The sythesis of phosphorus sequestration in 108 global lake sediments during the Holocene

Name: The sythesis of phosphorus sequestration in 108 global lake sediments during the Holocene
Creator: Luyao Tu
Published: 2023-09-11T17:16:53.962Z
Keywords: Lake, Lake Sediment, Human Impact, Phosphorus, Land Use, Holocene

Tu, Luyao; Moyle, Madeleine; Boyle, John; Zander, Paul; Huang, Tao; Meng, Lize; Huang, Changchun; Zhou, Xin; Grosjean, Martin

doi:10.17632/yzycfs5s32.1

The sythesis of phosphorus sequestration in 108 global lake sediments during the Holocene

Published: 11 September 2023| Version 1 | DOI: 10.17632/yzycfs5s32.1

Contributors:

Luyao Tu, Madeleine Moyle, John Boyle, Paul Zander, Tao Huang, Lize Meng, Changchun Huang, Xin Zhou, Martin Grosjean

Description

Lake sediments provide a unique archive of past phosphorus (P) burial fluxes and potentially record the disruption of the global P cycle. Here we reconstruct lake-wide P burial rates during the Holocene based on published sediment-P data of 108 lakes across the globe and assess the temporal dynamics of P sequestration in lake sediments at global and regional levels. The dataset is from Tu et al. (2023) "Anthropogenic modification of phosphorus sequestration in lake sediments during the Holocene: A global perspective". Global and Planetary Change. https://doi.org/10.1016/j.gloplacha.2023.104222

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Institutions

University of Liverpool, Max-Planck-Institut fur Chemie, Universitat Bern, Nanjing Normal University, University of Science and Technology of China

Funding

National Natural Science Foundation of China

211410B32208

Natural Science Research of Jiangsu Higher Education Institutions of China

211410B52211

National Key Research and Development Program of China

2022YFF0801101

Nanjing Normal University

184080H202B366

Swiss National Science Foundation

200020_204220

The sythesis of phosphorus sequestration in 108 global lake sediments during the Holocene

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