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T1  - Grassland management effects on earthworm communities under ambient and future climatic conditions 
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UR  - http://hdl.handle.net/10138/333656 
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A1  - Singh, Jaswinder; Cameron, Erin; Reitz, Thomas; Schädler, Martin; Eisenhauer, Nico 
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Y1  - 2021 
LA  - eng 
AB  - Abstract The impacts of climate change on biodiversity can be modulated by other changing environmental conditions, e.g. induced by land-use change. The potential interactive effects of climate change and land use have rarely been studied for soil organisms. To test the effects of changing climatic conditions and land use on soil invertebrates, we examined earthworm communities across different seasons in different grassland-use types (intensively managed grassland, extensively managed meadow, a... 
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KW  - 1181 Ecology, evolutionary biology; Climate change; Drought; earthworms; Ecosystem engineers; Land use types; Land-use intensity; Soil biodiversity; Warming; BIODIVERSITY; ELEVATED CO2; SOIL FOOD WEBS; INTENSIFICATION; PLANT DIVERSITY; land-use intensity; climate change; PASTURES; land use types; soil biodiversity; RESPONSES; drought; warming; NITROGEN; CONSEQUENCES; LAND-USE; ecosystem engineers 
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