Abstract
The ecological role of fire in the modern boreal forest has been reviewed by several authors (Wright and Heinselman 1973; Wein and MacLean 1983; Johnson 1992, Payette 1992). Wildfire and climate are intimately linked (Swetnam 1993). Shorter-term weather patterns are clearly an important determinant of fire activity at daily-to-monthly time scales. At longer time scales of decades and centuries, Swetnam (1993) has shown that fire occurrence in Giant Sequoia groves was related to climate. However, other factors such as topography and fuel play a role in the fire regime. Fuel type, structure, moisture, accumulation, density, flammability, and continuity can affect the fire regime.1 An extreme example highlighting the role of fuel can be found in many deserts where fires should be frequent due to the hot and dry environment but are absent because there is no fuel. Therefore, climate controls fire directly through opportunities for ignition and spread but also through regulation of the accumulation and structure of fuel at decadal or greater time scales.
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References
Archibold, O.W., and M.R. Wilson. 1980. The natural vegetation of Saskatchewan prior to agricultural settlement. Can. J. Bot. 58:2031–2042.
Barney, R.J., and B.J. Stocks. 1983. Fire frequencies during the suppression period, pp. 45–62 in R.W. Wein and D.A. MacLean, eds. The Role of Fire in Northern Circumpolar Ecosystems. J. Wiley & Sons, New York.
Bergeron, Y. 1991. The influence of island and mainland lakeshore landscapes on boreal forest fire regimes. Ecology 72:1980–1992.
Bergeron, Y., and S. Archambault. 1993. Decreasing frequency of forest fires in the southern boreal zone of Quebec and its relation to global warming since the end of the “Little Ice Age.” The Holocene 3:255–259.
Bergeron, Y., and J. Brisson. 1990. Fire regime in red pine stands at the northern limit of the species’ range. Ecology 71:1352–1364.
Bergeron, Y., and M.D. Flannigan. 1995. Predicting the effects of climate change on fire frequency in the southeastern Canadian boreal forest. Air Water Soil Pollut. 82:437–444.
Bernabo, J.C. 1981. Quantitative estimates of temperature changes over the last 2700 years in Michigan based on pollen data. Quat. Res. 15:143–159.
Bessie, W.C., and E.A. Johnson. 1995. The relative importance of fuels and weather on fire behaviour in subalpine forests. Ecology 76:747–762.
Bird, R.D. 1961. Ecology of the Aspen Parkland of Western Canada in Relation to Land Use. Publication 1006, Research Branch, Canadian Department of Agriculture, Ottawa, Ontario, Canada.
Bonan, G.B., D. Pollard, and S.L. Thompson. 1992. Effects of boreal forest vegetation on global climate. Nature 359:716–718.
Bond, W.J., and J.J. Midgley. 1995. Kill thy neighbour: an individualistic argument for the evolution of flammability. Oikos 73:79–85.
Bryson, R.A., W.N. Irving, and J.A. Larsen. 1965. Radiocarbon and soil evidence of former forest in the southern Canadian tundra. Science 147:46–48.
Campbell, C., I.D. Campbell, C.B. Blyth, and J.H. McAndrews. 1994. Bison extirpation may have caused aspen expansion in western Canada. Ecography 17:360–362.
Campbell, I.D., and C. Campbell. 1994. The impact of late woodland land use on the forest landscape of southern Ontario. Great Lakes Geog. 1:21–29.
Campbell, I.D., and J.H. McAndrews. 1991. Cluster analysis of late Holocene pollen trends in Ontario. Can. I Bot. 69:1719–1730.
Campbell, I.D., and J.H. McAndrews. 1993. Forest disequilibrium caused by rapid Little Ice Age cooling. Nature 366:336–338.
Campbell, I.D., and J.H. McAndrews. 1995. Charcoal evidence for Indian-set fires: a comment on Clark and Royall. The Holocene 5:369–370.
Clark, J.S. 1988. Particle motion and the theory of charcoal analysis: source area, transport, deposition, and sampling. Quat. Res. 30:67–80.
Clark, J.S. 1989. Ecological disturbance as a renewal process: theory and application to fire history. Oikos 56:17–30.
