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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

Type: Dataset , Dataset

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Time series of meteorological stations on an elevational gradient in National Park La Campana, Chile (2021)

Übernickel, Kirstin ; Ehlers, Todd A. ; Paulino, Leandro ; [et al.]

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Publication Date: 2021-12-13

Description: Abstract

Description: The DFG Priority Program 1803 "EarthShape - Earth Surface Shaping by Biota” (www.earthshape.net) installed three meteorological stations at an elevational gradient in the National Park La Campana, Chile, in the sector Ocoa, within one catchment, that is one of the four EarthShape core research sites. They are located at a valley position, at the slope and the crest of the catchment. For reference, the valley station is neighbouring a weather station (Campbell Scientific) that the EarthShape project has installed earlier, in 2016 (Übernickel et al., 2020). The other two weather stations are installed on higher elevations. The weather stations are intended to provide baseline meteorological data along the elevational gradient within the La Campana catchment. Each station is configured to include sensors that record air temperature, relative humidity, barometric pressure as well as total solar radiation at 2 m height; precipitation at 1 m height. The data recording started in March 2019. This publication provides raw data as downloaded from the three stations, appended to one single *.xlsx file per station. The data is measured in 30 minutes intervals. The full description of the data and methods is provided in the data description file.

Description: Other

Description: The DFG Priority Program 1803 "EarthShape - Earth Surface Shaping by Biota" (2016-2022; https://www.earthshape.net/) explored between scientific disciplines and includes geoscientists and biologists to study from different viewpoints the complex question how microorganisms, animals, and plants influence the shape and development of the Earth’s surface over time scales from the present-day to the young geologic past. All study sites are located in the north-to-south trending Coastal Cordillera mountains of Chile, South America. These sites span from the Atacama Desert in the north to the Araucaria forests approximately 1300 km to the south. The site selection contains a large ecological and climate gradient ranging from very dry to humid climate conditions.

Keywords: South America ; Chile ; Coastal Cordillera ; National Parc La Campana ; EarthShape ; radiation ; temperature ; precipitation ; pressure ; humidity ; weather station ; METER group ; EARTH SCIENCE 〉 ATMOSPHERE 〉 ATMOSPHERIC RADIATION 〉 SOLAR RADIATION ; EARTH SCIENCE 〉 ATMOSPHERE 〉 ATMOSPHERIC TEMPERATURE 〉 AIR TEMPERATURE ; EARTH SCIENCE 〉 ATMOSPHERE 〉 ATMOSPHERIC WATER VAPOR 〉 HUMIDITY ; EARTH SCIENCE 〉 ATMOSPHERE 〉 PRECIPITATION

Type: Dataset , Dataset

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(LiDAR) 3D Point Clouds and Topographic Data from the Chilean Coastal Cordillera (2022)

Kügler, Malte ; Hoffmann, Thomas O. ; Beer, Alexander R. ; [et al.]

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Publication Date: 2022-01-18

Description: Abstract

Description: The DFG Priority Program 1803 “EarthShape” (www.earthshape.net) investigates Earth surface shaping by biota. As part of this project, we present Light Detection and Ranging (LiDAR) data of land surface areas for the four core research sites of the project. The research sites are located along a latitudinal gradient between ~26 °S and ~38 °S in the Chilean Coastal Cordillera. From north to south, the names of these sites are: National Park Pan de Azúcar; Private Reserve Santa Gracia; National Park La Campana; and National Park Nahuelbuta. The three datasets contain raw 3D point cloud data captured from an airborne LiDAR system, and the following derivative products: a) digital terrain models (DTM, sometimes also referred to as DEM [digital elevation model]) which are (2.5D) raster datasets created by rendering only the LiDAR returns which are assumed to be ground/bare-earth returns and b) digital surface models (DSM) which are also 2.5D raster datasets produced by rendering all the returns from the top of the Earth’s surface, including all objects and structures (e.g. buildings and vegetation). The LiDAR data were acquired in 2008 (southernmost Nahuelbuta [NAB] catchment), 2016 (central La Campana [LC] catchment) and 2020 (central Santa Gracia [SGA] catchment). Except for Nahuelbuta (data already was available from the data provider from a previous project), the flights were carried out as part of the "EarthShape" project. The LiDAR raw data (point cloud/ *.las files) were compressed, merged (as *.laz files) and projected using UTM 19 S (UTM 18 S for the southernmost Nahuelbuta catchment, respectively) and WGS84 as coordinate reference system. A complementary fourth dataset for the northernmost site in the National Park Pan de Azúcar, derived from Uncrewed Aerial Vehicle (UAV) flights and Structure from Motion (SfM) photogrammetry, is expected to be obtained during the first half of 2022 and will be added to the above data set.

