Abstract
The assessment of groundwater geochemistry and characterization is an important aspect of groundwater studies. For this study, a total of 20 groundwater samples were collected from hand-dug well and analyzed using the America Public Health Association standard (APHA) method. Result obtained from the study revealed that Ec, pH, and TDS range from 78.2 to 850 µS/cm, 3.34 to 7.09 and 0.8 to 71.58 mg/L, respectively. From geochemical model, it was observed that findings from End-member plots showed that silicate and carbonate weathering is the major process that influences groundwater. While plot of Ca2+/(HCO3− + SO42−) versus Na+/Cl− revealed that 92% of groundwater within the area falls within the natural state. The plot of Mg/ca against Mg/Na and Parson plot revealed that 73% of groundwater is influenced by rock–water interaction. Further findings from Diamond field plots showed that groundwater fell within High Ca + Mg and SO4 + Cl, 98% of groundwater fell within Ca–Mg–Cl water type, respectively. The plot of TDS against TH revealed that groundwater fell within soft-fresh and moderate–hard category, Chadba’s plot revealed that groundwater was classified to be of Na+ + HCO3− water type. Gibbs plot and Soltan classification revealed that larger percentage of groundwater is not influenced by the three major factors in Gibbs plots, groundwater within the study area is of deep meteoric type respectively. Findings obtained from ion exchange revealed that groundwater is influenced by mostly silicate weathering. The evaluation of groundwater seepage in heavy metals loads against pH revealed that heavy metals were classified under acid, high-metal, near-neutral high-metal, acid low metal, and near-neutral low metal. Results obtained from the study revealed that groundwater within the study area is influenced by geogenic and anthropogenic activities.
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References
Adeyeye JA, Akinyemi OD, Awomeso JA, Bada BS, Akintan OB (2021) Geo-chemical investigation of groundwater salinity status in selected coastal areas of south western Nigeria. Sustain Water Res Manag. https://doi.org/10.1007/s40899-021-00541-9
Akakuru OC, Akudinobi BEB, Usman AO (2017) Organic and heavy metal assessment of groundwater sources around nigeria national petroleum corperation oil depot Aba, south-eastern nigeria. J Nat Sci Res 7(24):48–58
Akakuru OC, Akudinobi BEB (2018) Qualitative characterization of groundwater sources around nigeria national petroleum corperation oil depot aba, using multiple linear regressions modelling. Int J Adv Geosci 6(1):57–64
Akakuru OC, Akudinobi B, Opara AI, Onyekuru SO (2021) Hydrogeochemical facies and pollution status of groundwater resources of Owerri and environs, Southeastern Nigeria. Environ Monit Assess. https://doi.org/10.1007/s10661-021-09364-9
Akakuru OC, Akudinobi BE, Nwankwoala HO, Akakuru OU, Onyekuru SO (2021b) Compendious evaluation of groundwater in parts of Asaba, Nigeria for agricultural sustainability. Geosci J https://doi.org/10.1007/s12303-021-0010-x
Alsuhaimi AO, Almohaimidi KM, Momani KA (2019) Preliminary assessment for physicochemical quality parameters of groundwater in Oqdus Area, Saudi Arabia. J Saudi Soc Agric Sci 18(1):22–31. https://doi.org/10.1016/j.jssas.2016.12.002
American Public Health Association (APHA) (2012) Standards methods for the examination of water and wastewater, 22nd edn. American Public Health Association (APHA), New York, p 1360
Arumugam K, Elangovan K (2009) Hydrochemical characteristics and groundwater quality assessment in Tirupur Region, Coimbatore District, Tamil Nadu, India. Environ Geol 58:1509–1520. https://doi.org/10.1007/s00254-008-1652-y
Bear J (1979) Hydraulics of groundwater. McGraw-Hill International Book, New York
Chandrasekar N, Selvakumar S, Srinivas Y et al (2013) Hydro-geochemical assessment of groundwater quality along the coastal aquifers of southern Tamil Nadu, India. Environ Earth Sci 71(11):4739–4750. https://doi.org/10.1007/s12665-013-2864-3
