A Carbon Cycle Science Update Since IPCC AR-4

A. J. Dolman; G. R. van der Werf; M. K. van der Molen; G. Ganssen; J.-W. Erisman; B. Strengers

doi:10.1007/s13280-010-0083-7

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24 August 2010 A Carbon Cycle Science Update Since IPCC AR-4

A. J. Dolman, G. R. van der Werf, M. K. van der Molen, G. Ganssen, J.-W. Erisman, B. Strengers

Author Affiliations +

A. J. Dolman,^* G. R. van der Werf,^** M. K. van der Molen,^*** G. Ganssen,^**** J.-W. Erisman,^***** B. Strengers^******

^*AUTHOR BIOGRAPHIES
^**A. J. Dolman () is professor in ecohydrology at the VU University Amsterdam. He is an expert in terrestrial carbon cycle processes and (co)leads the GEO task on Integrated Global Carbon Observations and the Terrestrial Observation Panel for Climate. Address: Department of Earth Sciences, VU University Amsterdam, Boelelaan 1085, 1081, HV, Amsterdam, The Netherlands. e-mail: han.dolman@falw.vu.nl
^***G. R. van der Werf is senior researcher at the VU University Amsterdam. He is an expert in estimating emissions from fires and deforestation. He is one of the authors of the Global Fire Emissions Database (GFED, http://www.falw.vu/∼gwerf/GFED/). Address: Department of Earth Sciences, VU University Amsterdam, Boelelaan 1085, 1081, HV, Amsterdam, The Netherlands.
^****M. K. van der Molen was senior researcher at the VU University Amsterdam. He specializes in carbon cycle processes at high latitudes (Siberia) and regional scale atmospheric modelling. He is currently at the Department of Meteorology and Air Quality at Wageningen University. Address: Department of Earth Sciences, VU University Amsterdam, Boelelaan 1085, 1081, HV, Amsterdam, The Netherlands.
^*****G. Ganssen is associate professor in marine biogeoloy at the VU University Amsterdam. He is an expert in ocean acidification processes. He is a former president of the European Geosciences Union (EGU). Address: Department of Earth Sciences, VU University Amsterdam, Boelelaan 1085, 1081, HV, Amsterdam, The Netherlands.
^******J.-W. Erisman is professor in Integrated Nitrogen Dynamics at the VU University Amsterdam and unit manager Biomass, Coal & Environmental research at the Energy Research Center of the Netherlands. He is involved in many integrated nitrogen assessment studies. Address: Department of Earth Sciences, VU University Amsterdam, Boelelaan 1085, 1081, HV, Amsterdam, The Netherlands.

AMBIO: A J. of the Human Environment, 39(6):402-412 (2010). https://doi.org/10.1007/s13280-010-0083-7

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Abstract

We review important advances in our understanding of the global carbon cycle since the publication of the IPCC AR4. We conclude that: the anthropogenic emissions of CO₂ due to fossil fuel burning have increased up through 2008 at a rate near to the high end of the IPCC emission scenarios; there are contradictory analyses whether an increase in atmospheric fraction, that might indicate a declining sink strength of ocean and/or land, exists; methane emissions are increasing, possibly through enhanced natural emission from northern wetland, methane emissions from dry plants are negligible; old-growth forest take up more carbon than expected from ecological equilibrium reasoning; tropical forest also take up more carbon than previously thought, however, for the global budget to balance, this would imply a smaller uptake in the northern forest; the exchange fluxes between the atmosphere and ocean are increasingly better understood and bottom up and observation-based top down estimates are getting closer to each other; the North Atlantic and Southern ocean take up less CO₂, but it is unclear whether this is part of the ‘natural’ decadal scale variability; large-scale fires and droughts, for instance in Amazonia, but also at Northern latitudes, have lead to significant decreases in carbon uptake on annual timescales; the extra uptake of CO₂ stimulated by increased N-deposition is, from a greenhouse gas forcing perspective, counterbalanced by the related additional N₂O emissions; the amount of carbon stored in permafrost areas appears much (two times) larger than previously thought; preservation of existing marine ecosystems could require a CO² stabilization as low as 450 ppm; Dynamic Vegetation Models show a wide divergence for future carbon trajectories, uncertainty in the process description, lack of understanding of the CO₂ fertilization effect and nitrogen—carbon interaction are major uncertainties.

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A. J. Dolman, G. R. van der Werf, M. K. van der Molen, G. Ganssen, J.-W. Erisman, and B. Strengers "A Carbon Cycle Science Update Since IPCC AR-4," AMBIO: A Journal of the Human Environment 39(6), 402-412, (24 August 2010). https://doi.org/10.1007/s13280-010-0083-7

Received: 3 July 2009; Accepted: 26 June 2010; Published: 24 August 2010

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AMBIO: A Journal of the Human Environment

AMBIO: A Journal of the Human Environment
Vol. 39 • No. 6
September 2010

KEYWORDS

Carbon budgets

Carbon-climate feedback

Global carbon cycle

ocean acidification

Terrestrial uptake

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A. J. Dolman, G. R. van der Werf, M. K. van der Molen, G. Ganssen, J.-W. Erisman, B. Strengers "A Carbon Cycle Science Update Since IPCC AR-4," AMBIO: A Journal of the Human Environment, 39(6), 402-412, (24 August 2010)

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