Geophysical investigation of the effects of refuse dumpsites on the quality of groundwater in some major towns in Niger state, Nigeria

Matthew Tersoo Tsepav, T Y Usman, B Alfa, A I Worogi, Y Adamu, M. Abdullahi

Abstract

This study was carried out to investigate the effects of refuse dumpsites on the quality of groundwater in some major towns in Niger State, Nigeria. A total of sixty (60) Vertical Electrical Soundings (VES) was conducted across fifteen (15) dumpsites within the study areas; twenty (20) VES at each of the three (3) dumpsites of Lapai, Bida and Paiko using Schlumberger configuration to investigate the possibility of contamination of groundwater in the areas. The resistivity data were collected using G41 Resistivity Meter and interpreted using IPI2Win Software. The results revealed four geo-electrical layers. The resistivity values of the Aquifer layers of Lapai dumpsites ranged from 136 Ωm to 681 Ωm, with the thickness ranging between 2.82 - 8.77 m at the depth of 4.21 – 10.90 m at Engr. A. A. Kure dumpsite. At Malle dumpsite, the thickness range was (1.10 – 4.39) m and the depth at 5.27 – 12.70 m. The resistivity values of the aquifer layers at Bida dumpsites ranged from 161.10 Ωm to 223 Ωm, with the thickness ranging between 4.86 and 11.00 m at the depths of 7.65 – 12.70 m while at Mayaki Ndajiya dumpsite, the thickness range was 4.91 – 23.46 m at the depth of 6.84 – 25.57 m. Also the resistivity values of the aquifer layers of Paiko dumpsites ranged from 20.90 Ωm to 110 Ωm with thicknesses ranging from 2.33 to 14.00 m at the depth range of between 3.85 and 15.50 m at Gidan Marafa dumpsite while the thickness range was from 3.19 – 9.04 m at the depth of 6.70 – 14.14 m at Angwan Akimi dumpsite. These values were used to compute the Dar Zarrouk parameters which indicate aquifer protectivity. The protective capacity of the over burden rock materials at Lapai dumpsites ranged from 0.010 – 0.076 Siemens, while at Bida dumpsites it ranged 0.009 – 0.152 Siemens and at Paiko dumpsites it ranged between 0.025 – 0.046 Siemens. The low protective features observed in the Aquifer zones of Lapai, Bida and Paiko dumpsites indicated the possibility of leachate migration from the waste dumpsites infiltrating into the aquifers and polluting the groundwater. It is evident, from the results of this geophysical survey that the water in the study areas of Lapai, Bida and Paiko could be polluted leading to water related diseases.

Keywords

Dumpsites, resistivity, Dar Zarrouk parameters, groundwater Quality.

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References

Abdullahi, N. K., Osazuwa, I. B. & Sule, P.O. (2019): Application of Integrated Geophysical techniques in the investigation of groundwater contamination. A case study of municipal solid waste leachate. Ocean Journal of Applied Science. 4(1), 7-25.

Adagunodo, T. A., Adeniji A. A., Erinle A. V., Akinwumi S. A., Adewoyin O. O., Joel E. S., Kayode O. T. (2017). Geophysical Investigation into the Integrity of a Reclaimed Open Dumpsite for Civil Engineering Purpose. Interciencia Journal, 42(11): 324 – 339.

Abdourahamane S. I, Manzo L. O., and Djima L. I (2015) “Impact of solid waste disposal system on soil in Maradi City (Niger Republic): a preliminary study of heavy metal contamination,” International Journal of Current Microbiology and Applied Sciences, vol. 4, no. 5, pp. 650–659.

Adebayo, A. S., Ariyibi, E. A., Awoyemi, M .O. & Onyedim, G. C. (2015). Delination of contamination plumes at Olubonku dumpsite using geophysical and geochemical approach at Ede town, southwestern Nigeria. Nigeria Geosci5 (1), 43-54.

Adejumo R. O., Adagunodo T. A., Bility H., Lukman A. F., Isibor P.O. (2018). Physicochemical Constituents of Groundwater and its Quality in Crystalline Bedrock, Nigeria. International Journal of Civil Engineering and Technology, 9(8): 887 – 903.

Akande, S. O., Ojo, O. J., Erdtmann, B. D., and Hetenyi, M., (2005) Paleoenvironments, Organic Petrology and Rock Eval studies on source rock facies of the Campanian to Maastrichtian Patti Formation, southern Bida basin, Nigeria. Journal of African Earth Sciences 41: 394-406.

Akoteyon, I.S. (2012). Evaluation of groundwater quality using contamination index in parts of Alimosho, Lagos, Nigeria. American Academic & Scholarly Research Journal, 4(4)

Anomohanran, O. (2011) Assessment of Groundwater Potential and Aquifer Characteristics in the Vicinity of Igun, Eku and Oria in Delta State, Nigeria. Journal of Water Resource and Protection > Vol.6 No.8,

Asuma, O. (2013) “Leachate characterization and assessment of groundwater and surface water qualities near municipal solid waste dump site in Effurun, Delta State, Nigeria,” Journal of Environmental and Earth Sciences, vol. 3, no. 9, pp. 126–135, 2013.

Barounis, N. and Karadim, K. (2017) Application of half Schlumberger configuration for detecting karstic cavities and voids for a wind farm site in Greece. Journal of Earth Sciences and Geotechnical Engineering, Vol. 1, No.1, pp. 101- 116.

