日本地球惑星科学連合2016年大会

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ポスター発表

セッション記号 M (領域外・複数領域) » M-IS ジョイント

[M-IS09] ガスハイドレートと地球環境・資源科学

2016年5月23日(月) 17:15 〜 18:30 ポスター会場 (国際展示場 6ホール)

コンビーナ:*戸丸 仁(千葉大学理学部地球科学科)、八久保 晶弘(北見工業大学環境・エネルギー研究推進センター)、森田 澄人(国立研究開発法人 産業技術総合研究所 地質調査総合センター 地圏資源環境研究部門)

17:15 〜 18:30

[MIS09-P20] サハリン沖ガスハイドレートサイトの微生物組成解析

*阿部 潤来1八久保 晶弘1南 尚嗣1坂上 寛敏1山下 聡1高橋 信夫1庄子 仁1Young Jin3Baranov Boris4Obzhirov Anatoly2小西 正朗1 (1.北見工業大学、2.ロシア科学アカデミー極東支部 V.I.イリチョフ太平洋海洋学研究所、3.韓国極地研究所、4.ロシア科学アカデミーP.P.シルショフ海洋研究所)

Gas hydrates (GH) are widely spread in the sediments under the subsea floor and form at high pressure and low temperature. GH oriented gas were grouped to thermogenic and microbial gas according to composition carbohydrate gas and isotopic molecular weight of methane. The role of microbial communities in the GH sites have been already investigated by several research groups. Isotopic composition of gas hydrate is often use to determine gas derivation such as thermogenic or microbial gases. However, combination study both isotopic gas analysis and microbial diversity have not been performed at all. Recently we successfully obtained mix gas-derived GH core sediment in the western Sakhalin slope off Sakhalin Island by exploration using ultrasonic wave sonar and gravity coring, in SSGH 15 project by using Russian research vessel Akademik M. A. Lavrentyev. We will demonstrate that results of investigating molecular and isotropic composition of the sediment gas, sulfate and sodium compositions, and microbial composition of a GH-bearing sediment core obtained in SSGH15.
Molecular composition ratio C1/C2+C3 below SMI were in the range between 116 and 225, while d13C and dD values of methane were in the range of -48.9 and -45.7 permil, and of -165 and -149 permil, respectively. These results indicated that the gas compose of large amount of thermogenic gas and small amount of microbial gas.
Forty two individual clones have successfully analyzed, until we submit this article. Three Aciduliprofundum related clones, and three Methanobrevibacter related clones were detected. These sequences were clustered into oceanic methanogen in the phylum Euriarcheota. This result implied that these archaeon generate microbial methane in the core, and may correspond to decrease isotopic 13C ratio of methane and increase the C1/C2+C3 ratio. Slight amount of sequence in Crenarcheota, which may be involved anaerobic methane oxidation (annamox). Interestingly, heterotorophic bacteria in cluster of Deharococcoidetes-related Chroloflexi, of Candidatus artibacteria (named as division JS1/OP9), and of Planctomycetes were frequently widespread in the core. The phylum Chloroflexi is a lineage for which the class ‘Dehalococcoidetes’ was proposed to accommodate the tetrachloroethane respiring coccus Deharococcides (1). These bacteria may contribute to decomposition of difficultly degradable organic matters accumulated on deep sea floor. Planctomycetes have been often detected, and widespread in methane-seep (2), but the functional characters have been unknown. Recently, candidatus artibacteria have been revealed to play significant role as synbiotropic scavenger in artificial methanogenic bioreactor, by using single cell genome analysis (3). According to the study, atribacteria may support methanogen and chloroflexi through the by-product generation such as acetate, butyrate, and H2. These results implied that thermogenic and microbial mixed-derived gas composition may be formed by symbiotic metabolism of those species, but not simply generated from inorganic gases such as CO2 and H2 by methanogen.
1)Maymo-Gatell, X., Chien Y., Gossett J. M., Zinder S. H. (1997) Isolation of bacterium that reductively dechlorinates tetrachloroethane to ethane. Science 276: 1568-1571.
2)Yanagawa K., Kouduka M., Hachikubo A., Tomaru H., Suzuki Y. (2014) Distinct microbial communities thriving in gas hydrate-associated sediments from the eastern Japan Sea. J Asia. Ear. Sci. 90: 243-249.
3)Nobu M. K., Narihiro T., Rinke C., Kamagata Y., Tringe S. G., Woyke T. Liu W-T (2015) Microbial dark matter ecogenomics reveals complex synergistic networks in a methanogenic bioreactor. ISME J. 9: 1710-1722.