certain activities are discussed, in part, below.
    The primary purpose of the Act is the conservation of endangered 
and threatened species and the ecosystems upon which they depend. The 
ultimate goal of such conservation efforts is the recovery of these 
listed species, so that they no longer need the protective measures of 
the Act. Subsection 4(f) of the Act requires the Service to develop and 
implement recovery plans for the conservation of endangered and 
threatened species. The recovery planning process involves the 
identification of actions that are necessary to halt or reverse the 
species' decline by addressing the threats to its survival and 
recovery. The goal of this process is to restore listed species to a 
point where they are secure, self-sustaining, and functioning 
components of their ecosystems.
    Recovery planning includes the development of a recovery outline 
shortly after a species is listed and preparation of a draft and final 
recovery plan. Revisions of the plan may be done to address continuing 
or new threats to the species, as new substantive information becomes 
available. The recovery plan identifies site-specific management 
actions that set a trigger for review of the five factors that control 
whether a species remains endangered or may be downlisted or delisted, 
and methods for monitoring recovery progress. Recovery plans also 
establish a framework for agencies to coordinate their recovery efforts 
and provide estimates of the cost of implementing recovery tasks. The 
final recovery plan for endangered and threatened species of the 
California Channel Islands, including Acmispon dendroideus var. 
traskiae and Castilleja grisea, is available on our Web site (http://www.fws.gov/endangered), or from our Carlsbad Fish and Wildlife Office 
(see ADDRESSES).
    Implementation of recovery actions generally requires the 
participation of a broad range of partners, including other Federal 
agencies, States, Tribal, nongovernmental organizations, businesses, 
and private landowners. Examples of recovery actions include habitat 
restoration (e.g., restoration of native vegetation), research, captive 
propagation and reintroduction, and outreach and education. The 
recovery of many listed species cannot be accomplished solely on 
Federal lands because their range may occur primarily or solely on non-
Federal lands. To achieve recovery of these species requires 
cooperative conservation efforts on private, State, and Tribal lands.
    Funding for recovery actions is available from a variety of sources 
including Federal budgets, State programs, the academic community, and 
nongovernmental organizations. Information on our grant programs that 
are available to aid species recovery can be found at: http://www.fws.gov/grants.
    Section 7(a) of the Act requires Federal agencies to evaluate their 
actions with respect to any species that is proposed or listed as 
endangered or threatened and with respect to its critical habitat, if 
any is designated. Regulations implementing this interagency 
cooperation provision of the Act are codified at 50 CFR part 402. 
Section 7(a)(4) of the Act requires Federal agencies to confer with the 
Service on any action that is likely to jeopardize the continued 
existence of a species proposed for listing or result in destruction or 
adverse modification of proposed critical habitat. If a species is 
listed subsequently, section 7(a)(2) of the Act requires Federal 
agencies to ensure that activities they authorize, fund, or carry out 
are not likely to jeopardize the continued existence of the species or 
destroy or adversely modify its critical habitat. If a Federal action 
may affect a listed species or its critical habitat, the responsible 
Federal agency must enter into formal consultation with the Service.
    Federal agency actions within the taxon's habitat that may require 
consultation as described in the preceding paragraph include management 
and other landscape-altering activities on Federal lands administered 
by the Department of Defense.
    Under section 9(a)(2) of the Act, with respect to endangered plant 
taxa, it is unlawful to remove and reduce to possession (i.e., collect) 
any such taxon from areas under Federal jurisdiction. Regulations 
adopted for threatened plants (50 CFR 17.71) refer to the regulations 
adopted for endangered plant species (50 CFR 17.61) and prohibit any 
act to remove and reduce to possession any threatened plant from an 
area under Federal jurisdiction; one exception to the prohibitions for 
endangered plants that applies to threatened plants is that seeds of 
cultivated specimens of species treated as threatened are exempt from 
all the provisions of 50 CFR 17.61.

Effects of This Rule

    This final rule revises 50 CFR 17.12(h) to reclassify Acmispon 
dendroideus var. traskiae and Castilleja grisea from endangered to 
threatened on the List of Endangered and Threatened Plants and to 
correct the scientific and common names for Acmispon dendroideus var. 
traskiae. This rule formally recognizes that these taxa are no longer 
presently

