Abstract
Climate interacts with wildfire at a range of spatial and temporal scales. In this chapter I describe a conceptual model that describes how climate (a top-down control) interacts with processes of vegetation development and topography (bottom-up controls) to give rise to characteristic disturbance regimes and observed patterns of wildfire throughout North America. At the shortest timescales (synoptic to seasonal), climate influences fine fuel moisture, ignition frequency, and rates of wildfire spread. At intermediate timescales (annual to interannual), climate affects the relative abundance and continuity of fine fuels, as well as the abundance and moisture content of coarser fuels. At longer timescales (decadal to centennial) climate determines the assemblage of species that can survive at a particular location. Interactions between these species’ characteristics and the influence of climatic processes on wildfire activity give rise to the characteristic disturbance regime and vegetation structure at a given location.
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Agee, J.K. 1993. Fire ecology of Pacific Northwest forests. Washington: Island Press.
Agee, J.K. 1998. The landscape ecology of western forest fire regimes. Northwest Science 72: 24–34.
Ambaum, M.H.P., B.J. Hoskins, and D.B. Stephenson. 2001. Arctic oscillation or north atlantic oscillation? Journal of Climate 14: 3495–3507.
Andrews, P.L. 2007. BehavePlus fire modeling system: Past, present, and future. In Proceedings of seventh symposium on fire and forest meteorological society, Bar Harbor. http://ams.confex.com/ams/pdfpapers/126669_OnlinePDF.pdf. Accessed 4 Mar 2010.
Bachelet, D., J.M. Lenihan, C. Daly, R.P. Neilson, D.S. Ojima, and W.J. Parton. 2001a. MC1: A dynamic vegetation model for estimating the distribution of vegetation and associated ecosystem fluxes of carbon, nutrients, and water. General Technical Report PNW-GTR-508. Portland: U.S. Forest Service.
Bachelet, D., R.P. Neilson, J.M. Lenihan, and R.J. Drapek. 2001b. Climate change effects on vegetation distribution and carbon budget in the United States. Ecosystems 4: 164–185.
Bachelet, D., R.P. Neilson, T. Hickler, R.J. Drapek, J.M. Lenihan, M.T. Sykes, B. Smith, S. Sitch, and K. Thonicke. 2003. Simulating past and future dynamics of natural ecosystems in the United States. Global Biogeochemical Cycles 17: 14-1. doi:10.1029/2001GB001508.
Baker, W.L., T.T. Veblen, and R.L. Sherriff. 2007. Fire, fuels and restoration of ponderosa pine–Douglas fir forests in the Rocky Mountains, USA. Journal of Biogeography 34: 251–269.
Barlow, M., S. Nigam, and E.H. Berbery. 2001. ENSO, Pacific decadal variability, and U.S. summertime precipitation, drought, and stream flow. Journal of Climate 14: 2105–2128.
Beckage, B., W.J. Platt, M.G. Slocum, and B. Panko. 2003. Influence of the El Niño southern oscillation on fire regimes in the Florida Everglades. Ecology 84: 3124–3130.
Belsky, A.J., and D.M. Blumenthal. 1997. Effects of livestock grazing on stand dynamics and soils in upland forests of the interior West. Conservation Biology 11: 315–327.
Bessie, W.C., and E.A. Johnson. 1995. The relative importance of fuels and weather on fire behavior in subalpine forests. Ecology 76: 747–762.
Biondi, F., A. Gershunov, and D.R. Cayan. 2001. North Pacific decadal climate variability since 1661. Journal of Climate 14: 5–10.
Brenner, J. 1991. Southern oscillation anomalies and their relationship to wildfire activity in Florida. International Journal of Wildland Fire 1: 3–78.
Breshears, D.D., N.S. Cobb, P.M. Richd, K.P. Price, C.D. Allen, R.G. Balice, W.H. Romme, J.H. Kastens, M.L. Floyd, J. Belnap, J.J. Anderson, O.B. Myers and C.W. Meyer. 2005. Regional vegetation die-off in response to global-change-type drought. Proceedings of the National Academy of Sciences 102: 15144–15148.
