Abstract
In order to evaluate the state of groundwater salination by seawater intrusion on the Lebanese coast, the region of Choueifat–Rmeyle, situated in the south of Mount-Lebanon, was chosen as a study zone. Overall, six wells were chosen and water sampling was done for three years starting from 1999 till 2002. Sampling was done on a monthly basis for ten months per year, from July till April. A complete physico-chemical analysis was done for all the water samples taken. Seawater intrusion in the Choueifat-Rmeyle region was studied through the interrelations between the chemical and physical constituents of groundwater. Results showed that the regions of Choueifat, Jiye and Rmeyle were subject to seawater intrusion. This intrusion was directly and simultaneously related to the pumping period and intensity but weakly linked to the quantity of rainfall. It was also related to the geologic nature of the study area. Furthermore, the actual intrusion in the study zone increases the already existing salinity problems. The salinity rates of wells water oscillated between 0.7 dS/m and 5.5 dS/m with the majority above 2 dS/m. This is leading to intolerable levels of water and soil salinity, inadequate for the cultivation of many crops, thus threatening their growth and production and reducing the agrodiversity in the region.
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Apello, C. A. J. and Geinard, W., 1991, ‘Processes accompanying the intrusion of saltwater,’ in: Hydrogeology of Saltwater Intrusion, a Selection of SWIM Papers, II, pp 291–304.
Apello, C. A. J. and Postma, D., 1993, Geochemistry, Groundwater and Pollution, Balkema, Rotterdam, 536pp.
Apello, C. A. J. and Willemsen, A., 1987, ‘Geochemical calculations and observations on saltwater intrusions, a combined geochemical and mixing cell model,’ J. Hydrol. 94, 313–330.
Attallah, T., Darwish, T., and et Ward, R., 2000, ‘La sericulture de la côte nord du Liban: entre tradition et intensification,’ Cahiers Agricultures 9, 135–139.
Bakker, M., 2000, ‘The size of the fresh water zone below an elongated island with infiltration,’ Water Resour. Res. 36(1), 109–117.
Bonacci, O. and Bonacci, T. R., 1997, ‘Seawater intrusion in coastal karst springs: Example of the blaž spring (Croatia),’ J. Hydrol. 42(11), 100–189.
Darwish, T. and Zurayk, R., 1997, ‘Distribution and nature of red Mediterranean soils in Lebanon along altitudinal sequence,’ Catena 28, 191–202.
Dubertret, L., 1955, Carte géologique du Liban au 1/20,000 E. Beyrouth, République Libanaise, ministère des travaux publics.
El Moujabber, M., Atallah, T., Darwish, T., and Bou Samra, B., 2004, ‘Monitoring of groundwater salination by seawater intrusion on the Lebanese Coast,’ Lebanese Science Journal 5(2), 21– 36.
El Moujabber, M., Darwish, T., Atallah, T., Shaaban, A., and Khawlie, M., 2003, Land degradation on the Lebanese coast by urbanization pressure and mismanagement of water resources. Workshop: Ecosystem-based assessment of soil degradation to facilitate land users' and land owners' prompt actions ECOLAND. Adana – Turkey, 2–70 June 2003.
El Moujabber, M. and Bou Samra, B., 2002, ‘Assessment of Groundwater salination by seawater intrusion in a typical horticultural area,’ Acta Horticulturae 573, 195–202.
Emekli, N., Karahanoğlu, N., Yazicigil and Doywan, H., 1996, ‘Numerical simulation of saltwater intrusion in a “Groundwater” basin,’ Water Environ. Res. 685–855.
FAO, 1973, Results of an airborne thermal infrared survey of the coast of Lebanon for marine sweet water springs. United nation, USA.
FAO, 1997, ‘Seawater intrusion in coastal aquifers,’ Guidelines for Study Monitoring and Control 7–23, 124–150.
Fidelipus, M. D. and Tulipano, L., 1986, ‘Mixing phenomena owing to seawater intrusion for the interpretation of chemical and isotopic data of discharge waters in the Apulian coastal carbonate aquifer (South Italy),’ in: Proceeding: 9th Saltwater Intrusion Meeting, Delft, pp 591–600.
Halwani, J., Ouddane, B., Baoudi, M., and Wartel, M., 1999, ‘Contamination par les nitrates des eaux souterraines de la plaine d'Akkar au Liban du Nord,’ Cahiers Santé 9, 219–223.
