nach oben

Environmental Earth Sciences

Erschienen in:

01.09.2015 | Original Article

Evaluation of multiple environmental factors for site-specific groundwater recharge structures in the Vaigai River upper basin, Tamil Nadu, India, using GIS-based weighted overlay analysis

verfasst von: S. Kaliraj, N. Chandrasekar, N. S. Magesh

Erschienen in: Environmental Earth Sciences | Ausgabe 5/2015

Einloggen

Aktivieren Sie unsere intelligente Suche, um passende Fachinhalte oder Patente zu finden.

search-config

KI-gestützte Suche

Aus

Abstract

The present study investigates the groundwater recharge potential zone and suitable sites for artificial recharge structures in the River Vaigai upper basin, Theni district, Tamil Nadu, using GIS-based multi-parameter weighted overlay method. The study area experiences severe groundwater scarcity despite having high rainfall and runoff. Therefore, an integrated remote sensing and GIS technique is used to assess the permeability and infiltration characteristics of the area and demarcate the recharge potential zones. The recharge potential zones and site-specific artificial recharge structures have been demarcated based on the weights of multiple parameters based on their permeability and infiltration capacity to groundwater recharge. The groundwater recharge potential map shows the twenty suitable sites for artificial recharge structures such as percolation ponds, loose rock check dams, and water absorption trench (WAT) in various parts of the study area. The effective recharge practices such as percolation ponds and check dams are highly suitable for gentle-sloped barren and agricultural plains in the northwestern and northeastern parts. Whereas, the barren valley fill, bajada and streams intersecting lineaments along the middle-eastern and central part are suitable for constructing WAT and check dams. These water-harvesting features can improve the groundwater scenario of the study area and groundwater augmentation is possible in future with the help of advanced techniques like remote sensing and GIS.

Vorheriger Artikel Modeling changes in hydraulic conductivity due to siltation using soil columns from Alshuwaib dam site, United Arab Emirates

Nächster Artikel Chemical composition of bottom sediments within black hills region reservoirs of South Dakota and Wyoming

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Abu-Taleb MF (2003) Recharge of groundwater through multi-stage reservoirs in a desert basin. Environ Geol 44:379–390CrossRef

Agarwal R, Garg PK, Garg RD (2013) Remote sensing and GIS based approach for identification of artificial recharge sites. Water Resour Manage 27:2671–2689CrossRef

Ali S, Singh R (2002) Morphological and hydrological investigation in Hirakud catchment for watershed management planning. J Soil water Cons 1(4):246–256

Al-Qudah K, Abu-Jaber N (2009) A GIS database for sustainable management of shallow water resources in the Tulul al Ashaqif Region, NE Jordan. Water Resour Manage 23:603–615CrossRef

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. Environ Geol 48:158–170CrossRef

Aronoff S (1991) Geographic information systems: a management perspective. Wdl Pubns Publications, Ottawa, pp 60–80

Avtar R, Singh CK, Shashtri S, Singh A, Mukherjee S (2010) Identification and analysis of groundwater potential zones in Ken-Betwa river linking area using remote sensing and geographic information system. Geocarto Int 25:379–396CrossRef

Baker ME, Wiley MJ, Seelbach PW (2001) GIS-based hydrologic modeling of riparian areas: implications for stream water quality. J Am Water Resour Assoc 37(6):1615–1628CrossRef

Bastiaansen W, Menenti R, Feddes R, Holtslag A (1998) A remote sensing surface energy balance algorithm for lands (SEBAL). J Hydrol 212:198–229CrossRef

Benedikt J, Reinberg S, Riedl L (2002) A GIS application to enhance cell-based information modeling. Inf Sci 142(1–4):151–160CrossRef

Besbes M, Delhome JP, Marsily G (1978) Estimating recharge from ephemeral streams in arid regions: a case study at Kairouan, Tunisia. Water Resour Res 14:281–290CrossRef

