Abstract
The primary objective of the study is to characterize the hydrogeologic status and identify the trend in groundwater storage of aquifer system to provide an improved understanding of the groundwater flow system in the Kadva river basin, India. This is accomplished by the integrated use of stratigraphic modeling, pressure derivative approach, and pumping test analysis. The results of the stratigraphic modeling indicate that the unconfined aquifer thickness ranging from 8.2 to 34.2 m and generally occur to the depth of 2.2–36.5 m below ground level (bgl), whereas semi-confined aquifer thickness ranges from 6.1 to 58.3 m and generally occurs 30.6 m bgl over the study area with an interconnected semi-confining unit of thickness ranging from 1.6 to 22.3 m. The pumping test results of unconfined aquifer in the study area show that the transmissivity varies from 15.66 to 98.18 m2/day, and the specific yield ranging from 8.2 × 10–4 to 3.2 × 10–2. Pumping test data and derivative analysis show that the deep aquifers are semi-confined with transmissivity ranging from 14.4 to 111.2 m2/day, storage coefficient varies from 1.56 × 10–4 to 4.83 × 10–4, and hydraulic resistance ranges from 93 to 1270 days. The values of hydraulic parameters revealed a remarkable spatial variability, suggesting that the basaltic aquifer system has strong heterogeneity. The results of the present study are helpful in the formulation of efficient policies for sustainable groundwater management in basaltic aquifers system in India in particular and worldwide in general.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Data availability
Not applicable.
Code availability
Not applicable.
References
Ahmed AA (2009) Using lithologic modeling techniques for aquifer characterization and groundwater flow modeling of the Sohag area. Egypt Hydrogeol J 17(5):1189–1201
Anderson MP, Woessner WW (1992) Applied groundwater modeling: simulation of flow and advective transport. Academic Press Inc., San Diego
Arnold TL, Friedel MJ, Warner KL (2001) Hydrogeologic inventory of the upper Illinois River Basin—creating a large data base from well construction records. Geological models for groundwater flow modeling. Open File Ser 1:1–5
Athavale RN, Singh VS, Subrahmanyam K (1983) A constant discharge device for aquifer tests on large-diameter wells. Groundwater 21(6):752–755
Bailey RT, Wible TC, Arabi M, Records RM, Ditty J (2016) Assessing regional-scale spatio-temporal patterns of groundwater–surface water interactions using a coupled SWAT-MODFLOW model. Hydrol Process 30(23):4420–4433
Balkhair KS (2002) Aquifer parameters determination for large diameter wells using neural network approach. J Hydrol 265(1–4):118–128
Barker JA (1988) A generalized radial flow model for hydraulic tests in fractured rock. Water Resour Res 24(10):1796–1804
Bhusari V, Katpatal YB, Kundal P (2016) An innovative artificial recharge system to enhance groundwater storage in basaltic terrain: example from Maharashtra, India. Hydrogeol J 24(5):1273–1286
Biswal S, Jha MK, Sharma SP (2018) Hydrogeologic and hydraulic characterization of aquifer and nonaquifer layers in a lateritic terrain (West Bengal, India). Hydrogeol J 26(6):1947–1973
Bondre NR, Duraiswami RA, Dole G (2004) Morphology and emplacement of flows from the Deccan Volcanic Province, India. Bull Volcanol 66(1):29–45
Boulton NS, Streltsova TD (1977) Unsteady flow to a pumped well in a two-layered water-bearing formation. J Hydrol 35(3–4):245–256
Bourdet D, Whittle TM, Douglas AA, Pirard YM (1983) A new set of type curves simplifies well test analysis. World oil 196(6):95–106
Bourdet D, Ayoub JA, Pirard YM (1989) Use of pressure derivative in well test interpretation. SPE Format Evaluat 4(02):293–302
