Abstract
In this study, proven capability of remote sensing and GIS are used for watershed prioritization. 19 different sub-watersheds are prioritised through geomorphological analysis and suitable structures are proposed for soil and water conservation in a Limkheda agricultural watershed situated in semi arid middle region of Gujarat, India. Remote sensing images such as SRTM are used to delineate the watershed and to generate slope thematic maps, soil maps are applied to generate soil type, whereas LISS III remote sensing image is used for generating land use maps. Prioritization of sub-watersheds using geomorphological analysis is carried out by seven different linear and shape parameters. Then different sub-watersheds are prioritised by assigning ranks using compound parameter. After prioritization, land use, soil type and land slope categories of sub-watersheds are integrated to propose suitable soil and water conservation structures. In this study, it is proposed that soil conservation measures should be adopted as per the priority assigned to reduce the adverse effect on the land and environment. Overall, it is concluded in this study that delineation of watersheds into sub-watersheds and prioritization of these sub-watersheds are very relevant, helpful and important in semi-arid regions of middle Gujarat, where there is high diversity in agricultural practices and size of land holdings. Adaptation of soil conservation measures priority-wise will not only reduce the soil erosion but also increase the water availability in the surface and as groundwater and will further reduces the possibility of droughts as well as floods and finally environmental hazards.
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References
AIS and LUS (1990) Watershed atlas of India. Department of Agriculture and Cooperation. All India Soil and Land Use Survey, IARI Campus, New Delhi
Amore E, Modica C, Nearing MA, Santoro VC (2004) Scale effect in USLE and WEPP application for soil erosion computation from three Sicilian basins. J Hydrol 293(1–4):100–114
Bali YP, Karale RL (1977) A sediment yield index for choosing priority basins. IAHS-AISH Publication 222:180
Bali R, Agarwal K, Nawaz Ali S, Rastogi S, Krishna K (2012) Drainage morphometry of Himalayan Glacio-fluvial basin, India: hydrologic and neotectonic implications. Environ Earth Sci 66(4):1163–1174
Biswas S, Sudhakar S, Desai VR (1999) Prioritisation of subwatersheds based on morphometric analysis of drainage basin: a remote sensing and GIS approach. J Indian Soc Remote Sens 27(3):155–166
Brooks RP, Wardrop DH, Cole CA (2006) Inventorying and monitoring wetland condition and restoration potential on a watershed basis with examples from Spring Creek Watershed, Pennsylvania, USA. Environ Manag 38(4):673–687
Chopra R, Dhiman RD, Sharma P (2005) Morphometric analysis of sub-watersheds in Gurdaspur district, Punjab using remote sensing and GIS techniques. J Indian Soc Remote Sens 33(4):531–539
Chowdary V, Ramakrishnan D, Srivastava Y, Chandran V, Jeyaram A (2009) Integrated water resource development plan for sustainable management of Mayurakshi watershed, India using remote sensing and GIS. Water Resour Manag 23(8):1581–1602
Clarke JI (1966) Morphometry from maps. Essays in geomorphology. Elsevier, New York, p 235274
Dickinson A, Collins R (1998) Predicting erosion and sediment yield at the catchment scale. In Penning de Vries FWT, Agus F, Kerr J (eds) Soil erosion at multiple scales, principles and methods for assessing causes and impact. CABI. In association with the International Board for Soil Research and Management, Wallingford, pp 317–342
Griffin ML, Beasley DB, Fletcher JJ, Foster GR (1988) Estimating soil loss on topographically nonuniform field and farm units. J Soil Water Conser 43:326–331
Gujarat Agriculture XI PLAN Outcomes & Strategies (2009) Agriculture and Cooperation Department, Government of Gujarat
Gupta M, Srivastava PK (2010) Integrating GIS and remote sensing for identification of groundwater potential zones in the hilly terrain of Pavagarh, Gujarat, India. Water Int 35(2):233–245