Bouwer H (2002) Artificial recharge of groundwater: hydrogeology and engineering. Hydrogeol J 10:121–142CrossRef

Buchen S (1955) Artificial replenishment of aquifers. J Inst Water Eng 9:111–163

Burrough PA (1986) Principles of geographical information systems for land resources assessment. Oxford University Press, New York, pp 50–60

Carver SJ (1991) Integrating multi-criteria evaluation with geographical information systems. Int J Geogr Inf Syst 5(3):321–339CrossRef

Central Ground Water Board (2007) Manual on Artificial Recharge of Ground Water. CGWB technical report, New Delhi. Accessed 20 Jan 2014. http://www.cgwb.gov.in/documents/Manual20on20Artificial20Recharge20of20Ground20Water.pdf

Chenini I, Mammou AB, May ME (2010) Groundwater recharge zone mapping using GIS based multi-criteria analysis: a case study in Central Tunisia (Maknassy Basin). Water Resour Manag 24:921–939CrossRef

Chowdary VM, Ramakrishnan D, Srivastava YK, 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 23:1581–1602CrossRef

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

Clarke KC (2003) Getting Started with Geographic Information Systems, 4th edn. Prentice Hall publications, Upper Saddle River, pp 320–330

Eastman RJ, Jin W, Kyem PA, Toledano J (1995) Raster procedure for multi-criteria/multi-objective decisions. Photogramm Eng Remote Sens 61:539–547

El-Kadi AI, Oloufa AA, Eltahan AA, Malik HU (1994) Use of a geographic information system in site-specific ground-water modeling. Ground Water 32(4):617–625CrossRef

ESRI (2008) Weighted Overlay. ArcGIS 9.2 Desktop Help. Accessed 21 Feb 2014. http://webhelp.esri.com/arcgisdesktop/9.2/index.cfm?TopicName=weighted_overlay

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. Environ Geol 47(4):493–500CrossRef

Ghayoumian J, Mohseni Saravi M, Feiznia S, Nouri B, Malekian A (2007) Application of GIS techniques to determine areas most suitable for artificial groundwater recharge in a coastal aquifer in southern Iran. J Asian Earth Sci 30:364–374CrossRef

Henry NNB, James WM, David BM, John CH, Aris AH (2007) A GIS-based approach to watershed classification for Nebraska reservoirs. J Am Water Resour Assoc 43(3):605–621CrossRef

Herrmann F, Jahnke C, Jenn F, Kunkel R, Voigt HJ, Voigt J, Wendland F (2009) Groundwater recharge rates for regional groundwater modelling: a case study using GROWA in the Lower Rhine lignite mining area, Germany. Hydrogeol J 17:2049–2060CrossRef

Huang Y, Fipps G, Ronald EL, Steven JT (2011) Landsat Satellite Multi-Spectral Image Classification of Land Cover and Land Use Changes for GIS-Based Urbanization Analysis in Irrigation Districts of Lower Rio Grande Valley of Texas. Appl Remote Sens J 2(1):27–36

Jankowski P (1995) Integrating geographic information systems and multiple criteria decision making methods. Int J Geogr Inf Syst 9(3):251–273CrossRef

Jasrotia AS, Majhi A, Singh S (2009) Water balance approach for rainwater harvesting using remote sensing and GIS techniques, Jammu Himalaya, India. Water Resour Manage 23:3035–3055CrossRef

Jha MK, Chowdhury A, Chowdary VM, Peifer S (2007) Groundwater management and development by integrated remote sensing and geographic information systems: prospects and constraints. Water Resour Manage 21(2):427–467CrossRef

Jinno K, Tsutsumi A, Alkaeed O, Saita S, Berndtsson R (2009) Effects of land-use change on groundwater recharge model parameters. Hydrol Sci J 54(2):300–315CrossRef

