FIRE HISTORY DATABASE
OF THE WESTERN UNITED STATES
Emily K. Heyerdahl
USDA Forest Service, Seattle, Washington
Dawn Berry and James K. Agee
University of Washington, Seattle
INTERAGENCY AGREEMENT DW12934530
US Environmental Protection Agency, USDA Forest Service, University of Washington
September 1995
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FIRE HISTORY DATABASE
OF THE WESTERN UNITED STATES
Emily K. Heyerdahl
USDA Forest Service, Seattle, Washington
Dawn Berry and James K. Agee
University of Washington, Seattle
INTERAGENCY AGREEMENT DW12934530
US Environmental Protection Agency, USDA Forest Service, University of Washington
September 1995
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FIRE HISTORY DATABASE OF THE WESTERN UNITED STATES:
FINAL REPORT
September 1995
INTERAGENCY AGREEMENT
Environmental Protection Agency: DW12934530
USDA Forest Service, Pacific Northwest Research Station: 93-0300
University of Washington, College of Forest Resources: 61-2239
CONTENTS
Final Report 1
Introduction 1
Objectives 1
Data Sources 2
The Fire History Database 2
Limitations of the Database 6
Recommendations for Future Reporting of Fire Histories.. 6
Updates and On-line Availability 7
Acknowledgments 7
References Cited 7
Appendix A: Descriptions of the Database Files 10
Appendix B: Listing of the Reference File (FHREF.DB) 18
Appendix C: Listing of the Site File (FHSITE.DB) 29
Appendix D: Listing of the Regime File (FHREGIME.DB) 44
Appendix E: Site Location Maps by State 58
Appendix F: Regime (Severity) Maps by State 66
Appendix G: Regime (Characteristics) Maps by State 74
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INTRODUCTION
Human activities are changing the chemical composition of the atmosphere at an unprecedented
rate, which may lead to significant changes in climate (Bolin and others 1986; Houghton and
others 1990,1992). These climatic changes could directly alter fire frequency, extent and severity
by changing the amount, distribution and seasonality of precipitation and other factors that
influence fire (Gark 1990; Flannigan and Van Wagner 1991). Gimate may also change the rate
of forest production, mortality and decomposition which will change the amount and distribution
of fuel, hence indirectly alter fire regimes (Gark 1990). In addition, changes in climate could alter
the global distribution of forest life-zones (Emanuel and others 1985; Leverenz and Lev 19X7;
Smith and others 1992). The rate at which forest communities adjust to climate change will be
controlled in part by disturbance processes, primarily fire and land use practices (Overpeck and
others 1990). Fire is the dominant natural disturbance in many parts of the western United States
(Pyne 1982; Agee 1993) where steep topographic and climatic gradients result in a great variety
of fire regimes. A continental-scale fire frequency model is being developed by the National
Center for Atmospheric Research (Bergengren, NCAR, Boulder, CO) as an essential component
of a broad-scale vegetation model used to predict the response of vegetation of global climate
change. The database reported here contains existing tree-ring reconstructions of past forest fire
regimes in the western continental United States (exclusive of Alaska) that can be used to
calibrate and verify this and other fire models.
Fire frequency in forested areas can be reconstructed by dating the annual ring in which fire scars
form and/or estimating the year of origin of stands that regenerate after fire (e.g. Barrett and Arno
1988, Sheppard and others 1988). The annual rings are either dated dendrochronologically using
prepared samples (by crossdating; Stokes and Smiley 1968) or by ring-counting, in the field or
laboratory, using minimally prepared samples. Fire extent is estimated from the number and
spatial distribution of trees or sites recording fire in a given year (e.g. Agee and others 1990,
Swetnam and Dietench 1985; Baisan and Swetnam 1990) or by using landscape-scale age
structure models (Johnson and van Wagner 1985). Numerous fire histories, reconstructed from
tree-rings for small portions of the western United States, are available from both published and
unpublished sources. These reconstructions cover a wide variety of vegetation types and
topographic settings.
OBJECTIVES
The objective of this project was to create a database of existing published and unpublished tree-
ring reconstructions of fire regimes in forested areas, before circa 1900, west of 100°W in the
continental United States, exclusive of Alaska. The database includes only information that is
provided in the studies or site information that can be gathered with minimal effort from other
sources. Site locations and fire regimes are mapped (appendices E through G) but not
interpolated.
The studies included in the database are restricted to tree-ring reconstructions of fire history and
the information extracted includes citations to the data sources, site information, estimated fire
1
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regimes, and information on individual fire events (when readily available). Appendix A is a
detailed description of the fields in each of the four database files and appendices B through D
contain the contents of the database files.
Fire regimes vary greatly across short distances in the western United States, so that a
reconstruction of fire history over a small area may not represent the history of a larger area.
Therefore, we extracted information on the size of the study area and the amount of fire evidence
(number of trees scarred and/or number of tree origin dates) used in computing the fire regimes to
allow the user to gauge the applicability of each reconstruction to larger areas.
DATA SOURCES
One hundred and sixteen fire history studies (Appendix B) covering 623 sites were identified by
searching the extensive literature and data collections of the personnel involved in this work and
by keyword searching of the International Bibliography of Wildland Fire (International
Association of Wildland Fire 1993) and the bibliography of the International Tree-Ring Data Bank
(ITRDB 1992). 87 of the 116 studies are published, 19 are unpublished theses or dissertations
and 10 are unpublished reports. The reconstruction of fire history was the primary purpose of 84
of the 116 studies. The remaining studies reconstructed fire history as part of multipurpose
studies, e.g. studies of forest development or the interaction of fire with insects and/or fungi.
THE FIRE HISTORY DATABASE
1) Amount of fire history information.
a) Evidence of fire. At 41% of the sites, fire history was reconstructed using both fire scars
and stand origin dates; at 9% of the sites only stand origin dates were used; and at the
remaining 50% of the sites only fire scars were used. The number of trees used to estimate
the reported fire regimes by site ranged from 1 to 3500 with an average of 29 per site. The
number of fires used to estimate these same fire regimes ranged from 0 to 68 with an average
of 9 per site.
b) Dating method. Most studies dated fires by counting rings on minimally-prepared samples,
some of these studies adjusted fire dates by matching patterns of fire years between samples.
Ring widths were dendrochronologically crossdated at only 19% of the sites.
c) Period of record. The longest fire histories in the database date to before the year 400,
however, the majority of the reconstructions date only to the 1600's (87% of sites). Very few
studies reported fire regimes during more than one time period (e.g. by century; <5% of sites).
d) Size of study area. The size of the study area was given or determined from maps for 60%
of the sites. The size of these sites ranged from 0 (for point frequencies) to 492,500 ha with
an average of 5751 ha.
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e) Information on individual fires. Most studies gave some information about individual fires
(72%), however, very few studies gave the extent of individual fires (8% of individual fires).
40% of the studies included the number of trees used to reconstruct the individual fires
(average of 3 trees per fire with a range from 1 to 80).
2) Site characteristics.
a) Geographic distribution. The database includes fire history reconstructions from 12
western states plus several studies from Minnesota and one from Kansas (figure 1).
Figure 1. Location of sites included in the Fire History Database. (See Appendix £ for site location maps
labeled with reference/site number, by state).
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b) Distribution by Kiichler (1964) class. The study sites in the database were classified
according to Kuchler's (1964) potential natural vegetation type (figure 2, table A3). Because
many of the studies provided neither the site size nor the area over which the reconstructions
could reasonably be extrapolated, the percentage of sites is used here as a crude indication of
land area sampled. Over 50% of the sites were sampled in just three Kiichler classes:
redwood, Douglas-fir and western spruce-fir. Because it is based on tree-ring
reconstructions, this database considers only forested areas, however 60% of the combined
land area of the states represented in this database is non-forested.
_ 25% T
eg 20% --
E9 land area
~ Number of Database Sites
S
2 10%
La
V
Qm
j~*ii r~iI n,Jl
? Kuchler forest classes
Figure 2. Distribution of study sites among selected potential natural vegetation types in relauon to
the total land area occupied by that vegetation type in the western United States. Percentage of a)
total land area in the western United States and b) number of sites in the database (623 total), by
Kiichler class See table A3 for a complete listing of the potential natural vegetation types used in
the database.
c) Distribution by elevation. The elevation range of the study sites included in the database is
15 to 3658 m with an average of 1528 m (figure 3).
d) Distribution by slope (figure 4). At the sites for which slope was given, twice as many
sites were sampled at slopes of 11-40% as were sampled in any other slope class.
o 25-r
t .
¦¦
H
+J U
H
H
|1 l|« 'I 1
g T § § §
§ I i
Elevation (m)
s
60 -r
S0--
(ft
*
40 •
&
30 •
1
20 ¦
E
10 •
fi.
0 • -
fe Si
IP *>
Slop* Class
Figure 3. Percentage of sites in the database (623
sites total) by elevational classes.
Figure 4. Percentage of sites in the database by
slope class (623 sites total).
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e) Distribution by aspect. The aspects reported in most studies were assumed to be microsite
features of the study areas so a comparison of this information with total land area in various
aspect classes is probably not meaningful. At the microsite scale reported in the database,
31% of the sites were sampled on south aspects (SE to SW) and 21% were sampled on north
aspects (NE to NW).
3) Fire history.
a) Fire frequency. Fire frequency can be computed at a single point, based on information
from one or several trees, or it may be computed over an area, based on information from
many trees (see table A5 for explanation of methods for computing fire frequency; Agee
1993). The frequency obtained is obviously highly dependent on the size of the area included
in the computation and therefore fire frequency must be stratified by method of computation
for inter-site comparisons to be meaningful. In the database, fire frequency was input to the
database as it was reported in each study. Most fire frequencies were computed as a
composite fire interval (55% of sites). Fire frequency was computed as a mean fire return
interval at 5% of the sites, as a natural fire rotation at 10% of the sites and as a point
frequency at 24% of the sites. Frequency was computed using landscape-scale age structure
models such as van Wagner (also known as negative exponential) or Weibull distributions at
less than 1% of the sites. Stratifying the sites in the database by method of frequency
computation would leave too few sites in each method-category, therefore, inter-site
comparisons of fire history are made here on the basis of fire regime and fire severity classes.
b) Fire regime and severity classes. Fire severity is the effect of fire on trees (Agee 1993).
For the database, we qualitatively defined high severity fire regimes as those for which most
fires kill a majority of the trees and low severity fire regimes as those for which most fires do
not kill a majority of the trees. Almost half of the sites have moderate severity fire regimes
Oast row table 1). 77% of the sites are in Heinselman's regimes 2 and 3 (last column table 1,
see table A4 for a description of the Heinselman classes). The Heinselman classification
incorporates both frequency and severity - in general, severity increases with increasing
Heinselman class number. It is therefore not surprising that severity and Heinselman class are
correlated in the database (table 1).
LIMITATIONS OF THE DATABASE
Although the symbols on the maps in appendices F and G give an impression of uniformity, there
is tremendous variation in the amount and kind of information represented by each symbol.
Under the limited scope of this project, we did not re-analyze the fire history reconstructions to
make the symbols represent uniform data; therefore, detailed inter-site comparisons of this
database are not always meaningful. Before drawing conclusions about regional patterns, the user
should carefully review the information in the database, especially the number of trees and fires
which were used to reconstruct each fire regime.
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Table 1. Number of sites by fire regime and severity class ( 605 sites total).
Heinselman
classes*
LOW
Seventy
MODERATE
HIGH
Percent
0
1
39
48
14%
2
158
67
37%
3
2
173
66
40%
4
3
28
5%
5
6
11
3%
6
4
1%
percent
33%
49%
18%
* See table A4 for a description of Heinselman's classes.
The various methodologies used (e.g. point versus area frequencies [Agee 1993]) make intersite
comparisons difficult unless similar techniques and presentation styles were used. Furthermore,
many of the studies have coarse dating resolution, as dendrochronological crossdating was not
used. The presence of crossdating is noted in the file FHREGIME.DB (field number 9). Where
fire return intervals exceed roughly 25 years, this may not seriously affect intrasite fire frequency
estimates, but it clearly precludes comparisons between sites. Signatures of climatic control at
landscape to regional scales will not be possible without accurate crossdating.
RECOMMENDATIONS FOR FUTURE REPORTING OF FIRE HISTORIES
In assembling this database, we found that many studies did not report what we considered to be
critical information for interpreting the results. We recommend that future studies report all the
items we have included in this database. Items that are commonly omitted include:
a) size of study area and size of plots w/in the study area
b) number of trees used to reconstruct each fire
c) number of fires reconstructed
d) clear site and location information
e) actual fire dates and/or untransfomned fire intervals
f) intra-annular placement of scars
g) clear reference to the source of any plant association classifications
UPDATES AND ONLINE AVAILABILITY
The database is available through the Oregon State University Forest Science Data Bank (FSDB.
For users with access to the World Wide Web, the address is
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http://www.fsl.orst.edu
Users without access can contact the FSDB at the following address.
FSDB
Forestry Sciences Laboratory
3200 SW Jefferson Way
Corvallis, OR 97331
ATTN: Gody Spycher or Don Henshaw
Regular updates to the database are not currently planned, however occasional updates may be
made.
ACKNOWLEDGMENTS
Significant contributions to this report were made by several people We appreciate the assistance
of George King, George Lienkaemper who manipulated and presented the geographical data, and
Nicole Amato who assisted in extracting data from the studies. We also thank Stephen F. Amo,
Charles W. Hendricks, George King and Thomas W. Swetnam for helpful reviews of the draft
report.
REFERENCES CITED
Agee, J.K. 1990. The historical role of fire in Pacific Northwest Forests. In: Natural and
prescribed fire in Pacific Northwest forests. J.D. Walstad; S.R. Radosevich; D V. Sandberg, eds
Corvalhs, Oregon: Oregon State University Press, pp 25-38.
Agee, J.K. 1993. Fire Ecology of Pacific Northwest Forests. Washington, D.C.: Island Press.
493 pp.
Arno, S.F.; Petersen, T.D. 1983. Variation in estimates of fire intervals: a closer look at fire
history on the Bitterroot National Forest. Research Paper INT-301. Ogden, UT: US
Department of Agriculture, Forest Service, Intermountain Forest and Range Experiment Station.
8 pp.
Baisan, C.H.; Swetnam, T.W. 1990. Fire history on a desert mountain range: Rincon Mountain
Wilderness, Arizona, U.S.A. Canadian Journal of Forest Research. 20:1559-1569.
Barrett, S.W. 1988. Fire regimes classification for the coniferous forests of the northwestern
United States. Final report to Intermountain Research Station. Missoula, Montana, (cooperative
agreement INT-87219).
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Barrett, S.W.; Arno, S.F. 1988. Increment-borer methods for determining fire history in
coniferous forests. General Technical Report INT-244. Ogden, Utah: U.S. Department of
Agriculture, Forest Service, Intermountain Research Station. 15 p.
Bibliography of Wildland Fire. 1992. Available from : International Association of Wildland Fire,
Fairfield, WA 99012.
Bolin, B.; Doos, B.R.; Jager, J.; Warrick, R.A. 1986. The Greenhouse Effect, Climatic Change,
and Ecosystems, SCOPE 29. New York: John Wiley & Sons. 541 p.
Clark, J.S. 1990. Twentieth-century climate change, fire suppression, and forest production and
decomposition in northwestern Minnesota. Canadian Journal of Forest Research. 20:219-232.
Emanuel, W.R.; Shugart, H.H.; Stevenson, M.L. 1985. Climate change and the broad-scale
distribution of terrestrial ecosystem complexes. Climatic Change. 7:29-43
Flanrugan, M.D.; Van Wagner, C.E. 1991. Climate change and wildfire in Canada. Canadian
Journal of Forest Research. 21:66-72.
Heinselman, M.L. 1973. Fire in the virgin forests of the Boundary Waters Canoe Area,
Minnesota Quaternary Research. 3:329-382.
Houghton, J.T.; Jenkins, G.J.; Ephraums, J.J., editors. 1990. Climate change. The IPCC
scienafic assessment. Cambridge University Press. 365 pp.
Houghton, J.T., Callander, B.A.; Varney, S.K., editors. 1992. Climate change 1992. The
supplementary report to the IPCC scientific assessment Cambridge University Press.
International Association of Wildland Fire. 1993. P.O. Box 328, Fairfield, WA 99012.
International Tree-Ring Data Bank (ITRDB). 1992. Available from: National Geophysical Data
Center, NOAA, 325 Broadway, E/GC, Boulder, CO 80303.
Johnson, E.A.; Van Wagner, C.E. 1985. The theory and use of two fire history models
Canadian Journal of Forest Research. 15:214-220.
Kiichler, A.W. 1964. Potential natural vegetation of the conterminous United States. American
Geographical Society Special Publication 36.
Leverenz, J.W.; Lev, D.J. 1987. Effects of carbon dioxide-induced climate changes on the natural
ranges of six major commercial tree species in the western United States. In: Shands, W.E.;
Hoffman, J.S. eds. The Greenhouse Effect, Climate Change and U.S. Forests. Washington, DC:
The Conservation Foundation, pp. 123-155.
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Overpeck, J T.; Rind, D.; Goldberg, R 1990. Climate-induced changes in forest disturbance and
vegetation. Nature. 343:51-53.
Pyne, S.J. 1982. Fire in America: A cultural history of wildland and rural fire. Princeton, NJ.
Princeton University Press. 654 pp.
Sheppard, P.R.; Means, J.E.; Lassoie, J.P. 1988. Cross-dating cores as a nondestructive method
for dating living, scarred trees. Forest Science. 34:781-789.
Smith, T.M.; Shugart, H.H, Bonan, G.B.; Smith, J.B. 1992. Modeling the potential response of
vegetation to global climate change. Advanced Ecological Research. 22:93-116.
Stokes, M.A.; Smiley, T.L. 1968. An introduction to tree-ring dating. Chicago: University of
Chicago Press 73 p.
Swetnam, T.W.; Dieterich, J.H. 1985. Fire history of ponderosa pine forests in the Gila
Wilderness, New Mexico. In. General Technical Report INT-182. Ogden, Utah US
Department of Agriculture, Forest Service, Intermountain Forest and Range Experiment Station,
pp. 390-397.
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APPENDIX A: DESCRIPTIONS OF DATABASE FILES
This appendix contains detailed descriptions of the Fire History Database computer files. This
relational database is contained in four Paradox files (release 3.0; Borland International Inc.)
Table A1 provides the structure of these four files - descriptions of each field are given in the
sections which follow. The site, reference and fire files are related by the "Reference/site number"
field. Except for the reference file (FHREF.DB), the database entries are made with capital letters
to facilitate searching. The symbol 1" indicates no data in both the numeric and alphanumeric
fields.
FHREF.DB - citation to sources
Whenever possible, data was extracted from a full report, dissertation or thesis because they
usually contain more information than the versions published in journals.
1) Reference number - a unique number is assigned to each of the references. If there are two
versions of a reference (e.g. a thesis and a journal article), both versions are cited in the
database with the same reference number.
2) Authors - the authors names as given in the reference
3) Title
4) Citation
5) Year of publication
6) Objectives - of the study, in the author's words, if possible
FHSITE.DB -site information (-1 indicates no data)
1) Reference/site number - a combination of the reference and site numbers; e g the second site
from the fortieth reference has a reference/site number of 4002.
2) State - the two letter postal code
3) Albers-E - Site location based on the Albers equal-area conic projection. This information is
provided for those users who cannot easily map latitude and longitude since site locations in
the Albers projection can be mapped on simple scatter plots.
4) Albers-N
5) Longitude - of the site location in degrees and fractions of a degree.
6) Latitude - of the site location in degrees and fractions of a degree.
7) Aspect - nominal designation (e.g. N, NNW) includes F for flat sites (< 10% slope) and M
for sites with multiple aspect classes; maximum of three characters in this field.
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Table Al. Structure of the Fire History Database Paradox files, giving the exact field names. N indicates
a numeric field, A indicates an alphanumeric field followed by the number of characters.
Cintion to sources, in file FHREF.DB
Site information, in file FHSITE.DB
Individual fire information, in file FHhlKE DB
Fire regime information, in file FHREGIME.DB
1
Reference number
N
2
Authors
A100
3
Tide
A170
4
Citation
A200
5
Year of publication
N
6
Obiecuves
A200
1
Reference/site number
N
2
State
A2
3
Albers-E
N
4
Albers-N
N
5
Latitude
N
6
Longitude
N
7
Aspect
A3
8
Slope class
N
9
Elevation - low
N
10
Elevation - high
N
11
Year-start
N
12
Year - end
N
13
Total area reconstructed
N
14
Plant association
A19
15
Community dominant
A14
16
Kuchler classification
N
17
Site name
A32
1
Reference/site number
N
2
Year of fire
N
3
Start year
N
4
End year
N
5
Extent (ha)
N
6
Number of trees
N
1
Reference/site number
N
2
Regime years - start
N
3
Regime years - end
N
4
Regime - severity
A8
5
Regime - characteristics
N
6
Fire freauencY
N
7
Frequency computation
A12
8
Fire evidence
A12
9
Crossdated?
A3
10
Number of trees
N
11
Number of fires
N
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FHSITE.DB -site information (cont.)
8) Slope class:
1 <10%
2 10-39%
3 40-75%
4 >75%
5 sites with multiple slope classes
9) Elevation - low - the lower end of the range of elevation covered by the site, in meters.
10) Elevation - high - the upper end of the range of elevation covered by the site, in meters.
11) Years - start - the starting year of the range of years for which fire history was reconstructed
at the site. This is not always the same as the start year in the regime file because the regime
may be reported for different time periods at the same site.
12) Years - end - the ending year of the range of years for which fire history was reconstructed at
the site. This is not always the same as the ending year in the regime file because the regime
may be reported for different time periods at the same site. Also, whenever possible, regimes
are reported before 1900. For example, if fire history at a site was reconstructed for the
period 1400 to 1985, the range of years in the site file will be 1400-1985 but the range of
years in the regime file will be 1400-1900.
13) Total area reconstructed - total area of the site in hectares.
14) Plant association - as provided in each study, generally entered as the four letter species code
(first two letters of genus plus first two letters of species). See table A2 for a complete list of
codes used in the database.
15) Community dominant - as provided in each study; generally entered as a four letter species
code (first two letters of genus plus first two letters of species). See table A2 for a complete
list of codes used in the database.
16) Kuchler classification - Vegetation was classified into Kiichler's (1964) potential natural
vegetation types. Table A3 contains a complete list of the numeric codes used in the
database.
17) Site name - either the name of the site as indicated by the author of the report; "entire area" if
there is only one site or some other logical identifier
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FHSITE.DB -site information (cont.)
Table A2 Abbreviations used in plant association and community dominant fields
Abbr
Common name
Scientific name
ABAM
Pacific silver fir
Abies amabths
ABCO
white fir
Abies contolor
ABGR
grand fir
Abies grandis
ABLA
subalpine fir
Abies lasiocarpa
ABMA
Shasta red fir
Abies magnified var shastensis
ACCI
vine maple
Acer ctranatum
ACGR
big-toothed maple
Acer grandidematum
ACMA
bigleaf maple
Aier macrophyllum
ACS A
sugar maple
Acer saccharum
ADFA
chamise
Adenosioma fasciculutum
AGIN
beardless bluebunch wheatgrass
Agropyron inerme
AGSP
bluebunch wheritgrass
Agropyron spimtum
ARGL
eastwood manzamta
Arciostaphylos glandulosa
ARTR
big sagebrush
Artemisia tridentaia
BEAQ
tall Oregongrape
Berberis aquifohum
BENE
Oregongrape
Berberis nervosa
CADE
incense cedar
Calocedrus deiurrens
CAGE
elk sedge
Carex geyeri
CARU
pinegrass
Calamagrostis rubescens
CEIN
coast whitethorn
Ceanothus incanus
CEVE
snowbrush ceanothus
Ceanothus velutinus
CHUM
western prince's pine
Chimaphila umbelluiu
CLUN
queencup beadlily
Clintonia uniflora
COOC
western goldthread
Coptis occidentals
CUAR
Arizona cypress
Cupressus anzonica
FAGR
beech
Fagus grandifoha
FEID
Idaho fescue
Festuca idahoensis
*
GRAS
unidentified grass species
HODI
creambush oceanspray
Holodiscus discolor
JUOC
western juniper
Juniperus occidentals
LAOC
western larch
Larix occidentals
LIBO
twinflower
Lmnaea borealis
LUH1
smooth wood-rush
Luzula hitchcocku
MUEM
bull grass
Muhlenbergia emersleyi
*
MULT
more than one species
*
PASP
unidentified boxwood species
PAMY
Oregon boxwood
Pachistima myrsinites
PHMA
mallow ninebark
Physocarpus malvaceus
PIAL
whitebark pine
Pinus albicaulis
PBA
jack pine
Pmus banksiana
*
PIBL
foxtail pine
Ptnus balfounana
PICE
Mexican pinyon
Pinus cembroides
PICO
lodgepole pine
Pmus contorta
*
PICU
coulter pine
Pmus coulteri
(cont)
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FHSITE.DB -site information (cont.)
Table A2. Abbreviations used in plant association and community dominant fields (cont.)
Abbr.
