Abstract
Rural communities in the northern boreal forest depend on a suite of wild species for subsistence, including large game animals, furbearers, fish, and plants. Fire is one of the primary ecological disturbances and determinants of landscape pattern in the northern boreal forest. We review responses of key boreal subsistence species to variation and change in post-fire stand age and other characteristics. Available data for 17 species indicate highly varied post-fire habitat requirements. Mosaics of differing stand ages generated by fire could therefore be most effective in supplying a suite of subsistence species to hunting-and-gathering communities. Recent and projected increases in frequency of large-fire years might produce a more homogeneous landscape dominated by younger stand ages. Increases in fire suppression around communities might also produce a more homogenous landscape, but dominated by older stand ages. Neither of these scenarios provides mixed habitats for a diverse suite of subsistence species. We suggest that one aspect of the complex suite of human–fire interactions is an understanding of wildlife and plant species’ response to fire in a subsistence region, in an effort to sustain ecosystem services critical to human well-being.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
ACIA. 2005. Arctic Climate Impact Assessment (ACIA). Cambridge University Press, Cambridge.
Adams L, Eastland W, Jandt R, Haggstrom DA. 2004. Burned area emergency stabilization and rehabilitation plan: 2004 Alaska fires. Wildlife Resource Assessment. US Geological Survey, Bureau of Land Management, Bureau of Indian Affairs, and Alaska Department of Fish and Game, Anchorage, Fairbanks, and Juneau, Alaska. http://www.ak.blm.gov/baer/plan/assessments/final_wildlifeassess.doc
Alaska Geospatial Data Center, Wildland Fire Dataset, http://agdc.usgs.gov/data/blm/fire/index.html
Alt K. 1994. Whitefish species. Wildlife notebook series. Alaska Department of Fish and Game. http://www.adfg.state.ak.us/pubs/notebook/fish/whitfish.php
Amiro BD, Stocks BJ, Alexander ME, Flannigan MD, Wotton BM 2001 Fire, climate change, carbon and fuel management in the Canadian boreal forest. Int J Wildland Fire 10:405–13.
Arseneault D, Villeneuve N, Boismenu C, Leblanc Y, Deshaye J 1997 Estimating lichen biomass and caribou grazing on the wintering grounds of northern Quebec: an application of fire history and Landsat data. J Appl Ecol 34:65–78.
Arthur SM, Krohn WB, Gilbert JR 1989 Habitat use and diet of fishers. J Wildlife Manag 53:680–8.
Bailey JK, Whitham TG 2002 Interactions among fire, aspen, and elk affect insect diversity: reversal of a community response. Ecology 83:1701–12.
Ballard WB, Krausman PR, Boe S, Cunningham S, Whitlaw HA 2000 Short-term response of Gray Wolves, Canis lupis, to wildfire in Northwestern Alaska. Can Field-Nat 114:241–7.
Barnes DM, Mallik AU 2001 Effects of Beaver, Castor canadensis, herbivory on streamside vegetation in a northern Ontario watershed. Can Field-Nat 115:9–21.
Berg EE, Henry JD, Fastie CL, De Volder AD, Matsuoka S 2006 Long-term histories of spruce beetle outbreaks in spruce forests on the western Kenai Peninsula, Alaska, and Kluane National Park and Reserve, Yukon Territory: relationships with summer temperature. Forest Ecol Manag 227:219–32.
Blanchard B, Knight RR 1990 Reactions of grizzly bears, Ursus arctos horribilis, to wildfire in Yellowstone National Park, Wyoming. Can Field-Nat 104:592–4.
Boertje RD, Kellie KA, Seaton CT, Keech MA, Young DD, Dale BW, Adams LG, Aderman AR 2007 Ranking Alaska moose nutrition: signals to begin liberal antlerless harvests. J Wildlife Manag 71:1494–506.
Bonan GB, Shugart HH 1989 Environmental factors and ecological processes in boreal forests. Annu Rev Ecol Syst 20:1–28.
Brand CJ, Keith LB, Fischer CA 1976 Lynx responses to changing snowshoe hare densities in Central Alberta. J Wildlife Manag 40:416–28.