Bridge, S.R., K. Miyanishi, and E.A. Johnson. 2005. A critical evaluation of fire suppression effects in the boreal forest of Ontario. Forest Science 51: 41–50.
Brooks, M.L., and J.R. Matchett. 2006. Spatial and temporal patterns of wildfires in the Mojave Desert, 1980–2004. Journal of Arid Environments 67: 148–164.
Brooks, M.L., and D.A. Pyke. 2001. Invasive plants and fire in the deserts of North America. In Proceedings of the invasive species workshop: The role of fire in the control and spread of invasive species. Fire conference 2000: The first national congress on fire ecology, prevention, and management, vol. Miscellaneous Publication No. 11, eds. K.E.M. Galley and T.P. Wilson, 1–14. Tallahassee: Tall Timbers Research Station.
Brown, P.M. 2006. Climate effects on fire regimes and tree recruitment in Black Hills ponderosa pine forests. Ecology 87: 2500–2510.
Brown, K.J., and R.J. Hebda. 2002. Ancient fires on southern Vancouver Island, British Columbia, Canada: A change in causal mechanisms at about 2,000 ybp. Environmental Archaeology 7: 1–12.
Brown, P.M., and W.D. Shepperd. 2001. Fire history and fire climatology along a 5° gradient in latitude in Colorado and Wyoming, USA. Paleobotanist 50: 133–140.
Brown, T.J., B.L. Hall, and A.L. Westerling. 2004. The impact of twenty-first century climate change on wildland fire danger in the western United States: An applications perspective. Climatic Change 62: 365–388.
Brown, K.J., J.S. Clark, E.C. Grimm, J.J. Donovan, and P.G. Mueller. 2005. Fire cycles in North American interior grasslands and their relation to prairie droughts. Proceedings of the National Academy of Sciences of the United States of America 102: 8865–8870.
Burrows, W.R., P. King, P.J. Lewis, B. Kochtubajda, B. Snyder, and V. Turcotte. 2002. Lightning occurrence patterns over Canada and adjacent United States from lightning detection network observations. Atmosphere-Ocean 40: 59–81.
Cable, D.R. 1975. Influence of precipitation on perennial grass production in the semidesert southwest. Ecology 56: 981–986.
Cayan, D.R. 1996. Interannual climate variability and snowpack in the western United States. Journal of Climate 9: 928–948.
Chen, J., S.C. Saunders, T.R. Crow, R.J. Naiman, K.D. Brosofske, G.D. Mroz, B.L. Brookshire, and J.F. Franklin. 1999. Microclimate in forest ecosystem and landscape ecology. Bioscience 49: 288–297.
Collins, B.M., P.N. Omi, and P.L. Chapman. 2006. Regional relationships between climate and wildfire-burned area in the interior West, USA. Canadian Journal of Forest Research 36: 699–709.
Countryman, C.M., M.H. McCutchan, and B.C. Ryan. 1969. Fire weather and fire behavior at the 1968 Canyon fire. Research Paper PSW-55. Berkeley: U.S. Forest Service.
Crimmins, M.A. 2006. Synoptic climatology of extreme fire weather conditions across the southwest United States. International Journal of Climatology 26: 1001–1016.
Delworth, T.L., and M.E. Mann. 2000. Observed and simulated variability in the Northern Hemisphere. Climate Dynamics 16: 661–676.
Diaz, H.F., and G.N. Kiladis. 1992. Atmospheric teleconnections associated with the extreme phases of the Southern Oscillation. In El Niño: Historical and paleoclimatic aspects of the Southern Oscillation, eds. H.F. Diaz and V. Markgraf, 7–28. Cambridge: Cambridge University Press.
Díaz-Avalos, C., D.L. Peterson, E. Alvarado, S.A. Ferguson, and J.E. Besag. 2001. Space-time modelling of lightning-caused ignitions in the Blue Mountains, Oregon. Canadian Journal of Forest Research 31: 1579–1593.
Dixon, P.G., G.B. Goodrich, and W.H. Cooke. 2008. Using teleconnections to predict wildfires in Mississippi. Monthly Weather Review 136: 2804–2811.