Common name
Scientific name
PEN
Engelmann spruce
Picea engelmannti
PIFL
limber puie
Ptnus flexths
PLJE
Jeffrey pine
Pinus jeffreyt
PILA
sugar pine
Ptnus lambertiana
PIMO
western white pine
Pinus monticola
PIMU
bishop pine
Pinus muncatu
PIPO
ponderosa pine
Ptnus ponderosa
PIPU
blue spruce
Picea pungens
PIRE
eastern red pine
Ptnus resinosa
POIN
Chisos bluegrass
Poa involuia
POTR
quaking aspen
Populus tremulotdes
PS ME
Douglas-fir
Pseudotsuga menziesn
PUTR
bitterbrush
Purshta tridentata
QUCH
canyon live oak
Quercus chrysolepts
QUDO
blue oak
Quercus douglasu
QUGA
Oregon white oak
Quercus garryana
~ QUGM
Gambel oak
Quercus gambeltt
QUMA
bur oak
Quercus macrocarpa
SECA
groundsel
Senecio cardamine
SEGI
giant sequoia
Sequoiadendron giganteum
SESE
coast redwood
Sequoia sempervtrens
SPBE
birchleaf spiraea
Spiraea betuhfoha
THPL
western redcedar
Thuja pltcaia
nAM
basswood
Tilta americana
TSCA
eastern hemlock
Tsuga canadensis
TSHE
western hemlock
Tsuga heterophylla
TSME
mountain hemlock
Tsuga meriensiana
VAGL
mountain huckleberry
Vacctnium globulare
VAME
big huckleberry
Vaccintum membranaceum
VASC
grouse huckleberry
Vacctnium scoparium
WHMO
Whipple vine
Whtpplea modest a
XETE
common beargrass
Xerophyllum tenax
• abbreviation in this database differs from common practice of using first two letters of genera plus first two
letters of species
14
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FHSITE.DB -site information (cont.)
Table A3. Potential natural vegetation types used in the Fire History Database (from Kiichler, 1964).
FHFIRE.DB - individual fire information (-1 indicates no data)
1) Reference/site number - a combination of the reference and site numbers; e.g. the second site
from the fortieth reference has a reference/site number of 4002.
2) Year of fire - if the fire date is given as a range of dates, this is the mid-point of that range.
3) Start year - of a range of dates, if given. This year could be from a range given by the author
or one computed from an uncertainty given by the author (e.g. 1745 ± 3 years becomes 1742
to 1748 in the database).
4) End year - of a range of dates, if given. This year could be from a range given by the author
or one computed from an uncertainty given by the author (e.g. 1745 ± 3 years becomes 1742
to 1748 in the database).
5) Extent fha) - of the fire in hectares
6) Number of trees - used to reconstruct the individual fire.
Number Potential Natural Vegetation
Number Potential Natural Vegetation
1 Spruce-Cedar-Hemlock Forest
2 Cedar-Hemlock-Douglas Fir Forest
3 Silver Fir-Douglas Fir Forest
4 Fir-Hemlock Forest
5 Mixed Conifer Forest
6 Redwood Forest
7 Red Fir Forest
8 Lodgepole Pme-Subalpine Forest
10 Ponderosa Shrub Forest
11 Western Ponderosa Forest
12 Douglas Fir Forest
13 Cedar-Hemlock-Pine Forest
14 Grand Fir-Douglas Fir Forest
15 Western Spruce-Fir Forest
16 Eastern Ponderosa Forest
18 Puie/Dougtas Fir Forest
19 Arizona Pine Forest
20 Spruce-Fir-Douglas Fir Forest
23 Juniper-Pinyon Woodland
24 Juniper Steppe Woodland
25 Alder-Ash Forest
26 Oregon Oakwoods
28 Mosaic of #2 and #26
29 California Mixed Evergreen Forest
30 California Oakwoods
31 Oak-Jumper Woodland
33 Chapanal
34 Montane chaparral
38 Great Basin Sagebrush
40 Saltbush-Greasewood
50 Fescue-Wheatgrass
51 Wheatgrass-Bluegrass
52 Alpine Meadows and Barren
55 Sagebrush Steppe
59 Trans-Pecos Shrub Savanna
81 Oak Savanna
86 Jumper-Oak Savanna
95 Great Lakes Pine Forest
99 Maple-Basswood Forest
15
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FHREGIME.DB -fire regimes information (-1 indicates no data)
1) Reference/site number - a combination of the reference and site numbers; e.g. the second site
from the fortieth reference has a reference/site number of 4002.
2) Regime years - start - the starting year for the period during which the fire regime is calculated.
This is not always the same as the start year in the site file because the regime may be
reported for different time periods at the same site.
3) Regime years - end - the ending year of the range of years for which the regime is reported.
This is not always the same as the end year in the site file because the regime may be reported
for different time periods at the same site. Also, whenever possible, regimes are reported
before 1900. For example, if fire history at a site was reconstructed for the period 1400 to
1985, the range of years in the site file will be 1400-1985 but the range of years in the regime
file will be 1400-1900.
4) Regime - severity - Fire severity is the effect of fire on trees (Agee 1993). For the database,
we qualitatively defined high severity fire regimes as those for which most fires kill a majority
of the trees and low severity fire regimes as those for which most fires do not kill a majority
of the trees. (HIGH, MOD, or LOW).
5) Regime - characteristics - classification of the fire regime based on characteristics of its
frequency and severity, after Heinselman (1973; table A4).
Table A4. Classification of fire regime based on frequency and seventy characteristics (Heinselman 1973)
Fire regime
number Description of the regime
0 No natural fire (or very little)
1 Infrequent Light surface fires (more than 25 year intervals)
2 Frequent light surface fires (1-25 year return intervals)
3 Infrequent, severe surface fires (more than 25 year return intervals)
4 Short return interval crown fires (25-100 year return intervals)
5 Long return interval crown fires + severe surface fires (100-300 yr return intervals)
6 Very long return interval crown fires+severe surface fires (> 300 yr return intervals)
6) Fire frequency - Fire frequency either as computed in the study or as can be easily computed
from the data given. If fire frequency was provided as a composite fire interval over an area
larger than approximately 40 ha, the fire frequency is not included in the database (Arno and
Petersen 1983).
16
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FHREGIME.DB -fire regimes information (cont.)
7) Frequency computation - the method used to compute the fire regime. Fire frequency can be
computed at a single point, based on information from one or several trees, or it may be
computed over an area, based on information from many trees (table A5; also Agee 1993).
The frequency obtained is obviously highly dependent on the size of the area included in the
computation and therefore fire frequency must be stratified by method of computation for
inter-site comparisons to be meaningful. In the database, fire frequency is reported as it was
computed by the author of each study.
Table A5 Methods used to compute fire frequency.
Method of estimation Abbreviation Description
naturaJ fire rotation
NFR Time in years required to burn an area equal to the
area of interest (Heinselman 1973).
point interval
composite fire interval
CF1()
Average fire return interval in years from one or
several adjacent trees and also for averages of MFRJs
Average fire return interval in years based on all trees
from within the area indicated within the parentheses.
mean fire return interval MFRJ Average of point intervals
van Wagner
Weibull
VW Fire frequency calculated from statistical distribution
of stand ages assuming uniform flammabihty by stand
age. Also known as negative exponential distribution
.W Fire frequency calculated from statistical distribution
of stand ages where flammability can vary with stand
age.
8) Fire evidence - used to reconstruct fire - SCAR = fire scars only; ORIGIN = date of
establishment of stands of early serai trees only; BOTH = both fire scars and stand origin
dates dates
9) Crossdated? - YES or NO. YES applies if ring-widths were dendrochronologically
crossdated but not if fire dates were "crossdated" by adjusting fire dates so that fire intervals
match between samples.
10) Number of trees - used to determine the fire regime.
11) Number of fires - used to determine the fire regime.
17
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APPENDIX B: CONTENTS OF THE REFERENCE FILE (FHREF.DB)
Number in first column is the reference number.
33 Abrams, Marc D. 1985. Fire history of oak gallery forests in a northeast Kansas tallgrass prairie.
American Midland Naturalist. 114:188-191.
4 Agee, James K. 1990. Fire history along an elevational gradient in the Siskiyou Mountains,
Oregon. Northwest Science. 65:188-199. (also reported in: Agee, James K.; Laura Potash;
Michael Gracz. 1990. Oregon Caves forest and fire history National Park Service Report
CPSU/UW 90-1. Cooperative Park Studies Unit College of Forest Resources, University of
Washington 78 pp.
5 Agee, James K.; Mark Finney; Roland de Gouvenain. 1990. Forest fire history of Desolation Peak,
Washington. Candian Journal of Forest Research. 20:350-356. (also reported in: Agee, James K.,
Mark Finney; Roland de Gouvenain. 1986 The fire history of Desolauon Peak - a portion of the
Ross Lake National Recreation Area. Final report to National Park Service, cooperative agreement
CA-9000-3-0004, subagreement 5.76 pp.)
1 Agee, James K.; Peter W. Dunwiddie. 1984. Recent forest development on Yellow Island, San
Juan County, WA. Canadian Journal of Botany. 62:2074-2080
34 Ahlstrand, Gary M. 1980. Fire history of a mixed conifer forest in Guadalupe Mountains National
Park. In: Stokes, M.A. and J.H. Dieterich (technical coordinators). Proceedings of the Fire History
Workshop. October 20-24, 1980, Tucson, AZ USDA Forest Service, General Technical Report
RM-81. Ft. Collins, CO. Rocky Mountain Forest and Range Experiment Station, pp. 4-7.
38 Amo, Stephen F. 1976 The historical role of fire on the Bitterroot National Forest. USDA Forest
Service, Research Paper INT-187. Ogden, UT: Intermountam Forest and Range Experiment
Station. 29 pp. (also reported in: Amo. Stephen F.; Terry D. Petersen. 1983. Vanaoon in
estimates of fire intervals: a closer look at fire history on the Bitterroot National Forest. USDA
Forest Service, Research Paper INT-301. Ogden, UT: Intermountain Forest and Range Experiment
Station. 8 pp.)
81 Amo, Stephen F. 1981. Fire history in the vicinity of Sheep Mountain Bog, Lolo National Forest.
Unpublished report: on file at USDA Forest Service, Intermountain Experiment Stition,
Intermountain Fire Science Laboratory, Missoula, MT. 4 pp.
35 Amo, Stephen F. 1985. Fire history in the vicinity of Mary's Frog Pond, Lolo National Forest.
Unpublished report on file at USDA Forest Service Intermountain Experiment Station,
Intermountain Fire Science Laboratory, Missoula, MT. 2 pp.
36 Amo, Stephen F.; Dan H. Davis. 1980. Fire history of western redcedar/hemlock forests in
northern Idaho. In: Stokes, M.A. and J.H. Dieterich (technical coordinators). Proceedings of the
Fire History Workshop. October 20-24, 1980, Tucson, AZ. USDA Forest Service, General
Technical Report RM-81. Ft. Collins, CO: Rocky Mountain Forest and Range Experiment Station,
pp. 21-26.
37 Amo, Stephen F.; George E. Gruell. 1983. Fire history at the forest-grassland ecotone in
18
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southwestern Montana Journal of Range Management. 36:332-336.
39 Baisan, Christopher H.; Thomas W Swetnam 1990. Fire history on a desert mountain range
Ricon Mountain Wilderness, Arizona, U.S A. Canadian Journal of Forest Research. 20.1559-
1569.
40 Baker, Frederick S. 1925. Aspen in the central Rocky Mountain region. USDA, Department
Bulletin 129J. 46 pp.
42 Barrett, Stephen W. 1980 Indian Fires in the pre-settlement forests of western Montana In.
Stokes, M.A. and J.H. Dieterich (technical coordinators). Proceedings of the Fire Histoiy
Workshop. October 20-24, 1980, Tucson, AZ. USDA Forest Service, General Technical Report
RM-81. Fl Collins, CO: Rocky Mountain Forest and Range Experiment Station, pp. 35-41.
65 Barren. Stephen W. 1982. Fire's influence on ecosystems of the Clearwater National Forest: Cook
Mountain fire history inventory. USDA Forest Service Clearwater National Forest, Orofino, ID.
42 pp
76 Barrett, Stephen W. 1987. Fire history of the Rapid River drainage. New Meadows Ranger
District, Payette National Forest. Final Report, Contract No. 43-02WW-6-573 for USDA Forest
Service, Payette National Forest, New Meadows Ranger Distnct, New Meadows, ID. 9 pp.
41 Barrett. Stephen W. 1988 Fire supression's effects on forest succession within a central Idaho
wilderness Western Journal of Applied Forestry 3:76-80.
43 Barrett. Stephen W.; Stephen F. Amo, Carl H. Key. 1991. Fire regimes of western larch -
lodgepole pine forests in Glacier National Park, Montana. Canadian Journal of Forest Research
21-1711-1720.
14 Bork, Joyce L. 1984 Fire history in three vegetation types on the eastern side of the Oregon
Cascades. Ph.D. disseration. Corvallis, OR- Oregon State University. 94 pp. (also reported in:
Mazany, Terry; Mama Ares Thompsoa 1983. Fire scar dates from the Pnngle Falls area of
central Oregon. Report prepared for the Silviculture Laboratory, Bend, OR by Modem Studies
Section, Laboratory of Tree-Ring Research, University of Arizona, Tucson, AZ. 15 pp)
23 Bork, Joyce. 1984. Fire history in the Elkhom Mountains. Unpublished manuscript.
44 Brown, Peter Mark. 1991. Dendrochronology and fire history in a stand of northern California
coast redwood. M.S. thesis. Tucson, AZ: University of Arizona. 84 pp. (also reported in: Brown,
Peter M.; Thomas W, Swetnam. 1994. A cross-dated fire history from coast redwood near
Redwood National Park, California. Canadian Journal of Forest Research. 24:21-31.)
45 Burkhardt, J. Wayne; E.W. Tisdale. 1976. Causes of juniper invasion in southwestern Idaho.
Ecology. 57:472-484.
20 Chappell, Christopher B. 1991. Fire ecology and seedling establishment in Shasta red fir (Abies
magnified var shastensis) forests of Crater Lake National Park, Oregoa M.S. thesis. Seattle, WA.
University of Washingtoa 133 pp.
19
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46 Clagg. Harry B ; David R. Stevens. 1976. Fire management in Rocky Mountain National Park
Part II. current fire research. Tall Timbers Fire Ecology Conference. 14.77-86.
47 Cornelius, Colin Jay. 1969. An investigation of the current ecological situation of the Sequoia
sempervirens community in Muir Woods National Monument. M.A. thesis. Sonoma, CA. Sonoma
State College. 149 pp.
48 Davis, Kathleen M. 1980. Fire history of a western larch/Douglas-fir forest type in northwestern
Montana In: Stokes, M.A. and J.H. Dieterich (technical coordinators). Proceedings of the Fire
History Workshop. October 20-24, 1980, Tucson, AZ. USDA Forest Service, General Technical
Report RM-81. Ft. Collins, CO: Rocky Mountain Forest and Range Experiment Station pp. 69-
74.
2 Dickman, Alan Wayne. 1984 Fire and Phelhnus weirii in a mountain hemlock (Tsuga
mertensiana) forest: postfire succession and the persistence, distribution, and spread of a root-
rotting fungus. Ph.D. dissertation. Seattle, WA- University of Washington. 85 pp. (also reported
in: Dickman, Alan; Stanton Cook. 1989. Fire and fungus in a mountain hemlock forest
Canadian Journal of Botany. 67:2005-2016.)
51 Dieterich, J H. 1990. The composite fire interval - a tool for more accurate interpretation of fire
history. In- Stokes, M.A. and J.H. Dieterich (technical coordinators). Proceedings of the Fire
History Workshop. October 20-24, 1980, Tucson, AZ USDA Forest Service. General Technical
Report RM-81. Ft. Collins. CO. Rocky Mountain Forest and Range Experiment Station pp 8-
14.
52 Dieterich, J.H.; A.R. Hibbert. 1990. Fire history in a small ponderosa pine stand surrounded by
chapanal. In- Krammes, J.S (technical coordinators). Effects of fire management of southwestern
natural resources - proceedings of a symposium. November 15-17, 1988, Tucson, AZ USDA
Forest Service, General Technical Report RM-191. Ft. Collins, CO pp. 168-173.
49 Dieterich, John H. 1980. Chimney Spring forest fire history. USDA Forest Service, Research
Paper RM-220. Fort Collins, CO: Rocky Mountain Forest and Range Experiment Station. 8 pp.
50 Dieterich, John H. 1983. Fire history of southwestern mixed conifer a case study. Forest Ecology
and Management. 6:13-31.
53 Dieterich, John H.; Thomas W. Swetnam. 1984. Dendrochronology of a fire-scarred ponderosa
pine. Forest Science. 30:238-247.
54 Dodge, John Marvin. 1975. Vegetation changes associated with land use and fire history in San
Diego County. Ph.D. dissertatioa Riverside, CA: University of California. 216 pp.
24 Finch, R.B. 1984. Fire history of selected sites on the Okanogan National Forest USDA Forest
Service, Okanogan National Forest Okanogan, WA. Unpublished manuscript.
55 Finney, Mark A.; Robert E. Martin. 1989. Fire history in a Sequoia sempervirens forest at Salt
Point State Park, California. Canadian Journal of Forest Research. 19:1451 -1457.
56 Finney, Mark A.; Robert E. Martin. 1992. Short fire intervals recorded by redwoods at Annadel
20
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State Parte, California. Madrofio. 39.251-262.
57 Foxx, Teralene S ; Loren D Potter. 1984. Fire ecology at Bandelier National Monument. In
Foxx, TS (editor). La Mesa Fire Symposium. Los Alamos, October 6-7, 1981 Los Alamos
National Lab. Informal Report LA-9236-NERP. pp. 11-37. (also reported in- Foxx, T S.; L.D.
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Conference on Scientific Research in National Parks November 26-30, 1979, San Francisco, CA
Volume 10. Washington, DC. American Institute of Biological Science and USDI National Park
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58 Freedman, June D.; James R Habeck. 1985. Fire, logging, and white-tailed deer interrelationships
in the Swan Valley, northwestern Montana. In: Lotan, J.E. and J.K. Brown (compilers)
Symposium on fire's effects on wildlife habitat. Missoula, MT, March 21, 1984. USDA Forest
Service, General Technical Report INT-186. Ogden, UT: Intermountam Research Station, pp 23-
35.
59 Fnssell, Sidney S. Jr. 1973. The importance of fire as a natural ecological factor in Itasca State
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60 Fntz, Emanuel. 1932. The role of fire in the Redwood region. Circular 323 Berkeley, CA:
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61 Gabriel, Herman W. III. 1976. Wilderness ecology The Danaher Creek drainage. Bob Marshall
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62 Gardner, W.J. 1905. Results of a Rocky Mountain forest fire studied fifty years after its
occurrence. Society of American Foresters Proceedings. 1:102-109.
11 Geiszler, Daniel Reuben. 1981. Interactions of fire, fungi and mountain pine beetles in a lodgepole
pine stand in south-central Oregon. Ph.D. dissertation Seattle, WA. University of Washington.
101 pp. (also reported in: Gara, R.I.; W.R. Lioke; J.K. Agee; D.R. Geiszler, J.D. Stuart; C.H.
Driver. 1985. Influence of fires, fungi and mountain pine beetles on development of a lodgepole
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63 Goldblum, David; Thomas T. Veblen. 1992. Fire history of a ponderosa pine/Douglas-fir forest in
the Colorado Front Range. Physical Geography. 13:133-148.
22 Gray, Andrew. 1990. Forest structure on the Siouxon bum, southern Washington Cascades,
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64 Greenlee, Jason M. 1983. Vegetation, fire history, and fire potential of Big Basin Redwoods State
Park, California. Ph.D. dissertation. Santa Cruz, California: University of California. 167 pp.
21
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66 Gruell, G E.; L.L. Loope. 1974. Relationships among aspen, fire, and ungulate browsing in
Jackson Hole, Wyoming. USDI National Park Service, Rocky Mountain Regoin, Lakewood.
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67 Gruell, George E.; Wyman C. Schmidt, Stephen F. Amo; William J. Reich. 1982. Seventy years
of vegetative change in a managed ponderosa pine forest in western Montana - implications for
resource management USDA Forest Service, General Technical Report INT-130. Ogden, UT.
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3 Hall, Frederick C. 1976. Fire and vegetation in the Blue Mountains - implications for land
managers. Tall Timbers Fire Ecology Conference. 15:155-170. (also reported in: Hall, Frederick
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of Arizona, Tucson, Arizona, October 20-24, 1980 USDA Forest Service, General Technical
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68 Heinselman, Miron L. 1973. Fire in the virgin forests of the Boundary Waters Canoe Area,
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17 Hemstrom, Miles Arthur. 1979 A recent disturbance history of forest ecosystems at Mount
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69 Houston, Douglas B. 1973 Wddfires in northern Yellowstone National Park. Ecology 54.1111-
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70 Jacobs, Diana F., Dana W. Cole; Joe R. McBride. 1985. Fire history and perpetuation of natural
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29 Keen, F.P. 1937. Climatic cycles in eastern Oregon as indicated by tree rings. Monthly Weather
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71 Keifer, MaryBeth. 1991. Age structure and fire disturbance in the southern Sierra Nevada
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15 Kertis, Jane. 1986. Vegetation dynamics and disturbance history of Oak Patch Natural Area
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72 Kilgore, Bruce M.; Dan Taylor. 1979. Fire history of a sequoia-mixed conifer forest. Ecology.
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73 Kittredge, Joseph Jr. 1934. Evidence of the rate of forest succession on Star Island, Minnesota.
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22
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21 Larson, James Wesley. 1972. Ecological role of lodgepole pine in the upper Skagit River Valley.
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74 Laven, R D.; P.N. Omi; J.G. Wyant; A.S. Pinkerton. 1980. Interpretation of fire scar data from a
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Rocky Mountain Forest and Range Experiment Station pp. 46-49.
75 Madany, Michael Henry. 1981. Land use-fire regime interactions with vegetation structure of
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31 Maruoka, Kathleen Ryoko. 1994 Fire history of Pseudotsuga menziesii and Abies grandis stands
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77 McBnde, Joe R.; Diana F. Jacobs. 1980. Land use and fire history in the mountains of southern
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78 McBnde, Joe R.; Richard D. Laven. 1976. Scars as an indicator of fire frequency in the San
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80 McCune, Bruce. 1983. Fire frequency reduced two orders of magnitude in the Bitterroot Canyons,
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23
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24
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Service, Rocky Mountain Forest and Range Experiment Station Fort Collins, CO Cooperative
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95 Sheppard, Paul R ; James P. Lassoie. 1987. Natural fire history of lodgepole pine of Mt. San
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21-24, San Diego, CA. Boston, MA: American Meteorological Society pp. 106-107. (also reported
in Sheppard, Paul R ; James P. Lassoie. 1986. Fire history of lodgepole pine of Mt San Jacinto.
California. In: Jacoby, G.C.; J.W. Hombeck (compilers). Proceedings or the IntemationaJ
Symposium on Ecological Aspects of Tree-Ring Analysis U.S. Dept. Energy, Office of Energy
Research; Washington, DC pp. 155-162, and in: Sheppard, Paul R.; James P Lassoie 1983
Fire regime of the lodgepole pine communities of the San Jacmto Mountains, California. In. Lotan,
J.E. and others (technical coordinators). Proceedings-symposium and workshop on wilderness fire
Missoula, MT, November 15-18, 1983. USDA Forest Service, General Technical Report INT-182.
Ogden, UT: Intermountam Forest and Range Experiment Station, p 376.)
28 Sherman, Robert James 1969. Spatial and developmental patterns of the vegetation of Black
Butte, Oregon. Ph.D. dissertation Corvallis, OR. Oregon State University. 80 pp
27 Simon, Steven A 1991 Fire history in the Jefferson Wilderness Area east of the Cascade Crest
Final report to the Deschutes National Forest Fire Staff. 29 pp
96 Singer, Francis James. 1975. Wildfire and ungulates in the Glacier National Park area,
northwestern Montana M.S thesis. Moscow, ID. University of Idaho. 53 pp
97 Skinner, Thomas V.; Richard D Laven. 1983 A fire history of the Longs Peak region of Rocky
Mountain National Park. In: Seventh Conference on Fire and Forest Meteorology (preprints). April
25-28,1983, Ft. Collins, CO. Boston, MA: American Meteorological Socitey. pp. 71-74.
98 Sneck, Kathleen M. Davis. 1977. The fire history of Coram Experimental Forest. M.S. thesis
Missoula, MT: University of Montana. 111 pp.
10 Soeriaatmadja, Roehajat Emon. 1966. Fire history of the ponderosa pine forests of the Warm
Springs Indian Reservation, Oregon. Ph.D. dissertation. Corvallis, OR: Oregon State University
123 pp.
99 Spurr, Stephen H. 1954. The forests of Itasca in the nineteenth century as related to fire. Ecology
35:21-25.
100 Steele, Robert; Stephen F. Amo; Kathleen Grier-Hayes. 1986. Wildfire patterns change in central
Idaho's ponderoas pine-Douglas-fir forest Western Journal of Applied Forestry. 1:16-18.
101 Stein, Steven J. 1988. Fire history of the Paunsaugunt Plateau in southern Utah Great Basin
25
-------�
Naturalist 48:58-153.
102 Stephenson, Nathan L.; David J. Parsons, Thomas W. Swetnam 1991. Restoring natural fire to
the sequoia-mixed conifer forest: should intense fire play a role? Tall Timbers Fire Ecology
Conference. 17:321-337.
16 Stewart, Glenn H. 1984. Forest structure and regeneration in the Tsuga heterophylla - Abies
amabilis transiDon zone, central Western Cascades. Oregon. Ph.D. dissertation. Corvallis, OR:
Oregon State University. 148 pp. (also reported in: Stewart, Glenn H. 1986. Forest development
in canopy openings in old-growth Pseudotsuga forests of the western Cascade Range, Oregon.
Canadian Journal of Forest Research. 16:558-568. and in: Stewart, Glenn H. 1986. Population
dynamics of a montane conifer forest, western Cascade Range, Oregon, USA. Ecology. 67.534-
544.)
103 Stuart, John D. 1987. Fire history of an old-growth forest of Sequoia sempervirens (Taxodiaceae)
forest in Humboldt Redwoods State Park, California. Madroflo 34:128-141.
18 Stuart, John David. 1983. Stand structure and development of a climax lodgepole pine forest in
south-central Oregon. Ph.D. dissertation. Seattle, WA: University of Washington. 212 pp (also
reported in. Stuart, John D., Agee, James K.; Robert I. Gara. 1989. Lodgepole pine regeneration
in an old, self-perpetuating forest in south central Oregoa Canadian Journal of Forest Research
19:1096-1104.)
