Freshening of the Dead Sea during the Last Glacial Revealed By Porewater Composition in ICDP Dead Sea Deep-Drill

Boaz Lazar, Orit Sivan, Yoseph Yechieli, Elan J Levy, Gilad Antler, Ittai Gavrieli, Mordechai Stein

Research output: Contribution to journalMeeting Abstract

Abstract

The geological evolution of the brine lakes that filled the Dead Sea basin has been extensively studied on the sedimentary exposures and drill cores on the Sea marginal terraces of the modern Dead Sea. These geological sections documented the history of the epilimnion (upper brine) of the hypersaline lake during its high stands periods. The cores drilled during 2011 by ICDP in the deep basin of the Dead Sea at water depth of 300 m provided the first opportunity to study the history of the deepest part of the hypolimnion (deep brine) by measuring the chemical and isotopic composition of pore-fluids. The vertical profiles of chloride (Cl-) sodium (Na+) and oxygen isotopes (δ18O) in the pore brines revealed a substantial decrease in salinity of the hypolimnion during the high stand of the last glacial Lake Lisan (the last glacial predecessor of the modern Dead Sea), particularly during MIS2 (~31-17 ka BP). Diffusion-deposition model indicated that Cl- concentration of the deep hypolimnetic brine decreased gradually to less than 2/3 of its present value. The δ18O at the same time increased to maximum of ~7‰ (3‰ higher than today). Beforehand, during the interglacial and later during the post-glacial and the Holocene the Cl- concentrations and δ18O values were similar to those of the modern Dead Sea. The slow dilution of the deep Ca-chloride brine was caused probably by continuous turbulent mixing of the hypolimnion with the less saline high δ18O epilimnetic brine, across the epilimnion/hypolimnion interface (EHI). The increase in δ18O during the salinity decrease of Lake Lisan was a result of evaporative fractionation of the less saline epilimnetic brine. The post-glacial δ18O decrease while salinity increased is attributed to the "reversed" δ18O fractionation during evaporation of very high salinity brine. Increase in the Na/Cl ratio due to dissolution of halite without reaching halite saturation was also observed during the freshening period.
Original languageEnglish
JournalGeophysical Research Abstracts
StatePublished - 2014
EventAmerican Geophysical Union Fall Meeting 2014 - San Francisco, United States
Duration: 15 Dec 201419 Dec 2014

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