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Domestic water quality and the discriminatory influence of socio-economic stratification on accessibility to safe water in a part of Osun State, Nigeria

Year 2023, , 19 - 31, 30.06.2023
https://doi.org/10.51800/ecd.1253076

Abstract

The status of the water supplied to households in an urban local government area in southwest Nigeria was examined. Specific objectives were to characterize household water sources, assess the per capita usage of potable water sources and examine quality of the household water in the area. The purposively selected study area, Olorunda local government area in Osun State, Nigeria (being an urban local government area) was stratified into ‘urban core’ (central business district, CBD or high population density area), ‘transition’ (medium population density area but with less social infrastructure) and ‘sub-urban’ (typically government reserved area and low population density area) based on household density and associative socio-economic status. The methods were a mix of questionnaire administration to heads of 120 households (40 per stratum) and collection of the drinking water samples from the supply sources at four randomly selected households in each stratum. The water samples were analysed for the concentrations of nitrite (NO2-), nitrate (NO3-), fluoride (F-), lead (Pb) and arsenic (As) as well as E-coli bacteria contents based on their importance in determining water quality in urban areas. The results showed that domestic water sources are mainly hand dug well (55.8%), borehole (37.5%) and pipe borne (6.7%). Residents averagely consumed at most 4L of water per day. Furthermore, the investigated chemical parameters varied as NO2 (0.37-0.94 mg/l), NO3 (0.29-0.70 mg/l), and F- (0.003-0.97 mg/l). As and Pb occurred in trace quantities, and there were no pollution threats to consumers. The amount of E coli and total coliform contents were however outside the safe limits for residents, suggesting contamination of household water by the bacteria sources. The study concluded communities with low socio-economic status which do not have access to state-provided tap water source are more likely to consume polluted water than those with high socio-economic status or that are supplied with state-provided tap water. The study advocates improve urban water management for the urban fringe dwellers.

