Stress fields generating ring faults in volcanoes

Ring faults in volcanoes have been recognized for a long time, but their mechanics of formation is still poorly understood. While the subsidence on a ring fault during a large eruption from the associated chamber is easily understood, the initiation of the fault itself has been difficult to explain....

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Published inGeophysical research letters Vol. 24; no. 13; pp. 1559 - 1562
Main Authors Gudmundsson, Agust, Marti, Joan, Turon, Elisenda
Format Journal Article
LanguageEnglish
Published Washington, DC Blackwell Publishing Ltd 01.07.1997
American Geophysical Union
Subjects
Crystalline rocks
Earth sciences
Earth, ocean, space
Exact sciences and technology
Igneous and metamorphic rocks petrology, volcanic processes, magmas
Tectonics. Structural geology. Plate tectonics
models
ring structures
eruptions
volcanoes
boundary element methods
overpressure
faults
magma chambers
genesis
shear stress
calderas
sills
subsidence
geometry
stress fields
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Abstract Ring faults in volcanoes have been recognized for a long time, but their mechanics of formation is still poorly understood. While the subsidence on a ring fault during a large eruption from the associated chamber is easily understood, the initiation of the fault itself has been difficult to explain. For a ring fault to form, the tensile and shear stresses at the surface of the volcano must peak at a certain radial distance from the surface point above the center of the chamber. Empirical evidence, however, shows that during most periods of unrest in active volcanoes the stress field is not favorable for the initiation of ring faults. We made several tens of boundary‐element models of magma chambers of various geometries and subject to different loading conditions. The results indicate that overpressure or underpressure in the chamber as the only loading is unlikely to initiate ring faults. For a spherical chamber subject to horizontal extension or doming, and a sill‐like chamber subject to horizontal extension, the tensile and shear stresses at the surface of the volcano peak at a certain radial distance from the surface point above the center of the chamber. Then, however, the maximum stresses occur at the boundary of the chamber itself, which would normally lead to sheet injection rather than to ring‐fault formation. By contrast, a sill‐like magma chamber subject to doming gives rise to a stress field suitable for the initiation of a ring fault.
AbstractList Ring faults in volcanoes have been recognized for a long time, but their mechanics of formation is still poorly understood. While the subsidence on a ring fault during a large eruption from the associated chamber is easily understood, the initiation of the fault itself has been difficult to explain. For a ring fault to form, the tensile and shear stresses at the surface of the volcano must peak at a certain radial distance from the surface point above the center of the chamber. Empirical evidence, however, shows that during most periods of unrest in active volcanoes the stress field is not favorable for the initiation of ring faults. We made several tens of boundary‐element models of magma chambers of various geometries and subject to different loading conditions. The results indicate that overpressure or underpressure in the chamber as the only loading is unlikely to initiate ring faults. For a spherical chamber subject to horizontal extension or doming, and a sill‐like chamber subject to horizontal extension, the tensile and shear stresses at the surface of the volcano peak at a certain radial distance from the surface point above the center of the chamber. Then, however, the maximum stresses occur at the boundary of the chamber itself, which would normally lead to sheet injection rather than to ring‐fault formation. By contrast, a sill‐like magma chamber subject to doming gives rise to a stress field suitable for the initiation of a ring fault.
Author Marti, Joan
Turon, Elisenda
Gudmundsson, Agust
Author_xml – sequence: 1
  givenname: Agust
  surname: Gudmundsson
  fullname: Gudmundsson, Agust
  organization: Nordic Volcanological Institute, Reykjavik, Iceland
– sequence: 2
  givenname: Joan
  surname: Marti
  fullname: Marti, Joan
  organization: Institute of Earth Sciences Jaume Almera, Barcelona, Spain
– sequence: 3
  givenname: Elisenda
  surname: Turon
  fullname: Turon, Elisenda
  organization: Institute of Earth Sciences Jaume Almera, Barcelona, Spain
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ContentType Journal Article
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Issue 13
Keywords models
ring structures
eruptions
volcanoes
boundary element methods
overpressure
faults
magma chambers
genesis
shear stress
calderas
sills
subsidence
geometry
stress fields
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1989; 52
1991; 350
1982; 25
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1970; 13
Macdonald G. A. (e_1_2_1_17_1) 1972
Savin G. N. (e_1_2_1_19_1) 1961
Dennis J. G. (e_1_2_1_6_1) 1972
BEASY (e_1_2_1_4_1) 1991
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Williams H. (e_1_2_1_23_1) 1970
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Williams H. (e_1_2_1_24_1) 1979
Francis P. (e_1_2_1_8_1) 1993
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Komuro H. (e_1_2_1_12_1) 1986; 40
References_xml – reference: Simkin, T.K. A. Howard, Caldera collapse in the Galapagos Islands, 1968, Science, 169, 429-437, 1970
