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Thermo‐Kinematic Evolution of the Eastern European Alps Along the TRANSALP Transect (2023)

Eizenhöfer, Paul R. ; Glotzbach, Christoph ; Kley, Jonas ; [et al.]

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Publication Date: 2023-11-18

Description: The eastern European Alps are shaped by the indentation of Adria into Europe. Recent tomography, depicting detached slab fragments, has been interpreted as evidence of continuous southward subduction of European lithosphere, contrary to an often‐invoked subduction polarity reversal. Orogen‐scale exhumation, driven by rock displacement along active faults, may reflect subduction polarity within the framework of doubly‐vergent Coulomb wedge theory, provided the absence of rheological contrasts across the colliding plates. Low‐temperature thermochronology can evaluate crustal cooling in response to changes in tectonic and erosional boundary conditions. This study investigates the consistency of observed crustal re‐organization, exhumation, and mantle processes in the Eastern Alps. Thermo‐kinematic forward models driven by reconstructions of crustal shortening along the TRANSALP geophysical transect were subjected to variations in shortening rates, thermophysical parameters, and topographic evolution, supplemented by new fission‐track data. The thermo‐kinematic models reproduce: (a) the orogen‐scale structural geometry, (b) the distribution of thermochronometer ages, (c) observed time‐temperature paths, and (f) the present‐day surface heat flux. Results suggest that exhumation is driven by rock displacement along active faults without the need to involve mantle‐driven buoyancy forces. Taken together, the results identify two possible scenarios: if the Tauern Ramp is a retro‐thrust and the southward shift of deformation in the Southern Alps is a response to new Coulomb‐wedge conditions, then our results support a Mid‐Miocene reversal of the subduction polarity. Alternatively, crustal deformation does not reflect mantle processes entailing a high degree of inter‐plate decoupling.

Description: Plain Language Summary: The convergence between the African and Eurasian plates created the European Alps. This process led to the Eurasian plate underlaying the African plate. It has been argued that this tectonic geometry changed, that is, Adria underlies Europe at present. Here we investigate whether changes in erosion and cooling of the crust over geologic time along a north‐to‐south profile in the Eastern Alps during the collision reflects deep seated mantle processes given the absence of rheological contrasts across the involved tectonic plates. New models for the structural and thermal evolution of the crust along the profile reproduce present‐day structural and thermal observations. Model predictions are sensitive to heat production in the crust. Furthermore, these models indicate that cooling of the crust through erosion was primarily driven by the displacement of rocks toward the surface along active faults. Two possible tectonic scenarios are suggested: The pattern of fault activity during the collision is characteristic for an overlying European plate promoting that now the Adriatic plate lies under the European plate. If this is the case, this change in tectonic geometry likely occurred about 10–20 million years ago. Alternatively, crustal deformation does not reflect mantle processes because the interface between the two colliding plates is highly decoupled along the profile.

Description: Key Points Exhumation in the eastern European Alps along TRANSALP is primarily driven by cooling through rock displacement along active faults The thermo‐kinematic reconstruction emphasizes contrasts in the deformation north and south along TRANSALP since the Mid‐Miocene In the absence of inter‐plate rheological contrasts deformation patterns favor a reversal in subduction polarity since the Mid‐Miocene

Description: Deutsche Forschungsgemeinschaft http://dx.doi.org/10.13039/501100001659

Description: https://doi.org/10.5880/fidgeo.2022.017

Description: https://doi.org/10.5281/zenodo.7785668

Description: https://doi.org/10.1186/s40562-017-0098-z

Description: https://doi.org/10.1016/j.epsl.2004.05.040

Description: https://doi.org/10.1007/s00531-014-1060-3

Keywords: ddc:551.8 ; European Alps ; TRANSALP ; thermochronology ; subduction polarity reversal ; tectonic reconstruction ; continental collision

Language: English

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Supporting material for Quantifying tectonic and glacial controls on topography in the Patagonian Andes (46.5°S) from integrated thermochronometry and thermokinematic modeling (2021)

Andrić-Tomašević, Nevena ; Falkowski, Sarah ; Georgieva, Viktoria ; [et al.]

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Publication Date: 2021-08-04

Description: Abstract

Description: The data set includes supporting tables and figures to the main text of the manuscript entitled “Quantifying tectonic and glacial controls on topography in the Patagonian Andes (46.5°S) from integrated thermochronometry and thermokinematic modeling”. The paper focuses on tectonic and glacial contributions to the erosion history and topography in the Patagonian Andes (46.5°S). The data set comprises (i) new bedrock thermochronometric ages (apatite and zircon (U-Th)/He, AHe and ZHe, respectively, and fission-track measurements, AFT and ZFT, respectively); (ii) published bedrock thermochronometric ages (AHe, AFT, ZHe and ZFT measurements), (iii) 3D thermo-kinematic model results and (iv) a table including parameters used in the modeling. The detailed analytical procedure is described in a description file (“2021-004_Andric-Tomasevic-et-al_Data-Description.pdf”).

