Experimental impacts of grazing on grassland biodiversity and function are explained by aridity

Grazing by domestic herbivores is the most widespread land use on the planet, and also a major global change driver in grasslands. Yet, experimental evidence on the long-term impacts of livestock grazing on biodiversity and function is largely lacking. Here, we report results from a network of 10 ex...

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Published in:Nature communications 2023-08, Vol.14 (1), p.5040-5040, Article 5040
Main Authors: Zhang, Minna, Delgado-Baquerizo, Manuel, Li, Guangyin, Isbell, Forest, Wang, Yue, Hautier, Yann, Wang, Yao, Xiao, Yingli, Cai, Jinting, Pan, Xiaobin, Wang, Ling
Format: Article
Language:English
Subjects:
631/158/2453
704/106/694/2739
704/158/2445
Aridity
Biodiversity
Ecological function
Grasslands
Grazing
Herbivores
Humanities and Social Sciences
Land use
Livestock
Livestock grazing
multidisciplinary
Plant diversity
Science
Science (multidisciplinary)
Soil conservation
Soils
Steppes
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Summary:Grazing by domestic herbivores is the most widespread land use on the planet, and also a major global change driver in grasslands. Yet, experimental evidence on the long-term impacts of livestock grazing on biodiversity and function is largely lacking. Here, we report results from a network of 10 experimental sites from paired grazed and ungrazed grasslands across an aridity gradient, including some of the largest remaining native grasslands on the planet. We show that aridity partly explains the responses of biodiversity and multifunctionality to long-term livestock grazing. Grazing greatly reduced biodiversity and multifunctionality in steppes with higher aridity, while had no effects in steppes with relatively lower aridity. Moreover, we found that long-term grazing further changed the capacity of above- and below-ground biodiversity to explain multifunctionality. Thus, while plant diversity was positively correlated with multifunctionality across grasslands with excluded livestock, soil biodiversity was positively correlated with multifunctionality across grazed grasslands. Together, our cross-site experiment reveals that the impacts of long-term grazing on biodiversity and function depend on aridity levels, with the more arid sites experiencing more negative impacts on biodiversity and ecosystem multifunctionality. We also highlight the fundamental importance of conserving soil biodiversity for protecting multifunctionality in widespread grazed grasslands. Experimental evidence on the long-term impacts of livestock grazing on biodiversity and function is limited. Here, the authors show that grazing impacts on biodiversity and ecosystem functions are aggravated with aridity using experimental sites across an aridity gradient.
ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-023-40809-6