Acknowledgment to the Reviewers of Journal of Environmental & Earth Sciences in 2025
2026-02-06
Assessment of Groundwater Quality in Agona East District, Ghana
Authors
-
James Kwame Kusi
Department of Chemistry Education, University of Education, Winneba P.O. Box 25, Ghana
-
Sam Arkoful
Department of Chemistry Education, University of Education, Winneba P.O. Box 25, Ghana
-
Twumasi Ankrah Kwarteng
Department of Chemistry Education, University of Education, Winneba P.O. Box 25, Ghana
-
Jacob Dadzie
Laboratory Department, Ghana Water Company Limited, Kwanyako P.O. Box KN 49, Ghana
DOI:
https://doi.org/10.30564/jees.v8i4.13021Abstract
Groundwater also remains an important source of domestic water for rural areas in Agona East district, despite its quality being constantly endangered by natural and human-induced conditions. In this study, the physicochemical parameters and heavy metals present in hand-dug wells in eight rural communities in the Agona East District in Ghana were assessed. Water samples were collected and analyzed for tests that included pH, turbidity, colour, total dissolved solids (TDS), and levels of Fe, Pb, and As, and these were compared with standards outlined by the World Health Organization for clean drinking water. Results indicated that most physicochemical parameters were within World Health Organization (WHO) permissible limits. However, Fe concentrations in Asamoakwaa and Tawora exceed acceptable levels, likely due to geological sources such as Fe-rich parent bedrock. Trace levels of Pb were detected in Sakwa-kwa and Kokwaado. While the overall groundwater quality in the district is suitable for domestic use (Water Quality Index (WQI) = 38.99), site-specific contamination by heavy metals calls for targeted mitigation measures. The Hazard Index (HI) value was less than 1, indicating that the groundwater is likely not to pose a noncarcinogenic effect on consumers. Also, adults and children who depend on groundwater in Agona East district are not likely to suffer carcinogenic effects since the Carcinogenic Risk Index (CRI) for these groups was below their threshold value (1 × 10−4). It is recommended that the Environmental Protection Agency (EPA) officers in Agona East district should frequently monitor the activities of people in the area to protect the groundwater resource.
Keywords:
Groundwater Quality; Heavy Metal; Physicochemical Parameters; Hand-Dug WellsReferences
[1] Amiri, V., Bhattacharya, P., Nakhaei, M., et al., 2021. The Hydrogeochemical Evaluation of Groundwater Resources and Their Suitability for Agricultural and Industrial Uses in an Arid Area of Iran. Groundwater for Sustainable Development. 12, 100527.
[2] Eman, K., Meško, G., 2020. Access to Safe and Affordable Drinking Water as a Fundamental Human Right: The Case of the Republic of Slovenia. In: Blaustein, J., Fitz-Gibbon, K., Pino, N.W., et al. (Eds.). The Emerald Handbook of Crime, Justice and Sustainable Development. Emerald Publishing Limited: Bingley, UK. pp. 465–484.
[3] He, C., Liu, Z., Wu, J., et al., 2021. Future Global Urban Water Scarcity and Potential Solutions. Nature Communications. 12(1), 4667.
[4] Zhai, Y., Han, Y., Xia, X., et al., 2021. Anthropogenic Organic Pollutants in Groundwater Increase Releases of Fe and Mn from Aquifer Sediments: Impacts of Pollution Degree, Mineral Content, and pH. Water. 13(14), 1920.
[5] Chen, W., Wu, C., Pan, S., et al., 2024. Analysis on the Spatiotemporal Evolutions of Groundwater Hydrochemistry and Water Quality Caused by Over-Extraction and Seawater Intrusion in Eastern Coastal China. Frontiers in Earth Science. 12, 1391235.
[6] Izah, S.C., Ogwu, M.C., 2026. Water Pollution and Contamination: Industrial, Agricultural, and Urban Impacts. In: Ogwu, M.C., Chibueze Izah, S. (Eds.). Water Quality and Safety in the Global South. Springer: Cham, Switzerland. pp. 61–85. DOI: https://doi.org/10.1007/978-3-032-10602-5_3
[7] Adu, J.T., Aneke, F.I., 2025. Evaluation of Heavy Metal Contamination in Landfills from E-Waste Disposal and Its Potential as a Pollution Source for Surface Water Bodies. Results in Engineering. 25, 104431.
