Abstract
The Chari Baguirmi groundwater in the Republic of Chad is undergoing a steady deterioration both qualitative and quantitative due to climatic (severe droughts) and anthropogenic (overexploitation) constraints. However, this major water resource has not been to date the object of any comprehensive scientific investigation. To fill this gap and consider a sustainable exploitation, a hydrodynamic and hydrochemical study was undertaken. This aquifer is located south of Lake Chad and displays a significant natural piezometric depression. Piezometric campaign on an area of 70,000 km2, bounded by Lake Chad, the Chari River, the mountains of Guera and the dunes of Harr, was conducted to understand the hydrodynamics of the groundwater. Water samples were collected on 124 points scattered over the study area. Hydrochemical and isotopic analyses (18O and 2H) were achieved on all samples. The interpretation of hydrochemical data was done using the Piper diagram, the multivariate analysis (hierarchical ascending classification), the index of base exchanges and ratios of Na/Cl, Na/SO4, Cl/SO4, Br/Cl, Sr/Ca. The hydrochemical results coupled with groundwater isotopes data allowed to understand the processes that govern the mineralization and the origin of groundwater salinity. These investigations allowed on the one hand to differentiate between two poles of water mixing and second, to demonstrate that the mineralization process and origin of salinity in the center of depression are both related to the lithology of the geological formations crossed by groundwater flow and climatic events causing evaporation of water from the aquifer.
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References
Abdesselam M, Mania J, Mudry J, Gélard J-P, Chauve P, Lami H, Aigoun C (2000) Arguments hydrogéologiques en faveur de Trias évaporitique non affleurant dans le massif du Djurdjura (Dorsale kabyle, élément des Maghrébides). Hydrogeological arguments in favor of evaporitic Triassic not exposed in the Djurdjura massive (Dorsal Kabyle, element of Maghrebides). In French. Rev Sci Eau 13(2):155–166
Adamsa S, Titusa R, Pietersenb K, Tredouxc G, Harrisd C (2001) Hydrochemical characteristics of aquifers near Sutherland in the Western Karoo, South Africa. J Hydrol 241(2001):91–103
Alacala FJ, Custodio E (2008) Using the Cl/Br ratios as a tracer to indentify the origin of salinity in aquifers in Spain and Portugal. J Hydrol 359:189–297
Andreasen DC, Fleck WB (1997) Use of bromide: ratio to differentiate potential sources of chloride and shallow, unconfined aquifer affected by brackish-water intrusion. Hydrogeol J 5(2):17–26
Bouziane MT, Labadi A (2009) Les Eaux Profondes de la Région de Biskra (Algérie). The Deep waters in the Region of Biskra (Algeria). In French. Eur J Sci Res 25(4):526–537
Carmouze JP, Cheverry C, Gac JY, Maglione G, Roche MA (1975) Aspects sédimentologiques actuels d’un bassin continental endoréique: le bassin tchadien. Sedimentological aspects of current continental endorheic basin: the Chad Basin In French. 9p. IXème Congrès International de Sédimentologie, Nice
Carre J (1975) Géochimie du strontium dans les eaux de nappe et de surface de la région parisienne. Geochemistry of strontium in groundwater and surface water in the Paris region. In French. PhD thesis, Univ. Paris VI
Celle-Jeanton H, Huneau F, Travi Y, Edmunds WM (2009) Twenty years of groundwater evolution in the Triassic sandstone aquifer of Lorraine: impacts on baseline water quality. Appl Geochem 24(2009):1198–1213
Cheverry C (1973) Dynamique des sels en milieu continental subaride, dans les sédiments argileux et organiques. Contributuion à l’étude pédologique des polders du lac Tchad. Salts dynamics in a subarid continental environment, in clay and organic sediments. Contributuion to the polder soil survey of Lake Chad. In French. PhD thesis Univ. of Strasbourg, p 275
Craig H (1961) Isotopic variations in meteoric waters. Science 133:1702–1703