104 Swetnam, Thomas W. 1983. Fire history of the Gila Wilderness, New Mexico. M.S. Thesis
Tucson, A2. University of Arizona. 140 pp. (also reported in: Swetnam, Thomas W; John H
Dietench. 1985. Fire history of ponderosa pine forests in the Gila Wilderness, New Mexico. In
Lotan, J E. and others (technical coordinators) Proceedings-symposium and workshop on
wilderness fire Missoula, MT, November 15-18, 1983. USDA Forest Service General Technical
Report INT-182 Ogden, UT: Intermountain Forest and Range Experiment Station pp 390-397.)
106 Swetnam, Thomas W.; Christopher H. Baisan; Peter M. Brown; Anthony C. Caprio 1988 Fire
history of Rhyolite Canyon, Chiracahua National Monument. Technical Report No. 32.
Cooperative National Park Resources Studies Unit. Tucson, AZ: University of Arizona. 38 pp.
105 Swetnam, Thomas W.; Ramzi Touchan; Christopher H. Baisan; Anthony C. Caprio; Peter M.
Browns [sic]. 1990. Giant Sequoia fire history in Mariposa Grove, Yosemite National Park.
Yosemite Centennial Symposium, Concord, California, pp. 249-255.
107 Talley, S.N.; J.R. Griffin. 1980. Fire ecology of a montane pine forest, Junipero Serra Peak,
California. Madroflo. 27:49-60. (also reported in: Griffin, James R.; Steven N. Talley. 1980.
Fire history, Junipero Serra Park, central coastal California. In: Stokes, M.A. and J.H. Dietench
(technical coordinators). Proceedings of the Fire History Workshop. October 20-24, 1980, Tucson,
AZ. USDA Forest Service, General Technical Report RM-81. Ft Collins, CO: Rocky Mountain
Forest and Range Experiment Station, pp. 82-84.)
109 Taylor, Alan H. 1993. Fire history and structure of red fir (Abies magnified) forests, Swain
Mountain Experimental Forest, Cascade Range, northeastern California. Canadian Journal of
Forest Research. 23.1672-1678.
26
-------�
110 Taylor. Alan H ; Charles B. Halpem. 1991. The structure and dynamics of Abies magnifua
forests in the southern Cascade Range, USA. Journal of Vegetation Science. 2' 189-200
108 Taylor, Dale L. 1973. Some ecological implications of forest fire control in Yellowstone Nauonal
Park, Wyoming Ecology. 54:1394-1396.
30 Taylor, Dan. 1977. Some preliminary observations of the history of natural fires in Skagit
District. North Cascades National Park, Skagit District Office Marblemount, WA
13 Teensma, Peter Dominic Adrian. 1987. Fire history and fire regimes of the Central Western
Cascades of Oregon. Ph.D. dissertation. Eugene, OR: University of Oregon. 188 pp
9 Thomburgh, Dale Alden. 1969. Dynamics of the true fir-hemlock forests of the west slope of the
Washington Cascade Range Ph.D. dissertation Seattle, WA: University of Washington 210 pp
111 Veirs, Stephen D. Jr. 1980. The influence of fire in coast redwood forests. In. Stokes, M A and
J.H. Dieterich (technical coordinators). Proceedings of the Fire History Workshop October 20-24,
1980, Tucson, AZ. USDA Forest Service, General Technical Report RM-81. Ft. Colluis, CO
Rocky Mountain Forest and Range Experiment Stanon. pp. 93-95.
112 Veirs. Stephen D. Jr. 1982 Coast redwood forest: stand dynamics, successional status, and the
role of fire In- Means, J E. (editor). Forest succession and stand development research in the
Northwest. Proceedings symposium: March 26, 1981; Corvallis, OR. Forest Research Lab,
Oregon State University pp. 119-141.
113 Warner. Thomas E. 1980. Fire history in the yellow pine forest of Kings Canyon National Park
In Stokes, M A and J.H. Dietench (technical coordinators) Proceedings of the Fire History
Workshop. October 20-24, 1980, Tucson, AZ USDA Forest Service, General Technical Report
RM-81 Ft. Collins, CO Rocky Mountain Forest and Range Expenment Station, pp. 89-92
114 Weaver, Harold. 1951. Fire as an ecological factor in the southwestern ponderosa pine forests.
Journal of Forestry. 49:93-98.
26 Weaver, Harold. 1959. Ecological changes in the ponderosa pine forest of the Warm Springs
Indian Reservation in Oregon. Journal of Forestry. 57:15-20.
8 Weaver, Harold. 1961. Ecological changes in the ponderosa pine forest of Cedar Valley in
southern Washingtoa Ecology. 42:416-420.
115 Wills, Robin D.; John D. Stuart 1994. Fire history and stand development of a Douglas-
fir/hardwood forest in northern California. Northwest Science. 68:205-209.
25 Wischnofeke, Merle G.; David W. Anderson 1983. The natural role of fire in Wenaichee Valley.
USDA Forest Service, Pacific Northwest Region, Wenaichee National Forest. Wenaichee, WA.
Unpublished manuscript.
32 Woodard, Paul Michael. 1977. Effects of prescribed burning on two different-aged high-elevation
plant communities in eastern Washington. Ph.D. dissertation. Seattle, WA: University of
Washington 228 pp.
27
-------�
19 Yamaguchi, David Kay. 1986. The development of old-growth Douglas-fir forests northeast of
Mount St Helens, WA, following an A D. 1480 eruption Ph.D. dissertation Seattle, WA
University of Washington. 100 pp. (also reported in: Yamaguchi, David K. 1993. Forest history.
Mount St. Helens National Geographic Research and Exploration. 9:294-325.)
116 Young, James A.; Raymond A. Evans 1981. Demography and fire history of a western juniper
stand Journal of Range Management. 34:501-505
28
-------�
APPENDIX C: LISTING OF THE SITE FILE (FHSITE.DB)
(-1 indicates no data)
29
-------�
ReV
— Ekv
—- Year —
Area
CoiTununil)
KUctiler
Sile #
Stale Albert- E
Afben-N
LaL
Long.
Aspect Slope
Low
H.gh
Sun
End
(ha)
Plant Auocialion
dnminanl
Class
Stte name
101
WA -1342717
2985331
123 03
48 59
F
1
15
15
1730
1980
5
PS ME
PSMF
2
ENTIRE AREA
20i'
OR -13525*58'
"2440026"
"121 97"
"43.73"
'"'"m
... .... .
"1566"
2200"
1520
1984
i'8000
TSME
PICO'
...
ENTIRE AREA
'301"
0R-':id594i6'-
2540047"
118 50
'"4500"'
-i
-1
-1
"i 763 '
1967
-1
ABGR"
PIPO
" 14
SINGLE STUMP
'4oi'
OR "i 4986] 7
'2279949"
"i'2'3 -4"i"
"42"i0"
""m
"'3
1300"
T's'ob"
1480
1988
"" 197'
ABCO
' PSME'
5
OREGON CAVES
402
OR -1498617
2279949
123.41
42.10
M
3
1300
1800
1480
1988
197
A ft CO
PSME
5
OREGON CAVES
403
OR -1498617
2279949
123 41
42 10
M
3
1300
1800
1480
1988
197
ABCO
ABCO
5
OREGON CAVES
404
OR -1498617
2279949
123 41
42 10
M
3
1300
1800
1480
1988
197
ABCO
ABCO
5
OREGON CAVES
405
OR -1498617
2279949
123.41
42 10
M
3
1300
1800
1480
1988
197
MULT
MULT
5
OREGON CAVES
406
OR -1476955
2275394
123.14
42 09
N
3
1200
1200
1746
1985
2
PSME/BENE
PSME
5
KINNEY CREEK
ioT
WA -ITSSIoif
"2998022"
"i'2l 02'
"48.94"
™"n
"Y"
' '880 '
1670'
"1573
1985
"640
MULT
mult"'"
' is
N ASPECT
502 WA -1187477
2995034
121 00
48.91
E
3
600
1280
1650
1985
800
MULT
MULT
15
E ASPECT
503 WA -1185110
2992083
120.96
48 89
S
3
490
1220
1650
1985
840
MULT
MULT
15
SASPECT
504 WA -1189368
2993026
121 02
48 89
sw
3
490
1220
1650
1985
530
MULT
MULT
15
SW ASPECT
505
WA -1189513
2996095
121 03
48 92
w
3
490
1520
1650
1985
780
MULT
MULT
15
WASPECT
506
WA -1188753
2994924
121 02
48 91
M
3
490
1670
1650
1985
3500
MULT
MULT
15
ENTIRE AREA
507
WA -1188753
2994924
121.02
48 91
M
3
490
1670
1650
1985
3500
PSMEvPIPO
PSME
12
ENTIRE AREA
508
WA -1188753
2994924
121.02
48 91
M
3
490
1670
1650
1985
3500
PS ME/PICO
PSME
12
ENTIRE AREA
509
WA -1188753
2994924
121.02
48 91
M
3
490
1670
1650
1985
3500
PSME/THPL
PSME
12
ENTIRE AREA
510
WA -1188753
2994924
121.02
48 91
M
3
490
1670
1650
1985
3500
PSME/TSHE
PSME
12
ENTIRE AREA
511
WA -1188753
2994924
12102
48.91
M
3
490
1670
1650
1985
3500
PSME/ABAM
PSME
12
ENTIRE AREA
512 WA -1188753
2994924
121.02
48.91
M
3
490
1670
1650
1985
3500
ABAM/ABI.A
ABAM
15
ENTIRE AREA
513
WA -1188753
2994924
121.02
48 91
M
3
490
1670
1650
1985
3500
PICO/A BLA
A BLA
15
ENTIRE AREA
601"
OR -1383896"
"2346759"
' I22J 6
"4285"
M""'
..........
1770"'
1890'
"i748"
'i'902"
330
ABCO
PIPO
' ' ' "5
PANHANDLE ""
602
OR -1384314
2347775
122.17
42 87
M
1
1770
1890
1748
1902
230
ABCO
PIPO
5
NW PART
603
OR -1383591
2347972
122.16
42 87
M
1
1770
1890
1748
1902
190
ABCO
PIPO
5
NE PART
~70f
OR -1369832
2473956
122.25
44 00
"sw""
"3 ""
"525"'
7256"
"l 650
i980
-l'
" reMEftobi/GRAS
PSME
"2
AVG 6F 23 PLOTS
702
OR -1369832
2473956
122 25
44.00
sw
3
488
975
1530
1980
-1
PSME/llODI-ACCI
PSME
2
AVG OF 11 PLOTS
703
OR -1369832
2473956
122 25
44.00
sw
2
495
977
1657
1980
-1
PSME/BEAQ
PSME
2
AVG OF 9 PLOTS
704
OR -1369832
2473956
122 25
44 00
SW
3
777
1113
1566
1980
-1
CADE/WHMO
PSME
2
AVG OF 7 PLOTS
703
OR -1369832
2473956
122 25
44 00
s
3
740
884
1581
1980
-1
CADE/CHUM
PSME
2
AVG OF 5 PLOTS
706
OR -1369832
2473956
122.25
44 00
M
3
-1
-1
1530
1980
-1
TSHE
-1
2
TSHE PLOTS
801"
WA-T248700™
2694733"
'TiTTf
46 13
""M
T"
'lib'"'
•730"
"i'785"
1959
-1
P1PO
PIPO
i'i
"ENtlRE AREA" '
901
WA '-1291890'
'2764051'
Til 88
46 69
m""
" j "
' 760"'
1525'
1300
1969
"20506'
" ABAM
MULf
' ""3
ENTIRE AREA "
Tooi"
0^-1293966
'2546246
"i'2M6"
"i'OS"
'"' M""'
.......
86O"
980 '*
"160V'
i960
'440700'""'
PSME
PIPO'
i'o
TENINO BENCH
1002
OR -1295850
2540217
121 47
44 69
M
4
610
1070
1509
1959
466600
PIPO
PIPO
10
SEEKSEEQUA
1003
OR -1311673
2520879
121 63
44 50
M
3
980
1220
1540
1941
492500
PSME
PIPO
10
BOULDER CREEK
1004
OR -1308225
2547269
121 64
44.74
M
3
1280
1400
1614
1934
155500
ABGR
PIPO
10
LIONSHEAD
"""fioi"
OR-T312522"
""2389856"
121'37'°
43.34"
'""'i
™'i
"l 830
1830'
"i 8 40'
"1975"
... ...
Pico
Pico
4
LOOKOUT POINT
1102
OR -1308089
2379887
121 30
43 26
-1
1
1830
1830
1821
1976
-1
PICO
PICO
4
TIMOTHY SPRINGS
1103
OR -1308870
2375296
121 30
43 22
-1
1
1800
1800
1821
1976
-1
PICO
PICO
4
JUNGLE SPRINGS
""ii'oi"
OR -1354644
"2508195"
722 13
44.33"
" "m""
. .
"915 '
1630"
1160
1985
1940
ABAM'
PSME
3
DEER CREEK
1202
OR -1362657
2504485
122 23
44.28
M
3
525
1295
1140
1985
1940
TSHE
PSME
2
COOK-QUENTIN
""i'j'oi"
OR-i366367
'*2454484"
722 *1*7"
43.83"
'"'3
770""
"l "60O'
¦|435"
1982"
"Tio'ob
TSHE
' PSME
2
entYrearea'' '
1302
OR -1366367
2454484
122 17
43.83
M
3
370
1600
1435
1982
11000
ABAM
PSME
3
ENTIRE AREA
i'4'01"
OR -i32385i"
"24 3525 i"
'i2l 60'
43 73
""s'e"""'
2
1080"
1130
1400"
1900
97
P1PO/PUTR
PIPO
io
' "PRINGLE BUTTE
1402
OR -1329843
2444813
121 70
43 80
1
2
1190
1270
1600
1900
97
ABCO/CEVE
PIPO
14
LOOKOUT MTN
1403
OR -1284858
2402404
121 06
43 49
F
1
1190
1190
1600
1900
97
P1PO/PLTR
PIPO
10
CABIN LAKE
FHSITE DB - page 30
-------�
Re<7
Site # Stale
Alben- E
Albeis-N
Lau
Long
Aipect Slope
— Elev
Low
High
— Year---
Start End
Area
(ha)
2403 WA
-1126147
2951800
120 10
48 61
S
3
1130
1220
1700
1982
75
2404 WA
-II11033
2968094
119 93
48 77
M
2
1890
2010
1700
1982
75
2405 WA
-1134411
2956105
120.22
48.63
S
1
790
790
1700
1955
75
2501™ WA™
"-1180192"
2877951
'"12067"
"47 87"
""se"""
" "2 " "
' *880'*'
' 990""
1659
1983 '
'18
2502 WA
-1176400
2851661
120 57
47 64
N
3
875
950
1667
1980
18
2503 WA
-1195219
2850994
120 81
47 61
sw
3
840
1190
1637
1977
27
2504 WA
-1197543
2878180
120 89
47.85
s
2
840
935
1580
1980
45
2505 WA
-1183206
2876310
120 70
47 85
SE
2
770
780
1584
1983
-1
2506 WA
-1211684
2880092
121 08
47 84
-1
-1
-1
-1
1846
1983
-1
2507 WA
-1161015
2839721
120.34
47.55
S
2
1120
1140
1504
1983
18
2508 WA
-1245578
2829433
121 42
47.34
S
2
1000
MOO
1565
1983
9
2509 WA
•1197543
2878180
120.89
47.85
S
2
840
935
1580
1980
45
2510 WA
-1176400
2851661
120 57
47.64
N
3
875
950
1667
1980
18
*26'6T"or"
"-T365272"
"2568397"
" 121.64
44 93
.... ~
'"*2
*915 "
"l220'
1*565*
"l*957 "
-I
2602 OR
-1298200
2580248
121.58
45 05
M
2
915
1220
1663
1957
-1
2603 OR
-1284668
2573587
121.39
45.01
M
1
790
1090
1641
1957
-1
2604 OR
-1302621
2545759
121 56
44.73
M
2
1130
1220
1447
1957
-1
270°'f OR~
"'1327205™
"2528136'
"721*8*3
"44.54"
m"~
~ *2
*9*76"'
"2066"
*i518"
i988'
i'3490'
2702 OR
-1327205
2528136
121 83
44 54
M
2
970
2000
1518
1988
13490
2703 OR
-1327205
2528136
121 83
44.54
M
2
970
2000
1518
1988
13490
2704 OR
-1327205
2528136
121 83
44 54
M
2
970
2000
1518
1988
13490
2705 OR
-1327205
2528 H6
121 KJ
44 54
M
2
970
2000
1518
1988
13490
*280T**OR
"-"1313667
"2512728
"121.63"
"44.43*'
N
""*3
"'915 "
1220
"1754
*1903 '
" -1
2802 OR
-1313967
2510889
121.63
44.41
N
3
1160
1525
1820
1903
-1
2803 OR
-1315775
2509115
121 65
44 39
SW
3
1035
1525
1720
1903
-1
2804 OR
-1312487
2509710
121.61
44 40
E
3
1070
1280
1818
1903
-1
'"moTor"
-1260640
"2414478'
-120.78™
*43 63"
""'-i
"*'-1
-l' "
.. 1 ...
"i860'
' i"900''
....... .
3o6Twa"
"i'i 90966'
I'daisW
121.07
49 00
F
1
490
490
1780
19-17'
"l
3 i of OR"
"-1131488*
"2*4720i'5*
' 119 29"
44 31
" "sw"
"2
"1520
1520
1590
1992
'*' 0
3102 OR
-1122645
2499571
119.23
44.56
N
2
1520
1520
1600
1992
0
3103 OR
-1074273
2491433
11861
44 55
SW
2
1600
1600
1640
1992
0
3104 OR
-1052550
2486047
118 33
44.53
N
1
1310
1310
1660
1992
0
3105 OR
-IOJ6708
2459069
11821
44 29
E
2
1830
1830
1570
1992
0
3106 OR
-1101514
2556449
119 06
45.10
SW
2
1220
1220
1560
1992
0
3107 OR
-1088612
2447822
11871
44.15
SW
2
1520
1520
1630
1992
0
3108 OR
-III 1433
2548478
119 17
55 01
N
2
1830
1830
1590
1992
0
3109 OR
•1032182
2532766
118 15
44 97
S
2
1830
1830
1760
1992
0
3110 OR
-934313
2537155
116 92
45.11
S
1
1280
1280
1790
1992
0
3111 OR
-1045237
2511672
118 28
44.76
S
2
1615
1615
1650
1992
0
3112 OR
-1032893
2588317
118.24
45.46
W
1
1070
1070
1790
1992
0
3113 OR
-1020623
2604475
118 12
45.62
SW
2
1220
1220
1770
1992
0
3114 OR
-985783
2630715
11771
45.89
s
2
1520
1520
1730
1992
0
3115 WA
-956545
2670725
117 40
46 28
E
1
1520
1520
1660
1992
0
3201 WA
-i179398
"*2814243
'"'120 53
47 3(j"
"sw"
1
1706 '
7*7*61*
1690*
"i 976
9
3202 WA
-1179398
2814243
120 53
47.30
SW
1
1706
1761
1870
1976
2
" "3301" KS'"
'" 71*5838 "
" "l 835883*
"*96*5*8""
39.08"
- "i "'
... .....
"350 '
' *350 "
*1862*
1983'
' -1
3302 KS
715838
1835883
96 58
39 08
-1
-1
350
350
1895
1983
-1
FHSITE DB
Plant Association
Community
dominant
Kilchler
Class
Site name
PSME
ABLA/VASC
PSME/CARU
PSME/CARU
PSME/CARU
PSME/CARU
PSME/CARU
ABGR/PAMY
TS1IE/PAMY
PSME/ARTR
PSME/PUTR
PSME/CARU
PSME/PUTR
ABCO
PIPO
PIPO
PIPO
ABGR
ABAM
TSME
ABLA
PIAL
PSME
ABGR
PtPO
CADE
p'l'pb
PSME
PS ME/CAGE '
ABGR/VASC
ABGR/CARU
ABGR/SPBE
ABGR/CARU
PSME/CARU
ABGR/CARU
ABGR/CARU
ABGR/CAGE
ABGR/VAME
ABGR/CARU
PS ME/CAGE
ABGR/SPBE
ABGR/SPBE
ABGR/LIBO
ABLAiCAGE"
AHLE/CAGE
QUMA "
QUMA
PI TO
PICO
PIPO
"pi'po/psme"
P1PO/PSME
PIPO/PSME
PIPO/PSME
PIPO/PSME
PIPO/PSME
PIPO
PIPO
PIPO/PSME
PIPO
PIPO
PIPO
PIPO
PIPO
ABGR "
ABAM
TSME
ABLA
PIAL/TSME
"PIPO '
ABGR
PIPO
PIPO
PIPO'
PSME
PIPO
PIPO
PIPO
PIPO
PIPO
PIPO
PIPO
PIPO
PIPO
PIPO
PIPO
PIPO
PIPO
PIPO
PIPO
""ABLA
PICO
QUMA
QUMA
12
15
12
4
12
3
4
4
4
12
12
4
12
14"
10
10
10
i4 '
14
14
14
14
"id"
10
10
10
" io'
"i'2"
14
14
14
14
14
14
14
14
14
14
14
14
14
14
14
"i2 '
12
*81
81
FIRST RU I1T.
MEADOWS
EIGHTMILE
SITE A
SITED
SITE J
SITEL
SITE P
SITER
SITE B
SITE M
SITEL
SITED
"SF WARM SPRSRiv
BUTTE CREEK
SIMNASHO BUTTE
TWIN BUTTES
ENTIRE AREA
ENTIRE AREA
ENTIRE AREA
ENTIRE AREA
ENTIRE AREA
BB - PSME
B B -ABGR
BB - PIPO
BB -CADE
"WATKINS BUTTE*
ENTIRE AREA
SITE I
SITE 2
SITE 3
SITE 4
SITE 5
SITE 6
SITE 7
SITE 8
SITE 9
SITE 10
SITE II
SITE 12
SITE 13
SITE 14
SITE 15
SNAG
THICKET
'KINGS CREEK '
WHITE PASTURE
32
-------�
ReV
— Ekv
— Year —
Area
Sue#
Slate Aftjen- E
AlbervN
Lai.
Long.
Aspect Slope
Low
High
Start
End
(ha)
3303
KS 715838
1835883
96 58
39 08
-I
-1
350
350
1890
1983
-1
'3401'
"TX 16080 '
"1002255"
104 83
"3'i".96
"'"m""
5'
215*0
2550'
1554 '
1980
1700
350?'
MT" "-718383"
"'2810056"
TlT'SO
¦47.77"
"~-i
"-1
-1 '
-1 "
1440
1985 '
-1
3601
ID -887656
2950546
116.94
48.88
-1
-1
840
1830
1770
1979
90
3602
ID -887656
2950546
116.94
48 88
-I
-1
840
1830
1700
1979
90
3603
ID -897713
2903707
11700
48 44
-1
-1
760
1520
I860
1979
90
3604
ID -887656
2950546
116 94
48 88
-I
-1
840
1830
1771
1979
90
360S
ID -897713
2903707
11700
48 44
E
-1
1430
1430
-1
1979
90
3606
ID -897713
2903707
11700
48.44
E
-1
1430
1430
-1
1979
90
3607
ID -897713
2903707
117.00
48 44
E
-1
1430
1430
1750
1979
90
' " j'ioi"
"iD -567463"
¦"2'4345'6'5~
"i'iYTf
¦44.SO"
"1"
1 "
-1
1777
1854
-l'
3702
MT -602206
2448242
112 62
44 60
-1
-1
-1
1726
1890
0
3703
MT -681982
2568100
113.75
45 62
1
1
-1
1662
1902
-1
3704
MT -550478
2489246
112.00
45 00
-i
-1
-1
1734
1871
-1
3705
MT -553810
2535941
112 08
45 42
-1
-1
-1
1566
1856
0
3706
MT -433141
2472823
110.50
44.92
-1
-1
-1
1718
1865
-1
3707
MT -591756
2464239
112 50
44 75
1
-1
-1
1609
1894
-1
3708
MT -637664
2467717
113.08
44.75
-1
-1
-1
1554
1795
-1
3709
MT -640603
2514493
113 17
45 17
-1
-1
-I
1585
1884
3710
MT -556720
2532426
11212
45 38
-1
-1
-1
1578
1886
-1
3711
ID -428075
2444660
110.42
44.67
-1
-1
-1
1694
1862
-1
3712
MT -588485
2473310
112.47
44 83
-1
-1
-1
1588
1877
-1
3801
MT -699568
2685238
114 11
46 66
ESE
2
"1097"
*1219
" 166B
1936"
¦" i'80
3802
MT -701574
2685262
114.13
46.65
E
2
1219
1859
1366
1936
180
o
00
MT -701185
2686152
114 13
46.66
SE
2
1250
1524
1594
1936
180
3804
MT -703142
2685863
114 15
46 66
SE
2
1859
2195
1631
1936
180
3803
MT -704160
2686571
114 17
46 66
SSE
2
2103
2438
1608
1936
180
3806
MT -690941
2689413
11400
46 70
-1
-1
1158
1524
1686
1935
ISO
3807
MT -691349
2592897
113.90
45.83
M
5
1280
1890
1574
1935
180
3808
MT -687742
2591256
113.85
45 82
M
5
1829
2286
1636
1935
180
3809
MT -685503
2585492
11381
45 77
M
5
2286
2073
1595
1935
180
3810
MT -719269
2594280
114 26
45.82
SE
1
1387
2134
1695
1948
180
3811
MT -722086
2594225
114.29
45.82
M
5
1387
2134
1573
1948
180
3812
MT -724052
2594094
114 32
45.82
M
5
1829
2438
1660
1948
180
3813
MT -724300
2595665
114 32
45 83
SE
5
2134
2591
1695
1948
180
390?
"az "5V3367'
10455 oT
il'054™
32 22
"nW
"'2'"
"2440"'
2600
1510"
1930
10
3902
AZ -514225
1043981
110.55
32.21
M
2
2400
2450
1500
I960
6
3903
AZ -515107
1044814
11056
32.22
W
2
2500
2530
1580
1925
5
3904
AZ -513358
1044563
11054
32 21
ssw
2
2520
2520
1490
I960
3
3905
AZ -513450
1044568
110 54
32.21
M
5
2190
2600
1490
I960
2000
3906
AZ -512075
1033888
110 52
32.12
-I
2
2200
2200
1480
1930
-1
4001
UT -596190
1817486
112.00
39 00
-1
.. .....
