Development of geothermal field following the 2000 eruption of Usu volcano as revealed by ground temperature, resistivity and self-potential variations
Author(s)
Date Issued
February 2007
Issue/vol(year)
1/50 (2007)
Language
English
Abstract
The 2000 eruption of Usu volcano, NE Japan, took place on the foot of the somma, and formed a cryptodome
of 65 m high accompanying numerous faults. We made repeated measurements of ground temperature, Self-Potential
(SP) and electrical resistivity, in order to clarify the mechanism of development of the newly formed geothermal
field on the fault zone. Prior to the expansion of the geothermal field, we detected a resistive zone at
the center of the geothermal zone and it supposed to evidence that the zone involving dry steam phase had been
formed beneath the fault zone. A rapid expansion of the geothermal field followed along the fault zone away
from the craters. The place of maximum amplitude of the SP field also migrated following the expansion of the
high ground temperature zone. The high resistive part has shrunk as a consequence of the progress of condensation
to warm the surroundings. Based on the observations, we delineated the process of the hydrothermal circulation.
Considering the topographic effect of the SP field observed on the highly permeable zone in the Usu somma,
the potential flow along the slope of the soma was expected to play an important role to promote the rapid
expansion of the geothermal field and the migration of the most active part.
of 65 m high accompanying numerous faults. We made repeated measurements of ground temperature, Self-Potential
(SP) and electrical resistivity, in order to clarify the mechanism of development of the newly formed geothermal
field on the fault zone. Prior to the expansion of the geothermal field, we detected a resistive zone at
the center of the geothermal zone and it supposed to evidence that the zone involving dry steam phase had been
formed beneath the fault zone. A rapid expansion of the geothermal field followed along the fault zone away
from the craters. The place of maximum amplitude of the SP field also migrated following the expansion of the
high ground temperature zone. The high resistive part has shrunk as a consequence of the progress of condensation
to warm the surroundings. Based on the observations, we delineated the process of the hydrothermal circulation.
Considering the topographic effect of the SP field observed on the highly permeable zone in the Usu somma,
the potential flow along the slope of the soma was expected to play an important role to promote the rapid
expansion of the geothermal field and the migration of the most active part.
References
BALLESTRACCI, R. and Y. NISHIDA (1987): Fracturing associated
with 1977-1978 eruption of Usu volcano, North
Japan, as revealed by geophysical measurements, J.
Volcanol. Geotherm. Res., 34, 107-121.
HASHIMOTO, T. and Y. TANAKA (1995): A large self-potential
anomaly on Unzen volcano, Shimabara Peninsula,
Kyushu Island, Japan, Geophys. Res. Lett., 22, 191-194.
ISHIDO, T. (1988): Self-potential generation by subsurface
water flow through electrokinetic coupling, in Detection
of Subsurface Flow Phenomena (Springer-Verlag)
edited by G.P. MERKLER, H. MILITZER, H. HÖTZL, H.
ARMBRUSTER and J. BRAUNS, Lecture Notes in Earth
Sci., 27, 121-131.
MATSUSHIMA, N. (1992): Geothermal study on active volcano
with special attention to the heat discharge
process accompanied by the 1977 eruption of Usu volcano,
Ph.D. Thesis (Hokkaido University, Sapporo), (in
Japanese).
MATSUSHIMA, N. (2003): Mathematical simulation of magma-
hydrothermal activity associated with the 1977
eruption of Usu volcano, Earth Planets Space, 55, 559-
568.
MIURA, D. and K. NIIDA (2002): Two-stage Growth Model
of Cryptodome by Shallow Intrusions, the 2000 Eruption
of Usu volcano, Northern Japan, J. Bull. Volcanol.
Soc. Jpn. Ser. 2 , 47 ,119-130 (in Japanese with English
abstract).
NAKAGAWA, M., A. MATSUMOTO, J. TAJIKA, W. HIROSE and
T. OHTSU (2005): Re-investigation of eruption history
of Usu volcano, Japan: finding of pre-Meiwa eruption
(late 17th century) between Kanbun (1663) and Meiwa
(1769) eruptions, Bull. Volcanol. Soc. Jpn., 50, 39-52
(in Japanese with English abstract).
NISHIDA,Y. and H. TOMIYA (1987): Self-potential studies in
volcanic areas, 1. Usu volcano, J. Fac. Sci. Hokkaido
Univ. Ser. 7, 8, 173-190.
NISHIDA,Y., H. SATO, M. UTSUGI, H. MURAKAMI, K. AMITA,
H. TANAKA, J. ZLOTNICKI, P. YVETOT, P, MORAT, Y. SASAI
and Y. ISHIKAWA (1996): A preliminary report on the
distribution of the self potential field in Miyake-jima
volcano, in Proceedings of the Conductivity Anomaly
Symposium, 247-253 (in Japanese).
