Raising the Dead without a Red Sea-Dead Sea project? Hydro-economics and governance

Abstract. Seven decades of extractions have dramatically reduced Jordan River flows, lowered the Dead Sea level, opened sink holes, and caused other environmental problems. The fix Jordan, Israel, and the Palestinians propose would build an expensive multipurpose conveyance project from the Red Sea to the Dead Sea that would also generate hydropower and desalinate water. This paper compares the Red-Dead project to alternatives that may also raise the Dead Sea level. Hydro-economic model results for the Jordan-Israel-Palestinian inter-tied water systems show two restoration alternatives are more economically viable than the proposed Red-Dead project. Many decentralized new supply, wastewater reuse, conveyance, conservation, and leak reduction projects and programs in each country can together increase economic benefits and reliably deliver up to 900 MCM yr−1 to the Dead Sea. Similarly, a smaller Red-Dead project that only generates hydropower can deliver large flows to the Dead Sea when the sale price of generated electricity is sufficiently high. However, for all restoration options, net benefits fall and water scarcity rises as flows to the Dead Sea increase. This finding suggests (i) each country has no individual incentive to return water to the Dead Sea, and (ii) outside institutions that seek to raise the Dead must also offer countries direct incentives to deliver water to the Sea besides building the countries new infrastructure.

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Raising the dead without a Red Sea-Dead Sea canal? Hydro-economics and governance

Hydrology and Earth System Sciences Discussions ◽

10.5194/hessd-7-9661-2010 ◽

2010 ◽

Vol 7 (6) ◽

pp. 9661-9689

Author(s):

D. E. Rosenberg

Keyword(s):

Sea Level ◽

Red Sea ◽

Wastewater Reuse ◽

Dead Sea ◽

Water Systems ◽

Economic Benefits ◽

Sale Price ◽

Individual Incentive ◽

The Dead ◽

New Infrastructure

Abstract. Seven decades of extractions have dramatically reduced Jordan River flows, lowered the Dead Sea level, opened sink holes, and caused other environmental problems. The fix Jordan, Israel, and the Palestinians propose would build an expensive multipurpose canal from the Red Sea to the Dead Sea that would also generate hydropower and desalinated water. This paper compares the Red-Dead project to alternatives that may also raise the Dead Sea level. Hydro-economic model results for the Jordan-Israel-Palestinian inter-tied water systems show two restoration alternatives are more economically viable than the proposed Red-Dead project. Many decentralized new supply, wastewater reuse, conveyance, conservation, and leak reduction projects and programs in each country can together increase economic benefits and reliably deliver up to 900 MCM/year to the Dead Sea. Similarly, a smaller Red-Dead project that only generates hydropower can deliver large flows to the Dead Sea when the sale price of generated electricity is sufficiently high. However, for all restoration options, net benefits fall and water scarcity rises as flows to the Dead Sea increase. This finding suggests (i) each country has no individual incentive to return water to the Dead Sea, and (ii) outside institutions that seek to raise the Dead must also offer countries direct incentives to deliver water to the Sea besides building the countries new infrastructure.

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SAR Interferometry for Sinkhole Early Warning and Susceptibility Assessment along the Dead Sea, Israel

Remote Sensing ◽

10.3390/rs11010089 ◽

2019 ◽

Vol 11 (1) ◽

pp. 89 ◽

Cited By ~ 9

Author(s):

Ran N. Nof ◽

Meir Abelson ◽

Eli Raz ◽

Yochay Magen ◽

Simone Atzori ◽

...