"'-I
"l
1770'
'i'904"'
. .......
i'ioT
"ID -746047"
~2541532"
"nyjT
"4"5"33"
"T"
914 "
i'524"
"i 707 '
i 984 "
121* 5
4102
ID -774567
2556735
114 92
45.44
M
1
1219
1524
1730
1984
1619
4201
MT -721087
27808i f
114 50"
47 50
~"i
-i
-1 "
-1
1776
1980
122
4202
MT -721087
2780811
114 50
47 50
-1
-1
¦ I
-1
1776
1980
122
4203
MT -721087
2780811
114 50
47 50
-1
-1
-1
• 1
1697
1980
122
FHSITE
Plant Association
Community KOchler
dominant Class
Site name
QUMA
QL'MA
81
SHANE CREEK
ps mi:
MULT"
'is'
' S MCKITTRjCK CAN WATTRS1IED
ABLA
LAOC/PICO
15
MARYS FROG POND
ts'he/thpupasp
MULT
" i 3"
SALMO/PRIEST 3
TSHE/TIIPL/PASP
MULT
13
SALMO PRIEST 5
TSHE/THPL
MULT
13
GOOSE CREEK 6
TSHE/THPL/PASP
MULT
13
SALMO/PRIEST 40
ABLA/PIFN
MULT
15
GOOSE CREEK 14
ABLA/PIEN
MULT
15
GOOSE CREEK 15
ABLA/PIEN
MULT
15
GOOSE CREEK 16
PSME/CARU
PSME/CARU
"~12 "
PLEASANT VALLEY
PSME/CARU
PSME/CARU
12
DUTCH HOLLOW
PSME/CARU
PSME/CARU
12
BIG HOLE BATTLEFIELD
PSME/CARU
PSME/CARU
12
VIGILANTE STATION AREA
PSME/CARU
PSME/CARU
12
CALIFORNIA CREEK
PSME/CARU
PSME/CARU
12
PAPOOSE CREEK
PSME/FEID
PSME/FIED
12
BASIN CREEK
PSME/FEID
PSME/FTED
12
HORSE PRAIRIE CR
PSME/FEID
PSME/FIED
12
BANNACK
PSME/FEID
PSME/FIED
12
SITE 12
PSME/FEID
PSME/FIED
12
HENRYS LAKE
PIFL/AGSP
PIFL/AGSP
12
PRICES CREEK
PSME/AGSP
PSME/PIPO
12
ONEHORSE VALLEY EDGE
PSME/PHMA
PSME/PIPO
12
ONEHORSE MONTANE SLOPES
ABGR
LAOC/PICO/PSME
12
ONEHORSE MOIST CANYON
ABLA/XETE.PSME/VAGL
PICO/PS ME
12
ONEHORSE LOWER SUBALPINE SLOPES
ABLA/LUH1.PIAL/ABLA
PIAL/PICO
12
ONEHORSE UPPER SUBALPINE SLOPES
PSME/AGSP
PSME/PIPO
12
TOLAN VALLEY EDGE
PSME/PHMA
PSME/PIPO
12
TOLAN MONTANE SLOPES
ABLA/XETE.PSME/VAGL
PICO/PS ME
12
TOLAN LOWER SUBALPINE SLOPES
ABLA/LUH1.PIAL/ABLA
PIAL/PICO
12
TOLAN UPPER SUBALPINE SLOPES
PSME/AGSP
PSME/PIPO
12
WESTFORK VALLEY EDGE
PSME/PHMA
PSME/PIPO
12
WESTFORK MONTANE SLOPES
ABLA/XETE.PSME/VAGL
PICO/PS ME
12
WESTFORK LOWER SUBALPINE SLOPES
A BLA/LUH1, PIAL/A BLA
PIAL/PICO
15
WESTFORK UPPER SUBALPINE SLOPES
PSME/PIPO/QUGM '
MULT
"l 9
NORtH SLOPE
PIPO
PIPO
19
MANNING CAMP
P1PO
PIPO
19
HELEN'S DOME
PS ME
PIPO
19
MICA MEADOW
PSME/PIPO/QUGM
MULT
19
M1KA MTN COMPOSITE OF SITES 1-4
PSME/PIPO/QUGM
MULT
19
R1NCON PEAK
ABCO/PIEN
MULT
""i's""
EPHRA1M CANYON
PS ME
" pTpO/PSME
" i '2 "
COLSON CREEK
PS ME
PIPO/PSME
12
CHAIMBERLAIN
PS ME "
PIPO/PSME
- , 2- •
F1VEMILE CR
PS ME
PIPO/PSME
12
RAINY CR
PS ME
PIPO/PSME
12
MCCALLA CR
- page 33
-------�
Refl
— Elev --
— Year
...
Area
Community KUchler
Site#
Slate Albers- E
Atben-N
Lat.
Long. Aspect Slope l.ow High
Start
End
(ha)
Plant Association
dominant Class
Sue name
¦1204
MT -721087
2780811
114 50
47 50 -1 -1 -1 -1
1697
980
122
PSM1"
PIPO/PSME 12
CI'TOrF GULCH
4205
MT -721087
2780811
114 50
47.50 -1 -1 -1 -1
1704
980
122
PS ME
PIPO/PSME 12
SIXMILECR
4206
MT -721087
2780811
114.50
47 50 -1 -1 -1 -1
1704
980
122
PS ME
PirO/PSME 12
ROCK CR
4207
MT -721087
2780811
114 50
47 50 -1 -1 -1 -1
1737
980
12 2
PS ME
PIPO/PSME 12
GOAT MT
4208
MT -721087
2780811
114 50
47 50 -1 -1 -1 -1
1737
980
122
PS ME
PIPO/PSME 12
SLEEPING CHILD CR
4209
MT -721087
2780811
114 50
47 50 -1 -1 -1 -1
1797
980
122
PS ME
PIPO/PSME 12
FAIRVIEW
4210
MT -721087
2780811
114 50
47 50 -1 -1 -1 -1
1797
980
122
PS ME
PIPO/PSME 12
DOAKCR
4211
MT -721087
2780811
114.50
47.50 -1 -1 -1 -1
1700
980
122
PS ME
PITO/PSME 12
HAY CR
4212
MT -721087
2780811
114.50
47 50 -1 -1 -1 -1
1700
980
122
PS ME
PIPO/PSME 12
THOMPSON CR
4213
MT -721087
2780811
114.50
47.50 -1 -1 -1 -1
1772
980
122
PS ME
PIPO/PSME 12
HOUGHES CR
4214
MT -721087
2780811
114 50
47 50 -1 -1 -1 -1
1772
980
122
PS ME
PIPO/PSME 12
HOG TROUGH CR
421S
MT -721087
2780811
114 50
47.50 -1 -1 -1 -1
1710
9X0
122
PS ME
PIPO/PSME 12
HOG HEAVEN
4216
MT -721087
2780811
114.50
47.50 -1 -1 -1 -1
1710
980
122
PS ME
PIPO/PSME 12
N BASSOOCR
4217
MT -721087
2780811
114.50
47.50 -1 -1 -1 -1
1695
980
122
PS ME
PIPO/PSME 12
INDIAN TREES
4218
MT -721087
2780811
114.50
47 50 -1 -1 -1 -1
1695
980
122
PS ME
PIPO/PSME 12
RAILROAD CR
4219
MT -721087
2780811
114.50
47 50 -1 -1 -1 -1
1729
980
122
PS ME
PIPO/PSME 12
MCCARTNEY CR
4220
MT -721087
2780811
114 50
47 50 -1 -1 -1 -1
1729
980
122
PS ME
PIPO/PSME 12
TWO BEAR CR
""'•iloi'
"Mt"" -689359™
"29213 i'5~
„.|. i
"48 80 "i "i "i -V
1650
988
-1
PS ME
MULT " 12"
NFI5
4302
MT -689359
2921315
114 25
4880 -1 -1 -1 -1
1650
988
-1
PS ME
MULT 12
NFI
4303
MT -689359
2921315
114.25
4880 -1 -1 -1 -1
1650
988
-1
PS ME
MULT 12
NF8
4304
MT -689359
2921315
114.25
48 80 -1 -1 -1 -1
1650
988
-1
PS ME
MULT 12
NFI 4
4305
MT -689359
2921315
114 25
48 80 -1 -1 -1 -1
1650
988
-1
PS ME
MULT 12
NF2
4306
MT -689359
2921315
114 25
48.80 -1 -1 -1 -1
1650
988
-1
PS ME
MULT 12
NF9
4307
MT -689359
2921315
114 25
48 80 -1 -1 -1 -1
I6^fl
988
-1
PSME
ML'LT 12
NF3
4308
MT -689359
2921315
114.25
48.80 -1 -1 -1 -1
1650
988
-1
PS ME
MULT 12
NF7
4309
MT -689359
2921315
114 25
48 80 -1 -1 -1 -1
1650
988
-1
ARI A
MULT 15
NF5
4310
MT -689359
2921315
114 25
48 80 -1 -1 -1 -1
1650
988
-1
ABLA
MULT 15
NFI8
4311
MT -689359
2921315
114.25
48 80 -1 -1 -1 -1
1650
988
-1
ABLA
MULT 15
NFI7
4312
MT -689359
2921315
114.25
48 80 -1 -1 -1 -1
1650
988
-1
ABLA
MULT 15
NFI6
4313
MT -689359
2921315
114.25
4880 -1 -1 -1 -1
1650
988
-1
ABLA
MULT 15
NF4
4314
MT -689359
2921315
114 25
48 80 -1 -1 -1 -1
1650
988
-1
ABLA
MULT 15
NF6
4315
MT -689359
2921315
114 25
48 80 -1 -1 1 -1
1650
988
-1
ABLA
MULT 15
NF19
4316
MT -689359
2921315
114 25
48 80 -1 -1 -1 -1
1650
988
-1
ABLA
MULT 15
NF13
4317
MT -689359
2921315
114 25
48 80 -1 -1 -1 -1
1650
988
-1
ABLA
MULT 15
NF20
4318
MT -689359
2921315
114.25
48 80 -I -1 1 -1
1650
988
-1
ABLA
MULT 15
NFIO
4319
MT -689359
2921315
114 25
4880 -1 -1 -1 -1
1650
988
-1
ABLA
MULT 15
NFI 1
4320
MT -689359
2921315
114 25
4880 -1 -1 -1 -1
1650
988
ABLA
MULT 15
NFI2
4321
MT -670474
2902536
113.98
4864 -1 -1 -1 -1
1650
988
ABLA
MULT 15
MC34
4322
MT -670474
2902536
113.98
4864 -1 -1 -1 -1
1650
988
ABLA
MULT 15
MC35
4323
MT -670474
2902536
113.98
4864 -1 -1 -1 -1
1650
988
ABLA
MULT 15
MFI
4324
MT -670474
2902536
113 98
48 64 -1 -1 -1 -1
1650
988
ABLA
MULT 15
MF3
4325
MT -670474
2902536
11398
48 64 -1 -1 -1 -1
1650
988
ABLA
ML'LT 15
MFI0
4326
MT -670474
2902536
113 98
4864 -1 -1 -1 -1
1650
988
ABLA
MULT 15
MF4
4327
MT -670474
2902536
113 98
4864 -1 -1 -1 -1
1650
988
ABLA
MULT 15
MF7
4328
MT -670474
2902536
113 98
4 8 64 -1 -1 -1 -1
1650
988
ABLA
MULT 15
MC8
4329
MT -670474
2902536
11398
4864 -1 -1 -1 -1
1650
988
ABLA
ML'LT 15
MC43
4330
MT -670474
2902536
11 > 98
4 8 64 -1 -1 -1 -1
1650
988
ABLA
ML'LT 15
MF8
FHSITE
DB-
page
34
-------�
ReO
— Elev
-— Year —
Area
Communit)
Kuchler
Sue#
State
Atben-E
Alberx-N
Lai.
Long.
Aspect Slope
Low
High
Start
End
(ha)
Plant Association
dominant
Class
Site name
4331
MT
-670474
2902536
11398
48 64
1
¦ 1
-1
-1
1650
1988
-1
ABI.A
MULT
15
MC2T
4332
MT
-670474
2902536
11398
48 64
-1
¦ 1
-t
-1
1650
1988
-1
AULA
MULT
15
Ml'fi
4333
MT
-670474
2902536
11398
48 64
-1
-1
-1
-1
1650
1988
-1
ABLA
MULT
15
MF5
4334
MT
-649022
2881899
11367
48 47
-1
-1
-1
-1
1650
1988
-1
AULA
MULT
15
MC25
4335
MT
-649022
2881899
11367
48.47
-1
-1
-1
-1
1650
1988
-1
TSHE/TIIPL
MULT
13
MC30
4336
MT
-649022
2881899
11367
48 47
-1
1
-1
-1
1650
1988
-1
TSIIE/THPL
MULT
13
MC40
4337
MT
-649022
2881899
113 67
48.47
-1
-1
-1
-1
1650
1988
-1
TSHE/TIIPL
MULT
13
MCI2
4338
MT
-649022
2881899
113 67
48 47
-1
-1
-1
-1
1650
1988
-1
TSHE/TIIPL
MULT
13
MC39
4339
MT
-649022
2881899
113 67
48.47
-1
-1
-1
-1
1650
1988
-1
TSHE/THPL
MULT
13
MC42
440T
"ca"
1*58 *137 i"
"2l0i"280"
*124 OO"
Uo'-io"
s
3"
"V75"'
175"'
1714'
i 955
0
SESE
SESE
6
PRNI
4402
CA
-I58T37I
2101280
124.00
40 40
s
3
175
175
1714
1966
0
SESE
SESE
6
PRN2
4403
CA
-1581371
2101280
124 00
40.40
1
-1
175
175
1714
1973
0
SESE
SESE
6
PRC2
4404
CA
-1581371
2101280
124 00
40.40
-1
1
175
175
1715
1968
0
SESE
SESE
6
PRC5
4405
CA
-1581371
2101280
124.00
40.40
-1
-1
175
175
1715
1985
0
SESE
SESE
6
PRC7
4406
CA
-1581371
2101280
124 00
40 40
-1
1
175
175
1715
1938
0
SESE
SESE
6
PRC8
4407
CA
-1581371
2101280
124 00
40.40
-I
-1
175
175
1716
1947
0
SESE
SESE
6
PRC9
4408
CA
-1581371
2101280
124 00
40 40
-1
-1
175
175
1714
1969
0
SESE
SESE
6
PRCI1
4409
CA
-1581371
2101280
124 00
40.40
-I
-1
175
175
1714
1954
0
SESE
SESE
6
PRC 14
4410
CA
-1581371
2101280
124 00
40 40
-I
-1
175
175
1714
1985
0
SESE
SESE
6
PRC 16
4411
CA
-1581371
2101280
124 00
40.40
-1
-1
175
175
1714
1953
0
SESE
SESE
6
PRC17
4412
CA
-1581371
2101280
124 00
4040
-1
1
175
175
1714
1985
0
SESE
SESE
6
PRCI8
4413
CA
-1581371
2101280
124.00
40.40
-1
.1
175
175
1714
1985
4
SESE
SESE
6
COMPOSITE
450i"
""id""
***-948352""
"2258054"
'7l6*69~
¦42.62"
....
...... ...
"1826"
"i 8 26*
1690
i'950
" 26*0*
JUOC
JUOC/ARTR "
""24
"INDIAN MEADOWS'
4502
ID
-796773
2242174
114 82
42 62
-1
1
1826
1826
1710
1950
260
IUOC
IUOC/ARTR
24
MUDD PLAT
4503
ID
-955881
2281484
116.82
42 82
1
-1
1826
1826
1650
1950
260
JUOC
JUOC/ARTR
24
COMBINATION RIDGE
4504
ID
-844834
2211206
11537
42.30
-1
-1
1826
1826
1700
1950
260
JUOC
JUOC/ARTR
24
JUNIPER MOUNTAIN
4601"
~c'6"
" -48815 "
"7952377"
*"105*5?*
"'40*38"
..............
..........
*2682 "
'3292"
1605
"i 974'
-1 ' "
ABI.A/PIEN
PICO
15
EAST SIDE"OF PARK
470f
"ca"
"i 512410"
"7801554*"
"122*58"
"3*7 89"
""'Si'
...
* 13*4"
"l34
1670"
"1969
1!
P5ME/SESE'
" SESE
6
SITEA" MU'iRWOODS
4702
CA
-1511973
1802051
122.58
37 90
F
-1
134
134
1670
1969
10
PSME/SESE
SESE
6
SITE B MU1R WOODS
'48*01"
"MT*
"-671860"*
~287459i'"
713 96"
"4O9"
~"-i
"IT
"1660"
"ll 40'
1602
'i 976 '
"-1
PSME
Laoc/psme
12
VALLEYS
4802
MT
-671860
2874591
113 96
48.39
-1
-1
1200
1650
1602
1976
-1
PS ME
PSME
12
MONTANE SLOPES
4803
MT
-671860
2874591
113 96
48.39
-1
-1
1575
1800
1602
1976
-1
ABLA/PSME
PSME
15
LOWER SUPALPINE SLOPES
4804
MT
-671860
2874591
113 96
48 39
-1
-1
1800
1910
1602
1976
-1
ABLA/PSME
MULT
15
UPPER SUBALP1NE SLOPES
4805
MT
-671860
2874591
11396
48.39
M
5
1006
1911
1602
1976
2984
ABLA/PSME
MULT
15
ENTIRE CORAM FOREST
490 V
AZ
-599453
1394512
"ill'fT
35.26"
sse""'"
.........
2249
"'2249
"1694"""
'1976 "
-1
PIPO
PIPO
19
1
4902
AZ
-596791
1394150
111 69
35.26
ssw
1
2239
2239
-1
1976
-1
PIPO
PIPO
19
2
4903
AZ
-596793
1394118
111 68
35.26
ssw
1
2237
2237
1577
1976
-1
PIPO
PIPO
19
3
4904
AZ
-596808
1393900
111 69
35 26
ssw
1
2233
2233
1673
1976
-1
PIPO
PIPO
19
4
4905
AZ
-596808
1393900
111 68
35 26
ssw
1
2233
2233
-1
1976
-1
PIPO
PIPO
19
5
4906
AZ
-596866
1394375
111 69
35.26
SSE
1
2245
2245
1667
1873
-1
PIPO
PIPO
19
6
4907
AZ
-596674
1394583
111 68
35.26
ssw
1
2263
2263
1440
1976
-1
PIPO
PIPO
19
7
4908
AZ
-596866
1394375
111 69
35.26
s
1
2233
2263
1440
1976
17
PIPO
PIPO
19
ENTIRE AREA
"""5601'
AZ*
"'-*367164"
""1126588"
"10900"
"3T06"
*"M
"2"
2682"
2774"
*1608*
1978
"166
''pVpu/pien/se'ca
A B CO/PS ME
20
SOUTH"THOMAS CREEK " '
sid'i"
AZ*
"-661035"
""*1280630""
'ill 65*
'34 25"
*"""i
'".i"'
'2IO3"
2'i'oT
1722*
'1980 '
41 "
pi'po
PIPO
19
LIMESTONE FLATS'
5102
CO
-260053
1650485
108 00
37 67
1
-1
-1
-1
1750
1975
-1
QUGM
PIPO/QUGM
19
SAN JUAN NATIONAL FOREST
"'"'5261'
AZ"
"-663591""
1290423*
112 35
"34 30
"" -1"
-i '
"1524
1615"
1736*'
1870 '
-1 '
pfno
PIPO
Y9'
STEM 1
5202
AZ
-663591
1290423
112 35
34.30
-1
-1
1524
1615
1775
1870
-1
PIPO
PIPO
19
STEM 2
FHSITE DB - page 35
-------�
R ti/
— Elev
— Year —
Area
Community
Kdchler
Site#
Stale Albert- E
Alben-N
Laf
Long
Aspect Slope
Low
High
Stan
End
(ha)
Plant Association
dominant
Class
Site name
5203
AZ -663591
1290423
112.35
34 30
-1
-1
1554
1554
1713
1875
-1
PIPO
PIPO
19
STEM 4
5204
AZ -663591
1290423
112 35
34.30
-1
-1
1554
1554
1722
I860
-1
PIPO
PIPO
19
STEM 5
5205
AZ -663591
1290423
112 35
34 30
-1
-1
1554
1554
1700
1890
-1
PIPO
PIPO
19
STEM 6
5206
AZ -663591
1290423
112 35
34.30
-1
-1
1554
1554
1760
1863
-1
PIPO
PIPO
19
STEM 7
5207
AZ -663591
1290423
112.35
34.30
-1
-1
1554
1554
1755
1861
-1
PIPO
PIPO
19
STEM 8
530i"
AZ " -601035"'
"1280036"
34 25
............
... .....
2103 '
'2103
1669 '
i968
' "' 0
pipo
"PIPO
" 19
ENTIRE AREA
5401
"CA™ .1060139"
"n'71'765"
'"1I6 56"
"'32.94"
1"'
"l""
"1073"
1985
'i 7 50"
i'900'
.... (
CADE
PILA/LIDE
5
' CUYAMACA RANC1IO STATE PARK
"""5507
CA "1561328"
"1888596"
* 123 32
"'38 58"
""sw"
......
61* '
274 '
1540
1988
"MO""
' "sese/pimu/caM'" "'
SESE
6
SALT POINT-NORTH
5502
CA -1560741
1887503
123 31
38.57
sw
2
61
274
1650
1988
200
SESE/PIMU/CADE
SESE
6
SALT POINT - SOUTH
5503
CA -1559618
1887938
123.29
38 57
M
5
61
274
1200
1988
200
SESE/PIMU/CADE
SESE
ft
SALT POINT-EAST
5601
CA "i'504823"
"V861259"
122 6 i"
"3843™
"~'"i
- ....
"-1
...(..
1630"
i 860 '
"O "' '
s'ese
SESE
6
A
5602
CA -1504823
1861259
122 61
38.43
-1
-1
-1
-1
1509
I860
0
SESE
SESE
6
B
5603
CA -1504823
1861259
122.61
38 43
-1
-1
-1
-1
1400
I860
0
SESE
SESE
6
C
5604
CA -1504823
1861259
122 61
38 43
-1
-1
-1
-1
1366
1860
0
SESE
SESE
6
D
5605
CA -1504823
1861259
122.61
38 43
-1
-1
-1
-1
1406
I860
0
SESE
SESE
6
E
5606
CA -1504823
1861259
122 61
38 43
-1
-1
-1
-1
1520
I860
0
SESE
SESE
6
F
5607
CA -1504823
1861259
122.61
38.43
-1
-1
-1
-1
1579
I860
0
SESE
SESE
6
G
5608
CA -1504823
1861259
122 61
38 43
-1
-1
-1
-1
1645
I860
0
SESE
SESE
6
H
5609
CA -1504823
1861259
122.61
38.43
-1
-1
-1
-1
1681
1860
0
SESE
SESE
6
I
5610
CA -1504823
1861259
122.61
38.43
-1
-1
-1
-1
1780
I860
0
SESE
SESE
6
J
5611
CA -1504823
1861259
122 61
38 43
-1
-1
-1
-1
1616
I860
0
SESE
SESE
6
K
5612
CA -1504823
1861259
122.61
38.43
-1
-1
-1
-1
1541
1860
0
SESE
SESE
6
L
5613
CA -1504823
1861259
122.61
38 43
-1
-1
-1
-1
1376
I860
0
SESE
SESE
6
M
5614
CA -1504823
1861259
122.61
38 43
-1
-1
-1
-1
1769
I860
0
SESE
SESE
6
N
'5701'
NM "-116145 '
""1430863"
"i06Ji"
"35 75"
"" i"'
-1
-1
-1
-1
1977'
' -1
PIPO
PIPO
19
BANDELIER NATIONAL MONUMENT
""'5801"
'MT'~"'.666239~
"2804797'
"'47.76'
"""i""
" -i""
1036"
1036
1859'
1905'
0
ABLA/CLUN
PICO
15
STAND 1
5802
MT -667023
2803637
113 82
47 75
-1
-1
1006
1006
1839
1905
0
ARLAyCLUN
PICO
15
STAND 10
5803
MT -665293
2801647
113.79
47.73
-1
-1
1097
1097
1839
1905
0
ABLA/CLUN
PICO
15
STAND 15
5804
MT -663769
2797219
113 77
47 69
-1
-1
1128
1128
1867
1905
0
ABLA/CLUN
PICO
15
STAND 17
5805
MT -666970
2796265
11381
47 68
-1
-1
1036
1036
1839
1905
0
ABLA/CLUN
PICO
15
STAND 58
5806
MT -662964
2796845
113.76
47 69
-1
-1
1128
1128
1758
1905
0
ABLA/CLUN
PICO
15
STAND 52
5807
MT -656550
2792617
113.67
47.66
-1
-1
1097
1097
1670
1905
0
ABLA/ABGR/PSME
PIPO
14
STAND 21
5808
MT -661205
2789788
113.73
47 63
-1
-1
1097
1097
1768
1905
0
ABLA/ABGR/PSME
PIPO
14
STAND 48
5809
MT -663134
2789491
113 75
47 63
-1
-1
1097
1097
1768
1905
0
ABLA/ABGR/PSME
PIPO
14
STAND 23
5810
MT -660191
2786477
113.71
47.60
-1
-1
1158
1158
1652
1905
0
ABLA/ABGR/PSME
PIPO
14
STAND 27
5811
MT -660191
2786477
113 71
47.60
-1
-1
1158
1158
1652
1905
0
ABLA/ABGR/PSME
PIPO
14
STAND 29
5812
MT -660191
2786477
11371
47.60
-1
-1
1158
1158
1812
1905
0
ABLA/ABGR/PSME
PIPO
14
STAND 31
5813
MT -660191
2786477
113.71
47 60
-1
-i
1158
1158
1770
1905
0
ABLA/ABGR/PSME
PIPO
14
STAND 35
5814
MT -660191
2786477
11371
47.60
-1
-1
1158
1158
1758
1905
0
ABLA/ABGR/PSME
PIPO
14
STAND 36
5815
MT -660191
2786477
113.71
47.60
-1
-1
1158
1158
1815
1905
0
ABLA/ABGR/PSME
PIPO
14
STAND 40
5816
MT -657784
2777981
113.67
47 53
-1
-1
1158
1158
1710
1905
0
ABLA/ABGR/PSME
PIPO
14
STAND 44
"flof
MN 746114
2748544
95.21
47 19
"""m""*
""5
429 ~
"5'i'7"
7650"
1922"
i'297'2"
ACSA/fiAM
MULT
"' "99
ENTIRE AREA
"""6001"
CA "1565801
2147529
"l23!92
40 83
-1
-1
-1
-1
928
1928
12
SESE
SESE
6
HUMBOLDT COUNTY
""6'i'oi"
MT' -613252
"2759796
"Tfj'&r
"'47 39
""m
'"5"
T'43'o"
i'OOO"
"i'835"
1944"
" -1
PSME/L1BO
PICO
\i '"'
NORTH OF R APID CREEK
6102
MT -613560
2752937
113 06
47 33
M
5
1430
2000
1749
1944
-1
PSME/LIBO
PICO
12
SOUTH OF RAPID CREEK
6103
MT -612667
2757508
113 05
47 37
M
5
1430
2000
1844
1926
33000
PSME/LIBO
PICO
12
ENTIRE AREA UNDER 2,000 M ELEV
6104
MT -612667
2757508
113 05
47 37
M
5
2000
2400
1785
1936
-1
ABLA
ABLA
15
ENTIRE AREA OVER 2.000 M ELEV
FHSl I t DB - page 36
-------�
R tV
Sue 9 State
6 2 01 CO '
6202 CO
"Wcff"
'"'6401' CA "
6402 CA
6403 CA
6404 CA
6403 CA
6406 CA
6407 CA
6408 CA
6409 CA
6410 CA
6411 CA
6412 CA
650iiD
6502 ID
6503 ID
6504 ID
6505 ID
6506 ID
6507 ID
6508 ID
6509 ID
6510 ID
6511 ID
6512 ID
6513 ID
6514 ID
6515 ID
6516 ID
6517 ID
6518 ID
6519 ID
6520 ID
6521 ID
6522 ID
6523 ID
6524 ID
6525 ID
6526 ID
6527 ID
6528 ID
"TsorwiT
6602 WY
6603 WY
6604 WY
Atbere- E
-5213""
-5213 _
-37675
-1417575
-1421981
-1460093
-1460093
-1460093
-1494463
-1494463
-1494463
-1494463
-1494463
-1494463
-1494463
"-786654"
-801055
-798118
-794525
-778868
-793910
-786953
-807250
-789544
-800060
-795886
-789682
-802262
-778331
-799014
-802769
-786516
-800853
-790341
-785114
-791331
-789851
-785133
-783896
-791178
-785680
-788535
-791291
~446T48'"
-446148
-424J99
-417685
Atben-N
"1773467"
1773467
*1914764"
"1624390"
1627504
1697732
1697732
1697732
1717709
1717709
1717709
1717709
1717709
1717709
1717709
"2700233"
2683150
2693048
2683417
2698534
2689534
2681732
2671014
2701449
2694480
2689115
2693125
2685745
2697709
2685724
2685333
2699293
2685138
2695044
2686986
2683622
2696848
2686802
2692239
2683606
2681296
2696098
2685564_
'233*0087
2330087
2319774
2322997
Lai.
