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Ernst Detlef Schulze
Researcher at Max Planck Society
Publications - 683
Citations - 75342
Ernst Detlef Schulze is an academic researcher from Max Planck Society. The author has contributed to research in topics: Biodiversity & Ecosystem. The author has an hindex of 133, co-authored 670 publications receiving 69504 citations. Previous affiliations of Ernst Detlef Schulze include University of Idaho & University of Utah.
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Performance of two Picea abies (L.) Karst. stands at different stages of decline : VIII. Photosynthesis and nutrition under polluted and clean air conditions of Germany and New Zealand
TL;DR: It is confirmed that there is no long-term effect of atmospheric pollutants directly on photosynthetic CO2 uptake rates with persistent exposure at the FRG site to high levels of anthropogenic air pollution.
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Net ecosystem productivity and peat accumulation in a Siberian Aapa mire
TL;DR: In this paper, the authors used peat accumulation above the hypocotyl of pine trees and the eddy covariance flux methodology to measure the net ecosystem productivity in a bog located in the middle taiga of Siberia.
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The effect of humidity and light on cellular water relations and diffusion conductance of leaves ofTradescantia virginiana L.
TL;DR: A water-potential gradient, which was dependent on the rate of transpiration, was found between epidermis and mesophyll and between tip and base of the test leaf and appeared to be constant over a wide range of epidermal turgor pressures.
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Soil organic carbon and total nitrogen gains in an old growth deciduous forest in Germany.
TL;DR: Results of regression analyses between changes in OC and TN stocks suggest that at no change in OC, still 3.8 g TN m−2 yr−1 accumulated, and potential causes for the increase in TN in excess to OC are fixation of inorganic N by the clay-rich soil or changes in microbial communities.
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Responses of Vigna unguiculata (L.) Walp. to atmospheric and soil drought
TL;DR: In V. unguiculata, stomata appear to be more sensitive to soil drought than growth of leaves, and leaf conductance decreased more rapidly than CO2 assimilation during development of soil drought.