Supporting Institution

None

Project Number

Not applicable

References

  • Adediji, A., & Ajibade, L. T. (2005). Quality of well water in Ede Area, southwestern Nigeria. Journal of Human Ecology, 17(3), 223-228.
  • Adekola, A. O. (2018). Assessment of water infrastructure and occurrence of water related diseases in Oyo town, Oyo State, Nigeria; Unpublished M.Sc. Dissertation; Department of Geography, Obafemi Awolowo University, Ile Ife, Nigeria, 135p
  • Aguda, A. S., & Adegboyega, S. A. (2013). Evaluation of spatio-temporal dynamics of urban sprawl in Osogbo, Nigeria using satellite imagery & GIS techniques. International Journal of Multidisciplinary and Current Research, 1(1), 39-51.
  • APHA (1998) Standard Methods for the examination of water and waste water American Public Health Association. 84pp.
  • Bain, R., Johnston, R., Mitis, F., Chatterley, C., & Slaymaker, T. (2018). Establishing sustainable development goal baselines for household drinking water, sanitation and hygiene services. Water, 10(12), 1711.
  • Bos, V. (2016). Trends in socioeconomic inequalities in self–associated health in 10 European countries, International Journal of Epidemiology, 34(2); 295-305.
  • Burgess, E. W. (2015). The growth of the city: an introduction to a research project. In The city reader (pp. 212-220). Routledge.
  • Chapman, D. (2021). Water quality assessments: a guide to the use of biota, sediments and water in environmental monitoring. CRC Press.
  • Connor, R. (2015). The United Nations world water development report 2015: water for a sustainable world (Vol. 1). UNESCO publishing.
  • de Joode, B.V.W., Mora, A.M., Lindh, C.H., Hernández-Bonilla, D., Córdoba, L., Wesseling, C., Hoppin, J.A. and Mergler, D. (2016). Pesticide exposure and neurodevelopment in children aged 6–9 years from Talamanca, Costa Rica. cortex, 85, 137-150.
  • Dubrovsky, N. M., Burow, K. R., Clark, G. M., Gronberg, J. M., Hamilton, P. A., Hitt, K. J., ... & Wilber, W. G. (2010). The quality of our Nation’s waters—Nutrients in the Nation’s streams and groundwater, 1992–2004. US geological survey Circular, 1350(2), 174
  • Ehindero, O. J. (2006). Environmental education and sustainable development. Lagos: lantern books. Eludoyin, A. O. (2016). Sustainability and water reclamation. In Urban Water Reuse Handbook (pp. 1077-1084). CRC Press.
  • Eludoyin, A. O. (2020). Accessibility to safe drinking water in selected urban communities in southwest Nigeria. Water Productivity Journal, 1(2), 1-10.
  • Eludoyin, A. O., & Olanrewaju, O. E. (2022). Water supply and quality in sub-Saharan Africa. In Clean Water and Sanitation (pp. 897-913). Cham: Springer International Publishing.
  • Eludoyin, A. O., Akinbode, O. M., & Ediang, O. A. (2007, September). Challenges of river basin information system (RBIS) as a framework for the assessment and monitoring of surface water in Nigeria. In International Symposium on New Directions in Urban Water Management (pp. 12-14).
  • Eludoyin, A. O., Ofoezie, I. E., & Ogunkoya, O. O. (2004). The effect of Oja-titun market effluent on the chemical quality of receiving OPA reservoir in Ile-Ife, Nigeria. Journal of environmental management, 72(4), 249-259.
  • Eludoyin, A., Eludoyin, O., Martins, T., Oyinloye, M., & Eslamian, S. (2021). Water Security Using Rainwater Harvesting. Handbook of Water Harvesting and Conservation: Basic Concepts and Fundamentals, 57-67.
  • Erah, P. O., & Akujieze, C. N. (2002). The Quality of Groundwater in Benin City: A baseline study on inorganic chemicals and microbial contaminants of health importance in boreholes and open wells. Tropical Journal of Pharmaceutical Research, 1(2), 75-82.
  • Fadare, S. O., & Olawuni, P. O. (2008). Domestic Water Supply and Health of Households in the Three Residential Densities in Osogbo, Osun State, Nigeria. Ethiopian Journal of Environmental Studies and Management, 1(2), 35-43.
  • Friedmann, J. (1966). Regional development policy: a case study of Venezuela. MIT press. Gleick, P. H. (1996). Basic water requirements for human activities: meeting basic needs. Water international, 21(2), 83-92.
  • Goldsmith, E., & Hildyard, N. (1988). The Earth report: monitoring the battle for our environment. Mitchell Beazley. London, pp 79- 88.
  • Harris, C. D., & Ullman, E. L. (1945). The nature of cities. The annals of the American academy of political and social science, 242(1), 7-17.
  • Howard, G., Bartram, J., Water, S., & World Health Organization. (2003). Domestic water quantity, service level and health, WHO, Geneva. Copyrightrestric.PDF (who.int)
  • Hoyt, H. (1939). The structure and growth of residential neighborhoods in American cities. US Government Printing Office. USA,
  • Ingold, T. (2010). Footprints through the weather‐world: walking, breathing, knowing. Journal of the Royal Anthropological Institute, 16, S121-S139.
  • Kelkar, M., & Perez, G. (2002). Applied geostatistics for reservoir characterization, https://doi.org/10.2118/9781555630959.
  • Mulligan, M., van Soesbergen, A., Hole, D. G., Brooks, T. M., Burke, S., & Hutton, J. (2020). Mapping nature's contribution to SDG 6 and implications for other SDGs at policy relevant scales. Remote Sensing of Environment, 239, 111671.
  • Mwanza, D. D. (2005). Water for sustainable development in Africa. In The world summit on sustainable development (pp. 91-111). Springer, Dordrecht.
  • National Population Commission. (2006). Nigerian population census. Published by NPC, Abuja. Nnenna, D. P. (2014). Implications of Borehole Water as A Substitute for Urban Water Supply: The Case of Egbeada Federal Housing Estate Owerri, Imo State. International Journal for Innovation Education and Research, 2, 10-14.
  • Olajuyigbe, A. (2010). Some factors impacting on quantity of water used by households in a rapidly urbanizing state capital in South Western Nigeria. Journal of Sustainable Development in Africa, 12(2), 321-37. Omodanisi, E. O., Eludoyin, A. O., & Salami, A. T. (2014). A multi-perspective view of the effects of a pipeline explosion in Nigeria. International Journal of Disaster Risk Reduction, 7, 68-77.
  • Oyebanjo, O. A., Joshua, E. O., & Jibiri, N. N. (2012). Natural radionuclides and hazards of sediment samples collected from Osun River in Southwestern Nigeria. The pacific journal of science and technology, 13(2), 391-396.
  • Oyeku, O. T., & Eludoyin, A. O. (2010). Heavy metal contamination of groundwater resources in a Nigerian urban settlement. African Journal of Environmental Science and Technology, 4(4).
  • Sampson, R. J. (2008). Moving to inequality: Neighborhood effects and experiments meet social structure. American journal of sociology, 114(1), 189-231.
  • Sanstrom, K. (1997). Ephemeral rivers in the tropics: hydrological processes and water resources management: a review and pathfinder (No. 8). Research Report.
  • Sule, B. F., & Okeola, O. G. (2010). Measuring willingness to pay for improved urban water supply in Offa City, Kwara State, Nigeria. Water Science and Technology: Water Supply, 10(6), 933-941.
  • Tatlock, J. R. (2006). How in ancient times they sacrificed people: Human immolation in the Eastern Mediterranean basin with special emphasis on ancient Israel and the Near East. University of Michigan.
  • Tearfund, WaterAid (2008). Sanitation and water - Why we need a global framework for action, WaterAid. Retrieved from https://policycommons.net/artifacts/2332350/sanitation-and-water/3092975/ on 26 Dec 2022. CID: 20.500.12592/qs7zjn.
  • WHO and UNICEF (2017). Progress on Drinking Water, Sanitation and Hygiene: 2017 Update and Sustainable Development Goal Baseline. New York, WHO/UNICEF Joint Monitoring Programme for Water Supply and Sanitation.
  • WHO/UNICEF Joint Water Supply, & Sanitation Monitoring Programme. (2014). Progress on drinking water and sanitation: 2014 Update. World Health Organization.
  • World Health Organization. (2006). Guidelines for drinking-water quality [electronic resource]: incorporating first addendum. Vol. 1, Recommendations, GDWPR (who.int).

