Effect of Water Surface Salinity on Evaporation: The Case of a Diluted Buoyant Plume Over the Dead Sea

Z. Mor, S. Assouline, J. Tanny, I. M. Lensky, N. G. Lensky

Research output: Contribution to journalArticlepeer-review

55 Scopus citations

Abstract

Evaporation from water bodies strongly depends on surface water salinity. Spatial variation of surface salinity of saline water bodies commonly occurs across diluted buoyant plumes fed by freshwater inflows. Although mainly studied at the pan evaporation scale, the effect of surface water salinity on evaporation has not yet been investigated by means of direct measurement at the scale of natural water bodies. The Dead Sea, a large hypersaline lake, is fed by onshore freshwater springs that form local diluted buoyant plumes, offering a unique opportunity to explore this effect. Surface heat fluxes, micrometeorological variables, and water temperature and salinity profiles were measured simultaneously and directly over the salty lake and over a region of diluted buoyant plume. Relatively close meteorological conditions prevailed in the two regions; however, surface water salinity was significantly different. Evaporation rate from the diluted plume was occasionally 3 times larger than that of the main salty lake. In the open lake, where salinity was uniform with depth, increased wind speed resulted in increased evaporation rate, as expected. However, in the buoyant plume where diluted brine floats over the hypersaline brine, wind speed above a threshold value (∼4 m s−1) caused a sharp decrease in evaporation probably due to mixing of the stratified plume and a consequent increase in the surface water salinity.

Original languageEnglish
Pages (from-to)1460-1475
Number of pages16
JournalWater Resources Research
Volume54
Issue number3
DOIs
StatePublished - Mar 2018

Bibliographical note

Publisher Copyright:
© 2018. American Geophysical Union. All Rights Reserved.

Funding

We thank Liu Heping and two anonymous reviewers and the associated editor for insightful comments that improved this manuscript. The measuring setup required a significant collaboration with the following teams: From the Geological Survey of Israel: Ali Arnon, Hallel Lutzky, Raanan Bodzin, Ido Sirota, Uri Malik, Itzik Hamdani, Haggai Eyal, Yoram Biton, Yael Elharar, Oria Vaanunu, and Ira Peer; From IOLR: Isaac Gertman, Tal Ozer, and Boris Katsenelson; From Taglit R/V: Silvy Gonen, Meir Yifrach, and Shachar Gan-El; From Meteo-Tech: Denis Kuchuk, Alona Arie, and Igor Idzon. The research was funded by the Israeli Government under GSI DS project 40572. Interested readers can access our data by visiting https://www. dropbox.com/s/h3gln9lktca507f/double%20peak%20data.xlsx?dl50.

FundersFunder number
Israeli Government
GSI Helmholtzzentrum für Schwerionenforschung40572

    Keywords

    • Dead Sea
    • evaporation
    • plume
    • salinity
    • stratification
    • water activity

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