Open Access
Subscription Access
Geomorphic Evidence of Late Quaternary Displacement of the Karakoram Fault in Nubra and Shyok Valleys, Ladakh Himalaya
The present study ascertains the spatial variability in the extent of activity of the Karakoram Fault (KF) in Nubra and Shyok river valleys (Karakoram), which was known to be active during the Holocene. Towards this we have used conventional morphometric indices supported by geomorphological observations on the pattern of alluvial and bedrock streams, alluvial fan geometry and moraines. The right lateral displacement associated with KF is geomorphologically expressed by the lateral deflections of the bedrock and alluvial streams toward northwest-southeast as they cut across the Fault. Indirect age estimates inferred based on slip rate of KF suggest that the deflection of bedrock streams with prominent shutter ridges is the cumulative expression of activity of KF since the middle Pleistocene, which continued till the late Holocene.
Keywords
Alluvial and Bedrock Streams, Geomorphic Evidence, Morphometry, Right Lateral Displacement.
User
Font Size
Information
- Hodges, K. V., Tectonics of the Himalaya and southern Tibet from two perspectives. GSA Bull., 2000, 112(3), 324–350.
- Peltzer, G. and Tapponnier, P., Formation and evolution of strikeslip faults, rifts and basins during the India – Asia collision: an experimental approach. J. Geophys. Res., 1988, 93(B12), 15085–15117.
- Searle, M. P., Geology and Tectonics of the Karakoram Mountains, Wiley, Chichester, UK, 1991.
- Lacassin, R. et al., Large scale geometry, offset and kinematic evolution of the Karakoram fault, Tibet. Earth Planet. Sci. Lett., 2004, 219, 255–269.
- Dortch, J. M., Owen, L. A. and Caffee, M. W., Quaternary glaciation in the Nubra and Shyok valley confluence, northernmost Ladakh, India. Quaternary Res., 2010, 74, 132–144.
- Searle, M. P., Weinberg, R. F. and Dunlap, W. J., Transpressional tectonics along the Karakoram fault zone, northern Ladakh: constraints on Tibetan extrusion. In Continental Transpressional and Transtensional Tectonics (eds Holdsworth, R. E., Strachan, R. A. and Dewey, J. F.), Geological Society of London. Special Publication, 1998, vol. 135, pp. 307–326.
- Molnar, P. and Tapponnier, P., Cenozoic tectonics of Asia: effects of a continental collision. Science, 1975, 189(4201), 419–426.
- Matte, Ph. et al., Tectonics of western Tibet between the Tarim and the Indus. Earth Planet. Sci. Lett., 1996, 142, 311–330.
- Searle, M. P., Rex, A. J., Tirrul, R., Rex, D. C., Barnicoat, A. and Windley, B. F., Metamorphic, magmatic and tectonic evolution of the central Karakoram in the Biafo-Baltoro-Hushe regions of North Pakistan. Geol. Soc. Am., Spec. Pap., 1989, 232, 47–73.
- Searle, M. P., Geological evidence against large-scale preHolocene offstes along the Karakoram fault: Implications for the limited extrusion of the Tibetan Plateau. Tectonics, 1996, 15(1), 171–186.
- Searle, M. P., Parrish, R. R., Thow, A. V., Noble, S. R., Phillips, R. J. and Waters, D. J., Anatomy, age and evolution of a collision mountain belt: the Baltoro granite batholiths and Karakoram metamorphic complex, Pakistan Karakoram. J. Geol. Soc. London, 2010, 167, 183–202.
- Brunel, M., Arnaud, N., Tapponnier, P., Pan, Y. and Wang, Y., Kongur Shang Normal Fault: type example of mountain building assisted by extension, Karakoram Fault, Eastern Pamir. Geology, 1994, 22, 707–710.
- Chevalier, M. L. et al., Fast slip‐rate along the northern end of the Karakorum fault system, western Tibet. Geophys. Res. Lett., 2011, 38(22).
- Chevalier, M. L., Tapponnier, P., Van der Woerd, J., Ryerson, F. J., Finkel, R. C. and Li, H., Spatially constant slip rate along the southern segment of the Karakorum fault since 200 ka. Tectonophysics, 2012, 530, 52–179.
- Brown, E. T., Bendick, R., Bourles, D. L., Gaur, V., Molnar, P., Raisbeck, G. M. and Yiou, F., Slip rates of the Karakoram fault, Ladakh, India, determined using cosmic ray exposure dating of debris flows and moraines. J. Geophys. Res., 2002, 107(B9), 2192.
- Chevalier, M. L., Ryerson, F. J., Tapponnier, P., Finkel, R. C., Van Der Woerd, J., Li, H. and Qing, L., Slip-rate measurements on the Karakoram fault may imply secular variations in fault motion. Science, 2005, 307, 411–414.
- Jade, S. et al., GPS measurements from the Ladakh Himalaya, India: preliminary tests of plate-like or continuous deformation in Tibet. GSA Bull., 2004, 116, 1385–1391.
- Robinson, A. C., Geological offsets across the northern Karakoram fault: implications for its role and terrane correlations in the western Himalayan–Tibetan orogen. Earth Planet. Sci. Lett., 2009, 279, 123–130.
