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Water Resources Management
Published in: Water Resources Management 10/2013

01-08-2013

Multi-Criteria Decision Making Approach for Watershed Prioritization Using Analytic Hierarchy Process Technique and GIS

Authors: V. M. Chowdary, D. Chakraborthy, A. Jeyaram, Y. V. N. Krishna Murthy, J. R. Sharma, V. K. Dadhwal

Published in: Water Resources Management | Issue 10/2013

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Abstract

Watershed prioritization based on the natural resources and physical processes involves locating critical areas of erosion, which produce maximum sediment yield to take up conservation activities on priority basis. The present study was taken up with a specific objective of prioritization of micro-watersheds using Multi-Criteria Decision Approach – Analytic Hierarchy Process (AHP) based SYI model (AHPSYI) under GIS environment for a case study area of Mayurakshi watershed in India. This method basically uses information of Potential Erosion Index (PEI) and Sediment Delivery Ratio (SDR), indicative of transport capacity. In the present study, sediment delivery factors viz., topography, vegetation cover, proximity to water courses and soil were translated into GIS layers and integrated using Boolean conditions to create a data layer of spatially distributed SDIs’ across the watershed. For assessment of PEI, important watershed parameters viz., land use/land cover, soil, slope, and drainage density maps were integrated in the GIS environment using Weighted Linear Combination method (WLC) by assigning weights to themes and ranks to features of individual theme using AHP technique. A comparison between AHPSYI based sub watershed prioritization map with that of prioritization map based on the observed sediment yield data revealed that about 78 % of the area showed concurrence. Thus, it can be inferred that the watershed prioritization based on only thematic layers can be dependable to maximum extent. Subsequently, proposed approach was adopted for prioritization of the study area at micro watershed scale, where area under high and very high categories together constitutes around 33 % of the study area. Around 100 micro-watersheds out of 276 watersheds are under moderate to very high category respectively, signifying the need for watershed management.
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Literature
Abbott MB, Bathurst JC, Cunge JA, O’Connell PE, Rasmussen J (1986) An introduction to the European hydrologic system-systeme hydrologique European, SHE, 1: history and philosophy of a physically based, distributed modeling system. J Hydrol 87:45–59CrossRef
Arnold JG, Srinivasan R, Muttiah RS, Williams JR (1998) Large area hydrologic modeling and assessment. Part 1: model development. J Am Water Resour Assoc 34(1):73–89CrossRef
Beasley DB, Huggins LF, Monke EJ (1980) ANSWERS: a model for watershed planning. Trans ASAE 23(4):938–944
Bicknell BR, Imhoff JL, Kittle JL, Donigian AA, Johanson RC (1993) Hydrologic simulation program-Fortran: user’s manual for release 10. U.S. EPA Environmental Research Laboratory, Athens
Calizaya A, Meixner O, Bengtsson L, Berndtsson R (2010) Multi-criteria decision analysis (MCDA) for integrated water resources management (IWRM) in the lake Poopo Basin, Bolivia. Water Resour Manag 24(10):2267–2289CrossRef
Chaudhary RS, Sharma PD (1998) Erosion hazard assessment and treatment prioritization of Giri river catchment, North Western Himalayas. Indian J Soil Conserv 26(1):6–11
Chen K, Blong R, Jacobson C (2001) MCE-RISK: integrating multicriteria evaluation and GIS for risk decision making in natural hazards. Environ Model Softw 16(4):387–397
Chen L, Qian X, Shi Y (2011) Critical area identification of potential soil loss in a typical watershed of the three gorges reservoir region. Water Resour Manag 25(13):3445–3463CrossRef
Chou WC (2010) Modelling watershed scale soil loss prediction and sediment yield estimation. Water Resour Manag 24(10):2075–2090CrossRef
Chowdary VM, Ramakrishnan D, Srivastava YK, Vinu Chandran VR, Jeyaram A (2009) Integrated water resource development plan for sustainable management of Mayurakshi watershed, India using remote sensing and GIS. Water Resour Manag 23:1581–1602CrossRef
Chowdhury A, Jha MK, Chowdary VM, Mal BC (2008) Integrated remote sensing and GIS-based approach for assessing groundwater potential in West Medinipur district, West Bengal, India. Int J Remote Sens 30(1):231–250CrossRef
Chowdhury A, Jha MK, Chowdary VM (2010) Delineation of groundwater recharge zones and identification of artificial recharge sites in West Medinipur district, West Bengal, using RS, GIS and MCDM techniques. Environ Earth Sci 59:1209–1222CrossRef