OKAZAKI, N., H. TAKAHASHI, M. KASAHARA, S. ISHIMARU,
H. MORI, S. KITAGAWA, K. FUJIWARA and M. CHUREI
(2002): Crustal deformation associated with the 2000
eruption of Usu volcano as observed by a dense GPS
array, Bull. Volcanol. Soc. Jpn., 47, 547-557 (in Japanese
with English abstract).
OSHIMA, H. and N. MATSUSHIMA (1999): Preliminary report
on hydrological environment in the shallow part of Usu
volcano, Geophys. Bull. Hokkaido Univ., 62, 79-97 (in
Japanese with English abstract).
PERRIER, F., G. PETIAU, M. VALIANT, G. CLERC, D. MASCIMENTO
and O. YAZICI-CAKIN (1998): The measurement
of electrode parameters in the laboratory, in The Garchy
1995-1996 Electrode Experiment Technical Report
(CNRS Garchy), edited by G. CLERC, G. PETIAU and F.
PERRIER, 93-114.
SASAI,Y., J. ZLOTNICKI,Y. NISHIDA, P. YVETOT, P. MORAT, H.
MURAKAMI, Y. TANAKA, Y. ISHIKAWA, S. KOYAMA and
W. SEKIGUCHI (1997): Electromagnetic monitoring of
Miyake-jima volcano, Izu-Bonin Arc, Japan: a preliminary
report, J. Geomag. Geoelectr., 49, 1293-1316.
TOKAREV, P.I. (1967): The giant eruption of the Shevluch on
November 12, 1914 and its forerunners, Izv. Earth
Phys., 9, 572-579.
UCHIDA, T. (1993): Smoothness-constrained 2D inversion for DC resistivity data by ABIC minimization method,
Butsuri-Tansa (Gephys. Explor.), 46, 105-119 (in Japanese
with English abstract).
UI, T., M. NAKAGAWA, C. INABA, M. YOSHIMOTO and JOINT
RESEARCH GROUP FOR THE 2000 ERUPTION (GEOLOGICAL
PARTY) (2002): Sequence of the 2000 Eruption,
Usu volcano, Bull. Volcanol. Soc. Jpn. Ser. 2, 47 ,105-
117 (in Japanese with English abstract).
YOKOYAMA, I. (1957): Energetics in active volcanoes, Bull.
Earthquake Res. Inst., Univ. Tokyo, 35, 75-97.
ZABLOCKI, C.J. (1976): Mapping thermal anomalies on an
active volcano by the self potential method, Kilauea,
Hawaii, in Proceedings of 2nd U.N. Symposium on the
Development and Use of Geothermal Resources, San
Francisco, 2, 1299-1309.
ZLOTNICKI, J. and Y. NISHIDA (2003): Review on morphological
insights of self-potential anomalies on volcanoe,
Surv. Geophys., 24, 291-338.
ZLOTNICKI, J., S. MICHEL and C. ANNEN (1994a): Self-potential
anomalies and convective systems on la Fournaise
volcano (Reunion Island, France), C.R. Acad. Sci.
Paris Ser. II, 318, 1325-1331 (in French with extended
English abstract).
ZLOTNICKI, J., M. FEUILLARD and G. HAMMOUYA (1994b):
Water circulation on La Soufriere volcano (Guadeloupe,
Lesser Antilles): May-December 1992 seismovolcanic
crisis. Renew of volcanic activity?, J. Geomag.
Geoelectr., 46, 797-813.
ZOHDY, A.A.R., L.A. ANDERSON and L.J.P. MUFFLER (1973):
Resistivity, self-potential, and induced-polarization surveys
of a vapor-dominated geothermal system, Geophysics,
38, 1130-144.
with 1977-1978 eruption of Usu volcano, North
Japan, as revealed by geophysical measurements, J.
Volcanol. Geotherm. Res., 34, 107-121.
HASHIMOTO, T. and Y. TANAKA (1995): A large self-potential
anomaly on Unzen volcano, Shimabara Peninsula,
Kyushu Island, Japan, Geophys. Res. Lett., 22, 191-194.
ISHIDO, T. (1988): Self-potential generation by subsurface
water flow through electrokinetic coupling, in Detection
of Subsurface Flow Phenomena (Springer-Verlag)
edited by G.P. MERKLER, H. MILITZER, H. HÖTZL, H.
ARMBRUSTER and J. BRAUNS, Lecture Notes in Earth
Sci., 27, 121-131.
MATSUSHIMA, N. (1992): Geothermal study on active volcano
with special attention to the heat discharge
process accompanied by the 1977 eruption of Usu volcano,
Ph.D. Thesis (Hokkaido University, Sapporo), (in
Japanese).
MATSUSHIMA, N. (2003): Mathematical simulation of magma-
hydrothermal activity associated with the 1977
eruption of Usu volcano, Earth Planets Space, 55, 559-
568.
MIURA, D. and K. NIIDA (2002): Two-stage Growth Model
of Cryptodome by Shallow Intrusions, the 2000 Eruption
of Usu volcano, Northern Japan, J. Bull. Volcanol.