Dommenget, D., and M. Latif. 2002. A cautionary note on the interpretation of EOFs. Journal of Climate 15: 216–225.
Enfield, D.B. 1989. El Niño, past and present. Reviews of Geophysics 27: 159–187.
Enfield, D.B., A.M. Mestas-Nuñez, and P.J. Trimble. 2001. The Atlantic multidecadal oscillation and its relation to rainfall and river flows in the continental U.S. Geophysical Research Letters 28: 2077–2080.
Finklin, A.I. 1973. Meteorological factors in the Sundance Fire run. General Technical Report INT-6. Ogden: U.S. Forest Service.
Finney, M.A. 1998. FARSITE: Fire area simulator–model development and evaluation. Research Paper RMRS-RP_004. Ogden: U.S. Forest Service.
Finney, M.A. 1999. Mechanistic modelling of landscape fire patterns. In Spatial modeling of forest landscape change: Approaches and applications, eds. D.J. Mladenoff and W.L. Baker, 186–209. Cambridge: Cambridge University Press.
Flannigan, M.D., and J.B. Harrington. 1988. A study of the relation of meteorological variables to monthly provincial area burned by wildfire in Canada (1953–1980). Journal of Applied Meteorology 27: 441–452.
Flannigan, M.D., and C.E. van Wagner. 1991. Climate change and wildfire in Canada. Canadian Journal of Forest Research 21: 66–72.
Flannigan, M.D., B.J. Stocks, and B.M. Wotton. 2000. Climate change and forest fires. The Science of the Total Environment 262: 221–229.
Flannigan, M., I. Campbell, M. Wotton, C. Carcaillet, P. Richard, and Y. Bergeron. 2001. Future fire in Canada’s boreal forest: Paleoecology results and general circulation model–regional climate model simulations. Canadian Journal of Forest Research 31: 854–864.
Fons, W.T. 1946. Analysis of fire spread in light forest fuels. Journal of Agricultural Research 72: 93–121.
Franklin, J.F., K. Cromack, W. Denison, A. McKee, C. Maser, J. Sedell, F. Swanson, and G. Juday. 1981. Ecological characteristics of old-growth Douglas-fir forests. General Technical Report PNW-118. Portland: U.S. Forest Service.
Gedalof, Z., and D.J. Smith. 2001. Interdecadal climate variability and regime-scale shifts in Pacific North America. Geophysical Research Letters 28: 1515–1518.
Gedalof, Z., N.J. Mantua, and D.L. Peterson. 2002. A multi-century perspective of variability in the Pacific Decadal Oscillation: new insights from tree rings and coral. Geophysical Research Letters 29: 4. doi:10.1029/2002GL015824.
Gedalof, Z., D.L. Peterson, and N.J. Mantua. 2005. Atmospheric, climatic and ecological controls on extreme wildfire years in the northwestern United States. Ecological Applications 15: 154–174.
Gedalof, Z., M.G. Pellatt, and D.J. Smith. 2006. From prairie to forest: Three centuries of environmental change at Rocky Point, Vancouver Island, BC. Northwest Science 80: 34–46.
Gershunov, A., and T.P. Barnett. 1998. Interdecadal modulation of ENSO teleconnections. Bulletin of the American Meteorological Society 79: 2715–2725.
Gillett, N.P., F.W. Zwiers, A.J. Weaver, and M.D. Flannigan. 2004. Detecting the effect of climate change on Canadian forest fires. Geophysical Research Letters 31: 4. doi:10.1029/2004GL020876.
Guyette, R.P., M.A. Spetich, and M.C. Stambaugh. 2006. Historic fire regime dynamics and forcing factors in the Boston Mountains, Arkansas, USA. Forest Ecology and Management 234: 293–304.
Hamilton, K. 1988. A detailed examination of the extratropical response to tropical El Niño / Southern Oscillation events. Journal of Climatology 8: 67–86.
Hargrove, W.W., R.H. Gardner, M.G. Turner, W.H. Romme, and D.G. Despain. 2000. Simulating fire patterns in heterogeneous landscapes. Ecological Modelling 135: 253–263.
