Hydrochemical characterization of groundwater aquifer using multivariate analysis, Minna, North Central Nigeria.

Shuaibu, AM; Abdullahi, I. N.

doi:10.4314/njtr.v10i1.5

Cited by 2 publications

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“…Contamination of groundwater is an important vehicle for spread of diseases (Ezeigbo, 1989;Abubakar et al, 2017). More so, the need for water has resulted in an increasing withdrawal of groundwater in sensitive areas like crystalline environments, where aquifers may suffer from over abstraction, which consequently may result in deterioration of its quality (Akujieze et al, 2007, Amadi and Olasehinde, 2008, Amadi, 2010, Kanade and Gaikwad, 2011, Akano, 2015, Shuaibu and Abdullahi, 2015, Abubakar et al, 2017. It is worthy to note that water quality has been evaluated in the last years owing to greater understanding of mineralization process and greater concern about its origin (Shane and Jerzy, 2003).…”

Section: Introductionmentioning

confidence: 99%

Hydrochemical characterization and evaluation of groundwater quality of zamfara area, northwest, nigeria

Shuaibu¹,

Garba²,

Abubakar³

2022

Glo Jnl Geo Sci

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This study deals with hydrochemical assessment of groundwater within the lithological framework underlain Zamfara State, Northwestern Nigeria with the aim of ascertaining its suitability for human consumption. Groundwater samples were collected from boreholes tapping the aquifer of the area and analyzed for various physico-chemical parameters, such as total dissolve solids, electrical conductivity (Ec), pH, temperature, Na+, K+, Ca2+, Mg2+, HCO3, Cl-, SO4, NO3, PO4, and trace elements (Mn, Cu, Zn, Fe, Pb and Cr). The results obtained were subjected to multivariate statistical analysis, water quality index method, and hydrochemical variation plots for proper characterization. As far as suitability is concerned most of the studied physic-chemical parameters trace elements (iron, lead and chromium ions) revealed average concentrations lower than the permissible limit set for domestic water use by World Health Organization. However, the compiled overall water quality index for the studied groundwater shows ‘very poor water quality’. Due to the fact that WQI rating reflect the composite influence of different water quality parameters. The result of the multivariate statistical analysis, as applied to the chemical data set of the studied groundwater provides an insight into the underlying controlling hydrochemical processes in the area. Four factors including factor-1 (total hardness, chloride, nitrate, manganese, bicarbonate and alkalinity), factor-2 (TDS, conductivity, total hardness, magnesium and calcium), factor-3 (Temperature, sodium, potassium, copper, zinc, iron and chromium), factor-4 (calcium, magnesium and nitrate) represents the signatures from dissolution of bedrock through which the groundwater passes, ionic mixing, leaching from the lateritic overburden, agricultural activities (fertilizer application) and effluent from waste dumpsites in the study area. The distribution of major ions in the groundwater shows relative abundance of cations: Na++K+ > Ca2+ > Mg2+; while the relative abundance of the anions is: Cl- > HCO3- > SO42-. Groundwater in the aquifer of the study area are majorly of evolved type with mixing of ionic concentrations. Alkali’s are more in abundant to that of alkaline earth, while Cl and HCO3 dominate SO4 and NO3 concentration. The water samples are basically ‘Alkali waters’ with ‘Earth Alkaline’ components that are predominantly HCO3- and Cl-.The relative abundance of the three (3) dominant water types are as thus: Na-HCO3-Cl > Ca-Mg-HCO3-Cl > Na-Ca-Cl. Simple mineral dissolution or mixing processes is mainly responsible for the variation in the hydrochemistry of the groundwater of the study area.

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Section: Introductionmentioning

confidence: 99%

Hydrochemical characterization and evaluation of groundwater quality of zamfara area, northwest, nigeria

Shuaibu¹,

Garba²,

Abubakar³

2022

Glo Jnl Geo Sci

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Assessment of Possible Water Contamination in Shallow Wells of Suleja and Its Environ North Central, Nigeria

Mahi,

Bello,

Usman

2024

FJS

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This research work aimed at assessing the waste dump impacts on shallow groundwater physico-chemical and biological constituents of Suleja area. Groundwater samples were collected monthly at different locations within the study area. Forty-three (43) samples were collected during the dry season while forty-two (42) samples were collected for the wet season at the same samples locations for standard water quality laboratory analysis. The data sets obtained from the laboratory were subjected to descriptive statistics and Anova test to establish their relationship, including water quality index were calculated. The hydrochemical results revealed mean concentrations of physical parameters in the following order: Conductivity > TH > TDS > Alk > T > pH for the dry season while total dissolve solids range higher to that of total hardness concentrations during the wet season (Conductivity > TDS > TH > Alk > Temp. > pH). The minor ionic distributions revealed higher mean concentration of Sulphate ion followed by chloride, bicarbonate, carbon dioxide, and nitrate ions (SO4 > Cl- > HCO3 > CO2 > NO3) for the both seasons. The major ionic enrichment is in the following order: Ca2+ > Mg2+ > Na+ > K+) for the both seasons. The heavy metals ions revealed high mean concentration of iron followed by zinc, manganese, and copper during the dry season while concentration of manganese preceded that of zinc during the wet season. Both chemical oxygen demand and biological oxygen demand indicated similar concentrations trends through-out the seasons. Hydrochemical result depict average degree of temperature,...

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Hydrochemical characterization of groundwater aquifer using multivariate analysis, Minna, North Central Nigeria.

Cited by 2 publications

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Hydrochemical characterization and evaluation of groundwater quality of zamfara area, northwest, nigeria

Hydrochemical characterization and evaluation of groundwater quality of zamfara area, northwest, nigeria

Assessment of Possible Water Contamination in Shallow Wells of Suleja and Its Environ North Central, Nigeria

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