Earth & Planet. Sci. Letters (2006, v 241, p. 913 - 931)
Late Cenozoic uplift along the northern Dead Sea transform in Lebanon
and Syria
Francisco Gomez1, Mohamad Khawlie2, Charles Tabet3,
Abdul Nasser Darkel4, Kamal Khair5, Muawia Barazangi6
1Department of Geological Sciences, University of Missouri,
Columbia, Missouri 65211, USA
2Lebanese National Center for Remote Sensing, Beirut, Lebanon
3Lebanese National Council for Scientific Research, Beirut,
Lebanon
4Department of Geology, Damascus University, Damascus, Syria
5Department of Geology, American University of Beirut, Beirut,
Lebanon
6Institute for the Study of the Continents, Snee Hall, Cornell
University, Ithaca, New York, 14853, USA
Abstract
Evidence of long-term, late Cenozoic uplift, as well as strike-slip faulting,
is revealed by topographic and geological features along the northern 500
km of the Dead Sea fault system (DSFS) – the transform boundary between the
Arabian and African plates in the eastern Mediterranean region.
Macro-geomorphic features are studied using a new, high-resolution (20 meter
pixel) digital elevation model (DEM) produced by radar interferometry (InSAR).
This DEM provides a spatially continuous view of topography at an unprecedented
resolution along this continental transform from 32.5° N to 38° N.
This section of the left-lateral transform can be subdivided into a 200-km-long
Lebanese restraining bend (mostly in Lebanon), and the section to the north
(northwest Syria). Spatial variations in Cenozoic bedrock uplift are
inferred through mapping of topographic residuals from the DEM. Additionally,
high altitude, low-relief surfaces are mapped and classified in the Mount
Lebanon and Anti Lebanon ranges that also provide references for assessing
net uplift. These results demonstrate an asymmetric distribution of
post-Miocene uplift between the Mt. Lebanon and Anti Lebanon ranges.
Antecedent drainages also imply that an episode of uplift in the Palmyride
fold belt post-dates uplift of the Anti Lebanon region. North of the
restraining bend, the Late Miocene surface is preserved beneath spatially
extensive lava flows. Hilltop remnants of this paleosurface demonstrate
Pliocene-Quaternary uplift and tilting of the Syrian Coastal Range, adjacent
to the DSFS north of the restraining bend. This late Cenozoic uplift
is contemporaneous with strike-slip deformation along the DSFS. Geometrical
relationships between folds and strike-slip features suggest that regional
strain partitioning may accommodate a convergent component of motion between
the Arabian and African plates. This interpretation is consistent
with regional plate tectonic models that predict 10° - 25° of obliquity
between the relative plate motion and the strike of the DSFS north of the
restraining bend. We suggest that this convergent component of plate
motion is responsible for uplift along and adjacent to the DSFS in the Syrian
Coastal Range, as well as within the Lebanese restraining bend.
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