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Active alluvial systems in the Korla Basin, Tien Shan, northwest China: sedimentation in a complex foreland basin

Published online by Cambridge University Press:  01 May 2009

M. B. Allen
Affiliation:
Department of Geology, Leicester University, Leicester LEI 7RH, UK
B. F. Windley
Affiliation:
Institute of Geology, Academia Sinica, P.O. Box 634, Beijing, People's Republic of China
Zhang Chi
Affiliation:
Institute of Geology, Academia Sinica, P.O. Box 634, Beijing, People's Republic of China

Abstract

The Tien Shan is a Cenozoic orogenic belt in central Asia caused by the post-collisional convergence of India with Asia that reactivated Palaeozoic faults. The Korla Basin is a complex foreland basin within the Chinese Tien Shan; elongate sub-basins within it have received sediment from both the hangingwall and footwall blocks above and below reverse faults on their northern margins. The footwall blocks are themselves uplifted by the next fault to the south: the greater part of the sediment supply measured by area comes from the footwall block. This sediment supply pattern is analogous to that of extensional half-graben.

Type
Rapid Communications
Copyright
Copyright © Cambridge University Press 1991

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References

Alenxander, J. & Leeder, M. R. 1990. Geomorphology and surface tilting in an extensional basin, SW Montana, USA. Journal of the Geological Society, London 147, 461–7.CrossRefGoogle Scholar
Allen, M. B., Windley, B. F., Zhang, C., Zhao, Z.-Y. & Wang, G.-R. 1991. Basin evolution within and adjacent to the Tien Shan range, NW China. Journal of the Geological Society, London 148, 369–78.CrossRefGoogle Scholar
BGXP (Bureau Of Geological And Mineral Resources Of Xinjiang Province). 1977. Uygur Autonomous Region (geological maps): Urumqi, Xinjiang, block K.45, four sheets, scale 1:500000.Google Scholar
BGXP (Bureau Of Geological And Mineral Resources Of Xinjiang Province). 1985. Geological map of Xinjiang Uygur Autonomous Region. Beijing, Geological Publishing House, scale 1:2000000.Google Scholar
Hirst, J. P. P. & Nichols, G. J. 1986. Thrust tectonic controls on alluvial distribution patterns, southern Pyrenees. In Foreland Basins (eds Allen, P. A. and Homewood, P.), pp. 247–58. Special Publication of the International Association of Sedimentologists, no. 8.CrossRefGoogle Scholar
Hsü, K. J. 1989. Origin of sedimentary basins of China. In Chinese Sedimentary Basins (ed. Zhu, X.), pp. 207–27. Amsterdam: Elsevier.Google Scholar
Jackson, J. A., Gagnepain, J., Houseman, G., King, G. C. P., Papadimitriou, P., Soufleris, C. & Virieux, J. 1982. Seismicity, normal faulting, and the geomorphological development of the Gulf of Corinth (Greece): the Corinth earthquakes of February and March, 1981. Earth and Planetary Science Letters 57, 377–97.CrossRefGoogle Scholar
Jolley, E. J., Turner, P., Williams, G. D., Hartley, A. J. & Flint, S. 1990. Sedimentological response of an alluvial system to Neogene thrust tectonics, Atacama desert, northern Chile. Journal of the Geological Society, London 147, 769–84.CrossRefGoogle Scholar
Leeder, M. R. & Gawthorpe, R. L. 1987. Sedimentary models for extensional tilt blocks/half grabens. In Extensional Tectonics (eds Hancock, P. L., Coward, M. P. and Dewey, J. F.), pp. 139–52. Special Publication of the Geological Society of London, no. 28.Google Scholar
Lee, K. Y. 1985. Geology of the Tarim Basin with special emphasis on petroleum deposits, Xinjiang Uygur Zishiqu, NW China. US Geological Survey Open File Report OF 85–0616. 1–55.Google Scholar
Massari, F. & Colella, A. 1988. Evolution and types of fan-delta systems in some modern tectonic settings. In Fan Deltas: Sedimentology and Tectonic Settings (eds Nemec, W. and Steel, R. J.), pp. 103–22. Glasgow: Blackie.Google Scholar
Nelson, M. R., McCafferey, R. & Molnar, P. 1987. Source parameters for eleven earthquakes in the Tien Shan, Central Asia, determined by P and SH waveform inversion. Journal of Geophysical Research 92, 12629–48.CrossRefGoogle Scholar
Ni, J. 1978. Contemporary tectonics in the Tien Shan region. Earth and Planetary Science Letters 41, 347–54.CrossRefGoogle Scholar
Nishidai, T. & Berry, J. L. 1990. Structure and hydrocarbon potential of the Tarim Basin (NW China) from satellite imagery. Journal of Petroleum Geology 13, 3558.CrossRefGoogle Scholar
Norin, E. 1941. Geological Reconnaissance in the Chinese Tien Shan. Reports from the Scientific Expedition to the Northwestern Provinces of China under the Leadership of Dr Sven Hedin, III. Geology, 6. Stockholm, Bokforlags Aktiebolaget Thule, 229 pp.Google Scholar
Ori, G. G. & Friend, P. F. 1984. Sedimentary basins formed and carried piggyback on active thrust sheets. Geology 12, 475–8.2.0.CO;2>CrossRefGoogle Scholar
Peng, X. & Zhang, G. 1989. Tectonic features of the Junggar Basin and their relationship with oil and gas distribution. In Chinese Sedimentary Basins (ed. Zhu, X.), pp. 1731. Amsterdam: Elsevier.Google Scholar
Ricci-Luchi, F. 1986. The Oligocene to Recent foreland basins of the northern Apennines. In Foreland Basins (eds Allen, P. A. and Homewood, P.), pp. 105–40. Special Publication of the International Association of Sedimentologists, no. 8.Google Scholar
Rosendahl, B. R., Reynolds, D. J., Lorber, P. M., Burgess, C. F., McGill, J., Scott, D., Lambiase, J. J. & Derksen, S. J. 1986. Structural expressions of rifting: lessons from Lake Tanganyika, Africa. In Sedimentation in the African Rifts (eds Frostick, L. E. et al. ), pp. 2943. Special Publication of the Geological Society of London, no. 25.Google Scholar
Steidtmann, J. R. & Middleton, L. T. 1991. Fault chronology and uplift history of the southern Wind River Range: Implications for Laramide and post-Laramide deformation in the Rocky Mountain foreland. Bulletin of the Geological Society of America 103, 472–85.2.3.CO;2>CrossRefGoogle Scholar
Steidtmann, J. R. & Schmitt, J. G. 1988. Provenance and dispersal of tectogenic sediment in thin-skinned, thrusted terrains. In New Perspectives in Basin Analysis (eds Kleinspehn, K. and Paola, C.), pp. 353–66. Berlin: Springer.CrossRefGoogle Scholar
Tapponnier, P. & Molnar, P. 1979. Active faulting and Cenozoic tectonics of the Tien Shan, Mongolia and Baykal Regions. Journal of Geophysical Research 84, 3425–59.CrossRefGoogle Scholar
Watson, M. P., Hayward, A. B., Parkinson, D. N. & Zhang, Z. H. 1987. Plate tectonic history, basin development and petroleum source rock deposition onshore China. Marine and Petroleum Geology 4, 205–25.CrossRefGoogle Scholar
Windley, B. F., Allen, M. B., Zhang, C., Zhao, Z.-Y. & Wang, G.-R. 1990. Paleozoic accretion and Cenozoic redeformation of the Chinese Tien Shan range, Central Asia. Geology 18, 128–31.2.3.CO;2>CrossRefGoogle Scholar