Keywords: Patagonian Andes ; thermochronology ; 3 D thermo-kinematic numerical modeling ; fold and thrust belt ; Glacial erosion ; EARTH SCIENCE 〉 LAND SURFACE 〉 EROSION/SEDIMENTATION 〉 EROSION ; EARTH SCIENCE 〉 SOLID EARTH 〉 TECTONICS

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TRANSALP AHe/ ZHe/ HeFTy Thermochronology Data (2021)

Eizenhöfer, Paul R. ; Glotzbach, Christoph ; Bühler, Lukas ; [et al.]

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Publication Date: 2023-07-11

Description: Abstract

Description: The data set comprises new thermochronologic data along the TRANSALP geophysical transect in the Eastern Alps, i.e. (i) apatite and (ii) zircon (U-Th)/He measurements (Tables S1, S2 and S3), and (iii) HeFTy inverse thermal time-temperature-path models ('HeFTy_Models.zip') including a table of parameters used (Table S4). Individual model files can be opened using the HeFTy software (Ketcham et al., 2007).

Description: Methods

Description: Sampling method Bedrock samples were taken along the TRANSALP geophysical transect (e.g., Lüschen et al., 2004; 2006) with the main purpose of relating new (and existing) thermochronological data to previously identified mantle geometries and to gain orogen-scale insights into the evolution of the eastern European Alps since initialization of collision in the Eocene/Oligocene. Apatite and zircon (U-Th)/He analyses were the method of choice for two reasons: (i) these systems are considered most suitable to detect periods and locations of increased exhumation that are related to the Neogene evolution of the European Alps including changes in mantle geometries, and (ii) these systems systematically complement existing thermochronology data along the transect, which are predominantly comprised of fission-track data. Detailed analytical procedure is described in the dateset description file ("2020-48_Eizenhöfer-et-al_Data Description.pdf").

Keywords: European Alps ; Thermochronology ; TRANSALP ; 4DMB ; Mountain Building Processes in 4D ; EARTH SCIENCE 〉 SOLID EARTH 〉 TECTONICS ; tectonics ; thermochronology

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TRANSALP – Fission Track Data and Thermo-Kinematic Model (2022)

Eizenhöfer, Paul R. ; Glotzbach, Christoph ; Kley, Jonas ; [et al.]

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Publication Date: 2023-07-11

Description: Abstract

Description: The new data set along the TRANSALP geophysical transect in the European Alps consists of three types: (i) new apatite and zircon fission data, (ii) a MOVE™ structural-kinematic model for the tectonic evolution along the transect since the Oligocene, and (iii) PECUBE input/output thermo-kinematic model data corresponding to the structural-kinematic MOVE™ model. The fission track data are provided as *.csv data tables formatted to be ideally opened and viewed in RadialPlotter (Vermeesch, 2009) or alternatively in any spreadsheet editor (e.g., Microsoft Excel). The MOVE™ files require the software MOVE™ licensed by Petroleum Experts. The PECUBE input/output files can be opened with any text editor (e.g., Microsoft Visual Code) or data analysis software (e.g., MATLAB™).

Description: Methods

Description: Apatite and zircon mineral extraction were conducted for four samples following standard techniques. Samples were crushed and sieved before undergoing magnetic and heavy liquid separation. Apatite and zircon separates were embedded in epoxy resin and Teflon™ sheets, respectively. The sample mounts were polished to expose internal surfaces at approximately half the grain size. Apatite mounts were etched in 5.5 mol HNO3 for 20 seconds at 21 ºC (Donelick et al., 2005), and zircon mounts in a KOH:NaOH eutectic melt at 228 ºC until fission tracks were visible (Garver, 2003). We employed the mica external detector method (Gleadow et al., 1981) for all samples to determine the Uranium content. After neutron irradiation at the nuclear reactor BR1 in Mol/Belgium, micas were etched in 40% HF for 30 minutes at 21 ºC. Spontaneous and induced fission tracks were counted at 1000x magnification on a Zeiss Axiolmager M2m microscope with AutoScan® soft- and hardware. Fission-track ages are calculated using the ζ age calibration method (Hurford & Greene, 1983) using ζ-values of 249.9±8.9 and 121.7±4.1 for the AFT and ZFT systems, respectively. Data visualization and age mixture distribution analyses were aided by RadialPlotter (Vermeesch, 2009). Reconstruction of rock trajectories along TRANSALP were performed in MOVE™ through orogen-scale upper lithospheric cross-section balancing in 2D (e.g., Dahlstrom, 1969). Cross-section balancing provides a tool to reconstruct the displacement of rock material over geologic time scales while maintaining equal rock area before and after deformation under a brittle regime and honoring observed geology. Maintenance of line lengths before and after a deformation step is ensured above active décollements, whereas beneath, we assume crustal thickening occurs through unspecified ‘distributed deformation’ reflecting a hybrid ductile/brittle state. This enabled us to implement a simplified evolution of the Mohorovičić discontinuity (Moho) with time. Shortening above the décollement gives us a precise estimate of the area that needs to be accommodated between the décollement and the Moho. In this process, the Moho has been warped downward by the amount of space displaced between the décollement and the Moho with each deformation step (Fig. 4), assuming that crustal thickening is achieved through distributed deformation’ until the Moho reaches its present-day shape as determined by Kummerow et al. (2004). In this forward kinematic modeling process, we added flexural and isostatic crustal responses to rock displacement and different modes of erosion (i.e., changing the angle of taper topography). For details related to implementation of the geological structures and crustal parameters, please refer to the companion paper. Viable structural-kinematic models are used to track rock displacement and simulate heat advection in a thermal model. The thermal model used is a University of Tübingen modified version of PECUBE (‘Pecube-D’; Whipp et al., 2009; Braun, 2003; McQuarrie & Ehlers, 2015; 2017). Pecube-D is modified from the original version of Pecube to include integration with the Move structural restoration software (McQuarrie and Ehlers, 2015), detrital thermochronometer age analysis (Whipp et al., 2009; Whipp and Ehlers, 2020), and inverse modelling of cooling ages for sample exhumation rates (Thiede and Ehlers, 2013). It solves the three-dimensional heat transport equation for user-defined topographies and surface boundary conditions. Age prediction algorithms for the (U-Th)/He and fission-track systems in apatite and zircon follow Farley (2000), Crowley et al. (1991), Reiners et al. (2004), and Brandon et al. (1998).