[8] Siddiqua, A., Hahladakis, J.N., Al-Attiya, W.A.K., 2022. An Overview of the Environmental Pollution and Health Effects Associated with Waste Landfilling and Open Dumping. Environmental Science and Pollution Research. 29(39), 58514–58536.
[9] Abadi, H.T., Alemayehu, T., Berhe, B.A., 2024. Heavy metal’s pollution health risk assessment and source appraisal of groundwater and surface water in Irob catchment, Tigray, Northern Ethiopia. Applied Water Science. 14(9), 201. DOI: https://doi.org/10.1007/s13201-024-02237-9
[10] World Health Organization, 2017. Guidelines for Drinking-Water Quality, 4th Edition, Incorporating the 1st Addendum. World Health Organization: Geneva, Switzerland.
[11] Talabi, A.O., 2022. Groundwater Distribution in Urban Settlement. International Journal of Current Science Research and Review. 5(10), 3838–3856.
[12] Mills, F., Foster, T., Moe, C., et al., 2024. Unsafe containment: Public health risks of septic tanks discharging to drains in Dhaka Bangladesh. PLOS Water. 3(12), e0000325. DOI: https://doi.org/10.1371/journal.pwat.0000325
[13] Mackenzie, J.S., Jeggo, M., Daszak, P., et al., 2013. One Health: The Human–Animal Environment Interfaces in Emerging Infectious Diseases. Springer: Berlin/Heidelberg, Germany.
[14] Agyei, P.M., Dankyi, J.K., Minadzi, V.M., et al., 2025. Corporate Social Responsibility of Universities: Exploring the University of Cape Coast’s Version towards Her Surrounding Communities. Journal of Community and Applied Social Psychology. 35(2), e70060.
[15] Ghana Statistical Service (GSS), 2020. 2020 Population and Housing Census, District Analytical Report – Agona East District. Ghana Statistical Service: Accra, Ghana.
[16] Agyeman, V.O., 2020. Hydrochemical Characterization and Assessment of Groundwater Suitability for Drinking, Domestic and Irrigation Purposes in the Agona East District, Ghana. Iconic Research Engineering Journal. 3(7), 112–125.
[17] Tiwari, T.N., Mishra, M.A., 1985. A Preliminary Assignment of Water Quality Index of Major Indian Rivers. Indian Journal of Environmental Protection. 5(4), 276–279.
[18] United States Environmental Protection Agency (USEPA), 1992. Guidelines for Exposure Assessment. United States Environmental Protection Agency: Washington, DC, USA.
[19] United States Environmental Protection Agency (USEPA), 1989. Guidance Manual for Assessing Human Health Risks from Chemically Contaminated Fish and Shellfish. United States Environmental Protection Agency: Washington, DC, USA.
[20] United States Environmental Protection Agency (USEPA), 2012. EPA Region III Risk-Based Concentration Table 2008 Region III. United States Environmental Protection Agency: Philadelphia, PA, USA.
[21] Ram, A., Tiwari, S.K., Pandey, H.K., et al., 2021. Groundwater Quality Assessment Using Water Quality Index (WQI) under GIS Framework. Applied Water Science. 11(2), 46.
[22] Anim-Gyampo, M., Anornu, G.K., Appiah-Adjei, E.K., et al., 2019. Quality and Health Risk Assessment of Shallow Groundwater Aquifers within the Atankwidi Basin of Ghana. Groundwater for Sustainable Development. 9, 100217.
[23] Sunkari, E.D., Abu, M., Bayowobie, P.S., et al., 2019. Hydrogeochemical Appraisal of Groundwater Quality in the Ga West Municipality, Ghana: Implication for Domestic and Irrigation Purposes. Groundwater for Sustainable Development. 8, 501–511.
[24] Annan, S.T., Frimpong, B., Owusu-Fordjour, C., et al., 2022. Assessing Localized Contamination Hazard and Groundwater Quality Challenges in Water-Stressed Peri-Urban Accra, Ghana. Journal of Geoscience and Environment Protection. 10(1), 13–28.
