Morphometric based prioritization of watershed for groundwater potential of Mula river basin, Maharashtra, India

References

• Balázs, B. , Bíró, T. , Gareth, Dyke , Singh, S.K. , & Szabó, S. (2018). Extracting water-related features using reflectance data and principal component analysis of Landsat images. Hydrological Sciences Journal . 63 (2): 269–284. doi:10.1080/02626667.2018.1425802
   Web of Science ®Google Scholar
• Biswas, S. , Sudhakar, S. , & Desai, V.R. (1999). Prioritisation of subwatersheds based on morphometric analysis of drainage basin: A remote sensing and GIS approach. Journal of Indian Society of Remote Sensing , 27 (3), 155166.
   Google Scholar
• Clarke, J.I. (1996). Morphometry from maps. Essays in geomorphology (pp. 235–274). New York, NY : Elsevier publication. Co.
   Google Scholar
• Elmahdy, S.I. , Marghany, M.M. , & Mohamed, M.M. (2016). Application of a weighted spatial probability model in GIS to analyse landslides in Penang Island, Malaysia. Geomat Nat Hazards Risk , 7 , 345–359. doi:10.1080/19475705.2014.904825
   Web of Science ®Google Scholar
• Gregory, K.J. (1966). Dry valley and the composition of the drainage net. Journal of Hydrology , 4 , 327–340.
   Google Scholar
• Grohmann, C.H. , Riccomini, C. , & Alves, F.M. (2007). SRTM-based morphotectonic analysis of the Poços de Caldas Alkaline Massif, southeastern Brazil. Computers & Geoscience , 33 , 10–19.
   Web of Science ®Google Scholar
• Hadley, R. & Schumm, S. (1961). Sediment sources and drainage basin characteristics in upper Cheyenne river basin. US Geological Survey Water-supply Paper. , 1531 , 198.
   Google Scholar
• Horton, R.E. (1932). Drainage basin characteristics. Transactions American Geophysical Union , 13 , 350–361.
   Google Scholar
• Horton, R.E. (1945). Erosional development of streams and their drainage basins: Hydrophysical approach to quantitative morphology. Bulletin of the Geological Society of America , 56 , 275–370.
   Web of Science ®Google Scholar
• Javed, A. , Yousuf, M. , & Rizwan, K. (2009). Prioritization of sub-watersheds based on morphometric and land use analysis using remote sensing and GIS techniques. Journal of the Indian Society of Remote Sensing , 37 , 261–274. doi:10.1007/s12524-009-0016-8
   Web of Science ®Google Scholar
• Kale, V.S. & Gupta, A. (2001). Introduction to geomorphology . New Delhi: Orient Longman.
   Google Scholar
• Kaliraj, S. , Chandrasekar, N. , Magesh, N.S. (2015). Morphometric analysis of the River Thamirabarani sub-basin in Kanyakumari district, South west coast of Tamil Nadu, India, using remote sensing and GIS. Environmental Earth Sciences , 73 , 7375–7401. doi:10.1007/s12665-014-3914-1
   Google Scholar
• Khalkho, D. , Tripath, M.P. , Patel, S. , Pandey, V.K. , Nigam, G.K. , & Kumar Love . (2017). Geospatial techniques for prioritization of sub-watersheds of hamp watershed of upper Mahanadi Basin using morphometric analysis. Trends in Biosciences , 10 (15), Print : ISSN 0974-8431, 2705-2713, 2017.
   Google Scholar
• Khan, M.A. , Gupta, V.P. , & Moharana, P.C. (2001). Watershed prioritization using remote sensing and geographical information system: A case study from Guhiya, India. Journal of Arid Environments , 49 , 465475.
   Google Scholar
• Kumar, A. , Jayappa, K. , & Deepika, B. (2011). Prioritization of sub-basins based on geomorphology and morphometric analysis using remote sensing and geographic information system (GIS) techniques. Geocarto International , 26 , 569–592. doi:10.1080/10106049.2011.606925
   Web of Science ®Google Scholar
• Love Kumar, Khalkho, D. , Pandey, V.K. , Nigam, G.K. , & Yatnesh, B. (2017). Site suitability analysis of water storage structures using remote sensing & GIS for a small watershed of Lormi block in Mungeli district, Chhattisgarh State. IJABR , 7 (3), 495–503.
   Google Scholar
• Manju, E.K. & George, A.V. (2014). A comparative study of the Morphometric Analysis of High land sub-watersheds of Meenachil and Pamba Rivers of Kerala, Western Ghats, South India. International Journal of Innovation and Scientific Research , 11 (2), 527–532.
   Google Scholar
• Maathuis, B.H.P. & Wang, L. (2006). Digital elevation model based hydro-processing. Geocarto International , 21 (1), 21–26.
   Google Scholar
• Miller, V.C . (1953). A quantitative geomorphic study of drainage basin characteristics in the Clinch mountain area Virginia and Tennessee ( Proj. NR 389-402, Technical Report 3). New York, NY : Department of Geology, ONR, Columbia University, Virginia and Tennessee.
   Google Scholar
• Moharir, K.N. , & Pande, C.B. (2014). Analysis of morphometric parameters using remote-sensing and GIS techniques in the lonar nala in akola district Maharashtra India. International Journal for Technological Research in Engineering , 1 (10), 1034–1040.
   Google Scholar
• Moore, I.D. , Grayson, R.B. , & Ladson, A.R. (1991). Digital terrain modelling: A review of hydrological, geomorphological, and biological applications. Hydrological Processes , 5 (1), 3–30.
