Late Holocene earthquake history of the central Altyn Tagh Fault, China
Late Holocene earthquake history of the central Altyn Tagh Fault, China
Geology (Boulder) (November 2001) 29 (11): 1051-1054
- absolute age
- active faults
- Altyn Tagh Fault
- Asia
- C-14
- carbon
- Cenozoic
- China
- clastic sediments
- dates
- earthquake prediction
- earthquakes
- Far East
- faults
- field studies
- geologic hazards
- geomorphology
- Holocene
- isotopes
- luminescence
- neotectonics
- paleoseismicity
- Quaternary
- radioactive isotopes
- recurrence interval
- rupture
- sediments
- segmentation
- seismic risk
- slip rates
- tectonics
- trenching
- upper Holocene
The Altyn Tagh Fault accommodates sinistral motion between the Tibetan Plateau and the Tarim Block within the India-Eurasia collision zone. We used well-preserved evidence for surface-rupturing earthquakes to reconstruct the earthquake history for the central Altyn Tagh Fault. We identified three geometric fault segments bounded by left steps and a bend. Geomorphic offsets indicate that the most recent event had maximum surface displacement of approximately 5.5 m in the west (38.5 degrees N, 90.0 degrees E), approximately 7 m in the central part of our study area, and approximately 4 m in the east (38.8 degrees N, 91.5 degrees E). The (super 14) C dates and trench logs of disrupted sediments indicate that these offsets occurred either in a single earthquake with a surface-rupture length >240 km dated as 680 + or - 108 yr B.P. or as two events. If there were two events, the westernmost recent event occurred 518 + or - 268 yr ago, whereas the eastern event occurred 650 + or - 80 yr ago and had a surface rupture length >155 km. We find two events in the past 0.8-2.2 k.y. in the west and two or three events in the east, yielding recurrence intervals of 0.7 + or - 0.4 k.y. and 1.1 + or - 0.3 k.y., respectively. These recurrence rates for major earthquakes are lower than expected if the long-term fault slip rate is >20 mm/yr. Explanations for the discrepancy include an overdue major earthquake or accelerated deformation elsewhere in the India-Eurasia Orogen.