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  • Alexyev, V. A., R. A. Birdsey, V. D. Stakanov, and I. A. Korotkov (2000), Carbon storage in the Asian boreal forests of Russia, in Fire, Climate Change, and Carbon Cycling in the Boreal Forest, edited by E. S. Kasischke, and B. J. Stocks, pp. 239257, Springer, New York.
  • Amiro, B. D., J. B. Todd, B. M. Wotton, K. A. Logan, M. D. Flannigan, B. J. Stocks, J. A. Mason, D. L. Martell, and K. G. Hirsch (2001), Direct carbon emissions from Canadian forest fires, 1959–1999, Can J. For. Res., 31, 512525.
  • Andreae, M. O., and P. Merlet (2001), Emissions of trace gases and aerosols from biomass burning, Global Biogeochem. Cycles, 15, 955966.
  • Arino, O., M. Simon, I. Piccolini, and J. M. Rosaz (2001), The ERS-2 ATSR-2 World Fire Atlas and the ERS-2 ATSR-2 World Burnt Surface Atlas Projects, paper presented at 8th ISPRS Conference on Physical Measurement and Signatures in Remote Sensing, Int. Soc. of Photogramm. And Remote Sens., Aussois, France.
  • Auclair, A. N. D. (1985), Postfire regeneration of plant and soil organic pools in a Piceamariana-Cladonia stellaris ecosystem, Can. J. For. Res., 15, 279291.
  • Bawkin, P. S., P. Tans, and P. C. Novelli (1994), Carbon monoxide budget in the Northern Hemisphere, Geophys. Res. Lett., 21, 433436.
  • Benscoter, B. W., and R. K. Wieder (2003), Variability in organic matter lost by combustion in a boreal bog during the 2001 Chisholm fire, Can. J. For. Res., 33, 25092513.
  • Bradley, K. S., D. H. Stedman, and G. A. Bishop (1999), A global inventory of carbon monoxide emissions from motor vehicles, Chemosphere Global Change Sci., 1, 6572.
  • Cahoon, D. R.Jr., B. J. Stocks, J. S. Levine, W. R. Cofer III, and J. A. Barber (1996), Monitoring the 1992 forest fires in the boreal ecosystem using NOAA AVHRR satellite imagery, in Biomass Burning and Climate Change, vol. 2, Biomass Burning in South America, Southeast Asia, and Temperate and Boreal Ecosystems, and the Oil Fires of Kuwait, edited by J. S. Levine, pp. 795802, MIT Press, Cambridge, Mass.
  • Cofer, W. R.III, J. S. Levine, E. L. Winstead, and B. J. Stocks (1990), Gaseous emissions from Canadian boreal forest fires, Atmos. Environ., Part A, 24(7), 16531659.
  • Cofer, W. R.III, E. L. Winstead, B. J. Stocks, D. R. J. Cahoon, J. G. Goldammer, and J. S. Levine (1996a), Composition of smoke from North American boreal forest fires, in Fire in Ecosystems of Boreal Eurasia, edited by J. G. Goldammer, and V. V. Furyaev, pp. 465475, Springer, New York.
  • Cofer, W. R.III, E. L. Winstead, B. J. Stocks, L. W. Overbay, J. G. Goldammer, D. R. Cahoon, and J. S. Levine (1996b), Emissions from boreal forest fires: Are the atmospheric impacts underestimated? in Biomass Burning and Climate Change, vol. 2, Biomass Burning in South America, Southeast Asia, and Temperate and Boreal Ecosystems, and the Oil Fires of Kuwait, edited by J. S. Levine, pp. 834839, MIT Press, Cambridge, Mass.
  • Cofer, W. R.III, E. L. Winstead, B. J. Stocks, J. G. Goldammer, and D. R. Cahoon (1998), Crown fire emissions of CO2, CO, H2, CH4 and TNMHC from a dense jack pine boreal forest fire, Geophys. Res. Lett., 25, 39193922.