Buskirk SW 1994. Introduction to the genus Martes. In: Buskirk SW, Harestad AS, Raphael MG, Powell RA (Eds.) Martens, sables, and fishers: biology and conservation. Cornell University Press, Ithaca and London, pp 1–10.
Buskirk SW, Powell RA 1994 Habitat ecology of fishers and American martens In: Buskirk SW, Harestad AS, Raphael MG, Powell RA (Eds.) Martens, sables, and fishers: biology and conservation. Cornell University Press, Ithaca and London, 283–96.
Calef MP, McGuire AD, Chapin FS, III. Human influences on wildfire in Alaska from 1988 to 2005: An analysis of the spatial patterns of human impacts. Earth Interact (in press).
Calmes MA, Zasada JC 1982 Some reproductive traits of four shrub species in the black spruce forest type of Alaska. Can Field-Nat 96:35–40.
Cederlund GH, Okarma H 1988 Home range and habitat use of adult female moose. J Wildlife Manag 52:336–43.
Chapin FS III, Rupp TS, Starfield AM, DeWilde LO, Zavaleta ES, Fresco N, Henkelman J, McGuire AD 2003 Planning for resilience: modeling change in human–fire interactions in the Alaskan boreal forest. Front Ecol Environ 1:255–61.
Chapin, FS, III, Trainor SF, Huntington HP, Natcher DC, Village of Huslia, Alaska. 2004. Huslia tribal gatherings on climate change and fire: January 7–10, March 8–11, and October 4–6, 2004. Summary comments about fire Tribal Council of Huslia, Western Regional Advisory Council, and University of Alaska, Fairbanks, Huslia, Alaska.
Chapin FS III, Viereck LA, Adams PC, Van Cleve K, Fastie CL, Ott RA, Mann D, Johnstone JF 2006 Successional processes in the Alaskan boreal forest In: Chapin FS III, Oswood MW, Van Cleve K, Viereck LA, Verbyla DL (Eds.) Alaska’s Changing Boreal Forest. Oxford University Press, Oxford and New York, 100–20.
Clark JS 1988. Effect of climate change on fire regimes in northwestern Minnesota. Nature 334:233–5.
Collins WB, Helm DJ 1997 Moose, Alces alces, habitat relative to riparian succession in the boreal forest, Susitna River, Alaska. Can Field-Nat 111:567–74.
Cowan IM, Mackay RH 1950 Food habits of the marten, Martes americana, in the Rocky Mountain region of Canada. Can Field-Nat 64:100–4.
Delaney K. 1994. Chinook salmon. Wildlife notebook series. Alaska Department of Fish and Game. http://www.adfg.state.ak.us/pubs/notebook/fish/chinook.php
DeWilde L, Chapin FS III 2006 Human impacts on the fire regime of interior Alaska: interactions among fuels, ignition sources, and fire suppression. Ecosystems 9:1342–53.
Duffy PA, Epting J, Graham JM, Rupp TS, McGuire AD 2007. Analysis of Alaskan burn severity patterns using remotely-sensed data. Int J Wildland Fire 16: 277–284.
Eberhart KE, Woodard PM 1987 Distribution of residual vegetation associated with large fires in Alberta. Can J Forest Res 17:1207–12.
Ellison LN 1975. Density of Alaskan spruce grouse before and after fire. J Wildlife Manag 39:468–71.
Errington PL 1963. Muskrat populations. Iowa State University Press, Ames, Iowa.
Fall JA 1990. The Division of Subsistence of the Alaska Department of Fish and Game: an overview of its research program and findings: 1980–1990. Arctic Anthropol 27:68–92.
Fisher JT, Wilkinson L 2005 The response of mammals to forest fire and timber harvest in the North American boreal forest. Mammal Rev 35:51–81.
Flannigan MD, Logan KA, Amiro BD, Skinner WR, Stocks BJ 2005 Future area burned in Canada. Climatic Change 72:1–16.
Foote MJ. 1983. Classification, description, and dynamics of plant communities after fire in the taiga of interior Alaska. Research Paper PNW-307 Research Paper PNW-307. Portland, Oregon: US Department of Agriculture, Forest Service Pacific Northwest Research Station.
