CONSERVATION STATUS OF
LOMATIUMATTENUATUM EYERT (APIACEAE)

IN MONTANA

Prepared by:

Jim Vanderhorst and Bonnie L. Heidel

Montana Natural Heritage Program

State Library

1515 East Sixth Avenue

Helena, Montana 59620-1 800

Prepared for:

United States Department of Interior
Bureau of Land Management

P.O. Box 36800
Billings, Montana 59107-6800

Agreement No. 1422E930A960015, Task Order No. 5

January, 1998

1998 Montana Natural Heritage Program

This document should be cited as follows:

Vanderhorst, J. andB.L. Heidel. 1998. ConsQYYSition status of LomatiumattenuatumEYQYt in

Montana. Unpublished report to the Bureau of Land Management. Montana Natural Heritage
Program, Helena. 20 pp. + app.

SUMMARY

There are nine occurrences of Lomatium attenuatum (Taper-tip Desert-parsley) known in Montana.
These are from Beaverhead and Madison counties with three geographic centers in the Grasshopper
Creek drainage, the Ruby Range, and the Tendoy Range. Most populations are on lands administered
by the Bureau of Land Management, followed by Beaverhead National Forest and Montana state
lands. Total population numbers in Montana are estimated between 1 0,000 and 1 00,000 plants,
comparable with total numbers found in Wyoming, the only other place where this species occurs.
Populations face few direct threats, but invasions of exotic weeds and mining may potentially threaten
the species in the future. Due to relatively high population numbers, wide ecological amplitude, and low
degree of threats, current BLM Sensitive status is recommended changed to Watch status.

ACKNOWLEDGEMENTS

This project was made possible by a challenge cost- share agreement between the Bureau of Land
Management and the Montana Natural Heritage Program. Special thanks are extended Brian Hockett
(Bureau of Land Management) who provided coordination and access information, Cathy Seibert
(Montana State University) who provided Saturday access to the herbarium (MONT) and graciously
provided accommodations and hospitality, Walter Fertig (Wyoming Natural Diversity Database) who
provided up-to-date information on Wyoming populations of Lomatium attenuatum. Dr. Ronald
Hartman (University of Wyoming) who compared Montana and Wyoming specimens of the species and
verified determinations of nearly all Montana collections oi Lomatium attenuatum, John Hinshaw and
Cedron Jones (Montana Natural Heritage Program) who produced the GIS maps, and Anne Dalton
(Montana Natural Heritage Program) who processed element occurrence data in the Biological
Conservation Database.

TABLE OF CONTENTS

Page
L SPECIES INFORMATION 1

A. CLASSIFICATION 1

B. PRESENT LEGAL OR OTHER FORMAL STATUS 1

C. DESCRIPTION 2

D. GEOGRAPHIC DISTRIBUTION 4

E. HABITAT 8

F. POPULATION DEMOGRAPHY AND BIOLOGY 11

G POPULATION ECOLOGY 14

IL ASSESSMENT AND MANAGEMENT RECOMMENDATIONS 15

A. THREATS TO CURRENTLY KNOWN POPULATIONS 15

B. MANAGEMENT PRACTIES AND RESPONSES 16

C. RECOMMENDATIONS FOR MAINTAINING VIABLE POPULATIONS 16

IIL INFORMATION SOURCES 18

A. HERBARIUM SPECIMENS 18

B.FIELDWORK 18

C. LITERATURE CITED 18

LIST OF FIGURES AND TABLE

FIGURE 1. LINE DRAWING OF LOMATIUMATTENUATUM 3

FIGURE 2. MONTANA OCCURRENCES OF LOMATIUMATTENUATUM 6

FIGURE 3. BANNACK AREAPOPULATIONS OF LOMATIUMATTENUATUM 13

TABLE I.MONTANA OCCURRENCES OF LOMATIUMATTENUATUM 5

APPENDIX A. ELEMENT OCCURRENCE RECORDS FOR LOMATIUMATTENUATUM

(not included in online version)

SPECIES INFORMATION

A. CLASSIFICATION

1 . SCIENTIFIC NAME: Lomatium attenuatum Evert

2. SYNONYMS: None

3 . COMMON NAME : Taper-tip Biscuitroot, referring to the long, tapering
involucel bracts. In Wyoming it is commonly called Absaroka biscuitroot (Fertig
1997).

4. BIBLIOGRAPHIC CITATION; Lomatium attenuatum was first described
based on specimens collected from the Absaroka Mountains in Wyoming;
Evert, E. 1983. MadroOo 30(3): 143-146.

5 . TYPE SPECIMEN: United States, Wyoming, Park County, Absaroka Range,
E. F. Evert 1756 (Holotype RM; isotypes: MO, NY, UC, MOR).

6 . FAMILY: Apiaceae, also known by its conserved name, the Umbelliferae; the
carrot or parsley family.

7. GENUS: Lomatium is a genus of 70-80 species of perennial herbs of western
North America (Constance 1 993), nearly half of which are relatively narrow
endemics (Soltis et al. 1 997).

8 . SPECIES : This recently described species has not been published in floras
except for Dorn (1 992). It was considered a possible variety of the widespread
and variable Lomatium cous complex when it was first collected. It resembles
L. cous in habit, leaf dissection, and fruit size, shape and texture. However, it
consistently differs in its inconspicuous involucel, elongate pedicels, distribution
of vittae (band pattern) on the fruit, and overall scabrosity ; more closely
resembling L. vaginatum and L canbyi in these other characteristics (Evert
1983). Relationships with other species have not been investigated, it is
parapatric though not sympatric with L. cous and does not overlap in
distribution with the latter two species.

