Biogeochemical characteristics of shallow methane seeps of Crimean coastal areas in comparison with deep-sea seeps of the Black Sea

Q4 Environmental Science
T. V. Malakhova, V. Egorov, L. Malakhova, Yu. G. Artemov, N. Pimenov
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引用次数: 3

Abstract

Methane gas bubble emissions (seeps) are widespread phenomenon in the World Ocean, inter alia in Black Sea basin. The relevance of the research of methane seeps is due to their important role as a source of methane – greenhouse and environment-forming gas – for water column and atmosphere. The article presents a comparative analysis of the data from our biogeochemical 10-year studies of shallow gas seeps of the Crimean Peninsula and data on deep-sea gas seeps of the Black Sea. During 10-year period, apart from carrying out hydroacoustic research, the following parameters were determined: bubble gas component composition, methane carbon isotopic composition, microbial community structure of bacterial mats, covering gas bubble emission sites, and gas fluxes from separate seeps. During long-term monitoring, 14 separate gas bubble emission sites were detected and described in Crimean coastal areas; they were located from Cape Tarkhankut in the west of the peninsula to the Dvuyakornaya Bay in the southeast. Crimean coastal seeps were mostly of biogenic origin, with a seasonal type of gas bubble emission. Laspi Bay seeps were classified as emissions of deep gas of thermocatalytic genesis. A significant variation was recorded in values of isotopic composition of methane carbon δ13C-CH4 of bubble gas in coastal shallow areas (−94…−34 ‰), which indicates different conditions for bubble gas generation and maturation in seabed sediments. Similar to deep-sea seeps, coastal gas bubble emissions were accompanied by bacterial mats of diverse structure, with different dominating species. As shown, formation of stable bacterial biomass, usually consisting of sulfide- and sulfur-oxidizing bacteria, requires a fluid flux of reduced dissolved gases, while pointwise bubble gas discharge does not provide sufficient concentration gradients and can mechanically disrupt community structure. Various methods were used to estimate the size spectra of bubbles, as well as fluxes from separate seeps. Gas flux values varied from 1.8 L·day−1 (the Martynova Bay) to 40 L·day−1 (the Laspi Bay). The environment-forming effects, related to gas bubble emission in coastal areas, are discussed: effect of seeps on oxygen conditions in seabed sediments and in water column above gas emission sites, vertical water mixing due to gas lift effect, and fluid discharge at gas emission sites.
克里米亚沿海浅层甲烷渗漏与黑海深海甲烷渗漏的生物地球化学特征比较
甲烷气体气泡排放(渗漏)是世界海洋,特别是黑海盆地普遍存在的现象。甲烷渗漏是水柱和大气中甲烷温室气体和环境形成气体的重要来源,其研究具有重要意义。本文对我国10年来克里米亚半岛浅层天然气渗漏的生物地球化学研究资料与黑海深海天然气渗漏资料进行了对比分析。在10年的时间里,除进行水声研究外,还确定了气泡气体组分组成、甲烷碳同位素组成、菌垫微生物群落结构、覆盖气泡排放部位、各渗漏气体通量等参数。在长期监测期间,在克里米亚沿海地区发现并描述了14个单独的气泡排放点;它们位于半岛西部的Tarkhankut角到东南部的Dvuyakornaya湾。克里米亚沿海渗漏主要是生物成因,具有季节性气泡排放。拉斯皮湾渗漏被归类为热催化成因深层气体排放。沿海浅海地区气泡气甲烷碳δ13C-CH4同位素组成值(- 94 ~ - 34‰)变化显著,说明海底沉积物中气泡气形成和成熟的条件存在差异。与深海渗漏相似,沿海气泡排放伴随着结构多样、优势种不同的菌垫。如图所示,形成稳定的细菌生物量,通常由硫化物和硫氧化细菌组成,需要还原溶解气体的流体通量,而点向气泡气体排放不能提供足够的浓度梯度,并且可以机械地破坏群落结构。用了各种方法来估计气泡的大小光谱,以及不同渗漏的通量。气体通量值从1.8 L·day - 1 (Martynova湾)到40 L·day - 1 (Laspi湾)不等。讨论了与沿海地区气泡排放有关的环境形成效应:渗漏对气体排放点上方海底沉积物和水柱氧条件的影响、气举效应引起的垂直水混合以及气体排放点的流体排放。
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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来源期刊
Marine Biological Journal
Marine Biological Journal Environmental Science-Ecology
CiteScore
0.90
自引率
0.00%
发文量
17
审稿时长
21 weeks
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