Soc. Jpn. Ser. 2 , 47 ,119-130 (in Japanese with English
abstract).
NAKAGAWA, M., A. MATSUMOTO, J. TAJIKA, W. HIROSE and
T. OHTSU (2005): Re-investigation of eruption history
of Usu volcano, Japan: finding of pre-Meiwa eruption
(late 17th century) between Kanbun (1663) and Meiwa
(1769) eruptions, Bull. Volcanol. Soc. Jpn., 50, 39-52
(in Japanese with English abstract).
NISHIDA,Y. and H. TOMIYA (1987): Self-potential studies in
volcanic areas, 1. Usu volcano, J. Fac. Sci. Hokkaido
Univ. Ser. 7, 8, 173-190.
NISHIDA,Y., H. SATO, M. UTSUGI, H. MURAKAMI, K. AMITA,
H. TANAKA, J. ZLOTNICKI, P. YVETOT, P, MORAT, Y. SASAI
and Y. ISHIKAWA (1996): A preliminary report on the
distribution of the self potential field in Miyake-jima
volcano, in Proceedings of the Conductivity Anomaly
Symposium, 247-253 (in Japanese).
OKAZAKI, N., H. TAKAHASHI, M. KASAHARA, S. ISHIMARU,
H. MORI, S. KITAGAWA, K. FUJIWARA and M. CHUREI
(2002): Crustal deformation associated with the 2000
eruption of Usu volcano as observed by a dense GPS
array, Bull. Volcanol. Soc. Jpn., 47, 547-557 (in Japanese
with English abstract).
OSHIMA, H. and N. MATSUSHIMA (1999): Preliminary report
on hydrological environment in the shallow part of Usu
volcano, Geophys. Bull. Hokkaido Univ., 62, 79-97 (in
Japanese with English abstract).
PERRIER, F., G. PETIAU, M. VALIANT, G. CLERC, D. MASCIMENTO
and O. YAZICI-CAKIN (1998): The measurement
of electrode parameters in the laboratory, in The Garchy
1995-1996 Electrode Experiment Technical Report
(CNRS Garchy), edited by G. CLERC, G. PETIAU and F.
PERRIER, 93-114.
SASAI,Y., J. ZLOTNICKI,Y. NISHIDA, P. YVETOT, P. MORAT, H.
MURAKAMI, Y. TANAKA, Y. ISHIKAWA, S. KOYAMA and
W. SEKIGUCHI (1997): Electromagnetic monitoring of
Miyake-jima volcano, Izu-Bonin Arc, Japan: a preliminary
report, J. Geomag. Geoelectr., 49, 1293-1316.
TOKAREV, P.I. (1967): The giant eruption of the Shevluch on
November 12, 1914 and its forerunners, Izv. Earth
Phys., 9, 572-579.
UCHIDA, T. (1993): Smoothness-constrained 2D inversion for DC resistivity data by ABIC minimization method,
Butsuri-Tansa (Gephys. Explor.), 46, 105-119 (in Japanese
with English abstract).
UI, T., M. NAKAGAWA, C. INABA, M. YOSHIMOTO and JOINT
RESEARCH GROUP FOR THE 2000 ERUPTION (GEOLOGICAL
PARTY) (2002): Sequence of the 2000 Eruption,
Usu volcano, Bull. Volcanol. Soc. Jpn. Ser. 2, 47 ,105-
117 (in Japanese with English abstract).
YOKOYAMA, I. (1957): Energetics in active volcanoes, Bull.
Earthquake Res. Inst., Univ. Tokyo, 35, 75-97.
ZABLOCKI, C.J. (1976): Mapping thermal anomalies on an
active volcano by the self potential method, Kilauea,
Hawaii, in Proceedings of 2nd U.N. Symposium on the
Development and Use of Geothermal Resources, San
Francisco, 2, 1299-1309.
ZLOTNICKI, J. and Y. NISHIDA (2003): Review on morphological
insights of self-potential anomalies on volcanoe,
Surv. Geophys., 24, 291-338.
ZLOTNICKI, J., S. MICHEL and C. ANNEN (1994a): Self-potential
anomalies and convective systems on la Fournaise
volcano (Reunion Island, France), C.R. Acad. Sci.
Paris Ser. II, 318, 1325-1331 (in French with extended
English abstract).
ZLOTNICKI, J., M. FEUILLARD and G. HAMMOUYA (1994b):
Water circulation on La Soufriere volcano (Guadeloupe,
Lesser Antilles): May-December 1992 seismovolcanic
crisis. Renew of volcanic activity?, J. Geomag.
Geoelectr., 46, 797-813.
ZOHDY, A.A.R., L.A. ANDERSON and L.J.P. MUFFLER (1973):
Resistivity, self-potential, and induced-polarization surveys
of a vapor-dominated geothermal system, Geophysics,
38, 1130-144.
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