Abstract
Morpho-tectonic study plays an important role in deciphering the effects of tectonic activity in the geomorphic evolution of the drainage basins. Romushi watershed forms one of the major watersheds of the intermontane Karewa Basin of Kashmir Valley. The Karewa sediments are characterized by glacio-fluvio-lacustrine deposits capped by the aeolian loess. The geomorphic, morphometric and lithostratigraphic studies of these cap deposits have been carried out to elucidate the effect of tectonics on the geomorphic evolution of Romushi Watershed. Geomorphic mapping was carried out using GPS measurements, DEM at 30m resolution, Topographic Position Index (TPI) model, topographic maps, LANDSAT TM Imagery and field data. Morphometric and morphotectonic analyses in GIS environment were used to calculate various geomorphic indices (Mountain Front Sinuosity Index, Bifurcation Ratio, Asymmetry Factor, River Profile, etc). These indices reveal that the tectonic uplift observed in the region due to Himalayan orogeny coupled with mass movement and aeolian deposition have dominated the landscape evolution of intermontane Karewa Basin of Kashmir throughout the Late Quaternary Period. Additional data from lithostratigraphic measurements were analyzed to understand the geomorphic evolution of intermontane Karewa Basin. The data revealed that the basin has experienced differential uplift and erosion rates from time to time in the geological past. This was corroborated by the results from the morphometric and morphotectonic analysis.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Arlegui LE, Soriano MA (1998) Characterizing lineaments from satellite images and field studies in the central Ebro basin (NE Spain). International Journal of Remote Sensing 19(16): 3169–3185.
Agrawal KK, Agarwal GK (2004) A genetic model for thrust-bounded intermontane basin using scaled sandbox analogue models: an example from Karewa Basin, Kashmir Himalayas, India. International Journal of Earth Science 94: 47–52.
Arisco G, Arnone G, Favara R, et al. (2006) Integrated neotectonic and morphometric analysis of northern Sicily. Bollettino della Società Geologica Italiana 125: 1–24.
Ata HA (2008) A test of the validity of morphometric analysis in determining tectonic activity from aster derived DEMS in the Jordan-dead sea transform zone. Doctor of Philosophy Dissertation, University of Arkansas. pp 46–68.
Benito A, Perez GA (2007) Erosion surfaces and neogene landscape evolution in the NE Duero Basin (north-central Spain). Geomorphology 88: 226–241.
Bull WB (1968) Alluvial fans. Journal of Geological Education 16(3): 101–111.
Bhatt DK, Jamwal KS (1973) Geology of the parts of the Pir Panjal Range between Kousar Nag Nala and Riambiara river, Anantnag, distt. Jammu and Kashmir State. Progress Report for Field Season. pp 1–10.
Bhatt DK (1975) On the Quaternary geology of the Kashmir Valley with special reference to stratigraphy and sedimentation. Geological Survey of India, Miscellaneous Publications 24: 188–204.
Bhatt DK, Chatterji AK (1976) An appraisal of field observations on the geology of the Plio-Pleistocene Karewa Group and more recent Quaternary deposits of Kashmir Valley. In: Proc. VI Indian Colloq. Micropaleontology and Stratigraphy. pp 11–21.
Bhatt DK (1976) On the Quaternary geology of the Kashmir Valley with special reference to stratigraphy and sedimentation. Geological Survey of India, Miscellaneous Publication 24: 188–204.
Bull WB (1977) The alluvial-fan environment. Progress in Physical Geography 1&2: 222–270.
Bull WB, McFadden L (1977) Tectonic geomorphology north and south of the Garlock fault, California. In Geomorphology in Arid Regions. pp 115–128.
Bull WB (1978) Geomorphic tectonic activity classes of the south front of the San Gabriel Mountains, California US. Geological Survey Contract Report 14-08-001-G-394; Office of Earthquakes, Volcanoes, and Engineering, Menlo Park, California. pp 1–59.
Bhatt DK (1982) A review of the stratigraphy of the Karewa Group (Pliocene/Quaternary), Kashmir. Man and Environment 6: 46–55.
