Global distribution of atmospheric phosphorus sources, concentrations and deposition rates, and anthropogenic impacts

Mahowald, N. M.; Jickells, T. D.; Baker, Alex R.; Artaxo, Paulo; Benitez‐Nelson, Claudia R.; Bergametti, G.; Bond, Tami C.; Chen, Ying; Cohen, David D.; Herut, Barak; Kubilay, N.; Losno, R.; Luo, Chao; Maenhaut, Willy; McGee, Kenneth A.; Okin, Gregory S.; Siefert, Ronald L.; Tsukuda, Seigen

doi:10.1029/2008gb003240

articleGlobal Biogeochemical CyclesDec 1, 2008BRONZE OA

Global distribution of atmospheric phosphorus sources, concentrations and deposition rates, and anthropogenic impacts

NMN. M. Mahowald TDT. D. Jickells ARAlex R. Baker PAPaulo Artaxo CRClaudia R. Benitez‐Nelson

Cornell University · University of East Anglia · +17 more institutions

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Abstract

A worldwide compilation of atmospheric total phosphorus (TP) and phosphate (PO 4 ) concentration and deposition flux observations are combined with transport model simulations to derive the global distribution of concentrations and deposition fluxes of TP and PO 4 . Our results suggest that mineral aerosols are the dominant source of TP on a global scale (82%), with primary biogenic particles (12%) and combustion sources (5%) important in nondusty regions. Globally averaged anthropogenic inputs are estimated to be ∼5 and 15% for TP and PO 4 , respectively, and may contribute as much as 50% to the deposition over the oligotrophic ocean where productivity may be phosphorus‐limited. There is a net loss of TP from…

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Topics

Keywords

Biogeochemistry
Environmental science
Deposition (geology)
Phosphorus
Environmental chemistry
Flux (metallurgy)
Primary production
Atmospheric sciences

UN Sustainable Development Goals

Life below water

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