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Episodic two-stage extensional evolutionary model for southwestern Anatolian graben-horst system: New field data from the Erdogmus-Yenigediz graben (Kutahya)
Date
2013-04-01
Author
Gurboga, Sule (Deveci)
Kocyigit, Ali
Ruffet, Gilles
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The study area is the Erdosgmus-Yenigediz graben, located along the western section of the Aksehir-Simav normal fault system in western Turkey. The Erdogmus-Yenigediz graben development commenced on the erosional surface of the northern Menderes Massif, under the control of several normal fault zones such as the Simav, Saphane and Yelsilova fault zones during the late Early Miocene (Burdigalian). Later it gained its present-day configuration under the control of both older and younger normal faults. Three graben fills accumulated in the Erdogmus-Yenigediz graben. These are, from oldest to youngest, the Arica formation of Burdigalian age; the Akdere formation of Late Miocene-Early Pliocene age; and the Erdogmus formation of Plio-Quaternary age. The first two fills are termed pre-modern graben fills, while the third one is named a modem (neotectonic) graben fill. The pre-modern graben fills are deformed (folded and reverse to strike-slip faulted) and overlain with an angular unconformity by the nearly flat-lying (non-deformed) modern graben fill. The Erdogmus-Yenigediz graben experienced three phases of deformation. These are, in turn, the first phase of extension (D1), the first phase of contraction (D2), and the second phase of extension or neotectonic extension (D3). D1 corresponds to the extensional exhumation mode of the Menderes Massif while D3 represents the rifting mode of the Southwest Anatolian graben-horst system (SWAGHS). These phases of deformation are evidenced by a series of reactivated older faults, folds, overturned contacts, reverse to strike-slip faults, angular unconformities, the young (neotectonic) normal faults (e.g., the Muratdagi, Dortdegirmen, Gumuslu, and Yenigediz faults) and more than one overprinted sets of slip-lines recorded on both the boundary faults and in the graben fills. Analyses of slip-plane data and the folds reveal that the D1 and 02 deformation phases occurred in an approximately NW-SE direction, while the D3 deformation phase occurred in the NE-SW extension direction, confirmed by the fault plane solution diagram of the March 28,1970 Gediz earthquake of Ms = 7.2. These three phases of deformation strongly support the episodic two-stage extensional evolutionary history but precludes the uniform and continuous evolutionary model for the SWAGHS.
Subject Keywords
Episodic evolution
,
Normal fault
,
Graben-horst system
,
Contraction structures
,
Southwest Anatolia
URI
https://hdl.handle.net/11511/66491
Journal
JOURNAL OF GEODYNAMICS
DOI
https://doi.org/10.1016/j.jog.2012.06.007
Collections
Department of Geological Engineering, Article
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S. (. Gurboga, A. Kocyigit, and G. Ruffet, “Episodic two-stage extensional evolutionary model for southwestern Anatolian graben-horst system: New field data from the Erdogmus-Yenigediz graben (Kutahya),”
JOURNAL OF GEODYNAMICS
, pp. 176–198, 2013, Accessed: 00, 2020. [Online]. Available: https://hdl.handle.net/11511/66491.
