Atmospheric Iron Deposition: Global Distribution, Variability, and Human Perturbations

Mahowald, N. M.; Engelstaedter, Sebastian; Luo, Chao; Sealy, Andrea; Artaxo, Paulo; Benitez‐Nelson, Claudia R.; Bonnet, Sophie; Chen, Ying; Chuang, P. Y.; Cohen, David D.; Dulac, François; Herut, Barak; Johansen, Anne M.; Kubilay, N.; Losno, R.; Maenhaut, Willy; Paytan, Adina; Prospero, Joseph M.; Shank, L.; Siefert, Ronald L.

doi:10.1146/annurev.marine.010908.163727

reviewAnnual Review of Marine ScienceDec 16, 2008GREEN OA

Atmospheric Iron Deposition: Global Distribution, Variability, and Human Perturbations

NMN. M. Mahowald SESebastian Engelstaedter CLChao Luo ASAndrea Sealy PAPaulo Artaxo

NSF National Center for Atmospheric Research · Cornell University · +19 more institutions

PubMed

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Abstract

Atmospheric inputs of iron to the open ocean are hypothesized to modulate ocean biogeochemistry. This review presents an integration of available observations of atmospheric iron and iron deposition, and also covers bioavailable iron distributions. Methods for estimating temporal variability in ocean deposition over the recent past are reviewed. Desert dust iron is estimated to represent 95% of the global atmospheric iron cycle, and combustion sources of iron are responsible for the remaining 5%. Humans may be significantly perturbing desert dust (up to 50%). The sources of bioavailable iron are less well understood than those of iron, partly because we do not know what speciation of the iron is bioavailable.…

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Topics

Keywords

Iron fertilization
Biogeochemistry
Deposition (geology)
Environmental science
Mineral dust
Atmosphere (unit)
Environmental chemistry
Bioavailability

UN Sustainable Development Goals

Life below water

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