Authors
Alberte Bondeau, Pascalle C Smith, Sönke Zaehle, Sibyll Schaphoff, Wolfgang Lucht, Wolfgang Cramer, Dieter Gerten, HERMANN LOTZE‐CAMPEN, Christoph Müller, Markus Reichstein, Benjamin Smith
Publication date
2007/3
Journal
Global Change Biology
Volume
13
Issue
3
Pages
679-706
Publisher
Blackwell Publishing Ltd
Description
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 …
Total citations
Scholar articles
A Bondeau, PC Smith, S Zaehle, S Schaphoff, W Lucht… - Global Change Biology, 2007