Abstract
Topography, vegetation, and climate act together to determine thespatial patterns of fires at landscape scales. Knowledge oflandscape-fire-climate relations at these broad scales (1,000s hato 100,000s ha) is limited and is largely based on inferences andextrapolations from fire histories reconstructed from finer scales. In thisstudy, we used long time series of fire perimeter data (fire atlases) and datafor topography, vegetation, and climate to evaluate relationships between large20thcentury fires and landscape characteristics in two contrastingareas: the 486,673-ha Gila/Aldo Leopold Wilderness Complex (GALWC)in New Mexico, USA, and the 785,090-ha Selway-BitterrootWilderness Complex (SBWC) in Idaho and Montana, USA. There were importantsimilarities and differences in gradients of topography, vegetation, andclimatefor areas with different fire frequencies, both within and between study areas.These unique and general relationships, when compared between study areas,highlight important characteristics of fire regimes in the Northern andSouthernRocky Mountains of the Western United States.Results suggest that amount and horizontal continuity of herbaceous fuels limitthe frequency and spread of surface fires in the GALWC, while the moisturestatus of large fuels and crown fuels limits the frequency of moderate-to-highseverity fires in the SBWC. These empirically described spatial and temporalrelationships between fire, landscape attributes, and climate increaseunderstanding of interactions among broad-scale ecosystem processes. Resultsalso provide a historical baseline for fire management planning over broadspatial and temporal scales in each wilderness complex.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abolt R.A. 1996. Surface and crown fire histories of upper elevation forests via fire scar and stand age structure analyses. MS thesis, University of Arizona, Tucson, USA.
Agee J.K. 1993. Fire ecology of Pacific Northwest forests. Island press, Covelo, California, USA.
Albini F. 1976. Estimating wildfire behavior and effects. GTR-INT-30. USDA Forest Service Intermountain Forest and Range Experiment Station, Ogden, Utah, USA.
Arno S.F. 1980. Forest fire history in the northern Rockies. Journal of Forestry 78: 460-465.
Arno S.F. 1976. The historical role of fire on the Bitterroot National Forest. RP-INT-187. USDA Forest Service Intermountain Forest and Range Experiment Station, Ogden, Utah, USA.
Arno S.F., Reinhardt E.D. and Scott J.H. 1993. Forest structure and landscape patterns in the subalpine lodgepole pine type: A procedure for quantifying past and present conditions. GTR-INT-294. USDA Forest Service Intermountain Forest and Range Experiment Station Research Station, Ogden, Utah, USA.
Baisan C.H. and Swetnam T.W. 1990. Fire history in a desert mountain range: Rincon Mountain Wilderness, Arizona. Canadian Journal of Forest Research 20: 1559-1569.
Barrett S.W. and Arno S.F. 1991. Classifying fire regimes and their topographic controls in the Selway-Bitterroot Wilderness. In: Andrews P.L. and Potts D.F. (eds), Proceedings 11thconference fire and forest meteorology. Society of American Foresters, Bethesda, Maryland, USA, pp. 299-307.
Barrett S.W. and Arno S.F. 1982. Indian fires as an ecological influence in the Northern Rockies. Journal of Forestry 80: 647-651.
Barrett S.W., Arno S.F. and Menakis J.P. 1997. Fire episodes in the inland northwest (1540-1940) based on fire history data. General Technical Report INT-GTR-370. USDA Forest Service Intermountain Forest and Range Experiment Station, Ogden, Utah, USA.
Barrows J.S. 1978. Lightning fires in southwestern forests. Final Report prepared by Colorado State University. Cooperative agreement 16-568-CA. USDA Forest Service Rocky Mountain Research Station, Ogden, Utah, USA, On file at USDA Forest Service Rocky Mountain Research Station.
Barton A.M. 1994. Gradient analysis of relationships among fire, environment and vegetation in a Southwestern USA mountain range. Bulletin of the Torrey Botanical Club 121: 121-265.
