ASSESSMENT OF PHYSICO-CHEMICAL PROPERTIES OF SHALLOW WELL WATER IN KAWANGWARE LOCATION, NAIROBI CITY, KENYA

  • Beth Waithera Njiraini Department of Environmental Science and Education, School of Environmental Studies, Kenyatta University, Kenya
  • Dr. Ezekiel Ndunda Department of Environmental Science and Education, School of Environmental Studies, Kenyatta University, Kenya
  • Peter Ngugi Kamande Department of Environmental Science and Education, School of Environmental Studies, Kenyatta University, Kenya
DOI: https://doi.org/10.53555/as.v6i9.3915
Keywords: shallow well, ground water, water quality, water quality standards

Abstract

Limited of access to portable water is adversely affecting the public health in many developing countries worldwide. Kawangware Ward in Dagoretti North Constituency is one of the areas undergoing rapid expansion in population, economic growth and urbanization in Nairobi County. This has significantly increased the pressure on public water supply systems in the county. The aim of this study was to determine the quality of water from shallow wells, which issued by households in Kawangware Ward for domestic purposes. In the months of July and August 2017, a total sample of 112 samples of water were collected in the morning and evening. The results of samples from Gatina site show that the following parameters were above the KEBs drinking water standards: turbidity (x̄ =32.8; p=0.000), conductivity as EC (x̄ =601.3; p=0.000), total dissolved solids (x̄ =401.1; p=0.000), hardness as CaCo3 (x̄ =107.6; p=0.000), Sulphate as SO4 (x̄ =0.375; p=0.000), Nitrate as NO3 (x̄ =18.5; p=0.000), Phosphate as PO4 (x̄ =6.7; p=0.001), Lead as Pb (x̄ =0.19; p=0.000), Cadmium as Cd (x̄ = 0.04; p=0.000), Zinc as Zn (x̄ =0.20; p=0.000), Sodium as Na (x̄ =97.0; p=0.000) and Potassium as K (x̄ =25.5; p=0.000).  In the Kawangware site, the following parameters were found to be above the KEBs drinking water standards: pH (x̄ = 7.8; p=0.000), Conductivity( EC) (x̄ =966.3; p=0.000), Total dissolved solids (x̄ =603.1; p=0.000), Hardness as CaCo3 (x̄ =164.8; p=0.000), Sulphate (SO4) (x̄ =0.44; p=0.000), Nitrate ( NO3) (x̄ =18.4; p=0.000), Lead as Pb (x̄ =0.08; p=0.000), Iron as Fe (x̄ =0.18; p=0.001), Cadmium (Cd) (x̄ =0.04; p=0.000), Zinc (Zn) (x̄ =0.02; p=0.000) and Sodium ( Na) (x̄ =113.3; p=0.000). The Kabiro show that the following parameters were above the KEBs drinking water standards:  pH (x̄ = 8.1; p=0.002), Conductivity as EC (x̄ = 310.7; p=0.001), TDS (x̄ = 195.6; p=0.001), Hardness as CaCo3 (x̄ =13.8; p=0.001), Sulphate as SO4 (x̄ = 0.1; p=0.001), Nitrate as No3 (x̄ =17.9; p=0.001), Lead (Pb) (x̄ =0.20; p=0.001), Iron as Fe (x̄ =0.01; p=0.001), Cadmium (Cd) (x̄ =0.04; p=0.001), Zinc (Zn) (x̄ =0.01; p=0.001), Sodium (Na) (x̄ =73.3; p=0.001) and Potassium as K (x̄ =7.9; p=0.001). Therefore, the ground water from shallow wells in Kawangware is not safe for drinking due to elevated levels of nitrates, phosphates, turbidity, lead and cadmium levels which poses a great health risk to the public.

Downloads

Download data is not yet available.