Gupta K, Deelstra J, Sharma K (1997) Estimation of water harvesting potential for a semiarid area using GIS and remote sensing. IAHS Publications-Series of Proceedings and Reports-Intern Assoc Hydrological Sciences 242:63
Haing KT, Haruyama S, Aye MM (2008) Using GIS-based distributed soil loss modeling and morphometric analysis to prioritize watershed for soil conservation in Bago river basin of Lower Myanmar. Front Earth Sci China 2(4):465–478
Horton RE (1932) Drainage basin characteristics. Trans Am Geophys Union 13:350–361
Horton RE (1945) Erosional development of streams and their drainage basins: hydrophysical approach to quantitative morphology. Geol Soc Am Bull 56:275–370
Jain MK, Kothyari UC (2000) Estimation of soil erosion and sediment yield using GIS. J Hydrol Sci 45(5):771–786
Jain SK, Kumar S, Varghese J (2001) Estimation of soil erosion for a Himalayan watershed using GIS technique. Water Resour Manag 15:41–54
Jasrotia AS, Dhiman SD, Agrawal SP (2002) Rainfall runoff and soil erosion modeling using remote sensing and GIS techniques—a case study of tons watershed. J Indian Soc Remote Sens 30(3):167–180
Javed A, Khanday MY, Ahmed R (2009) Prioritization of subwatersheds based on morphometric and land use analysis using remote sensing and GIS techniques. J Indian Soc Remote Sens 37(2):261–274
Javed A, Khanday MY, Rais S (2011) Watershed prioritization using morphometric and land use/land cover parameters: a remote sensing and GIS based approach. J Geol Soc India 78(1):63–75
Johnson N, Ravnborg HM, Westermann O, Probst K (2002) User participation in watershed management and research. Water Policy 3(6):507–520
Kessler WB, Salwasser H, Cartwright CW, Caplan JA (1992) New perspectives for sustainable natural resources management. Ecol Appl 2:221–225
Khan MA, Gupta VP, Moharana PC (2001) Watershed prioritization using remote sensing and geographical information system: a case study from Guhiya, India. J Arid Environ 49:465–475
Kothyari UC, Jain SK (1997) Sediment yield estimation using GIS. Hydrol Sci J 42(6):833–843
Kumar MG, Agarwal A, Bali R (2008) Delineation of potential sites for water harvesting structures using remote sensing and GIS. J Indian Soc Remote Sens 36(4):323–334
Kumar A, Jayappa KS, Deepika B (2011) Prioritization of sub-basins based on geomorphology and morphometricanalysis using remote sensing and geographic informationsystem (GIS) techniques. Geocarto Int 26(7):569–592
Mani P, Chakravorty B (2007) Remote sensing based sedimentation study of Maithon reservoir. J Indian Soc Remote Sens 35(1):118–120
Miller VC (1953) A quantitative geomorphic study of drainage basin characteristics in the Clinch Mountain area, Varginia and Tennessee. Project NR 389042, Tech. Rept. 3, Columbia University, Department of Geology, ONR, Geography Branch, New York
Miller JR, Craig Kochel R (2010) Assessment of channel dynamics, in-stream structures and post-project channel adjustments in North Carolina and its implications to effective stream restoration. Environ Earth Sci 59(8):1681–1692
Misra N, Satyanarayana T, Mukherjee RK (1984) Effect of top elements on the sediment production rate from Sub-watershed in Upper Damodar Valley. J Agric Eng 21(3):65–70
Nag SK (1998) Morphometric analysis using remote sensing techniques in the Chaka sub-basin, Purulia district, West Bengal. J Indian Soc Remote Sens 26(1&2):69–76
Narayan DVV, Babu R (1983) Estimation of soil erosion in India. J Irrig Drain Eng 109:419–431
Nautiyal MD (1994) Morphometric analysis of drainage basin, district Dehradun, Uttar Pradesh. J Indian Soc Remote Sens 22(4):252–262
NBSS&LUP (2005) Soil series of Orissa. Natioanl Bureau of Soil Survey & Land Use Planning, Nagpur
Nookaratnam K, Srivastava YK, Venkateshwara Rao V, Amminedu E, Murthy KSR (2005) Check dam positioning by prioritization of micro-watersheds using SYI model and morphometric analysis—remote sensing and GIS perspective. J Indian Soc Remote Sens 33(1):25–38
Osborne LL, Wiley MJ (1988) Empirical relationships between land use/cover and stream water quality in an agricultural watershed. J Environ Manag 26:9–27
