Applications of geophysical inverse theory to faulting and dike intrusion
Surface deformation in the form of length, angle and elevation changes recorded by geodetic networks are inverted to determine slip and opening at depth using geophysical inverse theory. The forward model is based on three-dimensional elastic dislocation theory in a homogeneous isotropic half space....
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ftpurdueuniv:oai:docs.lib.purdue.edu:dissertations-30407 2023-07-02T03:32:45+02:00 Applications of geophysical inverse theory to faulting and dike intrusion Du, Yijun Aydin, Atilla 1991-01-01T08:00:00Z https://docs.lib.purdue.edu/dissertations/AAI9201319 ENG eng Purdue University https://docs.lib.purdue.edu/dissertations/AAI9201319 Theses and Dissertations Available from ProQuest Geology|Geophysics text 1991 ftpurdueuniv 2023-06-12T21:24:35Z Surface deformation in the form of length, angle and elevation changes recorded by geodetic networks are inverted to determine slip and opening at depth using geophysical inverse theory. The forward model is based on three-dimensional elastic dislocation theory in a homogeneous isotropic half space. Three problems are considered. (1) Various inversion techniques are compared to test factors that enter into the selection of the most suitable technique for a specific problem. The techniques are applied to the 1983, Borah Peak, Idaho, earthquake to determine a meaningful deformation model by using all available geological and geophysical information. It is shown that constraining information plays an important role in each level of solving an ill-posed inverse problem, and dictates the selection of a particular inversion technique. (2) Inversion of elevation changes associated with the January 1979 intrusion in Krafla, northern Iceland reveals three-dimensional characteristics of the dike and associated normal faults, and suggests that faulting occurred in advance of the laterally-propagating dike. The distribution of dike opening displacements provides an estimate of driving force and information about the dynamics of lateral dike propagation. (3) The coseismic geodetic data associated with three consecutive moderate earthquakes along the central Calaveras fault are inverted for slip at depth. The perturbed stress field corresponding to each displacement field is calculated. These results together with the seismic information are used to examine how tractions on fault segments are transferred in space due to contributions by different loading processes. It is shown that the faulting processes along the central Calaveras fault are highly heterogeneous and that slip along a fault segment has a profound effect on the stress field around the neighboring segments. Coseismically-transferred shear stress only accounts for a few percent of the total stress drop of an earthquake. It is inferred that the most significant ... Text Iceland Purdue University: e-Pubs Krafla ENVELOPE(-16.747,-16.747,65.713,65.713) |
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Purdue University: e-Pubs |
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ftpurdueuniv |
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English |
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Geology|Geophysics |
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Geology|Geophysics Du, Yijun Applications of geophysical inverse theory to faulting and dike intrusion |
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Geology|Geophysics |
description |
Surface deformation in the form of length, angle and elevation changes recorded by geodetic networks are inverted to determine slip and opening at depth using geophysical inverse theory. The forward model is based on three-dimensional elastic dislocation theory in a homogeneous isotropic half space. Three problems are considered. (1) Various inversion techniques are compared to test factors that enter into the selection of the most suitable technique for a specific problem. The techniques are applied to the 1983, Borah Peak, Idaho, earthquake to determine a meaningful deformation model by using all available geological and geophysical information. It is shown that constraining information plays an important role in each level of solving an ill-posed inverse problem, and dictates the selection of a particular inversion technique. (2) Inversion of elevation changes associated with the January 1979 intrusion in Krafla, northern Iceland reveals three-dimensional characteristics of the dike and associated normal faults, and suggests that faulting occurred in advance of the laterally-propagating dike. The distribution of dike opening displacements provides an estimate of driving force and information about the dynamics of lateral dike propagation. (3) The coseismic geodetic data associated with three consecutive moderate earthquakes along the central Calaveras fault are inverted for slip at depth. The perturbed stress field corresponding to each displacement field is calculated. These results together with the seismic information are used to examine how tractions on fault segments are transferred in space due to contributions by different loading processes. It is shown that the faulting processes along the central Calaveras fault are highly heterogeneous and that slip along a fault segment has a profound effect on the stress field around the neighboring segments. Coseismically-transferred shear stress only accounts for a few percent of the total stress drop of an earthquake. It is inferred that the most significant ... |
author2 |
Aydin, Atilla |
format |
Text |
author |
Du, Yijun |
author_facet |
Du, Yijun |
author_sort |
Du, Yijun |
title |
Applications of geophysical inverse theory to faulting and dike intrusion |
title_short |
Applications of geophysical inverse theory to faulting and dike intrusion |
title_full |
Applications of geophysical inverse theory to faulting and dike intrusion |
title_fullStr |
Applications of geophysical inverse theory to faulting and dike intrusion |
title_full_unstemmed |
Applications of geophysical inverse theory to faulting and dike intrusion |
title_sort |
applications of geophysical inverse theory to faulting and dike intrusion |
publisher |
Purdue University |
publishDate |
1991 |
url |
https://docs.lib.purdue.edu/dissertations/AAI9201319 |
long_lat |
ENVELOPE(-16.747,-16.747,65.713,65.713) |
geographic |
Krafla |
geographic_facet |
Krafla |
genre |
Iceland |
genre_facet |
Iceland |
op_source |
Theses and Dissertations Available from ProQuest |
op_relation |
https://docs.lib.purdue.edu/dissertations/AAI9201319 |
_version_ |
1770272407342284800 |