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Tellus B: Chemical and Physical Meteorology Volume 51, 1999 - Issue 2
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Original Articles

The annual net flux of carbon to the atmosphere from changes in land use 1850–1990Footnote*

R. A. HoughtonThe Woods Hole Research Center, PO Box 296, Woods Hole, MA02543, USA
Pages 298-313 | Received 17 Dec 1997, Accepted 20 Nov 1998, Published online: 15 Dec 2016

References

  • Ajtay, G. L. Ketner, P. and Duvigneaud, P. 1979. Terrest-rial primary production and phytomass. In: The global carbon cycle (eds. Bolin, B., Degens, E. T., Kempe, S. and Ketner, P.). John Wiley and Sons, New York, 129–182.
  • Apps, M. J. and Kurz, W. A. 1994. The role of Canadian forests in the global carbon budget. In: Carbon balance of world's forested ecosystems: towards a global assess-ment (ed. Kanninen M.). Publications of the Academy of Finland 3/93, Helsinki, 14–39.
  • Arnold, J. E. M. and Jongma, J. 1978. Fuelwood and charcoal in developing countries. Unasylva 29, 2-9.
  • Bhattacharjee, J. P. 1958. Studies in Indian agricultural economics. The Indian Society of Agricultural Eco-nomics, Bombay.
  • Birdsey, R. A. Plantinga, A. J. and Heath, L. S. 1993. Past and prospective carbon storage in United States forests. For. Ecol. Manage. 58, 33–40.
  • Blandon, P. 1983. Soviet forest industries. Westview Press, Boulder, Colorado.
  • Brown, S. and Gaston, G. 1995. Use of forest inventories and geographic information systems to estimate bio-mass density of tropical forests: Application to tropical Africa. Environ. Monit. Assess. 38, 157–168.
  • Brown, S. Gillespie, A. J., R. and Lugo, A. E. 1989. Biomass estimation methods for tropical forests with applications to forest inventory data. For. Sci. 35, 881–902
  • Brown, S. Gillespie, A. J., R. and Lugo, A. E. 1991. Biomass of tropical forests of south and southeast Asia. Can. J. For. Res. 21, 111–117
  • Brown, S. Iverson, L. R., and Lugo, A. E. 1994. Land use and biomass changes of forests in peninsular Malaysia from 1972 to 1982: A GIS Approach. In: Effects of land use change on atmospheric CO2 concentrations: south and southeast Asia as a case study (ed. Dale V. H.). Springer-Verlag, New York, 117–143.
  • Census of Canada. 1870-1921 (6 censuses). Ottawa.
  • Clawson, M. 1979. Forests in the long sweep of American history. Science 204. 1168–1174.
  • Dai, A. and Fung, I. Y. 1993. Can climate variability contribute to the “missing” CO2 sink? Global Biogeo-chem. Cycles 7, 599–609.
  • Davidson, E. A. and Ackerman, I. L. 1993. Changes in soil carbon inventories following cultivation of previously untilled soils. Biogeochemistry 20, 161-193.
  • Detwiler, R. P. 1986. Land use change and the global carbon cycle: the role of tropical soils. Biogeochemistry 2, 67–93.
  • Dixon, R. K. Brown, S. Houghton, R. A. Solomon, A. M. Trexler, M. C., and Wisniewski, J. 1994. Carbon pools and flux of global forest ecosystems. Science 263, 185–190
  • Enting, I. G. Trudinger, C. M. and Francey, R. J. 1995. A synthesis inversion of the concentration and “C of atmospheric CO2. Tellus 47B, 35–52.
  • FAO. 1946-1992. Yearbook of forest products. FAO, Rome.
  • FAO. 1949-1992. Production yearbooks. FAO, Rome. FAO. 1953. European timber statistics. FAO, Rome. FAO. 1965. World forest products statistics: a 10-year summary 1954-1963. FAO, Rome.
  • FAO. 1992. Production yearbook. FAO, Rome.