Hessl, A., D. McKenzie, and R. Schellhaas. 2004. Drought and Pacific decadal oscillation linked to fire occurrence in the inland Pacific Northwest. Ecological Applications 14: 425–442.
Heyerdahl, E.K., L.B. Brubaker, and J.K. Agee. 2001. Spatial controls of historical fire regimes: A multiscale example from the interior West, USA. Ecology 82: 660–678.
Heyerdahl, E.K., D. McKenzie, L.D. Daniels, A.E. Hessl, J.S. Littell, and N.J. Mantua. 2008. Climate drivers of regionally synchronous fires in the inland northwest (1651–1900). International Journal of Wildland Fire 17: 40–49.
Huffines, G.R., and R.E. Orville. 1999. Lightning ground flash density and thunderstorm duration in the continental United States: 1989–96. Journal of Applied Meteorology 38: 1013–1019.
Johnson, E.A. 1992. Fire and vegetation dynamics: Studies from the North American boreal forest. Cambridge: Cambridge University Press.
Johnson, E.A., and D.R. Wowchuk. 1993. Wildfires in the southern Canadian Rocky Mountains and their relationship to mid-tropospheric anomalies. Canadian Journal of Forest Research 23: 1213–1222.
Johnson, E.A., K. Miyanishi, and S.R.J. Bridge. 2001. Wildfire regime in the boreal forest and the idea of suppression and fuel buildup. Conservation Biology 15: 1554–1557.
Jones, P.D., and M.E. Mann. 2004. Climate over past millennia. Reviews of Geophysics 42: 42. doi:10.1029/2003RG000143.
Karl, T.R. 1985. Perspective on climate change in North America during the twentieth century. Physical Geography 6: 207–229.
Keeley, J.E. 2002. Native American impacts on fire regimes of the California coastal ranges. Journal of Biogeography 29: 303–320.
Keeley, J.E., and C.J. Fotheringham. 2002. Historic fire regime in southern California shrublands. Conservation Biology 15: 1536–1548.
Keeley, J.E., C.J. Fotheringham, and M. Morais. 1999. Reexamining fire suppression impacts on brushland fire regimes. Science 284: 1829–1832.
Keeley, J.E., C.J. Fotheringham, and M.A. Moritz. 2004. Lessons from the October 2003 wildfires in southern California. Journal of Forestry 102: 26–31.
Kerr, R.A. 2000. A North Atlantic climate pacemaker for the centuries. Science 288: 1984–1985.
Kiladis, G.N., and H.R. Diaz. 1989. Global climatic anomalies associated with extremes in the Southern Oscillation. Journal of Climate 2: 1069–1090.
Kitzberger, T., T.W. Swetnam, and T.T. Veblen. 2001. Inter-hemispheric synchrony of forest fires and the El Niño-southern oscillation. Global Ecology and Biogeography 10: 315–326.
Kitzberger, T., P.M. Brown, E.K. Heyerdahl, T.W. Swetnam, and T.T. Veblen. 2007. Contingent Pacific-Atlantic Ocean influence on multicentury wildfire synchrony over western North America. Proceedings of the National Academy of Sciences 104: 543–548.
Knapp, P.A. 1995. Intermountain West lightning-caused fires: Climatic predictors of area burned. Journal of Range Management 48(8): 5–91.
Knapp, P.A. 1998. Spatio-temporal patterns of large grassland fires in the intermountain West, U.S.A. Global Ecology and Biogeography 7: 259–272.
Krawchuk, M.A., S.G. Cumming, M.D. Flannigan, and R.W. Wein. 2006. Biotic and abiotic regulation of lightning fire initiation in the mixedwood boreal forest. Ecology 87: 458–468.
Kurz, W.A., and M.J. Apps. 1999. A 70-year retrospective analysis of carbon fluxes in the Canadian forest sector. Ecological Applications 9: 526–547.
Kurz, W.A., G. Stinson, G.J. Rampley, C.C. Dymond, and E.T. Neilson. 2008. Risk of natural disturbances makes future contribution of Canada’s forests to the global carbon cycle highly uncertain. Proceedings of the National Academy of Sciences of the United States of America 105: 1551–1555.