B. PRESENT LEGAL OR OTHER FORMAL STATUS

1. FEDERAL STATUS

a. U.S. FISH AND WILDLOIFE SERVICE: None. It was formerly listed

as Category 3C (USDI Fish and Wildlife Service 1993), removing it
from Category 2 (C2) status based on the recommendations in Dorn

(1989). Listing of C2 species was officially discontinued by the Service
in 1 996 (USDI Fish and Wildlife Service 1 996).

b. BUREAU OF LAND MANAGEMENT: Sensitive (USDI BLM

1996).

2. STATE STATUS

a. MONTANA: The Montana Natural Heritage Program ranked
Lomatium attenuatum G2 S2; imperiled by rarity globally and in the
state (Heidel 1 997). The results of this status review and recent surveys
in Wyoming (Fertig 1 997) provide the documentation for changing global
rank to G3.

b. WYOMING: The Wyoming Natural Diversity Database ranks
Lomatium attenuatum S2 (Fertig 1996; see definition above).

C. DESCRIPTION

1 . GENERAL NONTECHNICAL DESCRIPTION: Taper-tip Biscuitroot is a

low herbaceous perennial growing from an elongated, thickened taproot. It has
short stems that bear one or two finely dissected leaves that are 2- 1 1 cm long
and oval-shaped in outline with narrow ultimate segments < 1 .5 mm wide. The
herbage, flower stem, and inflorescence are scaberulous (minutely rough to the
touch). The inflorescence is a many flowered compound umbel (like an
umbrella) borne on a long naked stalk which exceeds the leaves in fruit. The
involucre (bracts at the base of main umbel branches) is absent or
inconspicuous, and the involucel (bractlets at the base of the secondary umbel
branches) is absent or consists of 1 -6 narrow, attenuate (long tapering) bracts
1 -4 mm long. The umbellets (secondary umbels) have about 1 5 tiny, yellow-
petaled flowers. The mature fruits lack hairs, are flattened with low ribs on the
faces and are 5-8 mm long and 3-5 mm wide. Figure 1 is a line drawing of
Lomatium attenuatum.

2. TECHNICAL DESCRIPTION: Plant perennial, short-caulescent, with

only 1 or 2 cauline leaves, more or less scaberulous, (7-) 1 0-25 cm tall, from an
elongated thickened taproot, and also occasionally from a several-branched
caudex; leaves petiolate, 3 -pinnate or temately 3 -pinnate, blades 2.0-1 1 cm
long, 1 .5- 1 cm wide, ovate in outline, the ultimate divisions

f\

ft

A

i

M

i

\^\

' /

\M

y

E
E

Illustration by

Erwin Evert

Figure 1 . Line drawing of Lomatium attenuatum

linear to oblanceolate, 2-5 mm long, 0.5-1.5 mm wide, obtuse to somewhat
acute and mucronate petioles 1 .5-5 cm long, the dilated and scarious sheathing
extending to the middle or above; peduncles l-3(-4), scaberulous, exceeding
the leaves in fruit, 1 0- 1 5 cm long; involucre usually absent but occasionally 1
inconspicuous, filiform bract present;

fertile rays 5-8, spreading, angled, unequal, (1 .5-)3-5 cm long in
fruit; sterile rays 4-8, spreading, 3-10 mm long in fruit; involucel
absent or of 1 -6 inconspicuous linear-lanceolate, attenuate, non-
connate bractlets, 1 -4 mm long; umbellets ca. 1 5-flowered, only 2-
6 developing into fruit; pedicels 3-10 mm long in fruit; petals 1 .5
mm long including the incurved apex, yellow, obovate, glabrous;
sepals inconspicuous; anthers ca. 0.5 mm long, yellow; styles 1-1 .5
mm long, spreading or reflexed; ovaries glabrous to slightly
scaberulous; fruit oblong-elliptic, glabrous, glossy, 5-8 mm long,
3-5 mm wide, the wings ca. 0.5-0.75 mm wide, narrower than the
body; oil tubes prominent, 1 in each interval, 2 on the commissure;
carpophore bipartite (from Evert 1983, Marriott 1989).

3 . DIAGNOSTIC FIELD CHARACTERS: In habit, leaf dissection, and fruit

characters, Lomatium attenuatum resembles the more common and
widQspYQad Lomatium cous. However, the former has inconspicuous,
attenuated involucel bractlets (hence its specific epithet) while the latter has
conspicuous, broadly rounded bractlets. Also, Lomatium attenuatum has
greater overall scabrosity. It can be distinguished from low growing species of
Cymopterus by its fruits that have low ribs, rather than prominent wings on the
flattened sides and celery odor of the crushed leaves (leaves of the cymopterus
smell of anise).

D. GEOGRAPHIC DISTRIBUTION

1 . RANGE: Lomatium attenuatum is a regional endemic of the Rocky
Mountains. It is known from 1 3 occurrences in the Absaroka Mountains in Park
Co., Wyoming, restricted to the North Fork Shoshone River drainage where it
occurs on the BLM Worland District and the Shoshone National Forest (Fertig

1 997). There are three smaller centers in southwestern Montana that are
separated from the Wyoming population by over air 1 00 miles and the
Yellowstone highlands.

