Under conditions of climate change, water availability in temperate grasslands is projected to decrease, and extreme events – including droughts - to increase. A thorough understanding of species responses to drought, of the traits governing drought responses, and how they affect community assembly and ecosystem function is necessary for projections of consequences of climate change for the future. In this study, we comparatively assess whole-plant drought tolerance of 38 grassland species, and identify the key traits for differential drought responses, through directly linking physiological, anatomical and morphological traits that influence species water relations to the species’ drought tolerance.
A project within the Biodiversity Exploratories, DFG Priority Programme 1374.
[Details]BayCEER-Kolloquium: |
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Do. 16.05.2024 Dimethylated thioarsenates: potentially dangerous hidden arsenic species in rice and rice products |
Dialog: |
Fr. 17.05.2024 Forum Zukunftswald: Bodenvegetation: Erkennen und deren Bedeutung für den Waldbau |
Ökologisch-Botanischer Garten: |
So. 05.05.2024 Führung | Faszination Englische Gärten: Gestaltung und Pflanzen |
So. 05.05.2024 Midissage | da capo - Ausstellung von Doris Bocka |
Mi. 15.05.2024 Kurzführung | "Botanische Mittagspause" |