Latham, D., and E. Williams. 2001. Lightning and forest fires. In Forest fires: Behaviour and ecological effects, eds. E.A. Johnson and K. Miyanishi, 375–418. San Diego: Academic.
Le Goff, H., M.D. Flannigan, Y. Bergeron, and M.P. Girardin. 2007. Historical fire regime shifts related to climate teleconnections in the Waswanipi area, central Quebec, Canada. International Journal of Wildland Fire 16: 607–618.
Littell, J.S., D. McKenzie, D.L. Peterson and A.L. Westerling. 2009. Climate and wildfire area burned in western U.S. ecoprovinces, 1916–2003. Ecological Applications 19: 1003–1021.
Logan, J.A., and J.A. Powell. 2001. Ghost forests, global warming, and the mountain pine beetle (Coleoptera: Scolytidae). American Entomologist 47: 160–173.
Lopez, R.E., and R.L. Holle. 1986. Diurnal and spatial variability of lightning activity in northeastern Colorado and central Florida during the summer. Monthly Weather Review 114: 1288–1312.
Lyons, W.A., M. Uliasz, and T.E. Nelson. 1998. Large peak current cloud-to-ground lightning flashes during the summer months in the contiguous United States. Monthly Weather Review 126: 2217–2233.
Macias Fauria, M., and E.A. Johnson. 2006. Large-scale climatic patterns control large lightning fire occurrence in Canada and Alaska forest regions. Journal of Geophysical Research 111: 17. doi:10.1029/2006JG000181.
Macias Fauria, M., and E.A. Johnson. 2008. Climate and wildfires in the North American boreal forest. Philosophical Transactions of the Royal Society of London. Series B: Biological Sciences 363: 2317–2329.
Madany, M.H., and N.E. West. 1983. Livestock grazing-fire regime interactions within montane forests of Zion National Park, Utah. Ecology 64: 661–667.
Malamud, B.D., J.D.A. Millington, and G.L.W. Perry. 2005. Characterizing wildfire regimes in the United States. Proceedings of the National Academy of Sciences of the United States of America 102: 4694–4699.
Mantua, N.J., S.R. Hare, Y. Zhang, J.M. Wallace, and R.C. Francis. 1997. A Pacific interdecadal climate oscillation with impacts on salmon production. Bulletin of the American Meteorological Society 78: 1069–1079.
McCabe, G.J., and M.D. Dettinger. 2002. Primary modes and predictability of year-to-year snowpack variations in the western United States from teleconnections with Pacific Ocean climate. Journal of Hydrometeorology 3: 13–25.
McKenzie, D., Z. Gedalof, D.L. Peterson, and P. Mote. 2004. Climatic change, wildfire, and conservation. Conservation Biology 18: 890–902.
McPhaden, M.J., S.E. Zebiak, and M.H. Glantz. 2006. ENSO as an integrating concept in Earth science. Science 314: 1740–1745.
Meehl, G.A., W.M. Washington, W.D. Collins, J.M. Arblaster, A. Hu, L.E. Buja, W.G. Strand, and H. Teng. 2005. How much more global warming and sea level rise? Science 307: 1769–1773.
Meisner, B.N. 1993. Correlation of National Fire Danger Rating System indices and weather data with fire reports. Final Report, Interagency Agreement No. R500A20021. Riverside: U.S. Forest Service.
Meyn, A., P.S. White, C. Buhk, and A. Jentsch. 2007. Environmental drivers of large, infrequent wildfires: The emerging conceptual model. Progress in Physical Geography 31: 287–312.
Miller, N.L., and N.J. Schlegel. 2006. Climate change projected fire weather sensitivity: California Santa Ana wind occurrence. Geophysical Research Letters 33: 5. doi:10.1029/2006GL025808.
Minobe, S. 1999. Resonance in bidecadal and pentadecadal climate oscillations over the North Pacific: Role in climatic regime shifts. Geophysical Research Letters 26: 855–858.
Moore, R.D. 1996. Snowpack and runoff responses to climatic variability, southern Coast Mountains, British Columbia. Northwest Science 70: 321–333.
Morris, W.G. 1934. Lightning storms and fires on the national forests of Oregon and Washington. Monthly Weather Review 62: 370–375.