– reference: Branney, M. J., Downsag and extension at calderas: new perspectives on collapse geometries from ice-melt, mining, and volcanic subsidence, Bull. Volcanol., 57, 303-318, 1995
– reference: Lipman, P. W., The roots of ash flow calderas in western North America: windows into the tops of granitic batholiths, J. Geophys. Res., 89, 8801-8841, 1984
– reference: Tsuchida, E.I. Nakahara, Three-dimensional stress concentration around a spherical cavity in a semi-infinite elastic body, Japan Soc. Mech. Engineers Bull., 13, 499-508, 1970
– reference: Williams, H.A. R. McBirneyV. LorenzAn Investigation of Volcanic Depressions, Part 1: Calderas, Manned Spacecraft Center, Houston, Texas, 1970
– reference: Dennis, J. G.Structural Geology, Ronald Press, New York, 1972
– reference: Gudmundsson, A., Formation and growth of normal faults at the divergent plate boundary in Iceland, Terra Nova, 4, 464-471, 1992
– reference: Williams, H.A. R. McBirneyVolcanology, Freeman., San Francisco, 1979
– reference: Savin, G. N.Stress Concentration Around Holes, Pergamon Press, New York, 1961
– reference: Tsuchida, E.Y. SaitoI. NakamuraM. Kodama, Stresses in a semi-infinite elastic body containing a prolate spheroidal cavity subjected to axisymmetric pressure, Japan Soc. Mech. Engineers Bull., 25, 891-897, 1982
– reference: Henry, C. D.J. G Price, The Christmas Mountains caldera complex, Trans-Pecos Texas, Bull. Volcanol., 52, 97-112, 1989
– reference: Francis, P.Volcanoes. A Planetary Perspective, Oxford University Press, Oxford, 1993
– reference: Komuro, H., Numerical experiments on the spacing of cauldrons during Miocene time in Japan, Earth Science; J. Ass. Geol. Collaboration Japan, 40, 115-123, 1986
– reference: Filson, J.T. SimkinL. Leu, Seismicity of a caldera collapse: Galapagos Islands 1968, J. Geophys. Res., 78, 8591-8622, 1973
– reference: Aramaki, S., Formation of the Aira caldera, southern Kryushu, ˜22000 years ago, J. Geophys. Res., 89, 8484-8501, 1984
– reference: BEASYThe Boundary-Element Analysis System User Guide, Computational Mechanics, Boston, 1991
– reference: Komuro, H., Experiments on cauldron formation: a polygonal cauldron and ring fractures, J. Volcanol. Geotherm. Res., 31, 139-149, 1987
– reference: Marti, J.G. J. AblayL. T. RedshawR. S. J. Sparks, Experimental studies of collapse calderas, J. Geol. Soc. London, 151, 919-929, 1994
– reference: Lockner, D. A.J. D. ByerleeV. KulsenkoA. PonommarevA. Sidorin, Quasistatic fault growth and shear fracture energy in granite, Nature, 350, 39-42, 1991
– reference: Macdonald, G. A.Volcanoes, Prentice-Hall, New Jersey, 1972
– reference: Gudmundsson, A., Effect of tensile stress concentration around magma chambers on intrusion and extrusion frequencies, J. Volcanol. Geotherm. Res., 35, 179-194, 1988
– reference: Anderson, E. M., The dynamics of the formation of cone sheets, ring dykes and cauldron subsidence, Proc. Roy. Soc. Edinburgh, 56, 128-163, 1936
– reference: Komuro, H.Y. FujitaK. Kodama, Numerical and experimental models on the formation mechanism of collapse basins during the Green Tuff Orogenesis of Japan, Bull. Volcanol., 47, 649-666, 1984
– volume: 40
  start-page: 115
  year: 1986
  end-page: 123
  article-title: Numerical experiments on the spacing of cauldrons during Miocene time in Japan
  publication-title: Earth Science; J. Ass. Geol. Collaboration Japan
– year: 1961
– volume: 47
  start-page: 649
  year: 1984
  end-page: 666
  article-title: Numerical and experimental models on the formation mechanism of collapse basins during the Green Tuff Orogenesis of Japan
  publication-title: Bull. Volcanol.
– volume: 89
  start-page: 8801
  year: 1984
  end-page: 8841
  article-title: The roots of ash flow calderas in western North America: windows into the tops of granitic batholiths
  publication-title: J. Geophys. Res.
– volume: 151
  start-page: 919
  year: 1994
  end-page: 929
  article-title: Experimental studies of collapse calderas
  publication-title: J. Geol. Soc. London
– volume: 52
  start-page: 97
  year: 1989
  end-page: 112
  article-title: The Christmas Mountains caldera complex, Trans‐Pecos Texas
  publication-title: Bull. Volcanol.
– volume: 350
  start-page: 39
  year: 1991
  end-page: 42
  article-title: Quasistatic fault growth and shear fracture energy in granite
  publication-title: Nature
– volume: 57
  start-page: 303
  year: 1995
  end-page: 318
  article-title: Downsag and extension at calderas: new perspectives on collapse geometries from ice‐melt, mining, and volcanic subsidence
  publication-title: Bull. Volcanol.
– year: 1972
– volume: 169
  start-page: 429
  year: 1970
  end-page: 437
  article-title: Caldera collapse in the Galapagos Islands, 1968
  publication-title: Science
– year: 1970
– volume: 56
  start-page: 128
  year: 1936
  end-page: 163
  article-title: The dynamics of the formation of cone sheets, ring dykes and cauldron subsidence
  publication-title: Proc. Roy. Soc. Edinburgh
– volume: 89
  start-page: 8484
  year: 1984
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Snippet Ring faults in volcanoes have been recognized for a long time, but their mechanics of formation is still poorly understood. While the subsidence on a ring...
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SubjectTerms Crystalline rocks
Earth sciences
Earth, ocean, space
Exact sciences and technology
Igneous and metamorphic rocks petrology, volcanic processes, magmas
Tectonics. Structural geology. Plate tectonics
Title Stress fields generating ring faults in volcanoes
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