Abstract
The salinity of Lake Kinneret, which fluctuates between 190 and 280 mg L−1 Cl−, is significantly higher than the salinity of surface streams that flow to the lake. The high salinity is mainly derived from saline groundwater that emerges through offshore and onshore springs along the coast of the lake. Smaller amounts of solutes are attributed to dispersed seepage and molecular diffusion from the bottom of the lake. This chapter reviews the salinity of Lake Kinneret from the following aspects: the history of salinity measurements, the karst hydrological system of the saline springs that recharge the lake, analysis of the lake solute balance, the chemical composition of the lake as a result of the saline spring’s contribution, hydrological conceptual model of the salinization mechanism, and finally, a complete mixing type model to predict the future salinity of the lake is presented.
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References
Abbo H, Shavit U, Markel D, Rimmer A (2003) A numerical study on the influence of fractured regions on lake/groundwater interaction; the Lake Kinneret case. J Hydrol 283(1–4):225–243
Assouline S (1993) Estimation of lake hydrologic budget terms using the simultaneous solution of water, heat, and salt balances and a Kalman filtering approach—application to Lake Kinneret. Water Resour Res 29(9):3041–3048
Benoualid S, Ben-Zvi A (1981) A model to predict the Lake Kinneret salinization and the solutes reservoir. Israel Hydrological Service Report 1981/5, Jerusalem (in Hebrew)
Bergelson G, Nativ R, Bein A (1998) Assessment of hydraulic parameters in the aquifers surrounding and underlying Lake Tiberias. Ground Water 36:409–417
Dalinsky P (1969) The salinization mechanism of Lake Kinneret—a research for the period 1912–1968. No. 746, water planning for Israel (Tahal), Tel-Aviv (In Hebrew)
Goldman M, Gvirtzman H, Hurwitz S (2004) Mapping of saline groundwater beneath the Sea of Gallilee and its vicinity using the Domain electromagnetic (TDEM) geophysical technique. Isr J Earth Sci 53:187–197
Goldschmidt MJ, Arad A, Neev D (1967) The mechanism of the saline springs in the Lake Tiberias depression. Min Dev Geol Surv, Jerusalem, Hydrol. Pap. #11, Bull. 45. 19 pp
Gvirtzman H, Garven G, Gvirtzman G (1997) Hydrogeological modeling of the saline hot springs at the Sea of Galilee, Israel. Water Resour Res 33(5):913–926
Hurwitz S, Goldman M, Ezersky M, Gvirtzman H (1999) Geophysical (time domain electromagnetic model) delineation of a shallow brine beneath a freshwater lake. The Sea of Galilee, Israel. Water Resour Res 35:3631–3638
Hurwitz S, Lyakhovsky V, Gvirtzman H (2000a) Transient salt transport modeling of a shallow brine beneath a fresh water lake, the Sea of Galilee. Water Resour Res 36:101–107
Hurwitz S, Stanislavsky E, Lyakhovsky V, Gvirtzman H (2000b) Transient groundwater-lake interactions in a continental rift: Sea of Galilee, Israel. Geol Soc Am Bull 112:1694–1702
Issar AS (1993) Recharge and salination processes in the carbonate aquifers in Israel. Environ Geol 21:152–159
Katz A, Nishri A (2013) Calcium, magnesium and strontium cycling in stratified, hardwater lakes: Lake Kinneret (Sea of Galilee), Israel. Geochim Cosmochim Acta 105:372–394
Kessler A, Rimmer A (2003) Influence of the Kinneret’s water level upon the submerged outflow of Fuliya springs. Report submitted to the Israeli Water Commission (in Hebrew).
