Mesozoic deep-water carbonate deposits from the southern Tethyan passive margin in Iran (Pichakun nappes, Neyriz area): biostratigraphy, facies sedimentology and sequence stratigraphy
Abstract
The objective of this work is to study the Mesozoic turbiditic sediments from the southern Tethys margin in Iran. These sediments are exposed as nappes in the Pichakun Mountains (i.e. the Zagros Mountains in the Neyriz area), which inverted during latest Cretaceous time. Radiolarians are used to both define and date four main lithostratigraphic formations: (1) the Bar Er Formation (undated, probably Late Triassic to Early Jurassic); (2) the Darreh Juve Formation (Aalenianearly Bajocian to middle Callovianearly Oxfordian); (3) the Imamzadeh Formation (middle Callovianearly Oxfordian to Aptian); (4) the Neghareh Khaneh Formation (late Aptian to TuronianConiacian). Most of the sediments are deep-sea gravity-flow lobe deposits. Channel deposits occurred during the Bajocian (i.e. the Darreh Juve Fm) and deeply incised channels (canyons?) occurred during the Albian (i.e. the Neghareh Khaneh Fm). Twenty-seven facies, grouped into eight facies associations, are defined. Based on a sequence stratigraphic study (i.e. the stacking pattern), five second-order cycles (1030 Ma duration), defined between two successive distal facies time-intervals, are characterized: (1) the J2 (Toarcian?middle Oxfordian, unconformity: Late ToarcianAalenian); (2) the J3 (middle OxfordianBerriasian, unconformity: middle? Tithonian); (3) the K1.1 (Berriasianundated top); (4) the K1.2 (undated baseearly Aptian, unconformity: late Hauterivian); (5) the K1.3 (early Aptianat least TuronianConiacian, unconformity: AptianAlbian boundary). The most important tectonic event recorded occurred at the AptianAlbian boundary (a deposition of olistoliths, from a few metres to 100 m thick, in debris flows; related to Austrian deformations). The Arabian-scale late Toarcian and early Tithonian deformations have been recorded as unconformities. It is expected that another tectonic event occurred during the late Hauterivian. The unconformity of cycle K1.1 could be a late Valanginian eustatic fall of climatic origin.