  • Conard, S. G., and G. A. Ivanova (1998), Wildfire in Russian boreal forests—Potential impacts of fire regime characteristics on emissions and global carbon balance estimates, Environ. Pollut., 98, 305313.
  • Daniel, J. S., and S. Solomon (1998), On the climate forcing of carbon monoxide, J. Geophys. Res., 103, 13,24913,260.
  • Dlugokencky, E. J., B. P. Walter, K. A. Masarie, P. M. Lang, and E. S. Kasischke (2001), Measurements of an anomalous global methane increase during 1998, Geophys. Res. Lett., 28, 499502.
  • Duncan, B. N., R. V. Martin, A. C. Staudt, R. Yevich, and J. A. Logan (2003a), Interannual and seasonal variability of biomass burning emissions constrained by satellite observations, J. Geophys. Res., 108(D2), 4100, doi:10.1029/2002JD002378.
  • Duncan, B. N., I. Bey, M. Chin, L. J. Mickley, T. D. Fairlie, R. V. Martin, and H. Matsueda (2003b), Indonesian wildfires of 1997: Impact on tropospheric chemistry, J. Geophys. Res., 108(D15), 4458, doi:10.1029/2002JD003195.
  • Eva, H., and E. F. Lambin (1998), Remote sensing of biomass burning in tropical regions: Sampling issues and multisensor approach, Remote Sens. Environ., 64(3), 292315.
  • FIRESCAN Science Team (1996), Fire in ecosystems of boreal Eurasia: The Bor Forest Island fire experiment fire research campaign Asia-north (FIRESCAN), in Biomass Burning and Climate Change, vol. 2, Biomass Burning in South America, Southeast Asia, and Temperate and Boreal Ecosystems, and the Oil Fires of Kuwait, edited by J. L. Levine, pp. 848873, MIT Press, Cambridge, Mass.
  • Food and Agriculture Organization (1999), Forest fire statistics, Timber Bull., LII(4), 19 pp.
  • Forster, C., et al. (2001), Transport of boreal forest fire emissions from Canada to Europe, J. Geophys. Res., 106, 22,88722,906.
  • Frandsen, W. H. (1991), Burning rate of smoldering peat, Northwest Sci., 65, 166172.
  • Fraser, R. H., Z. Li, and J. Cihlar (2000), Hotspot and NDVI differencing synergy (HANDS): A new technique for burned area mapping over boreal forest, Remote Sens. Environ., 74(3), 362376.
  • French, N. H. F., E. S. Kasischke, B. J. Stocks, J. P. Mudd, D. L. Martell, and B. S. Lee (2000), Carbon release from fires in the North American boreal forest, in Fire, Climate Change, and Carbon Cycling in the Boreal Forest, edited by E. S. Kasischke, and B. J. Stocks, pp. 377388, Springer, New York.
  • French, N. H. F., E. S. Kasischke, and D. G. Williams (2002), Variability in the emission of carbon-based trace gases from wildfire in the Alaskan boreal forest, J. Geophys. Res., 107, 8151, doi:10.1029/2001JD000480. [printed 108(D1), 2003]
  • French, N. H. F., P. Goovaerts, and E. S. Kasischke (2004), Uncertainty in estimating carbon emissions from boreal forest fires, J. Geophys. Res., 109, D14S08, doi:10.1029/2003JD003635.
  • Giglio, L., J. D. Kendall, and C. J. Tucker (2000), Remote sensing of fires with the TRMM VIRS, Int. J. Remote Sens., 21, 203207.
  • Harden, J. W., K. P. O'Neill, S. E. Trumbore, H. Veldhuis, and B. J. Stocks (1997), Moss and soil contributions to the annual net carbon flux of a maturing boreal forest, J. Geophys. Res., 102, 28,80528,816.
