Scientific Quarterly Journal of Geosciences

Current Issue

By Issue

By Author

By Subject

Author Index

Keyword Index

About Journal

Aims and Scope

Editorial Board

Editorial Staff

Publication Ethics

Related Links

FAQ

Peer Review Process

News

Reviewer in 2021

Publons Link

Regulations for determining the cost of article processing in open access scientific journals

Geometric- kinematic analysis of the Kalmard fault zone, north of Ozbak-Kuh, central Iran

Document Type : Original Research Paper

Authors

1 M.Sc., Faculty of Earth Science, Kharazmi University, Tehran, Iran

2 Assistant Professor, Faculty of Earth Science, Kharazmi University, Tehran, Iran

3 Assistant Professor, School of Geology, College of Science, University of Tehran, Tehran, Iran

4 Associate Professor, Faculty of Basic Sciences, Tarbiat Modares University, Tehran, Iran

Abstract

Kalmard fault is considered as one of the fundamental faults in central Iran zone. The Ozbak Kuh mountains with a NE-SW strike are located in central Iran in the Kalmard fault zone. Hence, analyze the folds and faults in this deformed zone can aid in the understanding of structural evolution of this area in central Iran. In this study, field operations and geometric-kinematic analysis of folds and faults, also study of their structural evolution are integrated in order to provide a better understanding of the structural evolution of the Ozbak Kuh area. The results display that before Cretaceous period the Ozbak-Kuh area was influenced by a compressional regime with a prependicular trend with respect to the Kalmrad fault that it caused the formation of folds and faults paralell to folds axial plane trends, after that compressional regime changing to a dextral strike slip regime in Cenozoic in direction of NE- SW, all structures in the study area such as, faults, folds axial plain and other related structures were influenced by the aforementioned strike slip stress. Generally the geometric- kinematic pattern of faults in the study area regarding to the major and R, P, R', and X faults is kind of simple shear and contraction parallel to deformed zone. In this pattern the simple shear is dominant and compression is trivial component. The mechanism of the faults in the study area shows that the deformation of the Ozbak Kuh mountains is toward the final stages of simple shear. The multiple steps of deformation, simple shear movements and intensity of deformation in the study area caused that the strike of all structures is to be in direction of NE-SW that it is parallel to the main fault zone.

Keywords

Main Subjects

References
References
Allen, M. B., Kheirkhah, M., Emami, M. H. and Jones, S. J., 2011- Right-lateral shear across Iran and kinematic change in the Arabia–Eurasia collision zone, Geophysical Journal International, 184, pp.555–574.
Doblas, M., 1998- Slickenside kinematic indicators. Tectonophysics, 295(1), pp.187-197.
Fleuty, M. J., 1964- The description of folds, London: Proceedings of the Geologists Association, 75, pp.461–492.
Fossen, H., 2010- Structural geology, Cambridge university press, Pages: 463.
Hudleston, P. J., 1973- Fold morphology and some geometric implications of theories of fold development, Tectonophysics 16, pp.1–46.
Moumeni-Taromsari, M., Dehbozorgi, M., Nozaem and R. Yassaghi, A., 2018- Active tectonics analysis of the Kalmard fault zone, Central Iran, Arabian Journal of Geosciences, 11(14), p.369.
Petit, J. P., 1987- Criteria for the sense of movement on fault surfaces in brittle rocks, Journal of Structural Geology, 9(5), pp.597-608.
Ramezani, J. and Tucker, R., 2003- The Saghand Region, Central IRAN: U–Pb geochronology, petrogenesis and implication for Gondwana tectonics, American Journal of Science, 303, pp.622-665.
Ruttner, A., Nabavi, M. H. and Alavi, M., 1968- Geological map of Ozbak-Kuh Mountain (1:100,000), Geological survey of Iran press.
Storti, F., Rosseti, F., Laufer, A. L. and Salvini, F., 2006- Consistent Kinematic architecture in the damage zones of intraplate strike-slip fault systems in North Victoria Land, Antarctica and implication for fault zones evolution, Journal of Structural Geology 28, pp.50-63.
Swanson, M. T., 1988- Pseudotachylyte-bearing strike-slip duplex structures in the Fort Foster Brittle Zone of southernmost Maine, Journal of Structural Geology 10, pp.813–828.
Sylvester, A. G., 1988- Strike-slip faults, Geol. Soc. Am. Bull., 100, pp.1666-1703.
Waldron, J. W., 2005- Extensional fault arrays in strike-slip and transtension, Journal of Structural Geology, 27, pp.23-34.
Woodcock, N. H. and Fischer, M., 1986- Strike-slip duplexes, J. Struct. Geol., 8, pp.725-735
Scientific Quarterly Journal of Geosciences
Volume 28, Issue 109
September 2018
Pages 245-254
Files
Share
How to cite
Statistics