Friedman BF. 1981. Fire ecology and population biology of two taiga shrubs, Lingonberry, Vaccinium vitis-idaea and Alpine Blueberry, Vaccinium uliginosum. MS Thesis. University of Alaska, Fairbanks.
Gasaway WC, Dubois SD 1985 Initial response of moose, Alces alces, to a wildfire in interior Alaska. Can Field-Nat 99:135–40.
Gasaway WC, Dubois SD, Boertje RD, Reed DJ, Simpson DT 1989 Response of radio-collared moose to a large burn in central Alaska. Can J Zool 67:325–9.
Grange WB 1932. Observations on the snowshoe hare, Lepus americanus phaeonontus Allen. J Mammal 13:1–19.
Gresswell RE 1999. Fire and aquatic ecosystems in forested biomes of North America. Trans Am Fish Soc 128:193–221.
Hakala JB, Seemel RK, Richey RA, Kurtz JE. 1971. Fire effects and rehabilitation methods: Swanson–Russian Rivers fires. In: Slaughter CW, Barney RJ, Hansen GM, Eds. Fire in the northern environment. USDA Forest Service, Pacific Northwest Forest and Range Experiment Station, Portland, Oregon, University of Alaska College (Fairbanks). pp 87–99.
Hamer D 1996 Buffaloberry, Shepherdia canadensis (L) Nutt, fruit production in fire-successional bear feeding sites. J Range Manag 49:520–9.
Harris LD 1984. The fragmented forest: island biogeography theory and the preservation of biotic diversity. University of Chicago Press, Chicago, Illinois.
Hood GA, Bayley SE, Olson W 2007 Effects of prescribed fire on habitat of beaver (Castor canadensis) in Elk Island National Park, Canada. Forest Ecol Manag 239:200–9.
Howell PJ 2001. Effects of disturbance and management of forest health on fish and fish habitat in eastern Oregon and Washington. Northwest Sci 75:157–65.
Huntington HP, Callaghan T, Fox S, Krupnik I 2004 Matching traditional and scientific observations to detect environmental change: a discussion on Arctic terrestrial ecosystems. Ambio 33:18–23.
Huntington HP, Trainor SF, Natcher DC, Huntington OH, DeWilde L, Chapin FS, III. 2006. The significance of context in community-based research: understanding discussions about wildfire in Huslia, Alaska. Ecol Soc 11(1):40. [online] URL: http://www.ecologyandsociety.org/vol11/iss1/art40/
Jandt RR 1992. Modeling moose density using remotely sensed habitat variables. Alces 28:41–57.
Johnson EA, Rowe JS 1975 Fire in the subarctic wintering ground of the Beverley Caribou Herd. Am Midland Nat 94:1–14.
Johnson WN, Paragi TF, Katnik DD. 1995. The relationship of wildland fire to lynx and marten populations and habitat in interior Alaska. Final Report U.S. Fish and Wildlife Service, Galena, Alaska.
Johnstone JF, Chapin FS III 2003 Non-equilibrium succession dynamics indicate continued northern migration of lodgepole pine. Global Change Biol 9:1401–9.
Johnstone JF, Chapin FS III 2006 Effects of burn severity on patterns of post-fire tree recruitment in boreal forests. Ecosystems 9:14–31.
Johnstone JF, Kasischke ES 2005 Stand-level effects of soil burn severity on post-fire regeneration in a recently-burned black spruce forest. Can J Forest Res 35:2151–63.
Joly K, Dale BW, Collins WB, Adams LG 2003 Winter habitat use by female caribou in relation to wildland fires in interior Alaska. Can J Zool 81:1192–201.
Kafka V, Gauthier S, Bergeron Y 2001 Fire impacts and crowning in the boreal forest: study of a large wildfire in western Quebec. Int J Wildland Fire 10:119–27.
Kasischke ES, Rupp TS, Verbyla DL 2006 Fire trends in the Alaskan boreal forest. In: Chapin FS III, Yarie J, Van Cleve K, Viereck LA, Oswood MW, Verbyla DL (Eds.) Alaska’s Changing Boreal Forest. Oxford University Press, New York, 285–301.
Kasischke ES, Turetsky M. 2006. Recent changes in the fire regime across the North American boreal region—Spatial and temporal patterns of burning across Canada and Alaska. Geophys Res Lett.
