Neogene to Present paleostress field in Eastern Iran (Sistan belt) and implications for regional geodynamics

Jentzer, Michael; Fournier, Marc; Agard, Philippe; Omrani, Jafar; Khatib, Mohammad Mahdi; Whitechurch, Hubert

doi:10.1002/2016tc004275

Cited by 35 publications

(34 citation statements)

References 84 publications

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“…Despite the coherency between our results and those obtained in the northern regions, the history of stress changes along the Dasht-e Bayaz fault differs from what is recently obtained along the Sistan Suture zone (Jentzer et al, 2017). Jentzer et al (2017) presented different sets of fault slip data related to three successive stress states indicating an anticlockwise rotation in the direction of maximum compression from a Late Miocene E-W directed σ1 to a late Pliocene to present-day maximum compression directed N026±8°E (see the section 6.2 for more details). Their anticlockwise rotation pattern is contrary to the history we found around the Dasht-e Bayaz and Abiz faults.…”

Section: Daghcontrasting

confidence: 68%

“…The recent study in the Sistan belt of eastern Iran (Jentzer et al, 2017), however, obtained three distinct deformation stages during late Cenozoic, including (1) an E-W (N087±5°E) direction of σ 1 probably in the Late Miocene, (2) a late Pliocene ENE-WSW (N059±8°E) direction of σ 1 and (3) a late Pliocene to present-day maximum compression (N026±8°E). The same authors proposed that during the last ~10-5 Ma, the direction of compression has rotated about 60° counterclockwise in Sistan.…”

Section: Late Cenozoic Stress Fields In the Iranian Plateau Alborz Amentioning

confidence: 95%

“…We compared the pattern of kinematic changes along the Dasht-e Bayaz fault with similar studies in nearby regions in E and NE Iran (e.g. Shabanian et al, 2010;Farbod et al, 2011;Javidfakhr et al, 2011;Jentzer et al, 2017;Tadayon et al, 2017), which has allowed us to place our results in a larger geodynamic scale (see the discussion).…”

Section: Relative Chronology Of Fault Slip Data and Data Separationmentioning

confidence: 99%

“…Iran is due to the stress transfer from the Arabia -Central Iran collision, or is influenced by the geometry 101 and relative motion of individual blocks in eastern Iran (e.g., Jentzer et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

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The kinematics of the Dasht-e Bayaz earthquake fault during Pliocene-Quaternary: Implications for the tectonics of eastern Central Iran

2019

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The Arabia-Eurasia convergence is accommodated across the Iranian plateau and surrounding mountain ranges. Strike-slip faults play significant roles in the current deformation of the Iranian plateau and were responsible for several moderate to large earthquakes, especially in east of Iran. The sinistral Dasht-e Bayaz fault shows conspicuous seismic and geological activities, while the role of the fault in the accommodation of active convergence is still debated. This paper focuses on the Pliocene-Quaternary to present-day states of stress in the region affected by the Dasht-e Bayaz fault. We applied the fault-slip inversion technique to both kinds of seismologic and geological fault slip data. The inversion results indicate a mean N045±5°E trending σ1 in the modern stress field, which agrees with the present-day tectonic regime (regional N050±05°E trending σ1) deduced from the inversion of earthquake focal mechanism data. The paleostress state is characterized by a N135±15°E trending regional mean σ1, with a transpressional stress regime; E-W faults of the region such as the Dasht-e Bayaz fault were reverse dextral in this paleostress field. We show that the shift in fault kinematics during the Pliocene-Quaternary times has not been restricted to northeastern parts of the Iranian plateau. The cross-cutting relationship between active N-S dextral and E-W sinistral faults indicates a crosswise to conjugate fault arrangement in the middle and the eastern end of the Dasht-e Bayaz fault. Integrating our results at a larger regional scale, we present a kinematic model in which the region between Lut and Kopeh Dagh is divided by the Doruneh fault into two tectonic domains. In the northern domain, active convergence is taken up by the extrusion of fault-bounded crustal blocks while, in the southern domain the convergence is accommodated through crosswise strike-slip faulting accompanied by reverse/thrust faulting in confining wedges.

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Section: Daghcontrasting

confidence: 68%

Section: Late Cenozoic Stress Fields In the Iranian Plateau Alborz Amentioning

confidence: 95%

Section: Relative Chronology Of Fault Slip Data and Data Separationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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The kinematics of the Dasht-e Bayaz earthquake fault during Pliocene-Quaternary: Implications for the tectonics of eastern Central Iran

2019

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“…Increasing convergence rates after 17 Ma (Figure ) match uplift of the Iranian Plateau interpreted to initiate between 15 and 12 Ma (Mouthereau et al, ). Likewise, directions of Arabian plate motion (Figure ) reflect paleostress interpretations interpreted for Eastern Iran: (1) E‐W compression during middle to late Miocene, (2) ENE‐WSW in the late Pliocene, and (3) NNE‐SSW during Plio‐Quarternary (Jentzer et al, ).…”

Section: Discussionmentioning

confidence: 99%

Multiphase Structural Evolution of a Continental Margin During Obduction Orogeny: Insights From the Jebel Akhdar Dome, Oman Mountains

et al. 2018

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The structural evolution of the carbonate platform in the footwall of the Semail ophiolite emplaced onto the passive continental margin of Arabia helps to better understand the early stages of obduction‐related orogens. These early stages are rarely observable in other orogens as they are mostly overprinted by later mountain building phases. We present an extensive structural analysis of the Jebel Akhdar anticline, the largest tectonic window of the Oman Mountains, and integrate it on different scales. Outcrop observations can be linked to plate motion data, providing an absolute timeframe for structural generations consistent with radiometric dating of veins. Top‐to‐S overthrusting of the Semail ophiolite and Hawasina nappes onto the carbonate platform during high plate convergence rates between Arabia and Eurasia caused rapid burial and overpressure, generation and migration of hydrocarbons, and bedding‐confined veins, but no major deformation in the carbonate platform. At reduced convergence rates, subsequent tectonic thinning of the ophiolite took place above a top‐to‐NNE, crustal‐scale ductile shear zone, deforming existing veins and forming a cleavage in clay‐rich layers in early Campanian times. Ongoing extension occurred along normal‐ to oblique‐slip faults, forming horst‐graben structures and a precursor of the Jebel Akhdar dome (Campanian to Maastrichtian). This was followed by NE‐SW oriented ductile shortening and the formation of the Jebel Akhdar dome, deforming the earlier structures. Thereafter, exhumation was associated with low‐angle normal faults on the northern flank of the anticline. We correlate the top‐to‐NNE crustal‐scale shear zone with a similar structure in the Saih Hatat window to develop a unified model of the tectonic evolution of the Oman Mountains.

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High-resolution Lithospheric Structure of the Zagros Collision Zone and Iranian Plateau

Irandoust

Sobouti

2022

Preprint

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Neogene to Present paleostress field in Eastern Iran (Sistan belt) and implications for regional geodynamics

Cited by 35 publications

References 84 publications

The kinematics of the Dasht-e Bayaz earthquake fault during Pliocene-Quaternary: Implications for the tectonics of eastern Central Iran

The kinematics of the Dasht-e Bayaz earthquake fault during Pliocene-Quaternary: Implications for the tectonics of eastern Central Iran

Multiphase Structural Evolution of a Continental Margin During Obduction Orogeny: Insights From the Jebel Akhdar Dome, Oman Mountains

High-resolution Lithospheric Structure of the Zagros Collision Zone and Iranian Plateau

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