M
Manfred Küppers
Researcher at University of Hohenheim
Publications - 65
Citations - 2452
Manfred Küppers is an academic researcher from University of Hohenheim. The author has contributed to research in topics: Stomatal conductance & Transpiration. The author has an hindex of 23, co-authored 65 publications receiving 2356 citations. Previous affiliations of Manfred Küppers include Commonwealth Scientific and Industrial Research Organisation & Australian National University.
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The 12,460-year Hohenheim Oak and pine tree-ring chronology from central Europe: A unique annual record for radiocarbon calibration and paleoenvironment reconstructions
Michael Friedrich,Sabine Remmele,Bernd Kromer,Jutta Hofmann,Marco Spurk,Klaus Felix Kaiser,Christian Orcel,Manfred Küppers +7 more
TL;DR: In this paper, the authors presented the revised Holocene oak chronology (HOC) and the Preboreal pine chronology with respect to revisions, critical links, and extensions.
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Ecological significance of above-ground architectural patterns in woody plants: A question of cost-benefit relationships.
TL;DR: Recent work has shown that an integrated view of carbon gain, increment of biomass and its architectural arrangement in space is essential in assessing cost-benefit relationships of crown formation and structure, especially in situations where crowns compete for space and light.
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Responses to humidity by stomata of Nicotiana glauca L. and Corylus avellana L. are consistent with the optimization of carbon dioxide uptake with respect to water loss
TL;DR: The results represent the first experimental support for a recent hypothesis that stomata vary their apertures in such a manner as to keep δE/δA constant, which optimizes carbon gain with respect to water loss.
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Chlorophyll a Fluorescence and Photosynthetic and Growth Responses of Pinus radiata to Phosphorus Deficiency, Drought Stress, and High CO2
TL;DR: Results indicate that electron flow subsequent to photosystem II was affected by drought stress and showed that CO(2) enrichment improved the ability of the seedlings to acclimate to drought stress.
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Stomatal conductance, transpiration and sap flow of tropical montane rain forest trees in the southern Ecuadorian Andes.
TL;DR: An upper limit to transpiration in the investigated trees is indicated, even when soil water supply was not limiting, which indicates whole-plant water use was more pronounced among trees differing in size and crown status than among species.