[HTML][HTML] 2021年5月22日青海玛多MS7.4地震深部环境及发震构造模式
詹艳, 梁明剑, 孙翔宇, 黄飞鹏, 赵凌强, 宫悦, 韩静… - 地球物理学报, 2021 - html.rhhz.net
2021 年5 月22 日2 时4 分, 青海省果洛藏族自治州玛多县发生MS 7.4 地震, 截至5 月27 日,
已记录余震2700 多次. 本次地震震源深度17 km, 震中坐标为34.59 N, 98.34 E …
已记录余震2700 多次. 本次地震震源深度17 km, 震中坐标为34.59 N, 98.34 E …
A review on active tectonics and deep crustal processes of the Western Sichuan region, eastern margin of the Tibetan Plateau
PZ Zhang - Tectonophysics, 2013 - Elsevier
One of remarkable geological and geomorphological features in continental China is the
presence of a north–south trending tectonic zone which separates the seismically active …
presence of a north–south trending tectonic zone which separates the seismically active …
Crustal–lithospheric structure and continental extrusion of Tibet
Crustal shortening and thickening to c. 70–85 km in the Tibetan Plateau occurred both
before and mainly after the c. 50 Ma India–Asia collision. Potassic–ultrapotassic shoshonitic …
before and mainly after the c. 50 Ma India–Asia collision. Potassic–ultrapotassic shoshonitic …
[HTML][HTML] 2017年8月8日九寨沟M7.0地震及余震震源机制解与发震构造分析
易桂喜, 龙锋, 梁明剑, 张会平, 赵敏, 叶有清, 张致伟… - 地球物理学报, 2017 - html.rhhz.net
2017 年8 月8 日在青藏高原东缘四川省九寨沟县发生M 7.0 级强烈地震, 极震区烈度达Ⅸ 度,
但无明显地表破裂, 一定程度上限制了发震构造的确定和后续地震危险性判定 …
但无明显地表破裂, 一定程度上限制了发震构造的确定和后续地震危险性判定 …
青藏高原东缘川西地区的现今构造变形, 应变分配与深部动力过程
张培震 - 中国科学: D 辑, 2008 - cqvip.com
青藏高原东缘的川西地区是中国大陆南北地震带的中段, 构造变形复杂, 断裂活动强烈,
控制着一系列历史强震的发生, 2008 年5 月12 日汶川8.0 级地震就发生在南北地震带中段的 …
控制着一系列历史强震的发生, 2008 年5 月12 日汶川8.0 级地震就发生在南北地震带中段的 …
Aftershock sequence relocation of the 2021 MS7.4 Maduo Earthquake, Qinghai, China
W Wang, L Fang, J Wu, H Tu, L Chen, G Lai… - Science China Earth …, 2021 - Springer
Abstract The 2021 Qinghai Maduo M S7. 4 earthquake was one of the strongest
earthquakes that occurred in the Bayan Har block of the Tibetan Plateau during the past 30 …
earthquakes that occurred in the Bayan Har block of the Tibetan Plateau during the past 30 …
[PDF][PDF] 中国大陆高震级地震危险区判定的地震地质学标志及其应用
徐锡伟, 吴熙彦, 于贵华, 谭锡斌, 李康 - 地震地质, 2017 - researchgate.net
摘要高震级地震指的是能沿发震活动断层产生地震地表破裂且震级M^ 7.0 级的地震.
高震级地震发生地点的识别和预测是活动断层长期滑动习性和古地震研究的科学目标之一 …
高震级地震发生地点的识别和预测是活动断层长期滑动习性和古地震研究的科学目标之一 …
[HTML][HTML] Deep structure and seismogenic pattern of the 2021.5.22 Madoi (Qinghai) MS7.4 earthquake
Z Yan, L MingJian, SUN XiangYu, H FeiPeng… - Chinese Journal of …, 2021 - dzkx.org
Abstract The Madoi MS 7.4 earthquake occurred at 2: 04 on May 22, 2021, in Madoi County,
Tibetan Autonomous Prefecture of Golog, Qinghai Province. As of May 27, there were~ 2700 …
Tibetan Autonomous Prefecture of Golog, Qinghai Province. As of May 27, there were~ 2700 …
Crustal deformation in the India‐Eurasia collision zone from 25 years of GPS measurements
Abstract The India‐Eurasia collision zone is the largest deforming region on the planet;
direct measurements of present‐day deformation from Global Positioning System (GPS) …
direct measurements of present‐day deformation from Global Positioning System (GPS) …