The recent tectonic stress field of the Amur region

The Amur region (Priamurie) is located in the NE part of the Amur lithospheric plate and its surrounding territories. Seismic activity is moderate in Priamurie, and the regional earthquakes, including the strongest ones, occur mainly in three seismic belts: Stanovoi (the zone of influence of the eas...

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Published in:Geodynamics & Tectonophysics
Main Author: D. A. Safonov
Format: Article in Journal/Newspaper
Language:English
Russian
Published: Russian Academy of Sciences, Siberian Branch, Institute of the Earth's crust 2018
Subjects:
amur region (priamurie)
earthquake
seismotectonics
seismic activity
focal mechanism
stress tensor
cataclastic analysis method
the lode – nadai coefficient
Science
Q
Aldan
Okhotsk
Turan
Sakhalin
Online Access:https://doi.org/10.5800/GT-2018-9-3-0382
https://doaj.org/article/ddb470c2a9ef4c729a2ed0ca66d1ab1a
id ftdoajarticles:oai:doaj.org/article:ddb470c2a9ef4c729a2ed0ca66d1ab1a
record_format openpolar
spelling ftdoajarticles:oai:doaj.org/article:ddb470c2a9ef4c729a2ed0ca66d1ab1a 2023-05-15T18:09:19+02:00 The recent tectonic stress field of the Amur region D. A. Safonov 2018-10-01T00:00:00Z https://doi.org/10.5800/GT-2018-9-3-0382 https://doaj.org/article/ddb470c2a9ef4c729a2ed0ca66d1ab1a EN RU eng rus Russian Academy of Sciences, Siberian Branch, Institute of the Earth's crust https://www.gt-crust.ru/jour/article/view/636 https://doaj.org/toc/2078-502X 2078-502X doi:10.5800/GT-2018-9-3-0382 https://doaj.org/article/ddb470c2a9ef4c729a2ed0ca66d1ab1a Геодинамика и тектонофизика, Vol 9, Iss 3, Pp 1025-1037 (2018) amur region (priamurie) earthquake seismotectonics seismic activity focal mechanism stress tensor cataclastic analysis method the lode – nadai coefficient Science Q article 2018 ftdoajarticles https://doi.org/10.5800/GT-2018-9-3-0382 2022-12-30T21:41:08Z The Amur region (Priamurie) is located in the NE part of the Amur lithospheric plate and its surrounding territories. Seismic activity is moderate in Priamurie, and the regional earthquakes, including the strongest ones, occur mainly in three seismic belts: Stanovoi (the zone of influence of the eastern flank of the Stanovoi fault), Yankan-Tukuringra-Soktakhan (the eastern flank of the Mongolia-Okhotsk lineament), and Turan-Selemzhinsky (from the Lesser Khingan to the north). The Sakhalin Branch of FRC GS RAS Catalogue of focal mechanisms of 57 regional earthquakes provide the data for a more precise estimation of the parameters of the crustal stress state in the study area. The Cataclastic Analysis Method (CAM) developed by Yu.L. Rebetsky (stage 1) was used to estimate the orientations of the main axes of the stress tensor and the Lode – Nadai coefficient. The analysis shows that the Upper Priamurie is dominated by shearing and compression with shearing. The Amur plate moves relative to the Aldan-Stanovoi block along the South Tukuringra and North Tukuringa faults to the east. Vertical shearing is predominant along the Dzheltulak fault and the western segment of the North Tukuringra fault. The NNE-trending compression takes place in the area located east of the quiescence zone of the Dzhagda ridge. Along the Mongolia-Okhotsk fault system, near the Sea of Okhotsk, the direction of compression changes to the northward one. The tectonic stress field along the Tanlu fault zone is inhomogeneous and comprises the alternating zones of horizontal compression and stretching with varying directions of the main stress axes. To the east of the band characterized by the maximum seismic activity, compression changes its direction to the southeast- and eastward. Probably, the impact of the oceanic subduction on the northern part of the Japan-Korean block begins to manifest itself in this part of the Amur region. The tectonic stress field reconstructed from the seismological data is consistent with the measurements of the ... Article in Journal/Newspaper Sakhalin Directory of Open Access Journals: DOAJ Articles Aldan ENVELOPE(129.546,129.546,63.447,63.447) Okhotsk Turan ENVELOPE(16.365,16.365,68.926,68.926) Geodynamics & Tectonophysics 9 3 1025 1037
