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Spatio-Temporal Evolution of the Quality of Drinking Water in M'pody, a Village in the District of Anyama (Ivory Coast)

Received: 22 August 2022     Accepted: 16 September 2022     Published: 29 September 2022
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Abstract

In M'pody village of Anyama district, an epidemic of diarrhoea was detected in January 2020. These cases of diarrhea would be linked, according to the population concerned, to the consumption of water from the improved village hydraulic system (IVH), which has not been maintained for nearly 3 years. The objective is spatio-temporal assessment of the quality of drinking water in M'pody. The methodology consisted in carrying out four campaigns to collect water samples from well, rivers and the single borehole. Classical physico-chemical parameters were determined by electrochemical and spectrophotometric methods. Microbiological analysis was carried out using membrane filtration technique. Results showed that the waters analyzed were weakly mineralized and all contained germs that were indicators of faecal pollution. The parameters implicated in the non-potability of the well, borehole and river water during the four seasons concerned turbidity, pH, nitrite, ammonium, total iron and the following germs: Escherichia coli, Enterococcus, Pseudomonas and sulphite-reducing anaerobes. Furthermore, Kohonen’s Self-Organizing Map (SOM) resulted in four classes. Class I is made up of 68.05% of samples in the database. Class II comprises 21.18%, Class III contains 2.77% and class IV represents 7.98% of the samples. To limit water pollution, the following measures should be recommended: isolate the deep aquifers from the superficial aquifers by resistant casing, protect roof from external contributions, install sanitation facilities downstream of wells and boreholes, move waste dumps and latrines away from wells and boreholes.

Published in International Journal of Environmental Chemistry (Volume 6, Issue 2)
DOI 10.11648/j.ijec.20220602.12
Page(s) 42-50
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2022. Published by Science Publishing Group

Keywords

Well, River and Borehole Water, Spatio-Temporal, Quality of Drinking Water, Physicochemical, Microbiological