Keywords: TRANSALP ; thermochronology ; continental collision ; subduction polarity ; thermo-kinematic modelling ; EARTH SCIENCE 〉 SOLID EARTH 〉 GEOMORPHIC LANDFORMS/PROCESSES 〉 TECTONIC PROCESSES ; EARTH SCIENCE 〉 SOLID EARTH 〉 TECTONICS ; EARTH SCIENCE SERVICES 〉 MODELS 〉 GEOLOGIC/TECTONIC/PALEOCLIMATE MODELS ; geology ; surface processes ; tectonics ; thermochronology

Type: Collection , Collection

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Turning the Orogenic Switch: Slab‐Reversal in the Eastern Alps Recorded by Low‐Temperature Thermochronology (2021)

Eizenhöfer, Paul R. ; Glotzbach, Christoph ; Büttner, Lukas ; [et al.]

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Publication Date: 2021-07-21

Description: Many convergent orogens, such as the eastern European Alps, display an asymmetric doubly vergent wedge geometry. In doubly vergent orogens, deepest exhumation occurs above the retro‐wedge. Deep‐seismic interpretations depict the European plate dipping beneath the Adriatic, suggesting the pro‐wedge location on the north side of the orogen. Our new thermochronometer data across the Eastern Alps confirm distinct shifts in the locus of exhumation associated with orogen‐scale structural reorganizations. Most importantly, we find a general Mid‐Miocene shift in exhumation (in the Tauern Window and the Southern Alps) and focus of modern seismicity across the Southern Alps. Taken together, these observations suggest a subduction polarity reversal at least since the Mid‐Miocene such that the present‐day pro‐wedge is located on the south side of the Alps. We propose a transient tectonic state of a slow‐and‐ongoing slab reversal coeval with motion along the Tauern Ramp, consistent with a present‐day northward migration of drainage divides.

Description: Plain Language Summary: When tectonic plates collide, they bend downwards and form two lithospheric wedges dipping in opposite directions, such as in the Eastern Alps. We present new crustal cooling data along a transect in the Eastern Alps confirming that surface rocks across the central Tauern Window originated from the deepest structural levels along the transect. South of the Tauern Window rocks were exhumed from higher depths compared to those north of it and were exhumed more recently, while seismic activity is also focused across the Southern Alps. These observations suggest a subduction polarity reversal because they are inconsistent with the original southern and northern locations of overriding and subducting plates, respectively, 〉15 million years ago. This interpretation is contrary to lithosphere‐scale tomography that shows no change in subduction polarity. Therefore, we propose a transient tectonic state, that is, a slow‐and‐ongoing subduction polarity reversal that initiated when Tauern Window rocks began their steep ascent to the surface along a deep‐seated fault known as the Tauern Ramp. This study bridges observations in the mantle, crust and on the surface over geologic time.

Description: Key Points: Thermochronologic data in the Eastern Alps is consistent with a transient tectonic state toward complete slab reversal. The pro‐wedge has switched from north to south of the Periadriatic Fault along TRANSALP. Mid‐Miocene motion along the Tauern Ramp is the consequence of slab‐reversal.

Description: Deutsche Forschungsgemeinschaft (DFG) http://dx.doi.org/10.13039/501100001659

Keywords: 551.8 ; 554.3 ; continent‐continent collision ; doubly vergent orogen ; slab reversal ; thermochronology ; TRANSALP

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