Description: Other

Description: The DFG Priority Program 1803 "EarthShape - Earth Surface Shaping by Biota" (2016-2022) explored between scientific disciplines and includes geoscientists and biologists to study from different viewpoints the complex question how microorganisms, animals, and plants influence the shape and development of the Earth’s surface over time scales from the present-day to the young geologic past. All study sites are located in the north-to-south trending Coastal Cordillera mountains of Chile, South America. These sites span from the Atacama Desert in the north to the Araucaria forests approximately 1300 km to the south. The site selection contains a large ecological and climate gradient ranging from very dry to humid climate conditions. For more information visit: www.earthshape.net

Keywords: 3D point cloud ; LiDAR scanner ; Elevation Models ; EarthShape ; Chile ; Coastal Cordillera ; Private Reserve Santa Gracia ; National Park La Campana ; National Park Nahuelbuta ; Earth Remote Sensing Instruments 〉 Active Remote Sensing 〉 Altimeters 〉 Lidar/Laser Altimeters 〉 AIRBORNE LASER SCANNER ; EARTH SCIENCE 〉 LAND SURFACE 〉 TOPOGRAPHY 〉 TERRAIN ELEVATION ; EARTH SCIENCE 〉 LAND SURFACE 〉 TOPOGRAPHY 〉 TOPOGRAPHICAL RELIEF ; EARTH SCIENCE 〉 SPECTRAL/ENGINEERING 〉 LIDAR ; EARTH SCIENCE SERVICES 〉 MODELS 〉 LAND SURFACE MODELS ; Models/Analyses 〉 DEM ; radiation 〉 laser

Type: Dataset , Dataset

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New Chilean and a global compilation of soil production, chemical weathering, and physical erosion rates from soil-mantled hillslopes (2021)

Schaller, Mirjam ; Ehlers, Todd A.

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Publication Date: 2022-02-15

Description: Abstract

Description: This data publication contains new and recalculated soil production, chemical weathering, and physical erosion rates for granitoid soil-mantled hillslopes in the Chilean Coastal Cordillera. For further comparison and data discussion the data publication presents global rates from granitoid soil-mantled hillslopes combined with a suite of parameters at the sample location (e.g., slope, precipitation, temperature, vegetation cover). The data were collected within the DFG Priority Program 1803 "EarthShape - Earth Surface Shaping by Biota". The data publication contains one excel table including tables S1 to S9. In addition, these nine sub-tables are available as txt files in a zip-file. They are supplementary material to Schaller et al. (2021).

Description: Other

Keywords: EarthShape ; Chile ; Coastal Cordillera ; soil production rate ; chemical weathering rate ; physical erosion rate ; National Parc Pan de Azucar ; Private Reserve Santa Gracia ; National Parc La Campana ; National Parc Nahuelbuta ; EARTH SCIENCE 〉 SOLID EARTH 〉 GEOCHEMISTRY 〉 GEOCHEMICAL PROCESSES 〉 CHEMICAL WEATHERING ; EARTH SCIENCE 〉 SOLID EARTH 〉 GEOMORPHIC LANDFORMS/PROCESSES

Type: Dataset , Dataset

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ESD_thermotrace, A new software to interpret tracer thermochronometry datasets and quantify related confidence levels (2022)

Madella, Andrea ; Glotzbach, Christoph ; Ehlers, Todd A.

