Found 29 results
Filters: Author is Xuhua Shi [Clear All Filters]
Probabilistic seismic hazard assessments for Northern Southeast Asia (Indochina): Smooth seismicity approach. Earthquake Spectra. 36(1):69-90.. 2020.
Triple junction kinematics accounts for the 2016 Mw 7.8 Kaikoura earthquake rupture complexity. Proceedings of the National Academy of Sciences of the United States of America. 116(52):26367-26375.. 2019.
Triple junction kinematics accounts for the 2016 Mw 7.8 Kaikoura earthquake rupture complexity . Proceedings of the National Academy of Sciences of the United States of America. 116(52):26367-26375.. 2019.
The 2016 Kaikoura earthquake: Simultaneous rupture of the subduction interface and overlying faults. Earth and Planetary Science Letters. 482(44-51). 2018.
Fault Slip and GPS Velocities Across the Shan Plateau Define a Curved Southwestward Crustal Motion Around the Eastern Himalayan Syntaxis. Journal of Geophysical Research: Solid Earth.. 2018.
Limit on slip rate and timing of recent seismic ground-ruptures on the Jinghong fault, SE of the eastern Himalayan syntaxis. Tectonophysics. 734-735:148-166.. 2018.
Oblique Thrusting and Strain Partitioning in the Longmen Shan Fold-and-Thrust Belt, Eastern Tibetan Plateau. Journal of Geophysical Research: Solid Earth. 123(8):4431-4453.. 2018.
Slip Rate and Rare Large Prehistoric Earthquakes of the Red River Fault, Southwestern China. Geochemistry, Geophysics, Geosystems.. 2018.
Evaluating the size and extent of paleolakes in central Tibet during the late Pleistocene. Geophysical Research Letters.. 2017.
How complex is the 2016 Mw 7.8 Kaikoura earthquake, South Island, New Zealand? Science Bulletin. 62:309-311.. 2017.
Rapid and punctuated Late Holocene recession of Siling Co, central Tibet. Quaternary Science Reviews. 172:15-31.. 2017.
Reply to Comment on "Crustal strength in central Tibet determined from Holocene shoreline deflection around Si ling Co". Earth and Planetary Science Letters. 433:396-398.. 2016.
Crustal strength in central Tibet determined from Holocene shoreline deflection around Siling Co. Earth And Planetary Science Letters. 423:145-154.. 2015.
Block rotation: Tectonic response of the Sichuan basin to the southeastward growth of the Tibetan plateau along the Xianshuihe-Xiaojiang fault. Tectonics. 5(9):640-645.. 2014.
Holocene slip rate along the Gyaring Co Fault, central Tibet. Geophysical Research Letters.. 2014.
Cenozoic tectonic evolution of the Elashan range and its surroundings, northern Tibetan Plateau as constrained by paleomagnetism and apatite fission track analyses. Tectonophysics. 580:150-161.. 2012.
Geomorphic characteristics, spatial distribution of paleoshorelines around the Siling Co area, Central Tibetan Plateau, and the lake evolution within the Plateau. Chinese Journal of Geology. 47(3):730-745.. 2012.
High-altitude salt lake elevation changes and glacial ablation in Central Tibet, 2000–2010. Chinese Science Bulletin. 57(5):525-534.. 2012.
Two-phase growth of high topography in eastern Tibet during the Cenozoic. Nature Geosciences. 5(9):640-645.. 2012.
Young, active conjugate strike–slip deformation in West Sichuan: evidence for the stress–strain pattern of the southeastern Tibetan Plateau. International Geology Review. 54(9):991-1012.. 2011.
Millennial slip rates along the eastern Kunlun fault: Implications for the dynamics of intracontinental deformation in Asia. Lithosphere. 2(4):247-266.. 2010.
Rapid fluvial incision along the Yellow River during headward basin integration. Nature Geosciences. 3(3):209-213.. 2010.
Structural control on the topography of the Laji–Jishi and Riyue Shan belts in the NE margin of the Tibetan plateau: Facilitation of the headward propagation of the Yellow River system. Journal of Asian Earth Science. 40(4):1002-1014.. 2010.
Late Cenozoic Uplift of the Yulong Snow Mountain (5596m) SE Tibetan Plateau, caused by erosion and tectonic forcing. . Quaternary Science. 28(2):222-231.. 2008.