Kinematic model of active deformation in central Asia

The velocity field of present‐day deformation in Central Asia is modelled using a set of four rotating blocks (Siberia, Tarim, Tibet, India) on a spherical earth. A best‐fit is inverted on the basis of estimated shortening‐rates across the main thrust zones (Himalayas, Tien Shan) and measured slip‐rates along the principal strike‐slip faults (Altyn Tagh and Karakorum) separating those blocks. The fit to the data implies that nearly all the present convergence between India and Asia can be accounted for by slip‐partitioning on these four zones, with as much as 50% absorbed by northeastwards extrusion of Tibet. This suggests that localised deformation governs the present mechanical behaviour of the Central Asian lithosphere.

[1]  J. Avouac,et al.  Active thrusting and folding along the northern Tien Shan and Late Cenozoic rotation of the Tarim relative to Dzungaria and Kazakhstan , 1993 .

[2]  F. Gasse,et al.  A 13,000-year climate record from western Tibet , 1991, Nature.

[3]  J. Avouac,et al.  Paleomagnetic study of Mesozoic continental sediments along the northern Tien Shan (China) and heterogeneous strain in central Asia , 1991 .

[4]  B. Meyer Mécanismes des grands tremblements de terre et du raccourcissement crustal oblique au bord Nord-Est du Tibet , 1991 .

[5]  J. Avouac Application des méthodes de morphologie quantitative à la néotectonique : modèle cinématique des déformations actives en Asie centrale , 1991 .

[6]  William H. Press,et al.  Numerical recipes , 1990 .

[7]  P. Molnar,et al.  Right-lateral shear and rotation as the explanation for strike-slip faulting in eastern Tibet , 1990, Nature.

[8]  Bertrand Meyer,et al.  Active thrusting and folding in the Qilian Shan, and decoupling between upper crust and mantle in northeastern Tibet , 1990 .

[9]  G. Peltzer,et al.  Magnitude of Late Quaternary Left-Lateral Displacements Along the North Edge of Tibet , 1989, Science.

[10]  P. Molnar,et al.  Fault plane solutions of earthquakes and active tectonics of the Tibetan Plateau and its margins , 1989 .

[11]  R. Armijo,et al.  Late Cenozoic right‐lateral strike‐slip faulting in southern Tibet , 1989 .

[12]  Richard G. Gordon,et al.  Current plate motions , 1990 .

[13]  G. Peltzer,et al.  Formation and evolution of strike‐slip faults, rifts, and basins during the India‐Asia Collision: An experimental approach , 1988 .

[14]  G. Peltzer,et al.  "Offsets of Late Quaternary morphology, rate of slip, and recurrence of large earthquakes on the Chang Ma Fault (Gansu, China)"" , 1988 .

[15]  P. Davy,et al.  Indentation tectonics in nature and experiment. II: Central Asia , 1988 .

[16]  G. Peltzer Centrifuged expermiments of continental scale tectonics in Asia , 1988 .

[17]  R. Armijo,et al.  Quaternary extension in southern Tibet: Field observations and tectonic implications , 1986 .

[18]  Philip England,et al.  FINITE STRAIN CALCULATIONS OF CONTINENTAL DEFORMATION .2. COMPARISON WITH THE INDIA-ASIA COLLISION ZONE , 1986 .

[19]  P. Molnar,et al.  FAULTING ASSOCIATED WITH LARGE EARTHQUAKES AND THE AVERAGE , 1984 .

[20]  F. Beaufils,et al.  FRANCE , 1979, The Lancet.

[21]  Peter Molnar,et al.  Active faulting and cenozoic tectonics of the Tien Shan, Mongolia, and Baykal Regions , 1979 .

[22]  Thomas H. Jordan,et al.  Present‐day plate motions , 1977 .

[23]  Peter Molnar,et al.  Active faulting and tectonics in China , 1977 .

[24]  Peter Molnar,et al.  Slip-line field theory and large-scale continental tectonics , 1976, Nature.