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Sustainable Water Resources Management
Erschienen in: Sustainable Water Resources Management 4/2019

23.07.2019 | Original Article

An integrated approach for identification of waterlogged areas using RS and GIS technique and groundwater modelling

verfasst von: Suvrat Kaushik, Pankaj R. Dhote, Praveen K. Thakur, Bhaskar R. Nikam, Shiv Prasad Aggarwal

Erschienen in: Sustainable Water Resources Management | Ausgabe 4/2019

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Abstract

An integrated approach using remote sensing (RS) and geographical information system (GIS) and groundwater modelling (GM) has been used for waterlogged areas identification in the Rohtak district of Haryana State, India. Surface waterlogged areas were delineated using optical remote sensing satellite data-based normalized difference water index (NDWI) technique. Sentinel 2 MSS (optical data) images pertaining to pre-monsoon and post-monsoon seasons were acquired and processed to extract water pixels. To overcome the limitation of false positives and cloud penetration associated with optical images, water pixels were also extracted using synthetic aperture radar (SAR) images of Sentinel 1A. Thresholding of NDWI for optical images and sigma naught for SAR images was done using the respective histograms to distinguish water and terrestrial features. Surface waterlogged areas were delineated from the generated combined water body raster based on the visual interpretation technique in a GIS environment. Sub-surface waterlogging conditions were simulated for the same year using process-based groundwater model MODFLOW. A conceptual model was created to simulate groundwater system based on flow processes, hydrogeological characteristics, aquifer hydraulic properties, source and sinks and boundary conditions. Sub-surface waterlogged areas were delineated based on depth to water table classification criteria. It was found that surface waterlogged area varies from 0.55 to 1.0% of the district area from pre-monsoon to post-monsoon season, while the percentage of sub-surface waterlogged areas was higher, varying from 9.1 to 21.6%, respectively. Statistics also shows that most of the surface waterlogged areas do not fall under the areas plagued by sub-surface waterlogging.
Vorheriger Artikel Drinking water quality and health risk analysis in the mining impact zone, Armenia
Nächster Artikel Future water demand modeling using water evaluation and planning: a case study of the Indus Basin in Pakistan