Nijerya, Osun Eyaletinin bir bölümünde evsel su kalitesi ve sosyo-ekonomik tabakalaşmanın güvenli suya erişim üzerindeki ayrımcı etkisi

Year 2023, , 19 - 31, 30.06.2023
https://doi.org/10.51800/ecd.1253076

Abstract

Güneybatı Nijerya'da kentsel bir yerel yönetim bölgesinde hanelere verilen suyun durumu incelenmiştir. Evsel su kaynaklarının karakterize edilmesi, içilebilir su kaynaklarının kişi başına kullanımının değerlendirilmesi ve bölgedeki evsel su kalitesinin incelenmesi özel hedeflerdi. Amaca uygun olarak seçilen çalışma alanı, Nijerya'nın Osun Eyaletindeki Olorunda yerel yönetim alanı (kentsel bir yerel yönetim alanıdır) 'kentsel çekirdek' (merkezi iş bölgesi, MİA veya yüksek nüfus yoğunluğu bölgesi), 'geçiş' (orta nüfus yoğunluğu) olarak katmanlara ayrılmıştır. alan ancak daha az sosyal altyapıya sahip) ve 'banliyö' (tipik olarak hükümet tarafından ayrılmış alan ve düşük nüfus yoğunluğuna sahip alan) hanehalkı yoğunluğuna ve birleştirici sosyo-ekonomik duruma bağlıdır. Yöntemler, 120 hane reisine (katman başına 40) anket uygulaması ve her tabakada rastgele seçilen dört hanedeki kaynak kaynaklarından içme suyu örneklerinin toplanması karışımıydı. Su numuneleri, nitrit (NO2-), nitrat (NO3-), florür (F-), kurşun (Pb) ve arsenik (As) konsantrasyonları ile E-coli bakteri içeriklerinin belirlenmesindeki önemlerine göre analiz edildi. Kentsel alanlarda su kalitesi. Sonuçlar, evsel su kaynaklarının çoğunlukla elle kazılmış kuyu (%55,8), sondaj (%37,5) ve boru kaynaklı (%6,7) olduğunu göstermiştir. Sakinleri ortalama olarak günde en fazla 4L su tüketti. Ayrıca incelenen kimyasal parametreler NO2 (0,37-0,94 mg/l), NO3 (0,29-0,70 mg/l) ve F- (0,003-0,97 mg/l) olarak değişmiştir. As ve Pb eser miktarlarda meydana geldi ve tüketiciler için kirlilik tehdidi yoktu. Bununla birlikte, E coli miktarı ve toplam koliform içeriği, konut sakinleri için güvenli limitlerin dışındaydı ve bu da ev suyunun bakteri kaynakları tarafından kontamine olduğunu düşündürüyor. Çalışma, düşük sosyo-ekonomik statüye sahip ve devlet tarafından sağlanan musluk suyu kaynağına erişimi olmayan toplulukların, yüksek sosyo-ekonomik statüye sahip veya devlet tarafından sağlanan musluk suyuna sahip olanlara göre kirli su tüketme olasılığının daha yüksek olduğu sonucuna varmıştır. Çalışma, kentsel çevre sakinleri için kentsel su yönetiminin iyileştirilmesini savunmaktadır

