Management‐based mitigation of the impacts of climate‐driven woody encroachment in high elevation pasture woodlands

Rebecca S. Snell; Alexander Peringer; Viktoria FrankHarald Bugmann

首页> 外文期刊>The Journal of Applied Ecology >Management‐based mitigation of the impacts of climate‐driven woody encroachment in high elevation pasture woodlands

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Management‐based mitigation of the impacts of climate‐driven woody encroachment in high elevation pasture woodlands

机译：Management‐based mitigation of the impacts of climate‐driven woody encroachment in high elevation pasture woodlands

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Abstract Changes of grazing pressure and climate have been identified as drivers of woody encroachment in subalpine pastures, but disentangling their relative importance remains challenging. It is particularly unclear if grazing alone can mitigate potential climate change impacts on encroachment. We used the dynamic vegetation model LandClim to simulate how multiple biotic and abiotic factors influence the rate of woody encroachment (i.e. how changes in temperature and precipitation influence woody and herbaceous vegetation, and interactions with grazing). We simulated a 61‐ha subalpine pasture in Switzerland near tree line. Currently, 21% of the pasture is covered by woody plants. If current grazing levels are maintained, almost all climate change scenarios showed an increase in woody cover. Under the RCP 4.5 and RCP 8.5 scenarios, there was a mean encroachment rate of 0.24% and 0.15% per year respectively. Large variation among climate model chains with RCP 8.5 was found, due to variations in precipitation. Generally, decreasing precipitation caused woody encroachment to slow down, even under very low grazing pressures. Using a sensitivity analysis with all possible combinations of grazing pressure, temperature and precipitation changes, we found that woody encroachment rates were most sensitive to changes in grazing pressure. Precipitation change was the second most important factor, while temperature changes were least important. Synthesis and applications. Modelling shows that increasing grazing pressure in subalpine pastures can strongly reduce woody encroachment and mitigate climate change impacts on woody encroachment.

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来源
《The Journal of Applied Ecology》 |2022年第7期|1925-1936|共12页
作者
Rebecca S. Snell; Alexander Peringer; Viktoria FrankHarald Bugmann;
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作者单位

Forest Ecology, Institute of Terrestrial Ecosystems, Department of Environmental Sciences, ETH Zürich;

WSL Swiss Federal Institute for Forest, Snow and Landscape Research;

Nuertingen‐Geislingen University;

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正文语种英语
中图分类生态学（生物生态学）;农业生态学;
关键词
alpine; cattle; climate change; dynamic vegetation model; landscape; livestock; Woody encroachment;

Management‐based mitigation of the impacts of climate‐driven woody encroachment in high elevation pasture woodlands

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