Burbank DW, Johnson GD (1982) Intermontane-basin development in the past 4 Myr in the northeast Himalaya. Nature 298: 432–436.
Burbank DW, Johnson GD (1983) The Late Cenozoic chronologic and stratigraphic development of the Kashmir intermontane basin, north-western Himalaya. Paleogeography, Paleoclimatology, Paleoecology 43: 205–235.
Birkeland PW (1984) Soil and geomorphology, Oxford University Press. pp 1–372.
Bronger A (1987) Climatic sequences of steppe soils from Eastern Europe and the USA with emphasis on the genesis of the ‘argillic horizon’. Catena 5: 33–51.
Burbank DW, Anderson RS (2001) Tectonic geomorphology, Department of Geosciences, the Pennsylvania State University 140(2): 284–291.
Bishop MP, Bonk R, Kamp U, Shroder JF (2001) Topographic analysis and modelling for alpine glacier mapping. Polar Geography 25: 182–201.
Bishop MP, Shroder Jr. JF, Colby JD (2003) Remote sensing and geomorphometry for studying relief production in high mountains. Geomorphology 55: 345–361.
Balestrieri ML, Bernet M, Brandon MT, et al. (2003) Pliocene and pleistocene exhumation and uplift of two key areas of the Northern Apennines. Quaternary International 101–102: 67–73.
Benvenuti M (2003) Facies analysis and tectonic significance of lacustrine fan-deltaic succession in the Pliocene-Pleistocene Mugello Basin, Central Italy. Sedimentary Geology 157: 197–234.
DeTerra H, Paterson TT (1939) Studies on the Ice Age in India and associated human cultures. Carnegie Institution, Washington DC 493: 1–354.
Duncan CC, Klein AJ, Masek JG, et al. (1998) Late Pleistocene and modern glaciations in Central Nepal from digital elevation data and satellite imagery. Quaternary Research 49: 241–254.
Delcaillau B, Deffontaines B, Floissac L, et al. (1998) Morphotectonic evidence from lateral propagation of an active frontal fold; Pakuashan anticline, foothills of Taiwan. Geomorphology 24: 263–290.
Dumont JF, Santana E, Vilema W (2005) Morphologic evidence of active motion of the Zambapala Fault, Gulf of Guayaquil (Ecuador). Geomorphology 65: 223–239.
Einsele G (2000) Sedimentary basin: evolution, facies and sediment budget. 2nd ed. Springer, Verlage Berlin. pp 792.
Firman JB (1969) Stratigraphy and landscape relations of soil materials near adelaide, south australia. Trans Roy. Soc. S. Australia 93: 38–54.
Farooqi IA, Desai RN (1974) Stratigraphy of Karewas, Kashmir. Journal of Geological Society of India 15: 299–305.
Gerson R, Grossman G, Bowman D (1984) Stages in the creation of a large rift valley — geomorphic evolution along the southern Dead Sea Rift. In: In: Morisawa M, Hack JT (Eds.) Tectonic Geomorphology. pp 53–73.
Goosens D (1988) The effect of surface curvature on the deposition of loess: a physical model. Catena 15: 179–194.
Gawthorpe RL, Hurst JM (1993) Transfer zones in extensional basins: their structural style and influence on drainage development and stratigraphy. Journal of the Geological Society of London 150: 1137–1152.
Hack JT (1973) Stream — profile analysis and stream — gradient index. Geological Survey Journal of Research 1(4): 421–429.
Hayden RS, Blair RW Jr., Garvin JB, Short NM (1986) Global geomorphology: Outlook for the Future. In Geomorphology from Space: A global overview of regional landforms. pp 657–675.
Horsby JK, Harris JR (1992) Application of remotely sensed data to geologic exploration using image analysis and geographic information systems. In Geographic Information Systems (GIS) and Mapping: Practices and Standards. pp 155–171.
Hardcastle KC (1995) Photolineament factor: a new computeraided method for remotely sensing the degree to which bedrock is fractured. Photogrammetric Engineering and Remote Sensing 61(6): 739–747.
Haskins DM, Correll CC, Foster RA, et al. (1998) A geomorphic classification system; U.S.D.A. Forest Service, Geomorphology Working Group Version. pp 1–130.