Kalantari N, Rangzan K, Thigale S, Rahimi M (2010) Site selection and cost-benefit analysis for artificial recharge in the Baghmalek plain, Khuzestan Province, southwest Iran. Hydrogeol J 18(3):761–773CrossRef

Kaliraj S, Chandrasekar N (2012) Spectral Recognition Techniques and MLC of IRS P6 LISS III image for Coastal Landforms Extraction along South West Coast of Tamilnadu, India. Bonfring Int J Adv Image Process 2(3):1–7CrossRef

Kaliraj S, Muthu Meenakshi S, Malar VK (2012) Application of remote sensing in detection of forest cover changes using geo-statistical change detection matrices: a case Study of Devanampatti Reserve Forest, Tamilnadu, India. Nat Environ Pollut Technol 11(2):261–269

Kaliraj S, Chandrasekar N, Magesh NS (2014) Identification of potential groundwater recharge zones in Vaigai upper basin, Tamil Nadu, using GIS-based analytical hierarchical process (AHP) technique. Arab J Geosci 7:1385–1401CrossRef

Kamaraju MVV, Bhattacharya A, Reddy GS, Rao GC, Murthy GS, Rao TCM (1995) Groundwater potential evaluation of West Godavari District, Andhra Pradesh State, India—A GIS approach. Ground Water 34(2):318–325CrossRef

Koussis AD, Georgopoulou E, Kotronarou A, Lalas DP, Restrepo P, Destouni G, Prieto C, Rodriguez JJ, Rodriguez-Mirasol J, Cordero T, Gomez-Gotor A (2010) Cost-efficient management of coastal aquifers via recharge with treated wastewater and desalination of brackish groundwater: general framework. Hydrol Sci J 55(7):1217–1233CrossRef

Krishnamurthy J, Srinivas G (1995) Role of geological and geomorphological factors in groundwater exploration: a study using IRS LISS data. Int J Remote Sens 16(4):2595–2618CrossRef

Krishnamurthy J, Kumar NV, Jayaraman V, Manivel M (1996) An approach to demarcate groundwater potential zones through remote sensing and a geographic information system. Int J Remote Sens 17(10):1867–1884CrossRef

Krishnamurthy J, Mani A, Jayaraman V, Manivel M (2000) Groundwater resources development in hard rock terrain—an approach using remote sensing and GIS techniques. Int J Appl Earth Obs Geoinf 2(3/4):204–215CrossRef

Lillesand TM, Kiefer RW (2000) Remote sensing and image interpretation, 4th edn. Wiley, New York, pp 724–730

Lo CP, Yeung AKW (2003) Concepts and techniques of geographic information systems. Prentice-Hall of India Pvt. Ltd, New Delhi, pp 492–502

Ma L, Spalding RF (1997) Effects of artificial recharge on ground water quality and aquifer storage recovery. J Am Water Resour Assoc 33(3):561–572CrossRef

Malczewski J (2004) GIS-based land-use suitability analysis: a critical overview. Prog Plan 62:3–65CrossRef

Malczewski J (2006) GIS-based multicriteria decision analysis: a survey of the literature. Int J Geograph Inf Sci 20:703–726CrossRef

Mandal NC, Singh VS (2004) A new approach to delineate the groundwater recharge in hard rock terrain. Curr Sci 87(5):658–662

Martin PH, LeBoeuf EJ, Dobbins JP, Daniel EB, Abkowitz MD (2005) Interfacing GIS with water resource models: a state-of-the-art review. J Am Water Resour Assoc 41(6):1471–1487CrossRef

Nag SK (2005) Application of lineament density and hydrogeomorphology to delineate groundwater potential zones of Baghmundi block in Prulia district, West Bengal. J Indian Soc Remote sens 33:521–529CrossRef

Omorinbola EO (1986) Empirical equations of groundwater recharge patterns. Hydrol Sci J 31(1):1–11CrossRef

Pakhmode V, Kulkarni H, Deolankar SB (2003) Hydrological-drainage analysis in watershed-programme planning: a case from the Deccan basalt, India. Hydrogeol J 11(5):595–604CrossRef