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Literatur
Agriculture Statistics Report (2010) Department of Agricultural Statistical Information. Ministry of agriculture and farmers welfare, Rohtak
ArcGIS 10.1. (2013) Introduction to GIS using ArcGIS Desktop 10.1
Bauer P, Gumbricht T, Kinzelbach W (2006) A regional coupled surface water/groundwater model of the Okavango Delta, Botswana. Water Resour Res 42(4):W04403
Bear J, Cheng AHD (2010) Modelling groundwater flow and contaminant transport. Springer, Dordrecht
Bhatnagar NC, Agashe RM, Mishra AK (1982a) Subsurface mapping of aquifer systems. In: Water balance studies in Upper Yamuna Basin, Tech. Report No.2. Section: Hydrogeology, Central Ground Water Board, Upper Yamuna Project, Chandigarh
Bhatnagar NC, Agashe RM, Mishra AK (1982b) Geotechnical prospecting for fresh & saline water interface, water balance studies in Upper Yamuna Basin, Tech. Report No.4. Section: Hydrogeology, Central Ground Water Board, Upper Yamuna Project, Chandigarh
Campos CJ, Sillero N, Brito CJ (2012) Normalized difference water indexes have dissimilar performances in detecting seasonal and permanent water in the Sahara-Sahel transition zone. J Hydrol 464–465:438–446
Cao GL, Zheng CM, Scanlon BR et al (2013) Use of flow modelling to assess sustainability of groundwater resources in the North China plain. Water Resour Res 49:159–175
Central Ground Water Board (1984) Ground water studies in Upper Yamuna Basin, Project Findings and Recommendations, Technical Series-P Bull. No. 4, Faridabad
Central Ground Water Board (CGWB) (2007) Information booklet. Ministry of Water Resources, Rohtak District
Central Ground Water Board (CGWB) (2013) Information booklet. Ministry of Water Resources, Rohtak District
Central Ground Water Board (CGWB) (2016) Groundwater year book of Haryana State. Ministry of Water Resources, North Western Region, Chandigarh
Chatterjee C, Kumar R, Chakravorty B et al (2005) Integrating remote sensing and GIS techniques with groundwater flow modelling for assessment of waterlogged areas. Water Resour Manag 19(5):539–554
Choubey VK (1997) Detection and delineation of waterlogging by remote sensing techniques. J Indian Soc Remote Sens 25(2):123–135
Conesa F, Núria D, Andrea B, Marco M et al (2014) Use of satellite SAR for understanding long-term human occupation dynamics in the monsoonal semi-arid plains of North Gujarat, India. Remote Sens 6:11420–11443
Dawoud MA, Allam AR (2004) Effect of new Nag Hammadi Barrage on groundwater and drainage conditions and suggestion of mitigation measures. Water Resour Manag 18(4):321–337
De Vries JJ, Simmers I (2002) Groundwater recharge: an overview of processes and challenges. Hydrol J 10:8–15
Dhote P, Jose MK (2014) Modelling of an artificial recharge system in a semi-arid region using MODFLOW. In: International symposium on integrated water resources management, Feb 19–21, pp 17–25
Doorenbos J, Kassam AH (1979) Yield response to water. Food and Agriculture Organization (FAO) Irrigation and Drainage Paper No. 33. Food and Agriculture Organization, United Nations
Dowlatabadi S, Zomorodian SMA (2015) Conjunctive simulation of surface water and groundwater using SWAT and MODFLOW in Firuzabad watershed. KSCE J Civil Eng 20(1):485–496
Dwivedi RS, Ramana KV, Thammappa SS et al (2001) The utility of IRS-1C and LISS-III and PAN-Merged data for mapping salt-affected soils. Photogramm Eng Remote Sens 67(10):1167–1175
El Alfy M (2014) Numerical groundwater modelling as an effective tool for management of water resources in arid areas. Hydrol Sci J 59(6):1259–1274
ERDAS Inc (1997) ERDAS imagine tour guides. ERDAS Inc., Atlanta
Foley JA, Defries R, Asner GP et al (2005) Global consequences of land use. Science 309:570–574
Groundwater Resources Estimation Committee (GEC) (1997) Central Ground Water Board. Report of the Ministry of Water Resources, India
Harbaugh AW, McDonald MG (1996) Programmer’s documentation for MODFLOW-96, an update to the U.S. Geological Survey modular finite-difference ground-water flow model. U.S. Geological Survey Open-File Report 96–486:220
Hargreaves GH, Samani ZA (1985) Reference crop evapotranspiration from temperature. Appl Eng Agric 1(2):96–99
Heuperman AF, Kapoor AS, Denecke HW (2002) Biodrainage—principles, experiences and applications, knowledge synthesis Report No 6
Horritt M, Mason D, Luckman A (2001) Flood boundary delineation from synthetic aperture radar imagery using a statistical active contour model. Int J Remote Sens 22(13):2489–2507
Jha MK, Sahoo S (2015) Efficacy of neural network and genetic algorithm techniques in simulating spatio-temporal fluctuations of groundwater. Hydrol Process 29(5):671–691
Jose MK, Dhote P, Mohan TC et al (2014) Impact of sand mining on river-aquifer interactions. Hydro International, Dec 18–20: 292–297
Ji L, Zhang L, Wylie B (2009) Analysis of dynamic thresholds for the Normalized Difference Water Index. Photogramm Eng Remote Sens 75:1307–1317
Lathashri UA, Mahesha A (2015) Predictive simulation of seawater intrusion in a tropical, coastal aquifer. J Environ Eng 142(12):D4015001
Lacaux JP, Tourre YM, Vignolles C et al (2007) Classification of ponds from high-spatial resolution remote sensing: application to Rift Valley Fever epidemics in Senegal. Remote Sens Environ 106:66–74
Leblanc M, Favreau G, Tweed S, Leduc C, Razack M, Mofor L (2007) Remote sensing for groundwater modeling in large semiarid areas: Lake Chad Basin, Africa. Hydrogeol J 15:97–100
Leblanc M, Lemoalle J, Bader JC et al (2011) Thermal remote sensing of water under flooded vegetation: new observations of inundation patterns for the ‘Small’ Lake Chad. J Hydrol 404:87–98