Hallet B, Molnar P (2001) Distorted Drainage Basins as markers of crustal strain east of the Himalaya. Journal of Geophysical Research 106: 13697–13706.
Hughes MW, Almond PC, Roering JJ, Tonkin PJ (2009) Late Quaternary loess landscape evolution on an active tectonic margin, Charwell Basin, South Island, New Zealand, Geomorphology 03104: 1–15.
Hughes MW, Almond PC, Roering JJ (2009a) Increased sediment production via bioturbation at the last glacialinterglacial transition. Geology 137: 919–922.
Hughes MW, Schmidt J (2009b) Automatic landform stratification and environmental correlation for modeling loess landscape in North Otago, South Island, New Zealand, Geoderma 149: 92–100.
Jain S, Verma PK (2010) Drainage Characteristics of Tectonically Active Areas: An Example from Rajasthan, India. International Journal Economic and Environment Geology 1(1): 11–16.
Kusumgar S, Agrawal DP, Krishnamurthy RV (1980) Studies on the loess deposits of the Kashmir Valley and C14 dating. Radiocarbon 23(3): 757–762.
Kotlia BS (1985) Vertebrate fossils and paleoenvironment of the karewa intermontane Basin, Kashmir, North-western India. Current Science 54(24): 1275–1277.
Karlstrom ET (1991) Paleoclimatic significance of late Cenozoic paleosols east of Western on Glacier Park Alberta and Montana Paleogeography Palclimatology and Paleoecology 85: 71–100.
Koons PO (1995) Modelling the topographic evolution of collisional belts. Annual Reviews Earth and Planetary Sciences 23: 375–408.
Koukouvelas I (1998) The Egion Fault: Earthquake related and long term deformation, Gulf of Corinth, Greece. Journal of Geodynamics 26(2–4): 501–513.
Kirby E, Whipple KX (2001) Quantifying differential rock-uplift rates via stream profile analysis. Geology 29(5): 415–418.
Kuhle M (2001) The maximum Ice Age (LGM) Glaciations of the Central- and South Karakorum: An investigation of the heights of its glacier levels and ice thickness as well as lowest prehistoric ice margin positions in the Hindukush, Himalaya and in East-Tibet on the Minya Konka-massif. Geo Journal 54: 109–396.
Keller EA, Pinter N (2002) Active tectonics: earthquakes, uplift, and landscape. 2nd edition. New Jersey Prentice Hall. pp 1–362.
Kääb A, Huggel C, Paul F, et al. (2002) Glacier monitoring from ASTER imagery: accuracy and applications. EARSEL Proceedings, LISSIG Workshop, Berne.
Kamp UB, olch TO, lsenholler J (2005) Geomorphometry of Cerro Sillajhuay, Chile/Bolivia: Comparison of DEMs Derived from ASTER Remote Sensing Data and Contour Maps. Geocarto International 20: 23–34.
Kuhle M (2005) Glacial geomorphology and ice ages in Tibet and the surrounding mountains. The Island Arc 14: 346–367.
Kuhle M (2006) Reconstruction of the Ice Age Glaciation in the Southern Slopes of Mt. Everest, Cho Oyu, Lhotse and Makalu (Himalaya) (Part 2). Journal of Mountain Science 3: 191–227.
Karim KH, Al-Barzinjy ST, Ameen BM (2007) History and geological setting of Intermontane Basin in the Zagros foldthrust belt, Kurdistan Region, NE-Iraq. Iraqi Bulletin of Geology and Mining 4(1): 21–33.
Kaewmuangmoon S, Thipyopass S, Kosuwan S, et al. (2008) Investigations on Tectonic Geomorphology along the Khlong Marui Fault, Kao Phanom area, Southern Thailand: Application of Arc GIS Approach. Proceedings of the International Symposia on Geoscience Resources and Environments of Asian Terranes (GREAT 2008), 4th IGCP 516, and 5th APSEG; November 24–26, 2008, Bangkok, Thailand.
Leopold LB, Wolman MG, Miller JB (1964) Fluvial Processes in Geomorphology. WH. Freeman, San Francisco. pp 522.