- Robinson, A. C., Evidence against Quaternary slip on the northern Karakoram fault suggests kinematic reorganization at the western end of the Himalayan–Tibetan orogen. Earth Planet. Sci. Lett., 2009, 286, 158–170.
- Horton, R. E., Erosional development of streams and their drainage basins: hydrophysical approach to quantitative morphology. GSA Bull., 1945, 56, 275–370.
- Strahler, A. N., Quantitative analysis of watershed geomorphology. Am. Geophys. Union, 1957, 38(6), 913–921.
- Strahler, A. N., Hypsometric (area–altitude) analysis of erosional topography. Geol. Soc. Am. Bull., 1952, 63, 1117–1142.
- Keller, E. A. and Pinter, N., Active Tectonics: Earthquake, Uplift, and Landscape, Prentice Hall, Englewood Cliffs, USA, 2002, 2nd edn, pp. 121–147.
- Pike, R. J. and Wilson, S. E., Elevation–relief ratio, hypsometric integral and geomorphic area–altitude analysis. Geol. Soc. Am. Bull., 1971, 82, 1079–1084.
- Wood, W. F. and Snell, J. B., A quantitative system for classifying landforms (No. TR-EP-124). Quartermaster Research and Engineering Command Natick MA, 1960.
- Willgoose, G. and Hancock, G., Revisiting the hypsometric curve as an indicator of form and process in transport-limited catchment. Earth Surf. Process Landforms, 1998, 23, 611–623.
- Hack, J. T., Stream profile analysis and stream gradient index. J. Res. US Geol. Surv., 1973, 1(4), 421–429.
- Whittaker, A. C., Cowie, P. A., Attal, M., Tucker, G. E. and Roberts, G. P., Bedrock channel adjustment to tectonic forcing: implications for predicting river incision rates. Geology, 2007, 35(2), 103–106.
- Crowell, J. C., Sedimentation along the San Andreas fault, California. In Modern and Ancient Geosynclinal Sedimentation (eds Dott, R. H and Shaver, R. H.), SEPM Special Publications, 1974, vol. 19, pp. 292–303.
- Christie-Blick, N. and Biddle, K. T., Deformation and basin formation along strike-slip faults. In Strike-Slip Deformation, Basin Formation, and Sedimentation (eds Biddle, K. T. and Christie-Blick, N.), SEPM Special Publications, USA, 1985, vol. 37, pp. 1–34.
- Cunningham, W. D. and Mann, P., Tectonics of Strike-Slip Restraining and Releasing Bends, Geological Society of American Bulletin, Special Publication, London, USA, 2007, vol. 290(1), pp. 1–12.
- Snyder, N. P., Whipple, K. X., Tucker, E. and Merritts, D. J., Landscape response to tectonic forcing: digital elevation model analysis of stream profiles in the Medocino triple junction region, northern California. GSA Bull., 2000, 112(8), 1250–1263.
- Kirby, E. and Whipple, K. X., Quantifying differential rock-uplift rates via stream profile analysis. Geol. Soc. Am. Bull., 2001, 29(5), 415–418.
- Kirby, E., Whipple, K. X., Tang, W. and Chen, Z., Distribution of active rock uplift along the eastern margin of the Tibetan Plateau: inferences from bedrock channel longitudinal profiles. J. Geophys. Res., 2003, 108(B4), 2217.
- Hack, J. T., Studies of longitudinal stream profiles in Virginia and Maryland. US Geol. Surv. Prof., 1957, 294(B), 45–97.
- Sklar, L. S. and Dietrich, W. E., A mechanistic model for river incision into bedrock by saltating bed load. Water Resour. Res., 2004, 40, W06301.
- Gasparini, N. M., Bras, L. R. and Whipple, K. X., Numerical modelling of non-steady state river profile evolution using a sediment flux dependent incision model. In Tectonics, Climate and Landscape Evolution (eds Willet, S. D. et al.), Geological Society of America Special Paper, 2006, vol. 398, pp. 127–141.
- Liu, Q., Ph D thesis, Université Paris VII, 1993.
- Pinter, N. and Keller, E. A., Late-Quaternary deformation in northern Owens Valley, California: geomorphic analysis of tectonic tilt. Geol. Rundsch., 1995, 84, 200–212.
- Burbank, D. W. and Anderson, R. S., Tectonic Geomorphology, Blackwell Science Oxford, 2001, p. 270.
- Dortch, J. M., Owen, L. A., Caffee, M. W. and Kamp, U., Catastrophic partial drainage of Pangong Tso, northern India and Tibet. Geomorphology, 2011, 125, 109–121.
- Searle, M. P., Colliding Continents: A Geological Exploration of the Himalaya, Karakoram and Tibet, Oxford University Press, Oxford, UK, 2013, p. 433.
- Liu, Q., Avouac, J. P., Tapponnier, P. and Zhang, Q., Holocene movement along the southern part of the Karakorum Fault: In International Symposium on the Karakorum and Kunlun Mountains, Kashi [sic], China, 5–9 June 1992, p. 91.
- Avouac, J. P. and Tapponnier, P., Kinematic model of active deformation in central Asia. Geophys. Res. Lett., 1993, 20(10), 895–898.
Abstract Views: 404
PDF Views: 155