2016
DOI: 10.1002/2016wr018974
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Seasonal variations of halite saturation in the Dead Sea

Abstract: Hypersaline lakes and seas were common in the past, precipitating thick evaporitic salt deposits. The only modern analogue for the paleolimnology of deep salt‐saturated aquatic environments exists in the Dead Sea. In this study, we present new insights from the Dead Sea on the role of seasonal thermohaline stratification and water balance on the seasonal and depth variations of the degree of saturation of halite (salt) and the rate of halite growth along the water column. We developed methodologies to accurate… Show more

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Cited by 62 publications
(77 citation statements)
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“…The samples were kept warm to avoid salt precipitation prior to laboratory analysis. Accurate density measurements were critical for this study and were performed in the laboratory (DMA 5000) at 30°C, with an accuracy of ±0.005 kg m −3 (Gertman et al ; Arnon et al ; Sirota et al ). The density difference between the epilimnion and hypolimnion is based on the difference of samples from 10 and 50 m. This difference is positive under holomictic conditions, as presented in this study.…”
Section: Methodsmentioning
confidence: 99%
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“…The samples were kept warm to avoid salt precipitation prior to laboratory analysis. Accurate density measurements were critical for this study and were performed in the laboratory (DMA 5000) at 30°C, with an accuracy of ±0.005 kg m −3 (Gertman et al ; Arnon et al ; Sirota et al ). The density difference between the epilimnion and hypolimnion is based on the difference of samples from 10 and 50 m. This difference is positive under holomictic conditions, as presented in this study.…”
Section: Methodsmentioning
confidence: 99%
“…Ignoring chemical composition variations is justified for short‐term simulations (days to weeks) that are needed for internal waves simulations. However, in longer simulations (months to years), it would be preferable to account for halite precipitation and dissolution (Arnon et al ; Sirota et al , ) and for double diffusive fluxes (Arnon et al ); both of these are beyond the scope of this article.…”
Section: Methodsmentioning
confidence: 99%
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“…While these processes are small scale in nature, involving salt fingers that are millimeters to centimeters wide, we expect them to play an important role in the deposition of large‐scale halite layers at the bottom of basins that are tens to hundreds of kilometers wide and tens to hundreds of meters thick. Hence, these processes can influence the dynamics of stratified hypersaline bodies of water subjected to a hydrological crisis, such as the present‐day Dead Sea (Arnon et al, ; Sirota et al, , ) or the Mediterranean during the Messinian Salinity Crisis (Garcia‐Castellanos & Villaseñor, ). A fundamental property of such evaporitic basins is that the thickness of the rock layers increases toward the deep parts of the basins.…”
Section: Discussionmentioning
confidence: 99%
“…The setup for the numerical simulations of double‐diffusive salt fingers and precipitation of halite is guided by in situ observations from the Dead Sea (Arnon et al, ; Sirota et al, ) in terms of temperature, salinity, saturation, and halite crystallization rate (Figure d). The convective fluxes and saturation conditions are strongly affected by the low diffusivity and corresponding large gradients of salinity.…”
Section: Simulation Approach and Methodologymentioning
confidence: 99%