[[Page 45438]]

in danger of extinction throughout all or a significant portion of 
their ranges. However, this reclassification does not significantly 
change the protections afforded these species under the Act. The 
regulatory protections of section 9 and section 7 of the Act (see 
Factor D, above) would remain in place. Pursuant to section 7 of the 
Act, all Federal agencies must ensure that any actions they authorize, 
fund, or carry out are not likely to jeopardize the continued existence 
of A. d. var. traskiae or C. grisea. Whenever a species is listed as 
threatened, the Act allows promulgation of special rules under section 
4(d) that modify the standard protections for threatened species found 
under section 9 of the Act and Service regulations at 50 CFR 17.31 and 
17.71, when it is deemed necessary and advisable to provide for the 
conservation of the species. There are no section 4(d) rules in place 
or proposed for A. d. var. traskiae and C. grisea, because there is 
currently no conservation need to do so for these species.
    The Recovery Plan for the Endangered and Threatened Species of the 
California Channel Islands addresses 10 plants (including Acmispon 
dendroideus var. traskiae and Castilleja grisea) and animals 
distributed among three of the Channel Islands (USFWS 1984). Recovery 
actions directed at plant taxa include:
    (1) Removing feral animals;
    (2) Removing or controlling selected nonnative plants;
    (3) Controlling erosion;
    (4) Revegetating eroded and disturbed areas;
    (5) Reintroducing and reestablishing listed plant species 
populations;
    (6) Modifying existing management plans to minimize habitat 
disturbance and incorporate recovery actions into natural resource 
management plans;
    (7) Protecting habitat by minimizing habitat loss and disturbance 
and by preventing the introduction of additional nonnative organisms;
    (8) Determining the habitat and other ecological requirements of 
the listed plant taxa (such as reproductive biology and fire 
tolerance);
    (9) Evaluating the success of management actions;
    (10) Increasing public support for recovery efforts; and
    (11) Using existing laws and regulations to protect each taxon.
    The removal of feral animals has been completed. Reintroduction and 
reestablishment of listed plant populations are not part of the Navy's 
conservation strategy for listed plants at this time. However, the Navy 
will coordinate with us to continue implementing the remainder of the 
recovery actions as outlined in the Recovery Plan to the extent each 
action does not interfere with military operations.

Required Determinations

Executive Order 13211

    Executive Order 13211 requires agencies to prepare Statements of 
Energy Effects when undertaking certain actions. This rule is not 
expected to significantly affect energy supplies, distribution, or use. 
Therefore, this action is not a significant energy action and no 
Statement of Energy Effects is required.

Paperwork Reduction Act of 1995

    Office of Management and Budget (OMB) regulations at 5 CFR part 
1320, which implement provisions of the Paperwork Reduction Act (44 
U.S.C. 3501 et seq.), require that Federal agencies obtain approval 
from OMB before collecting information from the public. This rule does 
not contain any new collections of information that require approval by 
OMB under the Paperwork Reduction Act. This rule will not impose 
recordkeeping or reporting requirements on State or local governments, 
individuals, businesses, or organizations. An agency may not conduct or 
sponsor, and a person is not required to respond to, a collection of 
information unless it displays a currently valid OMB control number.

National Environmental Policy Act

    We determined we do not need to prepare an Environmental Assessment 
or an Environmental Impact Statement, as defined under the authority of 
the National Environmental Policy Act of 1969 (42 U.S.C. 4321 et seq.), 
in connection with regulations adopted 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).

Authority

    The authority for this action is section 4 of the Endangered 
Species Act of 1973, as amended (16 U.S.C. 1531 et seq.).

References Cited

    A complete list of references cited in this rulemaking is available 
on the Internet at http://www.regulations.gov and upon request from the 
Carlsbad Fish and Wildlife Office (see FOR FURTHER INFORMATION 
CONTACT).

Author(s)

    The primary authors of this package are the staff members of the 
Carlsbad Fish and Wildlife Office.

List of Subjects in 50 CFR Part 17

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

Regulation Promulgation

    Accordingly, we hereby 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; 4201-4245; unless 
otherwise noted.



0
2. Amend Sec.  17.12(h) under ``Flowering Plants'' by:
0
a. Adding an entry for ``Acmispon dendroideus var. traskiae'' in 
alphabetic order to read as follows;
0
b. Revising the entry for ``Castilleja grisea'' to read as follows; and
0
c. Removing the entry for ``Lotus dendroideus ssp. Traskiae''.


Sec.  17.12  Endangered and threatened plants.

* * * * *
    (h) * * *

--------------------------------------------------------------------------------------------------------------------------------------------------------
                        Species
--------------------------------------------------------    Historic range           Family            Status      When listed    Critical     Special
         Scientific name                Common name                                                                               habitat       rules
--------------------------------------------------------------------------------------------------------------------------------------------------------
         Flowering Plants
 
                                                                      * * * * * * *
Acmispon dendroideus var.          San Clemente Island   U.S.A. (CA)........  Fabaceae...........  T                        26           NA           NA
 traskiae.                          lotus.
 

[[Page 45439]]

 
                                                                      * * * * * * *
Castilleja grisea................  San Clemente Island   U.S.A. (CA)........  Orobanchaceae......  T                        26           NA           NA
                                    Paintbrush.
 
                                                                      * * * * * * *
--------------------------------------------------------------------------------------------------------------------------------------------------------


    Dated: July 2, 2013.
Rowan W. Gould,
Acting Director, U.S. Fish and Wildlife Service.
[FR Doc. 2013-17089 Filed 7-25-13; 8:45 am]
BILLING CODE 4310-55-P