Bello, Abdulmajeed A. and Makinde, Victor (2007): Delineation of the Aquifer in the South Western Part of the Nupe Basin, Kwara State, Nigeria. Journal of America Science, 3, 36-44.

Birhanu, Y. and Berisa, G. (2015)“Assessment of solid Waste management practices and the role of public participation in Kaduna town, Kaduna state, Nigeria,” International Journal of Environmental Protection and Policy, vol. 3, no. 5, pp. 153–168.

Bundela P. S., Sharma A., Pandey A. K., Pandey P., and Awasthi A. K. (2012) Physicochemical Analysis of ground water near municipal solid waste dumping sites in Jabalpur. International Journal of Plant, Annual and Environmental Science., 2, (1), 217.

Elias P, (2017) International Journal of Scientific Engineering and Science Volume 1, Issue 5, pp. 35-39,. ISSN (Online): 2456-7361

Hasan, M. R., Khan, M. Z. H., and Khan M. (2016) “Metals distribution and contamination in surface water of the Bay of Bengal coast,” Cogent Environmental Science, vol. 2, no. 1, pp. 1–12.

Henriet, J. P. (1976). Direct Application of Dar- Zarrouk Parameters in Ground Water Surveys. Geophysical Prospectus, 24, 344–353.

Iyoha AA, Amadasun CVO, Evboumwan IA (2013) 2D Resistivity Imaging investigation of solid waste landfill sites in Ikhyeniro municipacity. Ikpoba Okha Local Government Area, Edo State, Nigeria. Journal Resources Development Management 1:65–69

Jatau, B. S. and Ajodo, R. O. (2006): Preliminary Geo-environment evaluation of part of Kaduna North Metropolis, Kaduna, Nigeria. A Paper presented at Nigeria Association of Hydrogeologists (NAH) 18th Annual National Conference Asaba, P. 1-2.

Jegede, S. I., Ujuanbi, O, Abdullahi, N.K and Iserhien-Ewekeme, R.E (2012): Mapping and monitoring of leachate plume migration at an Open Waste Disposal Site using Non-Invasive Methods. Research Journal of Environmental and Earth Sciences 4(1) :26-33.

Kasprazak M (2015) High-resolution electrical resistivity tomography applied to patterned ground, Wedel Jarlsberg land, south–west Spitsbergen. Polar Res 34:25678. doi:10.3402/polar.v34.25678

Karijia M.K, Shihua Q., and Lukaw S. Y, “(e impact of poor municipal solid waste management practices and sanitation status on water quality and public health in cities of the least developed countries : the case of Juba, South Sudan,” International Journal of Applied Science and Technology, vol. 3, no. 4, pp. 87–99.

Kebede A. A., Olani D. D., and Edesa T. G., (2016)“Heavy metal content and physico-chemical properties of soil around solid waste disposal sites,” American Journal of Scientific and Industrial Research, vol. 7, no. 5, pp. 129–139.

Lawal T.O., Nwankwo, L.I., Akoshile, C.O. and Salawu, Y.A. (2014). Geophysical Investigations of Groundwater Potential of Ara, Ilorin, Kwara State. Centre Point Journal, Vol. 20, No. 2, pp. 41-52.

Nwagbara J. O., Nwugha, V. N., Ulor M. O. (2012) Electrical resistivity study for vulnerability of groundwater pollution: A case study of land fill dumpsites in OWERRI, IMO state. International Journal of Emerging Trends in Engineering and Development. 2, (4), 17.

NIPOST. Archived from the original on 2012-11-26."Post Offices- with map of LGA". Retrieved 2009-10-20.

Obaje, N. G (2020) Geology and Mineral Resources of Nigeria. LectureNotes in Earth Science, 120

Olagunju, E., A., Emmanuel, M., Awoyemi, A., Adebayo, O., Dasho, C., A. (2017). Application of geochemical and geophysical approach to environmental impact assessment: A case study of Emiran active open dumpsite, Ado-Ekiti southwestern Nigeria. Model Earth Syst. Environ. DOI 10.1007/S4080801703811.

Ogungbe A.S., Onori E O., Olaoye M.A. (2012) Application of electrical resistivity techniques in the investigation of groundwater contamination: A case study of IleEpo Dumpsite, Lagos, Nigeria. International Journal of Geometrics and Geosciences, 3, (1), 30.

Oyedele, K.F. (2019). Total Dissolved Solids (TDS) Mapping in Groundwater using Geophysical method. New York Science Journal, Vol. 2, No. 3, pp. 10-15.

Rastegari M., (2017) “Distribution, source identification and health risk assessment of soil heavy metals in urban areas of Isfahan province, Iran,” Journal of Africa Earth Science, vol. 132, pp. 16–26.

Shiklomanov, I. (1993). Legal System Governing on Water Pollution, Journal of Geoscience and Environment Protection, 5: 9-17.

Tsepav MT., Ibrahim SI. And Bayegun FA. (2015). Geoelectrical Characterization of Aquifer Precincts in Parts of Lapai, North Central Nigeria.Journal of Apply Science Environmental Management. 19,295 - 301

Tsepav Matthew Tersoo, Aliyu Yahaya Badeggi, Obaje Nuhu George3 and, Usman Yusuf Tanko Ibrahim Samuel Ibbi (2021). On the use of electrical resistivity method in mapping potential sources and extent of pollution of groundwater systems in Lapai Town, Niger State, Nigeria. Journal of Physice: Theories and Applicatins, Vol. 5 No. 1, 18-36

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