Strike‐slip movements and thrusting along a transpressive fault zone: The North Giudicarie line (Insubric line, northern Italy)

Abstract

This paper analyzes the kinematic evolution and the deformation partitioning within an important transpressive fault zone located in the central part of the Alpine chain. The North Giudicarie line is a NNE trending fault which offsets the dextral Insubric line with an apparent left‐lateral displacement of about 70 km. The main fault plane of the North Giudicarie line dips about 35°–45° to the NW. The footwall is characterized by N‐S striking strike‐slip faults, which reactivate extensional faults of Early Jurassic to Late Cretaceous age. The early deformation history of the North Giudicarie line is revealed by basement‐and limestone‐mylonites. Shear sense of mylonites indicates on average top‐to‐the‐east thrusting. These movements took place during the late Oligocene‐early Miocene, when the Insubric line was active as a right‐lateral strike‐slip fault. Therefore, in this time span the North Giudicarie line can be interpreted as a dextral transpressive bend of the Insubric line. Mylonites have later been overprinted by brittle faults related to top‐to‐the‐SE thrusting of middle‐late Miocene age. During this event the shape of the Insubric line was strongly modified by left‐lateral transpression along the Giudicarie fault zone. Deformation was partitioned between prevailing compression along the Giudicarie line and left‐lateral strike‐slip movements along the N‐S striking faults. These faults transferred the strike‐slip component of the Giudicarie line into a wider area of the central southern Alps.