Abstract
Groundwater represents a significant source of fresh water for drinking purposes and, therefore, preserving its availability and quality is extremely important. The hydrochemical characteristics and quality of groundwater in Ejisu-Juaben Municipality, Ghana have been evaluated based on different indices for assessing groundwater for drinking purposes. A total of 19 groundwater samples were collected and analyzed for major cations and anions using standard methods. The results show that the groundwater parameters were within the permissible limits of the World Health Organization except phosphate. The domination of major ions was in the order of Ca2+ > Mg2+ > NH4 + for cations and Cl− > HCO3 − > SO4 2− > PO4 2− > NO3 − > NO2 − in anions. The hydrochemical analysis suggest that the dominant ions were derived from ion exchange and silicate weathering process. According to Gibbs plot, the predominant samples fall in the rock–water interaction and precipitation dominance field. The R-mode factor analysis shows that the four factors extracted account for 83.9 % of the total variance. Groundwater quality index reveals that the majority of the samples falls under good to excellent category of water, suggesting that the groundwater is suitable for drinking and other domestic uses.
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References
Abdo MH (2005) Physico-chemical characteristics of Abu Za’baal pond, Egypt. Egypt J Aquat Res 31(2):1–15
Agbaire PO, Oyibo IP (2009) Seasonal variation of some physicochemical properties of borehole water in Abraka, Nigeria. Afr J Pure Appl Chem 3(6):116–118
Akoto O, Adiyiah J (2007) Chemical analysis of drinking water from some communities in the Brong Ahafo Region, Ghana. Int J Environ Sci Technol 4(2):211–214
Akoto O, Bruce TN, Darko G (2010) Chemical and biological characteristics of streams in the Owabi watershed. Environ Monit Assess 161:413–422
Akpabli CK, Drah GK (2001) Water quality of the main tributaries of the Densu stream. JGSA 3(2):84–94
Alsabahi E, Abdulrahmi S, Zuhairi W, Al-Nozaily F, Alshaebi F (2009) The characteristics of leachate and groundwater pollution at municipal solid waste landfill of Ibb City, Yemen. Am J Environ Sci 5(3):256–266
Amadi AN (2011) Assessing the effects of Aladimma dumpsite on soil and groundwater using water quality index and factor analysis. Aust J Basic Appl Sci 5(11):763–770
Amadi AN, Yisa J, Okoye NO, Okunlola IA (2010) Multivariate statistical evaluation of the hydrochemical facies in Aba, Southeastern Nigeria. Int J Biol Phys Sci 15(3):326–337
Amadi AN, Nwankwoala HO, Olasehinde PI, Okoye NO, Okunlola IA, Alkali YB (2012) Investigation of aquifer quality in Bonny Island, Eastern Niger Delta, Nigeria using geophysical and geochemical techniques. J Emerg Trends Eng Appl Sci 3(1):180–184
Andrew AA, Jun S, Takahiro H, Kimpei I, George EN, Wilson YF, Gloria ETE, Ntankouo NR (2011) Evaluation of groundwater quality and its suitability for drinking domestic and agricultural uses in the Banana Plain (Mbanga Njombe Penja) of the Cameroon Volcanic Line. Environ Geochem Health 33:559–575
Ansa-Asare OD, Darko HF, Asante KA (2009) Groundwater quality assessment of Akatsi, Adidome and Ho districts in the Volta region of Ghana. Desalination 248:446–452
Apau J, Acheampong A, Bepule V (2014) Physicochemical and microbial parameters of water from hand-dug wells from Nyamebekyere, a surburb of Obuasi, Ghana. Int J Sci Technol 3(6):347–351