   Web of Science ®Google Scholar
• Narsimlu, B. , Gosain, A.K. , Chahar, B.R. , Singh, S.K. , & Srivastava, P.K. (2015). SWAT model calibration and uncertainty analysis for streamflow prediction in the Kunwari River Basin, India, using Sequential Uncertainty Fitting. Environmental Processes , 2 , 79–95.
   Google Scholar
• Nautiyal, M.D. (1994). Morphometric analysis of drainage basin, district Dehradun, Uttar Pradesh. Journal of the Indian Society of Remote Sensing , 22 , 252–262.
   Google Scholar
• Nigam, G.K. , Tripathi, M.P. , Ambast, S.K. , Love Kumar, & Khalkho, D. (2017). Morphometric analysis of drainage basin using aerial photographs: A case of Karun watershed of Seonath sub-basin of Chhattisgarh. IJABR , 7 (3), 623–629.
   Google Scholar
• Nookaratnam, K. , Srivastava, Y.K. , Venkateswarao, V. , Amminedu, E. , & Murthy, K.S.R. (2005). Check dam positioning by prioritization of microwatersheds using SYI model and morphometric analysis – Remote sensing and GIS perspective. Journal of the Indian Society of Remote Sensing , 33 (1), 2528.
   Google Scholar
• Paudel, D. , Thakur, J.K. , Singh, S.K. , & Srivastava, P.K. (2014). Soil characterization based on land cover heterogeneity over a tropical landscape: An integrated approach using earth observation data-sets. Geocarto International , 30 (2), 218–241. doi:10.1080/10106049.2014.905639
   Google Scholar
• Rais, S. , & Javed, A. (2014). Identification of artificial recharge sites in Manchi basin, Eastern Rajasthan (India) using remote sensing and GIS techniques. Journal of Geographic Information System , 6 , 162–175.
   Google Scholar
• Rao, N.S. (2009). A numerical scheme for groundwater development in a watershed basin of basement terrain: A case study from India. Hydrogeology Journal , 17 , 379–396.
   Web of Science ®Google Scholar
• Rawat, K.S. , & Singh, S.K. (2017). Estimation of surface runoff from semi-arid ungauged agricultural watershed using SCS-CN method and earth observation data sets. Water Conservation Science and Engineering , 1 , 233–247.
   Google Scholar
• Reddy, G.P.O. , Maji, A.K. , & Gajbhiye, K.S. (2004). Drainage morphometry and its influence on landform characteristics in a basaltic terrain, Central India – A remote sensing and GIS approach. International Journal of Applied Earth Observation and Geoinformation , 6 , 1–16.
   Google Scholar
• Rudraiah, M. , Govindaiah, S. , & Srinivas, V.S. (2008). Morphometry using remote sensing and GIS techniques in the sub-basins of Kagna river basin, Gulburga district, Karnataka, India. Journal of Indian Society of Remote Sensing , 36 , 351–360.
   Web of Science ®Google Scholar
• Schumm, S.A. (1956). Evolution of drainage systems and slopes in badlands at Perth Amboy, New Jersey. Geological Society of America Bulletin , 67 , 597–646.
   Web of Science ®Google Scholar
• Singh, S.K. , Basommi, B.P. , Mustak, S.K. , Srivastava, P.K. , & Szabo, S. (2017). Modelling of land use land cover change using earth observation data-sets of Tons River Basin, Madhya Pradesh, India. Geocarto International , 1–21. doi:10.1080/10106049.2017.1343390
   Google Scholar
• Singh, S.K. , Mustak, S. , Srivastava, P.K. , Szabó, S. , & Islam, T. (2015). Predicting spatial and decadal LULC changes through Cellular Automata Markov Chain Models using Earth Observation Datasets and Geo-information. Environmental Processes , 2 (1), 61–78.
   Google Scholar
• Smith, K.G. (1950). Standards for grading texture of erosional topography. American Journal of Science , 248 , 655–668.
   Web of Science ®Google Scholar
• Sreedevi, P. , Subrahmanyam, K. , & Ahmed, S. (2005). The significance of morphometric analysis for obtaining groundwater potential zones in a structurally controlled terrain. Environmental Geology , 47 , 412–420.
   Web of Science ®Google Scholar
• Strahler, A.N. (1957). Quantitative analysis of watershed geomorphology. Transactions American. Geophysical Union , 38 , 913–920.
   Google Scholar
• Strahler, A.N. (1964). Quantitative geomorphology of drainage basins and channel networks. In V.T. Chow (Ed.), Handbook of applied hydrology (pp. 39–76). New York, NY : McGraw Hill.
   Google Scholar
• Szabó, G. , Singh, S.K. , & Szabó, S. (2015). Slope angle and aspect as influencing factors on the accuracy of the SRTM and the ASTER GDEM databases. Physics and Chemistry of the Earth, Parts A/B/C. , 83–84 , 137–145.
   Web of Science ®Google Scholar
• Vittala, S.S. , Govindiah, S. , & Honne Gowda, H. (2004). Morphometric analysis of sub-watersheds in the pawagada area of Tumkur district, South India, using remote sensing and GIS techniques. Journal of the Indian Society of Remote Sensing , 32 , 351–362.
   Google Scholar
• Yadav, S.K. , Singh, S.K. , Gupta, M. , & Srivastava, P.K. (2014). Morphometric analysis of Upper Tons basin from Northern Foreland of Peninsular India using CARTOSAT satellite and GIS. Geocarto International , 29 (8), 895–914.
   Web of Science ®Google Scholar
• Yadav, S.K. , Dubey, A. , Szilard, S. , & Singh, S.K. (2016). Prioritization of sub-watersheds based on earth observation data of agricultural dominated northern river basin of India. Geocarto International . 33 (4), 339–356. doi:10.1080/10106049.2016.1265592
   Google Scholar