海洋沉积物硫循环中的硫代硫酸盐分流。

A thiosulfate shunt in the sulfur cycle of marine sediments.

出版信息

Science. 1990 Jul 13;249(4965):152-4. doi: 10.1126/science.249.4965.152.

DOI:10.1126/science.249.4965.152

Abstract

The oxidation of sulfide, generated by bacterial sulfate reduction, is a key process in the biogeochemistry of marine sediments, yet the pathways and oxidants are poorly known. By the use of (35)S-tracer studies of the S cycle in marine and freshwater sediments, a novel shunt function of thiosulfate (S(2)O(3)(2-)) was identified. The S(2)O(3)(2-) constituted 68 to 78 percent of the immediate HS(-)-oxidation products and was concurrently (i) reduced back to HS(-), (ii) oxidized to SO(4)(2-), and (iii) disproportionated to HS(-) + SO(4)(2-). The small thiosulfate pool is thus involved in a dynamic HS(-) - S(2)O(3)(2-) cycle in anoxic sediments. The disproportionation of thiosulfate may help account for the large difference in isotopic composition ((34)S/(32)S) of sulfate and sulfides in sediments and sedimentary rocks.

摘要

硫化物的氧化作用是海洋沉积物生物地球化学中的一个关键过程，由细菌硫酸盐还原作用产生，但该过程的途径和氧化剂仍知之甚少。通过使用放射性硫（35S）示踪技术对海洋和淡水沉积物中的 S 循环进行研究，发现了硫代硫酸盐（S(2)O(3)(2-）的一种新的分流功能。S(2)O(3)(2-)构成了 HS(-)氧化产物的 68%至 78%，同时（i）被还原回 HS(-)，（ii）被氧化为 SO(4)(2-)，和（iii）歧化为 HS(-) + SO(4)(2-)。因此，在缺氧沉积物中，小的硫代硫酸盐池参与了一个动态的 HS(-) - S(2)O(3)(2-)循环。硫代硫酸盐的歧化作用可能有助于解释沉积物和沉积岩中硫酸盐和硫化物同位素组成（34S/(32)S）之间的巨大差异。

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海洋沉积物硫循环中的硫代硫酸盐分流。

A thiosulfate shunt in the sulfur cycle of marine sediments.

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