Beschta R.L. 1976. Climatology of the ponderosa pine type in central Arizona. Agricultural Experiment Station Technical Bulletin, 228. University of Arizona, Tucson, Arizona, USA.
Boyd R. 1999. Indians, fire and the land. Oregon State University Press, Corvallis, Oregon, USA.
Brown J.A.H. 1972. Hydrologic effects of a brushfire in a catchment in southeastern New South Wales. Journal of Hydrology 15: 77-96.
Brown J.K., Arno S.F., Barrett S.W. and Menakis J.P. 1994. Comparing the prescribed natural fire program with pre-settlement fires in the Selway-Bitterroot Wilderness. International Journal of Wildland Fire 4: 157-168.
Christensen N.L., Bartuska A.M., Brown J.H., Carpenter S., D’Antonio C.R., Francis R. et al. 1996. The report of the Ecological Society of America committee on the scientific basis for ecosystem management. Ecological Applications 6: 665-691.
Chou Y.H., Minnich R.A., Salazar L.A., Power J.D. and Dezzani R.J. 1990. Spatial autocorrelation of wildfire distribution in the Idyllwild quadrangle, San Jacinto Mountain, California. Photogrammeteric Engineering and Remote Sensing 56: 1507-1513.
Cook E.R., Meko D.M., Stahle D.W. and Cleaveland M.K. 1999. Drought reconstructions for continental United States. Journal of Climate 12: 1145-1162.
Cooper C.F. 1961. Pattern in ponderosa pine forests. Ecology 42: 493-499.
Cooper S.V., Neiman K.E. and Roberts D.W. 1991. Forest habitat types of northern Idaho: A second approximation. GTR-INT-236. USDA Forest Service Intermountain Forest and Range Experiment Station, Ogden, Utah, USA.
Covington W.W., Everett R.L., Steele R.W., Irwin L.I., Daer T.A. and Auclair A.N.D. 1994. Historical and anticipated changes in forest ecosystems of the Inland West of the United States. Journal of Sustainable Forestry 2: 13-63.
Covington W.W. and Moore M.M. 1994. Post settlement changes in natural fire regimes and forest structure: Ecological restoration of old-growth ponderosa pine forests. Journal of Sustainable Forestry 2: 153-181.
Daubenmire R. 1968a. Ecology of fire in grasslands. Advances in Ecological Research 5: 209-266.
Daubenmire R. 1968b. Plant Communities, A textbook of plant synecology. Harper-Row, New York, New York, USA.
Dettinger M.D., Cayan D.R., Diaz H.F. and Meko D.M. 1998. North-south precipitation patterns in western North America on interannual-to-decadal timescales. Journal of Climate 11: 3095-3111.
Engelmark O. 1987. Fire history correlations to forest type and topography in northern Sweden. Annales Botanica Fennici 24: 317-324.
ESRI 1998. Arc/Info 7.2.2 Software. Environmental Systems Research Institute, Redlands, California, USA.
Finklin A.I. 1983. Weather and climate of the Selway-Bitterroot Wilderness. University of Idaho press, Moscow, Idaho, USA.
Finney M.A. 1998. FARSITE: Fire area simulator-model development and evaluation RMRS-RP-4. USDA Forest Service Rocky Mountain Research Station, Fort Collins, Colorado, USA.
Frank E.C. and Lee R. 1966. Potential solar beam irradiation on slopes. Research Paper RM-18. USDA Forest Service Rocky Mountain Forest and Range Experiment Station, Fort Collins, Colorado, USA.
Frost W.W. 1982. Selway-Bitterroot Wilderness fire management plan. On file at USDA Forest Service. Bitterroot National Forest Supervisor’s Office, Hamilton, Montana, USA.
Fuquay D.M., Baughman R.G. and Latham D.J. 1979. A model for predicting lightning fire ignition in wildland fuels. RP-INT-217. USDA Forest Service, Intermountain Forest and Range Experiment Station, Ogden, Utah, USA.