  • FAO. 1993. Forest resources assessment 1990. Tropical countries. FAO Forestry Paper No. 112. FAO, Rome. FAO. 1997. State of the world's forests. sFAO, Rome. FAO. 1998. FAOSTAT DATA. http://apps.fao.org/lim500/nph-wrap.pl?Forestry.Primary&Domain= SUAFAO/UNEP. 1981. Tropical forest resources assessment project. FAO, Rome.
  • Flint, E. P. and Richards, J. F. 1994. Trends in carbon content of vegetation in south and southeast Asia associated with changes in land use. In: Effects of land use change on atmospheric CO2 concentrations: south and southeast Asia as a case study (ed. Dale V. H.). Springer-Verlag, New York, 201–299.
  • Francey, R. J. Tans, P. P. Allison, C. E. Enting, I. G. White, J. W. C. and Trolier, M. 1995. Changes in oceanic and terrestrial carbon uptake since 1982. Nature 373, 326–330.
  • Gajaseni, J. and Jordan, C. F. 1990. Decline of teak yield in northern Thailand: effects of selective logging on forest structure. Biotropica 22, 114–118.
  • Grigg, D. B. 1974. The agricultural systems of the world: an evolutionary approach. Cambridge University Press, Cambridge, UK.
  • Hall, C. A. S. and Uhlig, J. 1991. Refining estimates of carbon released from tropical land-use change. Canad-ian J. For. Res. 21, 118–131.
  • Harmon, M. E. Garman, S. L. and Ferrell, W. K. 1996. Modeling historical patterns of tree utilization in the Pacific northwest: Carbon sequestration implications. Ecol. App!. 6, 641–652.
  • Holland, E. A., Braswell, B. H., Lamarque, J.-F., Town-send, A., Sulzman, J., Muller, J.-F., Dentener, F. Brass-eur, G., Levy, H., Penner, J. E., and Roelofs, G.-J. 1997. Variations in the predicted spatial distribution of atmospheric nitrogen deposition and their impact on carbon uptake by terrestrial ecosystems. J. Geophys. Res. 102, 15,849–15,866
  • Houghton, R. A. 1993. The flux of carbon from changes in land use. In: Projections of future CO2 (eds. Enting, I. G. and Lassey, K. R). Technical paper 27, CSIRO Division of Atmospheric Research, Mordialloc, Aus-tralia, 39–42.
  • Houghton, R. A. 1996. Terrestrial sources and sinks of carbon inferred from terrestrial data. Tellus 48B, 420–432.
  • Houghton, R. A. 1998. Historic role of forests in the global carbon cycle. In: Carbon dioxide mitigation in forestry and wood industry (eds. Kohlmaier, G. H., Weber, M. and Houghton, R. A.). Springer-Verlag, Berlin, pp. 1–24.
  • Houghton, R. A. and Hackler, J. L. 1994. The net flux of carbon from deforestation and degradation in south and southeast Asia. In: Effects of land use change on atmospheric CO2 concentrations: south and southeast Asia as a case study (ed. Dale V. H.). Springer-Verlag, New York, 301–327.
  • Houghton, R. A. and Hackler, J. L. 1995. Continental scale estimates of the biotic carbon flux from land cover change: 1850-1980. ORNL/CDIAC-79, NDP-050, Oak Ridge National Laboratory, Oak Ridge, Ten-nessee, 144 pp.
  • Houghton, R. A. and Hackler, J. L. 1999. Continental scale estimates of the biotic carbon flux from land cover change: 1850-1990. NDP-050, Oak Ridge National Laboratory, Oak Ridge, Tennessee, [http://cdiac. esd.ornl.gov/ndps/ndp050.html ]
  • Houghton, R. A. and Skole, D. L. 1990. Carbon. In: The earth as transformed by human action (eds. Turner, B. L., Clark, W. C., Kates, R. W., Richards, J. F., Mathews, J. T. and Meyer, W. B). Cambridge Univer-sity Press, Cambridge, UK, 393–408.
  • Houghton, R. A., Hobbie, J. E., Melillo, J. M., Moore, B., Peterson, B. J., Shaver, G. R. and Woodwell, G. M. 1983. Changes in the carbon content of terrestrial biota and soils between 1860 and 1980: A net release of CO2 to the atmosphere. Ecol. Monogr. 53, 235-262.
