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Environmental Earth Sciences
Erschienen in: Environmental Earth Sciences 9/2014

01.11.2014 | Original Article

Delineation of potential sites for groundwater recharge using a GIS-based decision support system

verfasst von: Shereif H. Mahmoud

Erschienen in: Environmental Earth Sciences | Ausgabe 9/2014

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Abstract

In arid and semi-arid regions without perennial water sources such as rivers or lakes, almost all water supply needs are met by groundwater. Groundwater recharge (GWR) is critical to maintain the abundance of groundwater. This paper presents a methodology based on a decision support system (DSS) that combines remote sensing, field survey and geographic information system techniques to identify suitable GWR areas. The DSS was implemented to obtain suitability maps and to evaluate the existing GWR in the study area. The DSS inputs comprised maps of rainfall surplus, slope, potential runoff coefficient, land cover/use and soil texture. The spatial extents of GWR suitability areas were identified by a hierarchical process analysis that considered five layers. The model generated a GWR map with four categories of suitability: excellent, good, moderate and poor and unsuitable. The spatial distribution of these categories showed that 0.08 and 32.3 % of the study area was classified as excellent and good for GWR, respectively, while 63.2 and 4.42 % of the area was classified as moderate and poor and unsuitable, respectively. Most of the areas with excellent to good suitability have slopes of between 4 and 8 % and are intensively cultivated areas. The major soil type in the excellent to good areas is loam, followed by clay loam, and the rainfall in these areas ranges from 150 to 260 mm. Another suitability model, in which all criteria were assigned equal influence, generated a suitability map in which 0.1 % of the study area was rated as excellent, 10.9 % as good, 82 % as moderate and 7 % as poor and unsuitable. The locations of existing GWR dams were compared with the locations indicated on the generated suitability map using the proximity analysis tool in ArcGIS 10.1. Most (77 %) of the existing GWR structures that were categorised as successful were within the excellent and good areas, followed by moderately suitable (23 %).
Vorheriger Artikel Metal contamination of surface sediments of the Sfax–Chebba coastal line, Tunisia
Nächster Artikel Relevance of building site categories implementation into the land use plan in underground mining area in the region of Petrvald (Czech Republic)