APHA (1998) Standard methods for the examination of water and wastewater, 20th edn. American Public Health, Association (APHA), American Water Works Association (AWWA), and Water Pollution Control Federation (WPCF), New York
Aremu MO, Ozonyia GN, Ikokoh PP (2011) Physico-chemical properties of well, borehole and Stream waters in Kubwa, Bwari Area Council, FCT, Nigeria. Electron J Environ Agric Food Chem 10(6):2296–2304
Armon R, Kitty (1994) The Health dimension of groundwater contamination. In: Holler (ed) Groundwater contamination and control. Marcel Dekker Inc, New York
Arya S, Kumar V, Sharma S (2012) Analysis of water quality parameters of groundwater in and around Diamond Cement Industry, Jhansi, Central India. Int J Curr Res 4(3):75–77
Asare-Donkor NK, Kwaansa-Ansah EE, Opoku F, Adimado AA (2015) Concentrations, hydrochemistry and risk evaluation of selected heavy metals along the Jimi River and its tributaries at Obuasi a mining enclave in Ghana. Environ Syst Res 4:12. doi:10.1186/s40068-015-0037-y
Avvannavar SM, Shrihari S (2008) Evaluation of water quality index for drinking purposes for river Netravathi, Mangalore, South India. Environ Monit Assess 143:279–290
Babiker SI, Mohamed AA, Mohamed TH (2007) Assessing groundwater quality using GIS. Water Resour Manag 21:699–715
Baruah M, Bhattacharyya KG, Patgiri AD (2008) Water quality of shallow groundwater of core city area of Guwahati. In: Proceedings of sixteenth national symposium on environment, Haryana, India, pp 101–106
Bhardwaj V, Singh DS (2010) Surface and groundwater quality characterization of Deoria District, Ganga Plain, India. Environ Earth Sci 63:383–395. doi:10.1007/s12665-010-0709x
Brijraj K, Kaur P (2007) Geochemistry of surface and sub-surface waters of Rawalyar lakes, Mandi district, Himachal Pradesh: constraints on weathering and erosion. J Geol Soc India 69:1020–1030
Cerling TE, Pederson BL, Damn KLV (1989) Sodium-calcium ion exchange in the weathering of shales implication for global weathering budgets. Gelogy 17:552–554
Chapman D (1992) A guide to the use of BIOTA sediments and water in environmental monitoring water quality assessments UNESCO/WHO/UNEP. Chapman and Hall, London, pp 371–460
Cosgrove WJ, Rijsberman FR (2000) World water vision: making water everybody’s business. Earth Scan Publication Ltd, UK, p 108
Dahiya S, Kaur A (1999) Physico chemical characteristics of underground water in rural areas of Tosham subdivision, Bhiwani district, Haryana. J Environ Poll 6(4):281
Datta PS, Tyagi SK (1996) Major ion chemistry of groundwater in Delhi area: chemical weathering processes and groundwater flow regime. J Geol Soc India 47:179–188
Duncan AE, Peprah MO, Marfo MO, Tetteh G, Opoku AE (2014) Groundwater Quality Analysis on selected hand-dug wells in the Cape Coast Metropolis, Ghana: a case study of Abura. J Basic Appl Sci 1(2):23–30
Edmunds WM, Carrillo-Rivera JJ, Cardona A (2002) Geochemical evolution of groundwater beneath Mexico City. J Hydrol 258:1–24
Efe ST (2002) Urban warming in Nigerian cities. The case of Warri metropolis. Afr J Environ Stud 2(2):6
Elango L, Kannan R (2007) Rock–water interaction and its control on chemical composition of groundwater. Chap. 11. Dev Environ Sci 5:229–243
Elango L, Kannan R, Senthil Kumar M (2003) Major ion chemistry and identification of hydrogeochemical processes of groundwater in a part of Kancheepuram district, Tamil Nadu. Environ Geosci 1(4):157–166
Eletta O, Adeniyi A, Dolapo A (2010) Physico-chemical characterisation of some ground water supply in a school environment in Ilorin, Nigeria. Afr J Biotechnol 9(22):3293–3297
