M
Martin Heimann
Researcher at Max Planck Society
Publications - 322
Citations - 39871
Martin Heimann is an academic researcher from Max Planck Society. The author has contributed to research in topics: Carbon cycle & Climate change. The author has an hindex of 97, co-authored 315 publications receiving 36542 citations. Previous affiliations of Martin Heimann include VU University Amsterdam & University of Helsinki.
Papers
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The vulnerability of the carbon cycle in the 21st century: an assessment of carbon-climate-human interactions
Nicolas Gruber,Pierre Friedlingstein,Christopher B. Field,R. Valentini,Martin Heimann,Jeffrey E. Richey,Patricia Romero Lankao,Ernst Detlef Schulze,Chen-Tung Arthur Chen +8 more
TL;DR: Friedlingstein et al. as mentioned in this paper explored the network of feedbacks between the physical climate system and the carbon cycle and found that human actions can also lead to feedbacks on climate.
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Evaluation of terrestrial carbon cycle models through simulations of the seasonal cycle of atmospheric CO2: First results of a model intercomparison study
Martin Heimann,Gerd Esser,Alex Haxeltine,Jörg Kaduk,Jörg Kaduk,David W. Kicklighter,Wolfgang Knorr,G. H. Kohlmaier,A. D. McGuire,Jerry M. Melillo,Berrien Moore,R. D. Otto,Iain Colin Prentice,W. Sauf,Annette L. Schloss,Stephen Sitch,Stephen Sitch,Uwe Wittenberg,G. Würth +18 more
TL;DR: In this paper, an intercomparison among terrestrial biogeochemical models (TBMs) is reported, in which one diagnostic and five prognostic models have been run with the same long-term climate forcing.
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A method of determining rooting depth from a terrestrial biosphere model and its impacts on the global water and carbon cycle
Axel Kleidon,Martin Heimann +1 more
TL;DR: In this paper, a method of inferring rooting depth from a Terrestrial Biosphere Model by maximizing the benefit of the vegetation within the model is presented. But this method is limited to the tropical regions of the world.
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Three-dimensional simulation of 7Be in a global climate model
TL;DR: In this article, a simple parameterization in which the simulated condensation rate determines the scavenging frequency in each grid cell is used in the tracer transport model GLOMAC1, which is embedded in the meteorological model ECHAM2.
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Testing global ocean carbon cycle models using measurements of atmospheric O2 and CO2 concentration
Britton B. Stephens,Ralph F. Keeling,Martin Heimann,Katharina Six,Richard J. Murnane,Ken Caldeira +5 more
TL;DR: In this article, the authors compare the performance of global ocean carbon cycle models using measurements of atmospheric O2 and CO2 concentration, and find that the models significantly underestimate the interhemispheric difference in APO, suggesting that they underestimate the net southward transport of the sum of O2 in the oceans.