Controls on the development and evolution of transfer zones: the influence of basement structure and sedimentary thickness in the Suez rift and Red Sea

Detailed field mapping of the northern part of the Gebel Um Hammad-Gebel Duwi area on the western margin of the Red Sea indicates oppositely dipping rift blocks separated by a 60-km long, WNW-ESE-oriented, reactivated pre-rift fault of Late Precambrian age parallel to the Najd fault system of the Arabian-Nubian Shield. This fault forms the Sudmain transfer zone between the oppositely tilted half-grabens in the northwestern Red Sea region and is associated by a SE-plunging syncline. This pre-rift fault was reactivated by dextral transtension during the Late Oligocene rift opening. ed to the transfer zones of the Suez rift, the Sudmain transfer zone is narrower. The Gebel Sufr El Dara transfer zone (between the southern and central half-grabens of the Suez rift) is 20 km wide and is also controlled by pre-rift faults oriented ENE-WSW. The latter were reactivated by left-lateral slip during the rift opening. On the other hand, the Gharandal transfer zone (northern part of the Suez rift) is 40–60 km wide and is not affected by the pre-rift faults in the Precambrian basement, perhaps owing to the large thickness of pre-rift sedimentary rocks in this area. The location of the Gharandal transfer zone was controlled by a NE-SW-oriented ‘Syrian arc’ fold. This study suggests that the northward increase in the width of transfer zones as well as the northward decrease in the length of half-grabens in the Suez-northern Red Sea rift system are related to the corresponding increase in the thickness of pre-rift Phanerozoic sedimentary section from about 400 m in the south to about 1800 m in the north.