International audienceThe 11 July 1889 Chilik earthquake (M-w 8.0-8.3) forms part of a remarkable sequence of large earthquakes in the late nineteenth and early twentieth centuries in the northern Tien Shan. Despite its importance, the source of the 1889 earthquake remains unknown, though the macroseismic epicenter is sited in the Chilik valley, similar to 100 km southeast of Almaty, Kazakhstan (similar to 2 million population). Several short fault segments that have been inferred to have ruptured in 1889 are too short on their own to account for the estimated magnitude. In this paper we perform detailed surveying and trenching of the similar to 30 km long Saty fault, one of the previously inferred sources, and find that it was formed in a ...
The study of surface ruptures is key to understanding the earthquake occurrence of faults especially...
This thesis presents the results of research centred on three large Central Asian earthquakes from ...
With the assistance of the ASTER team (M. Arnold, G. Aumaître, D. Bourlès, and K. Keddadouche)Intern...
International audienceThe 11 July 1889 Chilik earthquake (M-w 8.0-8.3) forms part of a remarkable se...
The July 11th 1889 Chilik earthquake (Mw 8.0-8.3) forms part of a remarkable sequence of large earth...
The 11 July 1889 Chilik earthquake (M-w 8.0-8.3) forms part of a remarkable sequence of large earthq...
The presence of fault scarps is a first-order criterion for identifying active faults. Yet the prese...
The Lepsy fault of the northern Tien Shan, SE Kazakhstan, extends E-W 120 km from the high mountains...
Interpretation of surface fault scarps and palaeoseismic trenches is a key component of estimating f...
The Lepsy fault of the northern Tien Shan, SE Kazakhstan, extends E-W 120 km from the high mountains...
The study of surface ruptures is key to understanding the earthquake occurrence of faults especially...
International audienceThe Asian plate interiors are known to have host strong earthquakes with magni...
The study of surface ruptures is key to understanding the earthquake occurrence of faults especially...
This thesis presents the results of research centred on three large Central Asian earthquakes from ...
With the assistance of the ASTER team (M. Arnold, G. Aumaître, D. Bourlès, and K. Keddadouche)Intern...
International audienceThe 11 July 1889 Chilik earthquake (M-w 8.0-8.3) forms part of a remarkable se...
The July 11th 1889 Chilik earthquake (Mw 8.0-8.3) forms part of a remarkable sequence of large earth...
The 11 July 1889 Chilik earthquake (M-w 8.0-8.3) forms part of a remarkable sequence of large earthq...
The presence of fault scarps is a first-order criterion for identifying active faults. Yet the prese...
The Lepsy fault of the northern Tien Shan, SE Kazakhstan, extends E-W 120 km from the high mountains...
Interpretation of surface fault scarps and palaeoseismic trenches is a key component of estimating f...
The Lepsy fault of the northern Tien Shan, SE Kazakhstan, extends E-W 120 km from the high mountains...
The study of surface ruptures is key to understanding the earthquake occurrence of faults especially...
International audienceThe Asian plate interiors are known to have host strong earthquakes with magni...
The study of surface ruptures is key to understanding the earthquake occurrence of faults especially...
This thesis presents the results of research centred on three large Central Asian earthquakes from ...
With the assistance of the ASTER team (M. Arnold, G. Aumaître, D. Bourlès, and K. Keddadouche)Intern...