  • Houghton, R. A., Boone, R. D., Fruci, J. R., Hobbie, J. E., Melillo, J. M., Palm, C. A., Peterson, B. J. Shaver, G. R., Woodwell, G. M., Moore, B. Skole, D. L. and Myers, N. 1987. The flux of carbon from terrestrial ecosystems to the atmosphere in 1980 due to changes in land use: geographic distribution of the global flux. Tellus 39B, 122–139.
  • Houghton, R. A., Lefkowitz, D. S. and Skole, D. L. 1991a. Changes in the landscape of Latin America between 1850 and 1980 (I). A progressive loss of for-ests. For. Ecol. Manage. 38, 143–172.
  • Houghton, R. A., Skole, D. L. and Lefkowitz, D. S. 1991b. Changes in the landscape of Latin America between 1850 and 1980 (II). A net release of CO2 to the atmosphere. For. Ecol. Manage. 38, 173-199.
  • Houghton, R. A., Davidson, E. A. and Woodwell, G. M. 1998. Missing sinks, feedbacks, and understanding the role of terrestrial ecosystems in the global carbon balance. Global Biogeochem. Cycles 12, 25–34.
  • International Institute of Agriculture. 1922. Statistical Service, International yearbook of agricultural statistics 1909 to 1921, Rome.
  • International Institute of Agriculture. 1939. The first world agricultural census (1930), volumes 1-5, Villa Umberto I, Rome.
  • Kauppi, P. E., Mielikainen, K. and Kuusela, K. 1992. Biomass and carbon budget of European forests, 1971-1990. Science 256, 70–74.
  • Keeling, C.D.., Whorf, T. P., Wahlen, M. and van der Pilcht, J. 1995. Interannual extremes in the rate of rise of atmospheric carbon dioxide since 1980. Nature 375, 666–670
  • Keeling, R. F., Piper, S. C. and Heimann, M. 1996. Global and hemispheric CO2 sinks deduced from changes in atmospheric 02 concentration. Nature 381, 218–221.
  • Kolchugina, T. P. and Vinson, T. S. 1993. Carbon sources and sinks in forest biomes of the former Soviet Union. Global Biogeochem. Cycles 7, 291–304.
  • Kurz, W. A., Apps, M. J., Beukema, S. J. and Lek-strum, T. 1995. 20th century carbon budget of Canad-ian forests. Tellus 47B, 170–177.
  • McEvedy, C. and Jones, R. 1978. Atlas of world population history. Penguin Books, Middlesex, England. McGuire, A. D., Melillo, J. M., Kicklighter, D. W., Pan, Y., Xiao, X., Helfrich, J., Moore, B., Vorosmarty, C. J. and Schloss, A. L. 1997. Equilibrium responses of global net primary production and carbon storage to doubled atmospheric carbon dioxide: Sensitivity to changes in vegetation nitrogen concentrations. Global Biogeochem. Cycles 11, 173–189.
  • Melillo, J. M., Fruci, J. R., Houghton, R. A., Moore, B. and Skole, D. L. 1988. Land-use change in the Soviet Union between 1850 and 1980: Causes of a net release of CO2 to the atmosphere. Tellus 40B, 116–128.
  • National economy of the USSR (Narodnoye Khozyaistvo USSR), 1958-1980. Statistika. 1959-1981, Moscow.
  • Olson, J. S., Watts, J. A. and Allison, L. J. 1983. Carbon in live vegetation of major world ecosystems. TR004, US Department of Energy, Washington, DC.
  • Palm, C. A., Houghton, R. A., Melillo, J. M. and Skole, D. L. 1986. Atmospheric carbon dioxide from defor-estation in southeast Asia. Biotropica 18, 177–188.
  • Persson, R. 1974. World forest resources: review of the world's forest resources in the early 1970s. Research note 17, Royal College of Forestry, Stockholm, Sweden.
  • Rayner, P., Enting, I., Francey, R. and Langenfelds, R. 1999. Reconstructing the recent carbon cycle from atmospheric CO2, S“C and 02/N2 observations. Tellus 51B, 213–232
  • Reynolds, R. V. and Pierson, A. H. 1942. Fuelwood used in the US 1630-1930. USDA Circular no. 641, US Department of Agriculture, Washington, DC.