  • Harden, J. W., J. C. Neff, D. V. Sandberg, M. R. Turetsky, R. Ottmar, G. Gleixner, T. L. Fries, and K. L. Manies (2004), Chemistry of burning the forest floor during the FROSTFIRE experimental burn, interior Alaska, 1999, Global Biogeochem. Cycles, 18, GB3014, doi:10.1029/2003GB002194.
  • Hoelzemann, J. J., M. G. Schultz, G. P. Brasseur, and C. Granier (2004), Global Wildland Fire Emission Model (GWEM): Evaluating the use of global area burnt data, J. Geophys. Res., 109, D14S04, doi:10.1029/2003JD003666.
  • Isaev, A. P., et al. (2002), Using remote sensing for assessment of forest wildfire carbon emissions, Clim. Change, 55, 231255.
  • Ito, A., and J. E. Penner (2004), Global estimates of biomass burning based on satellite imagery for the year 2000, J. Geophys. Res., 109, D14S05, doi:10.1029/2003JD004423.
  • Justice, C. O., et al. (2002), The MODIS fire products, Remote Sens. Environ., 83, 244262.
  • Kajii, Y., et al. (2002), Boreal forest fires in Siberia in 1998: Estimation of area burned and emissions of pollutants by advanced very high resolution radiometer satellite data, J. Geophys. Res., 107(D24), 4745, doi:10.1029/2001JD001078.
  • Kasischke, E. S., and L. P. Bruhwiler (2002), Emissions of carbon dioxide, carbon monoxide, and methane from boreal forest fires in 1998, J. Geophys. Res., 107, 8146, doi:10.1029/2001JD000461. [printed 108(D1), 2003]
  • Kasischke, E. S., N. L. Christensen, and E. Haney (1994), Modeling of geometric properties of loblolly pine tree and stand characteristics for use in radar backscatter models, IEEE Trans. Geosci. Remote Sens., 32, 800822.
  • Kasischke, E. S., N. H. F. French, L. L. Bourgeau-Chavez, and N. L. Christensen Jr. (1995), Estimating release of carbon from 1990 and 1991 forest fires in Alaska, J. Geophys. Res., 100, 29412951.
  • Kasischke, E. S., K. P. O'Neill, N. H. F. French, and L. L. Bourgeau-Chavez (2000), Controls on patterns of biomass burning in Alaskan 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. 173196, Springer, New York.
  • Kasischke, E. S., D. Williams, and D. Barry (2002), Analysis of the patterns of large fires in the boreal forest region of Alaska, Int. J. Wildland Fire, 11, 131144.
  • Kasischke, E. S., J. H. Hewson, B. Stocks, G. van der Werf, and J. Randerson (2003), The use of ATSR active fire counts for estimating relative patterns of biomass burning: A study from the boreal forest region, Geophys. Res. Lett., 30(18), 1969, doi:10.1029/2003GL017859.
  • Khalil, M., and R. A. Rasmussen (1994), Global decrease in atmospheric carbon monoxide, Nature, 370, 639641.
  • Kondo, Y., et al. (2003), Effects of biomass burning and lightning on atmospheric chemistry over Australia and South-east Asia, Int. J. Wildland Fire, 12, 271281.
  • Lacelle, B., C. Tarnocai, S. Waltman, J. Kimble, F. Orozco-Chavez, and B. Jakobsen (1997), North American soil carbon map, report, Agric. and Agri-food Can., Ottawa.
  • Langenfelds, R. L., R. J. Francey, B. C. Pak, L. P. Steele, J. Lloyd, C. M. Trudinger, and C. E. Allison (2002), Interannual growth rate variations of atmospheric CO2 and its δ13C, H2, CH4, and CO between 1992 and 1999 linked to biomass burning, Global Biogeochem. Cycles, 16(3), 1048, doi:10.1029/2001GB001466.