Djoret D (2000) Etude de la recharge de la nappe du Chari Baguirmi (Tchad) par les méthodes chimiques et isotopique. Study of the Chari Baguirmi (Chad) groundwater recharge by chemical and isotopic methods. PhD thesis, In French. Univ. of Avignon. p 156
Droubi A (1976) Géochimie des sels des solutions concentrées par évaporation. Modèles thermodynamiques de simulation, application aux sols salés du Tchad. Geochemistry of salts of solutions concentrated by evaporation. Thermodynamic models of simulation, application to salty soils Chad. In French. Mémoire Docteur-Ingénieur (Sciences géologiques, 46), ULP, Strasbourg, France, 177 p
Edmunds WM (1996) Bromine geochemistry of British groundwaters. Mineral Mag 60(399):275–284
Edmunds WM, Kay RLF, Miles DL, Cook JM (1987) The origin of saline groundwaters in the Carnmenellis granite, Cornwall (UK): furtherevidence from minor and trace elements. In: Fritz P, Frape SK (eds), Saline Water and Gases in Crystalline Rocks, vol 33, Geological Association of Canada Special Paper p 127–143
Fetter CW (1994) Applied hydrogeology. Prentice Hall Inc., New Jersey, p 691
Fisher RS, Mullican WF (1997) Hydrochemical evolution of sodium-sulphate and sodium-chloride groundwater beneath the Northern Chihuahuan Desert, Trans-Pecos, Texas, USA. Hydrogeol J 5(2):4–16
Fontes JC, Moglione G, Roche MA (1969) Données isotopiques préliminaires sur les rapports du lac Tchad avec les nappes de la bordure Nord-Est. Preliminary isotopic data on relations of Lake Chad with the groundwaters of the North-East border. In French. Cahier de l’ORSTOM serie hydrologie 6(1):17–34
Genik GJ (1992) Regional framework structural and petroleum aspects of rift basins in Niger, Chad and Central Africa Republic (C. A. R). Tectonophysics 213:169–185
Ghebouli MS, Bencheikh Elhocine M (2008) Origine de la salinité des eaux souterraines-Cas des hautes plaines setifiennes (Nord-Est algérien). Origin of groundwater salinity. The case of Setif high plains (Eastern Algeria). In French. Sciences and technologie A-N°28. Decembre, pp 37–46
Gupta S, Mahato A, Roy P, Datta JK, Saha RN (2008) Geochemistry of groundwater, Burdwan District, West Bengal, India. Environ Geol 53:1271–1282
Hill T, Lewicki P (2006) Statistics : methods and applications. A comprehensive reference for science—Google books. Statsoft Inc, USA, p 828
Hsissou Y, Chauve P, Mania J, Mangin A, Bakalowics M, Gaiz A (1996) Caractérisation des eaux de l’aquifère turonien du bassin de Tadla (Maroc) par le rapport des concentrations molaires Sr2+/Ca2+ Characterization of Turonian aquifer waters in the basin of Tadla (Morocco) by the molar concentration ratio Sr2+/Ca2+ (In French). J Hydrol 183:445–451
Hsissou Y, Mudry J, Mania J, Bouchaou L, Chauve P (1999) Utilisation du rapport Br/CI pour déterminer l’origine de la salinité des eaux souterraines : exemple de la plaine du Souss (Maroc). Using the ratio Br/CI to determine the origin of groundwater salinity: example of the Souss plain (Morocco). In French. C R Acad Sci Paris Sciences de la terre et des planètes 328:381–386
Jalali M (2006) Chemical characteristics of groundwater in parts of mountainous region, Alvand, Hamadan, Iran. Environ Geol 51:433–446
Jalali M (2009) Geochemistry characterization of groundwater in an agricultural area of Razan, Hamadan, Iran. Environ Geol 56:1479–1488
James TF (2007) The use of bromide and chloride mass ratios to differentiate salt-dissolution and formation brines in shallow groundwater of the Western Canadian Sedimentary Basin. Hydrogeol J 15:1377–1385
Katz BG, Eberts SM, Kauffman LJ (2011) Using Cl/Br ratios and other indicators to asses potential impacts on groundwater quality from septic systems: a review and examples from principal aquifers in the United States. J Hydrol 397(2011):151–166
Kusnir I, Moutaye HA (1998) Ressources minérales du Tchad: une revue. Chad’s mineral resources: a review (In French). J Afr Earth Sci 24(4):549–562
