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W4242031268 abstract "Abstract. Atmospheric deposition of anthropogenic soluble iron (Fe) to the ocean has been suggested to modulate primary ocean productivity and thus indirectly affect the climate. A key process contributing to anthropogenic sources of soluble Fe is associated with air pollution, which acidifies Fe-containing mineral aerosols during their transport and leads to Fe transformation from insoluble to soluble forms. However, there is large uncertainty in our estimate of this anthropogenic soluble Fe. Here, we, for the first time, interactively combined laboratory kinetic experiments with global aerosol modeling to more accurately quantify anthropogenic soluble Fe due to air pollution. We firstly examined Fe dissolution kinetics of African dust samples at acidic pH values with and without ionic species commonly found in aerosol water (i.e., sulfate and oxalate). We then constructed a new empirical scheme for Fe release from mineral dust due to inorganic and organic anions in aerosol water, by using acidity as a master variable. We implemented this new scheme and applied an updated mineralogical emission database in a global atmospheric chemistry transport model to estimate the atmospheric concentration and deposition flux of soluble Fe under preindustrial and modern conditions. Our improved model successfully captured the inverse relationship of Fe solubility and total Fe loading measured over the North Atlantic Ocean (i.e., 1–2 orders of magnitude lower Fe solubility in North African- than combustion-influenced aerosols). The model results show a positive relationship between Fe solubility and water soluble organic carbon (WSOC)/Fe molar ratio, which is consistent with previous field measurements. We estimated that deposition of soluble Fe to the ocean increased from 0.05–0.07 Tg Fe yr−1 in preindustrial era to 0.11–0.12 Tg Fe yr−1 in present days, due to air pollution. Over the High Nitrate Low Chlorophyll (HNLC) regions of the ocean, the modeled Fe solubility remains low for mineral dust (< 1 %) in a base simulation but is substantially enhanced in a sensitivity simulation, which permits the Fe dissolution for mineral aerosols in the presence of excess oxalate under low acidity during daytime. Our model results suggest that human activities contribute to about half of the soluble Fe supply to a significant portion of the oceans in the Northern Hemisphere, while their contribution to oceans in high latitudes remains uncertain due to limited understanding of dust Fe dissolution under pristine conditions." @default.
W4242031268 created "2022-05-12" @default.
W4242031268 creator A5062683590 @default.
W4242031268 creator A5080759988 @default.
W4242031268 date "2015-08-27" @default.
W4242031268 modified "2023-09-26" @default.
W4242031268 title "Delivery of anthropogenic bioavailable iron from mineral dust and combustion aerosols to the ocean" @default.
W4242031268 cites W1488361797 @default.
W4242031268 cites W1521371173 @default.
W4242031268 cites W1597228787 @default.
W4242031268 cites W1602284397 @default.
W4242031268 cites W1644321256 @default.
W4242031268 cites W1655820209 @default.
W4242031268 cites W1792821376 @default.
W4242031268 cites W1882514966 @default.
W4242031268 cites W1967584785 @default.
W4242031268 cites W1969118254 @default.
W4242031268 cites W1974342476 @default.
W4242031268 cites W1975652443 @default.
W4242031268 cites W1980026409 @default.
W4242031268 cites W1984245816 @default.
W4242031268 cites W1984365615 @default.
W4242031268 cites W1985036498 @default.
W4242031268 cites W1986028169 @default.
W4242031268 cites W1986745257 @default.
W4242031268 cites W1987039033 @default.
W4242031268 cites W1989664729 @default.
W4242031268 cites W1994783077 @default.
W4242031268 cites W2003689404 @default.
W4242031268 cites W2004676863 @default.
W4242031268 cites W2008069922 @default.
W4242031268 cites W2010335728 @default.
W4242031268 cites W2013502317 @default.
W4242031268 cites W2015717175 @default.
W4242031268 cites W2017018266 @default.
W4242031268 cites W2018004654 @default.
W4242031268 cites W2019815666 @default.
W4242031268 cites W2021371279 @default.
W4242031268 cites W2022616308 @default.
W4242031268 cites W2024728452 @default.
W4242031268 cites W2027516016 @default.
W4242031268 cites W2032631054 @default.
W4242031268 cites W2047400339 @default.
W4242031268 cites W2047870588 @default.
W4242031268 cites W2048387479 @default.
W4242031268 cites W2052400627 @default.
W4242031268 cites W2056569246 @default.
W4242031268 cites W2058471672 @default.
W4242031268 cites W2066138066 @default.
W4242031268 cites W2067367561 @default.
W4242031268 cites W2068245133 @default.
W4242031268 cites W2071042855 @default.
W4242031268 cites W2073224399 @default.
W4242031268 cites W2074862219 @default.
W4242031268 cites W2076834783 @default.
W4242031268 cites W2077237271 @default.
W4242031268 cites W2083020157 @default.
W4242031268 cites W2084207754 @default.
W4242031268 cites W2084283421 @default.
W4242031268 cites W2084596363 @default.
W4242031268 cites W2088828290 @default.
W4242031268 cites W2089042314 @default.
W4242031268 cites W2097797273 @default.
W4242031268 cites W2106963750 @default.
W4242031268 cites W2117680644 @default.
W4242031268 cites W2117803624 @default.
W4242031268 cites W2130692204 @default.
W4242031268 cites W2134793715 @default.
W4242031268 cites W2140373240 @default.
W4242031268 cites W2142123081 @default.
W4242031268 cites W2142692102 @default.
W4242031268 cites W2145224524 @default.
W4242031268 cites W2147575195 @default.
W4242031268 cites W2154191515 @default.
W4242031268 cites W2154889667 @default.
W4242031268 cites W2162074801 @default.
W4242031268 cites W2164219271 @default.
W4242031268 cites W2164599620 @default.
W4242031268 cites W2170312901 @default.
W4242031268 cites W2172102816 @default.
W4242031268 cites W2326413440 @default.
W4242031268 cites W2331092813 @default.
W4242031268 cites W2331716093 @default.
W4242031268 cites W4255412919 @default.
W4242031268 cites W51610176 @default.
W4242031268 doi "https://doi.org/10.5194/acpd-15-23051-2015" @default.
W4242031268 hasPublicationYear "2015" @default.
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