Project Number

Not applicable

References

  • Adediji, A., & Ajibade, L. T. (2005). Quality of well water in Ede Area, southwestern Nigeria. Journal of Human Ecology, 17(3), 223-228.
  • Adekola, A. O. (2018). Assessment of water infrastructure and occurrence of water related diseases in Oyo town, Oyo State, Nigeria; Unpublished M.Sc. Dissertation; Department of Geography, Obafemi Awolowo University, Ile Ife, Nigeria, 135p
  • Aguda, A. S., & Adegboyega, S. A. (2013). Evaluation of spatio-temporal dynamics of urban sprawl in Osogbo, Nigeria using satellite imagery & GIS techniques. International Journal of Multidisciplinary and Current Research, 1(1), 39-51.
  • APHA (1998) Standard Methods for the examination of water and waste water American Public Health Association. 84pp.
  • Bain, R., Johnston, R., Mitis, F., Chatterley, C., & Slaymaker, T. (2018). Establishing sustainable development goal baselines for household drinking water, sanitation and hygiene services. Water, 10(12), 1711.
  • Bos, V. (2016). Trends in socioeconomic inequalities in self–associated health in 10 European countries, International Journal of Epidemiology, 34(2); 295-305.
  • Burgess, E. W. (2015). The growth of the city: an introduction to a research project. In The city reader (pp. 212-220). Routledge.
  • Chapman, D. (2021). Water quality assessments: a guide to the use of biota, sediments and water in environmental monitoring. CRC Press.
  • Connor, R. (2015). The United Nations world water development report 2015: water for a sustainable world (Vol. 1). UNESCO publishing.
  • de Joode, B.V.W., Mora, A.M., Lindh, C.H., Hernández-Bonilla, D., Córdoba, L., Wesseling, C., Hoppin, J.A. and Mergler, D. (2016). Pesticide exposure and neurodevelopment in children aged 6–9 years from Talamanca, Costa Rica. cortex, 85, 137-150.
  • Dubrovsky, N. M., Burow, K. R., Clark, G. M., Gronberg, J. M., Hamilton, P. A., Hitt, K. J., ... & Wilber, W. G. (2010). The quality of our Nation’s waters—Nutrients in the Nation’s streams and groundwater, 1992–2004. US geological survey Circular, 1350(2), 174
  • Ehindero, O. J. (2006). Environmental education and sustainable development. Lagos: lantern books. Eludoyin, A. O. (2016). Sustainability and water reclamation. In Urban Water Reuse Handbook (pp. 1077-1084). CRC Press.
  • Eludoyin, A. O. (2020). Accessibility to safe drinking water in selected urban communities in southwest Nigeria. Water Productivity Journal, 1(2), 1-10.
  • Eludoyin, A. O., & Olanrewaju, O. E. (2022). Water supply and quality in sub-Saharan Africa. In Clean Water and Sanitation (pp. 897-913). Cham: Springer International Publishing.
  • Eludoyin, A. O., Akinbode, O. M., & Ediang, O. A. (2007, September). Challenges of river basin information system (RBIS) as a framework for the assessment and monitoring of surface water in Nigeria. In International Symposium on New Directions in Urban Water Management (pp. 12-14).
  • Eludoyin, A. O., Ofoezie, I. E., & Ogunkoya, O. O. (2004). The effect of Oja-titun market effluent on the chemical quality of receiving OPA reservoir in Ile-Ife, Nigeria. Journal of environmental management, 72(4), 249-259.
  • Eludoyin, A., Eludoyin, O., Martins, T., Oyinloye, M., & Eslamian, S. (2021). Water Security Using Rainwater Harvesting. Handbook of Water Harvesting and Conservation: Basic Concepts and Fundamentals, 57-67.
  • Erah, P. O., & Akujieze, C. N. (2002). The Quality of Groundwater in Benin City: A baseline study on inorganic chemicals and microbial contaminants of health importance in boreholes and open wells. Tropical Journal of Pharmaceutical Research, 1(2), 75-82.
  • Fadare, S. O., & Olawuni, P. O. (2008). Domestic Water Supply and Health of Households in the Three Residential Densities in Osogbo, Osun State, Nigeria. Ethiopian Journal of Environmental Studies and Management, 1(2), 35-43.
  • Friedmann, J. (1966). Regional development policy: a case study of Venezuela. MIT press. Gleick, P. H. (1996). Basic water requirements for human activities: meeting basic needs. Water international, 21(2), 83-92.
  • Goldsmith, E., & Hildyard, N. (1988). The Earth report: monitoring the battle for our environment. Mitchell Beazley. London, pp 79- 88.
