Relationship between atmospheric CH4 concentration above sea surface and gas plumes from sea?oor along the eastern margin of Japan sea and around Hokkaido

Journal of The Japanese Association for Petroleum Technology Pub Date : 2020-12-24 DOI:10.3720/japt.85.309

S. Aoki, S. Komiya, T. Oi, K. Noborio, R. Matsumoto

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引用次数: 1

Abstract

： The gas seeps from the seafloor were presumed as a potential source of methane （ CH 4 ） to the atmosphere. Numerous gas plumes have also been reported around Japanese archipelago. During spring and summer in each 2014 and 2015, we have conducted the unique high-resolution measurements of CH 4 in the atmosphere above the seas （ eastern margin of Japan sea and sea around Hokkaido ） where the gas hydrate expected to exist. To date, deepwater gas plumes are not assumed to contribute to the atmospheric CH 4 . Although atmospheric CH 4 concentrations along the ship ʼ s track were almost 1.9 ppm, some observation sites with gas plumes were over 2.1 ppm. In addition to the gas plumes observed at depths shallower than 400 m in these areas, the TGHS （ Top of Gas Hydrate Stability ） was estimated to be shallow in contrast to earlier reports. These observations suggested that some gas plumes in the specific environment, where CH 4 was easily transported to the ocean surface layer, contribute to increasing the atmospheric CH 4 concentration.

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海面上大气CH4浓度与海上气体羽流的关系?沿日本海东部边缘和北海道周围分布

从海底渗出的气体被认为是大气中甲烷(ch4)的潜在来源。据报道，日本群岛周围也有大量的气体羽流。在2014年和2015年的春季和夏季，我们对预计存在天然气水合物的海域(日本海东部边缘和北海道周围海域)上空大气中的甲烷进行了独特的高分辨率测量。迄今为止，深海气体羽流不被认为对大气中的甲烷有贡献。尽管船所沿轨道的大气甲烷浓度几乎为1.9 ppm，但一些有气体羽流的观测点的甲烷浓度超过了2.1 ppm。除了在这些地区400米以下的深度观测到的气体羽流外，与之前的报告相比，估计TGHS(天然气水合物稳定性顶部)是浅的。这些观测结果表明，在特定的环境中，一些气体羽流很容易将ch4输送到海洋表层，这有助于增加大气中ch4的浓度。

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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Journal of The Japanese Association for Petroleum Technology

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