LEE- Jeodinamik-Doktora

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http://hdl.handle.net/11527/19321

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Yazar "Yıldırım, Cengiz" ile LEE- Jeodinamik-Doktora'a göz atma
  • Öge
    Determination of pattern, timing and mechanism of the active tectonic deformation in the western flank of the Central Taurides
    (Graduate School, 2024-09-02) Aykut, Tunahan ; Yıldırım, Cengiz ; 602202004 ; Geodynamic
    The Central Taurides is located in the southern margin of the Central Anatolian Plateau and corresponds to the upper crust of the subduction between African and Anatolian plates, with a high relief of up to 2 km. This mountainous region has distinctive geomorphological features and presents a unique setting to investigate the mechanism of orogenic plateau margin development related to subduction and topographic evolution around the Eastern Mediterranean. Here, we combine new kinematic data from exposed fault planes, tectonic landforms from high-resolution digital elevation models, microstructural analysis and U-Th and U-Pb geochronology on syn-tectonic calcites to elucidate the pattern, mechanism and timing of active tectonic deformation in the western Central Taurides, above the Cyprus Subduction Zone. Our geomorphic analyses reveal a post-orogenic transient actively deforming topography. The geomorphic markers constrain long-term surface uplift pattern with a mean cumulative surface uplift of 1,710 ± 50 m and shows an increasing trend from west to east, from 1,600 ± 50 to 1,800 ± 50 m. Our results suggest a dome-like uplift pattern in the west-east direction across the southern margin that reaches up to maximum cumulative uplift values in the quadrangle of Alanya-Başyayla-Ermenek-Gazipaşa. Our kinematic measurements on the exposed fault planes reveal the presence of normal, strike-slip, and thrust/reverse faults, indicating a multiphase history of brittle deformation. Microstructural studies on syn-tectonic calcites show brittle deformation features such as microcracks, brecciation, and calcite twinlets, providing evidence of tectonic control over calcite precipitation. U-Th ages of fault-related calcites show continuous normal faulting from the Middle/Late Pleistocene to the Holocene due to NE-SW horizontal extension, with a conspicuous clustering at circa 450 ka, indicating a connection/coupling between deep-seated and surface processes. It suggests that extensional deformation and rapid surface uplift may occur concurrently, creating relief-bounding normal fault zones and high-relief dynamic landscapes on a short timescale in the overriding plates. The U-Pb carbonate geochronology of syn-tectonic calcite samples indicates three distinct phases of faulting from the Late Cretaceous to the Quaternary. Thrust/reverse faulting events, which represents the first faulting phase, were observed in the Late Cretaceous. The second faulting phase, strike-slip faulting, occurred from the Early Eocene to the Early Miocene with a clear cluster in the Oligocene. Normal faulting was the last faulting phase and is prevalent from the Early Miocene to the Quaternary. The Late Cretaceous thrust/reverse faulting could be associated with the collision of different tectonic blocks in Anatolia. The Oligocene strike-slip shearing in the region was probably driven by the convergence and collision of tectonic plates in Eastern Anatolia and the resulting block rotations in Southern Türkiye. The onset of normal faulting in the Early Miocene indicates a shift towards extensional tectonics during the Oligocene-Miocene transition, which continuous until the present day. The last faulting phase has been possibly driven by the coupling geodynamic processes such as slab retreat, slab deformation and mantle upwelling associated with convergence along the Cyprus Subduction Zone. Our findings have significant implications for understanding the morphotectonic evolution and post-orogenic deformation in the plateau margins and geodynamic evolution of the Eastern Mediterranean.
  • Öge
    Differential tectonics of Aydın Range in western Anatolia Extensional Province: Inferences from catchment-wide erosion, river incision, and range-front deposition
    (Graduate School, 2023-10-27) Özpolat, Emrah ; Yıldırım, Cengiz ; Görüm, Tolga ; 602162001 ; Geodynamics
    The western Anatolian Extensional Province is a rapidly extending region characterized by dynamic landscapes resulting from the ongoing deformation of the Earth's crust. The Aydın Range, located along the northern margin of the Büyük Menderes Graben, is a major horst within the western Anatolian Extensional Province. This region has experienced a series of extensional events since the Late Oligocene, leading to ongoing uplift and erosion, shaping a complex landscape of mountains, valleys, and river systems. The tectonic deformation within the Aydın Range has not been uniform, resulting in differential uplift along the range and variations in erosion rates. This differential uplift has shaped the landscape, giving rise to distinctive erosional and depositional landforms along the northern margin of the Büyük Menderes Graben. The morphostratigraphy and morphology of these landforms provide valuable insights into the source-to-sink relationships and the Quaternary tectonics of the region. The active tectonic regime and steep topography of the Aydın Range create favorable conditions for enhanced erosion rates, leading to the development of the distinctive range-front deposition. However, the understanding of the active tectonics of the Aydın Range and its relationship to catchment erosion, river incision, and range-front deposition remains limited. To understand the differential tectonic uplift pattern of the Aydın Range, this thesis focuses on erosional and depositional features along the southern flank of the Aydın Range. The main objective of this Ph.D. thesis is to unravel the interplay between differential rock uplift dynamics of the Aydın Range and the range-front depositional and erosional patterns within the range, considering the tectonic activity, lithology, and varying erosion rates across the region. The study area offers favorable conditions for analysis, including numerous alluvial fans aligned along a segmented normal fault, similar climatic and vegetative characteristics within catchments, and a mixture of granite and gneiss lithologies. A comprehensive approach combining catchment-wide erosion analysis, river incision analysis, river longitudinal profile analysis, and range-front deposition analysis is employed. Catchment-wide erosion patterns, based on 10Be cosmogenic nuclides are examined to understand the relative contributions of various factors on erosional dynamics and decipher the tectonic uplift pattern of the range. River incision processes and channel characteristics are investigated to gain insights into underlying tectonic processes and their spatial variations. Furthermore, the morphology of alluvial fans at the range front are studied to evaluate tectonic uplift and the relative contributions of different processes to sedimentation patterns. Higher catchment-wide erosion rates and higher river incision rates in Section 3 and Section 5 of the Aydın Range are shown by the results. In addition, higher channel steepness index values and slope break knickpoint distributions imply that a higher rock uplift rate is responsible for thicker alluvial fans in sections 3 and 5. In contrast, Section 1, section 2, and Section 4 have lower catchment-wide erosion rates and lower river incision rates. In addition, the lower ksn and absence of slope break knickpoints in these sections is an indication that these sections have lower tectonic rock uplift. This resulted in the less thick and spatially larger distribution of alluvial fans in Section 1, section 2, and Section 5. A comprehensive understanding of the differential tectonics and range-front deposition processes is provided by the source-to-sink approach employed in this thesis, enhancing knowledge of the active tectonics and surface processes in the region. Additionally, the detailed morphostratigraphy of Quaternary landforms in the study area provides valuable insights into landscape evolution and hazard assessment in this dynamic setting. The map of Quaternary landforms fills the existing gaps in the region-wide correlations and maps associated with the Quaternary geology and geomorphology, facilitating a more comprehensive understanding of the tectonic processes shaping the Aydın Range.