Kasischke ES, Williams D, Barry D 2002 Analysis of the patterns of large fires in the boreal forest region of Alaska. Int J Wildland Fire 11:131–44.
Keith LB, Surrendi PC 1971 Effects of fire on a snowshoe hare population. J Wildlife Manag 35:16–26.
Kelsall JP, Telfer ES, Wright TD. 1977. The effects of fire on the ecology of the Boreal Forest, with particular reference to the Canadian north: a review and selected bibliography. Canadian Wildlife Service Occasional Paper Number 32, Ottawa: Canadian Wildlife Service.
Klein DR 1982 Fire, lichens, and caribou. J Range Manag 35:390–5.
Koehler GM 1990 Population and habitat characteristics of lynx and snowshoe hares in North Central Washington. Can J Zool 68:845–51.
Koehler GM, Hornocker MG 1977 Fire effects on marten habitat in Selway-Bitterroot Wilderness. J Wildlife Manag 41:500–5.
Krupnik I, Jolly D (Eds.) 2002 The earth is faster now: indigenous observations of arctic environmental change. Arctic Research Consortium of the United States, Fairbanks, Alaska.
Latour PB, Maclean N, Poole KG 1994 Movements of martens, Martes americana, in burned and unburned taiga in the Mackenzie Valley, Northwest Territories. Can Field-Nat 108:351–4.
Lehmkuhl KL. 2000. Population dynamics and ecology of yellow-cheeked voles (Microtus xanthognathus) in early post-fire seres of interior Alaska. MS Thesis. University of Alaska, Fairbanks.
Lensink CJ, Skoog RO, Buckley JL 1955 Food habits of marten in interior Alaska and their significance. J Wildlife Manag 19:364–8.
Leopold AS, Darling FF. 1953. Effects of land use on moose and caribou in Alaska. 18th North American Wildlife Conference. pp 553–62.
Litvaitis JA, Sherburne JA, Bissonette JA 1985 Influence of understory characteristics on snowshoe hare habitat use and density. J Wildlife Manag 49:866–73.
Loranger AJ, Bailey TN, Larned WW 1991 Effects of forest succession after fire in moose wintering habitats on the Kenai Peninsula, Alaska. Alces 27:100–9.
Lotspeich FB, Mueller EW, Frey PJ. 1970. Effects of large-scale forest fires on water quality in interior Alaska. Fairbanks: US Department of the Interior, Federal Water Pollution Control Administration, Alaska Water Laboratory.
Lutz HJ. 1956. Ecological effects of forest fires in the interior of Alaska. U.S. Department of Agriculture Tech. Bull. No. 1133.
MacCracken JG, Viereck LA 1990 Browse regrowth and use by moose after fire in interior Alaska. Northwest Sci 64:11–8.
Magoun AJ. 1991. Wildfire and furbearers in the boreal forest with emphasis on marten, lynx, and their prey: an annotated bibliography. U.S. Fish and Wildlife Service—National Park Service, U.S. Department of the Interior.
Magoun AJ, Vernam DJ. 1986a. An evaluation of the Bear Creek burn as marten (Martes americana) habitat in interior Alaska. Final report, Special cooperative project AK-950-CAH-0. Fairbanks, Alaska: U.S. Bureau of Land Management and Alaska Department of Fish and Game.
Magoun AJ, Vernam DJ. 1986b. An evaluation of the Bear Creek burn as marten (Martes americana) habitat in interior Alaska. Final report, Special cooperative project AK-950-CAH-0, Fairbanks, Alaska: U.S. Bureau of Land Management and Alaska Department of Fish and Game.
Maier JAK, Ver Hoef JM, McGuire AD, Bowyer RT, Saperstein L, Maier HA 2005 Distribution and density of moose in relation to landscape characteristics: effects of scale. Can J Forest Res 35:2233–43.
Martin SK 1994. Feeding ecology of American martens and fishers In: Buskirk SW, Harestad AS, Raphael MG, Powell RA (Eds.) Martens, sables, and fishers: biology and conservation. Cornell University Press, Ithaca, New York, 297–315.
McCullough DG, Werner RA, Neumann D 1998 Fire and insects in northern and boreal forest ecosystems of North America. Annu Rev Entomol 43:107–27.