Essumang DK, Senu J, Fianko J, Nyarko B, Adokoh C, Boamponsem L (2011) Groundwater quality assessment: a physicochemical properties of drinking water in a rural setting of developing countries. Can J Sci Ind Res 2(3):102–126
Fisher RS, Mulican WF (1997) Hydrogeochemical evolution of sodium-sulfate and sodium-chloride groundwater beneath the Northern Cnihvahvan desert. Trans-Pecos, Texas USA. Hydrogeol J 10(4):455–474
Ghana Statistical Service (2012) 2010 housing and population census report. Ghana Statistical Service, Accra
Gibbs RJ (1970) Mechanism controlling world water chemistry. Sciences 170:795–840
Gomez JD, Nakat AC (2002) Community participation in water and sanitation. Water Int 27:343–353
Guler C, Thyne GD, McCray JE, Turner AK (2002) Evaluation of graphical and multivariate statistical methods for classification of water chemistry data. Hydrogeol J 10(4):455–474
Helena B, Pardo R, Vega M, Barrado E, Fernandez JM, Fernandez L (2000) Temporal evolution of groundwater composition in an alluvial aquifer (Pisuerga River, Spain) by principal component analysis. Water Res 34(3):807–816
Henry GJ, Heinke GW (2005) Environmental science engineering, 2nd edn. Prentice-Hall of India Private Limited, New Delhi
Howitt D, Cramer D (2005) Introduction to SPSS in psychology: with supplement for releases 10, 11, 12 and 13. Pearson, Harlow
IDLO (2011) Sustainable development law on climate change, International Development Law Organization Working paper series
Jeevanandam M, Kannan R, Srinivasalu S, Rammohan V (2006) Hydrogeochemistry and groundwater quality assessment of lower part of the Ponnaiyar River Basin, Cuddalore District, South India. Environ Monit Assess 132(1):263–274
Jeevanandam M, Nagarajan R, Manikandan M, Senthilkumar M, Srinivasalu S, Prasanna MV (2012) Hydrogeochemistry and microbial contamination of groundwater from Lower Ponnaiyar Basin, Cuddalore District, Tamil Nadu, India. Environ Earth Sci 67(3):867–887
Jeong CH (2001) Effects of land use and urbanization on hydrochemistry and contamination of groundwater from Taejon area, Korea. J Hydrol 253:194–210
Ketata-Rokbani M, Gueddari M, Bouhlila R (2011) Use of geographical information system and Water Quality Index to assess groundwater quality in El Khairat Deep Aquifer (Enfidha, Tunisian Sahel). Iran J Energy Environ 2(2):133–144
Kortatsi BK (2007a) Groundwater quality in the Wassa West district of the western region of Ghana. West Afr J Appl Ecol 11:25–40
Kortatsi BK (2007b) Hydrochemical framework of groundwater in the Ankobra Basin, Ghana. Aquat Geochem 13:41–74
Krishna Kumar S, Ram Mohan V, Dajkumar Sahayam J, Jeevanandam M (2009) Assessment of groundwater quality and hydrogeochemistry of Manimuktha River basin, Tamil Nadu, India. Environ Monit Assess 159(1–4):341–351
Krishna Kumar S, Chandrasekar N, Seralathan P, Godson PS, Magesh NS (2011) Hydrogeochemical study of shallow carbonate aquifers, Rameswaram Island, India. Environ Monit Assess 184(7):4127–4139
Krishna Kumar S, Bharani R, Magesh NS, Godson PS, Chandrasekar N (2014) Hydrogeochemistry and groundwater quality appraisal of part of south Chennai coastal aquifers, Tamil Nadu, India using WQI and fuzzy logic method. Appl Water Sci 4:341–350
Loizidou M, Kapetanios EG (1993) Effect of leachate from landfills on groundwater quality. Sci Total Environ 128:69–81
May AL, Loucks MD (1995) Solute and isotope geochemistry and groundwater flow in the Central Wasatch Range, Utah. J Hydrol 170:795–840
