Advanced search
Publication Cover
Tellus B: Chemical and Physical Meteorology Volume 45, 1993 - Issue 4
Journal homepage
88
Views
15
CrossRef citations to date
0
Altmetric
Original Articles

Modelling feedback mechanisms in the carbon cycle: balancing the carbon budget

J. RotmansNational Institute of Public Health and Environmental Protection, P.O. Box 1, 3720 BA Bilthoven, The Netherlands
&
M. G. J. Den ElzenNational Institute of Public Health and Environmental Protection, P.O. Box 1, 3720 BA Bilthoven, The Netherlands
Pages 301-320 | Received 07 May 1992, Accepted 16 Nov 1992, Published online: 18 Jan 2017

References

  • Bacastow, R., and Keeling, C. D. 1973. Atmospheric carbon dioxide and radiocarbon in the natural carbon cycle (II). Changes from A. D. 1700 to 2070 as deduced from a geochemical model, In Carbon and the biosphere, (eds. G. M. Woodwell and E. V. Pecan) 86-135. U. S. Atomic Energy Commission, Washington, D. C.
  • Barnola, J. M., Raynaud, D., Korotkevitch, Y. S. and Lorius, C. 1987. Vostok ice core provides 160,000-year record of atmospheric CO2. Nature 329, 404 408.
  • Bazzaz, F. A. 1990. The response of natural ecosystems to the rising global CO2 levels. Annual Review of Ecology and Systematics 21, 167–196.
  • Björstri, A. 1979. A model of CO2 interaction between atmosphere, oceans, and land biota. In Bolin, B., Degens, E. T., Kempe, S. and Ketner, P. (eds.) The global carbon cycle, SCOPE 13, 403–457. Wiley and Sons, New York.
  • Bouwman, A. F. 1989. Land evaluation for dry farming. Working Paper, International Soil Reference and Information Center, Wageningen, The Netherlands.
  • Broecker, W. S., Peng, T. H. 1992. Interhemispheric transport of carbon dioxide by ocean circulation. Nature 356, 587–589.
  • Den Elzen, M. G. J., Rotmans, J. and Vloedbeld, M. 1991. Modelling climate related feedback processes. RIVM-report no. 222901007, Bilthoven, The Netherlands.
  • Enting, I. G. and Pearman, G. I. 1987. Description of a one-dimensional global carbon cycle model calibrated using techniques of constrained inversion. Tellus 39B, 459–476.
  • Esser, G. 1987. Sensitivity of global carbon pools and fluxes to human and potential climatic impacts. Tellus 39B, 459–476.
  • Fitter, A. H. and Hay, R. K. M. 1981. Environmental physiology of plants. Academic Press, London, 355 pp.
  • Friedli, H., Lotscher, H., Oeschger, H., Siegenthaler, U. and Stauffer, B. 1986. Ice core record of the 13C/12C ratio of atmospheric CO2 in the past two centuries. Nature 324, 237–238.
  • Gates, D. M. 1985. Global biospheric response to increasing atmospheric carbon dioxide concentration. In: Direct effects of increasing carbon dioxide on vegetation, B. Strain and J. Cure (eds.). Report DOE/ER-0238, US Department of Energy, Washington, D. C.
  • Gifford, R. M. 1980. Carbon storage by the biosphere. In G. I. Pearman (ed.), Carbon dioxide and climate. Australian Academy of Science, Canberra, 167–181.
  • Goudriaan, J. and Ketner, P. 1984. A simulation study for the global carbon cycle including man's impact on the biosphere. Climate Change 6, 167–192.
  • Goudriaan, J. and de Ruiter, H. E. 1983. The effect of CO2 enrihment in interaction with shortage of either nitrogen or phosphorus on plant growth. Netherlands Journal of Agricultural Science 3/, 157–169.
  • Harvey, L. D. 1989a. Managing atmospheric CO2. Climatic Change 15, 343–381.
  • Harvey, L. D. 1989b. Effect of model structure on the response of terrestrial biosphere models to CO2 and temperature increases. Global Biogeochemical Cycles 3, 137–153.
  • Heimann, M. and Keeling, C. D. 1986. Meridional eddy diffusion model of the transport of atmospheric carbon dioxide 1. Seasonal carbon cycle over the tropical pacific ocean. Journal of Geophysical Research 91, 7765–7781.
  • Houghton, R. A., and Woodwell, G. M. 1989. Global climatic change. Scientific American 260, 36–44.
  • Houghton, J. T., Jenkins, G. J. and Ephraums, J. J. (eds.) 1990. Climate change. The IPCC scientific assessment. Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge.
  • Houghton, J.T., Callander, B. A. and Varney, S. K. 1992. Climate change 1992: The supplementary report to the IPCC scientific assessment. Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge.
  • Intergovernmental Panel on Climate Change, IPCC 1991. Climate change: The IPCC response strategies. UNEP/WMO.
  • Jenkinson, D. S., Adams, D. E. and Wild, A. 1991. Model estimates of CO, emissions from soil in response to global warming. Nature 351, 304–306.
  • Kauppi, Mielikainen and Kuusula. 1992. Biomass and carbon budget of European forests, 1971 to 1990. Science 256, 70–74.
  • Keeling, C. D., Bacastow, R. B., Carter, A. F., Piper, S. C., Whorf, T. P., Heimann, M., Mook, W. G. and Roeloffzen, H. 1989. A three-dimensional model of atmospheric CO, transport based on observed winds: 1. analysis of observational data. 165-236, in D. H. Peterson (ed.): Aspects of climate variability in the Pacific and the Western Americas. Geophysical Monograph 55, American Geophysical Union, Washingon, D. C.
