The microbiological quality of wells and borehole waters in Dar es Salaam Region.

Authors

  • Petronila P. Orotho
  • Leonard W.T. Fweja

DOI:

https://doi.org/10.61538/huria.v12i0.108

Abstract

The present study was carried out to examine the microbiological quality of 45 randomly selected wells and boreholes in Dar es Salaam City. Total coliform and fecal coliforms were used as indicator microorganisms. Coliform count was done by using a three tube assay of Most Probable Number (MPN) technique in which both Presumptive coliform test and Confirmation test were carried out. Questionnaire and observational methods were used to collect information on the possible sources of contamination and the construction and maintenance of well/ boreholes. The results generally indicate poor water quality with an overall mean values of 424 and 379 cfu/100 ml for total caliform and feacal caliform (for Temeke Municipality), 5 and 8 cfu/100ml for total and feacal califorms respectively (for Ilala Municipality) and 175 and 113 cfu/100 ml for total and feacal califorms respectively (for Kinondoni Municipal). Toilets, septic tanks and poor construction and maintenance of wells and boreholes were identified as the possible potential sources of contamination of the well and borehole waters. The majority of the wells and boreholes were within 10 to 20m from toilets and septic tanks while the WHO guideline recommends 30m away from latrine and 17m from septic tanks. On the other hand, most of them were not protected and lacked concrete floor around the dug well. Records on the depth of boreholes and wells showed that the majority of the water sources had a depth of over 50m and very few had depth of <20m and between 20-30m.

Author Biographies

Petronila P. Orotho

Department of Food & Drugs (Microbiology) Chief Government Chemist Laboratory Agency

Leonard W.T. Fweja

Department of Home Economics and Human Nutrition The Open University of Tanzania

References

Adetunde, L.A. and Glover, R.L.K (2010) ‘Bacteriological Quality of Borehole Water Used by Students’ of University for Development Studies, Navrongo Campus in Upper-East Region of Ghana’. Current Research Journal of Biological Sciences 2(6): 361-364

Dar Es Salaam City Profile (DCP) (2004). City Profile for Dar es Salaam, United Republic of Tanzania. Document Prepared by Dar es Salaam City Council With advice from Cities and Health Programme, WHO Centre for Development, Kobe, Japan

Dar Es Salaam Regional and Districts Projections (2006). Volume XII National Bureau of Statistics, Ministry of Planning, Economy and Empowerment, Dar es Salaam, December, 2006

FAO (1992) Manual of Food Quality Control - 4. Microbiological analysis. ROME.

Jabu, G. C. and Grimason, A.M (2005). Faecal contamination of primary school children hands, in Chikwawa, Malawi (submitted).

Mato R. R. A. M (2002). Groundwater Pollution in Urban Dar es Salaam, Tanzania. Assessing Vulnerability and Protection Priorities. PhD

Thesis Technische Universiteit Eindhoven, op gezag van de National Regulation Act No.42 of 1974.

Obiri-Danso, K., Adjei1, B., K. N. Stanley, K.N. and Jones, K. (2009). “Microbiological quality and metal levels in wells and boreholes water in some peri-urban communities in Kumasi, Ghana.

African Journal of Environmental Science and Technology.†Vol.

(1), pp. 059-066, Available online at

http://www.academicjournals.org/AJEST

Penrose K, Caldads de Castro M, Werema J & Ryan ET (2010) Informal Urban Settlements and Cholera Risk in Dar es Salaam, Tanzania.

PLoS Negl Trop Dis. 2010 March; 4(3): e631. doi:

1371/journal.pntd.0000631. http://ukpmc.ac.uk/articlerender.cgi?tool=pubmed&pubmedid =20300569

Potgieter N*, Mudau LS and Maluleke FRS (2006).The microbiological quality of private and communal boreholes in the Tshitalehlanganani region of the Limpopo province, South Africa. Water Sci Technol. 54(11-12):371-7

Samie1, A., Makonto, T. E., Odiyo J., Ouaboi-Egbenni, P. O., Mojapelo P. and Bessong, P. O. (2011). Microbial quality, diversity and antibiotic susceptibility profiles of bacterial isolates from borehole water used by schools in Greater Giyani Municipality, Mopani District, South Africa. African Journal of Microbiology Research Vol. 5(3), pp. 198-210,. Available online http://www.academicjournals.org/ajmr

Taulo, S., Wetlesen, A., Abrahamsen, R., Mkakosya, R. and Kululanga, G. (2008). “Microbiological quality of water, associated management practices and risks at source, transport and storage points in a rural community of Lungwena, Malawiâ€. African Journal of Microbiology Research Vol. 2 pp. 131-137, Available online http://www.academicjournals.org/ajmr

WHO (1971). Guideline for Drinking Water Quality. World Health Organization. Geneva.

WHO (1993). Guidelines for drinking water quality. Second Edition. Volume

WHO (2002). Water Sanitation and Health (WSH): Global water supply and sanitation assessment 2000 report. http://www.who.int/water_sanitation_health/monitoring/glob alassess/en/

WHO (2003). The right to water

WHO (2004). International Standards for Drinking Water Quality. Vol.1: (3rd Edition). World Health Organization, Geneva 1:99 – 120.

WHO / UNICEF Joint Monitoring Programme (JMP) for Water Supply and Sanitation. WHO/UNICEF JMP: 2004: MDG mid-term assessment report (2004) WHO/UNICEF JMP

www.wssinfo.org/documents-links/documents

WHO / UNICEF (2000). Global water supply and sanitation assessment 2000 report. Geneva: WHO.

Downloads

Published

2012-10-12