Dikinya O, Areola O (2010) Comparative analysis of heavy metal concentration in secondary treated waste irrigated soil cultivated by diferent crops. Int J Environ Sci Technol 7(2):337–346
Ede CO, Nnabo PN (2015) Hydrogeochemical evaluation of groundwater quality of Abakaliki and its environs, South Eastern Nigeria. Int J Innov Sci Res 13(2):689–696
Egbueri JC, Mgbenu CN, Chukwu CN (2019) Investigating the hydrogeochemical processes and quality of water resources in Ojoto and environs using integrated classical methods. Model Earth Syst Environ. https://doi.org/10.1007/s40808-019-00613-y
Etteieb S, Cherif S, Tarhouni J (2017) Hydrochemical assessment of water quality for irrigation: a case study of the Medjerda River in Tunisia. Appl Water Sci. https://doi.org/10.1007/s13201-015-0265-3
Evanko CR, Dzombak, DA (1997) Remediation of metals-contaminated soils and groundwater. Technical evaluation report, pp 4–16
Eyankware MO (2019) Hydrogeochemical assessment of chemical composition of groundwater; a case study of the Aptian-Albian aquifer within sedimentary basin Nigeria. Water Conserv Manag 3(2):1–7
Eyankware MO, Obasi PN (2021) A holistic review of heavy metals in water and soil in Ebonyi SE. Nigeria; with emphasis on its effects on human, aquatic organisms and plants. World News Nat Sci 38:1–19
Eyankware MO, Nnajieze VS, Aleke CG (2018a) Geochemical assessment of water quality for irrigation purpose, in abandoned limestone quarry pit at Nkalagu area, Southern Benue Trough Nigeria. Environ Earth Sci 77:66. https://doi.org/10.1007/s12665-018-7232-x
Eyankware MO, Ogwah C, Okeke GC (2018b) Geochemical evaluation of groundwater origin using source rockdeduction and hydrochemical facies at Umuoghara Mining Area, Lower Benue Trough, SE Nigeria. Int Res J Earth Sci 6(10):1–11
Eyankware MO, Obasi PN, Omo-Irabor OO, Akakuru OC (2020a) Hydrochemical characterization of abandoned quarry and mine water for domestic and irrigation uses in Abakaliki, southeast Nigeria. Model Earth Syst Environ. https://doi.org/10.1007/s40808-020-00827-5
Eyankware MO, Aleke CG, Selemo AOI, Nnabo PN (2020b) Hydrogeochemical studies and suitability assessment of groundwater quality for irrigation at Warri and environs, Niger delta basin, Nigeria. Groundw Sustain Dev. https://doi.org/10.1016/j.gsd.2019.100293
Eyankware MO, Igwe EO, Onwe MO (2021) Geochemical study using geochemical modelling approach in Ojekwe region of southern Benue Trough, Nigeria. Int J Energy Water Resour. https://doi.org/10.1007/s42108-021-00163-z
Eyankware MO, Akakuru CO, Ulakpa ROE, Eyankware EO (2021b) Sustainable management and characterization of groundwater resource in coastal aquifer of Niger Delta Basin Nigeria. Sustain Water Resour Manag. https://doi.org/10.1007/s40899-021-00537-5
Ezeh HN, Anike OL, Egboka BCE (2007) The distribution of some heavy metals in soil around the derelict Enyigba mines and its implications. J Curr World Environ 2:99–106
Ficklin WH, Plumlee GS, Smith KS, McHugh JB (1992) Geo-chemical classification of mine drainages and natural drainages in mineralized areas. In: Kharaka YK, Maest AS (eds) Water–rock interaction: seventh international symposium on water–rock interaction. A.A Balkema, Rotterdam, pp 381–384
Friberg L, Nordberg GF, Vouk VB (eds) (1986) Handbook of the of metals, vol 2. Amsterdam, Elsevier, pp 130–184
Gaillardet J, Dupré B, Louvat P, Allègre CJ (1999) Global silicate weathering and CO2 consumption rates deduced from the chemistry of large rivers. Chem Geol 159:3–30
Gibbs RJ (1970) Mechanisms controlling world water chemistry. Science 170(3962):1088–1090
Harichandan A, PatraS DAK, Sethy KM, Sahu SK, Ghosh M (2021) Suitability of groundwater quality for its drinking and agricultural use near Koira region of Odisha, India. Sustain Water Res Manag. https://doi.org/10.1007/s40899-021-00505-z
Henderson T (1985) Geochemistry of groundwater in two sandstone aquifer systems in the Northern Great Plains in parts of Montana and Wyoming. In: Regional aquifer-system analysis, US Geological Survey professional paper; 1402-C, pp C69–C72.
