Stratigraphy and Structure of Dhamtaur Area, District Abbottabad, Eastern Hazara, Pakistan

Pre-Cambrian to Paleocene age sedimentary rocks predominantly characterize the fold and thrust belt of eastern Hazara division. The Hazara Slate Formation is the oldest rock unit which represents the Precambrian sequence. The Permian and Triassic sequences are missing. The Jurassic sequence comprises Samana Suk Formation whereas the Cretaceous exposed is Chichali and Lumshiwal formations. The Eocene sequence consists of Nammal and Sakessar formations. The structural fabric of the area is mainly attributed to a series of northwest trending parallel to en echelon anticlines and synclines. Most of these folds are found to be asymmetric and are Northwest facing. Several thrust faults verging both to the north have been mapped that generally dissect the forelimbs of the anticlinal structures. But the following study going to be focus on surface structural features as well as subsurface projections of folds and faults. Study of such structural features has get prime importance in economic geology such as petroleum geology, mining geology and engineering geology. In our study area subsurface projection of folds and faults along the structural transects of the area suggests that these structures have formed as a result of shortening associated with ramping from a regional basal decollement. All the structures clearly demonstrate that the eastern Hazara area has been subjected to compressional deformation/stresses oriented northeast southwest. The repetition of rock units indicates, folding in the area and thrusting of Pre-Cambrian Hazara Formation over younger Paleocene Lockhart Formation, evidence of thrust fault. There are unconformable contacts between Hazara and Samana Suk, Chichali and Lumshiwal, Kawagarh and Hangu and Lockhart formations indicate fluctuation in the environment of deposition. The Bagnotar Fault, Dhamtaur syncline and Thai anticline are the major structural features identified and reported in the study area. How to cite this paper: Akhtar, S., Rahim, Y., Hu, B., Tsang, H., Ibrar, K.M., Ullah, M.F. and Bute, S.I. (2019) Stratigraphy and Structure of Dhamtaur Area, District Abbottabad, Eastern Hazara, Pakistan. Open Journal of Geology, 9, 57-66. https://doi.org/10.4236/ojg.2019.91005 Received: December 17, 2018 Accepted: January 27, 2019 Published: January 30, 2019 Copyright © 2019 by author(s) and Scientific Research Publishing Inc. This work is licensed under the Creative Commons Attribution International License (CC BY 4.0). http://creativecommons.org/licenses/by/4.0/


Introduction
The Himalayan collision zone extends over 5000 km in Burma, Nepal, India and Pakistan [1].This extensive zone manifests variable tectonic, structural and morphological features in Pakistani Himalayas (Figure 1) [2].The Kohat Potwar province constitutes the western margin of Himalayan foreland fold and thrust belt which is marked by the Trans-Indus Range Thrust and Salt Range Thrust in the south where the Eocambrian to Pleistocene continental shelf sequence of Salt Ranges has thrusted southward to the Indo Gangatic Foredeep.The narrow approximately 30 km Himalayan foreland fold and thrust belt in India has broaden to more than 100 km along series of lobes in Pakistan.The study area is located in Lesser Himalayas, eastern Hazara division as, "This zone is bounded to the north by the Main Mantle Thrust (MMT) and to the south by Main Boundary Figure 1.Tectonomorphic map of Pakistan [2].
Thrust (MBT)" (Figure 1).The accessibility to this area is via Murree road through Abbottabad.The area bounds in the coordinates at "Dhamtaur (34˚08':73˚16'), Bagh-Maira (34˚08':73˚18'), Bandi (34˚06':73˚17'), Chanran (34˚07':73˚16')".Research work on this area and its surroundings has been conducted by different workers in different field of studies mainly Paleontology, Stratigraphy, Minerology and Structural geology on regional scale [3]- [11].This paper elaborates all available surface data used to construct cross sections to understand the structural evolution of the study area.The structures are analyzed on macroscopic scale about 0 -500 m (Figure 6 and Figure 7).However, structures on small scale such as minor folds and faults in thin laminas (0.1 -0.6 cm) were used to interpret the primary macroscopic folds and faults.