  • Lavoue, D., C. Liousse, H. Cachier, B. J. Stocks, and J. G. Goldammer (2000), Modeling of carbonaceous particles emitted by boreal and temperate wildfires at northern latitudes, J. Geophys. Res., 105, 26,87126,890.
  • Leenhouts, B. (1998), Assessment of biomass burning in the conterminous United States, Conserv. Ecol., 2, 123.
  • Lowe, J. J., K. Power, and M. W. Marsan (1996), Canada's Forest Inventory 1991: Summary by terrestrial ecozones and ecoregions, Pac. For. Cent., Can. For. Serv., Victoria, B. C., Can.
  • Matsueda, H., and H. Y. Inoue (1999), Aircraft measurements of trace gases between Japan and Singapore in October of 1993, 1996, and 1997, Geophys. Res. Lett., 26, 24132416.
  • McRae, D. J. et al. (2005), Variability of fire behavior, fire effects, and emissions in Scotch pine forests of Central Siberia, Mitigation and Adaptation Strategies for Global Change, in press.
  • Michalek, J. L., N. H. F. French, E. S. Kasischke, R. D. Johnson, and J. E. Colwell (2000), Using Landsat TM data to estimate carbon release from burned biomass in an Alaskan spruce complex, Int. J. Remote Sens., 21, 323338.
  • Miyanishi, K. (2001), Duff consumption, in Forest Fire: Behavior and Ecological Effects, edited by E. A. Johnson, and K. Miyanishi, pp. 437475, Elsevier, New York.
  • Novelli, P. C., K. A. Masarie, P. P. Tans, and P. M. Lang (1994), Recent changes in atmospheric carbon-monoxide, Science, 263, 15871590.
  • Novelli, P. C., K. A. Masarie, P. M. Lang, B. D. Hall, R. C. Myers, and J. W. Elkins (2003), Reanalysis of tropospheric CO trends: Effects of the 1997–1998 wildfires, J. Geophys. Res., 108(D15), 4464, doi:10.1029/2002JD003031.
  • Schlesinger, P., and T. Stone (2001), Forest and landcover data of Russia and the former Soviet Union [CD-ROM], Woods Hole Res. Cent., Woods Hole, Mass. (Available at http://www.whrc.org).
  • Schultz, M. G. (2002), On the use of ATSR fire count data to estimate the seasonal and interannual variability in vegetation fire emissions, Atmos. Chem. Phys., 2, 387395.
  • Seiler, W., and P. J. Crutzen (1980), Estimates of gross and net fluxes of carbon between the biosphere and atmosphere, Clim. Change, 2, 207247.
  • Shvidenko, A. Z., and S. Nilsson (2000), Fire and the carbon budget of Russian forests, in Fire, Climate Change, and Carbon Cycling in the Boreal Forest, edited by E. S. Kasischke, and B. J. Stocks, pp. 289311, Springer, New York.
  • Simon, M., S. Plummer, F. Fierens, J. J. Hoelzemann, and O. Arino (2004), Burnt area detection at global scale using ATSR-2: The GLOBSCAR products and their qualifications, J. Geophys. Res., 109, D14S02, doi:10.1029/2003JD003622.
  • 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 wildland fire in Canada, Theor. Appl. Climatol., 63, 89105.
  • Skinner, W. R., M. D. Flannigan, B. J. Stocks, 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, Theor. Appl. Climatol., 63, 89105.
  • Soja, A. J., W. R. Cofer, H. H. Shugart, A. I. Sukhinin, P. W. Stackhouse Jr., D. J. McRae, and S. G. Conard (2004), Estimating fire emissions and disparities in boreal Siberia (1998–2002), J. Geophys. Res., 109, D14S06, doi:10.1029/2004JD004570.
  • Stocks, B. J. (1980), Black spruce crown fuel weights in northern Ontario, Can. J. For. Res., 10, 498501.
  • Stocks, B. J. (1987), Fire behavior in immature jack pine, Can J. For. Res., 17, 8086.
