Abstract
EVIDENCE from ice cores1 indicates that concentrations of atmospheric carbon dioxide were lower by about 75 p.p.m. during the Last Glacial Maximum (LGM; ∼18,000 years ago) than during the present interglacial (10,000 years ago to the present). The causes of such large changes in atmospheric CO2 remain uncertain. Using a climate model, Prentice and Fung2 have estimated that there was approximately the same amount of carbon in vegetation and soils during the LGM as there was during the present (pre-industrial) interglacial. In contrast, we present here results based on palynological, pedological and sedimentological evidence which indicate that in fact the amount of carbon in vegetation, soils and peatlands may have been smaller during the LGM by ∼1.3x 1012 tonnes. Thus, organic carbon in vegetation and soils has more than doubled (from 0.96 to 2.3 x 1012 tonnes) since the LGM. Oceanic CO2 reservoirs seem to be the only possible source of this large quantity of carbon that has entered the terrestrial biosphere since the LGM (in addition to that which has entered the atmosphere to give the higher interglacial CO2 levels).
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References
Neftel, A. H., Oeschger, J., Schwander B. & Zumbrunn, R. Nature 295, 220–223 (1982).
Prentice, K. C. & Fung, I. Z. Nature 346, 48–51 (1990).
Olson, J. S., Watts, J. A. & Allinson, L. J. Carbon in Live Vegetation in Major World Ecosystems, Environmental Sciences Division Publ. No. 1997 (Oak Ridge National Laboratory, 1983).
Prentice, K. C. J. geophys. Res. (in the press).
Woodward, F. I. Climate and Plant Distribution (Cambridge University Press, 1987).
Neustadt, M. I. in Late Quaternary Environments of the Soviet Union (ed. Velichko, A. A.) 201–206 English edn (eds Wright, H. E. & Barnowsky, C. W.) (Longman, London, 1984).
Post, W. M., Emanuel, W. R., Zinke, P. J. & Stangenberger, A. G. Nature 298, 156–159 (1982).
Bonn, H. L. Soil Sci. Soc. Am. J. 46, 1118–1119 (1982).
Schlesinger, W. H. in Role of Terrestrial Vegetation in the Global Carbon Cycle, SCOPE 23 (ed. Woodwell, G. M.) 109–111 (1984).
Faure, H. Palaeogeogr. Palaeoclimatol. Palaeoecol. 82, 47–52 (1990).
Shackleton, N. J. in The Fate of Fossil Fuel CO2 in the Oceans (eds Andersen, N. R. & Malahoff, A.) 220–261 (Plenum, New York, 1977).
UNESCO International Classification and Mapping of Vegetation (UNESCO, Paris 1973).
Ritchie, J. C. Postglacial Vegetation of Canada (Cambridge University Press, 1982).
Jacobson, G. L., Webb, T. III & Grimm, E. C. in Geology of North America Vol. K3, (eds Ruddiman, W. F. & Wright, H. E.) 277–288 (Geol. Soc. Am., 1987).
Delcourt, P. A. & Delcourt, H. R. Quat. Sci. Rev. 6, 129–146 (1987).
Barnosky, C. W., Anderson, P. M. & Bartlein, P. J. in Geology of North America Vol. K3 (eds Ruddiman, W. F. & Wright, H. E.) 289–322 (Geol. Soc. Am., 1987).
Thompson, R. S. in Handbook of Vegetation Science Vol. 7 (eds Huntley, B. & Webb, T. III) 415–458 (Kluwer, Dordrecht, 1989).
Bush, M. B. & Colinvaux, P. A. J. Veg. Sci. 1, 105–118 (1990).
Colinvaux, P. A. Quat. Sci. Rev. 6, 93–114 (1987).
Villigran, C. Quat. Res. 30, 304–314 (1988).
Ashworth, A. C. & Markgraf, V. Rev. Chilenia Hist. Nat. 62, 61–74 (1989).
Heusser, C. J. Quat. S. Am. Antarctic Peninsula 5, 197–221 (1987).
Iriondo, M. H. Quat. S. Am. Antarctic Peninsula 6, 161 (1989).
Irion, G. in Botanical Dynamics, Speciation and Diversity (eds Holm-Nielson, L. B., Nielson, I. C. & Balslev, H.) 23–24 (Academic, London, 1989).