  • Robertson, C. J. 1956. The expansion of the arable area. Scott. Geogr. Mag. 72, 1–20.
  • Schlesinger, W. H. 1986. Changes in soil carbon storage and associated properties with disturbance and recov-ery. In: The changing carbon cycle: a global analysis (eds. Trabalka, J. R. and Reichle, D. E.). Springer-Verlag, New York, 194–220.
  • Schimel, D. S., Alves, D., Enting, I., Heimann, M., Joos, F., Raynaud, D. and Wigley, T. 1996. CO2 and the carbon cycle. In: Climate change 1995 (eds. Hough-ton, J. T., MeiraFilho, L. G., Callendar, B. A., Harris, N., Kattenberg, A. and Maskell, K.). Cam-bridge University Press, Cambridge, 76–86.
  • Shvidenko, A. and Nilsson, S. 1997. Are the Russian forests disappearing? Unasylva 188, 57–64.
  • Shvidenko, A. and Nilsson, S. 1998. Dynamics of forest resources of the former Soviet Union with respect to the carbon budget. In: Carbon mitigation potentials of forestry and wood industry (eds. Kohlmaier, G. H., Weber, M. and Houghton, R. A.). Springer-Verlag, Berlin, pp. 43–62.
  • Tans, P. P., Fung, I. Y. and Takahashi, T. 1990. Observa-tional constraints on the global atmospheric CO2 budget. Science 247, 1431–1438.
  • Tseplyaev, V. P. 1965. The forests of the USSR. Trans-lated by A. Gourevitch. Daniel Davey, New York.
  • Turner, D. P., Koerper, G. J., Harmon, M. E. and Lee, J. J. 1995. A carbon budget for forests of the contermin-ous United States. Ecol. Appl. 5, 421–436.
  • Uhl, C. and Vieira, I. C. G. 1989. Ecological impacts of selective logging in the Brazilian Amazon: a case study from the Paragominas region of the State of Para. Biotropica 21, 98–106.
  • Urquhart, M. C. (editor). 1965. Historical statistics of Canada. MacMillan, Toronto. US Bureau of the Census. 1977. Historical statistics of the US from colonial times to 1970. Washington, DC. VEMAP Members. 1995. Vegetation/ecosystem modeling and analysis project: Comparing biogeogra-phy and biogeochemistry models in a continental-scale study of terrestrial ecosystem responses to climate change and CO2 doubling. Global Biogeochem. Cycles 9, 407–437.
  • Walker, B. H. Steffen, W. L. Canadell, J. and Ingram, J. S. I. (eds.). 1998. Implications of global change for natural and managed ecosystems: a synthesis of GCTE and related research. IGBP Book Series 4. Cambridge University Press.
  • Whittaker, R. H. and Likens, G. E. 1973. Carbon in the biota. In: Carbon and the biosphere (eds. Woodwell, G. M. and Pecan, E. V.). US Atomic Energy Commission, Symposium Series 30, National Technical Information Service, Springfield, Virginia, 281–302.
  • Wigley, T. M. L. and Schimel, D.S.% (eds.) In press. The carbon cycle. Cambridge University Press, Stanford, California.
  • Woods, P. 1989. Effects of logging, drought, and fire on structure and composition of tropical forests in Sabah, Malaysia. Biotropica 21, 290–298.
  • Woodwell, G. M., Hobbie, J. E., Houghton, R. A., Mel-illo, J. M., Moore, B., Peterson, B. J. and Shaver, G. R. 1983. Global deforestation and the atmospheric carbon dioxide problem. Science 222, 1081-1086.
  • Yatsunskiy, V. K. 1982a. Changes in the distribution of agriculture in European Russia from the end of the 18th century until the WWII (Part I). Soy. Geogr. Rev. Trans. 23, 251–269.
  • Yatsunskiy, V. K. 1982a. Changes in the distribution of agriculture in European Russia from the end of the 18th century until the WWII (Part II). Soy. Geogr. Rev. Trans. 23, 326–345.
  • Zon, R. and Sparhawk, W. N. 1923. Forest resources of the world. McGraw-Hill, New York.

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