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Publication Date: 2022-04-04

Description: Abstract

Description: We present a new Python-based Jupyter Notebook that helps interpreting detrital tracer thermochronometry datasets and quantifying the statistical confidence of such analysis. Users are referred to the linked GitHub repository for usage and methods. https://github.com/mdlndr/ESD_thermotrace

Description: TechnicalInfo

Description: MIT License Copyright (c) 2021 Andrea Madella Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

Description: Other

Keywords: Detrital Tracer Thermochronology ; EarthShape ; EARTH SCIENCE 〉 LAND SURFACE 〉 EROSION/SEDIMENTATION ; EARTH SCIENCE 〉 LAND SURFACE 〉 EROSION/SEDIMENTATION 〉 EROSION ; EARTH SCIENCE 〉 LAND SURFACE 〉 EROSION/SEDIMENTATION 〉 SEDIMENT CHEMISTRY ; EARTH SCIENCE 〉 LAND SURFACE 〉 EROSION/SEDIMENTATION 〉 SEDIMENT COMPOSITION ; EARTH SCIENCE 〉 LAND SURFACE 〉 EROSION/SEDIMENTATION 〉 SEDIMENT TRANSPORT ; EARTH SCIENCE 〉 LAND SURFACE 〉 GEOMORPHOLOGY ; EARTH SCIENCE 〉 LAND SURFACE 〉 GEOMORPHOLOGY 〉 FLUVIAL LANDFORMS/PROCESSES ; EARTH SCIENCE 〉 LAND SURFACE 〉 GEOMORPHOLOGY 〉 TECTONIC LANDFORMS/PROCESSES ; EARTH SCIENCE 〉 SOLID EARTH 〉 ROCKS/MINERALS/CRYSTALS 〉 SEDIMENTS ; science 〉 natural science 〉 earth science 〉 sedimentology

Type: Software , Software

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Compilation of Cenozoic temperature proxies for terrestrial and marine surface environments (2022)

Ring, Simon J. ; Mutz, Sebastian G. ; Ehlers, Todd A.

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Publication Date: 2022-11-25

Description: Abstract

Description: We provide a globally distributed compilation of published surface temperature proxies for eight Cenozoic time periods that cover the range of paleoclimate states. The proxies have both a marine and terrestrial provenance and are compared to the annual temperature of the same location today. This data is then used to quantify long-term temperature changes on zonal and global levels. When coupled with recent estimates of atmospheric CO2 concentration, temperature data constrains the sensitivity of Earth's climate system to perturbation of the radiative balance, with possible implications for the future response to anthropogenic forcing. The dataset consists of an excel file with eight sheets for the eight selected timeslices, namely, •mid-Pliocene (3,0 - 3,3 Ma) •late Miocene (7,2 - 11,6 Ma) •mid-Miocene (14,7 - 17,0 Ma) •early Miocene (20,3 - 23,0 Ma) •early Oligocene (27,8 - 33,9 Ma) •late Eocene (33,9 - 37,8 Ma) •middle Eocene (42 - 46 Ma) •early Eocene (48 - 55 Ma)

Description: Methods

Description: Most data were directly adopted from the primary sources. However, a number of published datasets were recalculated from the published geochemical proxy indices using the recent Bayesian core-top calibrations BAYSPAR (Tierney & Tingley, 2015), BAYSPLINE (Tierney & Tingley, 2018), BAYFOX (Malevich et al., 2019), BAYMAG (Tierney et al., 2019) and BAYMBT (Crampton-Flood et al., 2020). These are highlighted in blue in the dataset. When more than one datapoint of a proxy is available for a given location, for example as part of a sea-surface temperature timeseries, then all datapoints falling within the bounds of our study timeslices were considered and the median was reported. Locations that are separated by less than 0.1 degrees in latitude and longitude were counted as a single locality.

