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Original Articles

Beyond annual budgets: carbon flux at different temporal scales in fire-prone Siberian Scots pine forests

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Pages 611-630 | Received 09 Jul 2001, Accepted 27 May 2002, Published online: 15 Dec 2016

References

  • Aber, J. D. and Melillo, J. M. 1991. Terrestrial ecosystems. Saunders College Publishing, Philadelphia, 429 pp.
  • AG Boden. 1994. Bodenkundliche Kartieranleitung, 4th edn. Schweizerbaresche Verlagsbuchhandlung Hannover, 392 pp.
  • Amiro, B. D. 2001. Paired-tower measurements of carbon and energy fluxes following disturbance in the boreal forest. Glob. Change Biol. 7, 253–268.
  • Amiro, B. D., Todd, J. B., Wotton, B. M., Logan, K. A., Flannigan, M. D., Stocks, B. J., Mason, J. A., Martell, D. L. and Hirsch, K. G. 2001. Direct carbon emissions from Canadian forest fires, 1959-1999. Can. J. For. Res. 31, 512–525
  • Arbatslcaya, M. K. and Vaganov, E. A. 1997. Long-term vari-ation in fire frequency and radial increment in pine from the middle taiga subzone of central Siberia. Russ. J. Ecol. 28, 291–297.
  • Axelsson, B. and Brakenhielm, S. 1980. Investigation sites of the Swedish Coniferous Forest project — biological and physiographical features. In: Structure and function of northern coniferous forests — an ecosystem study (ed. T. Persson). Ecol. Bull. 32, 25–64.
  • Cajander, A. K. 1926. The theory of forest types. Acta For. Fenn. 29, 1–108.
  • Cromack, Jr., K., Landsberg, J. D., Everett, R. L., Zeleny, R., Giardina, C. P., Strand, E. K., Anderson, T. D., Averill R. and Smyrski, R. 2000. Assessing the impacts of severe forest fire on forest ecosystem recovery. In: Mapping wild-fire hazard and risks (eds. R. N. Sampson, R. D. Atkinson and J. W. Weiss). Food Products Press, Binghampton, NY, 177-228.
  • Fearnside, P.M., Graca, P. M. L. A., Filho, N. L., Rodrigues, F. J. A. and Robinson, J. 1999. Tropical forest burning in Brazilian Amazonia: measurement of biomass load-ing, burning efficiency and charcoal formation at Altamira, Para., For. Ecol. Manag. 123, 65-79.
  • FIRESCAN science team. 1996. Fire in ecosystems of boreal Eurasia: The B or Forest Fire Experiment, Fire Research Campaign Asia-North (FIRESCAN). In: Biomass burning and global change, Vol. II (ed. J. S. Levine). MIT Press, Cambridge, MA, 848-873.
  • Furyaev, V. V. 1996. Pyrological regimes and dynamics of the Southern Taiga forests in Siberia. In: Fire in ecosystems of boreal Eurasia (eds. J. G. Goldammer and V. V. Furyaev). Kluver Academic Publishers, London, 168–185.
  • Glebov, F. Z. 1969. Bogs and wetlands of the forest zone of the Yenisei left-bank (in Russian). Naulca, Moscow, 132 pp.
  • Gorbachev, V. N. and Popova, E. P. 1996. Fires and soil for-mation. In: Fire in ecosystems of boreal Eurasia (eds. J. G. Goldammer and V. V. Furyaev). Kluver Academic Pub-lishers, Dordrecht, 331–336.
  • Gower, S. T., Krankina, O., Olson, R. J., Apps, M., Linder, S. and Wang, C. 2001. Net primary production and carbon allocation patterns of boreal forest ecosystems. Ecol. Appl. (in press).
  • Harden, J. W., Trumbore, S. E., Stocks, B. J., Hirsch, A., Gower, S. T., O'Neill, K. P. and Kasischke, E. S. 2000. The role of fire in the boreal carbon budget. Glob. Change Biol. 6(Suppl. 1), 174-184.
  • Harmon, M. E., Franklin, J. F., Swanson, F. J., Sollins, P., Gregory, S. V., Latin, J. D., Anderson, N. H., Cline, S. P., Aumen, N. G., Sedell, J. R., Lienlcaemper, G. W., Cromack, K. and Cummins, K. W. 1986. Ecology of coarse woody debris in temperate ecosystems. Adv. Ecol. Res. 15, 133-276.
  • Harmon, M. E., Krankina, 0. N. and Sexton, J. 2000. De-composition vectors: a new approach to estimating woody detritus decomposition dynamics. Can. J. For. Res. 30, 76-84
  • Helmisaari, H.-S. 1995. Nutrient cycling in Pinus sylvestris stands in eastern Finland. Plant Soil 168/169, 327–336
  • Jackson, R. B., Mooney, H. A. and Schulze, E.-D. 1997. A global budget for fine-root biomass, surface area and nutrient contents. Proc. Natl. Acad. Sci. USA 94, 7362-7366.
