[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 …
[HTML][HTML] 2021年5月21日云南漾濞地震(MS6.4)震源区三维电性结构及发震机制讨论
叶涛, 陈小斌, 黄清华, 崔腾发 - 地球物理学报, 2021 - html.rhhz.net
通过滇西地区大地电磁数据的三维反演研究, 获得了云南漾濞6.4 级地震震源区三维电阻率结构
模型. 结果显示漾濞地震震源区存在显著的电性横向不均匀性, 漾濞MS 6.4 …
模型. 结果显示漾濞地震震源区存在显著的电性横向不均匀性, 漾濞MS 6.4 …
[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 …
[HTML][HTML] 2022年1月8日青海门源MS6.9地震孕震环境和冷龙岭断裂分段延展特征
赵凌强, 孙翔宇, 詹艳, 杨海波, 王庆良, 郝明, 刘雪华 - 地球物理学报, 2022 - dsjyj.com.cn
2022 年1 月8 日1 时45 分, 青海省海北州门源县(北纬37.77, 东经101.26) 发生6.9 级地震,
发震断裂为祁连—西海原断裂冷龙岭段(以下简称冷龙岭断裂), 这是冷龙岭断裂继2016 年1 …
发震断裂为祁连—西海原断裂冷龙岭段(以下简称冷龙岭断裂), 这是冷龙岭断裂继2016 年1 …
Three-dimensional electrical resistivity structure in focal area of the 2021 Yangbi MS6.4 Earthquake and its implication for the seismogenic mechanism
We obtained from magnetotelluric data the three-dimensional resistivity model in the focal
area of the Yangbi MS 6.4 earthquake. The results show that there is significant electrical …
area of the Yangbi MS 6.4 earthquake. The results show that there is significant electrical …
Uplifting mechanism of the Tibetan Plateau inferred from the characteristics of crustal structures
Abstract The Tibetan Plateau has been known for its highest elevation and thickest crust on
earth, and become a key region for comprehending the rheology and tectonic evolution of …
earth, and become a key region for comprehending the rheology and tectonic evolution of …
Deformation of crust and upper mantle in central Tibet caused by the northward subduction and slab tearing of the Indian lithosphere: New evidence based on shear …
Shear-wave splitting provides insight into geodynamic processes such as lithospheric
deformation and upper mantle flow. This study presents shear wave splitting parameters …
deformation and upper mantle flow. This study presents shear wave splitting parameters …
Coseismic slip and early afterslip of the 2021 Mw 7.4 Maduo, China earthquake constrained by GPS and InSAR data
Abstract The 2021 M w 7.4 Maduo earthquake occurred on the left-lateral Kunlun Pass-
Jiangcuo fault (KPJF) located within the Bayan Har block, Tibetan Plateau, caused an∼ 165 …
Jiangcuo fault (KPJF) located within the Bayan Har block, Tibetan Plateau, caused an∼ 165 …
Nucleation mechanism of the 2021 Mw 7.4 Maduo earthquake, NE Tibetan Plateau: Insights from seismic tomography and numerical modeling
G Zhang, Y Li, X Hu - Tectonophysics, 2022 - Elsevier
Abstract The 2021 Mw 7.4 Maduo earthquake ruptured the Jiangcuo fault, a secondary fault
within the Bayan Har block, NE Tibetan Plateau, which attests that large earthquakes can …
within the Bayan Har block, NE Tibetan Plateau, which attests that large earthquakes can …
[HTML][HTML] The seismogenic model of the Menyuan MS6.9 earthquake on January 8, 2022, Qinghai Province and segmented extensional characteristics of the …
Abstract At GMT+ 8 1∶ 45 on January 8, 2022, an earthquake with a magnitude of 6.9
occurred in Menyuan Town, Haibei Prefecture, Qinghai Province (N37. 77, E101. 26). The …
occurred in Menyuan Town, Haibei Prefecture, Qinghai Province (N37. 77, E101. 26). The …