Bushira KM, Hernandez JR, Sheng Z (2017) Surface and groundwater flow modeling for calibrating steady state using MODFLOW in Colorado River Delta, Baja California. Mexico Model Earth Syst Environ 3(2):815–824
CGWB (1997) Ground water resource estimation methodology—1997. Report of the Ground Water Resource Estimation Committee, Central Ground Water Board (CGWB), Ministry of Water Resources, Government of India, New Delhi, India
CGWB (2014) Groundwater Information Nashik District Maharashtra. Central Ground Water Board, 1–17. https://cgwb.gov.in/district_profile/maharashtra/nashik.pdf. Accessed 7 Feb 2020
Chapuis RP, Chenaf D (2003) Effects of monitoring and pumping well pipe capacities during pumping tests in confined aquifers. Can Geotech J 40(6):1093–1103
Charbeneau RJ (2000) Groundwater hydraulics and pollutant transport. Prentice Hall, Upper Saddle River
Cooley RL, Case CM (1973) Effect of a water table aquitard on drawdown in an underlying pumped aquifer. Water Resour Res 9(2):434–447
Cooper HH Jr, Jacob CE (1946) A generalized graphical method for evaluating formation constants and summarizing well-field history. Eos Trans Am Geophys Union 27(4):526–534
Deolankar SB (1980) The deccan basalts of Maharashtra, India—their potential as aquifers. Groundwater 18(5):434–437
Di Paola MA, Margiotta S, Mazzone F, Negri S (2005) An integrated geological, hydrogeological and geophysical approach to the characterisation of the aquifer in a contaminated site. Hydrol Earth Syst Sci Discuss Eur Geosci Union 2(1):229–263
Ducci D, Sellerino M (2015) Groundwater mass balance in urbanized areas estimated by a groundwater flow model based on a 3D hydrostratigraphical model: the case study of the eastern plain of Naples (Italy). Water Resour Manage 29(12):4319–4333
Fan Z, Parashar R (2020) Transient flow to a finite-radius well with wellbore storage and skin effect in a poroelastic confined aquifer. Adv Water Resour 103604
Fetter CW (2001) Applied hydrogeology. Prentice-Hall, Upper Saddle River
Gringarten AC, Ramey HJ Jr, Raghavan R (1974) Unsteady-state pressure distributions created by a well with a single infinite-conductivity vertical fracture. Soc Petrol Eng J 14(04):347–360
GSI (2001) District resources map. Nashik District. Geological Survey of India Publications Calcutta
Hagagg KH (2019) Numerical modeling of seawater intrusion in karstic aquifer, Northwestern Coast of Egypt. Model Earth Syst Environ 5(2):431–441
Hamdi M, Zagrarni MF, Djamai N, Jerbi H, Goita K, Tarhouni J (2018) 3D geological modeling for complex aquifer system conception and groundwater storage assessment: Case of Sisseb El Alem Nadhour Saouaf basin, northeastern Tunisia. J Afr Earth Sc 143:178–186
Hantush MS (1960) Modification of the theory of leaky aquifers. J Geophys Res 65(11):3713–3725
Hantush MS (1964) Hydraulics of wells. Adv Hydrosci 1:281–432
Hantush MS, Jacob CE (1955) Non-steady radial flow in an infinite leaky aquifer. Eos Trans Am Geophys Union 36(1):95–100
Horne RN (1995) Modern well test analysis. Petroway. Inc, Palo Alto
Houben GJ, Stoeckl L, Mariner KE, Choudhury AS (2018) The influence of heterogeneity on coastal groundwater flow-physical and numerical modeling of fringing reefs, dykes and structured conductivity fields. Adv Water Resour 113:155–166
Jacob CE (1944) Notes on determining permeability by pumping tests under water-table conditions: US Geol. Survey Open-file Rept 1947:1047–1064
Jerbi H, Massuel S, Leduc C, Tarhouni J (2018) Assessing groundwater storage in the Kairouan plain aquifer using a 3D lithology model (Central Tunisia). Arab J Geosci 11(10):236
Khadri SFR, Pande C (2016) Ground water flow modeling for calibrating steady state using MODFLOW software: a case study of Mahesh River basin, India. Model Earth Syst Environ 2(1):39