Keyword(s):

Early Warning ◽

Average Rate ◽

Dead Sea ◽

Sar Interferometry ◽

Interferometric Synthetic Aperture Radar ◽

Wide Range ◽

Lidar Measurements ◽

The Dead ◽

Combined Data ◽

New Infrastructure

During the past three decades, the Dead Sea (DS) water level has dropped at an average rate of ~1 m/year, resulting in the formation of thousands of sinkholes along its coastline that severely affect the economy and infrastructure of the region. The sinkholes are associated with gradual land subsidence, preceding their collapse by periods ranging from a few days to about five years. We present the results of over six years of systematic high temporal and spatial resolution interferometric synthetic aperture radar (InSAR) observations, incorporated with and refined by detailed Light Detection and Ranging (LiDAR) measurements. The combined data enable the utilization of interferometric pairs with a wide range of spatial baselines to detect minute precursory subsidence before the catastrophic collapse of the sinkholes and to map zones susceptible to future sinkhole formation. We present here four case studies that illustrate the timelines and effectiveness of our methodology as well as its limitations and complementary methodologies used for sinkhole monitoring and hazard assessment. Today, InSAR-derived subsidence maps have become fundamental for sinkhole early warning and mitigation along the DS coast in Israel and are incorporated in all sinkhole potential maps which are mandatory for the planning and licensing of new infrastructure.

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The Future of the Dead Sea: is the Red Sea—Dead Sea Conduit the Right Solution?

The Jordan River and Dead Sea Basin - NATO Science for Peace and Security Series C: Environmental Security ◽

10.1007/978-90-481-2989-8_11 ◽

2009 ◽

pp. 189-212 ◽

Cited By ~ 2

Author(s):

Eli Raz

Keyword(s):

Red Sea ◽

Dead Sea ◽

The Future ◽

The Dead ◽

The Right

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Response of a coastal hydrogeological system to a rapid decline in sea level; the case of Zuqim springs – The largest discharge area along the Dead Sea coast

Journal of Hydrology ◽

10.1016/j.jhydrol.2016.02.039 ◽

2016 ◽

Vol 536 ◽

pp. 222-235 ◽

Cited By ~ 6

Author(s):

Avihu Burg ◽

Yoseph Yechieli ◽

Udi Galili

Keyword(s):

Sea Level ◽

Dead Sea ◽

Rapid Decline ◽

Discharge Area ◽

The Dead ◽

Hydrogeological System ◽

Sea Coast

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Fluvial adjustment of the Lower Jordan River to a drop in the Dead Sea level

Geomorphology ◽

10.1016/s0169-555x(01)00187-8 ◽

2002 ◽

Vol 45 (1-2) ◽

pp. 21-33 ◽

Cited By ~ 44

Author(s):

Marwan A Hassan ◽

Micha Klein

Keyword(s):

Sea Level ◽

Dead Sea ◽

Jordan River ◽

The Dead

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Israeli-Jordanian water deal leaves Palestinians dry

Emerald Expert Briefings ◽

10.1108/oxan-db199162 ◽

2015 ◽

Keyword(s):

World Bank ◽

Red Sea ◽

Water Exchange ◽

Dead Sea ◽

Palestinian Authority ◽

Content Type ◽

Water Sharing ◽

The North ◽

The Dead ◽

Local Water

Subject The implications of the Red Sea-Dead Sea plan. Significance Israel and Jordan on February 26 signed an agreement to facilitate water-sharing and address the depletion of the Dead Sea, which is receding at a rate of about a metre per year. The 900 million dollar World Bank-sponsored 'Seas Canal' deal consists of two main aspects: local water exchange deals, with Jordan providing Israel with desalinated water from Aqaba in exchange for bluewater from the Sea of Galilee in the north; and saltwater transfer from the Red Sea to the Dead Sea. The Palestinian Authority is not party to the agreement, and awaits a separate deal with Israel. Impacts Prospects for Palestinian-Israeli water negotiations have drastically decreased. Jordan will still need to agree further desalination and cooperation deals in order to meet demand. Water saving efforts will be pushed aside in favour of much more costly desalination. Desalination powered by burning fossil hydrocarbons accelerates global warming.

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Did the Red Sea – Mediterranean connection over the Dead Sea Fault Zone end in the Late Pliocene?