Ighalo JO, Adeniyi AG (2020) A comprehensive review of water quality monitoring and assessment in Nigeria. Chemosphere. https://doi.org/10.1016/j.chemosphere.2020.127569
Ighalo JO, Adeniyi AG, Adeniran AJ, Ogunniyi S (2020) A systematic literature analysis of the nature and regional distribution of water pollution sources in Nigeria. J Clean Prod. https://doi.org/10.1016/j.jclepro.2020.124566
Igwe EO, Ede CO, Nnabo PN, Ukpai SN (2020) Impact of heavy metals dispersion on water supplies around Oshiri and Ishiagu mine districts of Southern Benue Trough, Nigeria. Model Earth Syst Environ. https://doi.org/10.1007/s40808-020-00950-3
Igwe EO, Ede CO, Eyankware MO (2021) Heavy metals concentration and distribution in soils around Oshiri and Ishiagu lead—zinc mining areas, southeastern Nigeria. World Sci News 158:22–58
Kelepertsis A, Alexakis D, Skordas K (2006) Arsenic, antimony and other toxic elements in the drinking water of Eastern Thessaly in Greece and its possible effects on human health. Environ Geol 50:76–84. https://doi.org/10.1007/s00254-006-0188-2
Li P (2018) Mine water problems and solutions in China. Mine Water Environ. https://doi.org/10.1007/s10230-018-0543
Li XF, Wang PF, Feng CL, Liu DQ, Chen JK, Wu FC (2019) Acute Toxicity and hazardous concentrations of zinc to native freshwater organisms under different pH values in China. Bull Environ Contam Toxicol. https://doi.org/10.1007/s00128-018-2441-2
Meybeck M (1987) Global chemical weathering of surficial rocks estimated from river dissolved leads. Am J Sci 287:401–428
Nnabo PN (2015) Assessment of contamination of underground water sources in Enyigba Pb–Zn district, South Eastern Nigeria using metal enrichment and pollution indices. Int J Sci 4(9):47–56
Nnabo PN (2016) Surface water contamination by heavy metals from Enyigba Pb–Zn mine district, Southeastern Nigeria using metal enrichment and pollution indices. Int J Sci Technol 5(1):10–18
Nnabo PN (2011) Environmental impacts of lead/zinc mining in Enyigba area, SE of Abakaliki, SE Nigeria. Ph.D Thesis, Ebonyi State University, Abakaliki, Nigeria
Obasi PN, Akundinobi BEB (2020) Potential health risk and levels of heavy metals in water resources of lead–zinc mining communities of Abakaliki, southeast Nigeria. Appl Water Sci. https://doi.org/10.1007/s13201-020-01233-z
Obasi PN, MO, Akudinobi BBE, Nweke MO (2015) Hydrochemical investigation of water resources around Mkpuma Ekwaoku Mining District, Ebonyi State Southeastern Nigeria. Afr J Geo Sci Res 3(3):1–7
Obasi AI, Selemo AOI, Ogwah C, Afiukwa JN (2019) Field measurement of radionuclide concentrations in host rocks within some mines in Abakaliki-Ishiagu Areas, Southeastern Nigeria. World Appl Sci J 37(4):275–288
Obasi PN, Eyankware MO, Akudinobi BEB (2021) Characterization and evaluation of the effects of mine dischargeson surface water resources for irrigation: a case study of the Enyigba Mining District, Southeast Nigeria. Appl Water Sci 11:112. https://doi.org/10.1007/s13201-021-01400-w
