Sedimentology and sequence stratigraphy of a transfer zone coarse‐grained delta, Miocene Suez Rift, Egypt

This study focuses on Miocene sedimentation and stratigraphic evolution in a major transfer zone at the northern tip of the Thal Fault segment, Gulf of Suez. The succession generally shoals upwards from offshore mudstone containing pro‐delta turbidites, into conglomeratic delta foresets and topsets, with sandstone‐dominated shoreface facies coexisting laterally. Despite this upward shoaling, key stratal surfaces marking abrupt changes in relative sea‐level allow the succession to be divided into four stratal units. The stacking pattern of the stratal units suggests an initial relative sea‐level rise that generated a major marine flooding surface. A relative sea‐level fall followed, resulting in widespread exposure and incision. During the ensuing relative sea‐level rise a lowstand coarse‐grained delta and coeval shoreface succession prograded several kilometres basinward. The stratigraphic development of the transfer zone delta is in marked contrast to that of aggradationally stacked deltas that occur near the centre of the Baba‐Sidri fault segment, further south. At the transfer zone, low rates of subsidence and accommodation development coupled with a high sediment supply derived from a large fault tip drainage catchment have produced a strongly progradational delta subject to marked changes in relative sea‐level. In the fault centre location, however, higher rates of accommodation development coupled with lower rates of sediment supply from footwall catchments have produced aggradationally stacked deltas. The results from this study have implications for sequence stratigraphic models and hydrocarbon exploration within extensional basins.