Namias, J. 1976. Some statistical and synoptic characteristics associated with El Niño. Journal of Physical Oceanography 6: 130–138.
Namias, J., and D.R. Cayan. 1981. Large-scale air-sea interactions and short-scale climatic fluctuations. Science 214: 869–876.
Nash, C.H., and E.A. Johnson. 1996. Synoptic climatology of lightning-caused forest fires in subalpine and boreal forests. Canadian Journal of Forest Research 26: 1859–1874.
Neilson, R.P., and R.J. Drapek. 1998. Potentially complex biosphere responses to transient global warming. Global Change Biology 4: 505–521.
Nkemdirim, L.C., and D. Budikova. 1996. The El Niño southern oscillation has a truly global impact: A preliminary report on the ENSO project of the commission on climatology. International Geographical Union Bulletin 46: 27–37.
Norman, S.P., and A.H. Taylor. 2003. Tropical and north Pacific teleconnections influence fire regimes in pine-dominated forests of north-eastern California, USA. Journal of Biogeography 30: 1081–1092.
Podur, J., D.L. Martell, and F. Csillag. 2003. Spatial patterns of lightning-caused forest fires in Ontario, 1976–1998. Ecological Modelling 164: 1–20.
Price, C., and D. Rind. 1994. The impact of a 2 × CO2 climate on lightning-caused fires. Journal of Climate 7: 1484–1494.
Ropelewski, C.F., and M.S. Halpert. 1986. North American precipitation and temperature patterns associated with the El Niño southern oscillation (ENSO). Monthly Weather Review 114: 2352–2362.
Rorig, M.L., and S.A. Ferguson. 1999. Characteristics of lightning and wildland fire ignition in the Pacific Northwest. Journal of Applied Meteorology 38: 1565–1575.
Rorig, M.L., and S.A. Ferguson. 2002. The 2000 fire season: Lightning-caused fires. Journal of Applied Meteorology 41: 786–791.
Rothermel, R.C. 1972. A mathematical model for fire spread predictions in wildland fuels. Research Paper INT-115. Ogden: U.S. Forest Service.
Rothermel, R.C. 1983. How to predict the spread and intensity of forest and range fires. General Technical Report INT-143. Ogden: U.S. Forest Service.
Running, S.W. 2008. Ecosystem disturbance, carbon, and climate. Science 321: 652–653.
Sando, R.W., and D.A. Haines. 1972. Fire weather and behavior of the Little Sioux fire. Research Paper NC-76. St. Paul: U.S. Forest Service.
Sardeshmukh, P.D. 1990. Factors affecting the extratropical anomalies associated with individual ENSO events. In International TOGA scientific conference proceedings, 85. WMO/TD-No. 379. Geneva: World Meteorological Organization.
Schimmel, J., and A. Granström. 1997. Fuel succession and fire behavior in the Swedish boreal forest. Canadian Journal of Forest Research 27: 1207–1216.
Schlesinger, M.E., and N. Ramankutty. 1994. An oscillation in the global climate system of period 65–70 years. Nature 367: 723–726.
Schoennagel, T., T.T. Veblen, and W.H. Romme. 2004. The interaction of fire, fuels, and climate across Rocky Mountain forests. Bioscience 54: 661–676.
Schoennagel, T., T.T. Veblen, W.H. Romme, J.S. Sibold, and E.R. Cook. 2005. ENSO and PDO variability affect drought-induced fire occurrence in Rocky Mountain subalpine forests. Ecological Applications 15: 2000–2014.
Schoennagel, T., T.T. Veblen, D. Kulakowski, and A. Holz. 2007. Multidecadal climate variability and climate interactions affect subalpine fire occurrence, western Colorado (USA). Ecology 88: 2891–2901.
Schroeder, M.J. 1969. Critical fire weather patterns in the conterminous United States. Technical Report WB 8. Silver Spring: Environmental Science Services Administration.
Shabbar, A., and W. Skinner. 2004. Summer drought patterns in Canada and the relationship to global sea surface temperatures. Journal of Climate 17: 2866–2880.