Quaternary International ◽

10.1016/j.quaint.2015.08.067 ◽

2016 ◽

Vol 401 ◽

pp. 123-131 ◽

Cited By ~ 5

Author(s):

Engin Meriç ◽

Ertuğ Öner ◽

Niyazi Avşar ◽

Atike Nazik ◽

Hakan Güneyli ◽

...

Keyword(s):

Fault Zone ◽

Red Sea ◽

Dead Sea ◽

Late Pliocene ◽

The Dead

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Can the Red Sea raise the Dead Sea?

The New Scientist ◽

10.1016/s0262-4079(08)62251-4 ◽

2008 ◽

Vol 199 (2672) ◽

pp. 40-43 ◽

Cited By ~ 1

Author(s):

Ed Douglas

Keyword(s):

Red Sea ◽

Dead Sea ◽

The Dead

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Environmental Effects Of The Dead Sea-Red Sea Canal

International Journal of Environmental Studies ◽

10.1080/00207230214399 ◽

2002 ◽

Vol 59 (6) ◽

pp. 647-664 ◽

Cited By ~ 9

Author(s):

B. N. Asmar ◽

P. Ergenzinger

Keyword(s):

Red Sea ◽

Environmental Effects ◽

Dead Sea ◽

The Dead

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Shear wave reflection seismics yields subsurface dissolution and subrosion patterns: application to the Ghor Al-Haditha sinkhole site, Dead Sea, Jordan

10.5194/se-2018-22 ◽

2018 ◽

Cited By ~ 1

Author(s):

Ulrich Polom ◽

Hussam Alrshdan ◽

Djamil Al-Halbouni ◽

Eoghan P. Holohan ◽

Torsten Dahm ◽

...

Keyword(s):

Sea Level ◽

Shear Wave ◽

Seismic Reflection ◽

Wave Reflection ◽

Dead Sea ◽

Alluvial Fan ◽

Surprising Result ◽

Near Surface ◽

Sedimentary Architecture ◽

The Dead

Abstract. Near-surface geophysical imaging of alluvial fan settings is a challenging task, but crucial for understating geological processes in such settings. The alluvial fan of Ghor Al-Haditha at the southeast shore of the Dead Sea is strongly affected by localized subsidence and destructive sinkhole collapses, with a significantly increasing sinkhole formation rate since ca. 1983. A similar increase is observed also on the western shore of the Dead Sea, in correlation with an ongoing decline of the Dead Sea level. Since different structural models of the upper 50 m of the alluvial fan and varying hypothetical sinkhole processes have been suggested for the Ghor Al-Haditha area in the past, this study aimed to clarify the subsurface characteristics responsible for sinkhole development. For this purpose, high-frequency shear wave reflection vibratory seismic surveys were carried out in the Ghor Al-Haditha area along several crossing and parallel profiles with a total length of 1.8 km and 2.1 km in 2013 and 2014, respectively. The sedimentary architecture of the alluvial fan at Ghor Al-Haditha is resolved down to a depth of nearly 200 m in high-resolution, and is calibrated with the stratigraphic profiles of two boreholes located inside the survey area. The most surprising result of the survey is the absence of evidence for a thick (> 2–10 m) compacted salt layer formerly suggested to lie at ca. 35–40 m depth. Instead, seismic reflection amplitudes and velocities image with good continuity a complex interlocking of alluvial fan deposits and lacustrine sediments of the Dead Sea between 0–200 m depth. Furthermore, the underground of areas affected by sinkholes is characterized by highly-scattering wave fields and reduced seismic interval velocities. We propose that the Dead Sea mud layers, which comprise distributed inclusions or lenses of evaporitic chloride, sulphate, and carbonate minerals as well as clay silicates, become increasingly exposed to unsaturated water as the sea level declines, and are consequently destabilized and mobilized by both dissolution and physical erosion in the subsurface. This new interpretation of the underlying cause of sinkhole development is supported by surface observations in nearby channel systems. Overall this study shows that shear wave seismic reflection technique is a promising method for enhanced near-surface imaging in such challenging alluvial fan settings.

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