Velichko, A. A., Pecsii, M. & Frenzel, B. (eds) Late Pleistocene-Holocene Atlas Monograph (Geographical Research Institute, Hungarian Academy of Sciences, Budapest, in the press).
Turner, C. & Hannon, G. E. Phil. Trans. R. Soc. B318, 451–485 (1988).
Hooghiemstra, H. Phil. Trans. R. Soc. B318, 431–449 (1988).
Lezine, A. M. Quat. Res. 32, 317–334 (1989).
Hamilton, A. C. Environmental History of East Africa (Academic, London, 1982).
Van Campo, E., Duplessy, J. C. & Rossignol-Strick, M. Nature 296, 56 (1982).
Van Zinderen Bakker, E. M. & Coetzee, J. A. Rev. Palaeobot. Palynol. 33, 151–174 (1988).
Deacon, J. & Lancaster, N. Late Quaternary Environments of Southern Africa (Clarendon, Oxford, 1988).
Close, E. & Wendorf, F. in The World at 18,000 BP Vol. 2 (eds Softer, O. & Gamble, G.) Ch. 2 (Unwin Hyman, London, 1990).
Bar-Yosef, O. in The World at 18,000 BP Vol. 2 (eds Soffer, O. & Gamble, G.) Ch. 3 (Unwin Hyman, London, 1990).
Davis R. S. in The World at 18,000 BP Vol. 1 (eds Soffer, O. & Gamble, G.) Ch. 14, 266–275 (Unwin Hyman, London, 1990).
Velichko, A. A. & Kurenkova, A. A. in The World at 18,000 BP Vol. 1 (eds Soffer, O. & Gamble, G.) Ch. 13, 255–265 (Unwin Hyman, London 1990).
Tsukada, M. in Handbook of Vegetation Sci. Vol. 7 (eds Huntley, B. & Webb, T. III) 459–518 (Kluwer, Dordrecht, 1988).
Guanguan, M. & Shaoqing, W. Chin. J. Limnol. 7, 368–379 (1989).
Liu, K-B. Abstr. 9th Biennial Mtg. Am. Quat. Ass., 94 (Boulder, 1986).
Liu, K-B. Quat. Sci. Rev. 7, 1–20 (1988).
Caratini, C. & Tissot, C. Rev. Palaeobot. Palynol. 55, 217–228 (1988).
Morley, R. J. & Flenley, J. R. Biogeography of the Malay Archipelago (ed. Whitmore, T. C.) (Oxford University Press, 1986).
Agrawal, D. P., Dodia, R. & Seth, M. in The World at 18,000 BP Vol. 2 (eds Soffer, O. & Gamble, G.) Ch. 11, 231–235 (Unwin Hyman, London, 1990).
Van Campo, E. Quat Res. 26, 376–388 (1986).
Gasse, F., Tehet, R., Durand, A., Gilbert, E. & Fontes, J-C. Nature 346, 141–146 (1990).
Van der Kaars, W. A. thesis. Univ. Amsterdam (1990).
Hope, G. in Proc. 33rd Symp. CLIMANZ (eds Donolly, T. & Wasson, R. J.) 91–99 (CSIRO, Canberra, 1989).
McGlone M. S. in Handbook of Vegetation Science Vol. 7 (eds Huntley, B. & Webb, T. III) 568–599 (Kluwer, Dordrecht, 1988).
Cannell, M. G. R. World Forest Biomass and Primary Production Data (Academic, London, 1982).
Ajtay, G. L., Ketner, P. & Duvigneaud, P. in The Global Carbon Cycle, SCOPE 13 (eds Bolin, B, Degens, E. T., Kempe, S. & Ketner, P.) Ch. 5, 129–181 (Wiley, Chichester, 1979).
Rodin, L. E., Bazilevich, N. I. & Rozov, N. N. in Productivity of World Ecosystems, 13–26 (Natn. Acad. Sci., 1975).
Brown, S., Gillespie, J. R. & Lugo, A. E. For. Sci. 35, 881–902 (1989).
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Adams, J., Faure, H., Faure-Denard, L. et al. Increases in terrestrial carbon storage from the Last Glacial Maximum to the present. Nature 348, 711–714 (1990). https://doi.org/10.1038/348711a0
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DOI: https://doi.org/10.1038/348711a0
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