Luo W, Duffin KL, Peronja E, et al. (2003) A Web-based Interactive Landform Simulation Model (WILSIM). Computers & Geosciences December 2003.
Lee CS, Tsai LL (2010) A quantitative analysis for geomorphic indices of longitudinal river profile: a case study of the Choushui River, Central Taiwan. Environmental Earth Sciences 59(7): 1549–1558.
Morrison (1978) Quaternary soil staratigraphy concept methods and problems, in Mahaney, WC. (ed.) Quaternary Solis, Norwich UK. Geo abstracts. pp 77–108.
Merritts D, Vincent KR (1989) Geomorphic response of coastal streams to low, intermediate, and high rates of uplift, Mendocino junction region, northern California. Geological Society of America Bulletin 101: 1373–1388.
Marple R, Talwani P (1993) Evidence of Possible Tectonic Up warming along the South Carolina Coastal Plain from an Examination of River Morphology and Elevation data. Geology 21: 651–654.
Malik JN, Nakata T (2003) Active faults and related Late Quaternary deformation along the northwestern Himalayan Frontal Zone, India. Annual Geophysics 46: 917–936.
Molin P, Pazzaglia FJ, Dramis F (2004) Geomorphic expression of active tectonics in a rapidly deforming forearc, sila massif, Calabria, southern Italy. American journal of science 304: 559–589.
Magliuloa P, Terribileb F, Colomboc C, Russoa F (2006) A pedostratigraphic marker in the geomorphological evolution of the Campanian Apennines (Southern Italy): The Paleosol of Eboli. Quaternary International. pp 156–157.
Nakata T (1972) Geomorphic History and Crustal Movements of the Foot-hills of Himalaya. Institute of Geography, Tohoku University, Sendai, Japan. pp 177.
Necea D, Fielitz W, Matenco L (2005) Late Pliocene-Quatrnary tectonics in the frontal part of the SE Carpathians: insight from tectonic geomorphology. Tectonophysics 410: 137–156.
Ori GG, Friend PF (1984) Sedimentary basins formed and carried piggyback on active thrust sheets. Geology 12: 475–478.
Ouchi S (1985) Response of alluvial rivers to slow active tectonic movement. Geol. Soc. Am. Bull. 96: 504–515.
Pant RK, Agrawal DP, Krishnamurthy RV (1978) Scanning electron microscopy and other studies on the Karewa beds of Kashmir, India. Norwich, Geological Processes. pp 275–282.
Philip G (1996) Landsat Thematic Mapper data analysis for Quaternary tectonics in parts of Doon valley, NW Himalaya, India. International Journal of Remote Sensing 17: 143–153.
Pant RK, Krishnamurthy RV, Tandon SK, Bisht K (1985) Loess lithostratigraphy of the Kashmir Basin, India. In Climate and Geology of Kashmir: the last 4 million years: 123–129.
Pradeep K, Goswami Pant CC (2007) Geomorphology and tectonics of Kota-Pawalgarh Duns, Central Kumaun Sub-Himalaya. Current Science 92: 685–690.
Perez-Pena JV, Azanon JM, Azor A, et al. (2009) Quaternary Landscape evolution and erosion rates for an intermontane Neogene basin (Guadix-Baza basin, SE Spain). Geomorphology 106: 206–218.
Roy DK (1975) Stratigraphy and paleontology of the Karewa Group of Kashmir. Geological Survey of India Miscellaneous Publications 24: 204–221.
Ricci-Lucchi F (1986) The Oligocene to Recent foreland basins of the northern Apenines. In: Allen PA, Homewood P (eds) Foreland basins. Int Assoc Sedimentol Spec Publ. 8: 105–139.
Rendell HM, Townsend PD (1989) Thermoluminescence dating of Kashmir loess. In: Agrawal DP, Sharma P, Gupta SK (editors), Paleoclimatic and Paleoenvironmental Changes in Asia (during the last four million years). Indian National Science Academy New Delhi. pp 48–50.
Strahler AN (1964) Quantitative geomorphology of drainage basins and channel networks In. Handbook of Applied Hydrology, McGraw Hill Book Company, New York, and Section 4II.
