Hydrogeochemistry of Thermal Waters of Baransky Volcano, Iturup Island (Southern Kurils)

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Hydrogeochemistry of Thermal Waters of Baransky Volcano, Iturup Island (Southern Kurils) [HOAC 2015]
DOI: 10.4236/gep.2015.35001 PP.1 - 5
Author(s)
I. V. Bragin, G. A. Chelnokov, R. V. Zharkov, O. V. Chudaev, N. A. Kharitonova
ABSTRACT
Different types of groundwater manifestations occurring on modern structure of the Baransky volcano were studied. Volcanic and seismic activity influences strongly on hydrology and hydrochemistry of the groundwater of the watershed of Sernaya river. Three types of fluids have been established: volcanic-heated, steam-heated and mature. Existing model of hydrothermal system of Baransky volcano was confirmed using geothermometry and hydrochemical calculations. Thus Baransky volcano is a complex object with atmospheric recharge, deep diorite body as heat source and thick fractured altered andesitic water reservoir, where different types of water springs can emerge.
KEYWORDS
Volcanic Waters, Iturup, Kuril Islands, Hydrogeochemistry
References
[1]
Gorshkov, G.S. (1967) Volcanism of Kuril Islands Arc. Moscow, Nauka.
[2]
Rychagov, S.N. (1993) Hydrothermal System of the Baransky Volcano. Volcanology and Seismology, 2, 59-74.
[3]
JKASP-8 Conference (2014) Hydro-chemical Fluxes from Baransky Volcano, Iturup, Kuril Islands.
http://hkdrcep.sci.hokudai.ac.jp/map/jkasp2014/pdf/R48.pdf
[4]
Zlobin, T.K. (1989) Lithosphere Structure near Iturup Island (Seismic Data). Journal of Pacific Geology, 3, 33-41.
[5]
Sundaram, B., Feitz, A., de Caritat, P., Plazinska, A., Brodie, R., Coram, J. and Ransley, T. (2009) Groundwater Sampling and Analysis. A Field Guide. Geoscience, Australia.
[6]
Chudaev, O.V. (2003) Composition and Origin of the Recent Hydrothermal Systems of the Far East Russia. Vladivostok, Dalnauka.
[7]
Taran, Y.A. (2009) Geochemistry of Volcanic and Hydrothermal Fluids and Volatile Budget of the Kamchatka-Kuril Subduction Zone. Geochimica et Cosmochimica Acta, 73, 1067-1094.
http://dx.doi.org/10.1016/j.gca.2008.11.020
[8]
Kharaka, Y.K. and Mariner, R.H. (1989) Chemical Geothermometers and Their Application to Formation Waters from Sedimentary Basins. In: Naeser, N.D. and McCulloch, T.H., Eds., Thermal History of Sedimentary Basins: Methods and Case Histories (pp. 99-117), Springer-Verlag, New York.
http://dx.doi.org/10.1007/978-1-4612-3492-0_6
[9]
Arnorsson, S., Gunnlaugsson, E. and Svavarsson, H. (1983) The Chemistry of Geothermal Waters in Iceland III. Chemical Geochemistry in Geothermal Investigations. Geochimica et Cosmochimica Acta, 47, 567-577.
http://dx.doi.org/10.1016/0016-7037(83)90278-8
[10]
Kharaka, Y.K., Lico, M.S. and Lax, L.M. (1982) Chemical Geothermometers Applied to Formation Waters, Gulf of Mexico and California Basins. Bulletin of the American Association of Petroleum Geologists, 66, 588.

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