G13A-0993
Present-Day Kinematics of the Dead Sea Transform and Internal Deformation within the Sinai and Arabian Plates
Monday, 14 December 2015
Poster Hall (Moscone South)
Francisco G Gomez, Organization Not Listed, Washington, DC, United States, Rayan Yassminh, University of Missouri Columbia, Columbia, MO, United States, William J Cochran, Virginia Polytechnic Institute and State University, Christiansburg, VA, United States, Robert E Reilinger, Massachusetts Institute of Technology, Cambridge, MA, United States and Muawia Barazangi, Cornell University, Ithaca, NY, United States
Abstract:
An updated GPS velocity field along the Dead Sea Fault (DSF) provides a basis for assessing off-transform strain within the Sinai and Arabian plates along entire length of this left-lateral, continental transform. As one of the main tectonic elements in the eastern Mediterranean region, an improved kinematic view of the DSF elucidates the broader understanding of the regional tectonic framework, as well as contributes to refining the earthquake hazard assessment. Reconciling short-term (geodetic) measurements of crustal strain with neotectonic data on fault movements can yield insight into the mechanical and rheological properties of crustal deformation associated with transform tectonics. In addition to regional continuous GPS stations, this study assembles results from campaign GPS networks in Syria, Lebanon, and Jordan spanning more than a decade. 1-sigma uncertainties on velocities range from less than 0.4 mm/yr (continuous stations and older GPS survey sites) to about 1.0 mm/yr (newer survey sites). Analyses using elastic block models suggest slip rates of 4.0 – 5.0 mm/yr along the southern and central DSF and slip rates of 2.0 – 3.0 mm/yr along the northern DSF, and fault locking depths also vary along strike of the transform. Furthermore, the spatial distribution of GPS observations permits analyzing residual strains within the adjacent plates, after plate boundary strain is removed. A key observation is horizontal stretching within the Sinai plate, which may be related to pull by the subducted slab of the Sinai plate. Within the Arabian plate, areas of horizontal stretching generally correlate with locations of Quaternary volcanism.