McCullough DG, Spalding S, Sturdevant D, Hicks M. 2001. Summary of technical literature examining the physiological effects of temperature on salmonids. U.S. Environmental Protection Agency Report EPA-910-D-01-005, Seattle.
Miller DR 1980. Wildfire effects on barren-ground caribou wintering on the taiga of north-central Canada In: Reimers E, Gaare E, Skjemneberg S (Eds.) The second annual international reindeer/caribou symposium. Directoratet for vilt og ferskvannsfisk, Trondheim, Norway, 84–9.
Minshall GW, Brock JT, Varley JD 1989 Wildfires and Yellowstone’s stream ecosystems. Bioscience 39:707–15.
Mironov KA 1984. Recovery of bog bilberry and cranberry after ground fires. Sov J Ecol 14:199–204.
Mowat G, Slough B 2003 Habitat preference of Canada lynx through a cycle in snowshoe hare abundance. Can J Zool 81:1736–45.
Murphy PJ, Mudd JP, Stocks BJ, Kasischke ES, Barry D, Alexander ME, French NHF 2000 Historical fire records in the North American boreal forest In: Kasischke ES, Stocks BJ (Eds.) Fire, climate change and carbon cycling in the North American boreal forests. Springer-Verlag, New York, 274–88.
Natcher DC (2004), Implications of fire policy on Native land use in the Yukon Flats, Alaska, Human Ecol 32:421–41.
Nellis CH, Wetmore SP, Keith LB 1972 Lynx–prey interactions in central Alberta. J Wildlife Manag 36:320–8.
O’Donoghue M, Boutin S, Krebs CJ, Murray DL, Hofer EJ 1998 Behavioral responses of coyotes and lynx to the snowshoe hare cycle. Oikos 82:169–83.
Osterkamp TE, Romanovsky VE 1999 Evidence for warming and thawing of discontinuous permafrost in Alaska. Permafrost Periglacial Processes 10:17–37.
Overpeck JT, Rind D, Goldberg R 1990 Climate-induced changes in forest disturbance and vegetation. Nature 343:51–3.
Paragi TF, Johnson WN, Katnik DD, Magoun AJ 1996 Marten selection of postfire seres in the Alaskan taiga. Can J Zool 74:2226–37.
Paragi TF, Johnson WN, Katnik DD, Magoun AJ 1997 Selection of post-fire seres by lynx and snowshoe hares in the Alaskan taiga. Northwestern Nat 78:77–86.
Pastor J, Naiman RJ, Dewey B, McInnes P 1988 Moose, microbes, and the boreal forest. Bioscience 38:770–7.
Peek JM 1974. Initial response of moose to a forest fire in northeastern Minnesota. Am Midland Nat 91:435–8.
Peterson RO, Wollington JD, Bailey TN 1984 Wolves of the Kenai Peninsula, Alaska. Wildlife Monogr 88:1–52.
Pickett STA, White PS (Eds.) 1985 The ecology of natural disturbance and patch dynamics. Academic Press, New York.
Pietz PJ, Tester JR 1983 Habitat selection by snowshoe hares in north central Minnesota. J Wildlife Manag 47:686–96.
Rieman B, Clayton J 1997 Wildfire and native fish: issues of forest health and conservation of sensitive species. Fisheries 22:6–15.
Romme WH, Knight DH 1982 Landscape diversity: the concept applied to Yellowstone Park. Bioscience 32:664–70.
Rowe JS 1983. Concepts of fire effects on plant individuals and species In: Wein RW, MacLean DA (Eds.) The role of fire in northern circumpolar ecosystems. John Wiley and Sons, Ltd., New York, 135–54.
Rupp TS, Olson M, Adams LG, Dale BW, Joly K, Henkelman J, Collins WB, Starfield AM 2006 Simulating the influences of various fire regimes on caribou winter habitat. Ecol Appl 16:1730–43.
Rupp TS, Starfield AM, Chapin FS, Duffy P 2002 Modeling the impact of black spruce on the fire regime of Alaskan boreal forest. Climatic Change 55:213–33.
