LARHYSS JOURNAL 1112-3680 / 2521-9782

Mouhoun Loop region is one of the 5 regions having the lowest rates of access to drinking water. Further, the failure rate of Borehole is greater than 30%. This area is underlined by both bedrock and sedimentary rocks. In the area, borehole siting is performed using 1D geophysical investigation techniques such as electrical profiling and electrical sounding. In this study, we decided to analyse this approach in order to see if it is adapted to the geological context. To achieve this, the methodology consisted in analysing the geophysical data of the settlements. Then the results were analysed using statistical tools. The results indicate that failure rates are higher on sedimentary rocks than bedrock rocks. In fact, 91% of the boreholes were implanted in sedimentary zone on the consolidated sandstone. These behave like basement rocks that are very heterogeneous. Also, in these geological formations, the boreholes are not deep enough to reach the deep aquifers. So in order to reduce this failure rate, we suggest the use of electrical resistivity tomography. This is a 2D technique that allows you to observe vertical and lateral variations.

ALLE I.C., DESCLOITRES M., VOUILLAMOZ J.-M., YALO N., LAWSON F.M.A., ADIHOU A.C., (2018). Why 1D electrical resistivity techniques can result in inaccurate siting of boreholes in hard rock aquifers and why electrical resistivity tomography must be preferred: the example of Benin, West Africa. Journal of African Earth Sciences, Vol. 139, pp. 341–353. https://doi.org/10.1016/j.jafrearsci.2017.12.007

BENSAOULA F., DERNI I., ADJIM M. (2012) Trente années de prospection et de mobilisation des ressources en eau souterraine, par forages, dans la Wilaya de Tlemcen. Larhyss Journal, N°10, pp. 91-99.

CARTER R.C., PARKER A., (2009). Climate change, population trends and groundwater in Africa. Hydrological Sciences Journal, Vol. 54, pp. 676–689. https://doi.org/10.1623/hysj.54.4.676

COULIBALY A., LASME O.Z. DE, YOUAN T.M., SORO G., LASM T., SORO N., (2019). Multidisciplinary approach for a basement aquifer location in Tanda Region, Côte d’Ivoire. Journal of Water Resource and Protection, Vol. 11, pp. 1111–1128. https://doi.org/10.4236/jwarp.2019.119065

DAHLIN T., ZHOU B., (2004). A numerical comparison of 2D resistivity imaging with 10 electrode arrays. Geophysical Prospecting, Vol. 52, pp. 379–398. https://doi.org/10.1111/j.1365-2478.2004.00423.x

DIABATÉ A.-L., (2013). Caractérisation des paramètres géophysiques en relation avec la productivité de la cible hydrogéologique dans la boucle du Mouhoun au Burkina Faso. Mémoire Master, Institut International d’Ingénierie de l’Eau et de l’Environnement, Burkina Faso, 97p.

DIENG B., DE HEUSCH KOUASSI A., BAKYONO B.A., (2004). Optimisation de l’implantation géophysique des forages en zone de socle au Nord du Burkina Faso. Sud Sciences Technologie, Vol. 12, pp. 21-30.

EHOUSOU K.M., KOUASSI K.M., KAMAGATE B. (2018). Caractérisation hydrodynamique des aquifères fissurés de la région du Bélier (Centre de la Côte d’Ivoire). Larhyss Journal, N°36, pp. 119-143.

FEYBESSE J.-L., BILLA M., GUERROT C., DUGUEY E., LESCUYER J.-L., MILESI J.-P., BOUCHOT V., (2006). The paleoproterozoic ghanaian province: Geodynamic model and ore controls, including regional stress modeling. Precambrian Research, Vol. 149, pp. 149–196. https://doi.org/10.1016/j.precamres.2006.06.003

KARAMBIRI H., GARCÍA GALIANO S.G., GIRALDO J.D., YACOUBA H., IBRAHIM B., BARBIER B., POLCHER J., (2011). Assessing the impact of climate variability and climate change on runoff in West Africa: the case of Senegal and Nakambe River basins. Atmospheric Science Letters, Vol. 12, pp. 109–115.

KOUAMELAN A.N., DJRO S.C., ALLIALY M.E., PAQUETTE J.-L., PEUCAT J.-J., (2015). The oldest rock of Ivory Coast. Journal of African Earth Sciences, Vol. 103, pp. 65–70. https://doi.org/10.1016/j.jafrearsci.2014.12.004

KOUASSI A.M., AHOUSSI K.E., YAO K.A., OUREGA W., YAO K.S.B., BIEMI J., (2012). Analyse de la productivité des aquifères fissurés de la région du N’zi-Comoé (Centre-Est de la Côte d’Ivoire). Larhyss Journal, N°10, pp. 57-74.