References
[1] Ahoussi, K. 2008. Quantitative and qualitative evaluation of water resources in the South of Ivory Coast. Application of hydrochemistry and environmental isotopes to the study of continuous and discontinuous aquifers in the Abidjan-Agboville region. (2008), 270p.
[2] Ahoussi, K., Koffi, Y., Kouassi, A., Soro, G. and Biemi, J. 2013. Hydrochemical and microbiological study of spring waters in the mountainous west of Ivory Coast: Case of Mangouin-Yrongouin village (Biankouman sub-prefecture). Journal of Applied Biosciences. 63, 1 (2013), 4703–4719.
[3] Ahoussi, K., Loko, S., Koffi, Y., Soro, G., Oga, Y. and Soro, N. 2013. Spatio-temporal evolution of nitrate levels in groundwater in the city of Abidjan (Ivory Coast). International Journal of Pure & Applied Bioscience. 1, 3 (2013), 45–60.
[4] Ahoussi, K. E., Koffi, Y. B., Kouassi, A. M., Soro, G., Soro, N. and Biémi, J. 2012. Study of the chemical and microbiological characteristics of the water resources of the N'zi catchment area: case of the commune of N'zianouan (Southern Ivory Coast). International Journal of Biological and Chemical Sciences. 6, 4 (2012), 1854–1873.
[5] Ahoussi, K. E., Silue, F. and Dongo, K. 2019. Study of the physical and chemical characteristics of surface waters in the forest zone of Côte d'Ivoire: case of the Lobo River in Daloa. International Journal of Innovation and Applied Studies. 25, 4 (2019), 1375–1388.
[6] Ahoussi KE, Oga YMS, Koffi YB, Kouassi AM, Soro N, Biemi J. Caractérisation hydrogéochimique et microbiologique des ressources en eau du site d’un Centre d’Enfouissement Technique (CET) de Côte d’Ivoire: cas du CET de Kossihouen dans le District d’Abidjan (Côte d’Ivoire). International Journal of Biological and Chemical Sciences. 2011; 5 (6): 2524-42.
[7] Alvarez-Guerra E, Molina A, Viguri JR, Alvarez-Guerra M. A SOM-based methodology for classifying air quality monitoring stations. Environmental Progress & Sustainable Energy. 2011; 30 (3): 424-38.
[8] Aka, N., BAMBA, S. B., SORO, G. and Soro, N. 2013. Hydrochemical and microbiological study of alterite aquifers under humid tropical climate: case of Abengourou department (South-East of Ivory Coast). Larhyss. Journal. 16, (2013), 31–52.
[9] Berrada, M., Hmaidi, A. E., Monyr, N., Abrid, D., Abdallaoui, A., Essahlaoui, A. and Ouali, A. E. 2016. Self-organizing map for the detection of seasonal variations in Sidi Chahed Dam sediments (Northern Morocco). Hydrological Sciences Journal. 61, 3 (2016), 628–635.
[10] Bricha, S., Ounine, K., Oulkheir, S., El Haloui, N. and Attarassi, B. 2007. Study of the physicochemical and bacteriological quality of the M'nasra groundwater (Morocco). Afrique Science. 3, 3 (2007), 391–404.
[11] Coulibaly, A., Mondé, S., Wognin, V. and Aka, K. 2008. State of anthropic pollution in the estuary of Ebrié lagoon (Côte d’Ivoire) by analysis of the metal elements traces. European Journal of Scientific Research. 19, 2 (2008), 372–390.
[12] DE Marsily, G. 2013. Environmental booklet. Water issues in 26 questions - Environmental Health Newswire. Booklet on the environment. (2013), 31 p.
[13] Desmos, F. D. G. 2021. Perception of the effects of the pollution of the YOPOUGON lagoon bay by the residents. Geographic Space and Moroccan Society. 1, 52 (2021).
[14] Douagui, A. G., Kouame, I. K., Koffi, K., Goula, A. T. B., Dibi, B., Gone, D. L., Coulibaly, K., Seka, A. M., Kouassi, A. K. and Mangoua, J. M. O. 2012. Assessment of the bacteriological quality and nitrate pollution risk of Quaternary groundwater in the southern part of Abidjan District (Côte d’Ivoire). Journal of Hydro-environment Research. 6, 3 (2012), 227–238.
[15] Gbagbo, T., Kpaibé, S., Gopkeya*, K., Able, N., Seki, T., Bakayoko, A., Meless, D. and Amin, N. 2020. Physicochemical and bacteriological characterisation of drinking water from the groundwater of the village M'pody. J. Rech. Sci. Univ. Lome (Togo). 22, 3 (2020), 771–788.
[16] Gnagne, Y. A., Yapo, B. O., Mambo, V., Meite, L. and Houenou, P. 2013. Urban pollution and acidification process of well water in the city of Abidjan, Ivory Coast. J. Soc. Ouest-Afr. Chim. 36, (2013), 55–61.
[17] Goné, D., Savané, I., N’go, Y. and Biémi, J. 2005. Relative mobility of major cations during rock weathering and acquisition of groundwater mineralisation in Man's square degree. Sci. Nat. 2, 1 (2005), 85–94.
[18] Hassane, A. B. 2010. Superficial and deep aquifers and urban pollution in Africa: case of the urban community of Niamey (Niger). Thesis of the University, Abdou Moumouni of Niamey (Niger), (2010), 198.
[19] Kabore, A., Savadago, B., Rosillon, F., Straore, A. and Dianou, D. 2013. Optimisation of the efficiency of Moringa oleifera seeds in the treatment of drinking water in sub-Saharan Africa: the case of Burkina Faso water. Journal of Water Sciences/Journal of Water Science. 26, 3 (2013), 209–220.
