Combining spectroscopic and isotopic techniques gives a dynamic view of phosphorus cycling in soil

Combining spectroscopic and isotopic techniques gives a dynamic view of phosphorus cycling in soil

Our understanding of phosphorus (P) cycling in soils, a basis for many ecosystem services, has been limited by the complexity of P forms and processes. Here the authors use spectroscopic and isotopic techniques to estimate turnover times of P pools and tease apart biologically-driven and geochemical...

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Main Authors: Julian Helfenstein, Federica Tamburini, Christian von Sperber, Michael S. Massey, Chiara Pistocchi, Oliver A. Chadwick, Peter M. Vitousek, Ruben Kretzschmar, Emmanuel Frossard
Format: Article
Language:English
Published: Nature Publishing Group 2018-08-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-018-05731-2
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spelling doaj-b7ddb11eb3894840be3ee72da4f65fbe2021-05-11T10:12:56ZengNature Publishing GroupNature Communications2041-17232018-08-01911910.1038/s41467-018-05731-2Combining spectroscopic and isotopic techniques gives a dynamic view of phosphorus cycling in soilJulian Helfenstein0Federica Tamburini1Christian von Sperber2Michael S. Massey3Chiara Pistocchi4Oliver A. Chadwick5Peter M. Vitousek6Ruben Kretzschmar7Emmanuel Frossard8Institute of Agricultural Sciences, ETH ZurichInstitute of Agricultural Sciences, ETH ZurichInstitute of Crop Science and Resource Conservation, University of BonnDepartment of Earth and Environmental Sciences, California State University East BayEco&Sols, Montpellier SupAgro, University of Montpellier, CIRAD, INRA, IRDDepartment of Geography, University of CaliforniaDepartment of Biology, Stanford UniversityInstitute of Biogeochemistry and Pollutant Dynamics, ETH ZurichInstitute of Agricultural Sciences, ETH ZurichOur understanding of phosphorus (P) cycling in soils, a basis for many ecosystem services, has been limited by the complexity of P forms and processes. Here the authors use spectroscopic and isotopic techniques to estimate turnover times of P pools and tease apart biologically-driven and geochemically-driven P fluxes.https://doi.org/10.1038/s41467-018-05731-2
collection DOAJ
language English
format Article
sources DOAJ
author Julian Helfenstein
Federica Tamburini
Christian von Sperber
Michael S. Massey
Chiara Pistocchi
Oliver A. Chadwick
Peter M. Vitousek
Ruben Kretzschmar
Emmanuel Frossard
spellingShingle Julian Helfenstein
Federica Tamburini
Christian von Sperber
Michael S. Massey
Chiara Pistocchi
Oliver A. Chadwick
Peter M. Vitousek
Ruben Kretzschmar
Emmanuel Frossard
Combining spectroscopic and isotopic techniques gives a dynamic view of phosphorus cycling in soil
Nature Communications
author_facet Julian Helfenstein
Federica Tamburini
Christian von Sperber
Michael S. Massey
Chiara Pistocchi
Oliver A. Chadwick
Peter M. Vitousek
Ruben Kretzschmar
Emmanuel Frossard
author_sort Julian Helfenstein
title Combining spectroscopic and isotopic techniques gives a dynamic view of phosphorus cycling in soil
title_short Combining spectroscopic and isotopic techniques gives a dynamic view of phosphorus cycling in soil
title_full Combining spectroscopic and isotopic techniques gives a dynamic view of phosphorus cycling in soil
title_fullStr Combining spectroscopic and isotopic techniques gives a dynamic view of phosphorus cycling in soil
title_full_unstemmed Combining spectroscopic and isotopic techniques gives a dynamic view of phosphorus cycling in soil
title_sort combining spectroscopic and isotopic techniques gives a dynamic view of phosphorus cycling in soil
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2018-08-01
description Our understanding of phosphorus (P) cycling in soils, a basis for many ecosystem services, has been limited by the complexity of P forms and processes. Here the authors use spectroscopic and isotopic techniques to estimate turnover times of P pools and tease apart biologically-driven and geochemically-driven P fluxes.
url https://doi.org/10.1038/s41467-018-05731-2
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