Japan Geoscience Union Meeting 2016

Presentation information

Oral

Symbol S (Solid Earth Sciences) » S-CG Complex & General

[S-CG57] Geofluids and dynamics in subduction zones

Tue. May 24, 2016 1:45 PM - 3:15 PM A08 (APA HOTEL&RESORT TOKYO BAY MAKUHARI)

Convener:*Ikuo Katayama(Department of Earth and Planetary Systems Science, Hiroshima University), Atsushi Okamoto(Graduate School of Environmental Studies), Tatsuhiko Kawamoto(Institute for Geothermal Sciences, Graduate School of Science, Kyoto University), Junichi Nakajima(Department of Earth and Planetary Sciences, Tokyo Institute of Technology), Chair:Hata Maki(Advanced Industrial Science and Technology), Takayuki Nakatani(Division of Earth and Planetary Materials Science Department of Earth Science Graduate School of Science, TOHOKU Univ.)

1:45 PM - 2:00 PM

[SCG57-01] Enigmatic ground water enriched in isotopically light lithium

★Invited papers

*Yoshiro Nishio1 (1.Kochi University)

Keywords:lithium isotope, deep crustal fluid, slab-derived fluid, geochemical thermometer

Deep crustal fluids may involve with earthquake and volcanic activities. The geophysical survey such as seismic and electrical conductivity tomography can visualize distribution of crustal fluids, while they need abundant fluids for the detection. It is therefore expected that geochemical results provide us detailed information about origin of deep-seated fluids. However, admixture with surface water makes it difficult to draw precise conclusions regarding the origins of deep-seated fluids. Because of this, geochemical results of the deep-seated fluids had been limited. Lithium (Li) is relatively unaffected by surface water contamination because the Li contents of deep-seated fluids are much greater than the surface water content. These high Li concentrations result from dramatically elevated leaching of Li from solid phase into fluids at high temperatures, and the fact that subsequent re-uptake of the leached Li from the fluid by the solid phase (which occurs as the fluid cools) takes a considerable time. In addition, the two stable isotopes of Li are 6Li and 7Li, and their relative abundances are about 7.5% and 92.5%, respectively. Furthermore, the difference in the 7Li/6Li ratio between fluid and solid phases varies with the reaction temperature. As a result, the Li isotope ratio provide us information about origin of deep-seated fluids. Based on the Li isotopic results on ground water samples, we have researched the origin of deep-rooted fluids. One of major problems unsolved is that significantly low 7Li/6Li ratios are observed in several ground water samples. The Li isotope composition of fluid phase is currently heavier than that of solid phase. Therefore, the significantly low 7Li/6Li ratios of ground waters require the solid phase other than the crust or mantle. Nishio et al. (2010) reported that the significantly low 7Li/6Li ratios were observed in the southeast flank of Ontake volcano in central Japan. Since 1976, earthquake swarms have occurred beneath the southeast flank of Ontake volcano. Electrical conductivity surveys have shown that these earthquake swarms are associated with the upwelling of deep-seated fluid. Based on the Li and Sr isotopic results of ground water samples around Ontake volcano, Nishio et al. (2010) concluded that the fluid associated with the earthquake swarms beneath the southeast flank of Ontake volcano is not a simple volcanic fluid. However, it is still unknown the origin of significantly low 7Li/6Li ratios. Afterwards, such significantly low 7Li/6Li ratios were observed in ground water samples in the Kobe and Kochi area (unpublished data). Accordingly, I’ll discuss about the origin of the significantly low 7Li/6Li ratios observed in several ground water samples.
Reference:
Nishio et al., 2010. Lithium and strontium isotopic systematics of waters around Ontake volcano, Japan: Implications for deep-seated fluids and earthquake swarms. Earth Planet. Sci. Lett. 297, 567-576.