Determination of Iron and Iron-Binding Ligands In Seawater With Flow Injection Analysis and Voltammetry

Recent years have seen an increased occurrence of large icebergs in the Southern Ocean originating from Antarctic ice shelves. These free-drifting icebergs may serve as an important source of Fe to surrounding waters. I measured the concentrations and speciation of dissolved Fe via flow injection-ch...

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Bibliographic Details
Main Author: Lin, Hai
Format: Text
Language:English
Published: Scholar Commons 2010
Subjects:
Online Access:https://scholarcommons.sc.edu/etd/211
https://scholarcommons.sc.edu/context/etd/article/1212/viewcontent/Lin_sc_0202A_10922.pdf
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Summary:Recent years have seen an increased occurrence of large icebergs in the Southern Ocean originating from Antarctic ice shelves. These free-drifting icebergs may serve as an important source of Fe to surrounding waters. I measured the concentrations and speciation of dissolved Fe via flow injection-chemiluminescence and cathodic stripping voltammetry (CSV) in the waters surrounding several icebergs during cruises to the Scotia and Weddell Seas in June 2008 and March 2009. Surface dissolved Fe (dFe) concentrations varied from 0.70 to 2.65 nM and were elevated up to 60% at some stationswaters, regardless of distance to the iceberg. Significantly higher Fe(II) (up to 727 pM, 50% of dissolved Fe) was observed at the face of iceberg, possibly due to direct and indirect Fe(II) sources associated with the iceberg. Fe(II) concentrations were found to be significantly correlated with ambient light levels during the 2009 austral fall cruise, implicating the importance of photochemical reduction source. Electrochemical measurements revealed that over 98% of dissolved Fe was bound to organic ligand, and concentrations of total Fe-binding ligands ranged from 0.98 nM to 3.07 nM, with conditional stability constants ( ) ranging from 11.5 to 13.1. During the fall cruise, the highest concentrations of ligands were observed within 1 km to iceberg, presumably due to enhanced grazing activity near the iceberg; while no enrichment of Fe-binding ligands was seen during the 2008 cruise, presumably due to low biological activity in the winter. Grazing experiments were also conducted using the marine diatom Thalassiosira pseudonana as prey and the heterotrophic dinoflagellate Oxyrrhis marina as grazer to investigate the potential production of Fe-binding ligands via grazing processes. Ligand samples were analyzed using voltammetry. The concentration of dissolved Fe increased from 0.87 nM to 7.67 nM by the end of the grazing period (36 h), suggesting intracellular Fe of phytoplankton cells was released during the grazing process. Observed ...