Nutrient availability controls the impact of mammalian herbivores on soil carbon and nitrogen pools in grasslands |
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| Authors: | Judith Sitters E R Jasper Wubs Elisabeth S Bakker Thomas W Crowther Peter B Adler Sumanta Bagchi Jonathan D Bakker Lori Biederman Elizabeth T Borer Elsa E Cleland Nico Eisenhauer Jennifer Firn Laureano Gherardi Nicole Hagenah Yann Hautier Sarah E Hobbie Johannes M H Knops Andrew S MacDougall Rebecca L McCulley Joslin L Moore Brent Mortensen Pablo L Peri Suzanne M Prober Charlotte Riggs Anita C Risch Martin Schütz Eric W Seabloom Julia Siebert Carly J Stevens G F Veen |
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| Institution: | Judith Sitters,E. R. Jasper Wubs,Elisabeth S. Bakker,Thomas W. Crowther,Peter B. Adler,Sumanta Bagchi,Jonathan D. Bakker,Lori Biederman,Elizabeth T. Borer,Elsa E. Cleland,Nico Eisenhauer,Jennifer Firn,Laureano Gherardi,Nicole Hagenah,Yann Hautier,Sarah E. Hobbie,Johannes M. H. Knops,Andrew S. MacDougall,Rebecca L. McCulley,Joslin L. Moore,Brent Mortensen,Pablo L. Peri,Suzanne M. Prober,Charlotte Riggs,Anita C. Risch,Martin Schütz,Eric W. Seabloom,Julia Siebert,Carly J. Stevens,G. F. (Ciska) Veen |
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| Abstract: | Grasslands are subject to considerable alteration due to human activities globally, including widespread changes in populations and composition of large mammalian herbivores and elevated supply of nutrients. Grassland soils remain important reservoirs of carbon (C) and nitrogen (N). Herbivores may affect both C and N pools and these changes likely interact with increases in soil nutrient availability. Given the scale of grassland soil fluxes, such changes can have striking consequences for atmospheric C concentrations and the climate. Here, we use the Nutrient Network experiment to examine the responses of soil C and N pools to mammalian herbivore exclusion across 22 grasslands, under ambient and elevated nutrient availabilities (fertilized with NPK + micronutrients). We show that the impact of herbivore exclusion on soil C and N pools depends on fertilization. Under ambient nutrient conditions, we observed no effect of herbivore exclusion, but under elevated nutrient supply, pools are smaller upon herbivore exclusion. The highest mean soil C and N pools were found in grazed and fertilized plots. The decrease in soil C and N upon herbivore exclusion in combination with fertilization correlated with a decrease in aboveground plant biomass and microbial activity, indicating a reduced storage of organic matter and microbial residues as soil C and N. The response of soil C and N pools to herbivore exclusion was contingent on temperature – herbivores likely cause losses of C and N in colder sites and increases in warmer sites. Additionally, grasslands that contain mammalian herbivores have the potential to sequester more N under increased temperature variability and nutrient enrichment than ungrazed grasslands. Our study highlights the importance of conserving mammalian herbivore populations in grasslands worldwide. We need to incorporate local‐scale herbivory, and its interaction with nutrient enrichment and climate, within global‐scale models to better predict land–atmosphere interactions under future climate change. |
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| Keywords: | carbon sequestration exclosure fertilization global change grazing herbivory nutrient dynamics nutrient enrichment Nutrient Network (NutNet) soil microorganisms |
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