Abstract
Assessment of erosion status of a watershed is an essential prerequisite for integrated watershed management. It not only assists in chalking out suitable soil and water conservation measures to arrest erosion and conserve water but also helps in devising best management practices to enhance biomass production in watersheds. Keeping this in view, the present study has been undertaken by involving geospatial-statistical techniques to determine the critical and priority areas for soil and water conservation in Suketi watershed of the lower Himachal Himalayan region. A novel weighted sum analysis technique was used for ranking each of hydrological unit by obtaining the weightages from various morphometric parameters. This technique offers dynamic, effective and sustainable approach over traditional prioritization methods in which significance of each parameter were considered equally. Considering this approach, sub-watersheds were delineated into low, medium and high priority zones. The results illustrate that about 52 % of sub-watersheds of Suketi watershed are in moderate to high erosion and runoff susceptible zones. Therefore, these potential areas can be considered for preferential soil and water conservation planning. The results obtained from the study will be useful for various stakeholders such as agriculturists, water resource managers, conservation measures planners and decision policy makers for better management practices and decision making. The geospatial-statistical technique can be used for effective estimation of erosion status of watersheds leading to watershed prioritization for taking up soil and water conservation measures in watershed systems. Finally, this technique can be very useful in remote, rugged and inaccessible watersheds with absence of soil erosion and runoff monitoring.
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Aher, P.D., Adinarayana, J. and Gorantiwar, S.D. (2014) Quantification of morphometric characterization and prioritization for management planning in semi–arid tropics of India: A remote sensing and GIS approach. Jour. Hydrology, v.511, pp.850–860.
Altaf, F., Meraj, G. and Romshoo, S.A. (2013) Morphometric analysis to infer hydrological behaviour of Lidder watershed, Western Himalaya, India. Geography Jour., doi.org/10.1155/2013/178021.
Baba, S.M.J. and Yusof, K.W. (2001) Modelling soil erosion in tropical environments using remote sensing and geographical information systems. Hydrological Sci. Jour., v.46, pp.191–198.
Bagherzadeh, A. (2014) Estimation of soil losses by USLE model using GIS at Mashhad plain, Northeast of Iran. Arabian Jour. Geosci., v.7, pp.211–220.
Band, L. E. (1986) Topographic partition of watersheds with digital elevation models. Water Resour. Res., v. 22(1), pp.15–24.
Bhargava, O.N., Kumbkarni, S. and Ahluwalia, A.D. (2011) Geomorphology and landforms: Illustrations from the Himachal Himalaya, Technical Publ., Dehradun, pp.212.
Biswas, S., Sudhakar, S. and Desai, V.R. (1999) Prioritization of sub–watersheds based on morphometric analysis of drainage basin: A remote sensing and GIS approach. Jour. Indian Soc. Remote Sensing, v.27, pp.155–166.
CGWB (Central Ground Water Board) (2001) Master plan for artificial recharge to groundwater in Himachal Pradesh. Central Ground Water Board, Ministry of Water Resources, Govt. of India, NHR, Kangra.
CGWB (Central Ground Water Board) (2006) Groundwater information booklet, Mandi District, Himachal Pradesh. Central Ground Water Board, Ministry of Water Resources, Govt. of India, NHR, Dharmsala.
CGWB (Central Ground Water Board) (2007) Manual on artificial recharge of groundwater. Central Ground Water Board, Ministry of Water Resources, Government of India, pp.185.
Chen, L., Qian, X. and Shi, Y. (2011) Critical area identification of potential soil loss in a typical watershed of the three Gorges reservoir region. Water Resour. Managmt., v.25, pp.3445–3463.
Chndniha, S.K. and Kansal, M.L. (2014) Prioritization of sub–watersheds based on morphometric analysis using geospatial technique in Piperiya watershed, India. Applied Water Science, doi 10.1007/5 13201–014–0248–9.
Chopra, R., Dhiman, R. and Sharma, P.K. (2005) Morphometric analysis of sub–watersheds in Gurdaspur District, Punjab using remote sensing and GIS techniques. Jour. Indian Soc. Remote Sensing, v.33, pp.531–539.
Chowdary, V.M., Yatindranath, K.S. and Adiga, S. (2004) Modelling of nonpoint source pollution in a watershed using remote sensing and GIS. Jour. Indian Soc. Remote Sensing, v.32, pp.59–73.
Dabral, P.P., Baithuri, N. and Pandey, A. (2008) Soil erosion assessment in a hilly catchment of north eastern India using USLE, GIS and remote sensing. Water Resour. Managmt., v.22, pp.1783–1798.
Das, B.K. and Haake, B.G. (2003) Geochemistry of Rewalsar lake sediments Lesser Himalaya, India: Implications for source–area weathering, provenance and tectonic setting. Geosci. Jour., v.7, pp.299–312.