2. MONTANA DISTRIBUTION

a. CURRENT SITES : The species was first discovered in the state in

1 993 by Peter Lesica on BLM land in the Tendoy Mountains,
Beaverhead County (Vanderhorst and Lesica 1994). Additional
Beaverhead County populations were found on the Beaverhead
National Forest in the Tendoy s (Vanderhorst 1 995a) and due north in

the drainage of Grasshopper Creek (Heidel and Vanderhorst 1996,
Vanderhorst 1 995b). It was found on BLM land in the Ruby Range in
1 996 by Bonnie Heidel, the first occurrence documented in Madison
County (Vanderhorst et al. 1 997). Systematic surveys in the course of
this 1 997 study located additional places in all three population centers,
but no major range extensions were found. There are now a total of
nine occurrences known in Montana (Table 1). Figure 2 shows
locations of all Montana occurrences. Element Occurrence Records
and topographic maps giving precise locations are provided in
Appendix A.

b. HISTORICAL SITES: None

c. UNVERIFIED/UNDOCUMENTED REPORTS: None.

Determinations of nearly all Montana collections of Lomatium
attenuatum have been verified by Dr. Ronald Hartman (Rocky
Mountain Herbarium, University of Wyoming), a specialist of the
Apiaceae. Every collection of the similar, but more common Lomatium
cous at MONT and MONTU were examined by the author, but none
were found to be misidentified specimens oi Lomatium attenuatum.

TABLE 1. MONTANA OCCURRENCES OF LOMATIUM ATTENUATUM'

EO Number and Name

Ownership

Population number and
area

001 Deer Canyon

BLM, Beaverhead NF, MT State

Ca. 2,000, 100+ acres (1997)

002 Limekiln Canyon

BLM

500-2,000, 20+ acres

003 Bannack

BLM, MT State

> 10,000, 160 acres

004 Sourdough Creek

Beaverhead NF

1,000-10,000, 60 acres

006 Rocky Hills

BLM

Ca.60

007 Road Agents Rock

BLM, private

500-1,000, 40 acres

008 Cold Spring Creek

BLM, MT State

Ca. 1,500, 50+ acres

009 Laurin Canyon

BLM

1,000+, 60+ acres

1 New Departure Mine

BLM

Ca. 200, 10 acres

^ There is a gap in the sequence of element occurrence numbers because EO#005 was merged with EO#001 and
deleted.

Figure 2. Lomatium attenuatum Distribution in Montana

Montana Natural Harhtage Program, January 7, 1 998

d. LAND OWNERSHIP : Each of the known Montana occurrences are

at least partly on public land: most are on Bureau of Land Management
holdings, two populations are partly or entirely on Beaverhead National Forest,
two populations are partly on Montana State lands, and one population is partly
on private land (Table 1 ). The population which appears to be largest and most
extensive is the Bannack site, primarily on federal lands managed by the Bureau
of Land Management. In Wyoming, nearly all populations are on public lands
(mostly Shoshone National Forest), and parts of four occurrences are protected
within wildemess areas.

AREAS SURVEYED BUT SPECIES NOT FOUND: Status review surveys
were conducted for Lomatium attenuatum in 1 997, but the species was not
found at the following locations:

Henneberry Ridge (south of Grasshopper Creek):

Cedar Creek (T9S RllW S14 SE ^ S 23 NE ")
Grasshopper Creek tributary (T9S Rl 1 W S12 E Q, T9S
R10WS6 SW^ S7NW")

Hogback (north of Dillon): T5S R8 W S 1 6

Lovell Gulch (east of Beaverhead River south of Dillon): (T9S R9W S4
W Q, S5 E Q)

South Pioneer Range:

Argenta (T6S RlOW S24 S Q)

Badger Pass (T7S Rl 1 W S 1 1 S Q)

Birch Creek (T5S R9W S 1 9 N Q)

Black Mountain Road (T6S Rl 1 W S2 1 NE ^ S22 N W " )

Lime Gulch (T5S RlOW S14)

Scudder Creek (T6S R12W S20 N Q, S21 NE ")

In addition to 1 997 status review surveys, MTNHP has conducted extensive
sensitive plant surveys in recent years on BLM and Beaverhead National Forest
lands throughout foothills and montane areas of southwestern Montana. The
fact that Lomatium attenuatum was not found in these surveys is taken to
mean that it is not present, or that it was not sought at appropriate times of the
growing season. Asterisks indicate the latter among the following studies: Big
Bend of the Big Hole River

(Heidel and Vanderhorst 1996), Centennial Valley* (Culver 1993), Dutchman
Mountain (Vanderhorst 1994a), Horse Prairie Creek drainage (Vanderhorst
1 995c), the vicinity of Lemhi Pass (Vanderhorst 1 994b), the vicinity of Sage
Creek (Lesica and Vanderhorst 1 995), and the Tobacco Root Mountains*
(Vanderhorst and Heidel 1 995), in addition to unoccupied segments of the

Grasshopper Creek drainage (Heidel and Vanderhorst 1 996, Vanderhorst
1 995b) and Tendoy Mountains (Vanderhorst 1 995a, Vanderhorst and Lesica
1994). Appendices of these reports provide maps of areas searched.

