Abstract
Jhelum Fault is the north–south-oriented major structural lineament originating from the Hazara-Kashmir Syntaxis and extending southwards towards the Mangla Lake. Geographic extent, nature and significance of Jhelum Fault are the subjects which have been approached by different researchers in the past. The previous research provides enough evidence for the presence of Jhelum Fault as well as they discourse its surface extent. None of the previous research addresses the subsurface model of this fault; consequently, its surface extent has been ambiguous and variably reported. The current research takes into account both the surface lineament as well as the subsurface behaviour of the deformed strata to draft the most reasonable depiction of this fault. Field data were coupled with satellite image of 1.5 m ground resolution to produce the geological map of the study area at 1:25,000 scale. The subsurface model was created along four traverse lines by considering the lateral extent of the structures and their shifting trends on the geological map. The stratigraphic package was taken from the nearby hydrocarbon exploratory well data (Missakeswal-01 well of OGDCL) as no rocks older than middle to late Miocene were exposed in the area. The consistent through-going map extents of many faults in the study area prove that faults are playing the major role in the tectonic evolution of the Jhelum Fault Zone. In the subsurface model, the same faults show very little stratigraphic throw, which signify the major stress component to be associated more with wrenching than pure compression. Therefore, most faults in the area are of transpressional nature having dominant lateral component with relatively smaller push towards west on steeply east dipping faults. The model also shows the positive flower structure with dominantly west verging fault system with few east verging back thrusts. The subsurface proposed model shows that the Jhelum Fault is extendible southwards to the Mangla Lake in the subsurface; however, it acts like a continuous shear zone on the surface where there all the shearing is accommodated by tight refolded fold axes. The east–west shortening does not exceed 14.5% which shows smaller compression in the study area. The 3D model further clarifies the model by showing the consistency of the fault system along strike.
Highlights
IntroductionWadia (1931) used the term “Syntaxis of the Northwest Himalaya” for the Hazara-Kashmir Syntaxis (HKS) and explains the tectonics, structure and stratigraphy of the syntaxis
The study area is located in the North Pakistan and is a part of the northwest Himalayas
Structural emplacement of Jhelum Fault (JF) and its effect on the surface and subsurface geology is the main concern of the present study
Summary
Wadia (1931) used the term “Syntaxis of the Northwest Himalaya” for the HKS and explains the tectonics, structure and stratigraphy of the syntaxis He made an extensive model by dividing the area into eight stratigraphic and mappable units. Calkins et al (1975) described the deformation pattern of the area and said that the western limb of HKS has been developed through two phases of deformations They described the structure and stratigraphic sequence of the rocks present in the area which ranging in age from Precambrian to Miocene. Bossart et al (1984 and 1988) used major and minor geological structures and described, that the area had passed through at least two different phases of deformation They construct a tectonic model for the area which shows that the syntaxis was previously an early nappe units developed by overthrusting of early Himalayan rocks. They observed a clockwise rotation of 45° of the axial zone of HKS comparative to the Indian shield rocks
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