Physicochemical speciation of iron during coastal algal blooms

Previous coastal marine studies have concluded that the total dissolved Fe may influence the initiation of algal blooms, including Brown Tides of Aureococcus anophagefferens. However, the existence of unavailable colloidal and organically complexed Fe make the dissolved pool a poor indicator of what...

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Veröffentlicht in:Marine chemistry 2002, Vol.77 (1), p.71-89
Hauptverfasser: Gobler, Christopher J, Donat, John R, Consolvo, John A, Sañudo-Wilhelmy, Sergio A
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Sprache:eng
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Zusammenfassung:Previous coastal marine studies have concluded that the total dissolved Fe may influence the initiation of algal blooms, including Brown Tides of Aureococcus anophagefferens. However, the existence of unavailable colloidal and organically complexed Fe make the dissolved pool a poor indicator of what is bioavailable for assimilation by phytoplankton. To evaluate the role of Fe in the formation of coastal algal blooms, we measured its physicochemical speciation—dissolved, high molecular weight (HMW), low molecular weight (LMW), labile particulate, refractory particulate, organically complexed, and labile dissolved factions—in the Peconic Estuary, NY, USA, which hosts sporadic Brown Tides. Across the Brown Tide-prone, high salinity portion of the estuary dissolved Fe varied from 9 to 240 nM, which is above and below levels reported to cause physiological Fe stress in this species (100 nM). Dissolved Fe in the more saline portions of the Peconics was, on average, 80% organically complexed and 73% high molecular weight (HMW=colloidal, 0.2 μM–10 kDa). Within an intensively studied embayment, decreases in labile particulate Fe, along with increases in low molecular weight (LMW) Fe, coincided with peaks in algal biomass. A significant positive correlation between LMW Fe and chlorophyll a ( r 2=0.62, P
ISSN:0304-4203
1872-7581
DOI:10.1016/S0304-4203(01)00076-7