[HTML][HTML] 2022年1月8日青海门源MS6.9地震地表破裂带特征与发震机制
袁道阳, 谢虹, 苏瑞欢, 李智敏, 文亚猛, 司国军… - 地球物理学报, 2023 - dzkx.org
2022 年1 月8 日01 时45 分, 在青海省海北州门源县(N37. 77, E101. 26) 发生了MS 6.9 地震,
震源深度约10km. 震后现场考察确认, 本次地震震中位于祁连—海原断裂带中段的冷龙岭断裂与 …
震源深度约10km. 震后现场考察确认, 本次地震震中位于祁连—海原断裂带中段的冷龙岭断裂与 …
Large‐scale interseismic strain mapping of the NE Tibetan Plateau from Sentinel‐1 interferometry
The launches of the Sentinel‐1 synthetic aperture radar satellites in 2014 and 2016 started a
new era of high‐resolution velocity and strain rate mapping for the continents. However …
new era of high‐resolution velocity and strain rate mapping for the continents. However …
Strain Partitioning on the Western Haiyuan Fault System Revealed by the Adjacent 2016 Mw5.9 and 2022 Mw6.7 Menyuan Earthquakes
H Luo, T Wang - Geophysical Research Letters, 2022 - Wiley Online Library
Abstract The 1,000 km‐long Haiyuan fault is the largest strike‐slip fault system in the
northeastern Tibetan Plateau, accommodating part of the plateau's eastward extrusion …
northeastern Tibetan Plateau, accommodating part of the plateau's eastward extrusion …
[HTML][HTML] The 2022, Ms 6.9 Menyuan earthquake: Surface rupture, Paleozoic suture re-activation, slip-rate and seismic gap along the Haiyuan fault system, NE Tibet
Abstract The January 8, 2022, Ms 6.9 Menyuan earthquake occurred near the junction
between the western Leng Long Ling (LLL) and eastern Tuolai Shan (TLS) faults, along the …
between the western Leng Long Ling (LLL) and eastern Tuolai Shan (TLS) faults, along the …
关于1920 年海原大地震震级高估的讨论
刘静, 徐晶, 偶奇, 韩龙飞, 王子君, 邵志刚, 张培震… - 地震学报, 2023 - dzxb.org
1920 年海原大地震作为史料记载以来中国大陆震级最高, 伤亡最多的极具破坏性的地震之一,
开启了我国用现代地震学方法研究大地震的新篇章, 在我国地震研究史上具有里程碑的意义 …
开启了我国用现代地震学方法研究大地震的新篇章, 在我国地震研究史上具有里程碑的意义 …
Characteristics of co-seismic surface rupture zone of Menyuan MS6.9 earthquake in Qinghai Province on January 8, 2022 and seismogenic mechanism
DY YUAN, H XIE, RH SU, ZM LI, YM WEN… - Chinese Journal of …, 2023 - en.dzkx.org
At local time 01∶ 45 on January 8, 2022, an earthquake of MS 6.9 occurred in Menyuan
County (N37. 77, E101. 26), Haibei Prefecture, Qinghai Province, with a focal depth of 10 …
County (N37. 77, E101. 26), Haibei Prefecture, Qinghai Province, with a focal depth of 10 …
[HTML][HTML] Typical Fine Structure and Seismogenic Mechanism Analysis of the Surface Rupture of the 2022 Menyuan Mw 6.7 Earthquake
Y Wen, D Yuan, H Xie, R Su, Q Su, Z Li, H Sun, G Si… - Remote Sensing, 2023 - mdpi.com
On 8 January 2022, a seismic event of significant magnitude (Mw 6.7, Ms 6.9) occurred in
the northeastern region of the Tibetan Plateau. This earthquake was characterized by left …
the northeastern region of the Tibetan Plateau. This earthquake was characterized by left …
[HTML][HTML] Earthquake consideration in architectural design: Guidelines for architects
SS Shareef - Sustainability, 2023 - mdpi.com
Architectural planners must give due consideration to seismic events as they present
substantial hazards to both critical infrastructure and human well-being. This research …
substantial hazards to both critical infrastructure and human well-being. This research …
High‐resolution imaging of fault zone structure along the creeping section of the Haiyuan fault, NE Tibet, from data recorded by dense seismic arrays
High‐resolution imaging of fault zone structures is essential for understanding earthquake
physics and fault mechanics. As a major left‐lateral strike‐slip fault in northeastern Tibet, fine …
physics and fault mechanics. As a major left‐lateral strike‐slip fault in northeastern Tibet, fine …
Late Pleistocene slip rate of the central Haiyuan fault constrained from optically stimulated luminescence, 14C, and cosmogenic isotope dating and high-resolution …
Y Shao, J Liu-Zeng, J Van der Woerd… - GSA …, 2021 - pubs.geoscienceworld.org
To better constrain the long-term millennial slip rate of the Haiyuan fault in its central part, we
revisited the site of Daqing, where there are multiple paired offset terraces. We used 0.1-m …
revisited the site of Daqing, where there are multiple paired offset terraces. We used 0.1-m …