Correlation between crustal anisotropy and seismogenic stress field beneath Shillong–Mikir Plateau and its vicinity in North East India

Correlation between crustal anisotropy and seismogenic stress field beneath Shillong–Mikir Plateau and its vicinity in North East India

A systematic study towards understanding the correlation between polarization direction of crustal anisotropy with seismogenic stress field at different locations of the Shillong-Mikir Plateau and its vicinity in North East India is attempted. We used data from a 17-station broadband seismic network...

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Main Authors: Santanu Baruah, Antara Sharma, Chandan Dey, Sowrav Saikia, Goutam Kashyap Boruah, Ayodeji Adekunle Eluyemi, Prachurjya Borthakur, Nabajyoti Molia, Anwesha Dutta Hazarika, Saitluanga Sailo, Sebastiano D’Amico, Manoj K. Phukan, Saurabh Baruah, J. R. Kayal
Format: Article
Language:English
Published: Taylor & Francis Group 2021-01-01
Series:Geomatics, Natural Hazards & Risk
Subjects:
shear wave splitting
fast polarization
focal mechanism
active faults
stress tensor inversion
Online Access:http://dx.doi.org/10.1080/19475705.2021.1947902
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spelling doaj-99562924b0a6472a83e60e95792fbf022021-08-09T15:50:07ZengTaylor & Francis GroupGeomatics, Natural Hazards & Risk1947-57051947-57132021-01-011212070208610.1080/19475705.2021.19479021947902Correlation between crustal anisotropy and seismogenic stress field beneath Shillong–Mikir Plateau and its vicinity in North East IndiaSantanu Baruah0Antara Sharma1Chandan Dey2Sowrav Saikia3Goutam Kashyap Boruah4Ayodeji Adekunle Eluyemi5Prachurjya Borthakur6Nabajyoti Molia7Anwesha Dutta Hazarika8Saitluanga Sailo9Sebastiano D’Amico10Manoj K. Phukan11Saurabh Baruah12J. R. Kayal13Geosciences and Technology Division, CSIR-North East Institute of Science and Technology (CSIR-NEIST)Geosciences and Technology Division, CSIR-North East Institute of Science and Technology (CSIR-NEIST)Geosciences and Technology Division, CSIR-North East Institute of Science and Technology (CSIR-NEIST)National Center for Seismology (under MoES, Govt. of India)Geosciences and Technology Division, CSIR-North East Institute of Science and Technology (CSIR-NEIST)Centre for Energy Research and Development (CERD), Obafemi Awolowo University (OAU)Geosciences and Technology Division, CSIR-North East Institute of Science and Technology (CSIR-NEIST)Geosciences and Technology Division, CSIR-North East Institute of Science and Technology (CSIR-NEIST)Geosciences and Technology Division, CSIR-North East Institute of Science and Technology (CSIR-NEIST)Pachhunga University CollegeDept. of Geosciences, University of MaltaGeosciences and Technology Division, CSIR-North East Institute of Science and Technology (CSIR-NEIST)Geosciences and Technology Division, CSIR-North East Institute of Science and Technology (CSIR-NEIST)Formerly Geological Survey of IndiaA systematic study towards understanding the correlation between polarization direction of crustal anisotropy with seismogenic stress field at different locations of the Shillong-Mikir Plateau and its vicinity in North East India is attempted. We used data from a 17-station broadband seismic network. In our earlier work , crustal anisotropic parameters were determined using ANISOMAT + for the 17 seismic stations. In this study, we have estimated stress field around the stations using focal mechanism solutions (FMS). Some 215 FMS are obtained by waveform inversion. These solutions are used for stress tensor inversion to estimate stress field around each location. It is observed that polarization direction of crustal anisotropy is consistent with that of the maximum horizontal stress (Ơmax) as well as the minimum horizontal stress (Ơmin). In addition to this, two orthogonal fast polarizations in some locations are also noted. The bivariate nature of correlations helps us to understand that the major mechanisms of seismic crustal anisotropy are not only due to the regional stress, but active faults and other geological conditions play a significant role in contemporary orientation of seismic crustal anisotropy and seismogenic stress field.http://dx.doi.org/10.1080/19475705.2021.1947902shear wave splittingfast polarizationfocal mechanismactive faultsstress tensor inversion