E. HABITAT

1 . ASSOCIATED VEGETATION: Montana habitats ofLomatium attenuatum are

typically semi-forested scree, scrubland, woodland, or grassland on shallow soils. They
are most often centered in exposed microhabitat openings dominated by sparse cover
of bluebunch wheatgrass (Elymus spicatus) and high proportion of exposed gravel.
The surrounding settings are commonly dominated by limber pine (Pmusflexilis\
Douglas fir (Pseudostuga menziesU), and/or mountain mahogany {Cercocarpus
ledifolius). At a few sites Leucopoa kingii replaces Elymus spicatus as the dominant
bunchgrass. They are distributed in landscape mosaics in which Lomatium attenuatum
populations often extend across plant community boundaries. A subpopulation of the
Deer Creek Canyon occurrence is concentrated beneath canopies of large Pinus
flexilis. A few populations extend into big sagebrush {Artemisia tridentata ssp.
vasyana and A. tridentata ssp. tridentata) or low sagebrush {A. nova) communities.
Lomatium attenuatum has been documented from the following plant associations and
community types (sequenced from most frequent to least frequent):

Elymus spicatus I scvqq

Cercocarpus ledifolius/Elymus spicatus

Pseudotsuga menziesii/scvQQ

Pinus flexilis/Elymus spicatus

Artemisia tridentata ssp. vaseyana/Elymus spicatus

Pinus flexilis/Festuca idahoensis

Pseudotsuga menziesii/Elymus spicatus

Artemisia tridentata ssp. vaseyana/Festuca idahoensis

Artemisia nova/Elymus spicatus

Artemisia tridentata ssp. tridentata/Elymus smithii

Associated flora, in addition to community dominants, is characterized by many species
adapted to arid lithosols, and includes many obligate and facultative calciophiles,
including the BLM Sensitive species Lesquerellapulchella and Sphaeromeria
argentea and BLM Watch species Phacelia incana. At one site (Cold Spring Creek),
habitat overlaps with that of the BLM sensitive species Astragalus scaphoides but this
is not typical. Other state and regional calciphilic endemics in the same habitats that are
on the state Watch list include: Delphinium bicolor ssp. calcicola, Townsendia
nuttallii, and Townsendia spathulata. Infestations of weeds are light, but several
exotic species occur in the population areas (marked by an asterisk in the list below).
The habitats are likely to be prone to infestations of the noxious weed Centaurea
maculosa (spotted knapweed), but the species was not seen in population areas. It is

just becoming established in southwestern Montana, with small populations observed
along travel routes nearby Lomatium attenuatum occurrences in the Ruby and Tendoy
ranges. The following vascular plant species were observed at one or more Lomatium
attenuatum site in Montana.

Trees: Juniperus scopulorum, Pinusflexilis, Pseudotsuga menziesn

Shrubs: Artemisia frigida, Artemisia tridentata ssp. tridentata, Artemisia
tridentata ssp. vaseyana, Cercocarpus ledifolius, Chrysothamnus nauseosus,
Chrysothamnus viscidiflorus, Guttierezia sarothrae, Juniperus communis,
Mahonia repens, Opuntia polyacantha, Ribes cereum, Rosa woodsii, Tetradymia
canescens

Grasses and sedges: Elymus smithii, Elymus spicatus, Carex rossii, Festuca
idahoensis, Leucopoa kingii, Oryzopsis hymenoides, Poa cusickii, Poa interior,
Poapratensis^, Poa scabrella

Forbs: Achillea millefolium. Allium cernuum. Allium textile, Antennaria
microphylla, Arabis drummondii, Arabis nuttallii, Arabis sparsiflora, Arenaria
kingii, Artemisia dracunculus, Artemisia ludoviciana. Astragalus adsurgens.
Astragalus miser. Astragalus scaphoides, Castilleja angustifolia, Cirsium
subniveum, Comandra umbellata, Cryptantha celosioides, Cymopterus nivalis.
Delphinium bicolor ssp. calcicola, Douglasia montana, Draba oligosperma,
Erigeron caespitosus, Erigeron compositus, Erigeron tweedyi, Eriogonum
mancum, Eriogonum microthecum, Eriogonum ovalifolium, Eriogonum
umbellatum, Hackeliafloribunda, Hackelia patens, Haplopappus acaulis, Ivesia
gordonii, Lappula redowskii, Lesquerella alpina, Lesquerellapulchella, Linum
lewisii, Lithospermum incisum, Lithospermum ruderale, Lupinus polyphyllus var.
humicola, Malcolmia africana^, Medicago lupulina^, Medicago sativa^,
Mertensia oblongifolia, Musineon divaricatum, Oenothera caespitosa, Oxytropis
besseyi, Oxytropis sericea, Phacelia hastata, Phacelia incana. Phlox hoodii Phlox
longifolia. Phlox pulvinata, Penstemon aridus, Petrophyton caespitosum,
Physaria geyeri, Potentilla ovina, Potentilla gracilis, Schoenocrambe linifolia,
Senecio canus, Senecio streptanthifolius, Solidago missouriensis, Sphaeromeria
argentea, Stephanomeria runcinata. Taraxacum officinale * Townsendia hookeri,
Townsendia nuttallii, Townsendia parry i, Townsendia spathulata, Urtica dioica,
Verbascum thapsus^, Viola nuttallii

Vegetation of Wyoming sites with Lomatium attenuatum is similar to those in
Montana. Recent surveys identified the following community types in population areas
on the Shoshone National Forest (Fertig 1 997):

1 ) Openings dominated by Elymus spicatus, Leucopoa kingii and Oryzopsis
hymenoides in woodlands of Pinusflexilis and Pseudotsuga menziesU,

2) Shrubland community dominated by Artemisia tridentata ssp. vasyana and
Artemisia nova, and

3) Successional shrub/grass Artemisia tridentata/Chrysothamnus nauseosus/
Elymus spicatus community.

2 . TOPOGRAPHY: Montana populations of Lomatium attenuatum typically occur on
dry, unstable, moderate to steep, south-facing slopes of mountains, canyons, and
foothills. Their position on the slope varies with substrate conditions. The steepest
slopes are in canyons, formed from coUuvium of overtowering cliffs. Rock outcrops are
at nearly all sites. A few populations (e.g. Bannack) extend onto nearly level ridgetops
in shallow gravels perched on bedrock. Some large populations extend onto more
mesic exposures (northerly) and positions (canyon bottoms andtoeslopes). Elevations
of the sites range from 5,700 to 8,700 feet (1,737-2,652 meters).