Saperstein L, Joly K. 2001. The role of wildland fire in caribou ecology: an annotated bibliography. US Geological Survey Alaska Science Center. http://www.absc.usgs.gov/research/caribou/AnnBib-04-04-01.pdf
Schaefer JA, Pruitt WO 1991 Fire and woodland caribou in southeastern Manitoba. Wildlife Monogr 116:1–39.
Schimmel J, Granstrom A 1996 Fire severity and vegetation response in the boreal Swedish forest. Ecology 77:1436–50.
Schwartz CC, Franzmann AW 1989 Bears, wolves, moose and forest succession; some management considerations on the Kenai Peninsula. Alces 25:1–10.
Schwartz CC, Franzmann AW 1990 Interrelationship of black bears to moose and forest succession in the Northern coniferous forest. Wildlife Monogr 113:1–58.
Scott C, Brown LA, Jennings GB, Utermohle CJ. 2001. Community Profile Database for Access 2000 (version 3.12). Juneau: Alaska Department of Fish and Game, Division of Subsistence.
Scotter GW. 1971a. Fire, vegetation, soil, and barren-ground caribou relations in northern Canada. Fire in the Northern Environment, Fairbanks, Alaska. pp 209–30.
Scotter GW. 1971b. Wildfires in relation to the habitat of the barren-ground caribou in the taiga of northern Canada. Proceedings of the 10th tall timbers fire ecology conference. pp 85–105.
Serreze MC, Walsh JE, Chapin FSI, Osterkamp T, Dyurgerov M, Romanovsky VE, Oechel WC, Morison J, Zhang T, Barry RG 2000 Observational evidence of a recent change in the northern high-latitude environment. Climatic Change 46:159–207.
Sharp WM. 1971. The role of fire in ruffed grouse habitat management. Proceedings of the 10th tall timbers fire ecology conference. pp 47–61.
Skoog RO. 1968. Ecology of the caribou (Rangifer tarandus granti) in Alaska. PhD Dissertation. University of California, Berkeley.
Skuncke F. 1969. Reindeer ecology and management in Sweden. Biol Paper No 8, University of Alaska, as cited in Viereck and Schandelmeier 1980.
Slough BG 1999. Characteristics of Canada Lynx, Lynx canadensis, maternal dens and denning habitat. Can Field-Nat 113:605–8.
Slough BG, Sadleir RMFS 1977 A land capability classification for beaver (Castor canadensis Kuhl). Can J Zool 55:1324–35.
Spencer DL, Hakala J. 1964. Moose and fire on the Kenai. Proceedings of the 3rd tall timbers fire ecology conference. pp 10–33.
Stephenson RO. 1984. The relationship of fire history to furbearer populations and harvest. Final Report, W-22-2, Job 7.13R, Juneau: Alaska Department of Fish and Game.
Stocks BJ, Fosberg MA, Wotton MB, Lynham TJ, Ryan KC 2000 Climate change and forest fire activity in North American boreal forests. In: Kasischke ES, Stocks BJ (Eds.) Fire, Climate Change, and Carbon Cycling in the Boreal Forest. Springer-Verlag, New York. 368–76.
Thomas DC, Barry SJ, Alaie G 1996 Fire-caribou-winter range relationships in northern Canada. Rangifer 16:57–67.
Thompson ID, Flannigan MD, Wotton BM, Suffling R 1998 The effects of climate change on landscape diversity: an example in Ontario forests. Environ Monit Assess 49:213–33.
Tietje WM, Ruff RL 1980 Denning behavior of black bears in boreal forest of Alberta. J Wildlife Manag 44:858–70.
Todd SK, Jewkes HA. 2006. Wildland fire in Alaska: a history of organized fire suppression and management in the last frontier. Bulletin No. 114. Fairbanks, Alaska: University of Alaska Agricultural and Forestry Experiment Station.
Tonn WM, Boss SM, Aku PK, Scrimgeour GJ, Paszkowski CA 2004 Fish assemblages in subarctic lakes: does fire affect fish-environment relations in Northern Alberta? Trans Am Fish Soc 133:132–43.
Tonn WM, Paszkowski CA, Scrimgeour GJ, Aku PKM, Lange M, Prepas EE, Westcott K 2003 Effects of forest harvesting and fire on fish assemblages in Boreal Plains lakes: a reference condition approach. Trans Am Fish Soc 132:514–23.
