Abstract
Pulkhana anticline is located in Tuzhurmatu area, about 50 km SE of Kirkuk city. The study area forms a part of the Zagros Folded Zone which is situated in the unstable shelf of Iraq within the physiographic zone called Foothill Zone (in the middle of Hemrin- Makhul subzone). The north eastern limb of the anticline reaches to 50ᵒ and the dip of the south western limb reaches to 70ᵒ. The core of the structure comprises the rocks of Fat’ha Formation surrounded by rocks of Injana and Mukdadiya Formations, whereas Bai-Hasan Formation forms the slopes of the low hills surrounding the anticline. These Formations range in age from Middle Miocene to Pliocene. More than 761 readings of joint planes were collected from 20 stations within 5 traverses in the study area. The study of joint sets and system was within Injana and Mukhdadiya formations, along traverses with 3-5 stations for each travers track. The results showed the presence of two sets of tension joints (bc, ac) and five sets of shear joints, through defining the maximum stress axis (σ1) and acute angle dividers for these conjugate joints. It was determined that two directions of Paleostress are present in the area, which are NE-SW and NW-SE. The direction of the first major stress (NE-SW) is orthogonal with, or normal to, the fold axis in the study area, which can be considered as a horizontal component which resulted from oblique collision of Arabian and Eurasian Plates. This old compressive stress is the reason behind the formation of the tension joint (ac) and shear joints, where the sets (ac) and system are perpendicular-semi perpendicular to the bedding plane, as they were formed at an early stage of folding. Also, the ) joint was formed in five tectonic stages with different time intervals. Joints formed in different tectonic stages, in the study area, are attributed to oblique collision of Arabian and Eurasian plates and counter clockwise rotation of Arabian plate relative to Eruasian plate.
Highlights
The state of stress in the rocks is generally anisotropic and is defined by stress ellipsoid axes, which characterize the magnitude of the principal stresses [1]
This study aims to rebuild the evolution of the collision between the northeastern parts of the Arabian plate with the Eurasian plate, in addition to determining the plaeostress in the northeast limb of the Pulkhana anticline
4- Results Paleostress analysis In this study, conjugate shear joints were used for analyzing paleostress. 4-1 joints
Summary
The state of stress in the rocks is generally anisotropic and is defined by stress ellipsoid axes, which characterize the magnitude of the principal stresses [1]. Paleostress inversion studies are used to understand the effects of past slip events along active fault by making use of deflection in the orientations of the stress axes to recognize stress perturbations near the major fault [9,10]. Standard paleostress inversion techniques are used only for determining the orientations and relative magnitude (stress ratio) of the regional principal stress axes [4]. It is assumed that slip on the activated pre-existing planes of weaknesses and newly developed faults occur in accordance with the orientation and relative magnitudes of the principal stresses [11]
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