- 著者
- Shinsuke Kawagucci Sanae Sakai Eiji Tasumi Miho Hirai Yoshihiro Takaki Takuro Nunoura Masafumi Saitoh Yuichiro Ueno Naohiro Yoshida Takazo Shibuya James Clifford Sample Tomoyo Okumura Ken Takai
- 出版者
- Japanese Society of Microbial Ecology / Japanese Society of Soil Microbiology / Taiwan Society of Microbial Ecology / Japanese Society of Plant Microbe Interactions / Japanese Society for Extremophiles
- 雑誌
- Microbes and Environments (ISSN:13426311)
- 巻号頁・発行日
- vol.38, no.2, pp.ME22108, 2023 (Released:2023-06-16)
- 参考文献数
- 114
- 被引用文献数
- 1
Post-mega-earthquake geochemical and microbiological properties in subseafloor sediments of the Japan Trench accretionary wedge were investigated using core samples from Hole C0019E, which was drilled down to 851 m below seafloor (mbsf) at a water depth of 6,890 m. Methane was abundant throughout accretionary prism sediments; however, its concentration decreased close to the plate boundary decollement. Methane isotope systematics indicated a biogenic origin. The content of molecular hydrogen (H2) was low throughout core samples, but markedly increased at specific depths that were close to potential faults predicted by logging-while-drilling analyses. Based on isotopic systematics, H2 appeared to have been abundantly produced via a low-temperature interaction between pore water and the fresh surface of crushed rock induced by earthquakes. Subseafloor microbial cell density remained constant at approximately 105 cells mL–1. Amplicon sequences revealed that predominant members at the phylum level were common throughout the units tested, which also included members frequently found in anoxic subseafloor sediments. Metabolic potential assays using radioactive isotopes as tracers revealed homoacetogenic activity in H2-enriched core samples collected near the fault. Furthermore, homoacetogenic bacteria, including Acetobacterium carbinolicum, were isolated from similar samples. Therefore, post-earthquake subseafloor microbial communities in the Japan Trench accretionary prism appear to be episodically dominated by homoacetogenic populations and potentially function due to the earthquake-induced low-temperature generation of H2. These post-earthquake microbial communities may eventually return to the steady-state communities dominated by oligotrophic heterotrophs and hydrogenotrophic and methylotrophic methanogens that are dependent on refractory organic matter in the sediment.
言及状況
外部データベース (DOI)
Twitter (27 users, 45 posts, 79 favorites)
2023年のM&E誌には2報論文掲載!これでMVPを、あるいは学会誌の社会的インパクト向上に貢献した審査員特別賞を、狙うのら。
https://t.co/Zbx2WR5DDe
https://t.co/jBOyUCzAux
[ELSI paper] 'Deep Subseafloor Biogeochemical Processes and Microbial Populations Potentially Associated with the 2011 Tohoku-oki Earthquake at the Japan Trench Accretionary Wedge (IODP Expedition 343)' on Microbes and Environments. https://t.co/c0SV1zvKVH
"The relationship between earthquakes and the deep subsurface ecosystem will be the focus of future scientific drilling projects."
https://t.co/kQ1t3e17n3
そして何より現時点で世界の最も深い場所(海面から6900mの水深と800mのコアを合わせて7700mの深さ)から分離された化学合成微生物=酢酸菌(Acetobacterium)は可愛いし凄いンゴ。
https://t.co/mw8OEuR9nd
この論文で議論した新鮮な断層面水素発生メカニズム(低温蛇紋岩化反応)は来月から調査するマリアナ海溝アウターライズ低温熱水と同じメカニズムと考えられ、地震後の断層周辺の化学合成生態系を支える新しい地球生命科学イベントとしてメジャーになるンゴ。
https://t.co/mw8OEuR9nd
J-FAST掘削航海(IODP Expedition 343)を通じて東北沖地震1年後の日本海溝の超深海海底下断層付近で起きた化学・微生物学的変化を明らかにした論文。ワンチャンの結果をできるだけ(我田引水ではなく)客観的に一般化しようとした議論はこれぞフィールドサイエンス!
https://t.co/mw8OEuR9nd
【新作】いわゆる地震生命圏を現場検証した論文。東日本大地震の1年後に採取した海底掘削コアの化学組成と微生物群集を調べ尽くした結果、断層運動、岩石破砕、非生物H2生成、酢酸生成菌の励起と沈静化、普段はメタン生成をじわじわ、というシーケンスが起こっていると指摘。
https://t.co/8ZBdrNtrsD