McCarthy MF (2004) Should we restrict chloride rather than sodium? Med Hypotheses 63:138–148
McMurry J, Fay RC (2004) Hydrogen, oxygen and water. In: Hamann KP (ed) Chemistry, 4th edn. Pearson Education, New Jersey, pp 575–599
Mendie U (2005) The nature of water. The theory and practice of clean water production for domestic and industrial use. Lacto-Medals Publishers, Lagos, pp 1–21
Mishra PC, Patel RK (2001) Study of the pollution load in the drinking water of Rairangpur, a small tribal dominated town of North Orissa. Indian J Environ Ecoplan 5(2):293–298
Mulla J, Asif S, Abed S, Pardhan V (2012) Ground water quality assessment of Babalgaon District Latur. J Chem Biol Phys Sci 2(1):501–504
Naik S, Purohit KM (2001) Studies on water quality of river Brahmani in Sundargarh district, Orissa. Indian J Environ Ecoplan 5(2):397–402
Nwajei GE, Obi-Iyeke GE, Okwagi P (2012) Distribution of selected trace metals in fish parts from the River Nigeria. Res J Rec Sci 1(1):81–84
Odoh BI, Utom AU, Ezeh HN, Egboka BCE (2012) Hydrogeochemical properties in parts of Abakaliki city, Southeastern Nigeria. AAPG/Div Environ Sci 19(2):1–9
Offodile ME (1983) The occurrence and exploitation of groundwater in Nigeria basement rocks. J Min Geol 2:131–146
Oluseyi T, Olayinka K, Adeleke I (2011) Assessment of ground water pollution in the residential areas of Ewekoro and Shagamu due to cement production. Afr J Environ Sci Technol 5(10):786–794
Panda UC, Sundaray SK, Rath P, Nayak BB, Bhatta D (2006) Application of factor and cluster analysis for characterization of river and estuarine water systems—a case study: Mahanadi River (India). J Hydrol 331:434–445
Radojevic M, Bashkin VN (2006) Practical environmental analysis. RSC Publishing, Cambridge
Rao NS (2006) Nitrate pollution and its distribution in the groundwater of Srikakulam district, Andhra Pradesh, India. Environ Geol 51(4):631–645
Ravikumar P, Venkatesharaju K, Somashekar RK (2010) Major ion chemistry and hydrochemical studies of groundwater of Bangalore South Taluk, India. Environ Monit Assess 163:643–653
Reghunath R, Sreedhara Murthy TR, Raghavan BR (2002) The utility of multivariate statistical techniques in hydrogeochemical studies: an example from Karnataka, India. Water Res 36:2437–2442
Rohul-Amin, Ali SS, Anwar Z, Khattak JZK (2012) Microbial analysis of drinking water and water distribution system in New Urban Peshawar. Curr Res J Biol Sci 4(6):731–737
Routroy S, Harichandran R, Mohanty JK, Panda CR (2013) A statistical appraisal to hydrogeochemistry of fluoride contaminated ground water in Nayagarh District, Odisha. J Geol Soc India 81:350–360
Sahu P, Sikdar PK (2008) Hydrochemical framework of the aquifer in and around East Kolkata wetlands, West Bengal, India. Environ Geol 55:823–835
Sanchez Martos F, Pulido Bosch A, Calaforra JM (1999) Hydrogeochemical processes in an arid region of Europe (Almeria, SE Spain). Appl Geochem 14:735–745
Schafer AI, Rossiter HMA, Owusu PA, Richard BS, Awuah E (2010) Developing country water supplies: physico-chemical water quality in Ghana. Desalination 251:193–203
Shrestha S, Kazama F (2006) Assessment of surface water quality using multivariate statistical techniques: a case study of the Fuji river basin, Japan. Environ Model Softw 22:464–475
Singh DF (1992) Studies on the water quality index of some major rivers of Pune, Maharashtra. Proc Acad Environ Biol 1(1):61–66
Singh PK, Malik A, Sinha S (2005) Water quality assessment and apportionment of pollution sources of Gomti river (India) using multivariate statistical techniques-a case study. Anal Chim Acta 538:355–374
