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Iodine Chemistry

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Truesdale

Molecular iodine reduction by natural and model organic substances in seawater

Truesdale VW, Luther III, GW

Aquatic Geochemistry, 1995, 1:89-104.

"The reactivity of 2 nM molecular iodine in seawater toward various organic compounds containing aromatic, alpha-keto, amino, olefinic and sugar functional groups was investigated.  More detailed studies have been made of the reduction kinetics with salicylic acid, alpha-ketoglutaric acid and the polypeptide oxidized glutathione, particularly to establish whether variation over the pH range 4-9 would provide a similar reduction reactivity or "fingerprint" to that of molecular iodine added to natural seawater.  The data indicates that compounds with only one functional group react with first order kinetics whereas compounds with multiple functional groups show more complex behaviour.  Kinetic and thermodynamic modelling indicates that HOI is the main iodine species reacting with organic matter at seawater pH of 8.2.  Based on the pH "fingerprints", peptides and compounds containing carbonyl or alpha-keto groups are the key reductants of molecular iodine added to seawater.  These compounds form C-I and N-I bonds which can allow for a rich organic iodine chemistry in seawater.  The model compound results are discussed in relation to oceanic processes."

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