JpGU-AGU Joint Meeting 2020

Presentation information

[J] Poster

M (Multidisciplinary and Interdisciplinary) » M-IS Intersection

[M-IS32] Gas hydrate in environmental-resource sciences

convener:Hitoshi Tomaru(Department of Earth Sciences, Chiba University), Akihiro Hachikubo(Kitami Institute of Technology), Shusaku Goto(Institute for Geo-Resources and Environment National Institute of Advanced Industrial Science and Technology), Atsushi Tani(Department of Human Environmental Science, Graduate School of Human Development and Environment, Kobe University)

[MIS32-P04] Characteristics of gas in shallow sediments from seepage field off Tokachi (the Pacific Ocean)

*Hiromi Kimura1, Yunosuke Hase1, Yuki Ikeura1, Ryoya Kamata1, Akihiro Hachikubo1, Masaaki Konishi1, Hirotoshi Sakagami1, Hirotsugu Minami1, Satoshi Yamashita1 (1.Kitami Institute of Technology)

Keywords:gas hydrate, methane, the Pacific Ocean

In the framework of practical education of Kitami Institute of Technology (name of lecture: “Practical learning about the Okhotsk Region, its history and the natural environment”), we conducted research cruises off Tokachi from 2014 to 2019, where many gas seeps ascend from the sea floor and their height exceeded 700 m. During the cruises of C008, C046, C061, and C080 using TS Oshoro-maru of Hokkaido University, 11 sediment cores were retrieved from this area using a gravity and hydrostatic corers. In this report we summarize characteristics of sediment gas in this area. Sediment gas samples were obtained by a headspace gas method. We measured gas composition of the sediment gases onboard using a portable gas chromatograph (CP-4900, Varian), and after that we measured the molecular and isotopic compositions of the samples using another gas chromatograph (GC2014, Shimadzu) and CF-IRMS (Delta V, Thermo Fisher Scientific) in our laboratory. SMI (sulfate-methane interface) depths of C008-GC1403 and C080-GC1901 cores were around 50 cm, indicating active gas seepage. However, those of C008-GC1401 and C080-GC1902 cores were more than 2 m. C061-GC1802 core only contained carbonates. These coring points locate within 200 m, suggesting that gas seepage field is not uniform. Hydrogen sulfide was detected except two sediment cores, indicating that the process of anaerobic methane oxidation is active beneath the sea floor. C1 / (C2 + C3) showed minimum around the depths of SMI (sulfate-methane interface), because concentration of ethane simply increased with depth compared with methane. The above high methane flux points showed depletion in δ13C of carbon dioxide, because light carbon dioxide was generated by oxidation of light methane.