3 . SOIL RELATIONSHIPS : Soils are generally poorly developed lithosols with a high
proportion of gravel, commonly referred to as scree. The substrates are dry, loose,
easily disturbed, and have high water infiltration rates with little or no surface runoff
Surface horizons may be sandy, but subsurface horizons often have clay or silt
accumulations, or the gravels are perched on shallow bedrock, ameliorating the
droughty surface conditions. A deep, tough rootstock and short period of active growth
allows Lomatium attenuatum to exploit seasonal subsurface moisture, avoid damage
from shifting scree, and remain dormant in dry years.

Most Montana populations occur on substrates with limestone parent material but
populations in the Grasshopper Creek drainage occur on both limestones and igneous
rocks. The Cold Spring Creek occurrence (008) has volcanic parent material. There is
also local variation in parent material rock type within large populations (e.g. Cold
Spring Creek, Deer Creek). In Wyoming, Lomatium attenuatum also grows in both
limestone and volcanic derived substrates (Evert 1 983, Fertig 1 997), but is most often
found on volcanics (W. Fertig, personal communication.).

3 . CLIMATE FACTORS : The macroclimate of southwestern Montana is continental and
semi-arid. Data from Dillon (U.S. Dept. of Commerce, NOAA 1 982) is taken to
approximate climatic conditions of the basin environments that are adjacent to uplands
supporting Lomatium attenuatum. Normal mean temperatures ranged from 20.2
degrees F in January to 66.4 degrees F in July. Normal mean annual precipitation was
11.5 inches. May and June are the wettest months, corresponding to the period of
active growth and flowering of Lomatium attenuatum.

10

Local climates vary with elevation, aspect, topographic position, and rain shadow
effects. Most sites with Lomatium attenuatum have warm southerly aspects. By mid
summer the exposed scree is dry and hot and leaves and stems oi Lomatium
attenuatum are senescent (withered). Year to year climatic fluctuations undoubtedly
affect seed production. In 1 997, these was a cool, wet growing season following a
winter with plentiful snowpack, flowering stem numbers were high, and seed production
per plant appeared to be higher than observed in past years. In dry years, high
proportions of the plants may remain in a vegetative (non-flowering) condition in which
they may be overlooked and taxonomic verification is not possible.

F. POPULATION DEMOGRAPHY AND BIOLOGY

1 . PHENOLOGY: Lomatium attenuatum is a geophyte, completing its phase of active
growth and reproduction early in the season corresponding with months of cool
temperatures and peak rainfall, and storing energy reserves below-ground. It generally
starts flowering by mid-May at low elevation sites and by June at higher elevation sites.
Most low-elevation plants had immature fruits at survey dates in late May and early
June and mature fruits in July, 1 997. This is considered to be about two weeks late in
phenology compared to average growing season conditions. At the Ruby Range, the
species was initially discovered on July 3 , 1 996, representing a more normal year, at
which time plants were starting to senesce and retained almost none but aborted fruit.

Like other members of the Parsley Family, it has an indeterminate infloresence (Stebbins
1 974). It was noted that different umbels of the same plant are often at very different
phenological stages, with flowering activity prolonged and overlapping with fiiiit
production in favorable years and in favorable microhabitats.

Mature fruits readily dry and shed under hot, dry conditions, at which time the
aboveground plant senesces. Populations are likely to go undetected by late summer
surveys, or for that matter by any survey after June in most years.

2. POPULATION SIZE AND CONDITION: Estimated Montana population numbers of
the nine known occurrences range from less than 1 00 to over 1 0,000 plants (Table 1 ).
At least 4 populations were estimated to consist of over 1 ,000 plants, and total numbers
in Montana are estimated between 1 0,000 and 1 00,000 plants; conservatively
estimated at 1 7,000+. Some populations cover extensive areas, the largest (Bannack,
Cold Spring Creek, Deer Canyon) consisting of several subpopulations occupying over
1 00 acres of scattered habitat spanning multiple.

The extensiveness and complexity of species! distribution patterns has been addressed
in part by digitizing the precise distribution of subpopulations making up each

11

occurrence. The distribution of the four occurrences in the Bannack Area is shown as
an example in Figure 3, including two of the extensive element occurrences (Bannack,
Cold Spring Creek). Despite the extent of subpopulations and collective populations in
the three population centers, its occupied habitat is limited in extent and may span less
than 2,000 acres range-wide.

As mentioned previously, it is difficult to estimate population numbers if the plant is in
fruit, and it is impractical if the plant is in vegetative (non-flowering) condition. Four
populations revisited in 1997 (Cold Spring Creek, Deer Canyon, Laurin Canyon,
Sourdough Creek) were found to be larger and more extensive than indicated by
previous surveys that were incomplete and/or late. The magnitudes of population size
remain undetermined in the Rocky Hills.

The species only recently discovered in Montana but is now known to occur in
comparable numbers and a broader distribution than currently known in Wyoming. In
Wyoming where the species was first discovered, total number of plants is now
estimated to be about 1 0,000 plants, and distribution is confined a single drainage, the
North Fork of the Shoshone River, in the Absaroka Range (Fertig 1 997). The total
number of plants rangewide is in the range of 1 0,000 to 1 00,000 plants.

