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Title (Primary) Relationship of brines in the Kinnarot basin, Jordan-Dead Sea Rift Valley
Author Möller, P.; Siebert, C.; Geyer, S.; Inbar, N.; Rosenthal, E.; Flexer, A.;
Journal Geofluids
Year 2012
Department CATHYD;
Volume 12
Issue 2
Language englisch;
Keywords albitization; Brine evolution; dolomitization; Kinnarot Basin; rare earth element patterns

Element ratios and water stable isotopes reveal the presence of only two independent deep brines in the Kinnarot Basin, Israel: the evaporite dissolution brine of Zemah-1 and the inferred Ha’on mother brine (HMB) with low and high Br/Cl ratios, respectively. HMB is considered to be a representative of the Late Pliocene evaporated Sedom Sea. The freshwater-diluted evaporation brine emerges as Ha’on brine on the eastern shore of Lake Tiberias and is also identified in the pore water of lake sediments. HMB is converted into Tiberias mother brine (TMB) by dolomitization of limestones and alteration of abundant volcanic rocks occurring along the western side of the lake. The Ha’on and Tiberias brines, both characterized by high δD and δ18O values, are similar in Na/Cl and Br/Cl ratios but are dissimilar in Br/K ratios because these brines were subjected to different degrees of interactions with rocks and sediments. Excepting the brine from KIN 8, all brines from the Tabigha area including the nearby off-shore Barbutim brine are related to the TMB. The brine KIN 8 and all brines from the Fuliya and Hammat Gader areas are related to the HMB. The brine encountered in wildcat borehole Zemah-1 is generated by halite-anhydrite/gypsum dissolution and is independent from the HMB system.
ID 12015
Persistent UFZ Identifier
Möller, P., Siebert, C., Geyer, S., Inbar, N., Rosenthal, E., Flexer, A. (2012):
Relationship of brines in the Kinnarot basin, Jordan-Dead Sea Rift Valley
Geofluids 12 (2), 166 - 181