甲烷循环。微生物甲烷的非平衡团簇同位素信号。

Methane cycling. Nonequilibrium clumped isotope signals in microbial methane.

机构信息

Department of Earth, Atmospheric and Planetary Sciences, Massachusetts Institute of Technology, Cambridge, MA 02139, USA. Marine Chemistry and Geochemistry Department, Woods Hole Oceanographic Institution, Woods Hole, MA 02543, USA.

Department of Earth Sciences, University of Toronto, Toronto, Ontario M5S 3B1, Canada.

出版信息

Science. 2015 Apr 24;348(6233):428-31. doi: 10.1126/science.aaa4326. Epub 2015 Mar 5.

DOI:10.1126/science.aaa4326

PMID:25745067

Abstract

Methane is a key component in the global carbon cycle, with a wide range of anthropogenic and natural sources. Although isotopic compositions of methane have traditionally aided source identification, the abundance of its multiply substituted "clumped" isotopologues (for example, (13)CH3D) has recently emerged as a proxy for determining methane-formation temperatures. However, the effect of biological processes on methane's clumped isotopologue signature is poorly constrained. We show that methanogenesis proceeding at relatively high rates in cattle, surface environments, and laboratory cultures exerts kinetic control on (13)CH3D abundances and results in anomalously elevated formation-temperature estimates. We demonstrate quantitatively that H2 availability accounts for this effect. Clumped methane thermometry can therefore provide constraints on the generation of methane in diverse settings, including continental serpentinization sites and ancient, deep groundwaters.

摘要

甲烷是全球碳循环中的一个关键组成部分，具有广泛的人为和自然来源。尽管甲烷的同位素组成传统上有助于识别来源，但它的多种取代的“聚集”同位素（例如，(13)CH3D）的丰度最近已成为确定甲烷形成温度的替代物。然而，生物过程对甲烷聚集同位素特征的影响还没有得到很好的限制。我们表明，在牛、地表环境和实验室培养物中以相对较高的速率进行的产甲烷作用对(13)CH3D 的丰度施加了动力学控制，导致异常高的形成温度估计。我们定量地证明了氢气的可用性解释了这种效应。因此，聚集甲烷温度计可以为不同环境中甲烷的生成提供约束，包括大陆蛇纹石化地点和古代深部地下水。

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甲烷循环。微生物甲烷的非平衡团簇同位素信号。

Methane cycling. Nonequilibrium clumped isotope signals in microbial methane.

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