Clark, J.S. 1990. Fire and climate change during the last 750 yr in northwestern Minnesota. Ecol. Mon. 60:135–159.
Clark, J.S. 1995. Climate and Indian effects on southern Ontario forests: a reply to Campbell and McAndrews. The Holocene 5:371–379.
Clark, J.S., and P.D. Royall. 1995. Transformation of a northern hardwood forest by aboriginal (Iroquois) fire: charcoal evidence from Crawford Lake, Ontario, Canada. The Holocene 5:1–9.
Clark, J.S., and P.D. Royall. 1996. Particle-size evidence for source areas of charcoal accumulation in late Holocene sediments of eastern North America. Quat. Res. 43:80–89.
Clark, J.S., B.J. Stocks, and P.J.H. Richard. 1996. Climate implications of biomass burning since the 19th century in eastern North America. Global Change Biol. 2:433–442.
COHMAP members. 1988. Climatic changes of the last 18,000 years: observations and model simulations. Science 241:1043–1052.
Cwynar, L.C. 1978. Recent history of fire and vegetation from laminated sediment of Greenleaf Lake, Algonquin Park, Ontario. Can. J. Bot. 56:10–21.
Dansereau, P-R., and Y. Bergeron. 1993. Fire history in the southern boreal forest of northwestern Quebec. Can. J. For. Res. 23:25–32.
Day, G.M. 1953. The Indian as an ecological factor in the northeastern forest. Ecology 34:329–346.
Faegri, K., Kaland, P.E., and Krzywinski, K. 1989. Textbook of Pollen Analysis, 4th ed. John Wiley & Sons, Chichester, UK.
Filion, L., D. Saint-Laurent, M. Desponts, and S. Payette. 1991. The late Holocene record of aeolian and fire activity in northern Quebec, Canada. The Holocene 1:201–208.
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 1953–80. J. Appl. Meteorol. 27:441–452.
Flannigan, M.D., and C.E. Van Wagner. 1991. Climate change and wildfire in Canada. Can. J. For. Res. 21:66–72.
Flannigan, M.D., and B.M. Wotton. 1995. Fire regime and the abundance of jack pine, pp. 625–636 in Proceedings of the 2nd International Conference on Forest Fire Research. Domingo Xavier Vegas, Coimbra, Portugal.
Foster, D.R. 1983. The history and pattern of fire in the boreal forest of southeastern Labrador. Can. J. Bot. 61:2459–2471.
Foster, D.R. 1985. Vegetation development following fire in Picea mariana (black spruce)-Pleurozium forests of south-eastern Labrador, Canada. J. Ecol. 73:517–534.
Foster, D.R., and G.A. King. 1986. Vegetation pattern and diversity in S.E. Labrador, Canada: Betula papyrifera (birch) forest development in relation to fire history and physiography. J. Ecol. 74:465–483.
Gajewski, K. 1988. Late Holocene climate changes in eastern North America estimated from pollen data. Quat. Res. 29:255–262.
Gajewski, K., M.G. Winkler, and A.M. Swain. 1985. Vegetation and fire history from three lakes with varved sediments in northwestern Wisconsin (U.S.A.). Rev. Palaeobot. Palynol. 44:277–292.
Goldberg, E.D. 1986. Black Carbon in the Environment: Properties and Distribution. Wiley, New York.
Green, D.G. 1982. Fire and stability in the postglacial forests of southwest Nova Scotia. J. Biogeog. 9:29–40.
Grimm, E.C. 1983. Chronology and dynamics of vegetation change in the prairie-woodland region of southern Minnesota, U.S.A. New Phytol. 93:311–350.
Grove, J.M. 1988. The Little Ice Age. Methuen, New York.
Gullett, D.W., and W.R. Skinner. 1992. The State of Canada’s Climate: Temperature Change in Canada1895–1991. SOE Report 92–2. Environment Canada, Ottawa, Canada.
Hu, F.S., L.B. Brubaker, and P.M. Anderson. 1993. A 12,000 year record of vegetation change and soil development from Wien Lake, central Alaska. Can. J. Bot. 71:1133–1142.