i05 06
105 06
"105.45"
i2r.lT
121 23
121 79
121 79
121 79
12221
122.21
122.21
122 21
122.21
122 21
122.21
*1*15 25"
115.42
115.39
115.33
115 IS
115 33
115 23
115 48
115.29
115 42
115.36
115 28
115.44
115.14
115 39
115 44
115 25
115.42
115.29
115.22
115 29
115 29
11522
11521
115 29
115.22
115 27
115 29
Tia*57"
11057
110.29
11021
Lang
"38 79
38 79
"i'6'04"
"36*48"
36 50
37 06
37 06
37 06
37.19
37 19
37 19
37.19
37 19
37 19
37.19
"46 72*
46.55
46 64
46 56
46.71
46 61
46 55
46 44
46.73
46.65
46 61
46 65
46.57
46.70
46 58
46 57
46 71
46.57
46 67
46 60
46 56
46 68
46 60
46 65
46.56
46 55
46 68
46 58
43 63
43 63
43 55
43 58
Aspect
M
M
™M*"
NNW
M
M
M
M
M
M
M
M
M
M
M
'""n""
w
N
N
N
N
NW
NW
NW
N
W
S
W
w
N
SW
N
N
NW
W
SW
SW
SW
SW
SW
s
SW
s
w
E
SW
Slope
-i
'""*5
... .
5
-I
-1
-I
-I
-I
-I
-I
-I
... .......
2
1
3
4
2
2
1
2
1
5
3
2
3
2
2
3
3
I
5
1
2
5
I
1
2
5
I
™"-l""
-1
-1
-I
- F.fev -
Low High
1981 4312
1981 4312
2375 '2685'"
402 " 402*
488
-I
-I
-I
-I
73
73
73
73
73
73
848
848
727
727
1212 1212
1455 1455
1000 1000
727 727
695
-I
-1
-I
683
683
683
683
683
683
"909"
848
727
848
— Yeai —
Start End
1846 *1904
1846 1904
1*721* 1*949
"l 866"" i 9 82
1845 1982
1844 1982
1888 1982
1708 1982
1420 1982
1420 1982
Area
(ha)
20445
-I
600
-I
-1
-1
I
-1
1982
1982
1982
1982
1982
848
788
788
848
848
788
1515 1545
1152 1152
970 1030
1303 1303
1000 1000
909 1091
909 1152
1970 1970
2061 2061
1848 1848
1848 1848
1818 1818
1667 1667
1909 1909
1818 1818
1879 1879
I970_ 1970
"2088 "2088'
2088 2088
2271 2271
2378 2378
1613 1982
1769 1982
1700 1982
1736 1982
1772 1982
1795 1982
1736 1982
1736 1982
1736 1982
1819 1982
1749 1982
1680 1982
1834 1982
1842 1982
1772 1982
1808 1982
1848 1982
1842 1982
1680 1982
1786 1982
1796 1982
1736 1982
1766 1982
1740 1982
1799 1982
1794 1982
1796 1982
1799 1982
1879 "i*97l
1879 1971
1872 1971
1850 1971
FHSITE DB
Community
Ktldiler
Plant Association
dominant
Class
Site name
HEN
MULT
' 15
ENTTREPIKES PEAK RESERVE
PIEN
ABMA
15
SOUTHERN BORDER OF RESERVE
PSME
MULT
• -j-2
FOURMILE CANYON
ADFA/ARGL/CEIN
MULT*
33"""
visiTOR CENTER
ADFA/AROL/CEIN
MULT
33
WEST BOUNDARY MONUMENT
PSME
MULT
29
SANTA CRUZ MTS
PSME
MULT
29
EAST BOUNDARY SANTA CRUZ CO
PSME
MULT
29
E BDRY SANTA CRUZ COUNTY #2
PSME
MULT
-1
SANTA CRUZ COUNTY
SESE
MULT
6
BIG BASIN STATE PARK-PINE
PSME
MULT
29
BIG BASIN ST PK.-XERiC CONIFER
ACMA
MULT
25
BIG BASIN STATE PARK-RIPARIAN
SESE
MULT
6
BIG BASIN STPK-MESIC CONIFER
ADFA/ARGL/CEIN
MULT
33
BIG BASIN STATE PARK-CHAPARRAL
SESE
SESE
6
BIG BASIN STATE PARK-WEDWOOD
THPL/PASP
THPL
i 3" '
KELLY TORKSCAMTCROUND
THPL/PASP
THPL
13
DORIS CREEK
THPL/PASP
THPL
13
FAWN CREEK
THPL/PASP
THPL
13
FORTH OF JULY PACKBRIDGE
THPL/PASP
THPL
13
SLICK CREEK
THPL/PASP
THPL
13
DAVIS CREEK
THPL/PASP
THPL
13
WINDY PACKBRIDGE
THPL/PASP
THPL
13
WEITAS CAMPGROUND
THPL/PASP
THPL
13
HIGH CREEK
THPL/PASP
THPL
13
CUB CREEK
THPL/PASP
THPL
13
JOHNNY PACKBRIDGE
ABGR/PASP
ABGR
14
CANYON CREEK
ABGR/PASP
ABGR
14
COOK ROAD#l
ABGR/PASP
ABGR
14
SLICK RIDGE SOUTH
ABGR/PASP
ABGR
14
COOK ROAD #3
ABGR/PASP
ABGR
14
COOK ROAD 02
ABGR/PASP
ABGR
14
JUNCTION PACKTRAIL
ABGR/PASP
ABGR
14
DORIS RIDGE
ABLA-TSME
MULT
15
COOK MOUNTAIN NORTH
ABLA-TSME
MULT
15
LOOKOUTPEAK
ABLA-TSME
MULT
15
CRATER MEADOWS NORTH
ABLA-TSME
MULT
15
JUNCTION LOOKOUT WEST
ABLA-TSME
MULT
15
LOOKOUT PEAK SOUTH
ABLA-TSME
MULT
15
PARADISE MEADOWS
ABLA-TSME
MULT
15
CRATER MEADOWS EAST
ABLA-TSME
MULT
15
MONROE BUTTE NORTH
ABLA-TSME
MULT
15
JUNCTION LAKE POINT
ABLA-TSME
MULT
15
COOK MTN SOUTH
* "PSME
' POTR
ii
1A
PSME
POTR
12
IB
PSME
POTR
12
3
PSMK
POTR
12
4A
37
-------�
Re&
- Elev -
— Year —
Area
Communit)
Kdchler
Site # Stile Albera- E
Albers-N
L*L
Long
Aspect Slope
Low
High
Start
End
(ha)
Plant Association
dominant
Class
Site name
6605 WY -417685
2322997
110 21
43 58
N
-1
2378
2378
1850
1971
0
PS ME
POTR
12
4H
6606 WY -430990
2342032
110 39
43 75
-1
-1
2329
2329
1850
1971
0
PS ME
POTR
12
5A
6607 WY -430990
2342032
110 39
43 75
-1
-1
2129
2329
1850
1971
0
PS ME
POTR
12
5B
6608 WY -430990
2342032
11039
43 75
-1
-1
2329
2329
1850
1971
0
PS ME
POTR
12
5C
6609 WY -449799
2338218
110 62
43 70
-1
-1
2104
2104
1856
1971
0
PS ME
POTR
12
6A
6610 WY -449799
2338218
110 62
43 70
-1
2104
2104
1856
1971
0
PS ME
POTR
12
6R
6611 WY -439547
2361914
110.51
43 92
-1
-1
2256
2256
1880
1971
0
PS ME
POTR
12
7A
6612 WY -454939
2291350
110 65
43.28
-1
-1
1890
1890
1872
1971
0
PS ME
POTR
12
8A
6613 WY -454939
2291350
110.65
43 28
-1
-1
1890
1890
1872
1971
0
PS ME
POTR
12
8B
6701 -"714963""
~262220l"
"'114.23"
"46.08'
""SSE
"2 "
1384"
13 84
1648"
i900
0
PSME/CARU'
p'i'po
i2 " '
'PHOTOPOfNT 3 '""
6702 MT -714963
2622207
114 23
46 08
SSE
2
1372
1372
1724
1900
0
PSME/CARU
PIPO
12
PHOTOPOINT 2
6703 MT -714963
2622207
114 23
46 08
SE
2
1356
1356
1617
1900
0
PSME/CARU
PIPO
12
PHOTOPOINT I
6704 MT -714963
2622207
114.23
46.08
SSE
2
1372
1372
1838
1900
0
PSME/CARU
PIPO
12
PHOTOPOINT 6-LIVE TREE
6705 MT -714963
2622207
114.23
46 08
SSE
2
1372
1372
1752
1900
0
PSME/CARU
PIPO
12
PHOTOPOINT 6-DEAD TREE
6706 MT -714963
2622207
114 23
46 08
NE
2
1344
1344
1428
1900
0
PSME/CARU
PIPO
12
PHOTOPOINT 8
6707 MT -714963
2622207
114.23
46.08
M
2
1372
1372
1428
1900
130
PSME/CARU
PIPO
12
ENTIRE STUDY AREA
"" 6801 MN 1029066"
'"2870971"
9133 "
"48 00'
"m
-1
366
640'
1542
1972
215000
" ACSA/FAGR/TSCA
MULT
95
" BOUNDARY WATERS CANOE AREA
6901" WY -471719"'
"2487988"
TiToo"
"45 03"
... . ..
"l500"
¦|800
' 1664
i'970
'.i
AGSP/FE1D
MULT
50
SITE A
6902 WY -448144
2475496
110 69
44 93
-1
-1
2200
2300
1653
1970
1
AGSP/FEID
MULT
50
SITE B
6903 WY -433672
2474709
110.51
44 93
-1
-1
2200
2300
1505
1970
-1
AGSP/FEID
MULT
50
SITEC
6904 WY -432646
2482089
110.50
45 00
-1
2200
2300
1626
1970
-1
AGSP/FEID
MULT
50
SITED
6905 WY -422773
2470416
110.37
44 90
-1
-1
2200
2300
1564
1970
-1
AGSP/FEID
MULT
50
SITEE
6906 WY -411581
2470150
110 23
44 90
-1
-1
2200
2300
1485
1970
-I
AGSP/FEID
MULT
50
SITE F
6907 WY -425565
2466844
110 40
44.87
-1
-1
2200
2300
1716
1970
-1
AGSP/FEID
MULT
50
SITEG
6908 WY -448144
2475496
110 69
44 93
-1
-1
2200
2300
1776
1970
0
AGSP/FEID
MULT
50
SITE B1
6909 WY -442346
2473320
110 62
44 92
-1
-1
2200
2300
1603
1970
0
AGSP/FEID
MULT
50
SITE CI
6910 WY -433672
2474709
11051
44 93
-1
-1
2200
2300
1693
1970
0
AGSP/FEID
MULT
50
SITE C2
6911 WY -433042
2474675
110 50
44 93
-1
-1
2200
2300
1706
1970
0
AGSP/FEID
MULT
50
SITE C3
6912 WY -440957
2485790
110 61
45.03
-1
-1
2200
2300
1646
1970
0
AGSP/FEID
MULT
50
SITED1
6913 WY -425565
2466844
110.40
44 87
-1
-1
2200
2300
1773
1970
0
AGSP/FEID
MULT
50
SITE Gl
706i"CA 1572256
•"i'80i'94i"
"122.58"
37 90
""ne""
"6i "
""402
1436
1850
0
SESE
SESE
6
SITE 1 - STUMPS 1-20
7002 CA -1512256
1801941
122.58
37 90
NE
61
402
1612
1850
0
SESE
SESE
6
SITE 2- STUMPS 1-22
7i0l CA "-il'6'535T'
15901i2
118 28
"36'50
...
T"
"3330"
'3330
1729"
1991
0
"PICO
PICO
8
LBI
7102 CA -1165351
1590112
118 28
36.50
WNW
1
3340
3340
1578
1991
0
PICO
PICO
8
LB2
7103 CA -1165351
1590112
118 28
36.50
WNW
1
3350
3350
1729
1991
0
P1BL
PIBL
8
FBI
7104 CA -1165351
1590112
118 28
36 50
SW
3330
3330
1737
1991
0
PIBL
PIBL
8
FB2
7105 CA -1165351
1590112
118.28
36.50
WNW
3345
3345
1729
1991
0
PIBL/PICO
PIBL/PICO
8
MB1
7106 CA -1165351
1590112
118 28
36 50
S
1
3355
3355
1826
1991
0
PIBL/PICO
PIBL/PICO
8
MB2
7201' ca"'"iU396l"
118.91
41.50
M
-i
1850
1850
1597
1939
6
CADE/PILA
' CADE/PILA'
5 "
BEARSKIN 'c^'EkPLOT 1
7202 CA -1143961
2156149
118 91
41 50
-1
-i
1850
1850
1654
1939
16
PILA/ABCO/CADE
MULT
5
BEARSKIN CREEK PLOT 2
7203 CA -1143961
2156149
11891
41 50
-1
-i
1850
1850
1700
1939
3
PILA/ABCO/CADE
MULT
5
BEARSKIN CREEK PLOT 3
7204 CA -1143961
2156149
11891
41 50
SW
-i
1850
1850
1700
1939
-1
CADE/A BCO
SEGI
5
REDWOOD CREEK-W
7205 CA -1143961
2156149
11891
41 50
SE
-i
1850
1850
1700
1939
-1
ABCO
SEGI
5
REDWOOD CREEK - E
7206 CA -1143961
2156149
11891
41 SO
M
-I
1850
1850
1700
1939
1030
ABCO
SEGI
5
REDWOOD CREEK - ENTIRE AREA
7207 CA -1143961
2156149
118 91
41 50
M
-i
1850
1850
1700
1939
770
ABCO/CADE
MULT
5
BEARSKIN CREEK - ENTIRE AREA
7208 CA -1143961
2156149
11891
41 50
M
-i
1850
1850
1700
1939
1800
ABCO/CADE
MULT
5
ENTIRE AREA
" 7301" MN" 7917i6
277889-1"
94 58 "
"47 42"
"" M
-i
"1280"
1375'
1808
"1931
"486
ACSA/TIAM
mult'
99
STAR ISLAND
FHSITE DB - page 38
-------�
RefZ
Site# State
'7401 "CO
7402 CO
7403 CO
7404 CO
7405 CO
7406 CO
"Tj'ortnr
7502 UT
7503 UT
7504 UT
7505 UT
7506 UT
7507 UT
7508 UT
7509 UT
7510 UT
7511 UT
7512 UT
7513 UT
7514 UT
' "760?" ID''
7602 ID
7603 ID
7604 ID
7605 ID
7606 ID
7607 ID
7608 ID
7609 ID
7610 ID
7611 ID
7612 ID
7613 ID
7614 ID
7615 ID
7616 ID
7617 ID
7618 ID
7619 ID
7620 ID
7621 ID
7622 ID
7623 ID
7624 ID
7625 ID
7701 CA
7702 CA
Atberv E
-47265
-47265
-47265
-47265
-47265
-47265
"69584"
-695380
-695625
-696347
-697145
-695493
-695505
-695916
-694383
-694305
-694467
-694166
-693936
-693861
-898282"
-898947
-899476
-899567
-899603
-897721
-896957
-896940
-896631
-893702
-895451
-895980
-896147
-896285
-892069
-892232
-893242
-893875
-893960
-894337
-895391
-895466
-895910
-895600
-895597
-1080456"
-1080456
AEben-N
i'99052i"'
1990521
1990521
1990521
1990521
1990521
7627*639"
1642554
1640528
1639104
1638947
1639983
1639826
1637906
1637410
1636176
1635213
1632325
1630797
1630634
Lat-
105 57
105 57
105 57
105 57
105 57
105 57
i"l299'
113 00
11300
113.01
113 02
11300
11300
113 00
112.98
112.98
11298
112.98
112 97
112.97
Long
40 71"'
40 71
40.71
40 71
40.71
40 71
'37.26"
37.39
37.37
37.36
37.36
37.37
37.37
37.35
37.35
37 34
37.33
37.30
37.29
37.29
Aspect
M "
S
N
-1
-1
-I
NNE
SE
WSW
W
S
SE
NNE
NE
NNE
F
SE
NNE
N
2539272
2539689
2539903
2540501
2540882
2540049
2540524
2540677
2541327
2543520
2543404
2543618
2543543
2543714
2545422
2545377
2546236
2546213
2546160
2546327
2546786
2546110
2545663
2543482
2543513
1318738"
1318738
116.46
11647
11648
116 48
116 48
116 46
11645
116.45
116.45
116.41
116.43
116 44
116 44
116.44
116.39
116 40
11641
116 42
116 42
116 42
116 44
116.44
116 44
116.44
116 44
i 16 97"
116 97
45 17
45.17
45.17
45.18
45.18
45 18
45 18
45.18
45.19
45 21
45 21
45 21
45 21
45.21
45 23
45 23
45.24
45.23
45.23
45.24
45.24
45 23
45 23
45 21
45 21
'34 2'i"
34 21
S
N
SW
N
NW
NE
E
NE
N
NW
S
N
S
S
SW
SW
SW
NW
NW
NE
S
N
SW
s
M
"m""
M
Slope
5
-I
-1
-I
-I
-I
"2"''
2
1
2
1
2
2
2
2
1
1
2
1
1
"* 3"
2
3
4
2
2
3
3
3
2
3
3
2
2
2
2
4
3
2
2
2
3
2
5
5
""5"
5
— Elev —
Low High
2500 2800
2500 2800
2500 2800
2500 2600
2600 2700
2700 2800
21*95" 2V95
2225 2225
2240 2240
2208 2208
2243 2243
2065 2065
2018 2018
2210 2210
2051 2051
2021 2021
2432 2432
2140 2140
2134 2134
2155 2155
2073 ' 2073
1915 1915
1964 1964
1661 1661
1530 1530
2109 2109
2076 2076
2064 2064
2036 2036
2109 2109
1818 1818
1721 1721
1721 1721
1770 1770
2109 2109
2085 2085
1733 1733
1879 1879
1721 1721
1606 1606
1503 1503
1321 1321
1267 1267
1503 2073
1321 2109
ism 'iioo'
2700 3500
— Year —
Sun End
1708 1973
1708 1973
1708 1973
1708 1973
1708 1973
1708 1973
1501 '**1980**
1501 1980
1501 1980
1501 1980
1501 1980
1501 1980
1501 1980
1501 1980
1501 1980
1501 1980
1501 1980
1501 1980
1501 1980
1501 1980
1814 "*1987"
1889 1987
1752 1987
1752 1987
1752 1987
1814 1987
1913 1987
1913 1987
1913 1987
1714 1987
1817 1987
1817 1987
1817 1987
1817 1987
1817 1987
1817 1987
1785 1987
1857 1987
1814 1987
1814 1987
1752 1987
1913 1987
1752 1987
1752 1987
1752 1987
-1 1974
-I 1974
Area
(ha)
50
146
FHSITE
Cmranunitj
Ktldiler
Plant Association
dominant
Class
Site name
PIPO
PIPO
16
ENTIRE AREA
PIPO
PIPO
16
SOUTH ASPECTS
PIPO
PIPO
16
NORTH ASPFCTS
PIPO
PIPO
16
LOWER THIRD
PIPO
PIPO
16
MIDDLE THIRD
PIPO
PIPO
16
UPPER THIRD
PIPO/QUGM
PIPO
. .. .
CHURCH MESA
ABCO/PSME
PIPO
20
HORSE PASTURE CLUSTER 2
PIPO/QUGM
PIPO
19
HORSE PASTURE CLUSTER 8
PIPO/QUGM
PIPO
19
HORSE PASTURE CLUSTER 10
PIPO/QUGM
PIPO
19
HORSE PASTURE CLUSTER 11
PIPO/QUGM
PIPO
19
HORSE PASTURE CLUSTER 12
PIPO/QUGM
PIPO
19
HORSE PASTURE CLUSTER 13
PIPO/QUGM
PIPO
19
HORSE PASTURE CLUSTER 15
PIPO/QUGM
PIPO
19
HORSE PASTURE CLUSTER 16
PIPO/QUGM
PIPO
19
HORSE PASTURE CLUSTER 17
PIPO/QUGM
PIPO
19
HORSE PASTURE CLUSTER 20
PIPO/QUGM
QUGM
19
HORSE PASTURE CLUSTER 22
PIPO/QUGM
PIPO
19
HORSE PASTURE CLUSTER 23
PIPO/QUGM
PIPO
19
HORSE PASTURE CLUSTER 24
"abla/caru
PSME
15"
1
ABLA/VAGL
l.AOC
15
2
ABLA/CARU
LAOC
15
3
ABGR/VAGL
LAOC
14
4
ABGR/VAGL
LAOC
14
5
ABLA/VAGL
PICO
15
6
ABLA/VAGL
PICO
15
7
ABLA/VAGL
PICO
15
8
ABLA/VAGL
PICO
15
9
ABLA/CAGE
PICO
15
10
PSME/AOSP
PICO
14
II
ABGR/VAGL
ABGR
14
12
ABGR/SPBE
PIPO
14
13
ABGR/SPBE
PIPO
14
14
ABLA/CAGE
PICO
15
15
ABLA/CAGE
PICO
15
16
ABGR/VAGL
LAOC
14
17
ABGR/VAGL
LAOC
14
18
ABGR/VAGL
LAOC
14
19
PSME/PHMA
PIPO
14
20
PSME/PHMA
PIPO
14
21
ABGR/COOC
LAOC
14
22
ABGR/SPBE
PIPO
14
23
MULT
MULT
14
5 SOUTH EXPOSURE STANDS
MULT
MULT
14
18 NORTH EXPOSURE STANDS
PIPO
PIPO
.....
SAN BERNARDINO MTS-LOW ELEV
PIPO
PIJE
5
SAN BERNARDINO MTS ¦ HIGH ELEV
39
-------�
Ref/
— Elev —
— Year —
Area
Community
KUchter
Site # Slate
Alben- E
Albert-N
Lai
Long
Aspect Slope
Low
High
Siart
End
(ha)
Plant Association
dominant
Class
Sue name
7801 CA
-1080456
1318738
"116 97
34 21
M
5
1500
2700
1797
1965
-1
PIPO
PIPO
5
SAN BERNARDINO MTS-LOW ELKV
7802 CA
-1080456
1318738
11697
34 21
M
5
2700
3500
1797
1965
-1
PITO
PIJE
5
SAN BrRNARDINO MTS - HIGH IXEV
"7901 "C A
"7377534'
"1938749"
"i'2l'29"
"39 28"
.. . .
i
"506"
"500"
1681"
"i 982
*5
QUDO "
QUDO
30
KOCH
" 8o6Pmt"
"'-714556
"*2641493"
"l14*25"
46 25
'"m
"5"
1260
'lioo'
16X0
I9H0 '
-1
ahgr/pii-'n/ahla
MULT
is
BiffERROOT CANYONS
8IOi" MT
-673093
"2715853"
113 80
46 95
NH"
2
2061"
2061
1500
1981
-1
ABLA
HAL
15
1
8102 MT
-672938
2715871
113 80
46 95
E
3
2000
2000
1834
1981
-1
AULA
PIAL/PtCO
15
2
8103 MT
-672701
2715943
113 79
46 95
SW
1
1988
1988
1541
1981
-1
ABLA
PIAl.
