缺氧区域中的可溶性三价锰

Soluble Mn(III) in suboxic zones.

作者信息

Trouwborst Robert E, Clement Brian G, Tebo Bradley M, Glazer Brian T, Luther George W

机构信息

College of Marine and Earth Studies, University of Delaware, Lewes, DE 19958, USA.

出版信息

Science. 2006 Sep 29;313(5795):1955-7. doi: 10.1126/science.1132876.

DOI:10.1126/science.1132876

PMID:17008530

Abstract

Soluble manganese(III) [Mn(III)] has been thought to disproportionate to soluble Mn(II) and particulate Mn(IV)O2 in natural waters, although it persists as complexes in laboratory solutions. We report that, in the Black Sea, soluble Mn(III) concentrations were as high as 5 micromolar and constituted up to 100% of the total dissolved Mn pool. Depth profiles indicated that soluble Mn(III) was produced at the top of the suboxic zone by Mn(II) oxidation and at the bottom of the suboxic zone by Mn(IV)O2 reduction, then stabilized in each case by unknown natural ligands. We also found micromolar concentrations of dissolved Mn(III) in the Chesapeake Bay. Dissolved Mn(III) can maintain the existence of suboxic zones because it can act as either an electron acceptor or donor. Our data indicate that Mn(III) should be ubiquitous at all water column and sediment oxic/anoxic interfaces in the environment.

摘要

可溶性三价锰[Mn(III)]在天然水体中被认为会歧化为可溶性二价锰和颗粒态四价二氧化锰，尽管它在实验室溶液中以络合物形式存在。我们报告称，在黑海，可溶性三价锰的浓度高达5微摩尔，占总溶解态锰库的比例高达100%。深度剖面表明，可溶性三价锰在次氧区顶部由二价锰氧化产生，在次氧区底部由二氧化锰还原产生，然后在每种情况下都由未知的天然配体稳定下来。我们还在切萨皮克湾发现了微摩尔浓度的溶解态三价锰。溶解态三价锰可以维持次氧区的存在，因为它既可以作为电子受体，也可以作为电子供体。我们的数据表明，三价锰在环境中的所有水柱和沉积物有氧/无氧界面处都应该普遍存在。

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缺氧区域中的可溶性三价锰

Soluble Mn(III) in suboxic zones.

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