Please use this identifier to cite or link to this item: http://hdl.handle.net/10553/121907
Title: Iron Distribution in the Subtropical North Atlantic: The Pivotal Role of Colloidal Iron
Authors: Kunde, Korinna
Wyatt, Neil
González Santana, David 
Tagliabue, Alessandro
Mahaffey, Claire
Lohan, Maeve
UNESCO Clasification: 251002 Oceanografía química
221004 Química de coloides
Keywords: Colloidal iron
Dissolved iron
GEOTRACES
Subtropical North Atlantic
Issue Date: 2019
Journal: Global Biogeochemical Cycles 
Abstract: The low availability of the essential micronutrient iron (Fe) in the ocean impacts the efficiency of the biological carbon pump, and hence, it is vital to elucidate its sources, sinks, and internal cycling. We present size-fractionated dissolved Fe (dFe, <0.2 μm) measurements from 130 surface samples and 7 full-depth profiles from the subtropical North Atlantic during summer 2017 and demonstrate the pivotal role of colloidal (cFe, 0.02 to 0.2 μm) over soluble (sFe, <0.02 μm) Fe in controlling the dFe distribution. In the surface (<5 m), a strong west-to-east decrease in dFe (1.53 to 0.26 nM) was driven by a dust gradient, which retained dFe predominantly as cFe (61% to 85% of dFe), while sFe remained largely constant at 0.19 ± 0.05 nM. In the euphotic zone, the attenuation of dFe resulted from the depletion of cFe (0% to 30% of dFe), with scavenging as an important driver. In the mesopelagic, cFe was released from sinking biogenic and lithogenic particles, creating a zone of elevated dFe (0.7 to 1.0 nM) between 400 to 1100 m depth. While the ocean interior, below the mesopelagic and above the seafloor boundary, exhibited a narrow range of cFe (40% to 60% of dFe), the abyssal cFe fraction varied in range from 26% to 76% due to interactions with seafloor sediments and a hydrothermal source with almost 100% cFe. Overall, our results produced an hourglass shape for the vertical cFe-to-dFe fraction and highlight the primary control of cFe on the dFe distribution.
URI: http://hdl.handle.net/10553/121907
ISSN: 0886-6236
DOI: 10.1029/2019gb006326
Source: Global Biogeochemical Cycles [ISSN 0886-6236], v. 33 (12), p. 1532-1547, (Diciembre 2019)
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