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References

  • Agriculture Canada Expert Committee on Soil Survey, The Canadian System of Soil Classification, 164 pp., Can. Govt. Publ. Cent., Ottawa, Canada, 1987.
  • Apps, M. J., W. A. Kurz, R. J. Luxmoore, L. O. Nilsson, R. A. Sedjo, R. Schmidt, L. G. Simpson, and T. S. Vinson, Boreal forests and tundra, Water Air Soil Pollut., 70, 3953, 1993.
  • Auclair, A. N. D., and T. B. Carter, Forest wildfires as a recent source of CO2 at northern latitudes, Can. J. For. Res., 23, 15301536, 1993.
  • Bonan, G. B., Soil temperature as an ecological factor in boreal forests, in A Systems Analysis of the Global Boreal Forest, edited by H. H. Shugart et al., pp. 126143, Cambridge Univ. Press, New York, 1992.
  • Bonan, G. B., and K. Van Cleve, Soil temperature, nitrogen mineralization, and carbon source–sink relationships in boreal forests, Can. J. For. Res., 22, 629639, 1991.
  • Bunnell, F. L., D. E. N. Tait, P. W. Flanagan, and K. Van Cleve, Microbial respiration and substrate weight loss, I, A general model of the influences of abiotic variables, Soil Biol. Biochem., 9, 340, 1977.
  • Burke, R. A., R. G. Zepp, M. A. Tarr, W. M. Miller, and B. J. Stocks, Effect of fire on soil–atmosphere exchange of methane and carbon dioxide in Canadian boreal forest sites, J. Geophys. Res., 102, 29,28929,300, 1997.
  • Clymo, R. S., and P. M. Hayward, The ecology of Sphagnum, in Bryophyte Ecology, edited by A. J. E. Smith, pp. 229289, Chapman and Hall, New York, 1982.
  • Dixon, R. K., S. Brown, R. A. Houghton, A. M. Solomon, M. C. Trexler, and J. Wisniewski, Carbon pools and flux in global forest ecosystems, Science, 263, 185190, 1994.
  • Dyrness, C. T., Control of Depth to Permafrost and Soil Temperature by the Forest Floor in Black Spruce/Feathermoss Communities, For. Serv. Res. Note PNW-396, 19 pp., U.S. Dept. of Agric., Pac. Northwest For. and Range Exp. Stn., Washington, D. C., 1982.
  • Flanagan, P. W., and K. Van Cleve, Microbial biomass, respiration, and nutrient cycling in a black spruce taiga ecosystem, in Soil Organisms as Components of Ecosystems: International Soil Zoology Colloquium, Ecol. Bull., vol. 25, edited by U. Lohm, and T. Persson, pp. 261273, Swed. Nat. Sci. Res. Counc., Stockholm, 1977.
  • Flanagan, P. W., and A. K. Veum, Relationships between respiration, weight loss, temperature and moisture in organic residues on tundra, in Soil Organisms and Decomposition in the Tundra, edited by A. J. Holding et al., pp. 249277, Tundra Biome Steering Committee, Stockholm, 1974.
  • Gorham, E., Northern peatlands: Role in the carbon cycle and probable responses to climate warming, Ecol. Appl., 1, 182195, 1991.
  • Goulden, M. L., et al., Sensitivity of boreal forest carbon to soil thaw, Science, 279, 214217, 1998.
  • Harden, J. W., E. T. Sundquist, R. F. Stallard, and R. K. Mark, Dynamics of soil carbon during deglaciation of the Laurentide Ice Sheet, Science, 258, 19211924, 1992.
  • Harden, J. W., K. P. O'Neill, S. E. Trumbore, H. Veldhuis, and B. J. Stocks, Moss and soil contributions to the annual net carbon flux of a maturing boreal forest, J. Geophys. Res., 102, 28,80528,816, 1997.
  • Harden, J. W., S. E. Trumbore, B. J. Stocks, A. Hirsch, S. T. Gower, K. P. O'Neill, and E. S. Kasischke, The role of fire in the boreal carbon budget, Global Change Biol., 6(s1), 174184, 2000.
  • Harmon, M. E., W. K. Ferrell, and J. F. Franklin, Effects on carbon storage of conversion of old-growth forests to young forests, Science, 247, 699702, 1990.
  • Jenny, H., S. Gessell, and F. T. Bingham, Comparative study of decomposition rates of organic matter in temperate and tropical regions, Soil Sci., 68, 419432, 1949.
  • Johnson, D., L. Kershaw, A. MacKinnon, and J. Poplar, Plants of the Western Boreal Forest and Aspen Parkland, Lone Pine, Alberta, Can., 1995.