institution Open Polar
collection Directory of Open Access Journals: DOAJ Articles
op_collection_id ftdoajarticles
language English
Russian
topic amur region (priamurie)
earthquake
seismotectonics
seismic activity
focal mechanism
stress tensor
cataclastic analysis method
the lode – nadai coefficient
Science
Q
spellingShingle amur region (priamurie)
earthquake
seismotectonics
seismic activity
focal mechanism
stress tensor
cataclastic analysis method
the lode – nadai coefficient
Science
Q
D. A. Safonov
The recent tectonic stress field of the Amur region
topic_facet amur region (priamurie)
earthquake
seismotectonics
seismic activity
focal mechanism
stress tensor
cataclastic analysis method
the lode – nadai coefficient
Science
Q
description The Amur region (Priamurie) is located in the NE part of the Amur lithospheric plate and its surrounding territories. Seismic activity is moderate in Priamurie, and the regional earthquakes, including the strongest ones, occur mainly in three seismic belts: Stanovoi (the zone of influence of the eastern flank of the Stanovoi fault), Yankan-Tukuringra-Soktakhan (the eastern flank of the Mongolia-Okhotsk lineament), and Turan-Selemzhinsky (from the Lesser Khingan to the north). The Sakhalin Branch of FRC GS RAS Catalogue of focal mechanisms of 57 regional earthquakes provide the data for a more precise estimation of the parameters of the crustal stress state in the study area. The Cataclastic Analysis Method (CAM) developed by Yu.L. Rebetsky (stage 1) was used to estimate the orientations of the main axes of the stress tensor and the Lode – Nadai coefficient. The analysis shows that the Upper Priamurie is dominated by shearing and compression with shearing. The Amur plate moves relative to the Aldan-Stanovoi block along the South Tukuringra and North Tukuringa faults to the east. Vertical shearing is predominant along the Dzheltulak fault and the western segment of the North Tukuringra fault. The NNE-trending compression takes place in the area located east of the quiescence zone of the Dzhagda ridge. Along the Mongolia-Okhotsk fault system, near the Sea of Okhotsk, the direction of compression changes to the northward one. The tectonic stress field along the Tanlu fault zone is inhomogeneous and comprises the alternating zones of horizontal compression and stretching with varying directions of the main stress axes. To the east of the band characterized by the maximum seismic activity, compression changes its direction to the southeast- and eastward. Probably, the impact of the oceanic subduction on the northern part of the Japan-Korean block begins to manifest itself in this part of the Amur region. The tectonic stress field reconstructed from the seismological data is consistent with the measurements of the ...
format Article in Journal/Newspaper
author D. A. Safonov
author_facet D. A. Safonov
author_sort D. A. Safonov
title The recent tectonic stress field of the Amur region
title_short The recent tectonic stress field of the Amur region
title_full The recent tectonic stress field of the Amur region
title_fullStr The recent tectonic stress field of the Amur region
title_full_unstemmed The recent tectonic stress field of the Amur region
title_sort recent tectonic stress field of the amur region
publisher Russian Academy of Sciences, Siberian Branch, Institute of the Earth's crust
publishDate 2018
url https://doi.org/10.5800/GT-2018-9-3-0382
https://doaj.org/article/ddb470c2a9ef4c729a2ed0ca66d1ab1a
long_lat ENVELOPE(129.546,129.546,63.447,63.447)
ENVELOPE(16.365,16.365,68.926,68.926)
geographic Aldan
Okhotsk
Turan
geographic_facet Aldan
Okhotsk
Turan
genre Sakhalin
genre_facet Sakhalin
op_source Геодинамика и тектонофизика, Vol 9, Iss 3, Pp 1025-1037 (2018)
op_relation https://www.gt-crust.ru/jour/article/view/636
https://doaj.org/toc/2078-502X
2078-502X
doi:10.5800/GT-2018-9-3-0382
https://doaj.org/article/ddb470c2a9ef4c729a2ed0ca66d1ab1a
op_doi https://doi.org/10.5800/GT-2018-9-3-0382
container_title Geodynamics & Tectonophysics
container_volume 9
container_issue 3
container_start_page 1025
op_container_end_page 1037
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