Keywords: lipid biomarkers ; coexistence approach ; leaf margin analysis ; microfossil assemblages ; oxygen isotopes ; bioclimatic analysis ; Earth system sensitivity ; Cenozoic ; EARTH SCIENCE 〉 ATMOSPHERE 〉 ATMOSPHERIC RADIATION 〉 RADIATIVE FORCING ; EARTH SCIENCE 〉 ATMOSPHERE 〉 ATMOSPHERIC TEMPERATURE 〉 TEMPERATURE ANOMALIES ; EARTH SCIENCE 〉 OCEANS 〉 OCEAN TEMPERATURE 〉 SEA SURFACE TEMPERATURE ; EARTH SCIENCE 〉 PALEOCLIMATE 〉 LAND RECORDS 〉 PALEOVEGETATION ; EARTH SCIENCE 〉 PALEOCLIMATE 〉 PALEOCLIMATE RECONSTRUCTIONS 〉 AIR TEMPERATURE RECONSTRUCTION

Type: Dataset , Dataset

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Global Distribution of Frost Cracking Intensity during Late Cenozoic Time-slices (2022)

Sharma, Hemanti ; Mutz, Sebastian G. ; Ehlers, Todd A.

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Publication Date: 2023-01-02

Description: Abstract

Description: This dataset includes the first order (global) distribution of frost cracking intensities (FCI) [°C m], for selected paleoclimate time-slices during Late Cenozoic, as presented in the paper by Sharma et al. (2022). The paleoclimate time-slices correspond to Pre-Industrial (~1850 CE, PI), Mid-Holocene (~6 ka, MH), Last Glacial Maximum (~21 ka, LGM) and Pliocene (~3 Ma, PLIO). The FCI (by segregation ice growth) is predicted using the approach of Andersen et al. (2015), as a function of subsurface thermal gradient and volume of (and distance to) liquid water. The paleo-temperature reconstructions are obtained from ECHAM5 general circulation model (GCM) at T159 spatial resolution (80 km * 80 km) by Mutz et al. (2018). The spatial resolution of FCI dataset is same as ECHAM5 GCM simulations (i.e. 80 km * 80 km). The dataset comprises the following: -Scripts (Python) for modeling FCI for approach described in Sharma et al. (2022). -Global FCI distribution as netCDF and ascii formats. The data is available in both netCDF and ascii formats. However, the model code (attached Python scripts) currently supports only netCDF format. The model scripts can be freely utilized for regional and local studies which require finer resolution dataset. Please refer to the associated data description file for a detailed description of the dataset.

Description: Methods

Description: The model is based on the approach of Andersen et al. (2015) to estimate FCI as a function of subsurface thermal gradients up to the depth of 20 m. For segregation ice growth, it additionally considers the influence of volume of water available in the proximity of an ice lens. The boundary condition includes the presence of positive temperatures (T 〉 0 °C) at either boundary (at surface or 20 m depth). The frost cracking is supported if the bedrock temperature is in the frost cracking window (–8 °C and –3 °C). The integrated FCI each grid cell, across Earth’s terrestrial surface was calculated by depth integration of the FCI averaged over a period of 1 year. The unit of FCI data is °C m.

Keywords: Periglacial processes ; frost weathering ; frost cracking intensity ; paleoclimate ; Cenozoic ; EarthShape ; EARTH SCIENCE 〉 SOLID EARTH 〉 GEOMORPHIC LANDFORMS/PROCESSES 〉 GLACIAL PROCESSES 〉 PERIGLACIAL PROCESSES

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Data supplement to "Pedogenic and microbial interrelations to regional climate and local topography: New insights from a climate gradient (arid to humid) along the Coastal Cordillera of Chile" (2018)

Bernhard, Nadine ; Moskwa, Lisa-Marie ; Schmidt, Karsten ; [et al.]