15
.1
8104 MT
-672627
2715906
113.79
46 95
SSE
2
1976
1976
1834
1981
-1
ABLA
PIAL
15
4
8105 MT
-672635
2715814
113 79
46 95
E
2
1927
1927
1834
1981
-1
ABLA
PICO
15
5
8106 MT
-672556
2715838
11379
46 95
SW
2
1909
1909
1757
1981
-1
ABLA
PIAL
15
6
8107 MT
-672554
2715869
11379
46 95
SSW
2
1939
1939
1757
1981
-1
ABLA
PIAL
15
7
8108 MT
-672556
2715838
113.79
46 95
SE
2
1906
1906
1772
1981
-1
ABLA
PS ME
15
8
8109 MT
-672472
2715924
113.79
46.95
SE
3
1939
1939
1757
1981
-1
ABLA
PS ME
15
9
8110 MT
-671961
2715603
113 78
46 95
E
2
1758
1758
1500
1981
-1
ABLA
LAOC
15
10
"s'id'feo'
"''-49935'''
'"1917955"
105.59
40.07
2
3231
3353
i 362
i'962"
54
ARLA/PIEN
ABLA
"lis'""
LONG LAKE
"8301" fx"
""iMi'w"
698235""
"103 29"
29 25"
... j...
2075"
2075"
1780
1940"
-1
CUAR/ACGR
MULT
31" "
boo'tspr'ing's
8302 TX
164104
698235
103.29
29.25
-1
2075
2075
-1
1940
-1
CUAR/ACGR
CUAR/POIN
31
EMORY PEAK
8303 TX
164104
698235
103 29
29 25
-1
2033
2033
1780
1940
-1
CUAR/ACGR
CUAR/ACGR
31
BOOTROCK
8304 TX
164104
698235
103.29
29.25
-1
2075
2075
-1
1940
-1
CUAR/ACGR
MULT
31
CORRAL
8305 TX
164104
698235
103.29
29 25
-1
2075
2075
1733
1940
-1
CUAR/ACGR
P1CE/MUEM
31
SOUTH RIM
8306 TX
164104
698235
103.29
29.25
-1
2075
2075
1733
1940
-1
CUAR/ACGR
PICE/MUEM
31
EAST RIM
8307 TX
164104
698235
103 29
29 25
-1
2075
2075
1900
1940
-1
CUAR/ACGR
PICE/MUEM
31
LOST MINE TRAIL
8308 TX
164104
698235
103 29
29 25
-1
2075
2075
1773
1940
-1
CUAR/ACGR
PICE/MUEM
31
ENTIRE AREA
8401 WY
-357137
2457968
109 53
"44 82"
"5""
¦2366"
'2800
" 1595
7988
750 "
ABLA
PIAL/ABLA
15
RUSSELL PEAK
"850"f WY"
'"'.'459240"
""2358795'
I in 75
41 SX
-1
-1
-1
1765
1890'
-1
PS ME
PICO/PS ME
15
TIMBERED ISLAND
8502 WY
-459240
2358795
110.75
43 88
-1
-I
-1
1865
1890
-1
PS ME
PICO/PS ME
15
OXBOW
8503 WY
-459240
2358795
110 75
43.88
-1
-1
-1
1879
1890
-1
PS ME
PICO/PS ME
15
JACKSON LAKE MORRAINE
8504 WY
-459240
2358795
110 75
43 88
-1
-I
-1
1890
1890
-1
PS ME
PICO/PS ME
15
BURNT RIDGE
"8601 CA"
-i197257
"1587783
118 64'
"36 44"
"' N
'3"
'2680
'2680'
1700
i 979
" 1
' ABMA/PIMO
ABMA/PIMO
7 .
MINERAL KING PLOT 1''
8602 CA
-1197332
1587887
118.64
36 44
N
3
2480
2480
1700
1979
0
ABMA/PIMO
MULT
7
MINERAL KING PLOT 2
8603 CA
-1196027
1587681
118 63
36 44
N
2
2660
2660
1700
1979
0
ABMA/PIMO
ABMA/PIMO
7
MINERAL KING PLOT 3
8604 CA
-1196550
1587751
118.63
36 44
N
-1
2480
2680
1700
1979
30
ABMA/PIMO
ABMA/PIMO
7
MINERAL KING ENTIRE AREA
8701" CA"
"-7263931"
'"1719461"
"71960
3752'
.......
-1"
1950"
1950
'450
"1880 '
" -1
ABCO
SEGI
' 5 ""
MARIPOSA GROVE
TSoTid"
-842602
~2686549"
"ii5'96*
46 54
""-I
... _..
".| ""
1782'
*i 935
" "8 "
ABGR
" PIMO
14
ORORNO" PLOT
""'woi' ca*
""-1565164
~"202i'666"
123:64
3973
"m"
"5 "
"579"
"640"
1819
j 950
" "(g
sese"
SESE
' "6
BARNWELL CREEK
~90brfK
"" "14689 '
"*1000067"
"iSi'l'-i"
"i'i 94"
"~"m
"5'"
*22 io"
2644'
'1859"
1909"
' "l"
PIPO/PiFL
PIPO
i 9
ENTIRE AREA
"9i"oTWY'
'""-'469384"
"2427270'
¦ 1 io'93"
"44 49'
'""m""
-1'
2300
2500"
(630
'1932
2540"
ABLA/PIEN"
PICO' "
15"
PICO NORTHEAST
9102 WY
-472471
2423320
110 96
44 1'
M
.1
2450
2650
1630
1949
3610
ABLA/P1EN
ABLA
15
ABLA-SOUTHWEST
9103 WY
-470436
2425561
110.94
44 4;
M
-1
2300
2650
1630
1949
7320
ABLA/PIEN
PICO
15
ENTIRE AREA
"woTco"
"".56677"
"7957284*"
"7656'cT
"40 37'
""T"
"if"
'2597'
"2597'
16 i 7"
1940"
' "i
PS ME
pipo
is' '"
TUXEDOPARk
9202 CO
-50077
1951284
105 60
40 37
-1
-1
2597
2597
1492
1940
-1
PS ME
PIPO
18
EAGLE PEAK
9203 CO
-50077
1951284
105.60
40 37
-1
-1
2597
2597
1740
1940
-1
PS ME
PIPO
18
BEAVER MEADOWS
9204 CO
-50077
1951284
105.60
40 37
-1
-1
2597
2597
1734
1940
-1
PS ME
PIPO
18
BIGHORN RS- HORSESHOE PARK
9205 CO
-50077
1951284
105 60
40 37
-1
-i
2597
2597
1523
1940
-1
PS ME
PIPO
18
S LAT MORAINE-HOLLOWELL PK
9206 CO
-50077
1951284
105 60
40 37
-1
-1
2597
2597
1621
1940
-1
PS ME
PIPO
18
LILLY MT
9207 CO
-50077
1951284
105 60
40 37
-1
-1
2597
2597
1561
1940
-1
PS ME
PIPO
18
LUMPY RIDGE
9208 CO
-50077
1951284
105 60
40 37
-1
-1
2597
2597
1746
1940
-1
PS ME
PIPO
18
THOMPSON PARK
FHS1TE DB - page 40
-------�
Ref/ — Elev — — Year — Area
Site# Slate Alben-E Alben-N Lai Long Aspect Slope Low High Sun End (ha)
9209 CO -50077 1951284 105 60 40 37 -1 -I 2597 2597 1750 1940 -I
9210 CO -50077 1951284 105 60 40 37 -1 -I 2597 2597 1658 1940 -I
9301 NM""'- 351888 'M44436 T08 97'"'35 82 M I " " 2700' 2700 i 392 " 1986 6500
"" 946i'"'MN 956722 2717773' "r'92 "52"'' "46 71 f i 5*84 384 " 1620 " 1890 " -I '
' 9501'CA'~T665770"''l274398 "ii6 75'"'33'83 ~-i -1 2500 3324 1652 1955 1100
'~'960T"m¥' -€94344 2921704 ""'l 14 32 ""48 80 "M 5 1067 " 1280 '1706 'i973 "7130
9602 MT -694344 2921704 114 32 48 80 M 5 1067 1280 1706 1973 -I
9603 MT -694344 2921704 114 32 48 80 M 5 1067 1280 1706 1973 -I
9604 MT -694344 29217W 114 32 48 80 M 5 1067 1280 1706 1973 -1
9701 "CO ""-48868" 1942986 i'b5-58 ~4029 M 5~"3048""4267 "l'703"' 1968 "9238"
" "98Oi*"MT"'"-673226 2877«Ss6 i" 13'98*'"48"4V 'sw""""T*" I050 ' 1050 1735 "l944 -I
9802 MT -673226 2877066 113 98 48 41 WSW -I 1000 1000 1735 1946 -I
9803 MT -673226 2877066 11398 4841 SW -I 1425 1425 1735 1976 -I
9801 MT -673226 2877066 113 98 48.41 M -I 1275 1275 1735 1955 -I
9805 MT -673226 2877066 113 98 48 41 SW -I 1500 1500 1735 -I -1
9806 MT -673226 2877066 113 98 48.41 S -I 1275 1275 1735 1976 1
9807 MT -673226 2877066 113.98 48 41 NE -I 1200 1200 1735 1976 -1
9808 MT -673226 2877066 11398 4841 M I 1125 1125 1735 1945 -1
9809 MT -673226 2877066 113.98 48.41 M -1 1125 1275 1735 1944 -I
9810 MT -673226 2877066 11398 4841 M -I 1125 1350 1710 1976 -I
9811 MT -673226 2877066 113 98 48.41 ENE -1 1125 1200 1735 1945 -I
9812 MT -673226 2877066 113.98 48.41 M -I 1125 1350 1735 1974 -1
9813 MT -673226 2877066 11398 4841 SE -I 1425 1425 1718 1976 -1
9814 MT -673226 2877066 11398 4841 M -I 1350 1500 1735 1974 -1
9815 MT -673226 2877066 113 98 48 41 M -I 1425 1500 1735 1976 -1
9816 MT -673226 2877066 113.98 48 41 ENE -I 1725 1725 1735 1976 -1
9817 MT -673226 2877066 113 98 48 41 M -1 1575 1650 1735 1976 -1
9818 MT -673226 2877066 113 98 48.41 M -I 1650 1650 1735 1970 -I
9819 MT -673226 2877066 113 98 48 41 NE -1 1800 1875 1735 1976 -1
9820 MT -673226 2877066 113 98 48 41 -1 -I 1875 1875 1735 1976 -1
9821 MT -673226 2877066 113 98 48 41 NE -I 1725 1725 1735 1976 -1
9822 MT -673226 2877066 113 98 48 41 -1 -1 -I -I 1735 1962 -I
9823 MT -673226 2877066 113.98 48 41 -1 -1 -1 -I 1735 1968 I
9824 MT -673226 2877066 113.98 48.41 -1 -1 -I -I 1735 1965 -I
9825 MT -673226 2877066 113.98 48 41 -1 -1 -1 -1 1735 1968 -I
9826 MT -673226 2877066 II3.9B 48 41 -1 -I -1 -1 1735 1965 -1
9827 MT -673226 2877066 113 98 48 41 -1 -I -1 -1 1735 I 960 -I
9828 MT -673226 2877066 113 98 48 4i -1 -I -1 -1 1735 1952 -1
" w6T~MN 744899 2749229 '95'23"""47"i"9 -f -i "'457"""457 "i7f4""*l951 -I
10001 ID -869458 2389832 115 90 43 86 "I -i "" 1402"''i402""i685 'i'892 '-1
10002 ID -871895 2382785 115.92 43.80 -I -I 1774 1774 1764 1892 -I
10003 ID -866985 2390412 115 87 43.87 -1 -1 1524 1524 1832 1892 -I
10004 ID -865789 2390317 115 85 43.87 -I -I 1516 1516 1643 1932 -1
10005 ID -871168 2384331 115 91 43.81 -I -I 1715 1715 1783 1932 -1
10006 ID -866176 2389702 115 86 43 87 -I -I 1478 1478 1737 1932 -I
10007 ID -871032 2384098 115 91 43 81 -1 -1 1707 1707 1602 1B95 -1
"Toidf UT -625477 1661862"""l"l2 2T-37 6I~ I "V" '2469 '2469 " "l"636" 1980 " " 'i "
FHSITE DB
Community Kudiler
Plant Association dominant Class Sue name
PS ME PIPO f8 DHER. MT
PS ME PIPO 18 DEER RIDGE
PIPO PIPO i9 ENTIRE AREA"
"ACSA " ' PIRE 99 CLOQUHTFOR EXP'STN
ABCO PIPO 5 ENTIRE AREA
"aBLA/PSME ' AULA 15 ENTIRE AREA "
PSME PS ME 12 STANDI
PS ME PSME 12 STAND 2
PSME PSME 12 STAND 3
ABLA/PIEN PICO 15 LONGS PEAK STUDY AREA
ABLA ABLA 15 A
AULA ABLA 15 B
ABLA ABLA 15 CI
ABLA ABLA 15 C2
ABLA ABLA 15 C3
ABLA ABLA 15 Dl
PSME/PHMA PSME 12 D2
PS ME/PUMA PSME 12 D3
PSME/PHMA PSME 12 E
ABLA ABLA 15 F
ABLA ABLA 15 G
ABLA ABLA 15 H
ABLA ABLA 15 II
ABLA ABLA 15 12
ABLA ABLA 15 I
ABLA/XETE ABLA 15 K
ABLA ABLA 15 LI
ABLA ABLA 15 L2
ABLA/XETE ABLA 15 Ml
ABLA/XETE ABLA 15 M2
ABLA/XETE ABLA 15 M3
ABLA ABLA 15 N
ABLA ABLA 15 O
ABLA ABLA 15 P
ABLA ABLA 15 Q
ABLA ABLA 15 R
ABLA ABLA 15 S
ABLA/LIBO ABLA 15 T
' ACSA P1BA 95 SECTION 16 "
PSME PSME " l'l SAMPLE SITE V '
PSME PSME II SAMPLE SITE 2
PSME PSME II SAMPLE SITE 3
PSME PSME II SAMPLE SITE 4
PSME PSME II SAMPLE SITE 5
PSME PSME II SAMPLE SITE 6
PSME PSME II SAMPLE SHE 7
pipo pipo' To WHITMAN SPRING ""
41
-------�
Ref/
— Elev —
— Year —
Area
Community
KUchler
Site #
Slate
Albert- E
Alber»-N
UL
Long
Aspect Slope
Low
High
Start
End
(ha)
Plant Association
dominant
Class
Site name
10102
UT
-451011
1650552
110 20
37 60
-1
-1
-1
-1
1599
1980
-1
PIPO
PIPO
10
SEILER MILL
10103
UT
-678535
1646074
112 81
37 43
.1
-1
2134
2134
1519
1968
-1
piro
PIPO
10
STRAIGHT CANYON
" 10207
CA"
""1205467"
""1602055""
118.75*
"36 56"
... ••
2104
2104
"1518"'
1863
"2 '
ABCO
SEGI
5
CATTEL CABIN
'"T"630i"
"ca"
-1591956"
2088428
12410
4*6 27"
S
-1
* -1
1 "
1726
1940 '
"368
SESE
SESE
*6
H ARPER CREEK '
10302
CA
-1591956
2088428
124 10
40 27
S
-1
-1
-1
1726
1940
337
SESE
SESE
6
CALFCREEK
10303
CA
-1591956
2088428
124 10
40 27
SE
-1
-1
-1
1726
1940
397
SESE
SESE
6
WEST COW CREEK
10304
CA
-1591956
2088428
124 10
40 27
M
-1
-1
-1
1726
1940
433
SESE
SESE
6
EAST COW CREEK
10305
CA
-1591956
2088428
124.10
40 27
NE
-1
-1
-1
1726
1940
286
SESE
SESE
6
TEPEE CREEK
10306
CA
-1591956
2088428
124.10
40 27
N
-1
-1
-1
1726
1940
190
SESE
SESE
6
CONNICK CREEK
10307
CA
-1591956
2088428
124 10
40 27
N
-1
-1
-1
1726
1940
223
SESE
SESE
6
MILLER CREEK
10308
CA
-1591956
2088428
124.10
40.27
NW
-1
-1
-1
1726
1940
261
SESE
SESE
6
LOWER E SQUAW CREEK
10309
CA
-1591956
2088428
124 10
40 27
M
-1
-1
-1
1726
1940
410
SESE
SESE
6
UPPER E SQUAW CREEK
10310
CA
-1591956
2088428
124.10
4027
M
-1
-1
-1
1726
1940
257
SESE
SESE
6
LOWER W SQUAW CREEK
10311
CA
-1591956
2088428
124 10
40 27
M
-1
-1
-1
1726
1940
348
SESE
SESE
6
UPPER W SQUAW CREEK
10312
CA
-1591956
2088428
124.10
40.27
M
-1
-1
-1
1330
1940
3510
SESE
SESE
6
ENTIRE AREA
"T'oioi NM"
""315968''
""iT52067 i0845
1324"
Si"
"*5
"2354"
2354"
"l6i"6"'
"l980™
41
p'ipo
PIPO-"
i*9
MCKENNA PARK'
10402
NM
-321539
1155237
108 51
33 27
M
1
2438
2438
1570
1980
47
PIPO
PIPO
19
LANGSTROTH MESA
10403
NM
-324497
1173039
108 55
33.43
S
1
2500
2500
1640
1980
41
PIPO
PIPO
19
GILITA RIDGE
"VoShT
ca"
¦".7264211"
1719343
7l9.60"
3752"
m"
.........
1829
"2076
. ...
7980
" '259
ABAM
SEGI
5
MARIPOSA GROVE'
~Td6oT'
*AZ"
-399784™
"7014541"'
769 30"
"32.0(f
m""™
5
"2073"
'2T63'
"|6CM"
1924
65
PS ME
pi'po
i'9
UPPER CANYON
10602
AZ
-400593
1015202
109 31
32 00
M
5
1859
1981
1606
1924
32
PS ME
PIPO
19
MIDDLE CANYON
10603
AZ
-402896
1015706
109 34
32 01
M
5
1646
1859
1632
1924
8
PS ME
PIPO
19
LOWER CANYON
10604
AZ
-400593
1015202
109.31
32 00
M
5
1646
2103
1604
1924
356
PS ME
PIPO
19
WHOLE CANYON
"TokTi"
CA
-1444452'
1591357
721 *42*"
36.76
"""N"
..........
"T788"
"1788"
" i '7'43 '
1977 '
"0
" PiLA/PlCU/QUCH
mult"
34
lUNTPKO SERRA PEAK PLOT 3
10702
CA
-1444452
1591357
121.42
36 16
N
-1
1788
1788
1688
1977
0
PILA/PICU/QUCH
MULT
34
JUNIPERO SERRA PEAK PLOT 5
10703
CA
-1444452
1591357
121 42
36 16
N
-1
1788
1788
1640
1977
0
PILA/PICU/QUCH
MULT
34
JUNIPERO SERRA PEAK PLOT 6
10704
CA
-1444452
1591357
121 42
36.16
N
-1
1788
1788
1795
1977
0
PILA/PICU/QUCH
MULT
34
JUNIPERO SERRA PEAK PLOT 8
10705
CA
-1444452
1591357
121 42
36.16
N
-1
1788
1788
1671
1977
0
PILA/PICU/QUCH
MULT
34
JUNIPERO SERRA PEAK PLOT 10
10706
CA
-1444452
1591357
121 42
36.16
N
-1
1788
1788
1812
1977
0
PILA/PICU/QUCH
MULT
34
JUNIPERO SERRA PEAK PLOT 12
10707
CA
-1444452
1591357
121 42
36 16
N
-1
1788
1788
1640
1977
0
PILA/PICU/QUCH
MULT
34
ENTIRE AREA
"ToiioT
wy"
""-428563"'
~243lf38i"
'na'42"
"44 58"
-1
-1
2438
2500
1665
1966
-1
a'b'La
PICO
i'5
ENTIRE AREA
"'iwoT'
"ca"
"7342972*
"iOMOSi""
72TT2"
"40 43
~W
.........
'1963"
"1963"
1740"
1985
3 '
ABMA
ABMA"
34
PLOT 1
10902
CA
-1342972
2064061
121 12
4043
E
1
1954
1954
1797
1985
3
ABMA
ABMA
34
PLOT 2
10903
CA
-1342972
2064061
121.12
40.43
M
-1
1958
1958
1740
1985
400
ABMA
ABMA
34
ENTIRE AREA
""i iooT"
"ca"
"i'3429'72"
""206406T"
72T'.Ti"
To'43"
NNW
1
1970
1970
1740
1990
1
ABCO
ABMA
7
PLOT 1
11002
CA
-1342972
2064061
121 12
40.43
E
1
1910
1910
1668
1990
0
ABCO
ABMA
7
PLOT 2
'liioi
CA
-1560673
"2254825""
"124.10"
"47.78
"7 "
76
107
1880'
1880"
1
SESE
SESE
6
MILL CREEK
"moi"
"ca"
"7561125
2226457"
72404"
¦'47.53-
__
™-i
76
"76"'
972 "
*1*972*"
"l
SESE
SESE
" 6
PLOT 1
11202
CA
-1561125
2226457
124 04
41.53
N
-1
46
46
973
1973
1
SESE
SESE
6
PLOT 2
11203
CA
-1561125
2226457
124.04
41.53
sw
-1
152
152
971
1971
1
SESE
SESE
6
PLOT 3
11204
CA
-1561125
2226457
124 04
41.53
wsw
-1
31
30
972
1972
1
SESE
SESE
6
PLOT 4
11205
CA
-1561125
2226457
124 04
41 53
ssw
-1
61
61
974
1974
1
SESE
SESE
6
PLOT 7
11206
CA
-1561125
2226457
124 04
41 53
WNW
-1
61
61
974
1974
1
SESE
SESE
6
PLOT 8
11207
CA
-1561125
2226457
124 04
41 53
SW
-1
31
30
977
1977
1
SESE
SESE
6
PLOT 9
11208
CA
-1561125
2226457
124.04
41 53
w
1
76
76
976
1976
1
SESE
SESE
6
PLOT 12
11209
CA
-1561125
2226457
124 04
41 53
s
-1
152
152
977
1977
1
SESE
SESE
6
PLOT 13
"TiTof
"ca"'
¦"-7194916"
"7627275 "
"118 67""
~36 79*
"M
"5
1370"
"1400
1775
1909'
"160 "
PIPO/P1JE
PIPO"
5
CEDAR" GROVE
FHSl lfc DB - page 42
-------�
ReV
— Elev —
— Year - -
Aica
Community
KClchler
Sue 6
State
Albert-E
Alben-N
Lat
Long
Aspect Slope
Low
High
Slail
End
(ha)
Plant Association
dominant
Clajj
Sue name
11401
AZ
-462027"
'1260147
"lib id
34 i 4
* SSE
1
1850
1850
1790
1949
0
PIPO
PIPO
19
FORESTDALE
11402
AZ
-432126
1214644
109 75
33 75
SW
1
2402
2402
1838
1950
0
PS MI-
PIPO
18
HEAD OF CORN CREEK
11403
AZ
-421633
1211026
109 63
33 73
-1
-1
2499
2499
1837
1950
0
PS ME
PIPO
18
ODART Bl'TTE
11404
AZ
-416706
1076143
109 52
32 54
-I
-1
2225
2225
1830
1950
0
PS ME
PIPO
18
MCDONALD RIDGE
11405
AZ
-630771
1561309
112 20
36 72
N
-1
2353
2353
1629
1950
0
PS ME
PIPO
18
JACOBS LAKE
M50I"
ca'
-i?09207
2181565
~I23 32
41 22"
""'Si
.......
' 900"'
"960
1740
1987"
... (-
PSME
MULT'
5
SITE r
11502
CA
-1510517
2179836
123 33
41 20
N
3
980
980
1740
1987
-1
PS ME
MULT
5
SITE 2
11503
CA
-1512389
2181125
123.36
41 21
N
3
975
975
1740
1987
-1
PS ME
MULT
5
SITE 3
11504
CA
-1510020
2182603
123 33
41 23
N
3
952
952
1740
1987
-1
PS ME
MULT
5
ENTIRE AREA
ii'60i'
"ca"
"7317092"
"2139276"
"12095"
4'i"i'3"
.......