KOUASSI A.M., AHOUSSI K.E., YAO K.A., OUREGA W., YAO K.S.B., BIEMI J., (2012). Analyse de la productivité des aquifères fissurés de la région du N’zi-Comoé (Centre-Est de la Côte d’Ivoire). Larhyss Journal, N°10, pp. 57-74.

KOUAKOU E.G.K., SOMBO A.P., BIE G.R., AKA E. KOUAME L.N. (2016). Etude comparative de résultats de sondages électriques et des coupes lithostratigraphiques de forages en région de socle (Nord de la Côte d’Ivoire). Larhyss Journal, N°25, pp. 101-119.

KOUSSOUBE Y., (2010). Hydrogéologie des séries sédimentaires de la dépression piézométrique du Gondo (bassin du Sourou): Burkina Faso/Mali. Thèse de doctorat unique, Université Pierre et Marie Curie, France, 264p.

LOMPO M., (2010). Paleoproterozoic structural evolution of the Man-Leo Shield (West Africa). Key structures for vertical to transcurrent tectonics. Journal of African Earth Sciences, Vol. 58, pp. 19–36. https://doi.org/10.1016/j.jafrearsci.2010.01.005

MANGOUA M.J., YAO A.B., DOUAGUI G.A., KOUASSI K.A., GOULA B.T.A., BIEMI J. (2019). Evaluation des potentialités en eau souterraine des aquifères fissures dans le bassin versant du Bandama (Côte d’Ivoire). Larhyss Journal, N°37, pp. 53-74.

MARECHAL J.C., DEWANDEL B., SUBRAHMANYAM K., (2004). Use of hydraulic tests at different scales to characterize fracture network properties in the weathered-fractured layer of a hard rock aquifer. Water Resources Research 40, W11508. https://doi.org/10.1029/2004WR003137

OUÉDRAOGO I., (1994). Géologie et hydrogéologie des formations sédimentaires de la boucle du Mouhoun (Burkina Faso). Thèse de 3ème cycle, Université Cheikh Anta Diop, Senegal, 116p.

PATUREL J.E., BOUBACAR I., L’AOUR A., MAHÉ G., (2010). Analyses of pluviometric grids and main features of the changes occurring in West and Central Africa during the 20th century. Hydrological Sciences Journal, Vol. 55, pp. 1281–1288. https://doi.org/10.1080/02626667.2010.527846

SAMOUËLIAN A., COUSIN I., TABBAGH A., BRUAND A., RICHARD G., (2005). Electrical resistivity survey in soil science: a review. Soil and Tillage Research, Vol. 83, pp. 173–193. https://doi.org/10.1016/j.still.2004.10.004

SORO D.D., (2017). Caractérisation et modélisation hydrogéologique d’un aquifère en milieu de socle fracturé: cas du site expérimental de Sanon (région du plateau central au Burkina Faso). Thèse de doctorat unique, Université Pierre et Marie Curie, France, 237p.

SORO D.D., KOÏTA M., BIAOU C.A., OUTOUMBE E., VOUILLAMOZ J.-M., YACOUBA H., GUERIN R., (2017). Geophysical demonstration of the absence of correlation between lineaments and hydrogeologically usefull fractures: Case study of the Sanon hard rock aquifer (central northern Burkina Faso). Journal of African Earth Sciences, Vol. 129, pp. 842–852. https://doi.org/10.1016/j.jafrearsci.2017.02.025

TIROGO J.Y., (2016). Etude du fonctionnement hydrodynamique de l’aquifère sédimentaire du bassin du Kou au sud-ouest du Burkina Faso. Thèse de doctorat unique, Université Pierre et Marie Curie, France, 204p.

VRIES J.J. DE, SIMMERS I., (2002). Groundwater recharge: an overview of processes and challenges. Hydrogeology Journal, Vol. 10, pp. 5–17. https://doi.org/10.1007/s10040-001-0171-7

YOUAN TA M., YAO K.A.F., BAKA D., DE LASME Z. O., LASM T., ADJA M.G., KOUAKOU S., ONETIE Z.O., JOURDA J.P.R., BIEMI J. (2015). Cartographie des zones potentielles a l’implantation des forages a gros débits en milieu fissure par analyse multicritère cas du département d’Oumé (Centre-Ouest de la Côte d’Ivoire). Larhyss Journal, N°23, pp. 155-181.