Hurswitz, S., Lyakhovsky, V., and Gvirtzman, H., 2000, ‘Transient salt transport modeling of shallow brine beneath a freshwater lake, the sea of Galile, Israel,’ Water Resour. Res. 36(1), 101–107.
Huyakron, P. S., Wu, Y. S., and Park, N. S., 1996, ‘Multiphase approach to the numerical solution of a sharp interface salt water intrusion problem,’ Water Resources Research 32(1), 93–102.
Jones, B. F., Vengosh, A., Rosenthal, E., and Yechieli, Y., 1999, ‘Geochemical investigation of groundwater quality,’ in: proceeding: Seawater Intrusion in Coastal Aquifers- Concepts, Methods and Practices, Kluwer academic publishers, Netherlands, pp 51–71.
Karahanoğlu, N., 1997, ‘Assessment of sea-water intrusion in a coastal aquifer by using correlation, principal component, and factor analyses,’ Water. Environ. Res. 69(3), 331–341.
Langevin, C. D., Stewart, M. T., and Beaudain, C. M., 1998, ‘Effects of sea waters canals on frech water resources: An example from big Pine Key, Florida,’ Ground Water 36(3), 503–513.
Mercado, A., 1985, ‘The use of hydrogeochemical patterns in carbonate sand and sandstone aquifers to identify intrusion and flushing of old saline water,’ Ground Water 23, 635–644.
Padilla, F. and Sanjulian, J. C. 1997, ‘Modeling sea-water intrusion with open Boundary conditions,’ Ground Water 35(4), 704–712.
Person, M., Taylor, J. Z., and Dingman, S. L., 1998, ‘Sharp interface models of salt water intrusion and wellhead delineation on Nantucket Island, Massachusetts,’ Ground Water 36(5), 731–742.
Revelle, R., 1941, ‘Criteria for recognition of sea water in ground waters,’ Trans. Amer. Geophysical Union. 22, 593–597.
Richards, L. A., 1954, Diagnosis and improvement of saline and alkali soils. USDA Agric. Handbook 60. Washington D.C.
Sanlaville, P., 1977, Etude géomorphologique de la région littorale du Liban. Tome II, publication de l'université libanaise, section des études géographiques, Beyrouth-Liban, pp 402–859.
Solh, M., Bassiri, M., Ryan, J., and Rubeiz, I., 1987, ‘Salinity observations in greenhouses along Lebanon's coast,’ Leb. Sci. Bull. 3, 5–9.
Sukhija, B. S., Varma, V. N., Nagabhushanam, P., and Reddy, D. V., 1996, ‘Differentiation of paleomarine and modern intruded salinities in coastal groundwaters (of Karaikal and Tanjavur, India) based on inorganic chemistry, organic biomarker fingerprints and radiocarbon dating,’ J. Hydrol. 174, 173–201.
Todd, D. K., 1959, Ground Water Hydrology, John Wiley and Sons. Inc, 277–294.
Todd, D. K., 1989, Sources of saline intrusion in the 400-foot aquifer, Castroville area, California. Report for Monterey Country Flood Control and Water Conservation District, Salinas, California, 41pp.
Tolman, C. F. and Poland, J. F., 1940, ‘Ground Water, salt water infiltration, and ground surface recession in Santa Clara Valley, Santa Clara County, California,’ Trans. Amer. Geoph. Union 21, 23–35.
Vengosh, A. and Rosenthal, A., 1994, ‘Saline groundwater in Israel: Its bearing on the water crisis in the country,’ J. Hydrol. 156, 389–430.
Vengosh, A., Gill, J., Reyes, A., and Thoresberg, K., 1997, A multi-isotope investiga6tion of the origin of groundwater salinity in Salinas valley, California. American Geophysical Union, San Francisco, California.
Vengosh, A., Starinsky, A., Melloul, A., Fink, M., and Erlich, S., 1991, Salinization of the coastal aquifer water by Ca-chloride solutions at the interface zone, along the Coastal Plain of Israel. Hydrological Service Report, Hydro /20/1991.
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Moujabber, M.E., Samra, B.B., Darwish, T. et al. Comparison of Different Indicators for Groundwater Contamination by Seawater Intrusion on the Lebanese Coast. Water Resour Manage 20, 161–180 (2006). https://doi.org/10.1007/s11269-006-7376-4
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DOI: https://doi.org/10.1007/s11269-006-7376-4