Abiotic Methane in Continental Serpentinization Sites: An Overview

Procedia Earth and Planetary Science Pub Date : 2017-01-01 DOI:10.1016/j.proeps.2016.12.006

Giuseppe Etiope

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引用次数: 36

Abstract

Until 2008 methane in land-based serpentinized peridotites (MSP) was considered to be an unusual and rare occurrence of abiotic gas. Today, reports of MSP are increasing for numerous localities worldwide in low temperature settings in ophiolites, orogenic massifs or intrusions. CH₄ emanates from focused seeps, hyperalkaline water springs or through diffuse seepage from the ground, typically along faults. MSP has a combination of stable C and H isotope composition that is different from that of biotic methane; it is likely produced by Fischer-Tropsch Type reactions between CO₂ (or other C compounds) and H₂ (from serpentinization) at low temperatures (typically <100 °C) and its carbon is fossil, ¹⁴C free, which does not derive from the more recent C dissolved in the hyperalkaline waters. MPS is more common than previously assumed; it may have played a key role in the origin of life, may fuel microbial life in igneous rocks on Earth and other planets, and can be an additional source of gas in atypical petroleum systems hosting ultramafic rocks.

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大陆蛇纹石化遗址中的非生物甲烷:综述☆

直到2008年，陆基蛇纹岩橄榄岩(MSP)中的甲烷被认为是一种罕见的非生物气体。今天，在世界各地的蛇绿岩、造山岩块或侵入体的低温环境中，MSP的报道越来越多。CH4来自集中的渗漏，高碱性泉水或通过地面的弥漫性渗漏，通常沿着断层。MSP具有不同于生物甲烷的稳定碳、氢同位素组合;它可能是由CO2(或其他含碳化合物)和H2(来自蛇纹石化)在低温(通常为100°C)下的费托反应产生的，它的碳是化石的，不含14C，而不是来自最近溶解在高碱性水中的C。MPS比以前认为的更常见;它可能在生命起源中发挥了关键作用，可能为地球和其他行星上火成岩中的微生物生命提供燃料，也可能是含有超镁质岩石的非典型石油系统中的额外天然气来源。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Procedia Earth and Planetary Science

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