E
E.-D. Schulze
Researcher at Max Planck Society
Publications - 6
Citations - 911
E.-D. Schulze is an academic researcher from Max Planck Society. The author has contributed to research in topics: Carbon sink & Carbon dioxide equivalent. The author has an hindex of 4, co-authored 6 publications receiving 855 citations.
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Journal ArticleDOI
Europe's terrestrial biosphere absorbs 7 to 12% of European anthropogenic CO2 emissions
Ivan A. Janssens,Annette Freibauer,P. Ciais,P. Smith,Gert-Jan Nabuurs,Gerd A. Folberth,Bernhard Schlamadinger,Ronald Hutjes,Reinhart Ceulemans,E.-D. Schulze,Riccardo Valentini,A. J. Dolman +11 more
TL;DR: In this article, carbon stocks in terrestrial ecosystems increase at a much smaller rate, with carbon gains in forests and grassland soils almost being offset by carbon losses from cropland and peat soils accounting for non-carbon dioxide carbon transfers.
Journal ArticleDOI
Leaf trait relationships in Australian plant species
Ian J. Wright,Philip K. Groom,Byron B. Lamont,Pieter Poot,Lynda D. Prior,Peter B. Reich,E.-D. Schulze,Erik J. Veneklaas,Mark Westoby +8 more
TL;DR: Leaf trait data were compiled for 258 Australian plant species from several habitat types dominated by woody perennials to form a spectrum of variation running from species with cheap but frequently replaced leaves to those with strategies more attuned to a nutrient-conserving lifestyle.
Journal ArticleDOI
Temperature sensitivity of decomposition in relation to soil organic matter pools: critique and outlook
Markus Reichstein,Thomas Kätterer,Olof Andrén,P. Ciais,E.-D. Schulze,Wolfgang Cramer,Dario Papale,Riccardo Valentini +7 more
TL;DR: The authors showed that negative parameter correlations between Q10-values and base respiration rates are statistically expected and not necessarily provide evidence for a higher temperature sensitivity of low quality soil organic matter.
Book ChapterDOI
The potential for rising CO2 to account for the observed uptake of carbon by tropical, temperate, and boreal forest biomes
Philippe Ciais,Ivan A. Janssens,Anatoly Shvidenko,Christian Wirth,Yadvinder Malhi,John Grace,E.-D. Schulze,Martin Heimann,Oliver L. Phillips,A J Han Dolman +9 more
TL;DR: In this paper, the authors analyzed the NPP:NBP ratios in terms of the role of CO2 fertilization and showed that the tropical forest NBP carbon sink can be entirely explained by a CO2-induced enhancement of NPP, whereas such a mechanism can only account for 10% of the European sink and up to 50% of Siberian sink.