Kruseman GP, De Ridder NA (1990) Analysis and evaluation of pumping test data, ILRI publication 47. International Institute for Land Reclamation and Improvement, The Netherlands
Kulkarni H, Deolankar SB, Lalwani A, Joseph B, Pawar S (2000) Hydrogeological framework of the Deccan basalt groundwater systems, west-central India. Hydrogeol J 8(4):368–378
Kuntamalla S, Sakram G, Madhusudhan N, Srinivas E (2019) Estimating aquifer characteristics by conducting pumping tests: a GIS and remote sensing approach in south western part of Mahbubnagar District, Telangana State, India. In: Proceedings of International Conference on Remote Sensing for Disaster Management. Springer, Cham, pp. 599–612
Lekula M, Lubczynski MW, Shemang EM (2018) Hydrogeological conceptual model of large and complex sedimentary aquifer systems–Central Kalahari Basin. Phys Chem Earth Parts A/B/C 106:47–62
Li P, Qian H, Wu J (2014) Comparison of three methods of hydrogeological parameter estimation in leaky aquifers using transient flow pumping tests. Hydrol Process 28(4):2293–2301
Limaye SD (2010) Groundwater development and management in the Deccan Traps (basalts) of western India. Hydrogeol J 18(3):543–558
Machiwal D, Singh PK, Yadav KK (2017) Estimating aquifer properties and distributed groundwater recharge in a hard-rock catchment of Udaipur, India. Appl Water Sci 7(6):3157–3172
Marchant AP, Banks VJ, Royse K, Quigley SP, Wealthall GP (2011) An initial screening tool for water resource contamination due to development in the Olympic Park 2012 site, London. Environ Earth Sci 64(2):483–495
Mishra D, Biswas SK (2009) Sedimentology, sequence stratigraphy and syn-rift model of younger part of Washtawa Formation and early part of Kanthkot Formation, Wagad, Kachchh basin, Gujarat. J Geol Soc India 73(4):519–527
Moench AF (1985) Transient flow to a large-diameter well in an aquifer with storative semiconfining layers. Water Resour Res 21(8):1121–1131
Moench AF (1997) Flow to a well of finite diameter in a homogeneous, anisotropic water table aquifer. Water Resour Res 33(6):1397–1407
Moharir K, Pande C, Patil S (2017) Inverse modelling of aquifer parameters in basaltic rock with the help of pumping test method using MODFLOW software. Geosci Front 8(6):1385–1395
Mukherjee A, Fryar AE, Howell PD (2007) Regional hydrostratigraphy and groundwater flow modeling in the arsenic-affected areas of the western Bengal basin, West Bengal, India. Hydrogeol J 15(7):1397
Neuman SP (1975) Analysis of pumping test data from anisotropic unconfined aquifers considering delayed gravity response. Water Resour Res 11(2):329–342
Neuman SP, Witherspoon PA (1969) Applicability of current theories of flow in leaky aquifers. Water Resour Res 5(4):817–829
Ni JC, Cheng WC, Ge L (2011) A case history of field pumping tests in a deep gravel formation in the Taipei Basin, Taiwan. Eng Geol 117(1–2):17–28
Pannecoucke L, Le Coz M, Houzé C, Saintenoy A, Cazala C, de Fouquet C (2019) Impact of spatial variability in hydraulic parameters on plume migration within unsaturated surficial formations. J Hydrol 574:160–168
Papadopulos IS, Cooper HH Jr (1967) Drawdown in a well of large diameter. Water Resour Res 3(1):241–244
Park E, Zhan H (2002) Hydraulics of a finite-diameter horizontal well with wellbore storage and skin effect. Adv Water Resour 25(4):389–400
Ratej J, Brenčič M (2005) Comparative analysis of single well aquifer test methods on the mill tailing site of Boršt Žirovski vrh, Slovenija Primerjalna analiza metod obdelave hidravličnih poizkusov v črpanem vodnjaku na odlagališču hidrometalurške jalovine Boršt, Žirovski vrh. Slovenija RMZ-Mater Geoenviron 52(4):669–684
