Research paperSalt tectonics and tear faulting in the central part of the Zagros Fold-Thrust Belt, Iran

- Deep-seated extensional faults controlled deposition of the Hormuz salt.
- Halokinesis partly formed salt walls & diapirs along the extensional faults.
- The dominant mechanism of salt rise was downbuilding of lateral minibasins.
- During Zagros folding, salt structures & basal friction changes caused tear faults.

The central part of the Zagros Fold-Thrust Belt is characterized by a series of right-lateral and left-lateral transverse tear fault systems, some of them being ornamented by salt diapirs of the Late Precambrian-Early Cambrian Hormuz evaporitic series. Many deep-seated extensional faults, mainly along N-S and few along NW-SE and NE-SW, were formed or reactivated during the Late Precambrian-Early Cambrian and generated horsts and grabens. The extensional faults controlled deposition, distribution and thickness of the Hormuz series. Salt walls and diapirs initiated by the Early Paleozoic especially along the extensional faults. Long-term halokinesis gave rise to thin sedimentary cover above the salt diapirs and aggregated considerable volume of salt into the salt stocks. They created weak zones in the sedimentary cover, located approximately above the former and inactive deep-seated extensional faults. The N-S to NNE-SSW direction of tectonic shortening during the Neogene Zagros folding was sub-parallel with the strikes of the salt walls and rows of diapirs. Variations in thickness of the Hormuz series prepared differences in the basal friction on both sides of the Precambrian-Cambrian extensional faults, which facilitated the Zagros deformation front to advance faster wherever the salt layer was thicker. Consequently, a series of tear fault systems developed along the rows of salt diapirs approximately above the Precambrian-Cambrian extensional faults. Therefore, the present surface expressions of the tear fault systems developed within the sedimentary cover during the Zagros orogeny. Although the direction of the Zagros shortening could also potentially reactivate the basement faults as strike-slip structures, subsurface data and majority of the moderate-large earthquakes do not support basement involvement. This suggests that the tear fault systems are detached on top of the Hormuz series from the deep-seated Precambrian-Cambrian extensional faults in the basement.