Regional Geology
About 130 m.y.ago when India started northward drift the opening of Indian Ocean in the south and squeezing of the Tethys Ocean in the north started [12].Intra-oceanic island arcs (Kohistan-Laddakh, Noristan, Kandhar) were formed by the Intra-oceanic subduction within the Neotethys during the Cretaceous times and backarc ocean at the southern margin of Eurasia [13].With the closure of the back-arc basins, the Kohistan Ladakh island arc under-thrusted the Eurasian plate margin along the Main Karakoram mega suture which give rise to an accreted plate tectonics similar in nature to the Andean type continental margin [14].The youngest marine sediments deposited in the back-arc basin, between the Kohistan and Karakorum, are Early to Middle Cretaceous carbonate [15] [16].Gravity data modeling indicates that the MMT and MKT dip northward at 35˚ to 50˚ [17].Seismological data suggests that the arc underlies the Indian Crustal Plate [18] and the thickness of the Kohistan terrain based on gravity modeling data is about 8 to 10 km [17].(These are the actual results of referred publications and we cannot publish their original data again).The rocks of the lesser Himalayas are thrust southward over the sub-Himalayan sequence of Neogene Siwalik molasses along the Main Boundary Thrust zone.The Main Boundary Thrust zone is comprised of a series of parallel or en echelon thrust faults dividing the NW Himalayan sequence into a deformed southern zone or foreland, and a deformed and metamorphosed northern zone or the hinterland [19].From NE to SW, the Main Boundary Thrust is located in the Hazara Kashmir Syntaxis, northern Potwar and Kohat plateau of Pakistani Himalayas.

Stratigraphy
Exposed stratigraphic sequence in the vicinity of Dhamtaur area consists of about one and half km thick succession of rocks of Precambrian to Eocene age (Figure 2).The Hazara Formation is the oldest rock sequence in the area represents the Precambrian sequence consisting of Slates.The Permian and Triassic sequences are missing in this area.The Jurassic sequence comprises Samana Suk Formation which is composed of Limestone which has unconformable

Main Structural Elements
The study area is located in a fold and thrust belt and has undergone intense deformation and shortening as manifested by a number of thrust faults and various large and small scale folds (Figure 2).The overall trend of these structures is northeast-southwest, indicating northwest-southeast compressive stresses.Following is a brief description of the major structural elements of the study area.

1) Folds
The area under study exhibits tight folding and in some areas overturning of the fold limbs has been observed.Major folds observed in the area include Thai Therefore, on the basis of inter-limb angle the fold is classified as open (Figure 2).

2) Faults
The study area is a part of a major fold and thrust belt and is therefore characterized by various thrust faults.The major faults observed in the area are Bhagnotar and Nathi Gali Thrust.Bhagnotar Thrust is the major thrust.Along this thrust Precambrian rocks of Hazara Formation are thrust over Samana Suk Formation of Jurassic age.The Bhagnotar Thrust is roughly east-west oriented with undulations and bends and its dip ranges from 50˚ to 60˚.Nathia Gali Thrust occurs to the south of Hazara Thrust and brings Samana Suk Formation of Jurassic age in direct contact with Margala Hill Limestone of Eocene age.This thrust is also roughly east-west oriented with a dip of 60˚ (Figure 2).

Mesoscopic Structures within the Hazara Slates
Mesoscopic structures are the structures visible at the scale of outcrop and hand specimen.Study of such structures help in strain analysis, provides information that can help in the interpretation of regional (macroscopic) structural relations and provide clues about deformation conditions and sense of movement during deformation.The deformation within the Hazara Slates of the Hazara thrust zone is represented by well developed cleavages and a variety of folds.The Ha-Open Journal of Geology zara Slates show three sets of cleavages.The first set of cleavages S1 is bedding parallel and is much well developed as compared to the other two.The less developed S2 and S3 cleavages occur as conjugate sets (Figure 3).The deformation within the Hazara Slates appears to be the result of two phases of deformation.
The first being Pre-Cambrian (primary deformation) and the second being Himalayan (secondary deformation).The bedding parallel slaty cleavage.S1 is the result of Pre-Cambrian deformation.The S2 and S3 which are less developed as compared to the S1 fabric are most probably the result of Himalayan deformation.This is inferred from the fact that joints corresponding to these less pervasive cleavage sets are also present in the overlying younger carbonates.The rose diagram of cleavage data (Figure 4) is shown in (Figure 5) which is indicative of an overall NE-SW orientation of the cleavages.