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Publication Date: 2023-06-29

Description: Abstract

Description: The effects of climate and topography on soil physico-chemical and microbial parameters were studied along an extensive latitudinal climate gradient in the Coastal Cordillera of Chile (26° - 38°S). The study sites encompass arid (Pan de Azúcar), semiarid (Santa Gracia), mediterranean (La Campana) and humid (Nahuelbuta) climates and vegetation, ranging from arid desert, dominated by biological soil crusts (biocrusts), semiarid shrubland and mediterranean sclerophyllous forest, where biocrusts are present but do have a seasonal pattern to temperate-mixed forest, where biocrusts only occur as an early pioneering development stage after disturbance. All soils originate from granitic parent materials and show very strong differences in pedogenesis intensity and soil depth.Most of the investigated physical, chemical and microbiological soil properties showed distinct trends along the climate gradient. Further, abrupt changes between the arid northernmost study site and the other semi-arid to humid sites can be shown, which indicate non-linearity and thresholds along the climate gradient. Clay and total organic carbon contents (TOC) as well as Ah horizons and solum depths increased from arid to humid climates, whereas bulk density (BD), pH values and base saturation (BS) decreased. These properties demonstrate the accumulation of organic matter, clay formation and element leaching as key-pedogenic processes with increasing humidity. However, the soils in the northern arid climate do not follow this overall latitudinal trend, because texture and BD are largely controlled by aeolian input of dust and sea salts spray followed by the formation of secondary evaporate minerals. Total soil DNA concentrations and TOC increased from arid to humid sites, while areal coverage by biocrusts exhibited an opposite trend. Relative bacterial and archaeal abundances were lower in the arid site, but for the other sites the local variability exceeds the variability along the climate gradient. Differences in soil properties between topographic positions were most pronounced at the study sites with the mediterranean and humid climate, whereas microbial abundances were independent on topography across all study sites. In general, the regional climate is the strongest controlling factor for pedogenesis and microbial parameters in soils developed from the same parent material. Topographic position along individual slopes of limited length augmented this effect only under humid conditions, where water erosion likely relocated particles and elements downward. The change from alkaline to neutral soil pH between the arid and the semi-arid site coincided with qualitative differences in soil formation as well as microbial habitats. This also reflects non-linear relationships of pedogenic and microbial processes in soils depending on climate with a sharp threshold between arid and semi-arid conditions. Therefore, the soils on the transition between arid and semi-arid conditions are especially sensitive and may be well used as indicators of long and medium-term climate changes. Concluding, the unique latitudinal precipitation gradient in the Coastal Cordillera of Chile is predestined to investigate the effects of the main soil forming factor – climate – on pedogenic processes.The data presented here is part of the German-Chilean Priority Program “EarthShape” (Earth Surface Shaping by Biota), funded by the German Research Foundation (DFG). We provide the basic background data, which includes investigations into the influence of climate, vegetation and topography on pedogenesis and microbial abundances. The data are supplementary material to Bernhard et al. (2018).All tables are available as one Excel file, as individual tables in .csv format in a zipped archive and as PDF file. The samples are assigned with International Geo Sample Numbers (IGSN) and linked to a comprehensive sample description in the internet.The content of the five data tables is:Table S1: Soil profile field description for the EarthShape study sitesTable S2: Soil physico-chemical properties for the depth increment samples in the four study sitesTable S3: Soil physico-chemical properties for the horizon samples in the four study sitesTable S4: Relative microbial abundances in the four study sitesTable S5: Plant species and abundance (% cover) in the four study sites

Keywords: climate ; topography ; soil texture ; total organic carbon ; carbon isotope ratio (δ13 Corg) ; microbial abundance

Language: English

Type: Dataset , Dataset

Format: 707740 Bytes

Format: 4 Files

Format: application/pdf

Format: application/x-zip-compressed

Format: application/vnd.openxmlformats-officedocument.spreadsheetml.sheet

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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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