  • Janisch, J. E. and Harmon, M. E. 2001. Succesional changes in live and dead wood stores: implications for net ecosys-tem productivity. Tree Phys. (in press).
  • Knohl, A., Kolle, O., Minayeva, T. Y., Milyukova, I. M., Vy-godskaya, N. N., Foken, T., Schulze, E.-D. 2002. Carbon exchange of a Russian boreal forest after disturbance by windthrow. Glob. Change Biol. 8, 231-246.
  • Krankina, O. N., Harmon, M. E. and Griazlcin, A. V. 1999. Nutrient stores and dynamics of woody detritus in a boreal forest: modeling potential implications at the stand level. Can. J. For. Res. 29, 20-32.
  • Krankina, 0. N. and Harmon, M. E. 1995. Dynamics of the dead wood carbon pool in Northwestern Russian boreal forest. Water Air Soil Poll. 85, 227-238.
  • Kuhlbusch, T. A. J., Andreae, M.O., Cachier, H., Goldammer, J. G., Lacaux, J.-P., Shea, R. and Crutzen, P. J. 1996. Black carbon formation by savanna fires: mea-surements and implications for the global carbon cycle. J. Geophys. Res. 101(D19), 23651-23665.
  • Kuhlbusch, T. A. J. 1998. Black carbon and the carbon cycle. Science 280, 1903–1904.
  • Linder, S. and Axelsson, B. 1982. Changes in carbon up-take and allocation patterns as a result of irrigation and fertilisation in a young Pinus sylvestris stand. In: Carbon uptake and allocation: key to management of subalpine forest ecosystems (ed. R. H. Warring). IUFRO Workshop. For. Res. Lab., Oregon State University, Corvallis, OR, 38-44.
  • Lloyd, J., Shibistova, O., Zolotoukhine, D., Kolle, O., Ar-neth, A., Wirth, C., Styles, J. M., Tchebakova, N. M. and Schulze, E.-D. 2002. Seasonal and annual variations in the photosynthetic productivity and carbon balance of a cen-tral Siberian pine forest. Tellus 54B, this issue.
  • Lobert, J. M. and Warnatz, J. 1993. Emissions from the com-bustion process in vegetation. In: Fire in the environment (eds. P. J. Crutzen and J. G. Goldammer). Dahlem Work-shop Reports, Environmental Sciences Research Report 13, John Wiley and Sons Ltd., Chichester, 15-38.
  • Mäkeld, A. and Vanninen, P. 2000. Estimation of fine-root mortality and growth from simple measurements: a method based on systems dynamics. Trees 14,316–323.
  • Maldconen, K. and Helmisaari, H.-S. 2001. Fine root biomass and production in Scots pine stands in relation to stand age. Tree Physiol. 21, 193–198.
  • Marklcanen, T., Rannik, U., Keronen, P., Suni, T., and Vesala, T. 2001. Eddy covariance fluxes over a boreal Scots pine forest. Bor. Environ Res. 6, 65-78.
  • Matveev, P. M. and Usol'tzev, V. A. 1996. Post-fire mortal-ity and regenration of Larix sibirica and Larix dahurica in conditions of long-term permafrost. In: Fire in ecosys-tems of boreal Eurasia (eds. J. G. Goldammer and V. V. Furyaev). Kluwer Academic Publishers, Dordrecht, 366-371
  • Neary, D. G., Klopatek, C. C., DeBano, L. F. and Ffolliott, P. F. 1999. Fire effects on below-ground sustainability: a review and synthesis. For. Ecol. Manag. 122,51-71.
  • Neter, J., Kutner, M. H., Nachtsheim, C. J. and Wassermann, W. 1996. Applied linear statistical models. WCB McGraw-Hill, Boston, 1408 pp.
  • Peet, R. K. and Christensen, N. L. 1987. Competition and tree death. BioScience 37, 586–594.
  • Persson, H. 1978. Root dynamics in a young Scots pine stand in central Sweden. Oikos 30, 508–519.
  • Raison, R. J. 1979. Modification of the soil environment by vegetation fires, with particular reference to nitrogen trans-formations: a review. Plant Soil 51, 73–108.
  • Reinsch, C. H. 1967. Smoothing by spline functions. Numer. Math. 10, 177–183.
  • Schoettle, A. W. and Fahey, T. J. 1994. Foliage and fine-root longevity of pines. In: Environmental constraints on the structure and productivity of pine ecosystems: a com-parative analysis (eds. H. L. Gholz, S. Linder and R. E. McMurtie). Ecol. Bull. 43, 136–154.