Das, B.K. and Kaur, P. (2007) Geochemistry of surface and subsurface waters of Rewalsar Lake, Mandi district, Himachal Pradesh: Constraints on weathering and erosion. Jour. Geol. Soc. India, v.69, pp.1020–1030.
Das, D. (2014) Identification of erosion prone areas by morphometric analysis using GIS. Jour. Instit. Engg. India, Series A, v.95, pp.61–74.
Esper Angillieri, M.Y. (2008) Morphometric analysis of Colanguil river basin and flash flood hazard, San Juan, Argentina. Environmental Geology, v.55, pp.107–111.
Gajbhiye, S., Mishra, S.K. And Pandey, A. (2014) Prioritising erosion prone area through morphometric analysis: an RS and GIS perspective. Applied Water Science, v.4, pp.51–61.
Ghoneim, E. and El–Baz, F. (2007) The application of radar topographic data to mapping of a mega–paleo drainage in the eastern Sahara. Journal of Arid Environment, v. 69 (4), pp.658–675.
Gregory, K.J. and Walling, D.E. (1973) Drainage Basin Form and Processes–A Geomorphological Approach. Edward Arnold, London, U.K.
Grepperud, S. (1995) Soil conservation and government policies in tropical area: does aid worsen the incentives for arresting erosion. Agricultural Economics, v.12, pp.120–140.
Hlaing, K., Haruyama, S. and Maung, A. (2008) Using GIS–based distributed soil loss modeling and morphometric analysis to prioritize watershed for soil conservation in Bago river basin of Lower Myanmar. Frontiers of Earth Science in China, v.2, pp.465–478.
Horton, R.E. (1932) Drainage basin characteristics. Trans. Amer. Geophys. Union, v.13, pp.350–361.
Horton, R.E. (1945) Erosional development of streams and their drainage basins; hydrological approach to quantitative morphology. Geol. Soc. Amer. Bull., v.56, pp.275–370.
Jain, S.K., Kumar, S. and Varghese, J. (2000) Estimation of soil erosion for Himalayan watershed using GIS technique. Water Resources Management, v.15, pp.41–54.
Jain, S.K., Singh, P., Saraf, A.K. and Seth, S.M. (2003) Estimation of sediment yield for a rain, snow and glacier fed river in the western Himalayan region. Water Resources. Managmt., v.17, pp.377–393.
Jain, S.K. and Goel, M.K. (2002) Assessing the vulnerability to soil erosion of the Ukai Dam catchments using remote sensing and GIS. Hydrological Sci. Jour., v.47, pp.31–40.
Jang, T., Vellidis, G., Hyman, J.B., Brooks, E., Kurkalova, L.A., Boll, J. and Cho, J. (2013) Model for prioritizing best management practice implementation: sediment load reduction. Environ. Managmt., v.51, pp.209–224.
Jasmin, I. And Mallikarjuna, P. (2013) Morphometric analysis of Araniar river basin using remote sensing and geographical information system in the assessment of groundwater potential. Arabian Jour. Geosci., v.6, pp.3683–3692.
Javed, A., Khanday, M.Y. And Rais, S. (2011) Watershed prioritization using morphometric and land use/land cover parameters: a remote sensing and GIS based approach. Jour. Geol. Soc. India, v.78, pp.63–75.
Javed, A., Khanday, M.Y. and Ahmed, R. (2009) Prioritization of subwatersheds based on morphometric and land use analysis using remote sensing and GIS techniques. Jour. Indian Soc. Remote Sensing, v.37, pp.261–274.
Kar, G., Kumar, A. and Singh, R. (2009) Spatial distribution of soil hydrophysical properties and morphometric analysis of a rain fed watershed as a tool for sustainable land use planning. Agricultural Water Management, v.96, pp.1449–1459.
Khan, M.A., Gupta, V.P. and Moharanam, P.C. (2001) Watershed prioritization using remote sensing and geographical information system: a case study from Guhiya, India. Jour. Arid Environ., v.49, pp.465–475.
Kumar, A., Samuel, S.K. And Vyas, V. (2015) Morphometric analysis of six sub–watersheds in the central zone of Narmada River. Arabian Jour. Geosci., v.8, pp.5685–5712.
Magesh, N.S., Jitheshlal, K.V. and Chandrasekar, N. (2013) Geographical information system–based morphometric analysis of Bharathapuzha river basin, Kerala, India. Appld. Water Sci., v.3, pp.467–477.
Magesh, N.S., Chandrasekar, N. and Soundranayagam, J.P. (2011) Morphometric evaluation of Papanasam and Manimuthar watersheds, parts of Western Ghats, Tiruneveli district, Tamilnadu, India: a GIS approach. Environ. Earth Sci., v.64, pp.373–381.