  • Kasischke, E. S., The role of boreal ecosystems in the global carbon cycle, in Fire, Climate Change, and Carbon Cycling in the North American Boreal Forest, Ecol. Stud. Ser., edited by E. S. Kasischke, and B. J. Stocks, pp. 1523, Springer-Verlag, New York, 2000.
  • Kasischke, E. S., N. H. F. French, L. L. Borgeau-Chavez, and N. L. Christensen Jr., Estimating release of carbon from 1990 and 1991 forest fires in Alaska, J. Geophys. Res., 100, 29412951, 1995.
  • Kasischke, E. S., K. P. O'Neill, N. H. F. French, and L. L. Borgeau-Chavez, Controls on patterns of biomass burning in Alaskan boreal forests, in Fire, Climate Change, and Carbon Cycling in the North American Boreal Forest, Ecol. Stud. Ser., edited by E. S. Kasischke, and B. J. Stocks, pp. 173196, Springer-Verlag, New York, 2000a.
  • Kasischke, E. S., N. H. F. French, K. P. O'Neill, D. D. Richter, L. L. Borgeau-Chavez, and P. A. Harrell, Influence of fire on long-term patterns of forest succession in Alaskan boreal forests, in Fire, Climate Change, and Carbon Cycling in the North American Boreal Forest, Ecol. Stud. Ser., edited by E. S. Kasischke, and B. J. Stocks, pp. 214235, Springer-Verlag, New York, 2000b.
  • Mackay, J. R., Active layer changes (1968–1993) following the forest–tundra fire near Inuvik, NWT, Canada, Arct. Alp. Res., 27, 323326, 1995.
  • MacLean, D. A., S. J. Woodley, M. G. Weber, and R. W. Wein, Fire and Nutrient Cycling, in The Role of Fire in the Northern Circumpolar Ecosystem (SCOPE 18), edited by R. W. Wein, and D. A. MacLean, pp. 11132, John Wiley, New York, 1983.
  • Marion, G. M., and W. C. Oechel, Mid- to late-Holocene carbon balance in Arctic Alaska and its implications for future global warming, Holocene, 3, 193200, 1993.
  • O'Neill, K. P., Changes in carbon dynamics following wildfire in soils of interior Alaska, Ph.D. thesis, Duke Univ., Durham, 2000.
  • O'Neill, K. P., J. W. Harden, and S. E. Trumbore, Boreal-Ecosystem Atmosphere Study (BOREAS): 1993 Laboratory Data and Notes, USGS OFR 95-565, Thompson, Manitoba, 1995.
  • Olson, J. S., Energy storage and the balance of producers and decomposers in ecological systems, Ecology, 44, 322331, 1962.
  • Parkinson, K. J., An improved method for measuring soil respiration in the field, J. Appl. Ecol., 18, 221228, 1981.
  • Rapalee, G., S. E. Trumbore, E. A. Davidson, J. W. Harden, and H. Veldhuis, Soil carbon stocks and their rates of accumulation and loss in a boreal forest landscape, Global Biogeochem. Cycles, 12(4), 687701, 1998.
  • Richter, D. D., K. P. O'Neill, and E. S. Kasischke, Stimulation of soil respiration in burned black spruce (Picea mariana L.) forest ecosystems: A hypothesis, in Fire, Climate Change, and Carbon Cycling in the North American Boreal Forest, edited by E. S. Kasischke, and B. J. Stocks, pp. 164178, Springer-Verlag, New York, 2000.
  • Schimel, J. P., and J. Gulledge, Microbial community structure and global trace gases, Soil Biota Global Change, 4, 745758, 1998.
  • Schlentner, R. E., and K. Van Cleve, Relationships between CO2 evolution from soil, substrate temperature, and substrate moisture in four mature forest types in interior Alaska, Can. J. For. Res., 15, 97106, 1985.
  • Schlesinger, W. H., Evidence from chronosequence studies for a low carbon-storage potential of soils, Nature, 348, 232234, 1990.
  • Schoephorster, D. B., Soil Survey of Salcha-Big Delta Area, Alaska, 51 pp., USDA Soil Conservation Service, Washington, D. C., 1973.
  • Schumacher, F. X., and R. A. Chapman, Sampling Methods in Forestry and Range Management, For. Sch. Bull. 7, 222 pp., Duke Univ., Durham, NC, 1954.
  • Singh, J. S., and S. R. Gupta, Plant decomposition and soil respiration in terrestrial ecosystems, Bot. Rev., 43, 449528, 1977.
