Research Article
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Year 2018, Volume: 5 Issue: 3, 337 - 352, 02.12.2018
https://doi.org/10.30897/ijegeo.462691

Abstract

References

  • 1. Alauddin, M. 2014. Optimization of Water-Allocation Networks with Multiple Contaminants using Genetic Algorithm. Internationa journal of Biologica and Chemical Science, 1(1).
  • 2. Arzu, F.E., Fatma, G. 2013. DRASTIC-based methodology for assessing ground water vulnerability in the Gümüshaciköy and Merzifon basin (Amasya, Turkey). Earth Sciences Research Journal, 17(1), 33-40.
  • 3. Curşeu, D., Sîrbu, D., Popa, M., Ionuta, A. 2010. The Relationship Between Infant Methemoglobinemia and Environmental Exposure to Nitrates . Survival and Sustainability (pp. 635-640): Springer DOI: http://dx.doi.org/10.1007/978-3-540-95991-5_58.
  • 4. EPA. 2002. National recommended water quality criteria: Washington D.C.: EPA; 2002.
  • 5. Iyasele, J.U., Idiata, D.J. 2015. Investigation of the Relationship between Electrical Conductivity and Total Dissolved Solids for Mono-Valent , Di-Valent and Tri- Valent Metal Compounds. International Journal of Engineering Research and Reviews, 3(1), 40-48
  • 6. Kumar, M., Kumar R. 2013. Assessment of Physico-Chemical Properties of Ground Water in Granite Mining Areas in Goramachia, Jhansi, UP, India. International Research Journal of Environment Sciences, 2(1), 19-24.
  • 7.Mato, R., Mjwahuzi, M. 2010. Ground water governance case study: Tanzania, ground water use, characterization and vulnerability. DOI:http://xa.yimg.com/kg/groups/22477246/889666431/name/Aquifer+characteristics.pdf
  • 8. Mishra, N., Khare, D., Gupta, K., Shukla, R. 2014. Impact of Land Use Change on Ground water-A Review. Advances in Water Resource and Protection, 2(28), 28-41.
  • 9.Mostafa, A.H., Al-Wasify, R.S., Sayed, A. M., Haroun, B.M. 2014. Microbiological and physicochemical evaluation of ground water in Egypt. International Journal of Environment and Sustainability (IJES), 2(2).
  • 10.Nosrat, A., Asghar, A.M. 2010. Ground water Quality and its Suitability for Drinking and Agricultural Uses in the Oshnavieh Area, Northwest of Iran Journal of Environmental Protection, 1(1), 30-40. DOI: 10.4236/jep.2010.11005
  • 11. Ramakrishana, B., Ranibai, R. 2015. Ground water Qualty in some villages of Shahapur taluk, Yadgir district, Karnataka, India.Golden Research Thoughts, 4(7).
  • 12. Rwebugisa, R. A. 2008. Ground water re-charge assessment in the Makutupora Basin, Dodoma, Tanzania. International Institute for Geo-Information Science and Earth Observation, Enschede, The Netherlands.
  • 13. Sabo, A., Christopher, E.O. 2014. Physicochemical and bacteriological quality of ground water at Abubakar Tatari Ali Polytechnic Bauchi, Nigeria. European Scientific Journal, 10(18).
  • 14. Sarala, C., Ravi, B. P. 2012. Assessment of ground water quality parameters in and around Jawaharnagar, Hyderabad. International Journal of Scientific and Research Publications, 2(10), 1-6.
  • 15. Saxena, G., Bharagava, R.N., Kaithwas, G., Raj, A. 2015. Microbial indicators, pathogens and methods for their monitoring in water environment. Journal of water and health, 13(2), 319-339. doi: DOI: 10.2166/wh.2014.275
  • 16. Shindo, S. 1989. The study on the Recharge Mechanism and Development of Ground water in the inland Area of Tanzania. Progress Report of the Japan-Tanzania joint Research 1. Chiba University, Chiba, Japan (Vol. 1).
  • 17. Shindo, S.1990. The study on the Recharge Mechanism and Development of Ground water in the Inland Area of Tanzania. Progress Report of the Japan-Tanzania joint Research 2. Chiba University, Chiba, Japan. (Vol. 2).
  • 18. Shindo, S. 1991. The study on the Recharge Mechanism and Development of Ground water in the Inland Area of Tanzania. Progress Report of the Japan-Tanzania joint Research 3. Chiba University, Chiba, Japan. (Vol. 3).
  • 19. Sossou, S.K., Gbedenu, D.K., Konate, Y.Sawadogo,B., Ameyapoh,.Y. Maiga, A.H., Funamizu, N. 2016. Damage mechanisms of pathogenic bacteria in drinking water during chlorine and solar disinfection. International Journal of Biological and Chemical Sciences, 10(2), 519-532. DOI : http://dx.doi.org/10.4314/ijbcs.v10i2.6
  • 20. Tikle, S., Saboori, M.J., Sankpal, R. 2012. Spatial distribution of ground water quality in some selected parts of Pune city, Maharashtra, India using GIS. Current World Environment, 7(2), 281-286.
  • 21. URT. 2015. Migration and Urbanization Monograph, National Bureau of Statistics Ministry of Finance Dar es Salaam and Office of Chief Government Statistician President’s Office, Finance, Economy and Development Planning Zanzibar: United Republic of Tanzania.
  • 22. Venkatramanan, S., Chung, S., Ramkumar, T., Rajesh, R., Gnanachandrasamy, G. 2016. Assessment of ground water quality using GIS and CCME WQI techniques: a case study of Thiruthuraipoondi city in Cauvery deltaic region, Tamil Nadu, India. Desalination and Water Treatment, 57(26), 12058-12073.
  • 23. Wahome, C.N., Okemo, P.O., Nyamache, A.K. 2014. Microbial quality and antibiotic resistant bacterial pathogens isolated from ground water used by residents of Ongata Rongai, Kajiado North County, Kenya. International Journal of Biological and Chemical Sciences, 8(1), 134-143. DOI : http://dx.doi.org/10.4314/ijbcs.v8i1.13
  • 24. WHO. 2004. Manganese in drinking-water: Background document for development of WHO Guidelines for Drinking-water Quality.
  • 25. WHO. 2008. Guidelines for drinking-water quality: Incorporating 1st and 2nd addenda, Vol.1, Recommendations addenda, , Recommendations, Third editions (3 ed., Vol. 1): WHO.
  • 26. Zogo, D., Bawa, L., Soclo, H., Djanéyé-Boundjou, G., Atchekpe, D. 2010. Effect of pre-chlorination on the efficiency of iron and manganese removal from surface water by coagulation-flocculation using aluminium sulphate: case of the Okpara dam in the Republic of Benin. International Journal of Biological and Chemical Sciences, 4(6). DOI:http://dx.doi.org/10.4314/ijbcs.v4i6.64983

