Rapid shifts in grassland communities driven by climate change

Many terrestrial plant communities, especially forests, have been shown to lag in response to rapid climate change. Grassland communities may respond more quickly to novel climates, as they consist mostly of short-lived species, which are directly exposed to macroclimate change. Here we report the r...

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Veröffentlicht in:	Nature ecology & evolution 2024-12, Vol.8 (12), p.2252-2264
Hauptverfasser:	Zhu, Kai, Song, Yiluan, Lesage, Josephine C., Luong, Justin C., Bartolome, James W., Chiariello, Nona R., Dudney, Joan, Field, Christopher B., Hallett, Lauren M., Hammond, Michele, Harrison, Susan P., Hayes, Grey F., Hobbs, Richard J., Holl, Karen D., Hopkinson, Peter, Larios, Loralee, Loik, Michael E., Prugh, Laura R.
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Schlagworte:	631/158/2165 631/158/2453 631/158/670 631/158/853 Biodiversity Biological and Physical Anthropology Biomedical and Life Sciences California Climate Change Community composition Ecology Evolutionary Biology Global warming Grassland Grasslands Life Sciences Niches Observational studies Paleontology Plant communities Plant layout Plant species Plants Species Zoology
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creator	Zhu, Kai Song, Yiluan Lesage, Josephine C. Luong, Justin C. Bartolome, James W. Chiariello, Nona R. Dudney, Joan Field, Christopher B. Hallett, Lauren M. Hammond, Michele Harrison, Susan P. Hayes, Grey F. Hobbs, Richard J. Holl, Karen D. Hopkinson, Peter Larios, Loralee Loik, Michael E. Prugh, Laura R.
description	Many terrestrial plant communities, especially forests, have been shown to lag in response to rapid climate change. Grassland communities may respond more quickly to novel climates, as they consist mostly of short-lived species, which are directly exposed to macroclimate change. Here we report the rapid response of grassland communities to climate change in the California Floristic Province. We estimated 349 vascular plant species’ climatic niches from 829,337 occurrence records, compiled 15 long-term community composition datasets from 12 observational studies and 3 global change experiments, and analysed community compositional shifts in the climate niche space. We show that communities experienced significant shifts towards species associated with warmer and drier locations at rates of 0.0216 ± 0.00592 °C yr − 1 (mean ± s.e.) and −3.04 ± 0.742 mm yr − 1 , and these changes occurred at a pace similar to that of climate warming and drying. These directional shifts were consistent across observations and experiments. Our findings contrast with the lagged responses observed in communities dominated by long-lived plants and suggest greater biodiversity changes than expected in the near future. Plant community responses to climate change tend to be lagged in forests, but could be faster in grasslands. Here, the authors integrate long-term experimental data with >1 million occurrence records for >300 species, finding grassland community shifts towards species associated with warmer and drier conditions at a pace that aligns with that of climate change.
doi_str_mv	10.1038/s41559-024-02552-z
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Our findings contrast with the lagged responses observed in communities dominated by long-lived plants and suggest greater biodiversity changes than expected in the near future. Plant community responses to climate change tend to be lagged in forests, but could be faster in grasslands. 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Grassland communities may respond more quickly to novel climates, as they consist mostly of short-lived species, which are directly exposed to macroclimate change. Here we report the rapid response of grassland communities to climate change in the California Floristic Province. We estimated 349 vascular plant species’ climatic niches from 829,337 occurrence records, compiled 15 long-term community composition datasets from 12 observational studies and 3 global change experiments, and analysed community compositional shifts in the climate niche space. We show that communities experienced significant shifts towards species associated with warmer and drier locations at rates of 0.0216 ± 0.00592 °C yr − 1 (mean ± s.e.) and −3.04 ± 0.742 mm yr − 1 , and these changes occurred at a pace similar to that of climate warming and drying. These directional shifts were consistent across observations and experiments. Our findings contrast with the lagged responses observed in communities dominated by long-lived plants and suggest greater biodiversity changes than expected in the near future. Plant community responses to climate change tend to be lagged in forests, but could be faster in grasslands. 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Grassland communities may respond more quickly to novel climates, as they consist mostly of short-lived species, which are directly exposed to macroclimate change. Here we report the rapid response of grassland communities to climate change in the California Floristic Province. We estimated 349 vascular plant species’ climatic niches from 829,337 occurrence records, compiled 15 long-term community composition datasets from 12 observational studies and 3 global change experiments, and analysed community compositional shifts in the climate niche space. We show that communities experienced significant shifts towards species associated with warmer and drier locations at rates of 0.0216 ± 0.00592 °C yr − 1 (mean ± s.e.) and −3.04 ± 0.742 mm yr − 1 , and these changes occurred at a pace similar to that of climate warming and drying. These directional shifts were consistent across observations and experiments. Our findings contrast with the lagged responses observed in communities dominated by long-lived plants and suggest greater biodiversity changes than expected in the near future. Plant community responses to climate change tend to be lagged in forests, but could be faster in grasslands. 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subjects	631/158/2165 631/158/2453 631/158/670 631/158/853 Biodiversity Biological and Physical Anthropology Biomedical and Life Sciences California Climate Change Community composition Ecology Evolutionary Biology Global warming Grassland Grasslands Life Sciences Niches Observational studies Paleontology Plant communities Plant layout Plant species Plants Species Zoology
title	Rapid shifts in grassland communities driven by climate change
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