Turner MG 1989. Landscape ecology: the effect of pattern on process. Annu Rev Ecol Syst 20:171–97.
Turner MG 2005. Landscape ecology: what is the state of the science? Annu Rev Ecol Evol Syst 36:319–44.
Turner MG, Collins SL, Lugo AE, Magnuson JJ, Rupp TS, Swanson FJ 2003 Disturbance dynamics and ecological response: the contribution of long-term ecological research. Bioscience 53:46–56.
Uggla E 1959 Ecological effects of fire on north Swedish forests. Institute of Plant Ecology, University of Uppsala, Almqvist and Wiksells Boktryckei AB, Uppsala, Sweden.
Vander Kloet SP 1988. The genus Vaccinium in North America. Research Branch, Agriculture Canada, Ottowa, Canada.
Viereck LA 1970. Forest succession and soil development adjacent to the Chena River in interior Alaska. Arctic Alpine Res 2:1–26.
Viereck LA 1973. Wildfire in the taiga of Alaska. Quaternary Res 3:465–95.
Viereck LA, Dyrness CT. 1979. Ecological effects of the Wickersham Dome fire near Fairbanks, Alaska. General technical report PNW-90. Portland, OR: Pacific Northwest Forest and Range Experiment Station, US Department of Agriculture Forest Service.
Viereck LA, Schandelmeier LA. 1980. Effects of fire in Alaska and adjacent Canada—a literature review. Alaska Technical Report 6, Anchorage, Alaska: Bureau of Land Management.
Viereck LA, Van Cleve K, Dyrness CT 1986 Forest ecosystem distribution in the taiga environment. In: Van Cleve K, Chapin FS, Flanagan PW, Viereck LA, Dyrness CT (Eds.) Forest ecosystems in the Alaskan taiga. Springer-Verlag, New York.
Ward P. 1968. Fire in relation to waterfowl habitat of the delta marshes. Proceedings of the 8th tall timbers fire ecology conference. pp 255–67.
Weeden RB. 1965. Grouse and ptarmigan in Alaska. Fed Aid Wildl Rest Proj Rept Vol V, Proj W-6-R, Work Plan I. Juneau, Alaska: Alaska Department of Fish and Game.
Weixelman DA, Bowyer RT, Van Ballenberghe V 1998. Diet selection by Alaska moose: effects of fire and forest succession. Alces 34:213–38.
West SD 1982. Dynamics of colonization and abundance in central Alaskan populations of the northern red-backed vole, Clethrionomys rutilus. J Mammal 63:128–43.
Wolff JO 1980. The role of habitat patchiness in the population dynamics of snowshoe hares. Ecol Monogr 50:111–30.
Yarie J 1981 Forest fire cycles and life tables: a case study from interior Alaska. Can J Forest Res 11:554–62.
Acknowledgments
Funding for the research was provided by the Alaska Human–Fire Interaction project (NSF grant OPP-0328282) and the Science, Technology, Engineering, Policy and Society (STEPS) Institute of the University of California, Santa Cruz. We extend our thanks to the following people and organizations for their insights, suggestions, and contributions: Sarah Trainor, David McGuire, Scott Rupp, Paul Duffy, Henry Huntingon, Orville Huntington, David Natcher, Monika Calef and Roz Naylor of the Human–Fire Interactions group; Yair Chaver; Kris Hulvey and Jae Pasari at UCSC; Jenny Bryant, Joee Huhndorff, Robert Lambrecht, Karin Lehmkuhl, Brad Scotton, Mike Spindler, and Lisa Saperstein of USFWS; Tom Paragi of Alaska Dept. of Fish and Game; and Louden Tribal Council, Galena, Alaska. In addition, we thank Dr. Eric Kasischke and an anonymous reviewer for their comments and suggestions, which greatly improved the manuscript.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Nelson, J.L., Zavaleta, E.S. & Chapin, F.S. Boreal Fire Effects on Subsistence Resources in Alaska and Adjacent Canada. Ecosystems 11, 156–171 (2008). https://doi.org/10.1007/s10021-007-9114-z
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10021-007-9114-z