Sinha AK, Srivastava KP, Sexena J (2000) Impact of urbanization on groundwater of Jaipur, Rajasthan. In: Sinha AK, Shrivastava PK (eds) Earth resources and environmental issues. ABD Publishers, Jaipur, pp 173–179
Srinivasamoorthy K, Chidambaram M, Prasanna MV, Vasanthavigar M, John Peter A, Anandhan P (2008) Identification of major sources controlling groundwater chemistry from a hard rock terrain—a case study from Mettur taluk, Salem district, Tamilnadu, India. J Earth Syst Sci 117(1):49–58
Subba Rao N (1997) Studies on water quality index in hard rock terrain of Guntur district, Andhra Pradesh, India. National Seminar on Hydrology of Precambrian Terrains and hard rock areas. pp 129–134
Subba Rao N (2006) Seasonal variation of groundwater quality in a part of Guntur District, Andhra Pradesh, India. Environ Geol 49:413–429
Subba Rao N, Prakasa Rao J, John Devadas D, Srinivasa Rao KV, Krishna C, Nagamalleswara Rao B (2002) Hydrogeochemistry and groundwater quality in a developing urban environment of a semi-arid region, Guntur, Andhra Pradesh. J Geol Soc India 59:159–166
Suthar S, Bishnoi P, Singh S, Mutiyar PK, Nema AK, Patil NS (2009) Nitrate contamination in groundwater of some rural areas of Rajasthan, India. J Hazard Mater 171:189–199
Tay CK (2008) Chemical characteristics of groundwater in the Akatsi and Ketu Districts of the Volta Region, Ghana. CSIR-Water Research Institute, P. O. Box AH 38, Achimota-Accra, Ghana
Tay C, Kortatsi B (2007) Groundwater quality studies. A case study of Densu Basin, Ghana. West Africa J Appl Ecol 12:81–99
Tiwari TN, Mishra MA (1985) A preliminary assignment of water quality index of major Indian rivers. Indian J Environ Prot 5:276–279
Todd DK (1980) Groundwater hydrology. Wiley, New York
Vasanthavigar M, Srinivasamoorthy K, Vijayaragavan K, Rajiv Ganthi R, Chidambaram S, Anandhan P, Manivannan R, Vasudevan S (2010) Application of water quality for groundwater quality assessment: thirumanimuttar Sub basin, Tamil Nadu, India. Environ Monit Assess 171(1–4):595–609
Walker GR, Jolly ID, Cook PG (1991) A new chloride leaching approach to the estimation of diffuse recharge following a change in land use. J Hydrol 128:49–67
WHO (2011) Guidelines for drinking-water quality, 4th edn. World Health Organization, Geneva
World Health Organization (2004) Guideline for drinking-water, vol. 1, Recommendations, 3rd edn. Geneva, Switzerland
World Health Organization (2008) Guidelines for drinking-water quality. Incorporating 1st and 2nd Addenda, vol. 1, Recommendations, 3rd edn. WHO, Geneva
Yidana SM (2010) Groundwater classification using multivariate statistical methods: Southern Ghana. J Afr Earth Sci 57:455–469
Zhang J, Huang WW, Letolle R, Jusserand C (1995) Major element chemistry of the Huanghe (Yellow River), China: weathering processes and chemical fluxes. J Hydrol 168:173–203
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The authors are very grateful to the National Council for tertiary Education (NTCE), Ghana for a research Grant under the Teaching and Learning Innovation Fund (TALIF-KNUSTR/3/005/2005).
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Boateng, T.K., Opoku, F., Acquaah, S.O. et al. Groundwater quality assessment using statistical approach and water quality index in Ejisu-Juaben Municipality, Ghana. Environ Earth Sci 75, 489 (2016). https://doi.org/10.1007/s12665-015-5105-0
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DOI: https://doi.org/10.1007/s12665-015-5105-0