3 . REPRODUCTIVE BIOLOGY: Reproduction is entirely by seed. Like other members

of the Parsley Family, Lomatium attenuatum is insect-pollinated (after Buchmann and
Nabhan 1 996). It has been characterized as having low fecundity, with only 2-6 flowers
per umbellet developing into fruit (Evert 1 983). Low seed production has been noted in
Montana populations in past years, but in 1 997 seed production was relatively high
judging from numbers of developing fruit observed in early June. Some plants were seen
with 7 or more fruits per umbel. The number of plants observed in 1 997 was also high,
indicating high levels of flowering. In unfavorable years plants survive by remaining in
vegetative condition, putting out leaves without flowering stems and forfeiting
reproduction for the year.

Flowers oi Lomatium attenuatum appear to be protogynous, with styles extending
before petals spread and anthers dehisce (R. Hartman, personal communication).
Asynchronous development of male and female flower parts (dichogamy) is common in
the Apiaceae, and is a means of favoring cross pollination.

12

Figure 3 . Bannack area populations of Lomatium attenuatum

Bannack

^H LaiTiBtium
popuiQtiona

BLA^ Lands

^H State Undo
1

Monnm Natunal Her1t«Q« P^DUfem, F^bmsjy Q4. 1 Q^B

Soltis et al (1 997) found lower levels of intrapopulational genetic variation (measured
by isozyme electrophoresis) in three narrowly endemic species of Lomatium, than in
three more widespread cogenenitors, although Lomatium attenuatum was not studied.
Low genetic variability can be both a cause and result of rarity. The seeds of the
Lomatium genus are flattened, an adaptation to dispersal by wind (Stebbins 1 974).

G POPULATION ECOLOGY

1 . BIOLOGICAL INTERACTIONS

a. COMPETITION: Lomatium attenuatum usually grows in habitats with low
plant cover where it experiences little competition from other species. It is a
specialist adapted to a harsh environment that few other native species can
exploit and in which its survival is not contingent on competitive ability.
However, some introduced weeds are well adapted to open habitats with scree
substrates. Spotted knapweed (Centaurea maculosa) in particular has infested
vast areas of similar habitat in western Montana, but the species is not yet well
established in southwestern Montana. Knapweed was observed near
populations of Lomatium attenuatum in the Ruby and Tendoy ranges and its
spread into population areas is probably the greatest potential threat to the
species. The potential threat of other exotics such as annuals (Bromus
tectorum, Malacomia africana) and nitrogen-fixers (Medicago lupulina,
Melilotus officinalis) seems to be a secondary threat confined mainly to
disturbance areas at present.

All occurrences are centered in settings with poorly-developed soils and
exposed habitats that are unstable. The deeply-buried taproot and the
tolerance of the rest of the plant to dessication afford it resilience in successional
settings. Some plants showed signs of emerging from burial or having the
surface layer swept away. It was locally common in a steep, southwest-
draining ravine bottom made up of limestone cobbles (003), a local extreme in
instability. It is not considered a pioneer species, but a waif individual was
found on the streets of Bannack.

b . HERBI VORY: A few plant infioresences were browsed, but levels of herbivory
were light. Lomatium attenuatum rarely grows in primary range, and much of
its habitat is essentially inaccessible to cattle. Furthermore, its low stature
diminishes the chances of grazing or browsing. Inflorescences are held above
the leaves and were the only part observed browsed; herbivory is most likely to
affect fruit production rather than plant survival.

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II. ASSESSMENT AND MANAGEMENT RECOMMENDATIONS

A. THREATS TO CURRENTLY KNOWN POPULATIONS

Current threats to Montana populations of Lomatium attenuatum are low. Greatest potential
threats are invasion of habitat by introduced weeds and localized destruction of habitat by
mining.

LIVESTOCK: Canyon bottom and canyon toeslope habitats oi Lomatium attenuatum are
the portions of its habitat with highest incidence of cattle grazing and trailing. They also have the
highest levels of weed infestation. Exotic species present that demonstrate some ability to
colonize scree slopes include black medic (Medicago lupulina) and common mullein
(Verbascum thapsus). Neither is as aggressive as spotted knapweed (Centaurea maculosa),
which was not seen in population areas but was seen in small numbers along travel routes into
canyons in the Ruby (Laurin Canyon) and Tendoy (Limekiln Canyon) ranges. Elsewhere in
western Montana, spotted knapweed has taken over large areas of limestone scree habitat. The
species is just beginning to become established within the range of Lomatium attenuatum.

LOGGING: The canyon slopes harboring Lomatium attenuatum in the Ruby Range were
logged before the turn of the century without apparent degradation of speciesi habitat. As
mentioned previously, it often occurs in the more open or sparsely-vegetated of forested
settings. Baring massive slope failures, the primary potential impact of contemporary logging
practices would be in fostering exotic species invasion.

MINING: Past mining may have eliminated some habitat for the species, but no known
occurrences are currently threatened by mining. Mining claims are located in the Ruby and
Tendoy ranges, but active mines only occur near populations in the Grasshopper Creek
drainage. These mines are centered along the contact zone between sedimentary (limestones)
and igneous formations. Populations of Lomatium attenuatum occur on both rock types in this
vicinity and it is likely that past mining (e.g. New Departure, DelMonte, and Iron Mask mines)
has eliminated habitat of Lomatium attenuatum. Current levels of new threat are unknown,
but existing mining activity potentially fosters noxious weed invasion.

ROADS: Parts of four occurrences (Deer Creek, Laurin Canyon, Limekiln Canyon, and Rocky
Hills) are within areas closed off to motorized travel (U.S. Department of Agriculture et al.
1 990). There is no new road construction apart from new developments.

