Japan Geoscience Union Meeting 2014

Presentation information

Oral

Symbol A (Atmospheric, Ocean, and Environmental Sciences) » A-HW Hydrology & Water Environment

[A-HW25_2AM2] Isotope Hydrology 2014

Fri. May 2, 2014 11:00 AM - 12:45 PM 414 (4F)

Convener:*Masaya Yasuhara(Geological Survey of Japan, AIST), Kohei Kazahaya(Geological Survey of Japan, AIST), Shinji Ohsawa(Institute for Geothermal Sciences, Graduate School of Science, Kyoto University), Masaaki Takahashi(Geological Survey of Japan (GSJ), National Institute of Advanced Industrial Science and Technology (AIST)), YUICHI SUZUKI(Faculty of Geo-Environmental Sience,Rissho University), Futaba Kazama(Social Cystem Engineering, Division of Engineering, Interdiciplinary Graduate School of Medical and Engineering, University of Yamanashi), Kazuyoshi Asai(Geo Science Laboratory), Chair:Kazuyoshi Asai(Geo Science Laboratory), Kazuhiro Amita(Department of Earth Science & Technology Faculty of Engineering and Resource Science Akita University)

11:15 AM - 11:30 AM

[AHW25-09] Contribution of volcanic gas to spring waters in the Mt. Yotei.

*Yukiko KUSANO1, Masaya YASUHARA2, Kazuyoshi ASAI3, Akihiko INAMURA2, A., hiroshi TAKAHASHI2, Noritoshi MORIKAWA2 (1.The University of Tokyo, 2.Geological Survey of Japan, AIST, 3.Geo science Laboratory Co. Ltd.)

The Mt. Yotei is a stratovolcano in southwest Hokkaido with an altitude of 1893 m. There are a lot of springs in the foot of the mountain and most of these are found from the altitude of 200 to 260 m. This elevation is consistent with that of boundary between volcanic rocks of the volcano and basement consists of tuff and pumice. Northern, eastern, and southern slopes of the mountain are covered by pyroclastic fall and reworked deposits of that, while the western slope is covered by lava erupted from summit and parasitic volcanos in western slope (Katsui, 1956). It is revealed that springs in eastern and southern slopes tend to show lager discharge and lower dissolved components, while those in the western slope tend to show smaller discharge and higher dissolved components (Yamaguchi and Sato, 1971; Yamaguchi, 1972; Tsurumaki, 1989). Because of higher HCO3- and free CO2 gas concentrations and higher temperature of springs in the western slope, addition of volcanic gas to those is estimated (Yamaguchi and Sato, 1971; Tsurumaki, 1989). However, contribution of volcanic gas to groundwater has not been evident. In this study, contribution of volcanic gas to spring waters will be discussed based on dissolved components and isotopic compositions.Spring water samples were collected on August 2013, and were analyzed for major dissolved components, isotopic compositions (δD, δ18O, δ13C, 3He/4He), and groundwater-age indices (CFCs and SF6). Dissolved components of spring waters are Ca-HCO3 type or Na-HCO3 type. Spring waters in the western slope tend to show higher HCO3- and free CO2 gas concentrations. These results are consistent with those of previous studies. δ13C of dissolved inorganic carbon (DIC) in spring waters in eastern and southern slopes are -21.7 to -17.7 ‰, while those of the western slope are -18.1 to -3.0 ‰. This result suggests that spring waters in western slope contain DIC of which origin is different from that contained in springs in eastern and southern slopes. Dissolution of marine carbonates is unlikely because groundwater flow in volcanic rocks. Relationship between δ13C and inverses of concentrations of total carbon are plotted in mixing zone of volcanic CO2 and soil CO2, and spring water showing higher δ13C and total carbon concentration were correspond to higher contribution of volcanic CO2. These results suggest that spring waters in western slope showed higher δ13C and total carbon concentrations because of addition of volcanic CO2. δD and δ18O of spring waters are plotted along the meteoric water line (GSJ, undisclosed data), suggesting contribution of magmatic water is quite small. Effect of parasitic volcanos in the wastern slopes is suggested by Yamaguchi and Sato (1971) as a possible factor for higher contribution of volcanic gas to springs in the western slope. Further discussions based on dissolved components, isotopic compositions, and groundwater-age indices will be performed to reveal relationship between contribution of volcanic gas and groundwater flow system.ReferencesKatsui, Y., 1956. Explanatory text of geological map of Japan, scale 1: 50,000, Rusutsu, appendix, Geological Curvey of Hokkaido, p14.Tsurumaki, M., Journal of Groundwater Hydrology, 31, 3, 165-173.Yamashita, K. and Sato, I., 1971. Report of of spring water survey in the Mt. Yotei, Geological Survey of Hokkaido, p27.Yamashita, K., 1972. Journal of Geography, 81, 5, 4-20.