Spatial Variation of Ground water Quality Parameters and its Suitability for Drinking at Makutopora Aquifer, Dodoma Municipality, Tanzania.

Year 2018, Volume: 5 Issue: 3, 337 - 352, 02.12.2018
https://doi.org/10.30897/ijegeo.462691

Abstract



A
study was conducted to benchmark the ground water quality parameters and its
spatial variation from Makutopora boreholes which are found 32 km from Dodoma
town.
A total of 90 samples (from both deep and shallow wells)
were collected and analyzed for various quality parameters.
The analysis results were interpolated using
statistics and Inverse Distance Weighting tool in a Geographical Information
System (GIS) environment to determine their spatial variation.
The results indicated that all samples were within the permissible Tanzanian standards, except for two unused production boreholes which showed
higher levels of
total hardness,
Electrical conductivity and total dissolved solids. However, gross pollution
was found in
community shallow wells of Chihanga and Veyula that showed high levels of nitrate (78-82 mg/l), Manganese (1.05
m
g/l), low pH (5.98)
and E.
coli. (52/100 ml).
It is quite clear from this study that the ground
water supplied to Dodoma is still meeting the set drinking water standards in
Tanzania although aquifer deterioration was noticed which demands an urgent
innovative ground water management.
The results
obtained in this study will therefore be helpful for future monitoring and
sustainable ground water quality management in the Makutopora sub basin.