  • Harris, C. D., & Ullman, E. L. (1945). The nature of cities. The annals of the American academy of political and social science, 242(1), 7-17.
  • Howard, G., Bartram, J., Water, S., & World Health Organization. (2003). Domestic water quantity, service level and health, WHO, Geneva. Copyrightrestric.PDF (who.int)
  • Hoyt, H. (1939). The structure and growth of residential neighborhoods in American cities. US Government Printing Office. USA,
  • Ingold, T. (2010). Footprints through the weather‐world: walking, breathing, knowing. Journal of the Royal Anthropological Institute, 16, S121-S139.
  • Kelkar, M., & Perez, G. (2002). Applied geostatistics for reservoir characterization, https://doi.org/10.2118/9781555630959.
  • Mulligan, M., van Soesbergen, A., Hole, D. G., Brooks, T. M., Burke, S., & Hutton, J. (2020). Mapping nature's contribution to SDG 6 and implications for other SDGs at policy relevant scales. Remote Sensing of Environment, 239, 111671.
  • Mwanza, D. D. (2005). Water for sustainable development in Africa. In The world summit on sustainable development (pp. 91-111). Springer, Dordrecht.
  • National Population Commission. (2006). Nigerian population census. Published by NPC, Abuja. Nnenna, D. P. (2014). Implications of Borehole Water as A Substitute for Urban Water Supply: The Case of Egbeada Federal Housing Estate Owerri, Imo State. International Journal for Innovation Education and Research, 2, 10-14.
  • Olajuyigbe, A. (2010). Some factors impacting on quantity of water used by households in a rapidly urbanizing state capital in South Western Nigeria. Journal of Sustainable Development in Africa, 12(2), 321-37. Omodanisi, E. O., Eludoyin, A. O., & Salami, A. T. (2014). A multi-perspective view of the effects of a pipeline explosion in Nigeria. International Journal of Disaster Risk Reduction, 7, 68-77.
  • Oyebanjo, O. A., Joshua, E. O., & Jibiri, N. N. (2012). Natural radionuclides and hazards of sediment samples collected from Osun River in Southwestern Nigeria. The pacific journal of science and technology, 13(2), 391-396.
  • Oyeku, O. T., & Eludoyin, A. O. (2010). Heavy metal contamination of groundwater resources in a Nigerian urban settlement. African Journal of Environmental Science and Technology, 4(4).
  • Sampson, R. J. (2008). Moving to inequality: Neighborhood effects and experiments meet social structure. American journal of sociology, 114(1), 189-231.
  • Sanstrom, K. (1997). Ephemeral rivers in the tropics: hydrological processes and water resources management: a review and pathfinder (No. 8). Research Report.
  • Sule, B. F., & Okeola, O. G. (2010). Measuring willingness to pay for improved urban water supply in Offa City, Kwara State, Nigeria. Water Science and Technology: Water Supply, 10(6), 933-941.
  • Tatlock, J. R. (2006). How in ancient times they sacrificed people: Human immolation in the Eastern Mediterranean basin with special emphasis on ancient Israel and the Near East. University of Michigan.
  • Tearfund, WaterAid (2008). Sanitation and water - Why we need a global framework for action, WaterAid. Retrieved from https://policycommons.net/artifacts/2332350/sanitation-and-water/3092975/ on 26 Dec 2022. CID: 20.500.12592/qs7zjn.
  • WHO and UNICEF (2017). Progress on Drinking Water, Sanitation and Hygiene: 2017 Update and Sustainable Development Goal Baseline. New York, WHO/UNICEF Joint Monitoring Programme for Water Supply and Sanitation.
  • WHO/UNICEF Joint Water Supply, & Sanitation Monitoring Programme. (2014). Progress on drinking water and sanitation: 2014 Update. World Health Organization.
  • World Health Organization. (2006). Guidelines for drinking-water quality [electronic resource]: incorporating first addendum. Vol. 1, Recommendations, GDWPR (who.int).
There are 40 citations in total.

Details

Primary Language English
Subjects Human Geography
Journal Section Research Articles
Authors

Adebayo Eludoyin 0000-0003-0532-7689

Project Number Not applicable
Publication Date June 30, 2023
Submission Date February 19, 2023
Acceptance Date June 22, 2023
Published in Issue Year 2023

Cite

APA Eludoyin, A. (2023). Domestic water quality and the discriminatory influence of socio-economic stratification on accessibility to safe water in a part of Osun State, Nigeria. Ege Coğrafya Dergisi, 32(1), 19-31. https://doi.org/10.51800/ecd.1253076