Dimethyl sulphide and methanethiol formation in microbial mats: potential pathways for biogenic signatures

甲硫醇 二甲基磺酰丙酸盐 二甲基硫醚 环境化学 无氧光合作用 微生物垫 水柱 硫黄 水槽(地理) 缺氧水域 生物 细菌 化学 光合作用 植物 生态学 光养 营养物 浮游植物 有机化学 蓝藻 地理 地图学 遗传学
作者
Pieter T. Visscher,Laura K. Baumgartner,Daniel H. Buckley,Daniel R. Rogers,Mary Ellen Hogan,Christopher Raleigh,Kendra A. Turk,David J. Des Marais
出处
期刊:Environmental Microbiology [Wiley]
卷期号:5 (4): 296-308 被引量:171
标识
DOI:10.1046/j.1462-2920.2003.00418.x
摘要

Summary Mechanisms of dimethyl sulphide (DMS) and methanethiol (MT) production and consumption were determined in moderately hypersaline mats, Guerrero Negro, Mexico. Biological pathways regulated the net flux of DMS and MT as revealed by increases in flux resulting from decreased salinity, increased temperature and the removal of oxygen. Dimethylsulphoniopropionate (DMSP) was not present in these microbial mats and DMS and MT are probably formed by the reaction of photosynthetically produced low‐molecular weight organic carbon and biogenic hydrogen sulphide derived from sulphate reduction. These observations provide an alternative to the notion that DMSP or S‐containing amino acids are the dominant precursors of DMS in intertidal sediment systems. The major sink for DMS in the microbial mats was biological consumption, whereas photochemical oxidation to dimethylsulphoxide was the major sink for DMS in the overlying water column. Diel flux measurements demonstrated that significantly more DMS is released from the system during the night than during the day. The major consumers of DMS in the presence of oxygen were monooxygenase‐utilizing bacteria, whereas under anoxic conditions, DMS was predominantly consumed by sulphate‐reducing bacteria and methanethiol was consumed by methanogenic bacteria. Aerobic and anaerobic consumption rates of DMS were nearly identical. Mass balance estimates suggest that the consumption in the water column is likely to be smaller than net the flux from the mats. Volatile organic sulphur compounds are thus indicators of high rates of carbon fixation and sulphate reduction in these laminated sediment ecosystems, and atmospheric sulphur can be generated as a biogenic signature of the microbial mat community.
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