Garcia L., Claridge C., Ewan G. and Webb H.R. 1978. Gila National Forest Annual report: Prescribed natural fire. Report on file at the USDA Forest Service. Gila National Forest Supervisor’s Office, Silver City, New Mexico, USA.
Garcia L.C. 1997. Prescribed natural fire report, Gila National Forest. Report on file at the USDA Forest Service. Gila National Forest Supervisor’s Office, Silver City, New Mexico, USA.
Greenwood W.R. and Morrison D.A. 1973. Reconnaissance geology of the Selway-Bitterroot Wilderness Area. Idaho Bureau of Mines and Geology, Moscow, Idaho, USA.
Grissino-Mayer H.D., Baisan C.H. and Swetnam T.W. 1995. Fire history in the Pineleño Mountains of southeastern Arizona: effects of human-related disturbance. In: Debano L.F., Ffolliott P.F., Ortega-Rubio A., Gottfreid G.J., Hamre R.H. and Edminster C.B. (eds), Biodiversity and Management of the Madrean Archipelago: The sky islands of the Southwestern United States and northwestern Mexico. GTR-RM-264. USDA Forest Service Rocky Mountain Forest and Range Experiment Station, Fort Collins, Colorado, USA, pp. 399-407.
Grissino-Mayer H.D. and Swetnam T.W. 2000. Century-scale climate forcing of fire regimes in the American Southwest. The Holocene 10: 213-222.
Gruell G.E. 1985. Indian fires in the interior west, a widespread influence. In: Lotan J.E., Kilgore B.M., Fischer W.C. and Mutch R.W. (eds), Proceedings-Symposium and Workshop on Wilderness Fire. GTR-INT-182. USDA Forest Service, Intermountain Forest and Range Experiment Station, Ogden, Utah, USA.
Gruell G.E., Schmidt W.C., Arno S.F. and Reich W.J. 1982. Seventy years of vegetative change in a managed ponderosa pine forest in western Montana. GTR-INT-130. USDA Forest Service Intermountain Forest and Range Experiment Station, Ogden, Utah, USA.
Habeck J.R. 1972. Fire ecology investigations in the Selway-Bitterroot Wilderness: Historical considerations and current observations. USDA Forest Service Report INT-R1-72-001. University of Montana, Missoula, Montana, USA, On file at the University of Montana.
Habeck J.R. and Mutch R.W. 1973. Fire-dependent forests in the northern Rocky Mountains. Quaternary Research 3: 408-424.
Heyerdahl E.K., Brubaker L.B. and Agee J.K. 2001. Spatial controls of historical fire regimes: a multiscale example from the interior west, USA. Ecology 82: 660-678.
Jensen M.E. and Bourgeron P.S. 1993. Ecosystem management: principles and applications. Eastside forest health assessment. PNW-GTR-213. USDA Forest Service Pacific Northwest Research Station, Wenatchee, Washington, USA.
Johnson E.A. 1992. Fire and vegetation dynamics: studies from the North American boreal forest. Cambridge University Press, New York, New York, USA.
Kaufmann M.R., Graham R.T., Boyce D.A. Jr, Moir W.H., Perry L.R., Reynolds T. et al. 1994. An ecological basis for ecosystem management. GTR-RM-246. USDA Forest Service Rocky Mountain Forest and Range Experiment Station and Southwestern Region Forest Service, Fort Collins, Colorado, USA.
Keane R.E., Garner J.L., Schmidt K.M., Long D.G., Menakis J.P. and Finney M.A. 1998. Development of input data layers for the FARSITE fire growth model for the Selway-Bitterroot Wilderness complex-USA. RMRS GTR-3. USDA Forest Service, Rocky Mountain Research Station, Fort Collins, Colorado, USA.
Keane R.E., Mincemoyer S.A., Schmidt K.M., Menakis J.P. and Garner J.L. 2000. Mapping vegetation and fuels for fire management on the Gila National Forest. RMRS-GTR-46-CD. USDA Forest Service Rocky Mountain Research Station, Fort Collins, Colorado, USA.