Maglione G (1968) Présence de gaylussite et de trona dans les “ natronières ” du Kanem (pourtour nord-est du lac Tchad). Presence of gaylussite and trona in the”natronières” of Kanem (north-eastern fringes of Lake Chad). In French. Bull Soc Fr Minéral Cristallogr 91:388–395
Maglione G, Tardy Y (1971) Néoformation pédogénétique d’une zéolite, la mordénite, associée aux carbonates de sodium dans une dépression interdunaire des bords du Lac Tchad. Pedogenetic neoformation of a zeolite, the mordenite, combined with sodium carbonate in an interdunal depression on the Lake Chad banks. In French. C R Acad Sci Paris 272D: 772–774
Marjoua A, Olive PH, Jusserand C (1997) Apports des outils chimiques et isotopiques à l’identification des origines de la salinisation des eaux: cas de la nappe de la Chaouia côtière (Maroc). Contributions of chemical and isotopic tools to identify the origins of salinization: the case of the Chaouia coastal aquifer (Morocco). In French. Rev Sci Eau 10(4):489–505
Meybeck M (1984) Les fleuves et le cycle géochimique des éléments. Rivers and geochemical cycle of elements. In French. Doc. d’Etat thesis, Univ. Paris IV
Moussa A (2010) Les séries sédimentaires fluviatiles, lacustres et éoliennes du bassin du Tchad depuis le Miocène terminal. The fluvial, lacustrine and eolian sedimentary series of Chad Basin since the Miocene. In French. PhD thesis. Univ. Strasbourg p 294
Paul B, Martial D, Philipe O (1969) Nouvelles données sur les caractéristiques chimiques et isotopiques des eaux du complexe quaternaire de la région de Thonon-les-Bains (Haute-Savoie). New data on the chemical and isotopic characteristics of the waters of the quaternary complex area of Thonon-les-Bains (Haute-Savoie). In French. Revue de géographie alpine 57(4):823–830
Petrides B, Cartwright I (2006) The hydrogeology and hydrogeochemistry of the Barwon Downs Graben aquifer, southwestern Victoria, Australia. Hydrogeol J 14:809–826
Pias J (1970) Les formations sédimentaires tertiaires et quaternaires de la cuvette tchadienne et les sols qui en dérivent. The tertiary and quaternary sedimentary formations of the Chad basin and soils which derive. In French. Cahiers ORSTOM 43:407
Rieu M (1978) Elément d’un modèle mathématique de prédiction de la salure dans les sols irrigués. Application aux polders du Tchad. Element of a mathematical model for predicting salinity in irrigated soils. Application to polders Chad. In French. PhD Thesis Univ. Paul Sabatier, Toulouse, p 134
Samira K, Michelot JL, Bouchaou L, Mudry J, Hsissou Y (2004) Sur l’origine par l’altération du substratum schisteux de la minéralisation chlorurée des eaux de la nappe côtière sous climat aride (Chtouka-Massa, Maroc). The origin by weathering of schistic bedrock of the mineralization of chlorinated waters of the coastal aquifer in an arid climate (Chtouka Massa, Morocco). In French. C R Geosci 336:1363–1369
Schneider JL, Wolf JP (1992) Carte géologique et carte hydrogéologique au 1/1500000 de la république du Tchad. Edition BRGM
Schoeller H (1934) Sur la concentration des sels dissous dans les eaux souterraines. The concentration of dissolved salts in groundwater. Rabat, Morocco In French. Comité Études eaux souterraines, Rabat Maroc, pp 46–54
Servant-Vildary S (1978) Etude des diatomés et paléoclimatologie du bassin tchadien au Cénozoïque supérieur. Study of diatoms and paleoclimatology of the Chad basin in Upper Cenozoic. In French. Travaux et documents O.R.S.T.O.M. N°84, p 346
Usho R, Kur H, Jessica S, Ian E, Michael NF, Stephen JS, Andrea LH (2005) The use of 36Cl and chloride/bromide ratios in discerning salinity sources and fluid mixing patterns: a case study at Saratoga Springs. Chem Geol 222:94–111
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Abderamane, H., Razack, M. & Vassolo, S. Hydrogeochemical and isotopic characterization of the groundwater in the Chari-Baguirmi depression, Republic of Chad. Environ Earth Sci 69, 2337–2350 (2013). https://doi.org/10.1007/s12665-012-2063-7
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DOI: https://doi.org/10.1007/s12665-012-2063-7