JpGU-AGU Joint Meeting 2020

講演情報

[E] 口頭発表

セッション記号 S (固体地球科学) » S-CG 固体地球科学複合領域・一般

[S-CG62] 沈み込み帯へのインプットを探る:海溝海側で生じる過程の影響

コンビーナ:山野 誠(東京大学地震研究所)、森下 知晃(金沢大学理工研究域地球社会基盤学系)、藤江 剛(海洋研究開発機構)

[SCG62-04] 3He/4He ratios in pore fluids and bottom seawater around the Japan Trench

★Invited Papers

*鹿児島 渉悟1高畑 直人1山野 誠2山口 飛鳥1朴 進午1佐野 有司1 (1.東京大学大気海洋研究所、2.東京大学地震研究所)

キーワード:Helium isotopes、Sediment pore fluids、2011 Tohoku-oki earthquake、Petit-spot volcanism

Geochemical characteristics of pore fluids may be strongly related to tectonic settings and physical phenomenon at convergent plate boundaries such as fault-bending and great earthquakes. For investigation of fluid origins and cycles, 3He is one of the most useful tracer because of its chemical inertness and high sensitivity of mantle-derived components.
In April 2011, one month after the 2011 Tohoku-oki earthquake, high excess 3He (3He/4He anomaly relative to air saturated water) was detected in bottom seawater nearby rupture zones close to the epicenter on the Okhotsk plate (Sano et al., 2014). They suggested that the excess 3He was supplied by pore fluids with mantle-derived components which were released from the plate interface between the Okhotsk and the Pacific plates via faults during the earthquake period, and that high-pressure mantle fluids presented in the seismogenic zone may have triggered the great earthquake. In November 2016, Escobar et al. (2019) collected sweater and sediment samples nearby the same rupture zones, and detected less excess 3He in the samples relative to those reported by Sano et al. (2014), which suggests dissipation of pore fluids with high 3He/4He ratios observed just after the earthquake in 2011. On the over-riding plate nearby the Japan Trench, He isotopic ratios in pore fluids may reflect addition of mantle-derived components associated with earthquake activity.
In order to investigate origin of fluids at outer rise regions of the Japan Trench, we collected sediment samples during KS-19-13 and KS-19-14 cruises onboard R/V Shinsei Maru. Sediment samples were collected from the seafloor using multi-corer and piston corer systems. The samples were immediately transferred into copper tubes and both ends were sealed by metal clamps on the ship in order to avoid air contamination. Subsequent sample preparation and analyses were conducted in Atmosphere and Ocean Research Institute, University of Tokyo. Pore fluids were extracted from the sediment by centrifugation. Then gases dissolved in the pore fluid samples were extracted and introduced into the vacuum line connected to a QMS and a noble gas mass spectrometer (Helix SFT). In the line, the sample gases were purified and 4He/20Ne ratios were measured with the QMS, and 3He/4He ratios were measured with Helix SFT. The obtained ratios were calibrated against those of atmosphere standard. In several sampling sites, vertical profiles of 3He/4He ratios indicated existence of deep fluid end-members with 3He/4He ratios apparently higher than atmosphere. This may reflect migration of mantle-derived or magmatic volatiles, which might be related to presence of petit-spot volcanism or pathways between the mantle and the ocean at the incoming Pacific plate, but the situation should be considered carefully also based on geophysical data.

(References)
Sano et al. (2014) Nature Communications 5, 3084.; Escobar et al. (2019) ACS Earth and Space Chemistry 3, 581-587.