Razminia K, Razminia A, Machado JAT (2016) Analytical solution of fractional order diffusivity equation with wellbore storage and skin effects. J Comput Nonlinear Dyn 11(1):011006
Renard P (2005) The future of hydraulic tests. Hydrogeol J 13(1):259–262
Renard P, Glenz D, Mejias M (2009) Understanding diagnostic plots for well-test interpretation. Hydrogeol J 17(3):589–600
RockWare (2017) RockWorks 17 user manual. Rockware, Golden
Rushton KR, Holt SM (1981) Estimating aquifer parameters for large-diameter wells. Groundwater 19(5):505–509
Sahoo S, Jha MK (2017) Numerical groundwater-flow modeling to evaluate potential effects of pumping and recharge: implications for sustainable groundwater management in the Mahanadi delta region, India. Hydrogeol J 25(8):2489–2511
Samuel MP, Jha MK (2003) Estimation of aquifer parameters from pumping test data by genetic algorithm optimization technique. J Irrig Drainage Eng 129(5):348–359
Sen Z (1995) Applied hydrogeology for scientists and engineers. CRC Press, Boca Raton
Sethi R (2011) A dual-well step drawdown method for the estimation of linear and non-linear flow parameters and wellbore skin factor in confined aquifer systems. J Hydrol 400(1–2):187–194
Shishaye HA, Tait DR, Befus KM, Maher DT (2019) An integrated approach for aquifer characterization and groundwater productivity evaluation in the Lake Haramaya watershed, Ethiopia. Hydrogeol J 27(6):2121–2136
Singh VS (2000) Well storage effect during pumping tests in an aquifer of low permeability. Hydrol Sci J 45(4):589–594
Singhal BBS (2008) Nature of hard rock aquifers: hydrogeological uncertainties and ambiguities. Groundwater Dynamics in Hard Rock Aquifers. Springer, Dordrecht, pp 20–39
Spane FA Jr, Wurstner SK (1993) DERIV: a computer program for calculating pressure derivatives for use in hydraulic test analysis. Groundwater 31(5):814–822
Tartakovsky GD, Neuman SP (2007) Three-dimensional saturated-unsaturated flow with axial symmetry to a partially penetrating well in a compressible unconfined aquifer. Water Resour Res. https://doi.org/10.1029/2006WR005153
Theis CV (1935) The relation between the lowering of the piezometric surface and the rate and duration of discharge of a well using ground-water storage. Eos Trans Am Geophys Union 16(2):519–524
Todd DK, Mays LW (2004) Groundwater hydrology. Wiley, Hoboken
Trabelsi F, Tarhouni J, Mammou AB, Ranieri G (2013) GIS-based subsurface databases and 3-D geological modeling as a tool for the set up of hydrogeological framework: Nabeul-Hammamet coastal aquifer case study (Northeast Tunisia). Environ Earth Sci 70(5):2087–2105
Wang L, Tye A, Hughes A (2010) Riverine floodplain groundwater flow modelling: the case of Shelford (UK). British Geological Survey, Nottingham
Zech A, Zehner B, Kolditz O, Attinger S (2016) Impact of heterogeneous permeability distribution on the groundwater flow systems of a small sedimentary basin. J Hydrol 532:90–101
Zhuang C, Zhou Z, Illman WA, Guo Q, Wang J (2017) Estimating hydraulic parameters of a heterogeneous aquitard using long-term multi-extensometer and groundwater level data. Hydrogeol J 25(6):1721–1732
Funding
No funding was received.
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
Conflict of interest
The authors declare that they have no conflict of interest.
Additional information
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
About this article
Cite this article
Rane, N., Jayaraj, G.K. Stratigraphic modeling and hydraulic characterization of a typical basaltic aquifer system in the Kadva river basin, Nashik, India. Model. Earth Syst. Environ. 7, 293–306 (2021). https://doi.org/10.1007/s40808-020-01008-0
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s40808-020-01008-0