CLIMATE CHANGE IMPACT ON WATER RESOURCE IN MOROCCO; CASE OF ESSAOIURA BASIN
Abstract
Since the 50s, many changes are observed in the global climate namely; the warming of the atmosphere and ocean, decrease in the extent of snow and ice and rising sea levels. In addition to population pressure, the Maghreb countries suffer from drought which accentuates the phenomenon of desertification and soil erosion and salinity, leading to salinization and depletion of water resources. In Morocco, climate change causes: soil erosion as a result of desertification resulting in siltation of dams, accentuation the salinization of soils and water resources. The Essaouira Basin, object of this study, is located on the Atlantic coast of Morocco in the southeast of Essaouira city. This basin is characterized by a semi-arid climate with annual rainfall of around 300 mm / year and average temperatures of 20 ° C. Given the importance of the Essaouira aquifer in supplying drinking water to the city of Essaouira and neighboring communities, a study was done to quantitatively and qualitatively assess the impact of climate change on water resources. The aquifers characterizing this area are the Cenomanian-Turonian in upstream and Plio-Quaternary in downstream separated by the diapir Tidzi. The piezometric maps were made (1990-2015). The study of the chemistry of water shows that they have type facies Na-Cl (1990-2009), Mg-Cl and Cl (2015). The salinity varies from 80-3500 mg / L. The concentration of 18O; 2H; 3H and 14C were measured, a local meteoric right close to the global meteoric right characterizing ocean-precipitation was determined and the age of groundwater is determined. The Essaouira Basin is very vulnerable and sensitive to climate change because its home is entirely dependent on rainwater.
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BABQIQI A. (2014). Changements Climatiques au Maroc : Etude du cas de la Région de Marrakech Tensift Al Haouz et implications sur l'agriculture à l'horizon 2030. Thèse de doctorat, Université cadi Ayyad, Maroc, 143 pp
BAHIR M. (2007). Isotopes et ressources en eaux en zones-arides et semi-arides : exemple du bassin d’Essaouira, 175 pp.
BAHIR M, MENNANI A, JALAL M, YOUBI N., (2000), Contribution à l’étude des ressources hydriques du bassin synclinal d’Essaouira (Maroc). Estudios Geologicos, 56: 185-195.
BAHIR M., EL MOUKHYAR R., CHAMCHATI H., CHKIR N. (2013). Using geochemical indicators and isotopic to investigate groundwater: The case of the Essaouira aquifers system (Mogador, Morocco). Proceedings of 2013 International Conference on Advances and Challenges in Porous Media Sousse. Tunisia. 26-28 April. 2013: 112-121.
BATES,B. C., Z. W. KUNDZEWICZ, S. WU ET J. P. PALUTIKOF., (2008). Le changement climatique et l’eau. Document technique VI du GIEC. Genève. 236 pp.
CLARK I. et P. FRITZ (1997). Environmental isotopes in hydrogeology. Lewis Publishers, New York, USA.
CRAIG H. (1961). Standards for reporting concentration of deuterium and oxygen 18 in natural waters. Science.133 : 1833-1834.
DRIOUECH F. (2010). Distribution des précipitations hivernales sur le Maroc dans le cadre d’un changement climatique : descente d’échelle et incertitudes. Thèse de doctorat de l’université de Toulouse.163 pp.
DRIOUECH F., BEN RACHED S. AND EL HAIRECH T. (2013). Climate Variability and Change in North African Countries, (Mannava V.K. Sivakumar, Rattan Lal, R. Selvaraju, I. Hamdan, Eds.). Springer, 161-172. doi: 10.1007/978-94-007-6751-5_9.
DUFFAUD F., BRUN L. ET PLANCHOT B. (1966). Bassin du sud-ouest marocain. In : Reyre (ed), bassin sédimentaire du littoral africain. Ass.Serv. Géol.Africain.1er partie, Paris, P.5.
FONTES J.C. (1976). Isotopes du milieu et cycle des eaux naturelles : quelques aspects. Thèse Doct. d’État, Univ. Paris VI, 208 p.
JALAL M., BAHIR M., MENNANI A. (2001). Pollution nitratée des eaux souterraines du bassin synclinal d’Essaouira (Maroc) (Nitrate in groundwater of the Essaouira Synclinal Basin, Morocco). Journal of environmental hydrology. Vol. 9 : 1-10.
G.I.E.C. (2013). Changements climatiques 2013 les éléments scientifiques- résumé à l’intention des décideurs : 1-34. www.climatechange2013.org.
MAZOR E. (1991). Applied chemical and isotopic groundwater hydrology. Open University Press, Buckingham, 282pp.
NOUACEUR Z. LAIGNEL B., TURKI I. (2013). Changements climatiques au Maghreb : vers des conditions plus humides et plus chaudes sur le littoral algérien. Physio-géo vol 7 : 307-323.
SEBBAR A. BADRI W., FOUGRACH H., HSAINE M., SALOUI A. (2011). Etude de la variabilité du régime pluviométrique au Maroc septentrional (1935-2004). Sécheresse vol. 22, n°3 : 139-148. doi: 10.1684/sec.2011.0313.
SINAN M., BOUSSETTA M., EL RHERARI A. (2009). Changements climatiques : causes et conséquences sur le climat et les ressources en eau. Revue HTE,142 : 21-30.
STOUR L. & AGOUMI A. (2009). Sécheresse climatique au Maroc durant les dernières décennies. Hydroécol. Appl. Tome 16 : 215–232. doi: 10.1051/hydro/2009003.
TAMERS M.A. (1967). Radiocarbon ages of groundwater in an arid zone unconfined aquifer. Dans : Isotope Techniques in the Hydrological Cycle. Papers presented at a symposium at the University of Illinois, 10‑12 novembre, Stout G.E. (Éditeur). Geophys. Monogr. Ser., 11, 143‑152.
UNESCO. (2010). Changement climatique enjeux et perspectives au Maghreb. Geb-environnement, 258 pp.
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