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Literatur
Al-Rashed MF, Sherif MM (2000) Water resources in the GCC countries: an overview. Water Resour Manage 14(1):59–75CrossRef
Anbazhagan S, Ramasamy SM, Das Gupta S (2005) Remote sensing and GIS for artificial recharge study, runoff estimation and planning in Ayyar basin, Tamil Nadu, India. Env Geol 48:158–170CrossRef
Asano T (ed) (1985) Artificial recharge of groundwater. Butterworth, Boston, p 767
Babcock HM, Cusing EM (1942) Recharge to groundwater from floods in a typical desert wash, Pinal County, Arizona. Trans Am Geophys Union 23:49–56CrossRef
Beeby-Thompson A (1950) Recharging London’s water basin. Timer Review Industry 4(46):20–25
Buchen S (1955) Artificial replenishment of aquifers. J Inst Water Eng 9:111–163
Chowdhury A, Jha MK, Chowdary VM, Mal BC (2009) Integrated 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(6):1209–1222CrossRef
Dabbagh AE, Abderrahman WA (1997) Management of groundwater resources under various irrigation water use scenarios in Saudi Arabia. Arab J Sci Eng 22(1 C):47–64
Dar IA, Sankar K, Dar MA (2011) Deciphering groundwater potential zones in hard rock terrain using geospatial technology. Environ Monit Assess 173(1–4):597–610CrossRef
De Winnaar G, Jewitt GPW, Horan M (2007) A GIS-based approach for identifying potential runoff harvesting sites in the Thukela River basin, South Africa. Phys Chem Earth Parts A/B/C 32(15):1058–1067CrossRef
Deepika B, Avinash K, Jayappa KS (2013) Integration of hydrological factors and demarcation of groundwater prospect zones: insights from remote sensing and GIS techniques. Environ Earth Sci 70(3):1319–1338CrossRef
El-Awar FA, Makke MK, Zurayk RA, Mohtar RH (2000) A hydro-spatial hierarchical method for siting water harvesting reservoirs in dry. Appl Eng Agric 16(4):395–404CrossRef
FAO (2003) Land and water digital media series, 26. Training course on RWH (CDROM). Planning of water harvesting schemes, Unit 22. Food and Agriculture Organization of the United Nations, Rome
Gandhi AO, Masoom SM (1990) A case history of artificial-recharge by trenching in nalla bed at Sawangi in district of Aurangabad, Maharashtra. In: Proceedings volume of the All India seminar on “Modern Techniques of rain water harvesting, water conservation and artificial recharge for drinking water, afforestation, horticulture and agriculture”, pp 887–894
Gandhidasan P, Abualhamayel HI (2012) Exploring fog water harvesting potential and quality in the Asir Region, Kingdom of Saudi Arabia. Pure Appl Geophys 169(5–6):1019–1036CrossRef
Garfì M, Tondelli S, Bonoli A (2009) Multi-criteria decision analysis for waste management in Saharawi refugee camps. Waste Manag 29(10):2729–2739CrossRef
Ghayoumian J, Ghermezcheshme B, Feiznia S, Noroozi AA (2005) Integrating GIS and DSS for identification of suitable areas for artificial recharge, case study, Meimeh Basin, Isfahan, Iran. Env Geol 47(4):493–500CrossRef
Huang CC, Yeh HF, Lin HI, Lee ST, Hsu KC, Lee CH (2013) Groundwater recharge and exploitative potential zone mapping using GIS and GOD techniques. Environ Earth Sci 68(1):267–280CrossRef
Jaiswal RK, Mukherjee S, Krishnamurthy J, Saxena R (2003) Role of remote sensing and GIS techniques for generation of groundwater prospect zones towards rural development: an approach. Int J Remote Sens 24(5):993–1008CrossRef
Janssen R, VanHerwijnen M (1994) Multiobjective decision support for environmental management. Kluwer Academic Publishers, Dordrecht, p 232
Kahinda JM, Lillie ESB, Taigbenu AE, Taute M, Boroto RJ (2008) Developing suitability maps for rainwater harvesting in South Africa. Phys Chem Earth Parts A/B/C 33(8):788–799CrossRef
Khouri J, Deroubi A (1990) Water resources in the Arab World. UNESCO/ACSAD, Damascus, p 166
Kumar PK, Gopinath G, Seralathan P (2007) Application of remote sensing and GIS for the demarcation of groundwater potential zones of a river basin in Kerala, southwest coast of India. Int J Remote Sens 28(24):5583–5601CrossRef
Kumar MG, Agarwal AK, Bali R (2008) Delineation of potential sites for water harvesting structures using remote sensing and GIS. J Indian Soc Remote Sens 36:323–334CrossRef
Malczewski J (2004) GIS-based land-use suitability analysis: a critical overview. Progress Plan 62(1):3–65CrossRef
Mkiramwinyi FO (2006) Identification of potential sites for rainwater harvesting using remote sensing and GIS in the Makanya catchment, Same district, northern Tanzania. MSc Thesis, Sokoine University of Agriculture, Morogoro, Tanzania
