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Soil net nitrogen mineralisation across global grasslands

Soil nitrogen mineralisation (N(min)), the conversion of organic into inorganic N, is important for productivity and nutrient cycling. The balance between mineralisation and immobilisation (net N(min)) varies with soil properties and climate. However, because most global-scale assessments of net N(m...

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Autores principales:	Risch, A. C., Zimmermann, S., Ochoa-Hueso, R., Schütz, M., Frey, B., Firn, J. L., Fay, P. A., Hagedorn, F., Borer, E. T., Seabloom, E. W., Harpole, W. S., Knops, J. M. H., McCulley, R. L., Broadbent, A. A. D., Stevens, C. J., Silveira, M. L., Adler, P. B., Báez, S., Biederman, L. A., Blair, J. M., Brown, C. S., Caldeira, M. C., Collins, S. L., Daleo, P., di Virgilio, A., Ebeling, A., Eisenhauer, N., Esch, E., Eskelinen, A., Hagenah, N., Hautier, Y., Kirkman, K. P., MacDougall, A. S., Moore, J. L., Power, S. A., Prober, S. M., Roscher, C., Sankaran, M., Siebert, J., Speziale, K. L., Tognetti, P. M., Virtanen, R., Yahdjian, L., Moser, B.
Formato:	Online Artículo Texto
Lenguaje:	English
Publicado:	Nature Publishing Group UK 2019
Materias:	Article
Acceso en línea:	https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6823350/ https://www.ncbi.nlm.nih.gov/pubmed/31672992 http://dx.doi.org/10.1038/s41467-019-12948-2