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EXOTIC SPECIES: Exotic species pose a threat to Lomatium attenuatum in shifting the
competition in favor of other species by nitrogen fixation (Medicago lupulina, Melilotus
officinalis), providing direct competition for hmiting resources like water {Centaurea
maculosa, Verbascum thapsus), and degrading Lomatium attenuatum habitat with
allelopathic agents {Centaurea maculosa).

B. MANAGEMENT PRACTICES AND RESPONSE

LIVESTOCK: In general, the rugged topography and lack of forage in habitats oi Lomatium
attenuatum minimize direct threats from livestock grazing. The species is not on primary range,
and does not show signs of impact on secondary range. It might be affected by livestock grazing
insofar as noxious weeds are treated or spread in the course of livestock management. It might
also be affected by existing or proposed range management features in canyon bottoms and
lower slopes (fences, salt blocks, impoundments) that lie within occurrences.

MINING: While mine sites were not surveyed for Lomatium attenuatum, it is to be assumed
that the removal or burial of the occupied surface poses an impact. The Lomatium
attenuatum is tolerant of surface instability, but the disturbance threshold around the zone of
digging is not known. Spread of noxious weeds may be the most far-reaching threat of mining
to this species.

ROADS: Habitat oi Lomatium attenuatum is not suited for roadbed construction, but
vehicles in road construction and subsequent traffic potentially spread noxious weeds, and
roadbed corridors often become travel corridors for the establishment and spread of exotic
species. Invasion of spotted knapweed may be the most serious threat to Lomatium
attenuatum, and motorized vehicles are frequently its dispersal agents.

EXOTIC SPECIES: Noxious weed invasion is the most serious potential threat to the species,
with the potential to occupy most or all of its habitat. Livestock, mining, and road construction
potentially foster the spread of noxious weeds. Fortunately, the most serious noxious weed
threats, including spotted knapweed, are only at early stages of invasion.

C. RECOMMENDATIONS FOR MAINTAINING VIABLE POPULATIONS

1 . MANAGEMENT RECOMMENDATIONS

Treatment and eradication of spotted knapweed {Centaurea maculosa) is a priority for
conservation of this species at Laurin Canyon and Limekiln Canyon. Periodic noxious
weed surveys are recommended in the area of the nine occurrences, particularly along
roads and at mining sites, and in the course of allotment plan updates.

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It is important to note that areas of additional potential habitat in the Ruby Range
(Bouge and Robinson canyons), Tendoy Range (Kissick, Limekiln, McKenzie, and
Rock canyons) and Grasshopper Creek drainage (Rocky Hills) that have not been
surveyed. It is recommended that any prospective management planning activities in
these areas include a survey for this and associated sensitive species.

The largest known population of Lomatium attenuatum is in the hills north of
Bannack. This represents an area provisionally identified as a conservation priority,
hosting four other plant species that are currently tracked as Montana Plant Species of
Special Concern {Astragalus scaphoides, Lesquerellapulchella, Phacelia incana,
Sphaeromeria argentea), three state or regional endemics that are on the state Watch
list {Delphinium bicolor subsp. calcicola, Oryzopsis contracta, Townsendia
spathulata), and other species that are no longer tracked {Arenaria kingii,
Pediocactus simpsonii). The status of the R&PP application for withdrawing this site
from mining is unknown. An interim summary of site significance is presented in
Vanderhorst (1 995b), with continual occurrence and element updates in the Biological
Conservation Database.

We do not recommend a formal monitoring but a general reassessment of its Montana
status and BLM status within a ten-year period. Key points are identified in the
following status recommendation section, and any new occurrence information should
also be considered.

MTHP has implemented a data management convention that has management
application. At some sites, it occurs intermittently across the broken topography,
spanning as many as seven sections in a single occurrence (EO#001). The patchy
distribution boundaries of these element occurrences have been digitized for accurate
information retrieval in the Biological Conservation Database (BCD), particularly critical
in conducting reviews of proposed projects that are confined to small areas.

2. STATUS RECOMMENDATIONS

Current BLM status oi Lomatium attenuatum is recommended changed from
Sensitive to Watch status because there are several extensive populations with relatively
broad ecological amplitude, high numbers, and low degree of threats in three separate
areas. Sensitive status should be reconsidered if:

1 ) Population declines become evident,

2) Infestation of weeds, especially spotted knapweed, are documented in population
areas, or

3) Mining is proposed in major population areas.

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Current global rank (G2) assigned by The Nature Conservancy warrants
reconsideration. Definition of G2 status is iimperiled because of rarity (6 to 20
occurrences), or because of other factors making it very vulnerable throughout its
rangei (Heidel 1 997). There are now a total of 22 occurrences documented in Montana
and Wyoming (Montana Natural Heritage Program and Wyoming Natural Diversity
Database records). The same factors supporting BLM status change in Montana lend
further support to the case for rangewide rank change to G3 (globally vulnerable-
typically 20- 1 00 occurrences). These include the several extensive populations with
fairly broad ecological amplitude, high numbers, and low degree of threats in a four
separate areas rangewide. Current Montana state rank (S2) remains appropriate.

III. INFORMATION SOURCES

A. HERBARIUM SPECIMENS : Specimen vouchers were deposited at two herbaria:

Montana State University (MONT)-J. Vanderhorst 5191, 5222, 5436, 5441, 5645,
5642, 5645, 5651, 5652, 5654, 5658, 5661,

University of Montana (MONTU)-P Lesica 5990, 6078, 6081, 6127, 6294; B. Heidel
1477, 1561

Note: Specimen vouchers are cited on the individual element occurrences (Appendix
A).

