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[SVC33-P05] Carbon isotope ratios of hot spring water in Hakone-Yumoto area around Hakone volcano, central Japan
Keywords:carbon isotope ratio, Hakone-Yumoto , hot-spring water
The 60 hot spring samples were collected from 2009 to 2012. The δ13CDIC in Hot spring water was measured using a continuous-flow isotope ratio mass spectrometer (Delta V Advantage), equipped with an automated carbonate reaction device (GasBench II, Thermo Fisher Scientific).
The obtained δ13CDIC values ranged from -18‰ to -1‰. We could not observe any temporal variation in the δ13CDIC values between 2009 and 2012. The δ13CDIC values increase with increasing the drilling depth and the water temperature. In some volcanic regions, some previous studies interpreted the carbon source in hot spring water as a mixture of volcanic gas-derived CO2 and soil CO2 (Ohsawa et al. 2002). Sakamoto et al. (1992) suggested that the magma-derived volcanic gases affected the hot spring water in Hakone-Yumoto area based on the helium isotope ratio. Our δ13CDIC values range between natural fumarole δ13CDIC in the central cone (average -1.2‰: Ohba et al., 2007) and surface groundwater δ13CDIC around our study area (about -18‰: Suzuki et al., 2011). Our results suggest that the hot spring waters from shallower pumping depths tend to be affected by soil CO2, and deeper depths tend to be influenced by volcanic gas CO2.