1350
i'430"
1645"
i 855
' 250 '
J HOC
juoc
' *' 23
JUNIPER liiLL
FHSITE DB - page 43
-------�
APPENDIX D: LISTING OF THE REGIME FILE (FHREGIME.DB)
(-1 indicates no data)
44
-------�
Year
—
Regime
Regime
Fire freq
Frequency
Fire
Cross-
#of
#of
Site tt
Sun
End
(seventy)
(char)
-------�
Year Regime Regime Firefreq Frequency Fire Crosi- # of # of
Site#
Suit
End
(seventy)
(char)
(yn)
compulation
evidence
dated''
Trees
Fires
1701
1205
1900
HIGH
6 '"
383
"NFR
"ORiGlN"
' NO'"
'""556
"""14
1701
1200
1299
HIGH
6
213
NFR
ORIGIN
NO
-1
1
1701
1300
1399
HIGH
6
882
NFR
ORIGIN
NO
• 1
I
1701
MOO
1499
HIGH
6
386
NFR
ORIGIN
NO
-1
I
1701
1500
1599
HIGH
6
388
NFR
ORIGIN
NO
-1
1
1701
1600
1699
HIGH
6
307
NFR
ORIGIN
NO
-1
2
1701
1700
1799
HIGH
6
1033
NFR
ORIGIN
NO
-1
1
1701
1800
1899
HIGH
6
323
NFR
ORIGIN
NO
-1
6
1702
1205
1978
HIGH
6
435
NFR
ORIGIN
NO
-1
-1
isfoi
""mo""
1900""
"mod"
3
80
CFH25)
BOTH
NO
17
2
iwf
' "i'306
1900'""
MOD-'
3
90
CFI(10)
SCAR
YES
6
6
1902
1324
1900
MOD
3
80
CFI(7)
SCAR
YES
20
7
1903
1504
1900
MOD
3
60
CFI(6)
SCAR
YES
8
5
2001
1628
1902 —
MOD
3
35
CFI(l)
SCAR
""NO"""
11
7
2101
1721
""'Two''"
HIGH
4
88
CFI(l)
"ORIGIN"
""no""
'"T
" 3""" "'
2102
1866
1900
HIGH
4
-1
CF1(1)
ORIGIN
NO
3
1
2103
1566
1900
HIGH
4
A
CF1(1)
ORIGIN
NO
I
1
2104
1891
1900
HIGH
4
-1
CF1(1)
ORIGIN
NO
4
1
2105
1861
1900
HIGH
4
-1
CFI(l)
ORIGIN
NO
5
1
2106
1860
1900
HIGH
4
30
CF1(1)
ORIGIN
NO
2
2
2107
1860
1900
HIGH
4
20
CF1(1)
ORIGIN
NO
2
2
2108
1864
1900
HIGH
4
17
CF1(1)
ORIGIN
NO
7
3
2109
1859
1900
HIGH
4
12
CF1(1)
ORIGIN
NO
6
2
2110
1858
1900
HIGH
4
-1
CF1(1)
ORIGIN
NO
2
1
2111
1896
1900
HIGH
4
-1
CF1(1)
ORIGIN
NO
7
1
2112
1857
1900
HIGH
4
-1
CFI(l)
ORIGIN
NO
4
1
2113
1889
1900
HIGH
4
-1
CF1(1)
ORIGIN
NO
3
1
2114
1889
1900
HIGH
4
-1
CF1(1)
ORIGIN
NO
4
1
2115
1860
1900
HIGH
4
-1
CFI(l)
ORIGIN
NO
1
1
2116
1891
1900
HIGH
4
-1
CF1(1)
ORGIN
NO
2
1
2117
1881
1900
HIGH
4
-1
CF1(1)
ORIGIN
NO
1
1
2118
1837
1900
HIGH
4
22
CFI(l)
ORIGIN
NO
4
2
2119
1836
1900
HIGH
4
25
CFI(l)
ORIGIN
NO
2
2
2120
1866
1900
HIGH
4
-1
CF1(1)
ORIGIN
NO
1
1
2121
1818
1900
HIGH
4
20
CF1(1)
ORIGIN
NO
2
2
2122
1601
1900
HIGH
4
285
CFI(l)
ORIGIN
NO
2
2
2123
1884
1900
HIGH
4
-1
CF1(1)
ORIGIN
NO
2
1
2124
1738
1900
HIGH
4
144
CFI(l)
ORIGIN
NO
6
2
2125
1847
1900
HIGH
4
42
CF1(1)
ORIGIN
NO
6
2
2201
""lido "'
1902 *
MOD
3
-1
-1
"ORiGIN"
'"'"no""'
80"' "
'""4
2301
1552""
1900
MOD
3
95
P
BOTH"
"no""
6
2302
1504
1900
MOD
3
150
P
BOTH
NO
2
3
2303
1554
1900
MOD
3
66
P
BOTH
NO
I
6
2304
1502
1900
MOD
3
125
P
BOTH
NO
6
5
2305
1701
1900
MOD
3
45
P
BOTH
NO
3
5
""i'i'oi '"
1774
1900
LOW
2
8
CFI(30)
SCAR
NO
10
22
2402
1700
1900
LOW
2
•1
-1
SCAR
NO
12
15
2403
1700
1900
LOW
2
-1
•1
SCAR
NO
24
-1
2404
1700
1900
HIGH
5
-1
-1
SCAR
NO
27
0
2405
1700
1900
LOW
2
-1
-1
SCAR
NO
7
-1
2501
1715
1915
LOW
2
8 .
CF1( 18)
SCAR
NO
10
25
2502
1715
1915
LOW
2
9
CFI(I8)
SCAR
NO
9
22
2503
1715
1915
LOW
2
11
CF1(27)
SCAR
NO
10
18
2504
1715
1915
LOW
2
7
CFI(45)
SCAR
NO
8
28
2505
1715
1915
MOD
3
100
CF10
SCAR
NO
2
2
2506
1715
1915
MOD
3
100
CFIO
SCAR
NO
2
2
2507
1715
1915
LOW
2
17
CFI(18)
SCAR
NO
10
12
2508
1715
1915
LOW
2
8
CFI(9)
SCAR
NO
10
26
2509
1715
1915
LOW
2
33
CFI(45)
SCAR
NO
2
6
2510
1715
1915
LOW
1
67
(71(18)
SCAR
NO
1
3
2601 1565" *1900 MOD 3 48~ P SCAR-" "NO 1" ' 6-"
2602 1663 1900 LX)W 2 15 P SCAR NO 1 14
2603 1641 1900 LOW 2 12 P SCAR NO 1 18
FHREGIME.DB • page 46
-------�
3»
pi
id'
-M\*\
Year'
Regime
Regune
Rrefreq.
Frequency
Fire
Cross-
#of
tt of
Site #
Stan
End
(seventy)
(char)
(yrs)
computation
evidence
dated'1
Trees
Fires
2604
1447
1900
LOW
2
18
P
SCAR
NO
1
15
2701
1518
1900
HIGH
5
490
NFR
ORIGIN
NO
-1
6
2702
1518
1900
HIGH
5
2010
NFR
ORIGIN
NO
¦ 1
7
2703
1518
1900
HIGH
5
450
NFR
ORIGIN
NO
-1
10
2704
1518
1900
HIGH
5
472
NFR
ORIGIN
NO
-1
8
2705
1518
1900
H]GH
5
764
NFR
ORIGIN
NO
-1
4
"'2801"
1754 '
1903"'
LOW
2
21
P
"scar "
'" NO"
"io
5""'
2802
1820
1903
MOD
2
17
P
SCAR
NO
17
4
2803
1720
1903
LOW
2
14
P
SCAR
NO
23
5
2804
1818
1903
MOD
2
18
P
SCAR
NO
8
5
2901
1800
1900
LOW
~2
i*3
CFi'o"""*
SCAR
YES
90
6
""3001"
¦"'i860 "
1900 "
-j-—
" 2
6
CFI(l)
SCAR
NO
7
14
¦ 3jo,
' ""1590
1*900"'
LOW
2
11
MFR1
SCAR
™ YES'
"4
n"
3102
1600
1900
LOW
2
16
MFRJ
SCAR
YES
4
11
3103
1640
1900
LOW
3
49
MFRJ
SCAR
YES
3
4
3104
1660
1900
LOW
2
14
MFRJ
SCAR
YES
4
7
3105
1570
1900
LOW
3
43
MFRJ
SCAR
YES
4
7
3106
1560
1900
LOW
2
10
MFRJ
SCAR
YES
4
13
3107
1630
1900
LOW
2
18
MFRJ
SCAR
YES
4
4
3108
1590
1900
LOW
2
19
MFRJ
SCAR
YES
4
10
3109
1760
1900
LOW
2
16
MFRJ
SCAR
YES
4
3
3110
1790
1900
LOW
2
11
MFRJ
SCAR
YES
4
11
3111
1650
1900
LOW
2
28
MFR1
SCAR
YES
4
4
3112
1790
1900
LOW
2
31
MFRJ
SCAR
YES
3
5
3113
1770
1900
LOW
2
25
MFRJ
SCAR
YES
2
5
3114
1730
1900
LOW
2
18
MFRJ
SCAR
YES
4
9
3115
1660
1900
LOW
2
9
MFRJ
SCAR
YES
4
12
¦¦"3201
1690 "
• ••
MOD
4
""l
CFI(9)
SCAR
YES
7
3
3202
1870
1900
MOD
4
-1
CF1(2)
SCAR
YES
4
2
3301
1862
1900
LOW
2
17
CFIO
SCAR
NO
6
3
3302
1895
1900
LOW
2
2
CFIO
SCAR
NO
7
4
3303
1890
1900
LOW
2
10
CFIO
SCAR
NO
6
1
3401
1554
1*842 ""
""low
2
-i
" CFi(i700)""
SCAR
YES"
"48
*61
3501
1440
1904
MOD
3
155
"cFio
BOTH '
NO"
27
4
3601
" 1770
1900" "
MOD
3
-1
CF1(90)
SCAR
no"
2
2 '
3602
1700
1900
MOD
3
-1
CFI(90)
SCAR
NO
3
2
3603
1860
1900
MOD
3
-1
CF1(90)
BOTH
NO
4
2
3604
1771
1900
MOD
3
-1
CF1(90)
SCAR
NO
1
1
3605
-1
1900
MOD
3
-1
CF1(90)
BOTH
no
-1
0
3606
-1
1900
MOD
3
-1
CF1(90)
BOTH
no
-1
0
3607
1750
1900
MOD
3
-1
on (90)
BOTH
NO
-1
2
" 3701 '"
1777""
1854 "
LOW
2
22
CFio"
SCAR
NO
2
5
3702
1726
1890
LOW
1
55
p
SCAR
NO
1
4
3703
1662
1902
LOW
1
34
CFIO
SCAR
NO
2
8
3704
1734
1871
LOW
1
27
CFIO
SCAR
NO
5
6
3705
1566
1836
LOW
1
58
P
SCAR
NO
1
6
3706
1718
1865
LOW
1
49
CFIO
SCAR
NO
2
4
3707
1609
1894
LOW
1
32
CFIO
SCAR
NO
2
10
3708
1554
1795
LOW
1
48
CFIO
SCAR
NO
2
6
3709
1585
1884
LOW
1
60
CFIO
SCAR
NO
3
6
3710
1578
1886
LOW
1
31
CFIO
SCAR
NO
2
11
3711
1694
1862
LOW
1
56
CFIO
SCAR
NO
3
4
3712
1588
1877
LOW
1
74
P
SCAR
NO
1
5
380:i~"
1688
1910
MOD-
1
18
CFIO
BOTH
NO
11
36
3801
1735
1900
MOD
2
-1
CFIO 80)
BOTH
NO
11
28
3801
1668
1910
MOD-
1
6
CFI(30)
BOTH
NO
11
36
3801
1668
1910
MOD-
1
9
CF1(5)
BOTH
NO
11
36
3801
1668
1910
MOD-
1
23
P
BOTH
NO
11
36
3802
1366
1910
MOD-
1
23
CHO
BOTH
NO
46
59
3802
1366
1910
MOD-
1
-1
CFI062)
BOTH
NO
46
59
3802
1735
1900
MOD
2
-1
CFIO 80)
BOTH
NO
46
33
3802
1366
1910
MOD-
1
13
CFI(30)
BOTH
NO
46
59
3802
1366
1910
MOD-
1
20
CFI(5)
BOTH
NO
46
59
FHRECIME.DB - page 47
-------�
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Site#
4202
4203
4204
4205
4206
4207
4208
4209
4210
4211
4212
4213
4214
4215
4216
4217
4218
4219
4220
"4301"
4302
4303
4304
4305
4306
4307
4308
4309
4310
4311
4312
4313
4314
4315
4316
4317
4318
4319
4320
4321
4322
4323
4324
4325
4326
4327
4328
4329
4330
4331
4332
4333
4334
4335
4336
4337
4338
4339
4401
4402
4403
4404
4405
— Year
—
Regime
Regime
Fire freq
Frequency
Fire
Crois-
#of
#of
Stan
End
(leventy)
(char)
(yn)
compulation
evidence
dated''
Trees
Fires
1776
1860
LOW
2
-1
CF1(162)
SCAR
NO
6
-1
1697
1860
LOW
2
-1
CFI(162)
SCAR
NO
6
1697
1860
LOW
2
-1
CFK162)
SCAR
NO
6
1704
1860
LOW
2
-1
CFI<162)
SCAR
NO
6
1704
1860
LOW
2
-1
CF1( 122)
SCAR
NO
12
1737
1860
LOW
2
-1
CFK162)
SCAR
NO
6
1737
1860
LOW
2
-1
CF1 (162)
SCAR
NO
6
1797
1860
LOW
2
-1
CFK162)
SCAR
NO
6
1797
1860
LOW
2
-1
CFH162)
SCAR
NO
6
1700
1860
LOW
2
-1
CFI(162)
SCAR
NO
6
1700
1860
LOW
2
• 1
CF1(162)
SCAR
NO
6
1772
1860
LOW
2
-1
CFI(162)
SCAR
NO
6
1772
1860
LOW
2
-1
CF1( 162)
SCAR
NO
6
1710
1860
LOW
2
-1
CFI(162)
SCAR
NO
6
1710
1860
LOW
2
-1
CFI(162)
SCAR
NO
6
1695
1860
LOW
2
-1
C"FI(162)
SCAR
NO
6
1695
1860
LOW
2
-1
CF1(162)
SCAR
NO
6
1729
1860
LOW
2
-1
CF1( 162)
SCAR
NO
6
1729
1860
LOW
2
-1
CF1( 162)
SCAR
NO
6
1650
1935
MOD
1
28
NFR
BOTH""
" "no
'-l"
1650
1935
MOD
1
29
NFR
BOTH
NO
10
1650
1935
MOD
1
29
NFR
BOTH
NO
10
1650
1935
MOD
1
30
NFR
BOTH
NO
10
1650
1935
MOD
1
36
NFR
BOTH
NO
7
1650
1935
MOD
1
37
NFR
BOTH
NO
1650
1935
MOD
1
46
NFR
BOTH
NO
4
1650
1935
MOD
1
52
NFR
BOTH
NO
1650
1935
MOD
1
24
NFR
BOTH
NO
10
1650
1935
MOD
1
25
NFR
BOTH
NO
7
1650
1935
MOD
1
26
NFR
BOTH
NO
11
1650
1935
MOD
1
32
NFR
BOTH
NO
9
1650
1935
MOD
1
41
NFR
BOTH
NO
6
1650
1935
MOD
1
44
NFR
BOTH
NO
6
1650
1935
MOD
1
45
NFR
BOTH
NO
4
1650
1935
MOD
1
52
NFR
BOTH
NO
5
1650
1935
MOD
1
61
NFR
BOTH
NO
5
1650
1935
MOD
1
64
NFR
BOTH
NO
5
1650
1935
MOD
1
64
NFR
BOTH
NO
5
1650
1935
MOD
1
76
NFR
BOTH
NO
4
1650
1935
HIGH
3
131
NFR
BOTH
NO
-1
1650
1935
HIGH
3
150
NFR
BOTH
NO
1650
1935
HIGH
3
149
NFR
BOTH
NO
1650
1935
HIGH
3
149
NFR
BOTH
NO
3
1650
1935
HIGH
3
169
NFR
BOTH
NO
-1
1650
1935
HIGH
3
187
NFR
BOTH
NO
1650
1935
HIGH
3
190
NFR
BOTH
NO
1650
1935
HIGH
191
NFR
BOTH
NO
1650
1935
HIGH
3
201
NFR
BOTH
NO
1650
1935
HIGH
3
237
NFR
BOTH
NO
1650
1935
HIGH
3
252
NFR
BOTH
NO
1650
1935
HIGH
3
253
NFR
BOTH
NO
1650
1935
HIGH
3
332
NFR
BOTH
NO
1650
1935
HIGH
3
145
NFR
BOTH
NO
1650
1935
HIGH
3
164
NFR
BOTH
NO
1650
1935
HIGH
3
206
NFR
BOTH
NO
2
1650
1935
HIGH
3
255
NFR
BOTH
NO
-1
1650
1935
HIGH
3
344
NFR
BOTH
NO
1650
1935
HIGH
3
450
NFR
BOTH
NO
1714
1881
MOD
2
17
P
SCAR
YES
11
1714
1881
MOD
1
33
P
SCAR
YES
6
1714
1881
MOD
I
28
P
SCAR
YES
7
1714
1881
MOD
2
19
P
SCAR
YES
10
1714
1881
MOD
1
33
P
SCAR
YES
6
FHREGIME.DB - page 49
-------�
Year
—
Regime
Regime
Rrefreq
Frequency
fire
Cross-
#of
#of
Site#
Start
End
(seventy)
(char)
(yn)
compulation
evidence
dated''
Trees
Fires
4406
1714
1881
MOD
2
24
P
SCAR
YES
1
8
4407
1714
1881
MOD
1
33
P
SCAR
YES
1
6
4408
1714
1881
MOD
2
21
P
SCAR
YES
1
9
4409
1714
1881
MOD-
1
-1
P
SCAR
YES
1
1
4410
1714
1881
MOD
2
24
P
SCAR
YES
1
8
4411
1714
1881
MOD
1
56
P
SCAR
YES
1
4
4412
1714
1881
MOD
1
56
P
SCAR
YES
1
4
4413
1714
1881
MOD
2
6
CFI(4)
SCAR
YES
12
28
4501
1690
""1850
"'"mod""
1
"T
CF1(260)
SCAR
NO
-1
6
4502
1710
1860
MOD
1
-1
CF1(260)
SCAR
NO
-1
6
4503
1650
1870
MOD
2
-1
CFI(260)
SCAR
NO
• 1
11
4504
1700
1870
MOD
2
-1
CFI(260)
SCAR
NO
-1
13
'"'4601
1605
1864
ffi'GH"
3
88
P
ORIGIN
NO
-1
•jV
4701'"
1670
" 1900
""mod""'
...»
-1
-1
BOTH
NO
¦ 1
1
4702
1670
1900
MOD-
1
-1
-1
BOTH
NO
¦ 1
1
4801
1735
191**0*
~'"m'od""
¦~3
"'"l
CF10
both"""
"""NO
-j5
-1
4802
1735
1910
MOD
3
121
CFI0
BOTH
NO
88
-1
4803
1735
1910
MOD
3
146
CF10
BOTH
NO
15
-1
4804
1735
1910
MOD
3
-1
CF10
BOTH
NO
8
¦ 1
4805
1735
1910
MOD
3
-1
CF1(2984)
BOTH
NO
126
¦ 1
4901
1758 "
1876
'¦¦low'"'"
2
"i'i'
P
*""scar""
""yes""
*"'""i
i'i'
4902
1754
1876
LOW
2
8
P
SCAR
YES
1
16
4903
1769
1876
LOW
2
6
P
SCAR
YES
1
18
4904
1809
1861
LOW
2
17
P
SCAR
YES
1
3
4905
1824
1876
LOW
2
9
P
SCAR
YES
1
6
4906
1785
1873
LOW
2
4
P
SCAR
YES
1
20
4907
1540
1876
LOW
2
11
P
SCAR
YES
1
31
4908
1540
1876
LOW
2
5
CF1(17)
SCAR
YES
7
68
4908
1754
1876
LOW
2
2
CFI(17)
SCAR
YES
7
68
4908
1800
1876
LOW
2
2
CFI(17)
SCAR
YES
7
68
4908
1820
1876
LOW
2
2
CF1(17)
SCAR
YES
7
68
4908
1824
1869
LOW
2
2
CF1U7)
SCAR
YES
7
68
4908
1850
1865
LOW
2
1
CF1(17)
SCAR
YES
7
68
""5001
1608 "
"* "1900*
"mod""
2 "'
22"'"
"P
SCAR""
""YES"
3*i
10'
5101
" 1790 '
1*900*"
"ToW"
2
"2""
" ™'cn(40)
""SCAR'"
YES
10
61
5101
1810
1860
LOW
2
l
CFI(40)
SCAR
YES
10
-1
5101
1810
1841
LOW
2
l
CF](40)
SCAR
YES
9
25
5102
1750
1900
LOW
2
4
CF10
SCAR
YES
10
38
5102
1815
1900
LOW
2
3
CFI0
SCAR
YES
10
25
5102
1840
1890
LOW
2
2
CF10
SCAR
YES
10
22
5201
1736
186*3
LOW
2
12
P
SCAR'"
YES"
""""i
j j-
5202
1775
1863
LOW
2
5
P
SCAR
YES
1
19
5203
1713
1863
LOW
2
7
P
SCAR
YES
1
23
5204
1722
1863
LOW
2
7
P
SCAR
YES
1
19
5205
1700
1863
LOW
2
7
P
SCAR
YES
1
25
5206
1760
1863
LOW
2
5
P
SCAR
YES
1
19
5207
1755
1861
LOW
2
5
P
SCAR
YES
1
22
" 5301
1722""
1900
LOW
2
4
P
SCAR
YES
1
41
5401
1750
1900
MOD
1
18
P
SCAR
NO
2
-1
5501
1540
1860
MOD
1
-1
CFI(200)
SCAR
NO
19
-1
5501
1540
1860
MOD
1
12
P
SCAR
NO
19
-1
5502
1650
1860
MOD
1
-1
CT1(200)
SCAR
NO
20
-1
• 5502
1650
1860
MOD
1
9
P
SCAR
NO
20
-1
5503
1200
1860
MOD
1
-1
CFI(200)
SCAR
NO
15
-1
5503
1200
1860
MOD
1
10
P
SCAR
NO
15
-1
5601
1630
1847
MOD
2
6
P
SCAR
NO
1
36
5602
1509
1785
MOD
2
23
P
SCAR
NO
1
12
5603
1400
1813
MOD
2
11
P
SCAR
NO
1
40
5604
1366
1825
MOD
2
21
P
SCAR
NO
1
22
5605
1406
1754
MOD
2
17
P
SCAR
NO
1
20
5606
1520
1830
MOD
2
14
P
SCAR
NO
1
22
5607
1579
1807
MOD
2
10
P
SCAR
NO
1
24
5608
1645
1825
MOD
2
14
P
SCAR
NO
1
14
FHREGIME.DB - page 50
-------�
Year
—
Regime
Regime
Firefieq
Frequency
Fire
Cross-
#of
#of
Site #
Stan
End
(seventy)
(char)
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Year
Regime
Regime
firefrcq.