B. FIELD WORK: Field surveys were conducted over a two week period in early June of 1 997
by Jim Vanderhorst.

C. LITERATURE CITED

Buchmann, S. L. and G. R Nabhan. 1 996. The Forgotten Pollinators. Island Press, Washington, D.C.
292 pp.

Constance, L. 1 993 . Apiaceae. in The Jepson manual, ed. J. C. Hickman. University of California
Press, Berkely, CA.

Culver, D. R. 1 993 . Sensitive plant species inventory in the Centennial Valley, Beaverhead County.

Unpublished report to the Bureau of Land Management. Montana Natural Heritage Program,
Helena. 42 pp. + app.

Dorn, R. D. 1 989. A report on the status of Lomatium attenuatum, a Candidate Threatened
Species. Unpublished report for the U.S. Fish and Wildlife Service. Mountain West
Environmental Services, Cheyenne, WY.

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Dom, R. D. 1 992. Vascular Plants of Wyoming, 2"^ ed. Mountain West Publishing. Cheyenne, WY.
340 pp.

Evert, E. F. 1983. Anew species of Lomatium (Umbelliferae) from Wyoming. MadroOo 30(3): 143-
146.

Fertig, W. 1 996. Wyoming Plant Species of Special Concern. Wyoming Natural Diversity Database.
32 pp.

Fertig, W. 1 997. Plant species of special concern on Shoshone National Forest: 1 996 results.

Unpublished report to Shoshone National Forest. Wyoming Natural Diversity Database,
Laramie, WY.

Heidel, B.L.I 997. Montana Plant Species of Special Concern. Montana Natural Heritage Inventory.
34 pp.

Heidel, B. L. and J. Vanderhorst. 1996. Sensitive plant surveys in Beaverhead and Madison counties,
MT. Unpublished report to Bureau of Land Management. Montana Natural Heritage Program,
Helena. 85 pp. + app.

Marriott, H. 1989. Status of Lomatium attenuatum. p. 15, In: Rare, sensitive, and threatened species
of the Greater Yellowstone Ecosystem, T. W. Clark, A. H Harvey, R. D. Dorn, D. L. Center,
and C. Groves, eds. Northern Rockies Conservation Cooperative, Montana Natural Heritage
Program, The Nature Conservancy, and Mountain West Environmental Services. 1 53 pp.

Soltis, P. S., D. E. Soltis, and T. L. Norvell. 1 997. Genetic diversity in rare and widespread species of
Lomatium (Apiaceae). MadroOo 44: 59-73.

Stebbins, G L. 1 974. Flowering Plants n Evolution above the Species Level. Belknap Press of
Harvard University Press, Cambridge, MA. 399 pp.

U. S. Department of Agriculture, U.S. Department of Interior, and State of Montana. 1990. Interagency
visitor map. Southwest Montana.

U. S. Department of Commerce, National Oceanic and Atmospheric Administration. 1982. Monthly
normals of temperature, precipitation, and heating and cooling degree days, 1951-1980,
Montana. Climatography of the United States no. 8 1 . National Climatic Center, Ashville, NC.

U. S. Department of the Interior, Bureau of Land Management. 1996. Special status species
management; Supplement 6840 of 8 April 1996. Billings, MT.

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U. S. Department of the Interior, Fish and Wildhfe Service. 1 993 . Plant taxa for hsting as endangered or
threatened species; notice of review. Federal Register 58 (1 88): 5 1 144-5 1 1 90.

. 1 996. Endangered and threatened

wildlife and plants; Notice of final decision on identification of candidates for listing as
endangered or threatened. Federal Register 61(235): 64481-64485.

Vanderhorst, J. 1 994a. Survey for sensitive plants on Dutchman Mountain, Beaverhead County,

Montana. Unpublished report to the Bureau of Land Management. Montana Natural Heritage
Program, Helena. 5 pp. + app.

. 1 994b. Survey for sensitive plant species in the vicinity of Lemhi Pass, Beaverhead

County, Montana. Unpublished report to the Bureau of Land Management. Montana Natural
Heritage Program, Helena. 5 pp. + app.

. 1 995a. Sensitive plant survey of the Tendoy Mountains in the Beaverhead National

Forest, Beaverhead County, Montana. Unpublished report to Beaverhead National Forest.
Montana Natural Heritage Program, Helena. 68 pp.

. 1 995b. Survey of Bannack State Park and vicinity for Montana plant species of

special concern. Unpublished report to Bannack State Park, Montana Department of Fish,
Wildlife, and Parks, Dillon, MT. Montana Natural Heritage Program, Helena. 23 pp + app.
. 1 995c. Sensitive plant survey in the Horse Prairie Creek drainage, Beaverhead

County, Montana. Unpublished report to the Bureau of Land Management. Montana Natural
Heritage Program, Helena. 42 pp. + app.

Vanderhorst, J. and B . L. Heidel. 1 995 . Sensitive plant survey in the Tobacco Root Mountains,
Madison County, MT. Montana Natural Heritage Program, Helena.

Vanderhorst, J., B. L. Heidel, J. Pierce, and S. V. Cooper. 1997. Botanical survey of the Ruby Range,
Madison County, Montana. Unpublished report to Bureau of Land Management. Montana
Natural Heritage Program, Helena.

Vanderhorst, J. and P. Lesica. 1994. Sensitive plant survey in the Tendoy Mountains, Beaverhead

County, MT. Unpublished report to Bureau of Land Management. Montana Natural Heritage
Program, Helena. 60 pp + app.

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