Klein Ben-David O, Saas E, Katz A (2004). The evolution of marine evaporitic brines in Inland Basins: the Jordan-Dead Sea Rift valley. Geochim Cosmochim Acta 68:1763–1775
Kolodny Y, Katz A, Starinsky A, Moise T, Simon E (1999). Chemical tracing of salinity sources in Lake Kinneret (Sea of Galilee), Israel. Limnol Oceanogr 44:1035–1044
Mazor E, Mero F (1969) Geochemical tracing of mineral resources in the Lake Tiberias basin, Israel. J Hydrol 7:276–317
Mekorot (1987–2011) The annual water-solute-energy balances of Lake Kinneret. Mekorot, Watershed Unit, Israel. (in Hebrew)
Mercado A, Mero F (1985) The saline discharges to lake Kinneret. Report II. Rep. 01/85/23. Tahal, Tel Aviv, 57 pp (in Hebrew)
Mero F (1978) Hydrology. In: Serruya C (ed) Lake Kinneret, Monographiae Biologicae. Junk, The Hague, pp 88–102
Mero F, Mandel S (1963) The hydrological mechanism of the saline springs of the western shore of Lake Kinneret. Tahal report 2399, Tahal, Tel-Aviv, 10 pp (In Hebrew)
Mero F, Simon E (1992) The simulation of chloride inflows into Lake Kinneret. J Hydrol 138:345–360
Mero F, Zaltzman U (1967) Hydrological observations on the saline springs in Lake Kinneret. TAHAL, Rep. 692, Tahal, Tel-Aviv, 10 pp. (in Hebrew)
Nishri A, Stiller M, Rimmer A, Geifman Y, Krom M (1999) Lake Kinneret, The Sea of Galilee: the effects of diversion of external salinity sources and the probable chemical composition of the internal salinity sources. Chem Geol 158:37–52
Oren OH (1957) Physical and chemical characteristics of Lake Tiberias. Ministry of Agriculture, Division of Fisheries, Sea Fisheries Research Station and TAHAL P.N.9. Tel Aviv
Rimmer A (2000) The influence of lake level on the discharge of the Kinneret saline springs. Adv Limnol 55:55–67
Rimmer A (2003). The mechanism of Lake Kinneret salinization as a linear reservoir. J Hydrol 281(3):177–190
Rimmer A (2007) System approach hydrology tools for the upper catchment of the Jordan river and Lake Kinneret, Israel. Isr J Earth Sci 56:1–17
Rimmer A, Gal G (2003) The saline springs in the solute and water balance of Lake Kinneret, Israel. J Hydrol 284(1–4):228–243
Rimmer A, Hartmann A (2012) Simplified conceptual structures and analytical solutions for groundwater discharge using reservoir equations. Chapter 10 in InTech Open Access book, “Water Resources Management and Modeling”, ISBN 978-953-51-0246-5
Rimmer A, Hurwitz S, Gvirtzman H (1999) Spatial and temporal characteristics of saline springs: sea of Galilee, Israel. Ground Water 37(5):663–673
Rimmer A, Aota Y, Kumagai M, Eckert W (2005) Chemical stratification in thermally stratified lakes: a chloride mass balance model. Limnol Oceanogr 50:147–157
Rimmer A, Givati A, Samuels R, Alpert P (2011) Using ensemble of climate models to evaluate future water and solutes budgets in Lake Kinneret, Israel. J Hydrol 410:248–259
Simon E, Mero F (1992) The salinization mechanism of Lake Kinneret. J Hydrol 138:327–343
Singh VP (1988) Hydrologic systems, rainfall-runoff modeling. Prentice Hall, Englewood Cliffs
Starinsky A (1974) Relationships between Ca-chloride brines and the sedimentary rocks in Israel. PhD thesis. The Hebrew University Jerusalem (in Hebrew: English Summary)
Stiller M (1994) The chloride content of pore water of Lake Kinneret sediments. Isr J Earth Sci 43:179–185
Stiller M, Carmi I, Munnich KO (1975) Water transport through Lake Kinneret sediments traced by tritium. Earth Planet Sci Lett 25:297–304
Stiller M, Rosenbaum JM, Nishri A (2009) The origin of brines underlying Lake Kinneret. Chem Geol 262:309–325
Tal A, Rimmer A (2008) Estimation of water and solutes load from Kinneret springs—survey report. Hydrological Service report (in Hebrew)
Varekamp JC (1988) Lake pollution modeling. J Geol Educ 36:4–9
Yechieli Y, Shaliv G, Wallman S, Kessler A, Rozenzpet M, Berger D, Bein A (2011) Three dimensional model for the Kalanit Basin (Fuliya and Tabgha basin). GSI Project report GSI/38/2011
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Rimmer, A., Nishri, A. (2014). Salinity. In: Zohary, T., Sukenik, A., Berman, T., Nishri, A. (eds) Lake Kinneret. Aquatic Ecology Series, vol 6. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-8944-8_8
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DOI: https://doi.org/10.1007/978-94-017-8944-8_8
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