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author	Risch, A. C. Zimmermann, S. Ochoa-Hueso, R. Schütz, M. Frey, B. Firn, J. L. Fay, P. A. Hagedorn, F. Borer, E. T. Seabloom, E. W. Harpole, W. S. Knops, J. M. H. McCulley, R. L. Broadbent, A. A. D. Stevens, C. J. Silveira, M. L. Adler, P. B. Báez, S. Biederman, L. A. Blair, J. M. Brown, C. S. Caldeira, M. C. Collins, S. L. Daleo, P. di Virgilio, A. Ebeling, A. Eisenhauer, N. Esch, E. Eskelinen, A. Hagenah, N. Hautier, Y. Kirkman, K. P. MacDougall, A. S. Moore, J. L. Power, S. A. Prober, S. M. Roscher, C. Sankaran, M. Siebert, J. Speziale, K. L. Tognetti, P. M. Virtanen, R. Yahdjian, L. Moser, B.
author_facet	Risch, A. C. Zimmermann, S. Ochoa-Hueso, R. Schütz, M. Frey, B. Firn, J. L. Fay, P. A. Hagedorn, F. Borer, E. T. Seabloom, E. W. Harpole, W. S. Knops, J. M. H. McCulley, R. L. Broadbent, A. A. D. Stevens, C. J. Silveira, M. L. Adler, P. B. Báez, S. Biederman, L. A. Blair, J. M. Brown, C. S. Caldeira, M. C. Collins, S. L. Daleo, P. di Virgilio, A. Ebeling, A. Eisenhauer, N. Esch, E. Eskelinen, A. Hagenah, N. Hautier, Y. Kirkman, K. P. MacDougall, A. S. Moore, J. L. Power, S. A. Prober, S. M. Roscher, C. Sankaran, M. Siebert, J. Speziale, K. L. Tognetti, P. M. Virtanen, R. Yahdjian, L. Moser, B.
author_sort	Risch, A. C.
collection	PubMed
description	Soil nitrogen mineralisation (N(min)), the conversion of organic into inorganic N, is important for productivity and nutrient cycling. The balance between mineralisation and immobilisation (net N(min)) varies with soil properties and climate. However, because most global-scale assessments of net N(min) are laboratory-based, its regulation under field-conditions and implications for real-world soil functioning remain uncertain. Here, we explore the drivers of realised (field) and potential (laboratory) soil net N(min) across 30 grasslands worldwide. We find that realised N(min) is largely explained by temperature of the wettest quarter, microbial biomass, clay content and bulk density. Potential N(min) only weakly correlates with realised N(min), but contributes to explain realised net N(min) when combined with soil and climatic variables. We provide novel insights of global realised soil net N(min) and show that potential soil net N(min) data available in the literature could be parameterised with soil and climate data to better predict realised N(min).
format	Online Article Text
id	pubmed-6823350
institution	National Center for Biotechnology Information
language	English
publishDate	2019
publisher	Nature Publishing Group UK
record_format	MEDLINE/PubMed
spelling	pubmed-68233502019-11-04 Soil net nitrogen mineralisation across global grasslands Risch, A. C. Zimmermann, S. Ochoa-Hueso, R. Schütz, M. Frey, B. Firn, J. L. Fay, P. A. Hagedorn, F. Borer, E. T. Seabloom, E. W. Harpole, W. S. Knops, J. M. H. McCulley, R. L. Broadbent, A. A. D. Stevens, C. J. Silveira, M. L. Adler, P. B. Báez, S. Biederman, L. A. Blair, J. M. Brown, C. S. Caldeira, M. C. Collins, S. L. Daleo, P. di Virgilio, A. Ebeling, A. Eisenhauer, N. Esch, E. Eskelinen, A. Hagenah, N. Hautier, Y. Kirkman, K. P. MacDougall, A. S. Moore, J. L. Power, S. A. Prober, S. M. Roscher, C. Sankaran, M. Siebert, J. Speziale, K. L. Tognetti, P. M. Virtanen, R. Yahdjian, L. Moser, B. Nat Commun Article Soil nitrogen mineralisation (N(min)), the conversion of organic into inorganic N, is important for productivity and nutrient cycling. The balance between mineralisation and immobilisation (net N(min)) varies with soil properties and climate. However, because most global-scale assessments of net N(min) are laboratory-based, its regulation under field-conditions and implications for real-world soil functioning remain uncertain. Here, we explore the drivers of realised (field) and potential (laboratory) soil net N(min) across 30 grasslands worldwide. We find that realised N(min) is largely explained by temperature of the wettest quarter, microbial biomass, clay content and bulk density. Potential N(min) only weakly correlates with realised N(min), but contributes to explain realised net N(min) when combined with soil and climatic variables. We provide novel insights of global realised soil net N(min) and show that potential soil net N(min) data available in the literature could be parameterised with soil and climate data to better predict realised N(min). Nature Publishing Group UK 2019-10-31 /pmc/articles/PMC6823350/ /pubmed/31672992 http://dx.doi.org/10.1038/s41467-019-12948-2 Text en © The Author(s) 2019 Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.
spellingShingle	Article Risch, A. C. Zimmermann, S. Ochoa-Hueso, R. Schütz, M. Frey, B. Firn, J. L. Fay, P. A. Hagedorn, F. Borer, E. T. Seabloom, E. W. Harpole, W. S. Knops, J. M. H. McCulley, R. L. Broadbent, A. A. D. Stevens, C. J. Silveira, M. L. Adler, P. B. Báez, S. Biederman, L. A. Blair, J. M. Brown, C. S. Caldeira, M. C. Collins, S. L. Daleo, P. di Virgilio, A. Ebeling, A. Eisenhauer, N. Esch, E. Eskelinen, A. Hagenah, N. Hautier, Y. Kirkman, K. P. MacDougall, A. S. Moore, J. L. Power, S. A. Prober, S. M. Roscher, C. Sankaran, M. Siebert, J. Speziale, K. L. Tognetti, P. M. Virtanen, R. Yahdjian, L. Moser, B. Soil net nitrogen mineralisation across global grasslands
title	Soil net nitrogen mineralisation across global grasslands
title_full	Soil net nitrogen mineralisation across global grasslands
title_fullStr	Soil net nitrogen mineralisation across global grasslands
title_full_unstemmed	Soil net nitrogen mineralisation across global grasslands
title_short	Soil net nitrogen mineralisation across global grasslands
title_sort	soil net nitrogen mineralisation across global grasslands
topic	Article
url	https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6823350/ https://www.ncbi.nlm.nih.gov/pubmed/31672992 http://dx.doi.org/10.1038/s41467-019-12948-2
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Soil net nitrogen mineralisation across global grasslands

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