Sherriff, R.L., and T.T. Veblen. 2008. Variability in fire–climate relationships in ponderosa pine forests in the Colorado Front Range. International Journal of Wildland Fire 17: 50–59.
Sibold, J.S., and T.T. Veblen. 2006. Relationships of subalpine forest fires in the Colorado Front Range with interannual and multidecadal-scale climatic variation. Journal of Biogeography 33: 833–842.
Skinner, W.R., B.J. Stocks, D.L. Martell, B. Bonsal, and A. Shabbar. 1999. The association between circulation anomalies in the mid-troposphere and area burned by wildfire in Canada. Theoretical and Applied Climatology 63: 89–105.
Skinner, W.R., M.D. Flannigan, B.J. Stocks, D.L. Martell, B.M. Wotton, J.B. Todd, J.A. Mason, K.A. Logan, and E.M. Bosch. 2002. A 500 hPa synoptic wildland fire climatology for large Canadian forest fires, 1959–1996. Theoretical and Applied Climatology 71: 157–169.
Solomon, S., M.M. Qin, M. Chen, K.B. Marquis, M. Averyt, and H.L. Miller. 2007. Climate change 2007, the physical science basis: Contribution of working group I to the fourth assessment report of the intergovernmental panel on climate change. Cambridge: Cambridge University Press.
Stahle, D.W., E.R. Cook, M.K. Cleaveland, M.D. Therrell, D.M. Meko, H.D. Grissino-Mayer, E. Watson, and B.H. Luckman. 2000. Tree-ring data document 16th century megadrought over North America. Eos Transactions of the American Geophysical Union 81: 124–125.
Stephens, S.L., and B.M. Collins. 2004. Fire regimes of mixed conifer forests in the north-central Sierra Nevada at multiple spatial scales. Northwest Science 78: 12–23.
Stocks, B.J., M.A. Fosberg, T.J. Lynham, L. Mearns, B.M. Wotton, Q. Yang, J.-Z. Jin, K. Lawrence, G.R. Hartley, J.A. Mason, and D.W. McKenney. 1998. Climate change and forest fire potential in Russian and Canadian boreal forests. Climatic Change 38: 1–13.
Strauss, D., L. Bednar, and R. Mees. 1989. Do one percent of forest fires cause ninety-nine percent of the damage. Forest Science 35: 319–328.
Street, R.B., and M.E. Alexander. 1980. Synoptic weather associated with five major forest fires in Pukaskwa National Park. Reg. Int. Rep. SSD-80-2. Toronto: Environment Canada, Atmospheric Environment Service.
Swetnam, T.W., and C.H. Baisan. 1996. Historical fire regime patterns in the southwestern United States since AD 1700. In Fire effects in southwest forests: Proceedings of the second La Mesa Fire symposium, tech. ed. C.D. Allen, 11–32. General Technical Report RM-286. Fort Collins: U.S. Forest Service.
Swetnam, T.W., and J.L. Betancourt. 1990. Fire-southern oscillation relations in the southwestern United States. Science 249: 1017–1020.
Swetnam, T.W., and J.L. Betancourt. 1998. Mesoscale disturbance and ecological response to decadal climatic variability in the American Southwest. Journal of Climate 11: 3128–3147.
Thompson, D.W.J., and J.M. Wallace. 1998. The Arctic oscillation signature in the wintertime geopotential height and temperature fields. Geophysical Research Letters 25: 1297–1300.
Thompson, D.W.J., and J.M. Wallace. 2000. Annular Modes in the extratropical circulation. Part I: Month-to-month variability. Journal of Climate 13: 1000–1016.
Thompson, D.W.J., and J.M. Wallace. 2001. Regional climate impacts of the Northern Hemisphere Annular Mode. Science 293: 85–89.
Thonicke, K., S. Venevsky, S. Sitch, and W. Cramer. 2001. The role of fire disturbance for global vegetation dynamics: Coupling fire into a dynamic global vegetation model. Global Ecology and Biogeography 10: 661–677.
Torn, M.S., and J.S. Fried. 1992. Predicting the impacts of global warming on wildland fire. Climatic Change 21: 257–274.