Singh IB (1982) Sedimentation pattern in the Karewa Basin, Kashmir Valley, India, and its Geological Significance. Journal of the paleontological Society of India 27: 71–110.
Seeber L, Gornitz V (1983) River profiles along the Himalayan arc as indicators of active tectonics. Tectonophysics 92: 335–367.
Süzen ML, Toprak V (1998) Filtering of satellite images in geological lineament analyses: An application to a fault zone in Central Turkey. International Journal of Remote Sensing 19(6): 1101–1114.
Schumm SA, Dumont JF, Holbrook JM (2000) Active tectonics and Alluvial Rivers. Cambridge University Press, Cambridge. pp 276.
Singh AK, Parkash B, Mohindra R, et al. (2001) Quaternary alluvial fan sedimentation in the Dehradun, valley piggyback basin, NW Himalaya: Tectonic and palaeoclimatic implications. Basin Research 13: 449–471.
Silva PG, Goy JL, Zazo C, Bardaji T (2003) Fault-generated mountains fronts in southwest Spain: geomorphic assessment of tectonic and seismic activity. Geomorphology 50: 203–225.
Sobel ER, Strecker MR (2003) Uplift, exhumation and precipitation: tectonic and climatic control of late Cenozoic landscape evolution in the northern Sierras Pampeanas, Argentina. Basin Research 15: 431–451.
Soliva R, Benedicto A (2004) A linkage criterion for segmented normal faults. Journal of Structural Geology 12: 2251–2267.
Singh AK, Parkash B, Manchanda ML (2004) Tectonic geomorphology of the Dehradun valley using Digital Terrain Models and Optically Simulated Luminescence dating. Himalayan Geology 25: 59–78.
Schmidt J, Almond PC, Basher L, et al. (2005) Modeling loess landscape for the south Island, New Zealand, based on expert knowledge, New Zealand Journal of Geology and Geophysics 48: 177–133.
Strecker MR, Alonso RN, Bookhagen B, et al. (2007) Tectonics and climate of the Southern Central Andes. Annual Review Earth and Planetary Sciences 35: 747–787.
Seong YB, Bishop MP, Bush A, et al. (2009) Landforms and landscape evolution in the Skardu, Shigar and Braldu Valleys, Central Karakoram. Geomorphology 103: 251–267.
Singh T, Awasthi AK (2010) Stream profiles as indicator of active tectonic deformation along the Intra-Foreland Thrust, Nahan Salient, NW India. Current Science 98(1): 95–98.
Thakur VC, Pandey AK (2004) Late Quaternary tectonic evolution of Dun in fault bend/propagated fold system, Garhwal Sub-Himalaya. Current Science 87: 1567–1576.
Ulrich K, Tobias B, Jeffrey O (2003) Dem generation from ASTER satellite data for geomorphometric analysis of Cerro Sillajhuay Chile/Bolivia. American Society of Photogrammetry and Remote Sensing (ASPRS) 2003 annual conference proceeding, Anchorage, Alaska.
Wadia DN (1976) Geology of India. The English Language Book Society. pp 536.
Wells SG, Bullard TF, Menges TM, et al. (1988) Regional variations in tectonic geomorphology along segment convergent plate boundary, Pacific coast of Costa Rica. Geomorphology 1: 239–265.
Willett SD, Hovius N, Brandon MT, Fisher DM (2006) Tectonics, climate and landscape evolution. Geological Society of America Special Paper 398.
Wang A, Wang G, Zhang K (2009) Late Neogene Mountain Building of Eastern Kunlun Orogen: Constrained by DEM Analysis. Journal of Earth Sciences 20(2): 391–400.
Zhang W, Hayakawa YS, Oguchi T (2011) DEM and GIS based morphometric and topographic-profile analyses of Danxia landforms. Geomorphometry organization. pp 121–124.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Dar, R.A., Chandra, R. & Romshoo, S.A. Morphotectonic and lithostratigraphic analysis of intermontane Karewa Basin of Kashmir Himalayas, India. J. Mt. Sci. 10, 1–15 (2013). https://doi.org/10.1007/s11629-013-2494-y
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11629-013-2494-y