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Broerse, Taco & Krstekanic, Nemanja & Willingshofer, Ernst

Data supplement to: Mapping and classifying large deformation from digital imagery: application to analogue models of lithosphere deformation

2021-03-29T14:46:02.559135 Open - freely retrievable

The dataset consists of the original top-view and cross-section digital photographs of the model presented in Broerse et al. (2020) (Mappingand classifying large deformation from digital imagery: application to analogue models of lithosphere deformation.). The top-view images have been taken at a regular interval of 45 seconds during the entire experiment. Cross-section images have been taken after the experiment was finished. The purpose of the top-view images is to track incremental displacement fields of the model surface in time, estimated by Particle Image Velocimetry (PIV) based on the digital images. The cross-section images serve to inspect the final internal deformation along vertical planes. The images are located in two folders; top-views contains the full range of top-view images as used in the PIV analysis, starting at the original undeformed state until the final deformed state at the end of the experiment. A sub-folder not used in PIV contains images from before the start and after the stop of the experiment, and that are not used in the accompanying manuscript. The folder cross-sections contains an overview image of the locations of all cross-sections taken (IMG 7243) and images of vertical model cross-sections. In total 13 cross-sections have been made, where the cross-section numbering starts from the north, and continues southward (see image IMG 7243). The cross-sections a-a’, b-b’ and c-c’ that are used in Broerse et al. (2020) correspond to numbers 2, 6 and 13, respectively. The cross- section images have been taken with a southward view, while in Broerse et al. (2020) we have mirrored the images to present a northward view on the cross-sections. All photographs are in .jpg format and their names are original generic names created by the camera software at the moment of acquisition. Contact person is Taco Broerse - D.B.T.Broerse@uu.nl

analogue modelling of geologic processes strain partitioning strike-slip indenter indenter geometry deformation transfer top-view photographs cross-section photographs EPOS multi-scale laboratories tectonic setting > plate margin setting > transform plate boundary setting tectonic setting > plate margin setting > active continental margin setting earth interior setting > crust setting > continental-crustal setting > collisional setting earth interior setting > crust setting > continental-crustal setting > upper continental crustal setting tectonic process > transform faulting tectonic process > orogenic process geological process deformation > shearing deformation > fracturing deformation > ductile flow thrust sheet/nappe/overthrust graben fracture fold-and-thrust belt wrench fault thrust fault normal fault fault > strike-slip fault fault > reverse fault fault > oblique slip fault slope and gravitational features tectonic and structural features natural geomorphologic feature mountaintop mountainslope mountain depression Sand > Quartz Sand Sandbox > Sandbox (cm scale) Electric engine (mm/hr) SLR Camera Generic camera Matlab (Mathworks) Digitial Image Correlation (DIC) / Particle Image Velocimetry (PIV) > Matlab code Digitial Image Correlation (DIC) / Particle Image Velocimetry (PIV) > PIVlab EARTH SCIENCE SERVICES > MODELS > GEOLOGIC/TECTONIC/PALEOCLIMATE MODELS SOLID EARTH > TECTONICS > PLATE TECTONICS > STRAIN SOLID EARTH > TECTONICS > PLATE TECTONICS > FAULT MOVEMENT > FAULT MOVEMENT DIRECTION SOLID EARTH > TECTONICS > PLATE TECTONICS > FAULT MOVEMENT > FAULT MOVEMENT RATE
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Metadata

Natural Sciences - Earth and related environmental sciences (1.5)
1.0
Basic
Netherlands Research Centre for Integrated Solid Earth Science (ISES)
ISES 2014-UU-13
https://doi.org/10.24416/UU01-LN58S4
2021-03-29T14:46:02.559135
2022-08-25T07:29:13.000000
Broerse, T., Krstekanic, N., Kasbergen, C., Willingshofer, E., 2020, Mappingand classifying large deformation from digital imagery: application to analogue models of lithosphere deformation.
IsSupplementTo: Current datapackage is supplement to
https://doi.org/10.1093/gji/ggab120
Davy, P., Cobbold, P.R., 1991, Experiments on shortening of a 4-layer model of the continental lithosphere, Tectonophysics 188, 1–25
References: Current datapackages references
https://doi.org/10.1016/0040-1951(91)90311-F
Hubbert, M.K., 1937, Theory of scale models as applied to the study of geologic structures, GSA Bulletin 48 (10), 1459–1520
References: Current datapackages references
https://doi.org/10.1130/GSAB-48-1459
Willingshofer, E. et al., 2018, Ring shear test data of feldspar sand and quartz sand used in the Tectonic Laboratory at Utrecht University for experimental Earth Science applications, GFZ Data services
References: Current datapackages references
https://doi.org/10.5880/fidgeo.2018.072
Broerse, Taco
ORCID: https://orcid.org/0000-0002-3235-0844
Utrecht University
Krstekanic, Nemanja
ORCID: https://orcid.org/0000-0002-2798-2003
Utrecht University, University of Belgrade
Willingshofer, Ernst
ORCID: https://orcid.org/0000-0002-9119-5557
Utrecht University
Broerse, Taco
ORCID: https://orcid.org/0000-0002-3235-0844
Utrecht University
Krstekanic, Nemanja
ORCID: https://orcid.org/0000-0002-2798-2003
Utrecht University, University of Belgrade
(Utrecht University, The Netherlands), TecLab - Tectonic Modelling Laboratory
Utrecht University
Kasbergen, Cor
ORCID: https://orcid.org/0000-0002-7076-2348
Delft University of Technology
Willingshofer, Ernst
ORCID: https://orcid.org/0000-0002-9119-5557
Utrecht University
Creative Commons Attribution 4.0 International Public License

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