Please use this identifier to cite or link to this item: https://hdl.handle.net/11499/47439
Title: Step-over fault zones controlling geothermal fluid-flow and travertine formation (Denizli Basin, Turkey)
Authors: Brogi, Andrea
Alçiçek, Mehmet Cihat
Liotta, Domenico
Capezzuoli, Enrico
Zucchi, Martina
Matera, Paola Francesca
Keywords: Banded Ca-carbonate veins
Extensional tectonics
Geothermal systems
Relay zones
Travertine
Western Anatolia
Carbonation
Deposits
Faulting
Fracture
Geothermal fields
Geothermal wells
Limestone
Banded ca-carbonate vein
Extensional tectonics
Fault zone
Fluid circulation
Geothermal systems
Hydrothermal system
Relay zone
Step-overs
Travertine
Western Anatolia
Flow of fluids
carbonate
fault zone
fissure
fluid flow
geothermal system
hydrothermal system
normal fault
oblique fault
travertine
vein (geology)
Denizli Basin
Turkey
Publisher: Elsevier Ltd
Abstract: In the Honalilar area (Denizli Basin, Turkey), the occurrence of banded Ca-carbonate veins and travertine deposits, represented by a dismantled fissure ridge-type depositional system, are the evidence of a middle-late Pleistocene exhumed, shallow, hydrothermal system. Their occurrence offers the best opportunity to: (i) reconstruct the fluid paths from the underground to the palaeo-surface, and (ii) analyse the role of fault zones in controlling the permeability and fluids circulation. Permeability developed in overstepping regional scale normal faults, with a slight left-lateral oblique-slip component. At the surface, faults favored the localization and development of a fissure ridge-type travertine deposit. At depth, the root of the hydrothermal system consists of W-E oriented fractures filled of up to 6.5 m thick Ca-carbonate veins, developed in a high dilatation zone. It corresponds to the step-over determined by the oblique-slip kinematics of the NW-striking main faults. The high dilatation step-over zone contrasted the progressive sealing induced by the concomitant Ca-carbonate deposition within the fractures, thus favoring permeability maintenance and fluids circulation for at least 200 ka. This evidence adds key inputs for predicting permeable volumes during geothermal exploration in areas affected by extensional tectonics. The main NW-oriented faults remained active even after the hydrothermal fluid flow, causing the dismantlement and progressive exhumation of the upper part of the hydrothermal system. © 2020 Elsevier Ltd
URI: https://doi.org/10.1016/j.geothermics.2020.101941
https://hdl.handle.net/11499/47439
ISSN: 0375-6505
Appears in Collections:Mühendislik Fakültesi Koleksiyonu
Scopus İndeksli Yayınlar Koleksiyonu / Scopus Indexed Publications Collection

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