  • Keeling, C. D. and Heimann. 1986. Meridional eddy diffusion model of the transport of atmospheric carbon dioxide. 2. Mean annual carbon cycle. Journal of Geophysical Research 91, 7782–7798.
  • Kleijnen, J. P. C., Van Ham, G. and Rotmans, J. 1992. Techniques for sensitivity analysis of simulation models: a case study of the greenhouse effect. Simulation 58, no. 6,410–417.
  • Kohlmaier, G. H., Sire, E. and Janecek, A. 1989. Modelling the seasonal distribution of a CO, fertilization effect of the terrestrial vegetation to the amplitude increase in atmospheric CO, at Mauna Loa Observatory. Tellus 41B, 487–510.
  • Kohlmaier, G. H., Janecek, A., and Kindermann, J. 1990. Positive and negative feedback loops within the vegetation/soil system in response to a CO2 greenhouse warming. In Bouwman, A. F. (ed.): Soils and the greenhouse effect. Wiley, London.
  • Lashof, D. A. 1989. The dynamic greenhouse: feedback processes that may influence future concentrations of atmospheric trace gases and climate change. Climatic Change 14, 213–242.
  • Luxmoore, R. J., O'Neill, E. G., Ells, J. M., Rogers, H. H. 1986. Nutrient uptake and growth responses of Virginia pine to elevated atmospheric carbon dioxide. Journal Environmental Quality 15, 244–251.
  • Melillo, J. M., Callaghan, T. V., Woodward, F. I., Salati, E., and Sinha, S. K. 1990. Effects on Ecosystems. In Houghton, J. T., Jenkins, G. J. and Ephraums, J. J. (eds.), Climate Change: the IPCC scientific assessment. Intergovernmental Panel on Climate Change ( IPCC), Cambridge University Press.
  • Neftel, A., Moor, E., Oeschger, H., and Stauffer, B. 1985. Evidence from polar ice cores for the increase in atmospheric CO, in the past two centuries. Nature 315, 45–47.
  • Olson, J. S., Watts, J. A., Allison, L. J. 1983. Carbon in live vegetation of major world ecosystems. Environmental sciences division publication no. 1997.
  • Quay, P. D., Tilbrook, B. and Wong, C. S. 1992. Oceanic uptake of fossil fuel CO2: carbon-13 evidence. Science 256, 74–79.
  • Rotmans, J. 1990. IMAGE: an integrated model to assess the greenhouse effect. Kluwer Academic Publishers, Dordrecht/Boston/London, The Netherlands.
  • Rotmans, J. and Swart, R. J. 1991. Modelling Deforestation and its Consequences for Global Climate. Ecological Modelling 58, 217–247
  • Sarmiento, J. L., Siegenthaler, U. and Orr, J. C. 1992. A perturbation simulation of CO, uptake in an ocean General Circulation Model. Journal of Geophysical Research 97, 3621–3645.
  • Shugart, H. 1984. A theory of forest dynamics. Springer-Verlag, New-York, 203–206.
  • Siegenthaler, U. and Oeschger, H. 1987. Biospheric CO, emissions during the past 200 years, reconstructed by deconvolution of ice core data. Tellus 39B, 140–154
  • Strain, B. R. and Cure, J. D. eds. 1985. Direct effect on increasing carbon dioxide on vegetation. DOE/ER-0238, United States, Department of Energy, Washington DC.
  • Swart, R. J. and Rotmans, J. 1989. A scenario study on tropical deforestation and effects on the global carbon cycle. National Institute of Public Health and Environment Protection (RIVM). RIVM-report no. 758471007, Bilthoven, The Netherlands.
  • Tans, P. P., Fung, I. Y. and Takahashi, T. 1990. Observational constraints on the global atmospheric CO, budget. Science 247, 1431–1438.
  • Togweiler, J. R., Dixon, K. and Bryan, K. 1989. Simulations of radiocarbon in a coarse-resolution world ocean model 1. Steady state prebomb distributions. Journal of Geophysical Research 94, 8243–8264.
  • Watson, R. T., Rodhe, H., Oeschger, H. and Siegenthaler, U. 1990. Greenhouse gases and aerosols. In Houghton, J. T., Jenkins, G. J. and Ephraums, J. J. (eds.): Climate change: the IPCC scientific assessment, intergovernmental Panel on Climate Change ( IPCC). Cambridge University Press.
  • Webb, W. L., Lauenroth, W. K., Szarek, S. R. and Kinerson, R. S. 1983. Primary production and abiotic controls in forests, grasslands, and desert ecosystems in the United States. Ecology 64, 134–151.
  • Wigley, T. M. L. and Schlesinger, M. E. 1985. Analytical solution for the effect of increasing CO, on global mean temperature. Nature 315, 649–652.
  • Wigley, T. M. L. and Raper, S. C. B. 1987. Thermal expansion of sea water associated with global warming. Nature 330, 127–131.
  • Wigley, T. M. L. 1991. A simple inverse carbon cycle model. Global Biogeochemical Cycles 5, 373–381.
  • Wigley, T. M. L. and Raper, S. C. B. 1987. Implications for climate and sea level of revised IPCC emissions scenarios. Nature 357, 293–300.
  • Wigley, T. M. L. 1993. Balancing the carbon budget: implications for projections of future carbon dioxide concentration changes. 45B, Tellus, in print.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.