Johnson, E.A. 1992. Fire and Vegetation Dynamics: Studies from the North American Boreal Forest. Cambridge University Press, Cambridge, UK.
Johnson, E.A., G.I. Fryer, and M.J. Heathcott. 1990. The influence of man and climate on frequency of fire in the interior wet belt forest, British Columbia. J. Ecol. 78:403–412.
Khury, P. 1994. The role of fire in the development of Sphagnum-dominated peatlands in western boreal Canada. J. Ecol. 82:899–910.
Kurz, W.A., and M.J. Apps. 1994. The carbon budget of Canadian forests: a sensitivity analysis of changes in disturbance regimes, growth rates, and decomposition rates. Environ. Pollut. 83:55–61.
Kurz, W.A., and M.J. Apps. 1996. Retrospective assessment of carbon flows in Canadian boreal forests, pp. 173–182 in M.J. Apps and D.T. Price, eds. Forest Ecosystems and Forest Management and the Global Carbon Cycle. NATO ASI Series, Series I: Global Environmental Change. Springer-Verlag, Berlin.
Kurz, W.A., M.J. Apps, S.J. Beukema, and T. Lokstrum. 1995. Twentieth century carbon budgets of Canadian forests. Tellus 47B:170–177.
Landhaeusser, S.M., and R.W. Wein. 1993. Postfire vegetation recovery and tree establishment at the arctic treeline: climate-change-vegetation-response hypotheses. I Ecol. 81:665–672.
Leonard, E.M. 1986. Varve studies at Hector Lake, Alberta, Canada, and the relationship between glacial activity and sedimentation. Quat. Res. 25:199–214.
Looman, J. 1979. The vegetation of the Canadian prairie provinces. 1. An overview. Phytocoenologia 5:347–366.
MacDonald, G.M. 1987. Postglacial development of the subalpine-boreal transition forest of western Canada. J. Ecol. 75:303–320.
MacDonald, G.M., and K.J. Edwards. 1991. Holocene palynology: I. Principles, population and community ecology, palaeoclimatology. Prog. Phys. Geog. 15:261–289.
MacDonald, G.M., C.P.S. Larsen, J.M. Szeicz, and K.A. Moser. 1991. The reconstruction of boreal forest fire history from lake sediments: a comparison of charcoal, pollen, sedimentological, and geochemical indices. Quat. Sci. Rev. 10:53–71.
Malanson, G.P. 1987. Diversity, stability and resilience: effects of fire regime, pp. 49–63 in L. Trabaud, ed. The Role of Fire in Ecological Systems. SPB Academic Publishing, The Hague.
Matthews, J.V., Jr., T.W. Anderson, M. Boyko-Diakonow, R.W. Mathewes, J.H. McAndrews, R.J. Mott, P.J.H. Richard, J.C. Ritchie, and C.E. Schweger. 1989. Quaternary environments in Canada as documented by paleobotanical case histories, pp. 483–539 in R.J. Fulton, ed. Quaternary Geology of Canada and Greenland. The Geology of North America, vol. K-1. Geological Society of America, Boulder, CO.
Millspaugh, S.H., and C. Whitlock. 1995. A 750-year fire history based on lake sediment records in central Yellowstone National Park, U.S.A. The Holocene 5:283–292.
Mutch, R.W. 1970. Wildland fires and ecosystems a hypothesis. Ecology 51:1046–1051.
Nichols, H. 1967a. The post-glacial history of vegetation and climate at Ennadai Lake, Keewatin, and Lynn Lake, Manitoba (Canada). Eiszeitalter Ggw. 18:176–197.
Nichols, H. 1967b. Pollen diagrams form sub-arctic central Canada. Science 155:1665–1668.
Patterson, W.A., K.J. Edwards, and D.J. Maguire. 1987. Microscopic charcoal as a fossil indicator of fire. Quat. Sci. Rev. 6:3–23.
Payette, S. 1992. Fire as a controlling process in the North American boreal forest, pp. 144–169 in H.H. Shugart, R. Leemans, and G.B. Bonan, eds. A Systems Analysis of the Global Boreal Forest. Cambridge University Press, Cambridge, UK.
