Characterization of Ore-Forming Systems from Geological, Geochemical and Geophysical Studies
CONTAINS OPEN ACCESS
Economically viable concentrations of mineral resources are uncommon in Earth’s crust. Most ore deposits that were mined in the past or are currently being extracted were found at or near Earth’s surface, often serendipitously. To meet the future demand for mineral resources, exploration success hinges on identifying targets at depth. Achieving this requires accurate and informed models of the Earth’s crust that are consistent with all available geological, geochemical and geophysical information, paired with an understanding of how ore-forming systems relate to Earth’s evolving structure. Contributions to this volume address the future resources challenge by (i) applying advanced microscale geochemical detection and characterization methods, (ii) introducing more rigorous 3D Earth models, (iii) exploring critical behaviour and coupled processes, (iv) evaluating the role of geodynamic and tectonic setting and (v) applying 3D structural models to characterize specific ore-forming systems.
Crustal fluid flow in hot continental extension: tectonic framework of geothermal areas and mineral deposits in western Anatolia
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Published:January 01, 2018
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CiteCitation
Klaus Gessner, Vanessa Markwitz, Talip Güngör, 2018. "Crustal fluid flow in hot continental extension: tectonic framework of geothermal areas and mineral deposits in western Anatolia", Characterization of Ore-Forming Systems from Geological, Geochemical and Geophysical Studies, K. Gessner, T.G. Blenkinsop, P. Sorjonen-Ward
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Abstract
Lithospheric thinning and crustal extension have shaped the Alpine orogen in western Anatolia since the late Oligocene, resulting in the denudation of one of Earth’s largest metamorphic core complexes, the Menderes Massif. We review locations and characteristics of geothermal fields and of Miocene mineral deposits in the context of crustal structure and geodynamic processes. Thermal spring locations show a close spatial association with active fault zones; the largest geothermal areas are located in the widest graben and at fault intersections, but show little relation to volcanic activity. During the first stage of tectonic denudation in the Miocene, epithermal, porphyry-type gold and structurally controlled base-metal deposits formed synchronously with K-rich volcanic and plutonic complexes in the northern Menderes Massif. Depositional environments favoured the formation of lignite, sedimentary uranium and borate deposits. Throughout this phase of extension in a hot continental setting, secondary porosity caused by brittle faulting of metamorphic basement rocks provided the key pathways for fluids and magmas. Although the Menderes Massif has remained in a similar position relative to active plate boundaries from the Miocene to the present, three significant changes in subcontinental mantle dynamics affected the nature of hydrothermal flow. First, the partial removal of lithospheric mantle changed the primary source component of magmatic rocks and metals from metasomatized lithosphere mantle to asthenospheric mantle. Secondly, surface uplift and progressive crustal extension led to segmentation of the Miocene land surface along NNE–SSW- and east–west-orientated fault zones, which changed the overall structural control on crustal permeability. Finally, hydrothermal flow changed from locally magmatic driven, to focused flow of topographically and thermally driven fluids in the crust, with high background heat flow caused by regional upwelling of the asthenosphere. The Menderes Massif is a continental tectonic domain that has experienced rapid thinning of lithospheric mantle and crustal extension in an overall convergent plate tectonic setting. The tectonic and geodynamic framework for evolving hydrothermal activity in western Anatolia may be applicable to other ore-forming systems in hot, extending continental crust in Earth’s history.
Supplementary material: Supplement 1: Compilation of 124 thermal spring temperature measurements from Akkuş et al. (2005); Supplement 2: Compilation of 127 geothermal well temperature measurements from Akkuş et al. (2005) is available at https://doi.org/10.6084/m9.figshare.c.3803935
- Anatolia
- Asia
- brittle deformation
- Cenozoic
- composition
- continental crust
- continental lithosphere
- crust
- crustal thinning
- deformation
- extension tectonics
- fluid flow
- geodynamics
- geothermal gradient
- geothermal systems
- geothermal wells
- heat flow
- host rocks
- hot springs
- hydrothermal alteration
- lithosphere
- magmatism
- melts
- Menderes Massif
- mercury ores
- metal ores
- metallogenic provinces
- metamorphic rocks
- metasomatism
- Middle East
- mineral deposits, genesis
- mineralization
- Miocene
- Neogene
- Oligocene
- ore-forming fluids
- Paleogene
- porosity
- processes
- secondary porosity
- sedimentary rocks
- springs
- statistical analysis
- structural controls
- tectonics
- Tertiary
- Tethys
- thermal regime
- thickness
- Turkey
- upper Oligocene