Pandey VK, Panda SN, Raghuwanshi NS, Sudhakar S (2006) Delineation and parameterization of Banikdih watershed using remote sensing and AVSWAT model. J Indian Soc Remote Sens 34(2):143–152
Pandey PC, Sharma LK, Nathawat MS (2012) Geospatial strategy for sustainable management of municipal solid waste for growing urban environment. Environ Monit Assess 184:2419–2431
Patel DP, Dholakia M, Naresh N, Srivastava PK (2012) Water harvesting structure positioning by using geo-visualization concept and prioritization of mini-watersheds through morphometric analysis in the lower Tapi basin. J Indian Soc Remote Sens 40(2):299–312
Patel DP, Gajjar CA, Srivastava PK (2013) Prioritization of Malesari mini-watersheds through morphometric analysis: a remote sensing and GIS perspective. Environ Earth Sci 69:2643–2656
Schumm SA (1956) Evolution of drainage systems and slopes in Badlands at Perth Amboy, New Jersey. Geol Soc Am Bull 67:597–646
Singh S, Singh MC (1997) Morphometric analysis of Kanhar river basin. Natl Geogr J lndia 43(1):31–43
Srinivasa Vittala S, Govindaiah S, Honne Gowda H (2008) Prioritization of subwatersheds for sustainable development and management of natural resources: an integrated approach using remote sensing, GIS and socio-economic data. Curr Sci 95:345–354
Srinivasa VS, Govindainah S, Home Gowda H (2004) Morphometric analysis of sub-watersheds in the Pavagada area of Tumkur district South India using remote sensing and GIS techniques. J Indian Soc Remote Sens 32(4):351–362
Srivastava VK (1997) Study of drainage pattern of Jharia coal field (Bihar), India, through remote sensing technology. J Indian Soc Remote Sens 25(1):41–46
Srivastava PK, Mukherjee S, Gupta M (2010) Impact of urbanization on land use/land cover change using remote sensing and GIS: a case study. Int J Ecol Econ Stat 18(S10):106–117
Srivastava PK, Han D, Gupta M, Mukherjee S (2012a) Integrated framework for monitoring groundwater pollution using a geographical information system and multivariate analysis. Hydrol Sci J 57(7):1453–1472. doi:10.1080/02626667.2012.716156
Srivastava PK, Kiran G, Gupta M, Sharma N, Prasad K (2012b) A study on distribution of heavy metal contamination in the vegetables using GIS and analytical technique. Int J Ecol Dev 21(1):89–99
Strahler AN (1957) Quantitative analysis of watershed geomorphology. Trans Am Geophys Union 38(6):913–920
Strahler AN (1964) Quantitative geomorphology of drainage basins and channel networks. In: Chow VT (ed) Handbook of applied hydrology. McGraw Hill Book Company, New York
Swain M, Kalamkar SS, Kapadia KM (2012) AERC REPORT 146, 2012. State of Gujarat Agriculture
Thakkar AK, Dhiman SD (2007) Morphometric analysis and prioritization of miniwatersheds in Mohr watershed, Gujarat, using remote sensing and GIS techniques. J Indian Soc Remote Sens 37:313–321
Thakur J, Srivastava PK, Singh S, Vekerdy Z (2012) Ecological monitoring of wetlands in semi-arid region of Konya closed Basin, Turkey. Reg Environ Change 12(1):133–144
Thomas J, Joseph S, Thrivikramji K, Abe G, Kannan N (2012) Morphometrical analysis of two tropical mountain river basins of contrasting environmental settings, the southern Western Ghats, India. Environ Earth Sci 66(8):2353–2366
Vito AV (1975) ASCE-manuals and reports on engineering practice. Sedimentation Engineering, pp 745
Wischmeier WH, Smith DD (1978) Predicting rainfall erosion losses—a guide to conservation planning. Agricultural Handbook No. 537, USDA
Youssef AM, Pradhan B, Hassan AM (2011) Flash flood risk estimation along the St. Katherine road, southern Sinai, Egypt using GIS based morphometry and satellite imagery. Environ. Earth Sci 62(3):611–623
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Makwana, J., Tiwari, M.K. Prioritization of agricultural sub-watersheds in semi arid middle region of Gujarat using remote sensing and GIS. Environ Earth Sci 75, 137 (2016). https://doi.org/10.1007/s12665-015-4935-0
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DOI: https://doi.org/10.1007/s12665-015-4935-0