Dryland mechanisms could widely control ecosystem functioning in a drier and warmer world

Responses of terrestrial ecosystems to climate change have been explored in many regions worldwide. While continued drying and warming may alter process rates and deteriorate the state and performance of ecosystems, it could also lead to more fundamental changes in the mechanisms governing ecosystem...

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Veröffentlicht in:	Nature ecology & evolution 2022-08, Vol.6 (8), p.1064-1076
Hauptverfasser:	Grünzweig, José M., De Boeck, Hans J., Rey, Ana, Santos, Maria J., Adam, Ori, Bahn, Michael, Belnap, Jayne, Deckmyn, Gaby, Dekker, Stefan C., Flores, Omar, Gliksman, Daniel, Helman, David, Hultine, Kevin R., Liu, Lingli, Meron, Ehud, Michael, Yaron, Sheffer, Efrat, Throop, Heather L., Tzuk, Omer, Yakir, Dan
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Schlagworte:	631/158/2165 631/158/2445 704/158/2165 704/158/2445 Arid zones Biological and Physical Anthropology Biomedical and Life Sciences Carbon cycle Climate change Climatic zones Drying Ecological function Ecology Ecosystems Energy budget Evolutionary Biology Life Sciences Nutrient cycles Organic matter Paleontology Perspective Plant production Terrestrial ecosystems Water flow Zoology
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creator	Grünzweig, José M. De Boeck, Hans J. Rey, Ana Santos, Maria J. Adam, Ori Bahn, Michael Belnap, Jayne Deckmyn, Gaby Dekker, Stefan C. Flores, Omar Gliksman, Daniel Helman, David Hultine, Kevin R. Liu, Lingli Meron, Ehud Michael, Yaron Sheffer, Efrat Throop, Heather L. Tzuk, Omer Yakir, Dan
description	Responses of terrestrial ecosystems to climate change have been explored in many regions worldwide. While continued drying and warming may alter process rates and deteriorate the state and performance of ecosystems, it could also lead to more fundamental changes in the mechanisms governing ecosystem functioning. Here we argue that climate change will induce unprecedented shifts in these mechanisms in historically wetter climatic zones, towards mechanisms currently prevalent in dry regions, which we refer to as ‘dryland mechanisms’. We discuss 12 dryland mechanisms affecting multiple processes of ecosystem functioning, including vegetation development, water flow, energy budget, carbon and nutrient cycling, plant production and organic matter decomposition. We then examine mostly rare examples of the operation of these mechanisms in non-dryland regions where they have been considered irrelevant at present. Current and future climate trends could force microclimatic conditions across thresholds and lead to the emergence of dryland mechanisms and their increasing control over ecosystem functioning in many biomes on Earth. In drylands, there are unique mechanisms that influence multiple ecosystem processes. In this Perspective, the authors identify these dryland mechanisms and show that they could become more important in non-dryland regions or areas that will become drier in the future.
doi_str_mv	10.1038/s41559-022-01779-y
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While continued drying and warming may alter process rates and deteriorate the state and performance of ecosystems, it could also lead to more fundamental changes in the mechanisms governing ecosystem functioning. Here we argue that climate change will induce unprecedented shifts in these mechanisms in historically wetter climatic zones, towards mechanisms currently prevalent in dry regions, which we refer to as ‘dryland mechanisms’. We discuss 12 dryland mechanisms affecting multiple processes of ecosystem functioning, including vegetation development, water flow, energy budget, carbon and nutrient cycling, plant production and organic matter decomposition. We then examine mostly rare examples of the operation of these mechanisms in non-dryland regions where they have been considered irrelevant at present. Current and future climate trends could force microclimatic conditions across thresholds and lead to the emergence of dryland mechanisms and their increasing control over ecosystem functioning in many biomes on Earth. In drylands, there are unique mechanisms that influence multiple ecosystem processes. 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title	Dryland mechanisms could widely control ecosystem functioning in a drier and warmer world
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