Structural Transects
In order to explain the surface and subsurface geometries of the exposed structural features, two geological cross-sections, one along line AA' and the other along line BB' of the map have been constructed (Figure 6 and Figure 7).The salient structural features shown in these transects are as follows.

Conclusion
The
Anticline, Ghal Anticline and Azizabad Anticline, Dhamtaur Syncline, Jaswal Syncline, Sirgah Syncline, Chanran Syncline and Disal Syncline occurs in the study area of the Dhamtaur village.Dhamtaur Syncline is the major fold which contains Kawagarh Limestone in its core.The northern and southern flank of the mentioned anticline is undisturbed as it is built by normal sequence of Kawagarh Formation and younger sequences.The outer limbs of this fold are composed of the Pre-Cambrian Hazara Formation (shown in cross-section A-A').The dip of the northwestern limb is 41˚SE and the dip of southeastern limb is 25˚NW to 45˚NW.And the strike of northwestern limb is N36˚E and strike of southeastern limb N36˚W.The trend and plunge of the Dhamtaur syncline is 36.3˚-0.3˚.The attitude of the axial plane of the Dhamtaur syncline is N36˚E/86˚NW.The inter-limb angle of the fold is 114˚.Therefore, on the basis of inter-limb angle the fold is classified as open (Figure 2).The Ghal Anticline is another major fold of the study area it contains Hazara Formation in its core (shown in cross-section B-B').The dip of the northwestern limb is 35˚NW and the dip of southeastern limb is 30˚SE.And the strike of northwestern limb is N61E and strike of southeastern limb is N57˚E.The trend and plunge of Ghal anticline is 59.2˚ -1.3˚.The attitude of the axial plane of Ghal anticline is S59.6˚W -87.6˚SE.The inter-limb angle of the fold is 115.3˚.

Figure 5 .
Figure 5. Rose diagram of the cleavages observed in the Hazara Slates.

1 ) 2 )
Transect along Line AA' The cross section line AA' is parallel to the section line BB' but covers the eastern part of the map.It thus shows the eastern extension of the structures depicted in the section along line AA'.The Bhagnotar Thrust was depicted in the section along line AA'.The Bhagnotar Thrust has brought the Hazara Formation on top of the Samana Suk Formation.The Dhamtaur Syncline contains Kawagarh Limestone in its core.The Thai Anticline is visible in the section AA' and contains Samana Suk Formation in its core.The Chanran Syncline is present in the southeastern part of the cross section line AA' consists of Lockhart Limestone in its core.Transect along Line BB' The cross section line BB' is parallel to the section line AA' but covers the southwestern part of the map.It thus shows the southern extension of the structures depicted in the section along line BB'.The Shahallian Thrust was depicted in the section along line BB' where there were evidences crushing surfaces of thrusting present in Hazara Formation.The Ghal Anticline is visible in the section BB' and contains Hazara Formation in its core.

Figure 6 .
Figure 6.Geological cross section along line AA' of Figure 2.

Figure 7 .
Figure 7. Geological cross section along line BB' of Figure 2.
east Hazara, being very close to the north of MBT, has undergone intense deformation.In the study area this deformation is marked by southeast verging thrust faults, and northeast trending anticlines.This northeast orientation of the major structures suggests that the area has been under the influence of northwest-southeast oriented stresses.The Hazara Slates present in the northern part of the study area have recorded both Pre-Cambrian and Himalayan deformation events.The Precambrian deformation event is marked by the bedding parallel slaty cleavage (S1).The other two sets of cleavages (i.e.S2 and S3) are the result of Himalayan deformation events.This is inferred from the fact that joints corresponding to these cleavage sets have been observed in the overlying Cenozoic