Abstract:
The Trans Indus ranges constitute the western end of the frontal ranges that border the
active foreland fold-and-thrust belt of the Himalaya in North Pakistan. Over 200 line km of
2D seismic data and sub-surface information of seven wells drilled in the surrounding
areas have been integrated with surface geological information in order to understand the
structural evolution of the Trans Indus ranges.
Cambrian to Eocene platform succession unconformably overlain by a thick pile of
fluviatile molasse deposits outcrop along the Trans-Indus ranges. The Trans-Indus
ranges display pronounced structural swings in plan view, giving rise to a pair of re-
entrants known under the name of Kalabagh and Tank. Both these re-entrants are
flanked by wrench zones in the east and west that have produced contrasting styles
within the Trans-Indus ranges. The structural styles include south-verging anticlinal-
monoclinal ridge above a frontal fault, wrenching and compression related en-echelon
anticlines and fault bend folds. The current investigations have led to the understanding
that the structural evolution of the east-west and east-north-east oriented segments of the
Trans Indus ranges is attributed to a south directed ramping whereas the north-
south/northwest trending segments are related to wrenching concomitant with
compression. The frontal bounding fault in the Trans-Indus ranges is less significant as
compared to that along the Salt Range in terms of its level of decoupling and the
magnitude of southward translation.
The Himalaya-related deformation that shaped the Trans-Indus ranges is distinguished
into three discrete episodes including pre-molasse, syn-molasse and post-molasse. The
pre-molasse deformation includes the extensional tectonic activity resulted in the
development of the normal basement faults with down thrown side to the north. The syn-
molasse deformational episode is well demonstrated by the gradual south-younging
sequence of molasse deposits in the Kohat Basin. The post-molasse deformational
episode started in the region at the time when the macroscopic thrust slab underneath
the Kohat-Bannu Basin ramped up section at the site of Trans Indus ranges. This
ramping led to the creation of the present day Trans-Indus ranges and the internal
deformation of the thrust slab which is still continuing.
xvThe arcuate nature of the Trans Indus ranges is interpreted to be original, partly
controlled by some pre-existing basement irregularities and possible strain partitioning. It
is interpreted that the onset of compression at the northern and southern Surghar Range
and Manzai ranges was synchronous caused by north-south and east-west compression
induced by proto Main Boundary Thrust and Kurram Fault respectively. At the time when
Proto MBT was transmitting south directed stresses at the site of the northern Surghar
Range, left lateral wrenching along the Proto Kurram zone was transmitting east directed
compressive stresses resulting in the north-south oriented folds in the Manzai and
southern Surghar Range. The onset of thrusting is believed to be the earliest at the site of
Surghar and Manzai ranges followed by wrenching along Pezu, Kundal and Makarwal
faults. This wrenching episode was subsequently followed by thrusting at the site of
Khisor and Marwat ranges.
The stratigraphic succession and structural styles observed within the Trans Indus
ranges offer a complete petroleum system comprised of multiple reservoir, source, seal
rocks and traps including structural as well as stratigraphic for the accumulation of
hydrocarbons.