Magesh, N.S., Jitheshlal, K.V., Chandrasekar, N. and Jini, K.V. (2012) GIS based morphometric evaluation of Chimmini and Mupily watersheds, parts of Western Ghats, Thrissur District, Kerala, India. Earth Science Information, v.5, pp.111–121.
Mandal, D. and Sharda, V.N. (2011) Assessment of permissible soil loss in India employing a quantitative bio–physical model. Curr. Sci., v.100, pp.383–390.
Miller, V.C. (1953) A quantitative geomorphic study of drainage basin characteristics in the Clinch mountain area. Technical Report No. 3, University of Columbia, Department of Geology, New York.
Mosbahi, M., Benabdallah, S. and Boussema, M.R. (2013) Assessment of soil erosion risk using SWAT model. Arabian Jour. Geosci., v.6, pp.4011–4019.
Narayana, D. and Babu, R. (1983) Estimation of soil loss in India. Jour. Irrigation Drainage and Engineering, v.109, pp.419–433.
Oldeman, L.R. (1994) The global extent of soil degradation. In: Greenland, D. J. and Szabolcs, I., Eds., Soil Resilience and Sustainable Land Use, CAB International, Wallingford, UK, pp.99–118.
Ozdemir, H. and Bird, D. (2009) Evaluation of morphometric parameters of drainage networks derived from topographic maps and DEM in points of floods. Environ. Geol., v.56, pp.1405–1415.
Pandey, A., Chowdary, V.M. and Mal, B.C. (2007) Identification of critical erosion prone areas in the small agricultural watershed using USLE, GIS and remote sensing. Water Resour. Managmt., v.21, pp.729–746.
Pandey, A., Chowdary, V.M., Mal, B.C. and Billib, M. (2009) Application of the WEPP model for prioritization and evaluation of best management practices in an Indian watershed. Hydrological Processes, v.23, pp.2997–3005.
Pandey, A., Dabral, P.P., Saha, S. and Chakraborty, S. (2007) Decision support system for prioritization and watershed management. Hydrology Jour., v.30, pp.41–57.
Patel, D.P., Dholakia, M.B., Naresh, N. and Srivastava, P.K. (2012) Water harvesting structure positioning by using geo–visualization concept and prioritization of mini–watersheds through morphometric analysis in the Lower Tapi Basin. Jour. Indian Soc. Remote Sensing, v.40, pp.299–312.
Patil, R.J., Sharma, S.K. and Tignath, S. (2015) Remote sensing and GIS based soil erosion assessment from an agricultural watershed. Arabian Jour. Geosci., v.8, pp.6967–6984.
Pimentel, D., Terhune, E.C., Dyson–Hydson, R., Rochereau, S., Samis, R., Smith, E.A., Deuman, D., Reifschneider, D. and Schepard, M. (1995) Land degradation: effects on food and energy resources. Science, v.194, pp.149–155.
Pirta, D.K. (2006) Himachal Pradesh: The Himalayan State (Geography, History, Culture, Demography and Economy); JMD Publ., Shimla, pp.319.
Pophare, A.M. And Balpande, U.S. (2014) Morphometric analysis of Suketi river basin, Himachal Himalaya, India. Jour. Earth System Sciences, v.123, pp.1501–1515.
Ratnam, N.K., Srivastava, Y.K., Rao, V.V., Amminedu, E. and Murthy, K.S.R. (2005) Check dam positioning by prioritization micro–watersheds using SYI model and morphometric analysis–remote sensing and GIS perspective. Jour. Indian Soc. Remote Sensing, v.33, pp.25–38.
Rawat, J.S. and Rawat, M.S. (1994) Accelerated erosion and denudation in the Nanakosi watershed, Central Himalaya, India, Part I: Sediment load. Jour. Mountain Res. Develop., v.14, pp.25–38.
Rekha, V.B.B., George, A.V. and Rita, M. (2011) Morphometric analysis and micro–watershed prioritization of Peruvanthanam sub–watershed, the Manimala River Basin, Kerala, South India. Environ. Res. Engg. Managmt., v.57, pp.6–14.
Sarangi, A., Madramootoo, C.A. and Singh, D.K. (2004) Development of ArcGIS assisted user interfaces for estimation of watershed morphologic parameters. Jour. Soil and Water Conservation, v.33, pp.139–149.
Sarma, S. and Saikia, T. (2012) Prioritization of sub–watersheds in Khanapura–Bornihat area of Assam–Meghalaya (India) based on land use and slope analysis using remote sensing and GIS. Jour. Indian Soc. Remote Sensing, v.40, pp.435–446.
Schumm, S.A. (1956) Evolution of drainage systems and slopes in Badlands at Perth Amboy, New Jersey. Bull. Geol. Soc. Amer., v.67, pp.597–646.