[20] Kenmogne, K. G. R., Ntep, F., Rosillon, F., Mpakam, H. G., Nono, A. and Djeuda Tchapnga, H. B. 2010. Groundwater hydrodynamics and vulnerability to pollution of water resources in tropical urban areas: the case of the Mingoa catchment (Yaoundé-Cameroun). (2010).
[21] Kohonen, T. (2012). Self-organizing maps (Vol. 30). Springer Science & Business Media.
[22] Kouame, Y. F., Kedi, A. B. B., Kouassi, S. S., Assohoun, E. S., Yapo, O. B. and Gnagne, T. 2021. Physicochemical characteristics of borehole water for domestic use in the town of Daloa (central-western Côte d'Ivoire). International Journal of Biological and Chemical Sciences. 15, 2 (2021), 835–845.
[23] Lagnika, M., Ibikounle, M., Montcho, J., Wotto, V. D. and Sakiti, N. G. 2014. Physicochemical characteristics of well water in the commune of Pobè (Benin, West Africa). Journal of Applied Biosciences. 79, (2014), 6887–6895.
[24] Lanciné, G. D., Touchard, A. J., Bamory, K., Fernand, K., Kouadio, K. and Issiaka, S. 2008. Iron and manganese removal by aeration-filtration of borehole water in rural areas in developing countries, case of the Tassialé region (South of Ivory Coast). European Journal of Scientific Research. 19, 3 (2008), 558–567.
[25] Mahamane, A. A. and Guel, B. 2015. Physicochemical characterisation of groundwater in the locality of Yamtenga (Burkina Faso). International Journal of Biological and Chemical Sciences. 9, 1 (2015), 517–533.
[26] Makoutode, M., Assani, A. K., Ouendo, E. M., Agueh, V. D., & Diallo, P. (1999). Quality and Method of Management of Well Water in Rural Benin: Case of the Sub-Prefecture of Grand-Popo. Medicine of Black Africa, 46, 528-534.
[27] Ohou-Yao, M., Séka, A., Mambo, V., Yapo, O., Konan, K. and Houénou, P. 2014. Nitrate contamination of traditional well water in the Lobo catchment area (Buyo, south-west of Ivory Coast). Journal of Applied Biosciences. 78, (2014), 6654–6665.
[28] Pambou YB, Legnouo EAA, Otélé AA, Massolou AM, Ngayila N, Madoungou GM, et al. Variabilité saisonnière de la qualité des eaux du bassin versant de Nzeng-Ayong dans le sixième arrondissement de la commune de Libreville (Gabon). Journal of Applied Biosciences. 2022; 169: 17559-74.
[29] RGPH (Recensement Général de la Population et de l’Habitat) 2014. Socio-demographic data. Permanent Technical Secretariat of the RGPH Technical Committee, p 26.
[30] Rodier, J., Legube, B. and Merlet, N. 2016. Water analysis: natural water, waste water, sea water: chemistry, physicochemistry, bacteriology, biology. Dunod Paris. (2016), 78–1368.
[31] Soro, T. D., Soro, G., Ahoussi, K. E., Oga, Y. M. S. and Soro, N. 2019. Hydrogeochemical and Groundwater Quality Studies in the High Bandama Watershed at Tortiya (Northern of Côte d’Ivoire). Journal of Geoscience and Environment Protection. 7, 2 (2019), 49–61.
[32] Traore, P. N., Djedi, H. M. and Khemmoudj, K. E. 2016. Comparative study of the vulnerability of groundwater to pollution in the commune of Souk El Tenine using the DRASTIC and GOD methods. (2016).
[33] Tsakovski, S., Tobiszewski, M., Simeonov, V., Polkowska, Ż. and Namieśnik, J. 2010. Chemical composition of water from roofs in Gdansk, Poland. Environmental Pollution. 158, 1 (2010), 84–91.
[34] Water Quality: Terminology, Sampling and Evaluation Methods (Volume 1, 3 edn). AFNOR (Association Française de Normalisation): Paris, France.: 1997. https://www.eyrolles.com/BTP/Livre/qualite-de-l-eau-9782121790602/. Accessed: 2020-08-03.
[35] Water quality-turbidity determination, AFNOR, Paris, France, 2000: 14p. https://www.boutique.afnor.org/fr-fr/norme/nf-en-iso-7027/qualite-de-leau-determination-de-la-turbidite/fa048354/417. Accessed: 2022-05-11.
[36] World Health Organization ed. 2011. Guidelines for drinking-water quality. World Health Organization.
[37] Yao, K. S. A. and Ahoussi, K. E. 2021. Application of multivariate statistical methods to the hydrochemical study of groundwater in a mining environment in Central-Western Ivory Coast: the case of the Divo Department. Afrique SCIENCE. 18, 4 (2021), 53–68.
[38] Yapo, R. I., Mambo, V., Alder, A. C., Ohou-Yao, M. J., Ligban, R., Dao, D., Stamm, C. and Bonfoh, B. 2016. Seasonal characterisation of well water for market gardening and domestic use in Korhogo (Ivory Coast). International Journal of Biological and Chemical Sciences. 10, 3 (2016), 1433–1449.
[39] Yuan, J., Xu, F., Deng, G., Tang, Y. and Li, P. 2017. Hydrogeochemistry of shallow groundwater in a karst aquifer system of Bijie City, Guizhou Province. Water. 9, 8 (2017), 625.
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    Aubin Tchape Gbagbo, Philippe Andre Sawa Kpaibe, Djedjro Franck Renaud Meless, Thierry Oscar Seki, Aminata Bakayoko, et al. (2022). Spatio-Temporal Evolution of the Quality of Drinking Water in M'pody, a Village in the District of Anyama (Ivory Coast). International Journal of Environmental Chemistry, 6(2), 42-50. https://doi.org/10.11648/j.ijec.20220602.12

