This chapter presents new insights into the deformational
characteristics of the Wadi Shueib Structure (WSS) and the Amman-Halabat
Structure (AHS) and their interaction with the regional tectonic framework of
the Wadi Arab Strike-slip Fault (WAF). Utilizing Landsat-8 OLI imagery,
lineament mapping was conducted through automated extraction, supported by
digital image enhancement and principal component analysis (PCA) to refine
lineament detection. Our findings reveal a higher density of lineaments along the
main fault extensions of the WSS and AHS, with a lower density in areas covered
by recent sediment deposits. Two dominant lineament trends (NE-SW and NW-SE)
and a secondary trend (NNE-SSW) parallel the orientations of the WSS and AHS.
In this study, two primary hypotheses have emerged to explain the forces
driving the formation and evolution of deformation patterns within the AHF and
WSF, as well as their connection to the WAF. The first hypothesis suggests that
the AHF and WSF represent younger deformation phases that developed as
horsetail structures following the formation of the WAF. The second hypothesis
views them as pre-existing fault systems reactivated as restraining bends in
response to the WAF’s evolution.
Author(s)details:-
Mu'ayyad Al Hseinat
(Associate Professor)
School of Science, Department of Geology, The University of Jordan, Amman,
11942 Amman, Jordan Department of Geophysics, Arab Center for Laboratory and
Soil (ACES), 23762 Jeddah, Kingdom of Saudi Arabia.
Malek AlZidaneen (PhD
candidate)
School of Science, Department of Geology, The University of Jordan, Amman,
11942 Amman, Jordan.
Please See the book here :- https://doi.org/10.9734/bpi/geserh/v2/3260
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