Obiora SC, Chukwu A, Toteu SF, Davies TC (2016) Assessment of heavy metal contamination in soils around lead (Pb)-zinc (Zn) mining areas in Enyigba, southeastern Nigeria. J Geol Soc India 87:453–462
Ogwah C, Eyankware MO (2020) Investigation of hydrogeochemical processes in groundwater resources located around abandoned Okpara coal mine, Enugu SE. Nigeria. J Clean Was. https://doi.org/10.26480/cleanwas.01.2020.12.16
Okogbue CO, Ukpai NS (2013a) Geochemical evaluation of groundwater quality in Abakaliki area, Southeast Nigeria, Jordan. J Earth Environ Sci 5(1):1–8
Okogbue CO, Ukpai SN (2013b) Evaluation of trace element contents in groundwater in Abakaliki metropolis and around the abandoned mine sites in the southern part, southeastern Nigeria. Environ Earth Sci 70:3351–3362. https://doi.org/10.1007/s12665-013-2401-4
Okolo CC, Oyedotun TDT, Akamigbo FOR (2018) Open cast mining: threat to water quality in rural community of Enyigba in south-eastern Nigeria. Appl Water Sci. https://doi.org/10.1007/s13201-018-0849-9
Omo-Irabor OO, Eyankware MO, Ogwah C (2018) Integration of hydrogeochemical analytical methods and irrigation parameters in determination of groundwater quality at Ibinta, Southern Benue Trough Nigeria. FUPRE J Sci Ind Res 2(1):38–49
Opoke SU, Osayande AD (2018) Physicochemical, major anions and heavy metals in surface water and groundwater at Pb–Zn mining areas of Ebonyi State, Nigeria. J Appl Sci Environ Manag 22(7):1017–1020. https://doi.org/10.4314/jasem.v22i7.3
Rao NS, Rao GK (1991) Groundwater quality in Visakhapatnam urban area, Andhra Pradesh. Indian J Environ Health 33(1):25–30
Ravikumar P, Somashekar RK (2015) Principal component analysis and hydrochemical facies characterization to evaluate groundwater quality in Varahi river basin, Karnataka state, India. Appl Water Sci. https://doi.org/10.1007/s13201-015-0287-x
Sha L, Shuguang L, Chaomeng D, An T, Bo T, Gangfeng M, Roman SC, Sergey RC (2017) Heavy metal distribution and groundwater quality assessment for a coastal area on a Chinese Island. Pol J Environ Stud 26(2):733–745
Simsek C (2008) Assessment of natural radioactivity in aquifer medium bearing uranium ores in Koprubasi, Turkey. Environ Geol 55:1637–1646. https://doi.org/10.1007/s00254-007-1113-z
Skeppstrom K, Olofsson B (2007) Uranium and radon in groundwater. An overview of the problem. Eur Water 17(18):51–62
Soltan ME (1999) Evaluation of groundwater quality in Dakhla Oasis (Egyptian Western Desert). Environ Monit Assess 57:157–168
World Health Organization (2011) Guidelines for drinking-water quality [electronic resource]: incorporating 1st and 2nd addenda, recommendations, vol 1, 5th edn. WHO, Geneva, p 668
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Eyankware, M.O., Akakuru, O.C. & Eyankware, E.O. Interpretation of hydrochemical data using various geochemical models: a case study of Enyigba mining district of Abakaliki, Ebonyi State, SE Nigeria. Sustain. Water Resour. Manag. 8, 33 (2022). https://doi.org/10.1007/s40899-022-00613-4
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DOI: https://doi.org/10.1007/s40899-022-00613-4