Lohani AK, Jaiswal RK, Jha R (1999) Waterlogged area mapping of Mokama group of Tals using remote sensing and GIS. J Inst Eng 80(1):133–137
Mahesha A, Lakshmikant (2014) Saltwater intrusion in coastal aquifers subjected to freshwater pumping. J Hydrol Eng 19(2):448–456
Maanjhu SK, Kumar KJA (2012) Groundwater simulation studies of parts of western Yamuna canal command area, Haryana for planning sustainable development. J Geol Soc India 80:539–545
Martinis S, Christoph Rieke C (2015) Backscatter analysis using multi-temporal and multi-frequency SAR data in the context of flood mapping at River Saale, Germany. Remote Sens 7:7732–7752
McDonald MG, Harbaugh AW (1988) A modular three-dimensional finite-difference groundwater flow model, Techniques of Water Resources Investigations of the United States Geological Survey, USGS
McFeeters SK (1996) The use of normalised difference water index (NDWI) in the delineation of open water features. Int J Remote Sens 17(7):1425–1432
Mohanty S, Jha MK, Kumar A et al (2013) Comparative evaluation of numerical model and artificial neural network for simulating groundwater flow in Kathajodi-Surua inter-basin of Odisha, India. J Hydrol 495:38–51
Moore GA, McFarlane DJ (1998) Water logging soil guide—a handbook for understanding and managing agricultural soils. Western Australian Department of Agriculture, South Perth, pp 94–108
MOWR (Ministry of Water Resources) (1991) Waterlogging, soil salinity and alkalinity, report of the working group on problem identification in irrigated areas with suggested remedial measures. Government of India, New Delhi
Narayan LRA, Rao DP, Gautam NC (1989) Wasteland identification in India using satellite remote sensing. Int J Remote Sens 10(1):93–106
NRSC (2014) Salt affected and waterlogged areas of India-Technical report. Government of India, Hyderabad
Panchagnula MLP, Bhatt CM, Rao GS et al (2012) Optimization of threshold ranges for rapid flood inundation mapping by evaluating backscatter profiles of high incidence ANGLE SAR images. Int J Disaster Risk Sci 3(2):113–122
Paudyal K, Jhorar RK, Kumar KEM (2016) An approach for mapping and management strategies of waterlogged areas using geo-spatial technique. Int J Intell Electron Syst 10:11–22
Periasamy S, Shanmugam RS (2017) Multispectral and microwave remote sensing models to survey soil moisture and salinity. Land Degrad Dev 28:1412–1425
Rasul G, Thapa GB (2004) Sustainability of ecological and conventional agricultural systems in Bangladesh: an assessment based on environmental, economic and social perspectives. Agric Syst 79:327–351
Ray SS, Dadhwal VK, Navalgund RR (2002) Performance evaluation of an irrigation command area using remote sensing: a case study of Mahi command, Gujarat, India. Agric Water Manag 56:81–91
Rokni K, Anuar A, Ali S et al (2014) Water feature extraction and change detection using multitemporal Landsat imagery. Remote Sens 6(5):4173–4189
Rushton KR (2003) Groundwater hydrology: conceptual and computational models. Wiley, Chichester
Sahu (2014) Identification and mapping of the waterlogged areas in Purba Medinipur part of Keleghai river basin, India: RS and GIS method. Int J Adv Geosci 2(2):59–65
Sar N, Soumendu C, Adhikari MD (2015) Integrated remote sensing and GIS based spatial modelling through analytical hierarchy process (AHP) for water logging hazard, vulnerability and risk assessment in Keleghai river basin. India. Earth Syst Environ 1(4):31
Singh A (2011) Estimating long-term regional groundwater recharge for the evaluation of potential solution alternatives to waterlogging and salinization. J Hydrol 406:245–255
Singh A, Nath Panda S, Flugel WA et al (2012) Waterlogging and farmland salinisation: causes and remedial measures in an irrigated semi-arid region of India. J Irrig Drain Eng 61:357–365
Singh RP, Srivastav SK (1990) Mapping of waterlogged and salt-affected soils using micro wave radiometers. Int J Remote Sens 11(10):1879–1887
Sherif M, Kacimov A, Javadi A et al (2011) Modelling groundwater flow and seawater intrusion in the coastal aquifer of Wadi Ham, UAE. Water Resour Manag 26:751–774
Twarakavi NKC, Simunek J, Seo S (2008) Evaluating interactions between groundwater and vadose zone using the HYDRUS-based flow package for MODFLOW. Vadose Zone J 7:757–768
Willis R, Yeh WWG (1987) Groundwater systems planning and management. Prentice-Hall, Englewood Cliffs
Xu X, Huang G, Qu Z et al (2011) Using MODFLOW and GIS to assess changes in groundwater dynamics in response to water saving measures in irrigation districts of the upper Yellow River basin. Water Resour Manag 25(8):2035–2059
Zarco-Tejada P, Rueda C, Ustin S (2003) Water content estimation in vegetation with MODIS reflectance data and model inversion methods. Remote Sens Environ 85:109–124
Zume J, Tarhule A (2008) Simulating the impacts of groundwater pumping on stream–aquifer dynamics in semi-arid north-western Oklahoma, USA. Hydrogeol J 16:797–810
http://rohtak.nic.in/introduction.html
Sushil Manav ‘Nine districts hit by soil salinity, waterlogging’, The Tribune News Service, Jan 15, 2016
Metadaten
Titel
An integrated approach for identification of waterlogged areas using RS and GIS technique and groundwater modelling
verfasst von
Suvrat Kaushik
Pankaj R. Dhote
Praveen K. Thakur
Bhaskar R. Nikam
Shiv Prasad Aggarwal
Publikationsdatum
23.07.2019
Verlag
Springer International Publishing
Erschienen in
Sustainable Water Resources Management / Ausgabe 4/2019
Print ISSN: 2363-5037
Elektronische ISSN: 2363-5045
DOI
https://doi.org/10.1007/s40899-019-00342-1

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