  • Schulze, E.-D. and Heimann, M. 1998. Carbon and wa-ter exchange of terrestrial systems. In: Asian change in the context of global climate change (eds. J. Galloway and J. Mellilo). Cambridge University Press, Cambridge, 363 pp.
  • Schulze, E.-D., Lloyd, J., Kelliher, F. M., Wirth, C., Reb-mann, C., Liihker, B., Mund, M., Knohl, A., Milyukova, I., Schulze, W., Ziegler, W., Varlagin, A., Sogachov, A., Valentini, R., Dore, S., Grigoriev, S., Kolle, O.,
  • Tchebakova, N. and Vygodskaya, N. 1999. Productiv-ity of forests in the Eurosiberian boreal region and their potential to act as a carbon sink — a synthesis. Glob. Change Biol. 5,703–722.
  • Schulze, E.-D., Wirth, C. and Heimann, M. 2000. Managing forests after Kyoto. Science 289, 2058–2059.
  • Schulze, E.-D., Vygodskaya, N. N., Tchebakova, N. Czim-czilc, C. I., Kozlov, D. Lloyd, J., Mollicone, D., Parfen-ova, E., Siderov, K., Varlagin, A. and Wirth, C. 2002. The Eurosiberian transect: an introduction to the experimental region. Tellus 54B, this issue.
  • Shvidenko, A. and Nilsson, S. 2000. Fire and the carbon budget of Russian forests. In: Fire, climate change, and carbon cycling in the boreal forest (eds. E. S. Kasischke and B. J. Stocks). Springer, New York, 289-311.
  • Stocks, B. J. and Kauffmann, J. B. 1997. Biomass consump-tion and behaviour of woodland fires in boreal, temperate, and tropical ecosystems: parameters necessary to inter-prete historic fire regimes and futuer fire scenarios. In: Sediment records of biomass burning and global change (eds. J. S. Clark et al). NATO ASI Series 51, Springer, Berlin.
  • Tinker, D. B. and Knight, D. H. 2000. Coarse woody debris following fire and logging in Wyoming Lodgepole Pine forests. Ecosystems 3, 472–783.
  • Vanninen, R, Ylitalo, H., Sievänen, R. and Mäkelä, A. 1996. Effects of age and site quality on the distribution of biomass in Scots pine. Trees 10, 213–238
  • Vanninen, P. and Mäkelä, A. 1999. Fine root biomass of Scots pine stands differing in age and site fertility in southern Finland. Tree Physiol. 19, 823–830
  • Vogt, K. A., Vogt, D. J., Palmiotto, P. A., Boon, P., O'Hara, J. and Asbjornsen, H. 1996. Review of root dynamics in forest ecosystems grouped by climate, climatic forest type and species. Plant Soil 187, 159–219.
  • Vygodskaya, N. N., Schulze, E.-D., Tchebakova, N. M., Kar-bachevskii, L. O., Kozlov, D., Sidorov, K. N., Panfyorov, M. I., Abrazko, M. I., Shapschnikov, E. S., Solnzeva, 0. N., Minaeva, T. I., Jeltuchin, A. S., Wirth, C. and Pugachevslcii, A. V. 2002. Climatic control of stand thinning in unman-aged spruce forests of the southern taiga in European Russia. Tellus 54B, this issue.
  • Wirth, C., Schulze, E.-D., Schulze, W., von Stänzner-Karbe, D., Ziegler, W., Miljukowa, I. M., Sogatchev, A., Varla-gin, A. B., Panvyorov, M., Grigorev, S., Kusnetzova, W., Siry, M., Hardes, G., Zimmermann, R. and Vygodskaya, N. N. 1999. Above-ground biomass and structure of pristine Siberian Scots pine forests as controlled by competition and fire. Oecologia 121, 66–80.
  • Wirth, C., Schulze, E.-D., Liihker, B., Grigoriev, S., Siry, M., Hardes, G., Ziegler, W., Backor, M., Bauer, G. and Vygodskaya, N. N. 2002a. Fire and site type effects on the long-term carbon and nitrogen balance in pristine Siberian Scots pine forests. Plant Soil 242, 41–63.
  • Wirth, C., Schulze, E.-D. Kusznetova, V, Milyukova, I., Hardes, G., Siry, M., Schulze, B., B. and Vygodskaya, N. N. 2002b. Comparing the influence of site quality, stand age, fire and climate on above-ground production in Siberian Scots pine forests. Tree Physiol. (in press).
  • Yevdolcimenko, M. D. 1996. Fire-induced transformations in the productivity of light coniferous stands of the Trans-Baikal region and Mongolia. In: Fire in ecosystems of bo-real Eurasia (eds. J. G. Goldammer and V. V. Furyaev). Kluver Academic Publishers, Dordrecht, 211–218.