Tectono-thermal evolution of central Transcaucasia: Thermal modelling, seismic interpretation, and low-temperature thermochronology of the eastern Adjara-Trialeti and western Kura sedimentary basins (Georgia)

•Complex subsidence-exhumation patterns along interfering Adjara-Trialeti and Kura.•Different pulses of increased subsidence associated to discrete tectonic triggers.•Eastward plunge of Adjara-Trialeti since latest Miocene underneath inverted Kura. Structural interference along the boundaries of adj...

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Published in:Journal of Asian earth sciences 2022-10, Vol.237, p.105355, Article 105355
Main Authors: Gusmeo, Thomas, Schito, Andrea, Corrado, Sveva, Alania, Victor, Enukidze, Onise, Zattin, Massimiliano, Pace, Paolo, Cavazza, William
Format: Article
Language:English
Subjects:
Fission-track thermochronology
Kura Basin
Structural interference
Thermal maturity
Thermal modelling
Transcaucasus
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Summary:•Complex subsidence-exhumation patterns along interfering Adjara-Trialeti and Kura.•Different pulses of increased subsidence associated to discrete tectonic triggers.•Eastward plunge of Adjara-Trialeti since latest Miocene underneath inverted Kura. Structural interference along the boundaries of adjacent tectonic domains generates complex subsidence and exhumation patterns. In this paper we study a key segment of the convergence zone between the interfering south-verging Greater Caucasus and north-verging Lesser Caucasus retro-wedge. The study area comprises the along-strike transition between the Paleogene Adjara-Trialeti back-arc basin and the Oligocene-Neogene Kura foreland basin of eastern Georgia. During the Neogene, despite their difference in age and subsidence mechanisms, both basins have been progressively inverted to various extent within the overall context of the Arabia-Eurasia continental collision. Thermal modelling of borehole data from the Adjara-Trialeti basin allowed to reconstruct two phases of rapid subsidence, late Paleocene-Early Eocene and Middle-Late Eocene, respectively correlated to flexural loading by the Lesser Caucasus retro-wedge and continental rifting. Integration of thermal modelling, apatite fission-track statistical inverse modelling, and seismic interpretation detected a third subsidence phase in the Early Miocene, possibly related to strike-slip tectonics. Thermal maturity data dictate that 1.0–1.3 km of the Adjara-Trialeti sedimentary succession has been eroded since the onset of structural inversion in the mid-Miocene. The burial history of the western Kura Basin outlines intermittent and asymmetrical episodes of flexural subsidence from the Oligocene to the Late Miocene, due to competing loading by the Lesser Caucasus, the Adjara-Trialeti fold-and-thrust belt and the Greater Caucasus. Finally, during latest Miocene times southward propagation of deformation from the Greater Caucasus induced an additional tectonic loading (1.3–1.8 km) due to the emplacement of thin-skinned thrust sheets, mostly eroded during the Plio-Quaternary.
ISSN:1367-9120
1878-5786
DOI:10.1016/j.jseaes.2022.105355