Remotely sensed estimation of water discharge into the rapidly dwindling Dead Sea

The Dead Sea is shrinking as its water level drops at the alarming rate of about 1 m year ⁻¹. The Dead Sea is important to the economies of Israel and Jordan due to the extracted minerals (primarily potassium, also magnesium and bromide). It is also central to regional tourism. It is the lowest plac...

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Bibliographic Details
Published in:Hydrological sciences journal 2014-08, Vol.59 (8), p.1593-1605
Main Authors: Vachtman, D, Laronne, J.B
Format: Article
Language:English
Subjects:
aerial photography
baisse du niveau de la mer
débit
freshwater
hydrometry
hydrométrie
lakes
magnesium
minerals
monitoring
potassium
remote sensing
river discharge
sea level drop
temporal variation
tourism
télédétection
uncertainty
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Summary:The Dead Sea is shrinking as its water level drops at the alarming rate of about 1 m year ⁻¹. The Dead Sea is important to the economies of Israel and Jordan due to the extracted minerals (primarily potassium, also magnesium and bromide). It is also central to regional tourism. It is the lowest place on Earth and its endorheic, saline basin attracts international research in various disciplines. Additional to the Lower Jordan River, the discharge of which has been decreased to a small fraction of its original value, fresh to brackish springs are the main source of water to the rapidly dwindling Dead Sea. Although the existence of these springs has been known for decades, until recently estimates of spring water discharge into the Dead Sea were scarce. In this study, we developed a methodology of water discharge estimation for channels incising into a lacustrine bed using remotely sensed data and a single hydraulic geometry variable, water-surface width. Based on calibration of over 400 in situ measurements and simultaneous hydrometric data from aerial images, width–discharge rating curves were established, tested, and found suitable (r ² = 0.92, p = 0.001) for the estimation of water discharge, with ±5% uncertainty. Furthermore, we used these relationships to estimate retrospectively the temporal changes in water discharge of seven main channels traceable in historical aerial images. The reconstructed trend reveals a major (63%) reduction in average freshwater inflow between 1990 and 2006. Our results maximize the use of water-surface width information from aerial imagery, and suggest applicability to areas experiencing rapid exposure of sea/lake bed and consequent access difficulties in in situ discharge monitoring. Editor Z.W. Kundzewicz Citation Vachtman, D. and Laronne, J.B., 2014. Remotely sensed estimation of water discharge into the rapidly dwindling Dead Sea. Hydrological Sciences Journal , 59 (8), 1593–1605. http://dx.doi.org/10.1080/02626667.2013.852278
ISSN:2150-3435
0262-6667
2150-3435
DOI:10.1080/02626667.2013.852278