The Proterozoic-Cambrian salt detachment zone at Lakhar Kuh, Iran: A seismic-scale analogue for salt stringers, detachment folding, and multi-phase structural development

Abstract

In the Middle East, significant evaporite units formed in the latest Precambrian-Cambrian, Triassic, Jurassic, Cretaceous, and Cenozoic. The Precambrian-Cambrian period gave rise to the Ara Salt carbonate stringer plays, southern Oman and the giant Zagros anticline traps (Hormuz Formation). While outcrops of salt diapirs are common, basal detachment exposures are extremely rare. The Lakar Kuh area of Central Iran reveals the Precambrian-Cambrian basal salt detachment, on satellite images, in natural cross-section view through the entire Phanerozoic sedimentary section east of Ravar. This view illustrates how older diapiric structures (pillows, and normal faults) were the focus of later contractional folds particularly in the Jurassic and Cenozoic. The salt detachment zone contains many floating blocks (stringers) of clastic, carbonate and igneous rocks. Some blocks were stoped from the overlying beds, while most were layers originally interbedded with the evaporites. Block size, distribution and orientation is highly variable, folding is infrequent. Lakar Kuh encompasses several key themes generally pertinent to structural geology and salt system research: the presence of sedimentary stringers within evaporites, multiple detachment levels within a thick (>5 km) stratigraphic section, detachment folding, multi-phase salt activity, reactivation of older structures by newer ones, and multi-stage development of salt bodies.