References

  • 1. Alauddin, M. 2014. Optimization of Water-Allocation Networks with Multiple Contaminants using Genetic Algorithm. Internationa journal of Biologica and Chemical Science, 1(1).
  • 2. Arzu, F.E., Fatma, G. 2013. DRASTIC-based methodology for assessing ground water vulnerability in the Gümüshaciköy and Merzifon basin (Amasya, Turkey). Earth Sciences Research Journal, 17(1), 33-40.
  • 3. Curşeu, D., Sîrbu, D., Popa, M., Ionuta, A. 2010. The Relationship Between Infant Methemoglobinemia and Environmental Exposure to Nitrates . Survival and Sustainability (pp. 635-640): Springer DOI: http://dx.doi.org/10.1007/978-3-540-95991-5_58.
  • 4. EPA. 2002. National recommended water quality criteria: Washington D.C.: EPA; 2002.
  • 5. Iyasele, J.U., Idiata, D.J. 2015. Investigation of the Relationship between Electrical Conductivity and Total Dissolved Solids for Mono-Valent , Di-Valent and Tri- Valent Metal Compounds. International Journal of Engineering Research and Reviews, 3(1), 40-48
  • 6. Kumar, M., Kumar R. 2013. Assessment of Physico-Chemical Properties of Ground Water in Granite Mining Areas in Goramachia, Jhansi, UP, India. International Research Journal of Environment Sciences, 2(1), 19-24.
  • 7.Mato, R., Mjwahuzi, M. 2010. Ground water governance case study: Tanzania, ground water use, characterization and vulnerability. DOI:http://xa.yimg.com/kg/groups/22477246/889666431/name/Aquifer+characteristics.pdf
  • 8. Mishra, N., Khare, D., Gupta, K., Shukla, R. 2014. Impact of Land Use Change on Ground water-A Review. Advances in Water Resource and Protection, 2(28), 28-41.
  • 9.Mostafa, A.H., Al-Wasify, R.S., Sayed, A. M., Haroun, B.M. 2014. Microbiological and physicochemical evaluation of ground water in Egypt. International Journal of Environment and Sustainability (IJES), 2(2).
  • 10.Nosrat, A., Asghar, A.M. 2010. Ground water Quality and its Suitability for Drinking and Agricultural Uses in the Oshnavieh Area, Northwest of Iran Journal of Environmental Protection, 1(1), 30-40. DOI: 10.4236/jep.2010.11005
  • 11. Ramakrishana, B., Ranibai, R. 2015. Ground water Qualty in some villages of Shahapur taluk, Yadgir district, Karnataka, India.Golden Research Thoughts, 4(7).
  • 12. Rwebugisa, R. A. 2008. Ground water re-charge assessment in the Makutupora Basin, Dodoma, Tanzania. International Institute for Geo-Information Science and Earth Observation, Enschede, The Netherlands.
  • 13. Sabo, A., Christopher, E.O. 2014. Physicochemical and bacteriological quality of ground water at Abubakar Tatari Ali Polytechnic Bauchi, Nigeria. European Scientific Journal, 10(18).
  • 14. Sarala, C., Ravi, B. P. 2012. Assessment of ground water quality parameters in and around Jawaharnagar, Hyderabad. International Journal of Scientific and Research Publications, 2(10), 1-6.
  • 15. Saxena, G., Bharagava, R.N., Kaithwas, G., Raj, A. 2015. Microbial indicators, pathogens and methods for their monitoring in water environment. Journal of water and health, 13(2), 319-339. doi: DOI: 10.2166/wh.2014.275
  • 16. Shindo, S. 1989. The study on the Recharge Mechanism and Development of Ground water in the inland Area of Tanzania. Progress Report of the Japan-Tanzania joint Research 1. Chiba University, Chiba, Japan (Vol. 1).
