Climate – grazing interactions in Mongolian rangelands: Effects of grazing change along a large-scale environmental gradient
There are still major gaps in our understanding of rangeland degradation. Assessing the interactions between climate and grazing effects could help to explain what unifies and separates rangelands, and may therefore promote a more sustainable management of livestock. We studied 15 local land-use tra...
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| Published in | Journal of arid environments Vol. 173; p. 104043 |
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| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
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Elsevier Ltd
01.02.2020
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| Abstract | There are still major gaps in our understanding of rangeland degradation. Assessing the interactions between climate and grazing effects could help to explain what unifies and separates rangelands, and may therefore promote a more sustainable management of livestock. We studied 15 local land-use transects along a 600 km long climatic gradient in Central Asia to test the hypothesis that grazing effects differ between relatively moist equilibrium (EQ) and dry non-equilibrium (NEQ) rangeland systems. We analysed plant community composition, species diversity and indicator species for different grazing intensities. We found pronounced differences in community composition along our climate gradient, revealed climate-related grazing effects on richness, responses of Simpson's diversity, and also found different grazing indicator species along the larger transect. We conclude that in NEQ rangelands, grazing effects are limited to sacrifice zones and environmental filtering dominates vegetation composition. With increasing precipitation, resource availability gains in importance leading to more complex communities dominated by grazing-tolerant species under EQ dynamics. Hints for xerophytization in the transition zone between EQ and NEQ highlight the vulnerability of rangelands that temporally shift from one state to the other. This calls for extra care in the management of livestock numbers in these transition areas.
•In non-equilibrium systems, grazing effects occur only in sacrifice zones.•Community composition varies strongly between non-equilibrium sites.•Community composition is very similar between and within equilibrium sites.•Grazing impacts on species richness increase with precipitation.•Xerophytization occurs in the transition zone between both systems. |
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| AbstractList | There are still major gaps in our understanding of rangeland degradation. Assessing the interactions between climate and grazing effects could help to explain what unifies and separates rangelands, and may therefore promote a more sustainable management of livestock. We studied 15 local land-use transects along a 600 km long climatic gradient in Central Asia to test the hypothesis that grazing effects differ between relatively moist equilibrium (EQ) and dry non-equilibrium (NEQ) rangeland systems. We analysed plant community composition, species diversity and indicator species for different grazing intensities. We found pronounced differences in community composition along our climate gradient, revealed climate-related grazing effects on richness, responses of Simpson's diversity, and also found different grazing indicator species along the larger transect. We conclude that in NEQ rangelands, grazing effects are limited to sacrifice zones and environmental filtering dominates vegetation composition. With increasing precipitation, resource availability gains in importance leading to more complex communities dominated by grazing-tolerant species under EQ dynamics. Hints for xerophytization in the transition zone between EQ and NEQ highlight the vulnerability of rangelands that temporally shift from one state to the other. This calls for extra care in the management of livestock numbers in these transition areas.
•In non-equilibrium systems, grazing effects occur only in sacrifice zones.•Community composition varies strongly between non-equilibrium sites.•Community composition is very similar between and within equilibrium sites.•Grazing impacts on species richness increase with precipitation.•Xerophytization occurs in the transition zone between both systems. There are still major gaps in our understanding of rangeland degradation. Assessing the interactions between climate and grazing effects could help to explain what unifies and separates rangelands, and may therefore promote a more sustainable management of livestock. We studied 15 local land-use transects along a 600 km long climatic gradient in Central Asia to test the hypothesis that grazing effects differ between relatively moist equilibrium (EQ) and dry non-equilibrium (NEQ) rangeland systems. We analysed plant community composition, species diversity and indicator species for different grazing intensities. We found pronounced differences in community composition along our climate gradient, revealed climate-related grazing effects on richness, responses of Simpson's diversity, and also found different grazing indicator species along the larger transect. We conclude that in NEQ rangelands, grazing effects are limited to sacrifice zones and environmental filtering dominates vegetation composition. With increasing precipitation, resource availability gains in importance leading to more complex communities dominated by grazing-tolerant species under EQ dynamics. Hints for xerophytization in the transition zone between EQ and NEQ highlight the vulnerability of rangelands that temporally shift from one state to the other. This calls for extra care in the management of livestock numbers in these transition areas. |
| ArticleNumber | 104043 |
| Author | Ahlborn, Julian Wesche, Karsten Römermann, Christine Oyuntsetseg, Batlai von Wehrden, Henrik Oyunbileg, Munkhzul Lang, Birgit |
| Author_xml | – sequence: 1 givenname: Julian surname: Ahlborn fullname: Ahlborn, Julian email: julian.ahlborn@zalf.de organization: Leibniz-Centre for Agricultural Landscape Research, Sustainable Grassland Systems, Gutshof 7, D-14641, Paulinenaue, Germany – sequence: 2 givenname: Henrik surname: von Wehrden fullname: von Wehrden, Henrik organization: Leuphana University Lueneburg, Institute of Ecology, Faculty of Sustainability, Scharnhorststr. 1, D-21335, Lueneburg, Germany – sequence: 3 givenname: Birgit surname: Lang fullname: Lang, Birgit organization: Friedrich Schiller University, Institute of Ecology and Evolution, Philosophenweg 16, D-07743, Jena, Germany – sequence: 4 givenname: Christine surname: Römermann fullname: Römermann, Christine organization: Friedrich Schiller University, Institute of Ecology and Evolution, Philosophenweg 16, D-07743, Jena, Germany – sequence: 5 givenname: Munkhzul surname: Oyunbileg fullname: Oyunbileg, Munkhzul organization: Mongolian Academy of Science, Institute of General and Experimental Biology, 3600, Ulaanbaatar, Mongolia – sequence: 6 givenname: Batlai surname: Oyuntsetseg fullname: Oyuntsetseg, Batlai organization: National University of Mongolia, Botany Department, School of Biology and Biotechnology, 14200, Ulaanbaatar, Mongolia – sequence: 7 givenname: Karsten surname: Wesche fullname: Wesche, Karsten organization: Senckenberg Museum of Natural History, Goerlitz, PO Box 300 154, D-02806, Goerlitz, Germany |
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| Keywords | Species diversity DCA Non-equilibrium rangelands Indicator species analysis Gradients Xerophytization Grazing |
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| SubjectTerms | botanical composition Central Asia climate community structure DCA Gradients Grazing grazing effects grazing intensity herd size indicator species Indicator species analysis land use livestock Non-equilibrium rangelands rangeland degradation rangelands Species diversity Xerophytization |
| Title | Climate – grazing interactions in Mongolian rangelands: Effects of grazing change along a large-scale environmental gradient |
| URI | https://dx.doi.org/10.1016/j.jaridenv.2019.104043 https://www.proquest.com/docview/2439391867 |
| Volume | 173 |
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