Panigrahi B, Nayak AK, Sharma SD (1995) Application of remote sensing technology for groundwater potential evaluation. Water Resour Manag 9:161–173CrossRef

Patil JP, Sarangi A, Singh OP, Singh AK, Ahmad T (2008) Development of a GIS interface for estimation of runoff from watersheds. Water Resour Manag 22:1221–1239CrossRef

Pothiraj P, Rajagopalan B (2012) A GIS and remote sensing based evaluation of groundwater potential zones in a hard-rock terrain of Vaigai sub-basin. Arab J Geosci, India. doi:10.1007/s12517-011-0512-3

Preeja KR, Joseph S, Thomas J, Vijith H (2011) Identification of groundwater potential zones of a tropical river basin (Kerala, India) using remote sensing and GIS techniques. J Indian Soc Remote Sens 39:83–94CrossRef

Queiruga D, Walther G, Gonza’lez-Benito J, Spengler T (2008) Evaluation of sites for the location of WEEE recycling plants in Spain. Waste Manag 28(1):181–190CrossRef

Raju KCB (1998) Importance of recharging depleted aquifers: state-of-the-art artificial-recharge in India. J Geol Soc India 51:429–454

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

Ramasamy SM, Anbazhagan S (1997) Criteria and techniques of detecting site-specific mechanisms for artificial recharge: a case study from Ayyar basin, India. J Geol Soc India 50:449–456

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

Ravindran KV, Jeyaram A (1997) Groundwater prospects of Shahbad tehsil, Baran district, Eastern Rajasthan: a remote sensing approach. J Indian Soc Remote Sens 25:239–246CrossRef

Riad PHS, Billib Max, Hassan AA, Salam MA, El Din MN (2011) Application of the Overlay Weighted Model and Boolean Logic to determine the best locations for artificial recharge of groundwater. J Urban Environ Eng 5(2):57–66CrossRef

Rokade VM, Kundal P, Joshi AK (2004) Water resources Development Action plan for Sasti Watershed, Chadrapur District, Maharashtra using Remote sensing and Geographic Information System. J Indian Soc Remote Sens 32(4):359–368CrossRef

Rowshon MK, Amin MSM, Lee TS, Shariff ARM (2009) GIS integrated rice irrigation management information system for a river-fed scheme. Water Resour Manag 23:1621–1640CrossRef

Salama RB, Tapley I, Ishii T, Hawkes G (1994) Identification of areas of recharge and discharge using Landsat-TM satellite imagery and aerial photography mapping techniques. J Hydrol 162(1–2):119–141CrossRef

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

Saxena RK, Verma KS, Chary GR, Srivastava R, Barthwal AK (2000) IRS-1C data application in watershed characterization and management. Int J Remote Sens 21(17):3197–3208CrossRef

Sener E, Davraz A, Ozcelik M (2005) An integration of GIS and remote sensing in groundwater investigations: a case study in Burdur, Turkey. Hydrogeol J 13:826–834CrossRef

Shahid S, Nath SK, Roy J (2000) Groundwater potential modeling in a soft rock area using a GIS. Int J Remote Sens 21(9):1919–1924CrossRef

Sharma SK (2010) Remote sensing techniques to locate areas suitable for artificial recharge of Groundwater. National Workshop on Artificial Recharge of Groundwater in granitic terrain, 12–14 March 2010, Bangalore, pp 1825–1841

Singh RK, Prasad VH, Bhat CM (2004) Remote sensing and GIS approach for assessment of the water balance of a watershed. Hydrol Sci J 49(1):131–141CrossRef

Singh JP, Singh D, Litoria PK (2009) Selection of suitable sites for water harvesting structures in Soankhad watershed, Punjab using remote sensing and geographical information system (RS & GIS) approach: a case study. J Indian Soc Remote Sens 37:21–35CrossRef