Keane R.E., Morgan P. and White J. 1999. Temporal patterns of ecosystem processes of simulated landscapes in Glacier National Park Montana-USA. Landscape Ecology 14: 311-329.
Kushla J.D. and Ripple W.J. 1997. The role of terrain in a fire mosaic of a temperate coniferous forest. Forest Ecology and Management 95: 97-107.
Larsen J.A. and Delaven C.C. 1922. Climate and forest fires in Montana and northern Idaho, 1909 to 1919. Monthly Weather Review 49: 55-68.
Lough J.M. and Fritts H.C. 1987. An assessment of the possible effects of volcanic eruptions on North American climate using tree-ring data, 1602 to 1900 A.D. Climatic Change 10: 219-239.
Martin’s R.E. 1982. Fire history and its role in succession. In: Means J.E. (ed.), Forest succession and stand development research in the Northwest: proceedings of a symposium. On file at USDA Forest Service Forest Research Laboratory. Oregon State University, Corvallis, Oregon, USA, pp. 92-98.
McCabe G.J. and Dettinger C.C. 1999. Decadal variations in the strength of ENSO teleconnections with precipitation in the western United States. International Journal of Climatology 19: 1399-1410.
McKelvey K.S. and Busse K.K. 1996. Twentieth-century fire patterns on Forest Service lands. In Sierra Nevada Ecosystem Management Project: final report to congress, Assessments and scientific basis for management options. Centers for Water and Wildland Resources, University of California, Davis, USA.
Minnich R.A. 1983. Fire mosaics in southern California and northern Baja California. Science 219: 1287-1294.
Moore B. 1996. The Lochsa story, land ethics in the Bitterroot Mountains. Mountain Press Publishing Company, Missoula, Montana, USA.
Morgan P., Hardy C., Swetnam T.W., Rollins M.G. and Long D.G. 2001. Mapping fire regimes across time and space: Understanding coarse and fine-scale fire patterns. International Journal of Wildland Fire 10: 329-342.
Noble I.R. and Slayter R.O. 1980. The use of vital attributes to predict successional changes in plant communities subject to frequent disturbance. Vegetatio 43: 5-21.
Palmer W.C. 1965. Meteorological drought. Weather Bureau Research paper No. 45. US Department of Commerce, Washington, DC, USA.
Perry G.L.W. 1998. Current approaches to modeling the spread of wildland fire: a review. Progress in Physical Geography 22: 222-245.
Pfister R.D. and Arno S.F. 1980. Classifying forest habitat types based on potential climax vegetation. Forest Science 26: 52-70.
Pyne S.J., Andrews P.L. and Laven R.D. 1996. Introduction to Wildland Fire. John Wiley and Sons, New York, New York, USA.
Rollins M.G., Swetnam T.W. and Morgan P. 2001. Evaluating a Century of Fire Patterns in Two Rocky Mountain Wilderness Areas Using Digital Fire Atlases. Canadian Journal of Forest Research 31: 2107-2123.
Rollins M.G. 2000. Twentieth-Century Fire Patterns in the Gila/ Aldo Leopold Wilderness Areas, New Mexico and the Selway-Bitterroot Wilderness Area in Idaho/Montana. On file at the Laboratory of Tree-Ring Research. PhD Dissertation, University of Arizona, Tucson, USA.
Romme W.H. 1982. Fire and landscape diversity in subalpine forests of Yellowstone National Park. Ecological Monographs 52: 199-221.
Romme W.H. and Knight D.H. 1981. Fire frequency and subalpine succession along a topographic gradient in Wyoming. Ecology 62: 319-326.
Rothermel R.C. 1983. How to predict the spread and intensity of forest and range fires. GTR-INT-143. USDA Forest Service Intermountain Forest and Range Experiment Station, Ogden, Utah, USA.