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    ACS Style

    Aubin Tchape Gbagbo; Philippe Andre Sawa Kpaibe; Djedjro Franck Renaud Meless; Thierry Oscar Seki; Aminata Bakayoko, et al. Spatio-Temporal Evolution of the Quality of Drinking Water in M'pody, a Village in the District of Anyama (Ivory Coast). Int. J. Environ. Chem. 2022, 6(2), 42-50. doi: 10.11648/j.ijec.20220602.12

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    AMA Style

    Aubin Tchape Gbagbo, Philippe Andre Sawa Kpaibe, Djedjro Franck Renaud Meless, Thierry Oscar Seki, Aminata Bakayoko, et al. Spatio-Temporal Evolution of the Quality of Drinking Water in M'pody, a Village in the District of Anyama (Ivory Coast). Int J Environ Chem. 2022;6(2):42-50. doi: 10.11648/j.ijec.20220602.12

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  • @article{10.11648/j.ijec.20220602.12,
      author = {Aubin Tchape Gbagbo and Philippe Andre Sawa Kpaibe and Djedjro Franck Renaud Meless and Thierry Oscar Seki and Aminata Bakayoko and Therese Kouassi Agbessi and Christophe N’cho Amin},
      title = {Spatio-Temporal Evolution of the Quality of Drinking Water in M'pody, a Village in the District of Anyama (Ivory Coast)},
      journal = {International Journal of Environmental Chemistry},
      volume = {6},
      number = {2},
      pages = {42-50},
      doi = {10.11648/j.ijec.20220602.12},
      url = {https://doi.org/10.11648/j.ijec.20220602.12},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ijec.20220602.12},
      abstract = {In M'pody village of Anyama district, an epidemic of diarrhoea was detected in January 2020. These cases of diarrhea would be linked, according to the population concerned, to the consumption of water from the improved village hydraulic system (IVH), which has not been maintained for nearly 3 years. The objective is spatio-temporal assessment of the quality of drinking water in M'pody. The methodology consisted in carrying out four campaigns to collect water samples from well, rivers and the single borehole. Classical physico-chemical parameters were determined by electrochemical and spectrophotometric methods. Microbiological analysis was carried out using membrane filtration technique. Results showed that the waters analyzed were weakly mineralized and all contained germs that were indicators of faecal pollution. The parameters implicated in the non-potability of the well, borehole and river water during the four seasons concerned turbidity, pH, nitrite, ammonium, total iron and the following germs: Escherichia coli, Enterococcus, Pseudomonas and sulphite-reducing anaerobes. Furthermore, Kohonen’s Self-Organizing Map (SOM) resulted in four classes. Class I is made up of 68.05% of samples in the database. Class II comprises 21.18%, Class III contains 2.77% and class IV represents 7.98% of the samples. To limit water pollution, the following measures should be recommended: isolate the deep aquifers from the superficial aquifers by resistant casing, protect roof from external contributions, install sanitation facilities downstream of wells and boreholes, move waste dumps and latrines away from wells and boreholes.},
     year = {2022}
    }
    