  • Stocks, B. J., M. A. Fosberg, M. B. Wotton, T. J. Lynham, and K. C. Ryan, Climate change and forest fire activity in North American boreal forests, in Fire, Climate Change, and Carbon Cycling in the North American Boreal Forest, edited by E. S. Kasischke, and B. J. Stocks, pp. 312319, Springer-Verlag, New York, 2000.
  • Swanson, D. K., Susceptibility of permafrost soils to deep thaw after forest fires in interior Alaska, U.S.A., and some ecologic implications, Arct. Alp. Res., 28, 217227, 1996.
  • Tarnocai, C., and S. C. Zoltai, Earth hummocks of the Canadian Arctic and Subarctic, Arct. Alp. Res., 10, 581594, 1978.
  • Tolonen, K., H. Vasander, A. W. H. Danman, and R. S. Clymo, Rate of apparent and true carbon accumulation in boreal peatlands, in Proc. Int. Peat Congr., 9th, June 22–26, Uppsala Sweden, pp. 319333, Int. Peat Soc., Jyska, Finland, 1992.
  • Trettin, C. C., M. F. Jurgensen, M. R. Gale, and J. McLaughlin, Soil carbon in northern forested wetlands: Impact of silvicultural practices, in Carbon Forms and Functions in Forest Soils, edited by W. W. McFee, and J. M. Kelly, pp. 437461, Soil Sci. Soc. Am., Madison, Wisc., 1995.
  • Trumbore, S. E., and J. W. Harden, Accumulation and turnover of carbon in organic and mineral soils of the BOREAS northern study area, J. Geophys. Res., 102, 28,81728,830, 1997.
  • Tryon, P. R., and F. S. Chapin III, Temperature control over root growth and root biomass in taiga forest trees, Can. J. For. Res., 13, 827833, 1983.
  • United States Department of Agriculture, Natural Resources Conservations Service, 325 pp., Keys to Soil Taxonomy (8th Edition), Pocequation imagehontas Press, Blacksburg, Va., 1998.
  • Van Cleve, K., R. Barner, and R. Schlentner, Evidence of temperature control of production and nutrient cycling in two interior Alaska black spruce ecosystems, Can. J. For. Res., 11, 258273, 1981.
  • Van Cleve, K., and J. Yarie, Interaction of temperature, moisture, and soil chemistry in controlling nutrient cycling and ecosystem development in the Alaskan taiga, in Forest Ecosystems in the Alaskan Taiga, edited by K. Van Cleve et al., pp. 160189, Springer-Verlag, New York, 1986.
  • Van Cleve, K., L. K. Oliver, P. Schlentner, L. A. Viereck, and C. T. Dyrness, Productivity and nutrient cycling in taiga forest ecosystems, Can. J. For. Res., 13, 703720, 1983.
  • Veldhuis, H., and D. Knapp, BOREAS TE-20 NSA Soil Lab Data Set, Distrib. Active Arch. Cent., Oak Ridge Natl. Lab., Oak Ridge, Tenn., 1998. (Available at http://www.eodis.ornl.gov/).
  • Viereck, L. A., Forest ecology of the Alaskan taiga, Quat. Res., 3, 465495, 1975.
  • Viereck, L. A., Effects of fire and firelines on active layer thickness and soil temperatures in interior Alaska, in Proceedings 4th Canadian Permafrost Conference, Calgary, Alberta, pp. 123135, Natl. Res. Counc. of Can., Ottawa, March 2–6, 1982.
  • Viereck, L. A., C. T. Dyrness, K. Van Cleve, and M. J. Foote, Vegetation, soils, and forest productivity in selected forest types in interior Alaska, Can. J. For. Res., 13, 703720, 1983.
  • Waring, R. H., and S. W. Running (eds.), Forest Ecosystems: Analysis at Multiple Scales, 370 pp., Academic, San Diego, Calif., 1998.
  • Wein, R. W., Frequency and characteristics of arctic tundra fires, Arctic, 29, 213222, 1976.
  • Wein, R. W., and L. C. Bliss, Changes in arctic Eriophorum tussock communities following fire, Ecology, 54, 845852, 1973.
  • Whalen, R. J., The Ecology of Fire, 346 pp., Cambridge Univ. Press, New York, 1995.
  • Winston, G. C., E. T. Sundquist, B. B. Stephens, and S. E. Trumbore, Winter CO2 fluxes in a boreal forest, J. Geophys. Res., 102, 28,79528,804, 1997.
  • Wotton, B. M., and M. D. Flannigan, Length of fire season in a changing climate, For. Chron., 69, 187192, 1993.