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Global Change Biology
Volume 13, Issue 3

Modelling the role of agriculture for the 20th century global terrestrial carbon balance

ALBERTE BONDEAU

Potsdam Institute for Climate Impact Research (PIK), Telegrafenberg, PO Box 601203, D‐14412 Potsdam, Germany,

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PASCALLE C. SMITH

Potsdam Institute for Climate Impact Research (PIK), Telegrafenberg, PO Box 601203, D‐14412 Potsdam, Germany,

1Present address: Laboratoire des Sciences du Climat et de l'Environnement, Orme des Merisiers, F‐91191 Gif‐sur‐Yvette, France.

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SÖNKE ZAEHLE

Potsdam Institute for Climate Impact Research (PIK), Telegrafenberg, PO Box 601203, D‐14412 Potsdam, Germany,

1Present address: Laboratoire des Sciences du Climat et de l'Environnement, Orme des Merisiers, F‐91191 Gif‐sur‐Yvette, France.

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SIBYLL SCHAPHOFF

Potsdam Institute for Climate Impact Research (PIK), Telegrafenberg, PO Box 601203, D‐14412 Potsdam, Germany,

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WOLFGANG LUCHT

Potsdam Institute for Climate Impact Research (PIK), Telegrafenberg, PO Box 601203, D‐14412 Potsdam, Germany,

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WOLFGANG CRAMER

Potsdam Institute for Climate Impact Research (PIK), Telegrafenberg, PO Box 601203, D‐14412 Potsdam, Germany,

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DIETER GERTEN

Potsdam Institute for Climate Impact Research (PIK), Telegrafenberg, PO Box 601203, D‐14412 Potsdam, Germany,

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HERMANN LOTZE‐CAMPEN

Potsdam Institute for Climate Impact Research (PIK), Telegrafenberg, PO Box 601203, D‐14412 Potsdam, Germany,

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CHRISTOPH MÜLLER

Potsdam Institute for Climate Impact Research (PIK), Telegrafenberg, PO Box 601203, D‐14412 Potsdam, Germany,

International Max Planck Research School on Earth System Modelling, Bundesstr. 53, 20146 Hamburg, Germany

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MARKUS REICHSTEIN

Potsdam Institute for Climate Impact Research (PIK), Telegrafenberg, PO Box 601203, D‐14412 Potsdam, Germany,

Department of Forest Environment and Resources, DISAFRI, University of Tuscia, I‐01100 Viterbo, Italy,

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BENJAMIN SMITH

Department of Physical Geography and Ecosystems Analysis, Geobiosphere Science Centre, Lund University, S‐223 62 Lund, Sweden,

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First published: 06 December 2006
https://doi.org/10.1111/j.1365-2486.2006.01305.x
Citations: 755
Alberte Bondeau, tel. +49 331 288 2546, fax +49 331 288 2600, e‐mail: Alberte.Bondeau@pik‐potsdam.de

Authorship after Lucht is alphabetical.

Abstract

In order to better assess the role of agriculture within the global climate‐vegetation system, we present a model of the managed planetary land surface, Lund–Potsdam–Jena managed Land (LPJmL), which simulates biophysical and biogeochemical processes as well as productivity and yield of the most important crops worldwide, using a concept of crop functional types (CFTs). Based on the LPJ‐Dynamic Global Vegetation Model, LPJmL simulates the transient changes in carbon and water cycles due to land use, the specific phenology and seasonal CO2 fluxes of agricultural‐dominated areas, and the production of crops and grazing land. It uses 13 CFTs (11 arable crops and two managed grass types), with specific parameterizations of phenology connected to leaf area development. Carbon is allocated daily towards four carbon pools, one being the yield‐bearing storage organs. Management (irrigation, treatment of residues, intercropping) can be considered in order to capture their effect on productivity, on soil organic carbon and on carbon extracted from the ecosystem. For transient simulations for the 20th century, a global historical land use data set was developed, providing the annual cover fraction of the 13 CFTs, rain‐fed and/or irrigated, within 0.5° grid cells for the period 1901–2000, using published data on land use, crop distributions and irrigated areas. Several key results are compared with observations. The simulated spatial distribution of sowing dates for temperate cereals is comparable with the reported crop calendars. The simulated seasonal canopy development agrees better with satellite observations when actual cropland distribution is taken into account. Simulated yields for temperate cereals and maize compare well with FAO statistics. Monthly carbon fluxes measured at three agricultural sites also compare well with simulations. Global simulations indicate a ∼24% (respectively ∼10%) reduction in global vegetation (respectively soil) carbon due to agriculture, and 6–9 Pg C of yearly harvested biomass in the 1990s. In contrast to simulations of the potential natural vegetation showing the land biosphere to be an increasing carbon sink during the 20th century, LPJmL simulates a net carbon source until the 1970s (due to land use), and a small sink (mostly due to changing climate and CO2) after 1970. This is comparable with earlier LPJ simulations using a more simple land use scheme, and within the uncertainty range of estimates in the 1980s and 1990s. The fluxes attributed to land use change compare well with Houghton's estimates on the land use related fluxes until the 1970s, but then they begin to diverge, probably due to the different rates of deforestation considered. The simulated impacts of agriculture on the global water cycle for the 1990s are∼5% (respectively∼20%) reduction in transpiration (respectively interception), and∼44% increase in evaporation. Global runoff, which includes a simple irrigation scheme, is practically not affected.

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