Savage M. and Swetnam T.W. 1990. Early 19th century fire decline following sheep pasturing in a Navajo ponderosa pine forest. Ecology 71: 2374-2378.
Schroeder M.J. and Buck C.C. 1970. Fire weather, a guide for application of meteorological information to forest fire control operations. USDA Forest Service Agriculture Handbook 360. Government printing office, Washington, D.C., USA.
Stephenson N.L. 1990. Climatic control of vegetation distribution: the role of the water balance. The American naturalist 135: 649-670.
Strauss D., Bednar L. and Mees R. 1989. Do one percent of forest fires cause ninety-nine percent of the damage? Forest Science 35: 319-328.
Swanson F.J. 1981. Fire and geomorphic processes. In: Mooney H.A., Bonniksen J.M., Christensen N.L., Lotan J.E. and Reiners W.A. (eds), Fire regimes and ecosystem properties. GTRWO-26. USDA Forest Service Headquarters, Washington, DC, USA, pp. 410-420.
Swetnam T.W. 1993. Fire history and climate change in giant sequoia groves. Science: 262: 85-889.
Swetnam T.W. and Baisan C.H. 1996. Historical fire regime patterns in the Southwestern United States since AD 1700. In: Allen C.D. (ed.), Proceedings of the 2nd La Mesa Fire Symposium, March 29-31, 1994, Los Alamos, New Mexico. RMGTR-286. USDA Forest Service Rocky Mountain Forest and Range Research Station., Fort Collins, Colorado, USA.
Swetnam T.W. and Betancourt J.L. 1990. Fire-Southern Oscillation relations in the Southwestern United States. Science 249: 1017-1020.
Swetnam T.W. and Betancourt J.L. 1998. Mesoscale disturbance and ecological response to decadal climatic variability in the American southwest. Journal of Climate 11: 3128-3147.
Swetnam T.W. and Dieterich J.H. 1985. Fire history of ponderosa pine forests in the Gila Wilderness, New Mexico. In: Lotan J.E., Kilgore B.M., Fischer W.C. and Mutch R.W. (eds), Proceedings-symposium and workshop on wilderness fire. GTR-INT-182. USDA Forest Service Intermountain Research Station, Ogden, Utah, USA, pp. 390-397.
Turner M.G., Gardner R.H. and O’Neill R.V. 1995. Ecological dynamics at broad scales: ecosystems and landscapes. Science and Biodiversity Policy: 29-35.
Turner M.G., Romme W.H., Gardner R.H. and Hargrove W.W. 1997. Effects of fire size and pattern on early succession In Yellowstone National Park. Ecological Monographs 67: 411-433.
USDA Forest Service. 1993. National Interagency Fire Management Integrated Database (NIFMID) reference manual. US Department of Agriculture, Forest Service, Fire and Aviation Management, Washington, DC, USA.
USGS 1965. Mineral and water resources of New Mexico, US Geological Survey Bulletin 87. State Bureau of Mines and Mineral Resources, New Mexico Institute of Mining and Technology, Soccorro, New Mexico, USA.
Veblen T.T., Kitzberger T.K., Villalba R. and Donnegan J. 1999. Fire history in northern Patagonia: The roles of humans and climatic variation. Ecological Monographs 69: 47-67.
Waring R.H. and Running S.W. 1998. Forest ecosystems: Analysis at multiple scales. Academic Press, San Diego, California, USA.
Weaver H. 1951. Fire as an ecological factor in ponderosa pine forests. Journal of Forestry 49: 93-98.
Whittaker R.H. and Niering W.A. 1965. Vegetation of the Santa Catalina Mountains, Arizona: A gradient analysis of the south slope. Ecology 46: 429-452.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Rollins, M.G., Morgan, P. & Swetnam, T. Landscape-scale controls over 20th century fire occurrence in two large Rocky Mountain (USA) wilderness areas. Landscape Ecol 17, 539–557 (2002). https://doi.org/10.1023/A:1021584519109
Issue Date:
DOI: https://doi.org/10.1023/A:1021584519109