Singh P, Thakur JK, Kumar S (2013) Delineating groundwater potential zones in a hard-rock terrain using geospatial tools. Hydrol Sci J 58(1):213–223CrossRef

Sinha BK, Kumar A, Srivastava D, Srivastava S (1990) Integrated approach for demarcating the fracture zone for well site selection. A case study near Gumla and Lohardaga, Bihar. J Indian Soc Remote Sens 18:1–8CrossRef

Solomon S, Quiel F (2006) Groundwater study using remote sensing and geographic information system (GIS) in the central highlands of Eritrea. Hydrogeol J 14(5):729–741CrossRef

Sreedevi PD, Srinivasulu S, Raju KK (2001) Hydrogeomorphological and groundwater prospects of the Pageru river basin by using remote sensing data. Environ Geol 40:1088–1094CrossRef

Srinivasa Rao Y, Jugran DK (2003) Delineation of groundwater potential zones and zones of groundwater quality suitable for domestic purposes using remote sensing and GIS. Hydrol Sci J 48(5):821–833CrossRef

Stone DB, Moomaw CL, Davis A (2001) Estimating recharge distribution by incorporating runoff from mountainous areas in an alluvial basin in the Great Basin region of the southwestern United States. Ground Water 39(6):807–818CrossRef

Strahler AN (1964) Quantitative geomorphology of drainage basin and channel networks. In: Chow VT (ed) Handbook of applied hydrology. McGraw hill book Company, Newyork, pp 4–11

Szilagyi J, Harvey FE, Ayers JF (2003) Regional estimation of base recharge to ground water using water balance and a base-flow index. Ground Water 41(4):504–513CrossRef

Tabesh M, Asadiyani Yekta AH, Burrows R (2009) An integrated model to evaluate losses in water distribution systems. Water Resour Manag 23:477–492CrossRef

Teeuw RM (1999) Groundwater exploration using remote sensing and a low cast geographical information system. Hydrogeol J 3(3):21–30CrossRef

Todd DK (1959) Annotated bibliography on artificial recharge of groundwater through 1954. USGS Water Supply Paper, pp 1477–1520

Varma HN, Tiwari KN (1995) Current status and prospectus of rainwater harvesting, Indian National Committee on Hydrology (INCOH). National Institute of Hydrology, Roorkee, India, (Scientific contribution No. INCOH/SAR-95/3)

Yanar TA, Akyürek Z (2006) The enhancement of the cell-based GIS analyses with fuzzy processing capabilities. Inf Sci 176(8):1067–1085CrossRef

Titel: Evaluation of multiple environmental factors for site-specific groundwater recharge structures in the Vaigai River upper basin, Tamil Nadu, India, using GIS-based weighted overlay analysis
verfasst von: S. Kaliraj
N. Chandrasekar
N. S. Magesh
Publikationsdatum: 01.09.2015
Verlag: Springer Berlin Heidelberg
Erschienen in: Environmental Earth Sciences / Ausgabe 5/2015
Print ISSN: 1866-6280
Elektronische ISSN: 1866-6299
DOI: https://doi.org/10.1007/s12665-015-4384-9

Springer Professional

Abstract

Bitte loggen Sie sich ein, um Zugang zu Ihrer Lizenz zu erhalten.

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Weitere Artikel der Ausgabe 5/2015

Distribution of river-borne particulate Pb in the Basque continental shelf (Bay of Biscay)

Evaluation of inhalation exposure contributed by backfill mill tailings in underground uranium mine

Evidence of groundwater degassing in a deep confined aquifer: noble gas concentrations with hydrogen, oxygen and carbon isotope data

Methodological approach for the analysis of groundwater quality in the framework of the Groundwater Directive

Assessment of slope stability and monitoring of a landslide in the Koyulhisar settlement area (Sivas, Turkey)

Landslide-risk zonation along mountainous highway considering rock mass classification