[25] Tabi, R.N., Gibrilla, A., Boakye, P., et al., 2024. Appraisal of Groundwater Quality and Hydrochemistry in Three Regions of Ghana: Implications for Drinking Purposes. Groundwater for Sustainable Development. 26, 101193.
[26] Akoto, O., Samuel, A., Gladys, L., et al., 2022. Assessment of Groundwater Quality from Some Hostels around Kwame Nkrumah University of Science and Technology. Scientific African. 17, e01361.
[27] Bissonram, P., 2023. An Assessment of Factors Influencing the Spatial Variability of Iron Concentrations in Groundwater in Selected Areas of the Western Cape Province [Master’s Thesis]. University of the Western Cape: Western Cape, South Africa.
[28] Amin, S., Kazama, S., Sawangjang, B., et al., 2024. Causes and Effects of Scale Deposition in Water Supply Pipelines in Surakarta City, Indonesia. Water. 16(16), 2275.
[29] Tordzro, G.A., 2022. Assessment of Seasonal Variations in Water Quality of River Tordzie, Ghana [PhD Thesis]. University of Education Winneba: Winneba, Ghana.
[30] Damania, R., Desbureaux, S., Rodella, A.-S., et al., 2019. Quality Unknown: The Invisible Water Crisis. World Bank Publications: Washington, DC, USA.
[31] Anang, E., Tei, M., Antwi, A.B., et al., 2023. Assessment of Groundwater and Surface Water Quality in a Typical Mining Community: Application of Water Quality Indices and Hierarchical Cluster Analyses. Journal of Water and Health. 21(7), 925–938.
[32] Rajendiran, T., Sabarathinam, C., Panda, B., et al., 2023. Influence of Dissolved Oxygen, Water Level and Temperature on Dissolved Organic Carbon in Coastal Groundwater. Hydrology. 10(4), 85.
[33] Zhang, D., Wang, P., Cui, R., et al., 2022. Electrical Conductivity and Dissolved Oxygen as Predictors of Nitrate Concentrations in Shallow Groundwater in Erhai Lake Region. Science of the Total Environment. 802, 149879.
[34] Akuo-ko, E.O., Otoo, F., Glover, E.T., et al., 2024. A Comprehensive Radiological Survey of Groundwater Resources in Artisanal Mining Communities in the Eastern Region of Ghana: Water Quality vs. Mining Activities. Water. 16(1), 62.
[35] Ren, X., Yu, R., Kang, J., et al., 2022. Hydrochemical Evaluation of Water Quality and Its Influencing Factors in a Closed Inland Lake Basin of Northern China. Frontiers in Ecology and Evolution. 10, 1005289.
[36] Ewool, J., Blankson, E.R., Quartey, J.K., et al., 2024. Heavy Metal Concentrations in Drinking Water Sources in Two Mining Districts in Ghana. Heliyon. 10(13), e25031.
[37] Shankar, S., Shanker, U., Shikha, 2014. Arsenic Contamination of Groundwater: A Review of Sources, Prevalence, Health Risks, and Strategies for Mitigation. The Scientific World Journal. 2014(1), 304524.
[38] Boateng, T.K., Opoku, F., Acquaah, S.O., et al., 2015. Pollution Evaluation, Sources and Risk Assessment of Heavy Metals in Hand-Dug Wells from Ejisu-Juaben Municipality, Ghana. Environmental Systems Research. 4(1), 18.
Downloads
How to Cite
Kusi, J. K., Arkoful, S., Kwarteng, T. A., & Dadzie, J. (2026). Assessment of Groundwater Quality in Agona East District, Ghana. Journal of Environmental & Earth Sciences, 8(4), 34–45. https://doi.org/10.30564/jees.v8i4.13021
Issue
Article Type
Article
License
Copyright © 2026 James Kwame Kusi, Sam Arkoful, Twumasi Ankrah Kwarteng, Jacob Dadzie
This is an open access article under the Creative Commons Attribution-NonCommercial 4.0 International (CC BY-NC 4.0) License.