  • 17. Shindo, S.1990. The study on the Recharge Mechanism and Development of Ground water in the Inland Area of Tanzania. Progress Report of the Japan-Tanzania joint Research 2. Chiba University, Chiba, Japan. (Vol. 2).
  • 18. Shindo, S. 1991. The study on the Recharge Mechanism and Development of Ground water in the Inland Area of Tanzania. Progress Report of the Japan-Tanzania joint Research 3. Chiba University, Chiba, Japan. (Vol. 3).
  • 19. Sossou, S.K., Gbedenu, D.K., Konate, Y.Sawadogo,B., Ameyapoh,.Y. Maiga, A.H., Funamizu, N. 2016. Damage mechanisms of pathogenic bacteria in drinking water during chlorine and solar disinfection. International Journal of Biological and Chemical Sciences, 10(2), 519-532. DOI : http://dx.doi.org/10.4314/ijbcs.v10i2.6
  • 20. Tikle, S., Saboori, M.J., Sankpal, R. 2012. Spatial distribution of ground water quality in some selected parts of Pune city, Maharashtra, India using GIS. Current World Environment, 7(2), 281-286.
  • 21. URT. 2015. Migration and Urbanization Monograph, National Bureau of Statistics Ministry of Finance Dar es Salaam and Office of Chief Government Statistician President’s Office, Finance, Economy and Development Planning Zanzibar: United Republic of Tanzania.
  • 22. Venkatramanan, S., Chung, S., Ramkumar, T., Rajesh, R., Gnanachandrasamy, G. 2016. Assessment of ground water quality using GIS and CCME WQI techniques: a case study of Thiruthuraipoondi city in Cauvery deltaic region, Tamil Nadu, India. Desalination and Water Treatment, 57(26), 12058-12073.
  • 23. Wahome, C.N., Okemo, P.O., Nyamache, A.K. 2014. Microbial quality and antibiotic resistant bacterial pathogens isolated from ground water used by residents of Ongata Rongai, Kajiado North County, Kenya. International Journal of Biological and Chemical Sciences, 8(1), 134-143. DOI : http://dx.doi.org/10.4314/ijbcs.v8i1.13
  • 24. WHO. 2004. Manganese in drinking-water: Background document for development of WHO Guidelines for Drinking-water Quality.
  • 25. WHO. 2008. Guidelines for drinking-water quality: Incorporating 1st and 2nd addenda, Vol.1, Recommendations addenda, , Recommendations, Third editions (3 ed., Vol. 1): WHO.
  • 26. Zogo, D., Bawa, L., Soclo, H., Djanéyé-Boundjou, G., Atchekpe, D. 2010. Effect of pre-chlorination on the efficiency of iron and manganese removal from surface water by coagulation-flocculation using aluminium sulphate: case of the Okpara dam in the Republic of Benin. International Journal of Biological and Chemical Sciences, 4(6). DOI:http://dx.doi.org/10.4314/ijbcs.v4i6.64983
There are 26 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Research Articles
Authors

Mary Kisaka 0000-0002-2120-5449

Publication Date December 2, 2018
Published in Issue Year 2018 Volume: 5 Issue: 3

Cite

APA Kisaka, M. (2018). Spatial Variation of Ground water Quality Parameters and its Suitability for Drinking at Makutopora Aquifer, Dodoma Municipality, Tanzania. International Journal of Environment and Geoinformatics, 5(3), 337-352. https://doi.org/10.30897/ijegeo.462691

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