  • Stocks, B. J. (1989), Fire behavior in mature jack pine, Can. J. For. Res., 19, 783790.
  • Stocks, B. J., and J. B. Kauffman (1997), Biomass consumption and behavior of wildland fires in boreal, temperate, and tropical ecosystems: Parameters necessary to interpret historic fire regimes and future fire scenarios, in Sediment Records of Biomass Burning and Global Change, edited by J. S. Clark, pp. 169188, Springer, New York.
  • Stocks, B. J., et al. (2002), Large forest fires in Canada, 1959–1997, J. Geophys. Res., 107, 8149, doi:10.1029/2001JD000484. [printed 108(D1), 2003].
  • Stolbovoi, V., and I. McCallum (2002), Land resources of Russia [CD-ROM], Int. Inst. for Appl. Syst. Anal., Laxenburg, Austria. (Available at http://www.iiasa.ac.at/Research/FOR/russia_cd/guide.htm).
  • Sukhinin, A. I., et al. (2004), Satellite-based mapping of fires in Eastern Russia: New products for fire management and carbon cycle studies, Remote Sens. Environ., 93, 546564.
  • Tansey, K., et al. (2004), Vegetation burning in the year 2000: Global burned area estimates from SPOT VEGETATION data, J. Geophys. Res., 109, D14S03, doi:10.1029/2003JD003598.
  • Tarnocai, C. (1997), The amount of organic carbon in various soil orders and ecological provinces in Canada, in Soil Processes and the Carbon Cycle, edited by R. Lal et al., pp. 8192, CRC Press, Boca Raton, Fla.
  • Thompson, A. M. (1992), The oxidizing capacity of the atmosphere: Probable past and future changes, Science, 256, 11571165.
  • Turetsky, M. R., and R. K. Wieder (2001), A direct approach to quantifying organic matter lost as a result of peatland wildfire, Can. J. For. Res., 31, 363366.
  • Turetsky, M. R., B. D. Amiro, E. Bosch, and J. S. Bhatti (2004), Peatland burning and its relationship to fire weather indices in western Canada, Global Biogeochem. Cycles., 18, GB4014, doi:10.1029/2004GB002222.
  • van der Werf, G. R., J. T. Randerson, G. J. Collatz, and L. Giglio (2003), Carbon emissions from fires in tropical and sub-tropical ecosystems, Global Change Biol., 9, 547562.
  • van der Werf, G. R., J. T. Randerson, G. J. Collatz, L. Giglio, P. S. Kasibhatla, A. Arellano, S. C. Olsen, and E. S. Kasischke (2004), Continental-scale partitioning of fire emissions during the 97/98 El Niño, Science, 303, 7376.
  • Wirth, C., et al. (1999), Above-ground biomass and structure of pristine Siberian Scots pine forests as controlled by competition and fire, Oecologia, 121, 6680.
  • Wotawa, G., P. C. Novelli, G. Trainer, and C. Granier (2001), Inter-annual variability of summertime CO concentrations in the Northern Hemisphere explained by boreal forest fires in North America and Russia, Geophys. Res. Lett., 28, 45754579.
  • Yokelson, R. J., R. Susott, D. E. Ward, J. Reardon, and D. W. T. Griffith (1997), Emissions from smoldering combustion of biomass measured by open-path Fourier transform infrared spectroscopy, J. Geophys. Res., 102, 18,86518,877.
  • Yurganov, L., et al. (2004), A quantitative assessment of the 1998 carbon monoxide emission anomaly in the Northern Hemisphere based on total column and surface concentration measurements, J. Geophys. Res., 109, D15305, doi:10.1029/2004JD004559.
  • Zander, R., P. Demoulin, D. H. Enhalt, U. Schmidt, and C. P. Rinsland (1989), Secular increase of total vertical column abundance of carbon monoxide above central Europe since 1950, J. Geophys. Res., 94, 11,02111,028.