Payette, S., and R. Gagnon. 1985. Late Holocene deforestation and tree regeneration in the forest tundra of Quebec. Nature 313:570–572.
Payette, S., and C. Morneau. 1993. Holocene relict woodlands at the eastern Canadian treeline. Quat. Res. 39:84–89.
Payette, S., C. Morneau, L. Sirois, and M. Desponts. 1989. Recent fire history of the northern Quebec biomes. Ecology 70:656–673.
Prentice, I.C. 1985. Pollen representation, source area, and basin size: toward a unified theory of pollen analysis. Quat. Res. 23:76–86.
Quinby, P.A. 1987. An index to fire incidence. Can. For. Res. 17:731–734.
Ritchie, J.C. 1987. Postglacial Vegetation of Canada. Cambridge University Press, Cambridge, UK.
Sirois, L., and S. Payette. 1991. Reduced postfire tree regeneration along a boreal forestforest-tundra transect in northern Quebec. Ecology 72:619–627.
Snyder, J.R. 1984. The role of fire: much ado about nothing? Oikos 43:404–405.
Stocks, B.J. 1987. Fire potential in the spruce budworm-damaged forests of Ontario. For Chron. 63:8–14.
Strong, W.L 1977. Pre- and post-settlement palynology of southern Alberta. Rev. Palaeobot. Palynol. 23:373–387.
Swain, A.M. 1973. A history of fire and vegetation in northeastern Minnesota as recorded in lake sediments. Quat. Res. 3:423–443.
Swain, A.M. 1978. Environmental changes during the past 2000 years in north-central Wisconsin: analysis of pollen, charcoal, and seeds from varved lake sediments. Quat. Res. 10:55–68.
Swetnam, T.W. 1993. Fire history and climate change in giant Sequoia groves. Science 262:885–889.
Szeicz, J., and G.M. MacDonald. 1991. Postglacial vegetation history of oak savanna in southern Ontario. Can. J. Bot. 69:1507–1519.
Timoney, K.P., and R.W. Wein. 1991. The areal pattern of burned tree vegetation in the subarctic region of northwestern Canada. Arctic 44:223–230.
Tolonen, K. 1983. The post-glacial fire record, pp. 21–44 in R.W. Wein and D.A. MacLean, eds. The Role of Fire in Northern Circumpolar Ecosystems. J. Wiley & Sons, New York.
Vance, R.E., D. Emerson, and T. Habgood. 1983. A mid-Holocene record of vegetative change in central Alberta. Can. J. Earth Sci. 20:364–376.
Van Wagner, C.E. 1988. The historical pattern of annual area burned in Canada. For. Chron. 64:182–185.
Wein, R.W. 1989. Climate change and wildfire in northern coniferous forests: climate change scenarios, p. 169 in D.C. Maclver, H. Auld, and R. Whitewood, eds. Proceedings of the Tenth Conference on Fire and Forest Meteorology. Toronto.
Wein, R.W., and D.A. MacLean, eds. 1983. The Role of Fire in Northern Circumpolar Ecosystems. J. Wiley & Sons, New York.
Winkler, M.G. 1985. Charcoal analysis for paleoenvironmental interpretation: a chemical assay. Quat. Res. 23:313–326.
Wotton, B.M., and M.D. Flannigan. 1983. Length of the fire season in a changing climate. For. Chron. 69:187–192.
Wright, H.E., Jr., and M.L. Heinselman. 1973. The ecological role of fire in natural conifer forests of western and northern North America. Quat. Res. 3:317–513.
Zoltai, S.C. 1995. Permafrost distribution in peatlands of west-central Canada during the Holocene Warm Period 6000 years BP. Geog. Phys. Quat. 49:45–54.
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Campbell, I.D., Flannigan, M.D. (2000). Long-Term Perspectives on Fire-Climate-Vegetation Relationships in the North American Boreal Forest. In: Kasischke, E.S., Stocks, B.J. (eds) Fire, Climate Change, and Carbon Cycling in the Boreal Forest. Ecological Studies, vol 138. Springer, New York, NY. https://doi.org/10.1007/978-0-387-21629-4_9
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