Geo-Biological Coupling of Authigenic Carbonate Formation and Autotrophic Faunal Colonization at Deep-Sea Methane Seeps II. Geo-Biological Landscapes

Marine Ecology - Biotic and Abiotic Interactions Pub Date : 2018-08-01 DOI:10.5772/intechopen.78978

T. Naganuma

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引用次数: 1

Abstract

Deep-sea methane seeps are typically shaped with authigenic carbonates and unique biomes depending on methane-driven and methane-derived metabolisms. Authigenic carbonates vary in δ 13 C values due probably to δ 13 C variation in the carbon sources (directly carbon dioxide and bicarbonate, and ultimately methane) which is affected by the generation and degradation (oxidation) of methane at respective methane seeps. Anaerobic oxidation of methane (AOM) by specially developed microbial consortia has significant influences on the carbonate δ 13 C variation as well as the production of carbon dioxide and hydrogen sulfide for chemoautotrophic biomass production. Authigenesis of carbonates and faunal colonization are thus connected. Authigenic carbonates also vary in Mg contents that seem correlated again to faunal colonization. Among the colonizers, mussels tend to colonize low δ 13 C carbonates, while gutless tubeworms colonize high-Mg carbonates. The types and varieties of such geo-biological landscapes of methane seeps are overviewed in this chapter. A unique feature of a high-Mg content of the rock-tubeworm conglomerates is also discussed.

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深海甲烷渗漏中自生碳酸盐形成与自养动物定植的地球生物学耦合[j]。Geo-Biological风景

深海甲烷渗漏通常由自生碳酸盐和独特的生物群落形成，这取决于甲烷驱动和甲烷衍生的代谢。自生碳酸盐δ 13c值的变化可能是由于碳源(直接是二氧化碳和碳酸氢盐，最终是甲烷)的δ 13c变化，而碳源的变化受各自甲烷渗漏产生和降解(氧化)的影响。特别开发的微生物群落厌氧氧化甲烷(AOM)对碳酸盐δ 13c变化以及化学自养生物质生产中二氧化碳和硫化氢的产生有重要影响。因此，碳酸盐的自生作用和动物定植是有联系的。自生碳酸盐的镁含量也有所不同，这似乎与动物定植有关。贻贝倾向于定殖低δ 13 C碳酸盐，而无胆管虫则倾向于定殖高mg碳酸盐。本章概述了甲烷渗漏的地质生物景观的类型和种类。本文还讨论了岩管虫砾岩高镁含量的独特特征。

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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Marine Ecology - Biotic and Abiotic Interactions

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