Drivers of soil microbial and detritivore activity across global grasslands

被引:0
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作者
Julia Siebert
Marie Sünnemann
Yann Hautier
Anita C. Risch
Jonathan D. Bakker
Lori Biederman
Dana M. Blumenthal
Elizabeth T. Borer
Miguel N. Bugalho
Arthur A. D. Broadbent
Maria C. Caldeira
Elsa Cleland
Kendi F. Davies
Anu Eskelinen
Nicole Hagenah
Johannes M. H. Knops
Andrew S. MacDougall
Rebecca L. McCulley
Joslin L. Moore
Sally A. Power
Jodi N. Price
Eric W. Seabloom
Rachel Standish
Carly J. Stevens
Stephan Zimmermann
Nico Eisenhauer
机构
[1] Halle-Jena-Leipzig,German Centre for Integrative Biodiversity Research (iDiv)
[2] Puschstrasse 4,Institute of Biology
[3] Leipzig University,Ecology and Biodiversity Group, Department of Biology
[4] Puschstrasse 4,Swiss Federal Institute for Forest, Snow and Landscape Research WSL
[5] Utrecht University,School of Environmental and Forest Sciences
[6] Padualaan 8,Department of Ecology
[7] Community Ecology,Department of Ecology
[8] Zuercherstrasse 111,Centre for Applied Ecology “Prof. Baeta Neves”, School of Agriculture
[9] University of Washington,Department of Earth and Environmental Sciences
[10] Evolution,Forest Research Centre, School of Agriculture
[11] and Organismal Biology,Ecology, Behavior and Evolution Section
[12] Iowa State University,Department of Ecology and Evolutionary Biology
[13] USDA-ARS Rangeland Resources & Systems Research Unit,Ecology and Genetics Unit
[14] Evolution,Mammal Research Institute, Department of Zoology & Entomology
[15] and Behavior; University of Minnesota,Health & Environmental Sciences Department
[16] University of Lisbon,Department of Integrative Biology
[17] Tapada da Ajuda,Department of Plant & Soil Sciences
[18] The University of Manchester,School of Biological Sciences
[19] Oxford Road,Hawkesbury Institute for the Environment
[20] University of Lisbon,School of Agricultural, Environmental and Veterinary Sciences
[21] University of California San Diego,Harry Butler Institute
[22] 9500 Gilman Dr. #0116,Institute of Agriculture
[23] La Jolla,Lancaster Environment Centre
[24] University of Colorado,Swiss Federal Institute for Forest
[25] University of Oulu,undefined
[26] P.O. Box 8000,undefined
[27] FI-90014 University of Oulu,undefined
[28] Helmholtz Center for Environmental Research – UFZ,undefined
[29] Department of Physiological Diversity,undefined
[30] Permoserstrasse 15,undefined
[31] University of Pretoria,undefined
[32] Xi’an Jiatong-Liverpool University,undefined
[33] University of Guelph,undefined
[34] Guelph,undefined
[35] University of Kentucky,undefined
[36] Arthur Rylah Institute for Environmental Research,undefined
[37] 123 Brown Street,undefined
[38] Monash University,undefined
[39] 25 Rainforest Walk,undefined
[40] Western Sydney University,undefined
[41] Locked Bag 1797,undefined
[42] Charles Sturt University,undefined
[43] Murdoch University,undefined
[44] 90 South Street,undefined
[45] The University of Western Australia,undefined
[46] 35 Stirling Hwy,undefined
[47] Lancaster University,undefined
[48] Snow and Landscape Research WSL,undefined
[49] Forest Soils and Biogeochemistry,undefined
[50] Zuercherstrasse 111,undefined
来源
Communications Biology | / 6卷
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摘要
Covering approximately 40% of land surfaces, grasslands provide critical ecosystem services that rely on soil organisms. However, the global determinants of soil biodiversity and functioning remain underexplored. In this study, we investigate the drivers of soil microbial and detritivore activity in grasslands across a wide range of climatic conditions on five continents. We apply standardized treatments of nutrient addition and herbivore reduction, allowing us to disentangle the regional and local drivers of soil organism activity. We use structural equation modeling to assess the direct and indirect effects of local and regional drivers on soil biological activities. Microbial and detritivore activities are positively correlated across global grasslands. These correlations are shaped more by global climatic factors than by local treatments, with annual precipitation and soil water content explaining the majority of the variation. Nutrient addition tends to reduce microbial activity by enhancing plant growth, while herbivore reduction typically increases microbial and detritivore activity through increased soil moisture. Our findings emphasize soil moisture as a key driver of soil biological activity, highlighting the potential impacts of climate change, altered grazing pressure, and eutrophication on nutrient cycling and decomposition within grassland ecosystems.
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