Sebestian, M., Jayaraman, V. and Chandrasekhar, M.G. (1995) Space technology applications for sustainable development of watersheds. Technical Report No. 104, Indian Space Research Organization, Bangalore.
Sharma, J.C., Prasad, J., Saha, S.K. and Pande, L.M. (2001) Watershed prioritization based on sediment yield index in eastern part of Doon valley using RS and GIS. Indian Jour. Soil Conservation, v.29, pp.7–13.
Sharma, S.K., Pathak, R. and Suraiya, S. (2012) Prioritization of subwatersheds based on morphometric analysis using remote sensing and GIS technique. JNKVV Res. Jour., v.46, pp.407–413.
Shrimali, S.S., Aggarwal, S.P. and Samra, J.S. (2001) Prioritizing erosionprone areas in hills using remote sensing and GIS–a case study of the Sukhna Lake catchment, Northern India. Internat. Jour. Appld. Earth Observations and Geoinformation, v.3, pp.54–60.
Smith, K.G. (1950) Standards for grading texture of erosional topography. Amer. Jour. Sci., v.248, pp.655–668.
Sreedevi, P.D., Owais, S., Khan, H.H. and Ahmed, S. (2009) Morphometric analysis of a watershed of south India using SRTM data and GIS. Jour. Geol. Soc. India, v.73, pp.543–552.
Srinivasa, V.S., Govindaonah, S. and Gowda, H. (2004) Morphometric analysis of sub–watersheds in the Pawagada area of Tumkur district South India using remote sensing and GIS techniques. Jour. Indian Soc. Remote Sensing, v.32, pp.351–362.
Strahler, A.N. (1957) Quantitative analysis of watershed geomorphology. Trans. Amer. Geophys. Union, v.38, pp.913–920.
Strahler, A.N. (1964) Quantitative geomorphology of drainage basins and channel networks. In: Chow, V.T. (ed.), Handbook of Applied Hydrology. McGraw Hill Book Company, New York, Section, pp.4–11.
Sujatha, E.R., Selvakumar, R. and Rajasimman, B. (2014) Watershed prioritization of Palar sub–watershed based on morphometric and land use analysis. Jour. Mountain Sci., v.11, pp.906–916.
Suresh, M., Sudhakar, S., Tiwari, K.N. And Choudary, V.M. (2004) Prioritization of watersheds using morphometric parameters and assessment of surface water potential using Remote Sensing. Jour. Indian Soc. Remote Sensing, v.32, pp.249–259.
Tarboton, D. G., Bras, R. L. and Rodriguez–Iturbe, I. (1991) On the extraction of channel networks from digital elevation data. Hydrological Processes, v. 5, pp.81–100.
Thakkar, A.K. and Dhiman, S.D. (2007) Morphometric analysis and prioritization of mini watersheds in Mohar watershed, Gujrat using remote sensing and GIS techniques. Jour. Indian Soc. Remote Sensing, v.35, pp.313–321.
Thampapillai, D.A. and Anderson, J.R. (1994) A review of the socio–economic analysis of soil degradation problem for developed and developing countries. Rev. Marketing and Agricul. Econ., v.62, pp.291–315.
Thomas, J., Joseph, S., Thrivikramji, K.P. and Abe, G. (2011) Morphometric analysis of the drainage system and its hydrological implications in the rain shadow regions, Kerala, India. Jour. Geograph. Sci., v.21, pp.1077–1088.
Vandana, M. (2013) Morphometric analysis and watershed prioritization–A case study of Kabini River basin, Wayanad District, Kerala, India. Indian Jour. Geo–Marine Sci., v.42, pp.211–222.
Vijith, H. and Satheesh, R. (2006) GIS based morphometric analysis of two major upland sub–watersheds of Meenachil River in Kerala. Jour. Indian Soc. Remote Sensing, v.34, pp.181–185.
Vittala, S.S., Govindaiah, S. and Gowda, H.H. (2004) Morphometric analysis of the sub–watersheds in the Pavagada area of Tumkur district, South India using remote sensing and GIS techniques. Jour. Indian Soc. Remote Sensing, v.32, pp.351–362.
Youssef, A.M., Pradhan, B. and Hassan, A.M. (2011) Flash flood risk estimation along the St. Katherine road, southern Sinai, Egypt using GIS based morphometry and satellite imagery. Environ. Earth Sci., v.62, pp.611–623.
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Singh, O., Singh, J. Soil Erosion Susceptibility Assessment of the Lower Himachal Himalayan Watershed. J Geol Soc India 92, 157–165 (2018). https://doi.org/10.1007/s12594-018-0975-x
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DOI: https://doi.org/10.1007/s12594-018-0975-x