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Iron colloids dominate sedimentary supply to the ocean interior

William B. Homoky, Tim M. Conway, Seth G. John, Daniela König, Feifei Deng, Alessandro Tagliabue, Rachel A. Mills

2021Proceedings of the National Academy of Sciences86 citationsDOIOpen Access PDF

Abstract

Fe = +0.07 ± 0.07‰) within and between ocean basins. Isotope model experiments demonstrate that only lithogenic weathering in both oxic and nitrogenous zones, rather than precipitation or ligand complexation of reduced Fe species, can account for the production of these porewater Fe colloids. The broader covariance between colloidal Fe and organic carbon (OC) abundance suggests that sorption of OC may control the nanoscale stability of Fe minerals by inhibiting the loss of Fe(oxyhydr)oxides to more crystalline minerals in the sediment. Oxic ocean sediments can therefore generate a large exchangeable reservoir of organo-mineral Fe colloids at the sediment water interface (a "rusty source") that dominates the benthic supply of dissolved Fe to the ocean interior, alongside reductive supply pathways from shallower continental margins.

Topics & Concepts

SedimentGeologyDissolutionWeatheringSeawaterBenthic zoneSediment–water interfaceOxygen minimum zoneGeochemical cycleGeotracesStable isotope ratioTotal organic carbonEnvironmental chemistryColloidGeochemistryOceanographyChemistryPaleontologyQuantum mechanicsPhysicsPhysical chemistryUpwellingGeochemistry and Elemental AnalysisPaleontology and Stratigraphy of FossilsMarine and coastal ecosystems
Iron colloids dominate sedimentary supply to the ocean interior | Litcius