collection DOAJ
language English
format Article
sources DOAJ
author Santanu Baruah
Antara Sharma
Chandan Dey
Sowrav Saikia
Goutam Kashyap Boruah
Ayodeji Adekunle Eluyemi
Prachurjya Borthakur
Nabajyoti Molia
Anwesha Dutta Hazarika
Saitluanga Sailo
Sebastiano D’Amico
Manoj K. Phukan
Saurabh Baruah
J. R. Kayal
spellingShingle Santanu Baruah
Antara Sharma
Chandan Dey
Sowrav Saikia
Goutam Kashyap Boruah
Ayodeji Adekunle Eluyemi
Prachurjya Borthakur
Nabajyoti Molia
Anwesha Dutta Hazarika
Saitluanga Sailo
Sebastiano D’Amico
Manoj K. Phukan
Saurabh Baruah
J. R. Kayal
Correlation between crustal anisotropy and seismogenic stress field beneath Shillong–Mikir Plateau and its vicinity in North East India
Geomatics, Natural Hazards & Risk
shear wave splitting
fast polarization
focal mechanism
active faults
stress tensor inversion
author_facet Santanu Baruah
Antara Sharma
Chandan Dey
Sowrav Saikia
Goutam Kashyap Boruah
Ayodeji Adekunle Eluyemi
Prachurjya Borthakur
Nabajyoti Molia
Anwesha Dutta Hazarika
Saitluanga Sailo
Sebastiano D’Amico
Manoj K. Phukan
Saurabh Baruah
J. R. Kayal
author_sort Santanu Baruah
title Correlation between crustal anisotropy and seismogenic stress field beneath Shillong–Mikir Plateau and its vicinity in North East India
title_short Correlation between crustal anisotropy and seismogenic stress field beneath Shillong–Mikir Plateau and its vicinity in North East India
title_full Correlation between crustal anisotropy and seismogenic stress field beneath Shillong–Mikir Plateau and its vicinity in North East India
title_fullStr Correlation between crustal anisotropy and seismogenic stress field beneath Shillong–Mikir Plateau and its vicinity in North East India
title_full_unstemmed Correlation between crustal anisotropy and seismogenic stress field beneath Shillong–Mikir Plateau and its vicinity in North East India
title_sort correlation between crustal anisotropy and seismogenic stress field beneath shillong–mikir plateau and its vicinity in north east india
publisher Taylor & Francis Group
series Geomatics, Natural Hazards & Risk
issn 1947-5705
1947-5713
publishDate 2021-01-01
description A systematic study towards understanding the correlation between polarization direction of crustal anisotropy with seismogenic stress field at different locations of the Shillong-Mikir Plateau and its vicinity in North East India is attempted. We used data from a 17-station broadband seismic network. In our earlier work , crustal anisotropic parameters were determined using ANISOMAT + for the 17 seismic stations. In this study, we have estimated stress field around the stations using focal mechanism solutions (FMS). Some 215 FMS are obtained by waveform inversion. These solutions are used for stress tensor inversion to estimate stress field around each location. It is observed that polarization direction of crustal anisotropy is consistent with that of the maximum horizontal stress (Ơmax) as well as the minimum horizontal stress (Ơmin). In addition to this, two orthogonal fast polarizations in some locations are also noted. The bivariate nature of correlations helps us to understand that the major mechanisms of seismic crustal anisotropy are not only due to the regional stress, but active faults and other geological conditions play a significant role in contemporary orientation of seismic crustal anisotropy and seismogenic stress field.
topic shear wave splitting
fast polarization
focal mechanism
active faults
stress tensor inversion
url http://dx.doi.org/10.1080/19475705.2021.1947902
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