J
J. Strassemeyer
Researcher at Technical University of Berlin
Publications - 3
Citations - 1851
J. Strassemeyer is an academic researcher from Technical University of Berlin. The author has contributed to research in topics: Soil water & Photosynthesis. The author has an hindex of 3, co-authored 3 publications receiving 1709 citations.
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Journal ArticleDOI
Temperature response of parameters of a biochemically based model of photosynthesis. II. A review of experimental data
Belinda E. Medlyn,Belinda E. Medlyn,Erwin Dreyer,David S. Ellsworth,M. Forstreuter,Peter Harley,Miko U. F. Kirschbaum,X. Le Roux,Pierre Montpied,J. Strassemeyer,A. S. Walcroft,A. S. Walcroft,Kai-Yun Wang,Denis Loustau +13 more
TL;DR: In this article, a commonly used biochemically based photosynthesis model was parameterized from 19 gas exchange studies on tree and crop species, which described the shape and amplitude of the temperature responses of the maximum rate of Rubisco activity (V cmax) and the potential rate of electron transport (J max ).
Journal ArticleDOI
Stomatal conductance of forest species after long‐term exposure to elevated CO2 concentration: a synthesis
Belinda E. Medlyn,Belinda E. Medlyn,Craig V. M. Barton,M. S. J. Broadmeadow,Reinhart Ceulemans,P. De Angelis,M. Forstreuter,Michael Freeman,S. B. Jackson,Seppo Kellomäki,E. Laitat,Ana Rey,P. Roberntz,Bjarni D. Sigurdsson,J. Strassemeyer,Kai-Yun Wang,Peter S. Curtis,Paul G. Jarvis +17 more
TL;DR: Data from 13 long-term (> 1 yr), field-based studies of the effects of elevated CO2 concentration on European forest tree species were analysed using meta-analysis and modelling and the synthesis will aid future modelling studies of responses of forest trees to elevated [CO2 ].
Journal ArticleDOI
Effects of elevated (CO2) on photosynthesis in European forest species: a meta-analysis of model parameters
Belinda E. Medlyn,Belinda E. Medlyn,Franz-W. Badeck,D. G.G. De Pury,Craig V. M. Barton,M. S. J. Broadmeadow,Reinhart Ceulemans,P. De Angelis,M. Forstreuter,M. E. Jach,Seppo Kellomäki,E. Laitat,Michal V. Marek,S. Philippot,Ana Rey,J. Strassemeyer,K. Laitinen,R. Liozon,B. Portier,P. Roberntz,Kai-Yun Wang,Paul G. Jarvis +21 more
TL;DR: It was concluded that the current model is adequate to model photosynthesis in elevated [CO2], and the underlying biochemistry of photosynthesis was affected, as shown by a down-regulation of the parameters Jmax and Vcmax of the order of 10%.