Superoxide Decay Kinetics in the Southern Ocean

Measurements of superoxide (O(2)(-)) reaction kinetics were made during a transect with the research icebreaker Polarstern (ANT24-3) in the Antarctic through the Drake Passage in austral autumn 2008. Our sampling strategy was designed to investigate the sinks of superoxide in Polar waters; principal...

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Bibliographic Details
Published in:Environmental Science & Technology
Main Authors: Heller, Maija, Croot, Peter
Format: Article in Journal/Newspaper
Language:English
Published: American Chemistry Society 2010
Subjects:
Antarctic
Austral
Drake Passage
Southern Ocean
The Antarctic
Antarc*
Online Access:https://oceanrep.geomar.de/id/eprint/6153/
https://oceanrep.geomar.de/id/eprint/6153/1/755_Heller_2009_SuperoxideDecayKineticsInThe_Artzeit_pubid12291.pdf
https://doi.org/10.1021/es901766r
Description
Summary:Measurements of superoxide (O(2)(-)) reaction kinetics were made during a transect with the research icebreaker Polarstern (ANT24-3) in the Antarctic through the Drake Passage in austral autumn 2008. Our sampling strategy was designed to investigate the sinks of superoxide in Polar waters; principally through reactions with dissolved organic matter (DOM) or metals (copper and iron). We modified an existing chemiluminescence flow injection system using methyl Cypridina luciferin analog (MCLA) for the detection of O(2)(-) and added O(2)(-) using KO(2) as the source. Our results indicate that O(2)(-) in ambient seawater had a half-life ranging from 9.3 to 194 s. DTPA additions to seawater, to remove the effects of reactions with metals, revealed O(2)(-) decay rates consistent with a second order reaction, indicating that the dismutation reaction dominated and that reactions with DOM were not significant. Titrations of seawater by the addition of nanomolar amounts of iron or copper revealed the importance of organic chelation of Fe and/or Cu in controlling the reactivity with O(2)(-). Throughout the water column reactions with Cu appeared to be the major sink for superoxide in the Southern Ocean. This new strategy suggests an alternative approach for speciation measurements of Fe and Cu in seawater.

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