2012
DOI: 10.7185/geochempersp.1.1
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The Iron Biogeochemical Cycle Past and Present

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Cited by 582 publications
(468 citation statements)
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References 257 publications
(468 reference statements)
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“…Riverine phosphorus fluxes have also increased by 50-300% over preindustrial levels and are expected to track future global population increases, unless declining mineral phosphorus reserves offset such changes 80 . Fluvial dissolved iron inputs are at present small relative to atmospheric inputs 81 . Any change in the estuarine trapping efficiency of the much larger fluvial particulate iron fluxes could, however, have a significant but uncertain impact on the supply of terrestrial iron to the open ocean 82 .…”
Section: Nature Geoscience Doi: 101038/ngeo1765mentioning
confidence: 96%
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“…Riverine phosphorus fluxes have also increased by 50-300% over preindustrial levels and are expected to track future global population increases, unless declining mineral phosphorus reserves offset such changes 80 . Fluvial dissolved iron inputs are at present small relative to atmospheric inputs 81 . Any change in the estuarine trapping efficiency of the much larger fluvial particulate iron fluxes could, however, have a significant but uncertain impact on the supply of terrestrial iron to the open ocean 82 .…”
Section: Nature Geoscience Doi: 101038/ngeo1765mentioning
confidence: 96%
“…Cumulative anthropogenic inputs over century timescales are thus potentially equivalent in magnitude to 100%, 1-2% and <0.5% of the oceanic iron, nitrogen and phosphorus inventories, respectively. Owing to uncertainty over the bioavailability of particulate iron 81,82,96 , we primarily consider dissolved inputs. For all glacial flows we assume no change in water flows, which in reality are likely to increase with future warming.…”
Section: Implications For the Carbon Cyclementioning
confidence: 99%
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“…As the Fe(II) in the proposed organic ligands is oxidised, it may remain associated with the ligand complex, converting to Fe(III)-L complexes, which may be much stronger than Fe(II)-L complexes. Alternatively, Fe(II) precipitation to Fe(III)-oxyhydroxide nanoparticles may constitute a colloidal fraction of dFe with or without organic complexes (e.g., Raiswell and Canfield 2012).…”
Section: Fe(ii) Oxidation Kinetics In Core-top and Water Column Seawatermentioning
confidence: 99%
“…However, this element and its redox cycling have major impacts on the cycling of other elements (e.g., P) in terrestrial waters and during diagenesis in sediments (Raiswell and Canfield 2012). Iron is also an essential micro-nutrient for marine primary producers and limits their growth in *25% of the open ocean (Boyd and Ellwood 2010), due to its low availability.…”
Section: Introductionmentioning
confidence: 99%