Cowen DJ (1988) GIS versus CAD versus DBMS: what are the differences? Photogramm Engg Remote Sens 54(11):1551–1555
Dey PK (2003) Analytic hierarchy process analyses risk of operating cross country petroleum pipelines in India. Nat Hazards Rev 4(4):213–221CrossRef
Diodata N, Grauso S (2009) An improved correlation model for sediment delivery ratio assessment. Environ Earth Sci 59:223–231CrossRef
DVC (Damodar Valley Corporation, Hazaribagh) (1982) Hydrologic and sediment data of watersheds in Mayurakshi Catchment, Bihar, India. Unpublished
Ferro V, Minacapalli M (1995) Sediment delivery processes at basin scale. Hydrol Sci J 40:703–717CrossRef
Fistikoglu O, Harmancioglu NB (2002) Integration of GIS with USLE in assessment of soil erosion. Water Resour Manag 16(6):447–467
Flanagan DC, Ascough II JC, Nicks AD, Nearing MA, Laflen JM (1995) Overview of the Water Erosion Prediction Project erosion model. In: Flanagan DC, Nearing MA (eds) USDA-Water Erosion Prediction Project (WEPP) Hillslope Profile and Watershed Model Documentation, NSERL Report No. 10, USDA-Agricultural Research Service, West Lafayette, Indiana
Garde RJ, Kothari UC (1987) Sediment yield estimation. J Irrig Power (India) 44(3):97–123
Garg V, Jothiprakash V (2012) Sediment yield assessment of a large basin using PSIAC approach in GIS environment. Water Resour Manag 26(3):799–840CrossRef
Gemitzi A, Petalas C, Tsihrintzis VA, Pisinaras V (2006) Assessment of groundwater vulnerability to pollution: a combination of GIS, fuzzy logic and decision making techniques. Environ Geol 49:653–673CrossRef
Gemitzi A, Tsihrintzis VA, Voudrias E, Petalas C, Stravodimos G (2007) Combining geographic information system, multicriteria evaluation techniques and fuzzy logic in siting MSW landfills. Environ Geol 51:797–811CrossRef
Gregory KJ, Walling DE (1973) Drainage basin form and processes: a geomorhological approach. Wiley, New York, 458 p
Hayman DG (1991) Trial application: Kintore Creek evaluation study. In: Kalinauskas R, Boggs L (eds) Non-point source overview model: workshop proceedings, December 1991. Water planning and Management Branch, Inland waters Directorate, Environment Canada
Jain MK, Das D (2010) Estimation of sediment yield and areas of soil erosion and deposition for watershed prioritization using GIs and remote sensing. Water Resour Manag 24(10):2091–2112CrossRef
Jankowski P (1995) Integrating geographic information systems and multiple criteria decision making methods. Int J Geogr Inf Syst 9(3):251–273CrossRef
Kontos TD, Komilis DP, Halvadakis CP (2003) Siting MSW landfills on Lesvos island with a GIS-based methodology. Waste Manag Res 21:262–278CrossRef
Laflen JM, Lane JL, Foster GR (1991) WEPP- a new generation of erosion prediction technology. J Soil Water Conserv 46(1):34–38
Lu H, Morana C, Prossera I, Sivapalan M (2004) Modelling sediment delivery ratio based on physical principles. In: Proceedings iEMS 2004 International Confernce, 14–17 June 2004, University of Osnabruck, Germany, http://​www.​iems.​org/​iemss2004/​
Lukasheh AF, Droste RL, Warith MA (2001) Review of expert system (ES), geographical information system (GIS), decision support system (DSS) and their application in landfill design and management. Waste Manag Res 19:177–185CrossRef
Madrucci V, Taioli F, Araujo CC (2008) Groundwater favorability map using GIS multicriteria data analysis on crystalline terrain, Sao Paulo State, Brazil. J Hydrol 357:153–173CrossRef
Marinoni O (2004) Implementation of the analytical hierarchy process with VBA in ArcGIS. Comput Geosci 30:637–646CrossRef
Nearing MA, Foster GR, Lane LJ, Finker SC (1989) A process based soil erosion model for USDA- water erosion prediction project technology. Trans ASAE 32(5):1587–1593
Onyando JO, Kisoyan P, Chemelil MC (2005) Estimation of potential soil erosion for river perkerra catchment in Kenya. Water Resour Manag 19:133–143CrossRef
Panagopoulos GP, Bathrellos GD, Skilodimou HD, Martsouka FA (2012) Mapping urban water demands using multi-criteria analysis and GIS. Water Resour Manag 26(5):1347–1363CrossRef
Pandey A, Chowdary VM, Mal BC (2007) Identification of critical erosion prone areas in the small agricultural watershed using USLE, GIS and remote sensing. Water Resour Manag 21(4):729–746
Pandey A, Chowdary VM, Mal BC (2008) Runoff and sediment yield modeling from a small agricultural watershed in India using the WEPP model. J Hydrol 348:305–319CrossRef
Pandey A, Chowdary VM, Mal BC, Bilib M (2009a) Application of WEPP model for prioritization and evaluation of best management practices in an Indian watershed. Hydrol Process 23:2997–3005CrossRef