References

Alves,D., Latorre,C., McCleod,N., Payen,G., Roaf,V., Rouse, M. (2016). Manual on the Human Rights to Safe Drinking Water and Sanitation for Practitioners. IWA Publishing
APHA (2005). APHA, 2005. Standard Methods for the Examination of Water and Wastewater,20th edition.. New York, U.S.A: American Public Health Association (APHA).
Basavaraja , S., Hiremath,S., Murthy,K., Chandrashekarappa,K., Patel, A., Puttiah, E. (2011). Global Journal of Science Frontier Research, May, Volume 11 (Issue 3 Version 1.0), pp. pp, 31-34.
Khopkar,M., 2006. Environmental Pollution, Monitoring and Control,, New Delhi.: International Publishers Ltd.
Kinyanjui, M. (2014). Women and the Informal Economy in Urban Africa: From the Margins to the Centre. Zed Books Ltd.
Muraguri, P. (2013). Assessment of Groundwater Quality in Nairobi County, Kenya.
Olago, D. O. & Akech, N. O. (2001). Pollution Assessment in Nairobi River Basin.. In: Pollution Assessment Report of the Nairobi River Basin Project.. s.l.:UNEP/Africa Water Network.
Olajire, A. A. & Imeokparia, F. E. (2001). Water Quality Assessment of Osun River: Studies on Inorganic Nutrients. Environmental Monitoring and Assessment. Scientific Research, Volume 69, pp. pp.17-22.
Safdar, S., Mohsin, M., Asghar, F. & Farrukh Jamal, F. (2013).Assessment of Drinking Water Quality and its Impact on Residents Health inBahawalpur City. International Journal of Humanities and Social Science, Vol. 3(No. 15).
Tibatemwa, S. (2017). The wisdom of planning for a Water Wise Kenya. International Water Association.
Tole , M. P. & Jenipher, M. . S. (2001). Concentrations of Heavy metals in Water,Fish, and Sediments of the Winam Gulf, Lake Victoria, Kenya. Lake Victoria, s.l.: s.n.
UNICEF (2020). Water, Sanitation and Hygiene, Improving water, sanitation and hygiene in Kenya. UNICEF. Retrieved on January 15, 2020 from https://www.unicef.org/kenya/water-sanitation-and-hygiene.
UNICEF (2020). Water, Sanitation and Hygiene. Retrieved on April 5, 2020 https://www.unicef.org/kenya/water-sanitation-and-hygiene
Unicef/WHO (2008). Water, sanitation and hygiene, New York: Unicef/Who.
UNICEF (2008). UNICEF Handbook on Water Quality, New York: United Nations children's fund (UNICEF).
WHO & UNICEF (2000). Global Water Supply and Sanitation Assessment Report, Geneva: World Health Organisation. ISBN 94 4156201.
World Health Organization (2003). Iron in Drinking-water. Retrieved on May 13, 2020 from https://www.who.int/water_sanitation_health/dwq/chemicals/iron.pdf
WHO, 2003. Sodium in Drinking-water Background document for development of WHO Guidelines for Drinking-water Quality, Geneva: World Health Organization (WHO).
World Health Organization (2003). Zinc in Drinking-water. Retrieved on April 17, 2020 from https://www.who.int/water_sanitation_health/dwq/chemicals/zinc.pdf
World Health Organization (2003). Total dissolved solids in Drinking-water. Retrieved on January 6, 2020 from https://www.who.int/water_sanitation_health/dwq/chemicals/tds.pdf
WHO, 2004. Guidelines for drinking-water quality 3rd Ed., Geneva: World Health Organisation (WHO).
World Health Organization (2004). Sulfate in Drinking-water. Retrieved on May 11, 2020 from https://www.who.int/water_sanitation_health/dwq/chemicals/sulfate.pdf
WHO, 2006. World Health Organization (WHO). Guidelines for Drinking Water Quality. First Addedum to 3rd Edition, vol. 1, s.l.: WHO press.
World Health Organization (2007). pH in Drinking-water: Revised background document for development of WHO Guidelines for Drinking-water Quality. Retrieved on January 6, 2020 fromhttps://www.who.int/water_sanitation_health/dwq/chemicals/ph_revised_2007_clean_version.pdf
World Health Organization (2007). Hardness in Drinking-water: Background document for development ofWHO Guidelines for Drinking-water Quality. Retrieved on May 10, 2020 from https://www.who.int/water_sanitation_health/dwq/hardness.pdf
WHO, 2008. Guidelines for Drinking-water Quality ,Third Edition-Incorporating The First and Second Addenda, Geneva: Wolrd Health Organization (WHO).
WHO (2010). Drinking water quality in the South-East Asia region. WHO. Retrieved on May 10, 2020 fromhttps://apps.searo.who.int/PDS_DOCS/B4470.pdf
World Health Organization (2011). Cadmium in Drinking-water. Retrieved on April 17, 2020 from https://www.who.int/water_sanitation_health/dwq/chemicals/cadmium.pdf
World Health Organization (2011). Lead in Drinking-water. Retrieved on April 12, 2020 from https://www.who.int/water_sanitation_health/dwq/chemicals/lead.pdf
WHO (2011). Nitrate and Nitrite in Drinking-water, Geneva: World Health Organization (WHO).
World Health Organization (2011). Rev/1: Nitrate and nitrite in drinking-water. https://www.who.int/water_sanitation_health/dwq/chemicals/nitratenitrite2ndadd.pdf
WHO (2011). Water Sanitation and Health (WSH). Retrived on May 18, 2017 from
http://www.who.int/water_sanitation_health/en/
World Bank (2020). Providing Sustainable Sanitation and Water services to Low-income Communities in Nairobi. World Bank. Retrieved on January 15, 2020 https://www.worldbank.org/en/news/feature/2020/02/19/providing-sustainable-sanitation-and-water-services-to-low-income-communities-in-nairobi
WRC (2002). National Eutrophication Monitoring Programme: Implementation Manual, s.l.: Water Research Commission (WRC).
WWAP (2019). The United Nations world water development report 2019: leaving no one behind. UNESCO Publishing.
Published
2020-10-01
How to Cite
Beth Waithera Njiraini, Dr. Ezekiel Ndunda, & Kamande, P. N. (2020). ASSESSMENT OF PHYSICO-CHEMICAL PROPERTIES OF SHALLOW WELL WATER IN KAWANGWARE LOCATION, NAIROBI CITY, KENYA. IJRDO-Journal of Applied Science, 6(9), 01-20. https://doi.org/10.53555/as.v6i9.3915
Issue
Vol. 6 No. 9 (2020): IJRDO - Journal of Applied Science (ISSN: 2455-6653)
Section
Articles

Copyright (c) 2020 IJRDO - Journal of Applied Science (ISSN: 2455-6653)

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Author(s) and co-author(s) jointly and severally represent and warrant that the Article is original with the author(s) and does not infringe any copyright or violate any other right of any third parties, and that the Article has not been published elsewhere. Author(s) agree to the terms that the IJRDO Journal will have the full right to remove the published article on any misconduct found in the published article.