We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
Architecture and evolution of syn-rift clastic depositional systems towards the tip of a major fault segment, Suez Rift, Egypt.
- Authors
Young, M. J; Gawthorpe, R. L; Sharp, I. R
- Abstract
ABSTRACT This paper investigates syn-rift stratigraphic architecture and facies relationships along a 7 km long strike section towards the tip of a major, basin-bounding normal fault segment (Thal Fault) in the Suez Rift, Egypt. In this location, the fault is composed of two precursor fault strands, Gushea and Abu Ideimat, linked by a jog or transfer fault. We document a Miocene syn-rift succession, deposited more than c. 5.5 Myr after rift initiation, that is composed of a range of carbonate-clastic facies associated with coarse-grained deltaic, shoreface and offshore depositional systems. Key regionally correlatable stratal surfaces within this succession define time equivalent stratal units that exhibit variability in thickness and architecture, related to the interplay of both regional and local controls, in particular, the evolution of two, small-scale (<6 km long) precursor fault strands (Gushea and Abu Ideimat). Integration of structural and stratigraphic data indicates that the boundary (relay ramp) between these two fault strands was a relative high during much of the rift event, with hard-linkage and considerable displacement accumulation not occurring until at least c. 7.5 Myr after rift initiation. This is because: (i) the preserved stratigraphy is thinner in the hanging wall of the strand boundary; (ii) a eustatic sea-level fall with an amplitude of 100 m generated more than 25 m of incision at the strand boundary, a region that has a final fault displacement of c. 600 m; and (iii) the fault strand boundary persisted as a footwall low and transport pathway for coarse-grained deltas entering the basin. This study indicates that variability in stratal thickness and stratigraphic architecture towards the tip of the Thal Fault was related to the linkage history of two small-scale (c. 6 km long) precursor fault segments. We suggest that similar, small-scale stratal variability may occur repeatedly along the entire length of major basin-bounding fault...
- Subjects
EGYPT; GEOLOGIC faults; STRATIGRAPHIC geology; GEOLOGICAL basins
- Publication
Basin Research, 2002, Vol 14, Issue 1, p1
- ISSN
0950-091X
- Publication type
Article
- DOI
10.1046/j.1365-2117.2002.00162.x