Frequency
Fue
Crois-
#of
#of
Site#
Stan
End
(teventy)
(char)
(y»s)
computation
evidence
daled''
Trees
Fires
7201
1700
1875
MOD
2
24
P
SCAR
NO
17
23
7202
1700
1875
MOD
2
15
CF1(1)
SCAR
NO
13
21
7202
1700
1799
MOD
2
16
CF1(1)
SCAR
NO
13
11
7202
1800
1875
MOD
2
14
CF1(1)
SCAR
NO
13
10
7202
1700
1875
MOD
2
6
CFl(lO)
SCAR
NO
77
21
7202
1700
1875
MOD
2
23
P
SCAR
NO
16
21
7203
1700
1875
MOD
2
17
CF1(1)
SCAR
NO
2
10
7203
1700
1799
MOD
2
13
CFl(l)
SCAR
NO
2
4
7203
1800
1875
MOD
2
19
CF1(1)
SCAR
NO
2
6
7203
1700
1875
MOD
2
9
CF1(10)
SCAR
NO
18
10
7203
1700
1875
MOD
2
21
P
SCAR
NO
7
10
7204
1700
1875
MOD
2
9
CF1(1)
SCAR
NO
10
21
7204
1500
1699
MOD
2
10
CF1(1)
SCAR
NO
1
0
7204
1700
1799
MOD
2
8
CFI(l)
SCAR
NO
10
15
7204
1800
1875
MOD
2
12
CFI(l)
SCAR
NO
10
6
7204
1700
1875
MOD
2
13
P
SCAR
NO
9
21
7205
1700
1875
MOD
2
16
CF1(1)
SCAR
NO
8
21
7205
1700
1799
MOD
2
14
CF1(1)
SCAR
NO
8
11
7205
1800
1875
MOD
2
20
CF1(1)
SCAR
NO
8
10
7205
1700
1875
MOD
2
22
P
SCAR
NO
5
21
7206
1700
1875
MOD
2
2
CF10
SCAR
NO
37
-1
7207
1700
1875
MOD
2
2
CFI0
SCAR
NO
183
-1
7301
1813
1872
MOD
2
-1
""CFI(486)
'""BOTH "
"" NO
"F"
5 "
7401
1708
""1973"
MOD
1
46
P
SCAR
YES""
20""
-1"
7401
1708
1840
MOD
1
66
P
SCAR
YES
20
-1
7401
1840
1905
MOD
1
18
P
SCAR
YES
20
-1
7401
1905
1973
MOD
1
27
P
SCAR
YES
20
-1
7401
1708
1973
MOD
1
130
P
SCAR
YES
20
-1
7402
1708
1973
MOD
1
35
P
SCAR
YES
-1
-1
7403
1708
1973
MOD
1
64
P
SCAR
YES
-1
-1
7404
1708
1973
MOD
1
38
P
SCAR
YES
-1
-1
7405
1708
1973
MOD
1
36
P
SCAR
YES
-1
-1
7406
1708
1973
MOD
1
38
P
SCAR
YES
-1
-1
7501
1757
1813
LOW
2
-1
CFI(146)
"""scar"
NO
T"
7502
1801
1863
LOW
2
21
CFI(l)
SCAR
NO
4
-1
7503
1801
1863
LOW
2
16
CFI(l)
SCAR
NO
2
-1
7504
1801
1863
LOW
2
13
CF1(1)
SCAR
NO
2
-1
7505
1801
1863
LOW
2
32
CFI(l)
SCAR
NO
3
-1
7506
1801
1863
LOW
2
13
CFI(l)
SCAR
NO
3
-1
7507
1801
1863
LOW
2
13
CFI(l)
SCAR
NO
4
-1
7508
1801
1863
LOW
2
16
CF1(1)
SCAR
NO
2
-1
7509
1801
1863
LOW
2
16
CFI(l)
SCAR
NO
2
-1
7510
1801
1863
LOW
2
6
CF1(1)
SCAR
NO
3
-1
7511
1801
1863
LOW
2
16
CF1(1)
SCAR
NO
4
-1
7512
1801
1863
LOW
2
9
CTI(l)
SCAR
NO
2
-1
7513
1801
1863
LOW
2
9
CFI(l)
SCAR
NO
2
-1
7514
1801
1863
LOW
2
5
CFI(l)
SCAR
NO
5
-1
760i""
"i8i"4"~
1889"
MOD
3"
TsH~
CTIO
"BOTH"
NO"
-l'~
»••••
7602
1889
1889
MOD
3
•1
CFIO
BOTH
NO
-1
1
7603
1752
1814
MOD
3
67
CTIO
BOTH
NO
-1
2
7604
1752
1814
HIGH
3
62
CFIO
ORIGIN
NO
-1
2
7605
1752
1814
HIGH
3
62
CTIO
ORIGIN
NO
-1
2
7606
1814
1814
MOD
3
-1
CTIO
BOTH
NO
-1
1
7607
1913
1913
HIGH
3
•1
CTIO
ORIGIN
NO
-1
1
7608
1913
1913
MOD
3
-1
CTIO
BOTH
NO
-1
1
7609
1913
1913
MOD
3
•1
CTIO
BOTH
NO
•1
1
7610
1814
1814
MOD
3
- -1
CTIO
BOTH
NO
-1
2
7611
1814
1913
MOD
3
99
CTIO
BOTH
NO
¦ 1
2
7612
1814
1814
HIGH
3
-1
CTIO
ORIGIN
NO
-1
1
7613
1814
1913
MOD
3
68
CTIO
BOTH
NO
-1
2
7614
1814
1913
MOD
3
43
CTIO
BOTH
NO
-1
2
7615
1814
1913
MOD
3
68
CTIO
BOTH
NO
-1
2
7616
1814
1913
MOD
3
68
CTIO
BOTH
NO
-1
2
FHREGIME.DB - page 53
-------�
Year
Regime
Regime
Fire freq
Frequency
Fire
Crosj-
#of
#of
Sile #
Sun
End
(sevenry)
(char)
(yn)
computation
evidence
dated''
Trees
Fires
7617
1785
1814
HIGH
3
29
CF10
ORIGIN
NO
-1
2
7618
1785
1814
HIGH
3
29
cno
ORIGIN
NO
-1
2
7619
1814
1913
HIGH
3
68
CF10
ORIGIN
NO
-1
2
7620
1814
1913
MOD
3
99
CF10
BOTH
NO
-1
2
7621
1752
1913
MOD
3
55
cno
BOTH
NO
-1
2
7622
1913
1913
HIGH
3
-1
CFI0
ORIGIN
NO
-1
2
7623
1752
1913
MOD
3
45
cno
BOTH
NO
-1
2
7624
1752
1913
MOD
3
55
cno
BOTH
NO
-1
1
7625
1752
1913
HIGH
3
125
CF10
BOTH
NO
-1
2
7701
-1
1860
LOW
2
10
p
SCAR
NO
-1
-1
7701
1860
1904
LOW
2
14
p
SCAR
NO
-1
-1
7702
-1
1860
LOW
2
14
p
SCAR
NO
-1
-1
7702
1860
1974
LOW
2
19
p
SCAR
NO
-1
-1
7801
1797
1904
LOW
2
10
p
SCAR
NO
26
-1
7802
1797
1904
LOW
2
12
p
SCAR
NO
31
-1
7901
1681
1848
MOD
3
25
CF1(5)
BOTH
NO
9
6
8001
1680
1910
HIGH
3
58
VW
ORIGIN
NO
427
-1
8101
1500
1919
HIGH
3
419
mo
ORIGIN
NO
-I
1
8102
1834
1919
MOD
3
85
mo
SCAR
NO
-1
2
8103
1541
1919
MOD
3
95
mo
SCAR
NO
-1
4
8104
1834
1914
MOD
3
80
mo
SCAR
NO
-1
2
8105
1834
1919
HIGH
3
85
mo
ORIGIN
NO
-1
1
8106
1757
1919
MOD
3
81
mo
SCAR
NO
-1
2
810?
1757
1919
MOD
3
81
mo
SCAR
NO
-1
2
8108
1772
1919
MOD
3
74
mo
SCAR
NO
-1
2
8109
1757
1919
MOD
3
81
mo
SCAR
NO
¦ 1
2
8110
1500
1919
HIGH
3
209
mo
ORIGIN
NO
-1
2
8201
1362
1962
-1 -
1
-1
-l
ORIGIN
NO
40
1
8301
1780
1940
MOD
3
63
mo
SCAR
NO
-1
4
8302
• 1
1940
MOD
3
50
mo
SCAR
NO
-1
3
8303
1780
1940
MOD
3
83
mo
SCAR
NO
-1
3
8304
-1
1940
MOD
3
111
mo
SCAR
NO
-1
3
8305
1733
1940
MOD
3
59
mo
SCAR
NO
-1
4
8306
1733
1940
MOD
3
71
mo
SCAR
NO
-1
4
8307
1900
1940
MOD
3
71
mo
SCAR
NO
-1
2
8308
1773
1940
MOD
3
-1
mo
SCAR
NO
-1
16
8401
1595
1900
MOD
3
-1
CF1(750)
SCAR
YES
14
9
8401
1595
1875
MOD
3
29
p
SCAR
YES
14
-1
8501
1765
1890
HIGH
3
-1
-l
ORIGIN
NO
-1
2
8502
1865
1890
HIGH
3
-1
-i
ORIGIN
NO
-1
1
8503
1879
1890
HIGH
3
-1
¦l
BOTH
NO
-1
1
8504
1890
1890
HIGH
3
-1
-l
ORIGIN
NO
-1
1
8601
1700
1863
MOD
3
83
CFI(I)
BOTH
NO
6
2
8602
1700
1863
MOD
3
83
mo
BOTH
NO
5
2
8603
1700
1863
MOD
3
56
mo
BOTH
NO
5
3
8604
1700
1863
MOD
3
40
CH("i)
BOTH
NO
16
3
Tror"
"™T822™
~-rss2"~
TOW
2
"" 21T "
CFIO
""" SCAR ""
"NO"
T5"~
7r- •
8701
450
1862
LOW
1
109
mo
SCAR
NO
15
14
8801
1782
1852
MOD
2
18
CF1(8)
SCAR
NO
12
5
8901
1827
1S85
MOD
2
11
CFI(19)
SCAR
NO
10
5
9001
1859
1909
MOD
3
50
mo
SCAR
NO
-1
2
9101
1630
1900
MOD
3
¦ 1
CF1(2540)
BOTH
NO
-1
9
9102
1630
1900
MOD
3
-1
CFl(3610)
BOTH
NO
-1
6
9103
1630
1900
MOD
3
-1
CF1(7320)
BOTH
NO
44
12
9201
1617
1915
MOD
3
98
P
SCAR
NO
2
8
9202
1492
1915
MOD
3
63
P
SCAR
NO
4
15
9203
1740
1915
MOD
3
37
P
SCAR
NO
3
11
9204
1734
1915
MOD
3
67
P
SCAR
NO
3
6
9205
1523
1915
MOD
3
108
P
SCAR
NO
5
9
9206
1621
1915
MOD
3
147
P
SCAR
NO
1
2
9207
1561
1915
MOD
3
71
P
SCAR
NO
1
4
9208
1746
1915
MOD
3
28
P
SCAR
NO
1
4
9209
1750
1915
MOD
3
165
P
SCAR
NO
1
1
FHREGIMEDB - page 54
-------�
Year-
Regime
Regime
Fire freq
Frequency
Fire
Cross-
#of
#of
Site #
Start
End
(seventy)
(char)
(yrc)
computation
evidence
dated'>
Trees
Fires
9210
1658
1915
MOD
3
129
P
SCAR
NO
1
2
""9301
1660
1830
LOW
2
-1
CF1(6500)
"""SCAR
"YES '
' ""16 '
'""61'
'9401
~ 1620
1890'
LOW
'2
15
P
SCAR
"""'NO' '
... .„ . .
6
' 9501
1652 '
"l886
MOD-
1
-1
"!
SCAR
"'YES
60
25
9601""'
1706 ' "
1973
MOD
3
123
NFR
SCAR
NO
-1
32
9601
1706
1900
MOD
2
5
P
SCAR
NO
-1
12
9601
1706
1973
MOD
3
36
P
SCAR
NO
-1
-1
9601
1706
1973
MOD
3
29
P
SCAR
NO
-1
-1
9601
1706
1973
MOD
3
51
P
SCAR
NO
-1
-1
9602
1706
1973
MOD
2
15
P
SCAR
NO
-1
-1
9603
1706
1973
MOD
2
11
P
SCAR
NO
-1
¦ 1
9604
1706
1973
MOD
2
10
P
SCAR
NO
-1
-1
""97*61"'
1703 '"
1832
LOW-
1
-1
CFI(9238)
SCAR
YES
-1
7
'"'9801 ""
1*735' ""
1910
HIGH
3
58
mo
BOTH
NO
8
5
9802
1735
1910
HIGH
3
175
CF10
BOTH
NO
7
2
9803
1735
1910
HIGH
3
88
CF10
BOTH
NO
7
2
9804
1735
1910
HIGH
3
88
CF10
BOTH
NO
3
2
9805
1735
1910
HIGH
3
175
CF10
BOTH
NO
5
1
9806
1735
1910
HIGH
3
175
CF10
BOTH
NO
6
1
9807
1735
1910
HIGH
3
175
CFIO
BOTH
NO
6
1
9808
1735
1910
HIGH
3
44
CF10
BOTH
NO
6
4
9809
1735
1910
HIGH
3
175
CFIO
BOTH
NO
17
1
9810
1735
1910
HIGH
3
29
CFIO
BOTH
NO
35
7
9811
1735
1910
HIGH
3
175
CFIO
BOTH
NO
7
1
9812
1735
1910
HIGH
3
44
CFIO
BOTH
NO
20
4
9813
1735
1910
HIGH
3
88
CFIO
BOTH
NO
11
3
9814
1735
1910
HIGH
3
175
CFIO
BOTH
NO
17
1
9815
1735
1910
HIGH
3
175
CFIO
BOTH
NO
9
1
9816
1735
1910
HIGH
3
88
CFIO
BOTH
NO
11
1
9817
1735
1910
HIGH
3
175
CFIO
BOTH
NO
13
1
9818
1735
1910
HIGH
3
175
CFIO
BOTH
NO
13
1
9819
1735
1910
HIGH
3
88
CFIO
BOTH
NO
11
1
9820
1735
1910
HIGH
3
175
CFIO
BOTH
NO
9
0
9821
1735
1910
HIGH
3
175
CFIO
BOTH
NO
3
1
9822
1735
1910
HIGH
3
88
CFIO
BOTH
NO
6
4
9823
1735
1910
HIGH
3
44
CFIO
BOTH
NO
2
5
9824
1735
1910
HIGH
3
88
CFIO
BOTH
NO
2
2
9825
1735
1910
HIGH
3
88
CFIO
BOTH
NO
3
2
9826
1735
1910
HIGH
3
175
CFIO
BOTH
NO
5
3
9827
1735
1910
HIGH
3
88
CFIO
BOTH
NO
2
1
9828
1735
1910
HIGH
3
175
CFIO
BOTH
NO
4
3
9901""
1714
1894 ""
LOW
1
30
P
BOTH™
NO""'
" ""'i
. . .
10001
1700
1895""'
LOW
2
"lO
P
SCAR""'
"""yes" '
„
...¦9
10002
1700
1895
LOW
2
16
P
SCAR
YES
2
9
10003
1700
1895
LOW
2
10
P
SCAR
YES
2
7
10004
1700
1895
LOW
2
18
P
SCAR
YES
2
14
10005
1700
1895
LOW
2
11
P
SCAR
YES
2
11
10006
1700
1895
LOW
2
13
P
SCAR
YES
2
15
10007
1700
1895
LOW
2
22
P
SCAR
YES
2
11
10101
1688
1911
MOD
2
16
CFIO
SCAR
YES
5
15
10102
1671
1892
MOD
2
20
CFIO
SCAR
YES
5
12
10103
1644
1902
MOD
2
16
CFIO
SCAR
YES
4
17
10201
1518
1863
MOD
3
20
CFl(2)
SCAR
NO
109
18
""i030l""
1726
1875
MOD
3
-1
CF1(368)
BOTH
NO
-1
-1
10302
1726
1875
MOD
3
-1
CF1(337)
BOTH
NO
-1
-1
10303
1726
1875
MOD
3
-1
CF1(397)
BOTH
NO
•1
-1
10304
1726
1875
MOD
3
-1
CFI(433)
BOTH
NO
-1
-1
10305
1726
1875
MOD
3
-1
CFI(286)
BOTH
NO
-1
-1
10306
1726
1875
MOD
3
-1
CF1(190)
BOTH
NO
-1
-1
10307
1726
1875
MOD
3
-1
CFI(223)
BOTH
NO
-1
•I
10308
1726
1875
MOD
3
-1
CF1(261)
BOTH
NO
-1
-1
10309
1726
1875
MOD
3
-1
CFI(410)
BOTH
NO
-1
-1
10310
1726
1875
MOD
3
¦1
CF1(257)
BOTH
NO
-1
-1
FHREGEME DB - page SS
-------�
Year-
—
Regime
Regime
Fire freq
Frequency
Fire
Cross-
«of
#of
Site#
Surt
End
(seventy)
(char)
(yi»)
computation
evidence
dued7
Trees
Fires
10311
1726
1875
MOD
3
-1
CF1(348)
BOTH
NO
-1
-1
10312
1726
1875
MOD
3
-1
CF1(3510)
BOTH
NO
• 1
-1
10401
" 1633
" 1801""
LOW
2
4
CF1(40)
SCAR
YES""
]
"l
10401
1801
1904
LOW
2
6
CF1(40)
SCAR
YES
16
-1
10401
1837
1904
LOW
2
6
CF1(40)
SCAR
YES
16
¦ 1
10402
1635
1801
LOW
2
-1
CF1(47)
SCAR
YES
5
-1
10402
1801
1904
LOW
2
CFK47)
SCAR
YES
18
-1
10402
1837
1904
LOW
2
CF1<47)
SCAR
YES
18
-1
10403
1650
1803
LOW
2
17
CFI(40)
SCAR
YES
6
-1
10403
1803
1907
LOW
2
5
CFI(40)
SCAR
YES
10
-1
10403
1837
1907
LOW
2
4
CF1(40)
SCAR
YES
10
-1
10501
'850
"¦"899"""
MOD
2
-1
CF1(259)
SCAR
YES
12
9
10501
900
949
MOD
2
CFI(259)
SCAR
YES
14
10
10501
950
999
MOD
2
CF1(259)
SCAR
YES
14
7
10501
1000
1049
MOD
2
CFI(259)
SCAR
YES
14
11
10501
1050
1099
MOD
2
CFI(259)
SCAR
YES
15
11
10501
1100
1149
MOD
2
CF1(259)
SCAR
YES
15
13
10501
1150
1199
MOD
2
CF1(259)
SCAR
YES
15
13
10501
1200
1249
MOD
CFK259)
SCAR
YES
16
15
10501
1250
1299
MOD
2
CFI(259)
SCAR
YES
16
12
10501
1300
1349
MOD
2
CF1(259)
SCAR
YES
17
11
10501
1350
1399
MOD
2
CF1(259)
SCAR
YES
17
13
10501
1400
1449
MOD
2
CTK259)
SCAR
YES
17
13
10501
1450
1499
MOD
2
CF1(259)
SCAR
YES
17
14
10501
1500
1549
MOD
2
CF1(259)
SCAR
YES
18
9
10501
1550
1599
MOD
2
CF1(259)
SCAR
YES
18
9
10501
1600
1649
MOD
2
CF1(259)
SCAR
YES
17
10
10501
1650
1699
MOD
2
CF1(259)
SCAR
YES
17
11
10501
1700
1749
MOD
2
CF1(259)
SCAR
YES
17
17
10501
1750
1799
MOD
2
CFN259)
SCAR
YES
16
17
10501
1800
1849
MOD
2
CFK259)
SCAR
YES
12
12
10501
1850
1899
MOD
2
CF1(259)
SCAR
YES
9
2
TttOl "
""i'664
1801
LOW
2
"i
~"CFi(65)
SCAR
""yes""
-i
'"""20"""
10601
1801
1851
LOW-
1
-l
CFI(65)
SCAR
YES
-1
0
10601
1851
1876
LOW
2
-i
CF1(65)
SCAR
YES
-1
3
10601
1604
1876
LOW
2
-l
CF1(65)
SCAR
YES
-1
23
10602
1606
1801
LOW
2
u
CF1(32)
SCAR
YES
-1
19
10602
1801
1851
LOW
2
25
CF1(32)
SCAR
YES
• 1
1
10602
1851
1876
LOW
2
9
CFI(32)
SCAR
YES
-I
6
10602
1606
1894
LOW
2
12
CF1(32)
SCAR
YES
¦ 1
26
10603
1632
1801
LOW
2
11
CF1(8)
SCAR
YES
-1
16
10603
1801
1851
LOW
2
10
CF1(8)
SCAR
YES
-1
4
10603
1852
1882
LOW
2
6
CF1(8)
SCAR
YES
-1
6
10603
1604
1876
LOW
2
10
CF1(8)
SCAR
YES
-1
26
10604
1604
1801
LOW
2
-1
CF1(356)
SCAR
YES
-1
32
10604
1801
1851
LOW
2
-1
CF1(356)
SCAR
YES
-1
5
10604
18SI
1894
LOW
2
-1
CF1(356)
SCAR
YES
-1
13
10604
1604
1894
LOW
2
-1
CF1(356)
SCAR
YES
-1
50
10701
1640
1907
LOW
1
79
P
SCAR
NO
1
3
10702
1640
1907
LOW
2
18
P
SCAR
NO
2
13
10703
1640
1907
LOW
2
15
P
SCAR
NO
1
18
10704
1640
1907
LOW
1
27
P
SCAR
NO
3
5
10705
1640
1907
LOW
2
23
P
SCAR
NO
2
11
10706
1640
1907
LOW
2
18
P
SCAR
NO
2
6
10707
1640
1907
LOW
2
21
P
SCAR
NO
11
13
10801
1665
1910
-1 -
1
-1
•1
ORIGIN
NO
-1
3
10901
1836
1924
MOD
2
15
CFI(3)
BOTH
YES
13
7
10902
1797
1933
MOD
2
19
CF1(3)
BOTH
YES
17
8
10903
1740
1850
MOD
2
-1
CFK400)
BOTH
YES
14
-1
10903
1851
1934
MOD
2
-1
CFI(400)
BOTH
YES
70
-1
11001
1740
1882
MOD
3
71
CFI(l)
BOTH
NO
494
3
11002
1882
1879
MOD
3
29
CF10
BOTH
NO
555
3
11101
1880
1880
-1 •
1
-1
-1
BOTH
NO
-1
1
FHREGIME.DB - page S6
-------�
Year-
—
Regime
Regime
Rrefroj
Frequency
Fire
Cross-
#of
#of
Site #
Suit
End
(seventy)
(char)
(yrs)
compulation
evidence
dated^
Trees
Fires
ii2oi'
972
1972
MOD
3
' 250
CF1(1)
BOTH
NO
" -1
4
11202
973
1973
MOD
3
333
CF1(1)
BOTH
NO
3
11203
971
1971
MOD
3
286
(Tld)
BOTH
NO
3
11204
972
1972
MOD
3
333
CFI(l)
BOTH
NO
3
11205
974
1974
MOD
3
167
CFI(l)
BOTH
NO
6
11206
974
1974
MOD
3
154
(Tl(l)
BOTH
NO
6
11207
977
1977
MOD
3
-1
CF1(1)
BOTH
NO
-1
11208
976
1976
MOD
3
125
CFI(l)
BOTH
NO
8
11209
977
1977
MOD
3
-1
CF1(1)
BOTH
NO
¦1
11301
1775
1909
LOW
2
"T
(TI(160)
SCAR""
NO"
.... ...q
" "38"
11301
1775
1909
LOW
2
11
P
SCAR
NO
10
65
11401
1831
1899
LOW
2
6
P
SCAR
NO
1
11
11402
1846
1906
LOW
2
7
P
SCAR
NO
1
9
11403
1851
1913
LOW
2
5
P
SCAR
NO
1
13
11404
1847
1898
LOW
2
6
P
SCAR
NO
I
10
11405
1708
1885
LOW
2
10
P
SCAR
NO
1
18
11501
1740
1849
MOD
1
CFiO
BOTH'"'
'""yes""
"' ~-'V
12"
11501
1740
1987
MOD
1
II
w
BOTH
YES
-1
12
11502
1740
1987
MOD
1
10
CF10
BOTH
YES
-1
20
11502
1740
1987
MOD
1
7
W
BOTH
YES
-1
20
11503
1740
1987
MOD
1
10
CF10
BOTH
YES
¦ 1
14
11503
1740
1987
MOD
1
12
W
BOTH
YES
-1
14
11504
1740
1987
MOD
1
4
CF10
BOTH
YES
-1
46
11504
1740
1987
MOD
1
4
W
BOTH
YES
-1
46
llsOl '
' 1645
"1855"
MOD
3
-1
CFI(250)
SCAR""'
NO"
~ . ^ ...
7"
FHREGIME DB - page 57
-------�
APPENDIX E: MAPS OF SITE LOCATION BY STATE
The locations of the sites in the database are mapped on the following pages by state. The data
labels are the combined reference and site numbers (e.g. the second site from the fortieth
reference has a reference/site number of 4002). (See also figure 1 above for site locations mapped
for the entire western U.S. without reference/site number labels).
58
-------�
Fire History Database Site Locations
4001
10101 .10102
10103
/ 7501 - 7514
Utah
11405
4901 - 4908
5201 - 5207
5301
11401
11403
11402
3901 - 3905
3906
1604
>601
Arizona
-------�
Fire History Database Site Locations
* 7401 - 7406
9201 - 9210 ~4601
~ 9701
6301
0201 * 4
6201 - 6202
5102
Colorado
9301
5TO1
10403
1040210401
' 9001
9001 <
New Mexico
3401
-------�
Fire History Database Site Locations
11101
,11201 - 11200
11S01 - 11504
6001
4401 - 4413
10301 - 10312
.11601
11001. 11002
f10901 - 10903
8901
.7901
7201 - 7206
.6801 - 6003
. 9fl(B - 9614
4702
- 7042
0406 - 6412
6403 - 6406
6402
"*6401
10707
Nevada
+64m California
-------�
Fire History Database Site Locations
2404 2401
2402
2405
101
2101 - 2125
2403
2506 25092501
* * * 2505
2593 ~ 2510
~ 2507
2508
3202
1902
1903 1901
2201
3115
Washington
801
1602 - 1606
2602
2601 / * 2603
1004 1001
2604^*1002
2701 - 2705
: 1003
t-1201 * 1601
1202 2801 - 2804
706
~J302 1402
~201 *1401
*3114
3113
3112
,3106
* 3108
311
301
1 ^ 2301 - 2303
3109 -.2304
*3111 2305
3102 3103
~ ~ ~ 3104
3101 3105
3107
2901
14(53
1101 *1®01
udb1,02
2001
~
601 - 603
\ 401 - 4°? ,406
Oregon
-------�
Fire History Database Site Locations
.4339
3601
,3801 -
3708
Montana
- 0913
JJOB J™
J7ff?
re
3711 '8401
SKN ~ 10801
/9103
9102
8501 - 8504*6611
8609 - 6610 ~ 6606 ~ 6808
, 6604 - 6805
660
~ 6602 **6603
4 8612 - 6613
Wyoming
-------�
Fire History Database Site Locations
3301 - 3303
Kansas
3401
B001
Texas
-------�
Fire History Database Site Locations
6801
7301
9901
S901
9401
380*1
3607
6801
6501
Minnesota
3n/"^7801 - 7625
10001 - 1000?
,4503
4801
4S02
.4904
Idaho
-------�
APPENDIX F: MAPS OF FIRE REGIME (SEVERITY) BY STATE
The maps in this appendix display fire regimes based on fire severity.
Explanation of map symbols:
-1 No data
1 Low severity
2 Moderate severity
3 High severity
66
-------�
Fire Regime (Severity)
z
z z
12
i Utah
i
Arizona
-------�
Fire Regime (Severity)
2
"'2
2
Colorado
New Mexico
41—
-------�
Fire Regime (Severity)
Nevada
California
-------�
Fire Regime (Severity)
Washington
Oregon
-------�
Fire Regime (Severity)
Montana
2^
1
-1
3 2
22
Wyoming
-------�
Fire Regime (Severity)
Kansas
Texas
-------�
Fire Regime (Severity)
Minnesota
Idaho
-------�
APPENDIX G: MAPS OF FIRE REGIME (CHARACTERISTICS) BY STATE
The maps in this appendix display fire regimes based on frequency and severity characteristics
(Heinselman 1973).
Explanation of map symbols:
Fire regime
number Descripoon of the regime
-1 No d-T-i
0 No natural fire (or very little)
1 Infrequent light surface fires (more than 25 year intervals)
2 Frequent light surface fires (1-25 year return intervals)
3 Infrequent, severe surface fires (more than 25 year return intervals)
4 Short return interval crown fires (25-100 year return intervals)
5 Long return interval crown fires + severe surface fires (100-300 yr return intervals)
6 Very long return mtervaJ crown fires+severe surface fires (> 300 yr return intervals)
74
-------�
Fire Regime (Characteristics)
i i
-i
Utah
Arizona
-------�
Fire Regime (Characteristics)
-12
3
Colorado
r
New Mexico
1
-------�
Fire Regime (Characteristics)
Nevada
California
-------�
Fire Regime (Characteristics)
Montana
Wyoming
-------�
Fire Regime (Characteristics)
Washington
¦z
Oregon
-------�
Fire Regime (Characteristics)
Kansas
Texas
-------�
Fire Regime (Characteristics)
Minnesota
Idaho
-------� |