Murthy KSR (2000) Groundwater potential in a semi-arid region of Andhra Pradesh: a geographical information system approach. Int J Remote Sens 21(9):1867–1884CrossRef
Nag SK, Ghosh P (2012) Delineation of groundwater potential zone in Chhatna Block, Bankura District, West Bengal, India using remote sensing and GIS techniques. Environ Earth Sci 70(5):2115–2127CrossRef
Nilkalja MV, Masoom SM (1990) Artificial-recharge through underground Bandharas. In: Proceedings volume of the All India seminar on “Modern Techniques of rain water harvesting, water conservation and artificial recharge for drinking water, afforestation, horticulture and agriculture”, pp 535–541
Novaline JRM, Sundaram A, Natarajan T (1993) Watershed development using geographic information system techniques. Int J Remote Sens 14:3239–3247CrossRef
Pacey A, Cullis A (1986) Rainwater harvesting the collection of rainfall and run-off in rural areas. Intermediate Technology Publications, London
Padmavathy AS, Ganesha RK, Yogarajan N, Thangavel P (1993) Check dam site selection using GIS approach. Adv Space Res 13(11):123–127CrossRef
Radulovic M, Stevanovic Z, Radulovic M (2012) A new approach in assessing recharge of highly karstified terrains–Montenegro case studies. Environ Earth Sci 65(8):2221–2230CrossRef
Rahman MA, Rusteberg B, Gogu RC, Lobo Ferreira JP, Sauter M (2012) A new spatial multi-criteria decision support tool for site selection for implementation of managed aquifer recharge. J Environ Manage 99:61–75CrossRef
Ramakrishnan D, Bandyopadhyay A, Kusuma KN (2009) SCS-CN and GIS-based approach for identifying potential water harvesting sites in the Kali Watershed, Mahi River Basin, India. J Earth Syst Sci 118(4):355–368CrossRef
Ravi Shankar MN, Mohan G (2005) A GIS based hydrogeomorphic approach for identification of site-specific artificial-recharge techniques in the Deccan Volcanic Province. J Earth Syst Sci 114(5):505–514CrossRef
Saaty TL (1977) A scaling method for priorities in hierarchical structures. J Math Psychol 15:57–68CrossRef
Saaty TL (1980) The analytic hierarchy process. McGraw-Hill, New York, USA
Saaty TL (1990) How to make a decision: the analytic hierarchy process. Eur J Oper Res 48:9–26CrossRef
Saaty TL (1994) Fundamentals of decision-making and priority theory with the analytic hierarchy process. RWS Publications, Pittsburgh
Saaty TL (2008) Decision making with the analytic hierarchy process. Int J Serv Sci 1(1):83–98
Saraf AK, Choudhury PR (1998) Integrated remote sensing and GIS for groundwater exploration and identification of artificial recharge sites. Int J Remote Sens 19(10):1825–1841CrossRef
Sargaonkar AP, Rathi B, Baile A (2011) Identifying potential sites for artificial groundwater recharge in sub-watershed of River Kanhan, India. Environ Earth Sci 62(5):1099–1108CrossRef
Saud AG, Mohamed FS, Asif UZ (2013) Saudi Arabia confronts with water scarcity: an insight. Int J Water Resour Arid Environ 2(4):218–225
Sener E, Davraz A, Ozcelik M (2005) An integration of GIS and remote sensing in groundwater investigations: a case study in Burdur, Turkey. Hydrol J 13:826–834
Siebert S, Burke J, Faures JM, Frenken K, Hoogeveen J, Döll P, Portmann FT (2010) Groundwater use for irrigation––a global inventory. Hydrol Earth Syst Sci Dis 7(3):3977–4021CrossRef
Soares PV, Pereira SY, Simoes SJC, de Bernardes Paula G, Barbosa SA, Trannin ICB (2012) The definition of potential infiltration areas in Guaratinguetá watershed, Paraíba do Sul Basin, southeastern Brazil: an integrated approach using physical and land-use elements. Environ Earth Sci 67(6):1685–1694CrossRef
Todd DK (1959) Annotated bibliography on artificial recharge of groundwater through 1954. USGS Water Supply Paper 1477:115
Vahidnia MH, Alesheikh A, Alimohammadi A, Bassiri A (2008) Fuzzy analytical hierarchy process in GIS application. The International Archives of the Photogrammetry. Remote Sens Spatial Inf Sci 37(B2):593–596
Metadaten
Titel
Delineation of potential sites for groundwater recharge using a GIS-based decision support system
verfasst von
Shereif H. Mahmoud
Publikationsdatum
01.11.2014
Verlag
Springer Berlin Heidelberg
Erschienen in
Environmental Earth Sciences / Ausgabe 9/2014
Print ISSN: 1866-6280
Elektronische ISSN: 1866-6299
DOI
https://doi.org/10.1007/s12665-014-3249-y

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