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  • TY  - JOUR
    T1  - Spatio-Temporal Evolution of the Quality of Drinking Water in M'pody, a Village in the District of Anyama (Ivory Coast)
    AU  - Aubin Tchape Gbagbo
    AU  - Philippe Andre Sawa Kpaibe
    AU  - Djedjro Franck Renaud Meless
    AU  - Thierry Oscar Seki
    AU  - Aminata Bakayoko
    AU  - Therese Kouassi Agbessi
    AU  - Christophe N’cho Amin
    Y1  - 2022/09/29
    PY  - 2022
    N1  - https://doi.org/10.11648/j.ijec.20220602.12
    DO  - 10.11648/j.ijec.20220602.12
    T2  - International Journal of Environmental Chemistry
    JF  - International Journal of Environmental Chemistry
    JO  - International Journal of Environmental Chemistry
    SP  - 42
    EP  - 50
    PB  - Science Publishing Group
    SN  - 2640-1460
    UR  - https://doi.org/10.11648/j.ijec.20220602.12
    AB  - In M'pody village of Anyama district, an epidemic of diarrhoea was detected in January 2020. These cases of diarrhea would be linked, according to the population concerned, to the consumption of water from the improved village hydraulic system (IVH), which has not been maintained for nearly 3 years. The objective is spatio-temporal assessment of the quality of drinking water in M'pody. The methodology consisted in carrying out four campaigns to collect water samples from well, rivers and the single borehole. Classical physico-chemical parameters were determined by electrochemical and spectrophotometric methods. Microbiological analysis was carried out using membrane filtration technique. Results showed that the waters analyzed were weakly mineralized and all contained germs that were indicators of faecal pollution. The parameters implicated in the non-potability of the well, borehole and river water during the four seasons concerned turbidity, pH, nitrite, ammonium, total iron and the following germs: Escherichia coli, Enterococcus, Pseudomonas and sulphite-reducing anaerobes. Furthermore, Kohonen’s Self-Organizing Map (SOM) resulted in four classes. Class I is made up of 68.05% of samples in the database. Class II comprises 21.18%, Class III contains 2.77% and class IV represents 7.98% of the samples. To limit water pollution, the following measures should be recommended: isolate the deep aquifers from the superficial aquifers by resistant casing, protect roof from external contributions, install sanitation facilities downstream of wells and boreholes, move waste dumps and latrines away from wells and boreholes.
    VL  - 6
    IS  - 2
    ER  - 

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Author Information
  • Laboratory of water and Food Analysis, National Institute of Public Health, Abidjan, Ivory Coast

  • Laboratory of water and Food Analysis, National Institute of Public Health, Abidjan, Ivory Coast

  • Laboratory of water and Food Analysis, National Institute of Public Health, Abidjan, Ivory Coast

  • Laboratory of water and Food Analysis, National Institute of Public Health, Abidjan, Ivory Coast

  • Laboratory of water and Food Analysis, National Institute of Public Health, Abidjan, Ivory Coast

  • Laboratory of water and Food Analysis, National Institute of Public Health, Abidjan, Ivory Coast

  • Laboratory of water and Food Analysis, National Institute of Public Health, Abidjan, Ivory Coast

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