Pandey A, Chowdary VM, Mal BC (2009b) Sediment yield modelling of an agricultural watershed using MUSLE, remote sensing and GIS. Paddy Water Environ 7:105–113CrossRef
Patel DP, Dholakia MB, 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):299–312CrossRef
Prasannakumar V, Vijith H, Geetha N, Shiny R (2011) Regional scale erosion assessment of a sub-tropical highland segment in the Western Ghats of Kerala, South India. Water Resour Manag 25(14):3715–3727CrossRef
Richardson MS, Gatti RC (1999) Prioritizing wetland restoration activity within a Wisconsin watershed using GIS modeling. J Soil Water Conserv 54(3):537–542
Roehl JE (1962) Sediment source areas, delivery ratios and influencing morphological factors. Int Assoc Sci Hydrol Publ 59:202–213
Saaty TL (1980) The analytic hierarchy process. Mc Graw Hill, New York
Saaty TL, Vargas LG (1991) Prediction, projection and forecasting. Kluwer Academic publishers, Dordrecht, 251 ppCrossRef
Sanches de Oliveira PT, Sobrinho TA, Rodrigues DBB, Panachuki E (2011) Erosion risk mapping applied to environmental zoning. Water Resour Manag 25(3):1021–1036CrossRef
Sarma S, Saikia T (2012) Prioritization of subwatersheds in Khanapara-Bornihat area of Assam-Meghalaya(India) based on land use and slope analaysis using remote sensing and GIS. J Indian Soc Remote Sens 40(3):435–446CrossRef
Sebastian M, Jayaraman V, Chandrasekhar MG (1995) Space technology applications for sustainable development of watersheds. Technical report ISRO-HQ-TR-104-95 pp85
Sener B, Suzen ML, Doyuran V (2006) Landfill site selection by using geographic information systems. Environ Geol 49:376–388CrossRef
Shinde V, Sharma A, Tiwari KN, Singh M (2011) Quantitative determination of soil erosion and prioritization of micro-watersheds using remote sensing and GIS. J Indian Soc Remote Sens 39(2):181–192CrossRef
Siddiqui M, Everett JM, Vieux BE (1996) Landfill siting using geographical information systems: a demonstration. J Environ Eng 122:515–523CrossRef
Sing RK, Panda RK, Satapathy KK, Ngachan SV (2012) Runoff and sediment yield modelling for a treated hilly watershed in eastern Himalaya using the water erosion prediction project model. Water Resour Manag 26(3):643–665CrossRef
Singh G, Babu R, Narain P, Bhusan LS, Abrol IP (1992) Soil erosion rates in India. J Soil Water Conserv 47(1):97–99
Snell EA (1984) A manual for regional targeting of agricultural soil erosion and sediment loading to streams. Working paper No. 36. Lands Directorate, Environment Conservation Service, Environment Conservation Service, Environment Canada, Ottawa, Ontario
Srdjevic B, Medeiros YDP (2008) Fuzzy AHP assessment of water management plans. Water Resour Manag 22(7):877–894CrossRef
Suresh M, Sudhakar S, Tiwari KN, Chowdary VM (2004) Prioritization of watersheds using morphometric parameters and assessment of surface water potential using remote sensing. J Indian Soc Remote Sens 32(3):249–259CrossRef
Tetzlaff B, Wendland F (2012) Modelling sediment input to surface waters for German States with MEPhos: methodology, sensitivity and uncertainty. Water Resour Manag 26(1):165–184CrossRef
Thirumalaivasan D, Karmegam M, Venugopal K (2003) AHP-DRASTIC: software for specific aquifer vulnerability assessment using DRASTIC model and GIS. Environ Model Softw 18:645–656CrossRef
Vargas LG (1990) An overview of the analytic hierarchy process and its applications. Eur J Oper Res 4891:2–8CrossRef
Wagner ED (2002) Public key infrastructure (PKI) and virtual private network (VPN) compared using a utility function and the analytic hierarchy process (AHP). M.Sc. Thesis. Virginia Polytechnique Institute and State University. 50 pp
Wang Y, Li Z, Tang Z, Zeng G (2011) A GIS-based spatial multi-criteria approach for flood risk assessment in the Dongting Lake Region, Hunan, Central China. Water Resour Manag 25(13):3465–3484CrossRef
Williams JR, Nicks AD, Arnold JG (1985) Simulator for water resources in rural basins. J Hydraul Eng 111(6):970–986CrossRef
Young RA, Onstad CA, Bosch DD, Anderson WP (1989) AGNPS: a nonpoint source pollution model for evaluating agricultural watersheds. J Soil Water Conserv 44(2):168–173
Metadata
Title
Multi-Criteria Decision Making Approach for Watershed Prioritization Using Analytic Hierarchy Process Technique and GIS
Authors
V. M. Chowdary
D. Chakraborthy
A. Jeyaram
Y. V. N. Krishna Murthy
J. R. Sharma
V. K. Dadhwal
Publication date
01-08-2013
Publisher
Springer Netherlands
Published in
Water Resources Management / Issue 10/2013
Print ISSN: 0920-4741
Electronic ISSN: 1573-1650
DOI
https://doi.org/10.1007/s11269-013-0364-6

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