A. Al-Zoubi scite author profile

New seismic observations from the Dead Sea basin (DSB), a large pull‐apart basin along the Dead Sea transform (DST) plate boundary, show a low velocity zone extending to a depth of 18 km under the basin. The lower crust and Moho are not perturbed. These observations are incompatible with the current view of mid‐crustal strength at low temperatures and with support of the basin's negative load by a rigid elastic plate. Strain softening in the middle crust is invoked to explain the isostatic compensation and the rapid subsidence of the basin during the Pleistocene. Whether the deformation is influenced by the presence of fluids and by a long history of seismic activity on the DST, and what the exact softening mechanism is, remain open questions. The uplift surrounding the DST also appears to be an upper crustal phenomenon but its relationship to a mid‐crustal strength minimum is less clear. The shear deformation associated with the transform plate boundary motion appears, on the other hand, to cut throughout the entire crust.

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Salt diapirs in the Dead Sea basin and their relationship to Quaternary extensional tectonics

Al-Zoubi

Brink

2001

Marine and Petroleum Geology

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The Dead Sea sinkhole hazard: Geophysical assessment of salt dissolution and collapse

et al. 2011

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High Naturally Occurring Radioactivity in Fossil Groundwater from the Middle East

Vengosh

Hirschfeld

Vinson

et al. 2009

Environ. Sci. Technol.

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High levels of naturally occurring and carcinogenic radium isotopes have been measured in low-saline and oxic groundwater from the Rum Group of the Disi sandstone aquifer in Jordan. The combined 228Ra and 226Ra activities are up to 2000% higher than international drinking water standards. Analyses of the host sandstone aquifer rocks show 228Ra and 226Ra activities and ratios that are consistent with previous reports of sandstone rocks from different parts of the world. A compilation of previous data in groundwater from worldwide sandstone aquifers shows large variations in Ra activities regardless of the groundwater salinity. On the basis of the distribution of the four Ra isotopes and the ratios of the short- to long-lived Ra isotopes, we postulate that Ra activity in groundwater is controlled by the balance of radioactive decay of parent Th isotopes on aquifer solids, decay of the dissolved radium isotopes, and adsorption of dissolved Ra on solid surfaces. The availability of surface adsorption sites, which depends on the clay content in the aquifer rocks, is therefore an important constraint for Ra activity in sandstone aquifers. These findings raise concerns about the safety of this and similar nonrenewable groundwater reservoirs, exacerbating the already severe water crisis in the Middle East.

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Active tectonic morphology and submarine deformation of the northern Gulf of Eilat/Aqaba from analyses of multibeam data

et al. 2010

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A. Al-Zoubi

Seismic imaging of deep low‐velocity zone beneath the Dead Sea basin and transform fault: Implications for strain localization and crustal rigidity

Salt diapirs in the Dead Sea basin and their relationship to Quaternary extensional tectonics

The Dead Sea sinkhole hazard: Geophysical assessment of salt dissolution and collapse

High Naturally Occurring Radioactivity in Fossil Groundwater from the Middle East

Active tectonic morphology and submarine deformation of the northern Gulf of Eilat/Aqaba from analyses of multibeam data

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