利用铁同位素追踪和限制人为气溶胶铁向北大西洋的通量。

Tracing and constraining anthropogenic aerosol iron fluxes to the North Atlantic Ocean using iron isotopes.

作者信息

Conway Tim M, Hamilton Douglas S, Shelley Rachel U, Aguilar-Islas Ana M, Landing William M, Mahowald Natalie M, John Seth G

机构信息

College of Marine Science and School of Geosciences, University of South Florida, Tampa, FL, USA.

Department of Earth and Atmospheric Sciences, Atkinson Center for a Sustainable Future, Cornell University, Ithaca, NY, USA.

出版信息

Nat Commun. 2019 Jun 14;10(1):2628. doi: 10.1038/s41467-019-10457-w.

DOI:10.1038/s41467-019-10457-w

PMID:31201307

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6570766/

Abstract

Atmospheric dust is an important source of the micronutrient Fe to the oceans. Although relatively insoluble mineral Fe is assumed to be the most important component of dust, a relatively small yet highly soluble anthropogenic component may also be significant. However, quantifying the importance of anthropogenic Fe to the global oceans requires a tracer which can be used to identify and constrain anthropogenic aerosols in situ. Here, we present Fe isotope (δFe) data from North Atlantic aerosol samples from the GEOTRACES GA03 section. While soluble aerosol samples collected near the Sahara have near-crustal δFe, soluble aerosols from near North America and Europe instead have remarkably fractionated δFe values (as light as -1.6‰). Here, we use these observations to fingerprint anthropogenic combustion sources, and to refine aerosol deposition modeling. We show that soluble anthropogenic aerosol Fe flux to the global surface oceans is highly likely to be underestimated, even in the dusty North Atlantic.

摘要

大气尘埃是海洋中微量营养素铁的重要来源。尽管相对不溶的矿物铁被认为是尘埃的最重要组成部分，但相对少量但高度可溶的人为成分也可能很重要。然而，要量化人为铁对全球海洋的重要性，需要一种能够原位识别和限制人为气溶胶的示踪剂。在此，我们展示了来自GEOTRACES GA03断面北大西洋气溶胶样本的铁同位素（δFe）数据。虽然在撒哈拉附近采集的可溶性气溶胶样本具有近地壳的δFe，但来自北美和欧洲附近的可溶性气溶胶却具有明显分馏的δFe值（低至-1.6‰）。在此，我们利用这些观测结果来识别来自人为燃烧源的特征，并完善气溶胶沉积模型。我们表明，即使在沙尘较多的北大西洋，全球表层海洋中可溶性人为气溶胶铁通量极有可能被低估。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/374b/6570766/bd54114e6f84/41467_2019_10457_Fig1_HTML.jpg

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利用铁同位素追踪和限制人为气溶胶铁向北大西洋的通量。

Tracing and constraining anthropogenic aerosol iron fluxes to the North Atlantic Ocean using iron isotopes.

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