Trenberth, K.E., G.W. Branstator, D. Karoly, A. Kumar, N.-C. Lau, and C. Ropelewski. 1998. Progress during TOGA in understanding and modeling global teleconnections associated with tropical sea surface temperatures. Journal of Geophysical Research 103: 14291–14324.
Trouet, V., A.H. Taylor, A.M. Carleton, and C.N. Skinner. 2006. Fire-climate interactions in forests of the American Pacific coast. Geophysical Research Letters 33: 5. doi:10.1029/2006GL027502.
Tymstra, C., M.D. Flannigan, O.B. Armitage, and K. Logan. 2007. Impact of climate change on area burned in Alberta’s boreal forest. International Journal of Wildland Fire 16: 153–160.
Uman, M.A. 2001. The lightning discharge. Mineola: Dover Publications.
van Mantgem, P.J., N.L. Stephenson, J.C. Byrne, L.D. Daniels, J.F. Franklin, P.Z. Fulé, M.E. Harmon, A.J. Larson, J.M. Smith, A.H. Taylor, and T.T. Veblen. 2009. Widespread increase of tree mortality rates in the western United States. Science 323: 521–524.
van Wagtendonk, J.W., and D.R. Cayan. 2008. Temporal and spatial distribution of lightning strikes in California in relation to large-scale weather patterns. Fire Ecology 4: 34–56.
Visbeck, M.H., J.W. Hurrell, L. Polvani, and H.M. Cullen. 2001. The north Atlantic oscillation: Past, present, and future. Proceedings of the National Academy of Sciences of the United States of America 98: 12876–12877.
Wallace, J.M. 2000. North Atlantic oscillation/annular mode: Two paradigms – One phenomenon. Quarterly Journal Royal Meteorological Society 126: 791–805.
Wallace, J.M., and D.S. Gutzler. 1981. Teleconnections in the geopotential height field during the Northern Hemisphere winter. Monthly Weather Review 109: 784–812.
Ward, P.C., A.G. Tithecott, and B.M. Wotton. 2001. Reply: A re-examination of the effects of fire suppression in the boreal forest. Canadian Journal of Forest Research 31: 1467–1480.
Westerling, A.L., and B.P. Bryant. 2008. Climate change and wildfire in California. Climatic Change 87(Suppl 1): S231–S249.
Westerling, A.L., and T.W. Swetnam. 2003. Interannual to decadal drought and wildfire in the Western US. Eos Transactions of the American Geophysical Union 84: 545–560.
Westerling, A.L., A. Gershunov, T.J. Brown, D.R. Cayan, and M.D. Dettinger. 2003. Climate and wildfire in the western United States. Bulletin of the American Meteorological Society 84: 595–604.
Westerling, A.L., H.G. Hidalgo, D.R. Cayan, and T.W. Swetnam. 2006. Warming and earlier spring increase western U.S. forest wildfire activity. Science 313: 940–943.
Wiedenmann, J.M., A.R. Lupo, I.I. Mokhov, and E.A. Tikhonova. 2002. The climatology of blocking anticyclones for the northern and southern hemispheres: Block intensity as a diagnostic. Journal of Climate 15: 3459–3473.
Williams, G.W. 2002. Aboriginal use of fire: Are there any “natural” plant communities? In Wilderness and political ecology: Aboriginal influences and the original state of nature, ed. C. Kay, 179–214. Salt Lake City: University of Utah Press.
Wyrtki, K. 1975. El Niño - The dynamic response of the equatorial Pacific Ocean to atmospheric forcing. Journal of Physical Oceanography 5: 572–584.
Yarnal, B., and H.F. Diaz. 1986. Relationships between extremes of the southern oscillation and the winter climate of the Anglo-American Pacific coast. Journal of Climatology 6: 197–219.
Zhang, Y., J.M. Wallace, and D. Battisti. 1997. ENSO-like interdecadal variability: 1900–1993. Journal of Climate 10: 1004–1020.
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Gedalof, Z. (2011). Climate and Spatial Patterns of Wildfire in North America. In: McKenzie, D., Miller, C., Falk, D. (eds) The Landscape Ecology of Fire. Ecological Studies, vol 213. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-0301-8_4
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