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Metadata Files

Data Publication

Top-view and cross-section photographs from analogue experiments of strain partitioning around a rigid indenter performed in the Tectonic modelling laboratory (TecLab) at Utrecht University

Krstekanić, Nemanja | Willingshofer, Ernst

YoDa Data Repository, Utrecht University, Netherlands

(2020)

This dataset contains original top-view and cross-section photographs of 12 crustal-scale analogue models. Top-view photographs were taken in regular time intervals from the beginning until the end of each experiment (for details see below). Cross-section photographs were taken at the end of each experiment. Therefore, top-view photographs provide means to track and analyse surface deformation through time and space and cross-sections allow to demonstrate overall vertical deformation of each model. The data are grouped in 12 folders that contain the data for the individual models (model1 to model12). The numbering of the folders corresponds to the model numbers as described in Krstekanić et al. (2020, in prep.). Each folder contains two sub-folders named m#-cross-sections and m#-top-views where m stands for the model and # for the number of the model (i.e., the same number as the parent folder). The m#-cross-sections sub-folder contains one top-view photograph indicating the locations of the cross-sections as well as the pertinent cross-section photographs. A number in each cross-section photograph corresponds to the number next to the cross-section location in the top-view. The m#-top-views sub-folder contains all top-view photographs of that particular model, from its initial, undeformed state to the end of the experiment. All photographs are in .jpg format and their names are original generic names created by the camera software at the moment of acquisition. The data is provided in 12 subfolders for 12 models. Detailed information about the files in these subfolders as well as information on how the data is processed is given in the explanatory file krstekanic-et-al-2020-data-documentation.docx. Contact person is Nemanja Krstekanić - PhD Candidate - n.krstekanic@uu.nl - https://www.uu.nl/staff/nkrstekanic

Keywords


Originally assigned keywords
Natural Sciences Earth and related environmental sciences 15
analogue modelling of geologic processes
strain partitioning
strikeslip
indenter
indenter geometry
Cerna and Timok Faults system
Moesian Platform
deformation transfer
topview photographs
crosssection photographs
Serbian Carpathians
EPOS
multiscale laboratories
transform plate boundary setting
active continental margin setting
collisional setting
upper continental crustal setting
transform faulting
orogenic process
geological process
shearing
fracturing
ductile flow
thrust sheetnappeoverthrust
graben
fracture
foldandthrust belt
wrench fault
thrust fault
normal fault
strikeslip fault
reverse fault
oblique slip fault
slope and gravitational features
tectonic and structural features
natural geomorphologic feature
mountaintop
mountainslope
mountain
depression
Quartz Sand
SilliconSilly puttyPDMS
Iron Powder
Sandbox cm scale
Electric engine mmhr
SLR Camera
Generic camera
Matlab Mathworks
Matlab code
PIVlab
Friction coefficient
Viscocity
Grain size distribution
Density
GEOLOGICTECTONICPALEOCLIMATE MODELS
STRAIN
FAULT MOVEMENT DIRECTION
FAULT MOVEMENT RATE

Corresponding MSL vocabulary keywords
strain partitioning
transcurrent tectonic plate boundary
ocean-continent subduction
continental collision
upper crust
ductile deformation
graben
modelled fracture
fold-and-thrust belt
wrench fault
thrust fault
normal fault
strike-slip fault
reverse fault
oblique-slip fault
geomorphic evolution
mountain
iron powder
camera
Matlab (Mathworks)
friction coefficient
frictional deformation
friction coefficient
grain size distribution
grain size distribution
grain size distribution
strain
strain

MSL enriched keywords
Measured property
strain
strain partitioning
tectonic plate boundary
transcurrent tectonic plate boundary
convergent tectonic plate boundary
subduction
ocean-continent subduction
continental collision
Earth's structure
Earth crust
upper crust
Inferred deformation behavior
deformation behaviour
ductile deformation
Modeled geomorphological feature
tectonic landforms
graben
Modeled structure
modelled deformation structure
modelled fracture
fold-and-thrust belt
tectonic deformation structure
tectonic fault
wrench fault
thrust fault
normal fault
strike-slip fault
reverse fault
oblique-slip fault
Measured property
geomorphic evolution
mountain and glacial landforms
mountain
analogue modelling material
granular modelling material
metalic powders
iron powder
Ancillary equipment
model surface monitoring (2D)
camera
Software
Matlab (Mathworks)
friction - controlled slip rate
friction coefficient
frictional deformation
friction - controlled slip rate
friction coefficient
grain size distribution
grain size distribution
Analyzed feature
grain size and configuration
grain size
grain size distribution
strain

MSL original sub domains

analogue modelling of geologic processes

MSL enriched sub domains i

analogue modelling of geologic processes
rock and melt physics
microscopy and tomography

Source

http://dx.doi.org/10.24416/UU01-8TX6RL

Source publisher

YoDa Data Repository, Utrecht University, Netherlands


DOI

10.24416/UU01-8TX6RL


Authors

Krstekanić, Nemanja

0000-0002-2798-2003

Utrecht University; University of Belgrade;

Willingshofer, Ernst

0000-0002-9119-5557

Utrecht University;


Contributers

Krstekanić, Nemanja

Researcher

0000-0002-2798-2003

Utrecht University; University of Belgrade;

Krstekanić, Nemanja

ContactPerson

0000-0002-2798-2003

Utrecht University; University of Belgrade;

Willingshofer, Ernst

Supervisor

0000-0002-9119-5557

Utrecht University;

Broerse, Taco

Researcher

0000-0002-3235-0844

Utrecht University;

Matenco, Liviu

Supervisor

0000-0001-7448-6929

Utrecht University;

Toljić, Marinko

Supervisor

0000-0002-0231-9969

University of Belgrade;

Stojadinovic, Uros

Researcher

0000-0002-4420-2988

University of Belgrade;

TecLab - Tectonic Modelling Laboratory (Utrecht University, The Netherlands)

HostingInstitution

Utrecht University;


References

Davy, Ph., & Cobbold, P. R. (1991). Experiments on shortening of a 4-layer model of the continental lithosphere. Tectonophysics, 188(1–2), 1–25. https://doi.org/10.1016/0040-1951(91)90311-f

10.1016/0040-1951(91)90311-F

References

HUBBERT, M. K. (1937). Theory of scale models as applied to the study of geologic structures. Geological Society of America Bulletin, 48(10), 1459–1520. https://doi.org/10.1130/gsab-48-1459

10.1130/GSAB-48-1459

References

References

http://dx.doi.org/10.5334/jors.bl

References

Weijermars, R., & Schmeling, H. (1986). Scaling of Newtonian and non-Newtonian fluid dynamics without inertia for quantitative modelling of rock flow due to gravity (including the concept of rheological similarity). Physics of the Earth and Planetary Interiors, 43(4), 316–330. https://doi.org/10.1016/0031-9201(86)90021-x

10.1016/0031-9201(86)90021-X

References

Willingshofer, E., Sokoutis, D., Beekman, F., Schönebeck, J.-M., Warsitzka, M., &amp; Rosenau, M. (2018). <i>Ring shear test data of feldspar sand and quartz sand used in the Tectonic Laboratory (TecLab) at Utrecht University for experimental Earth Science applications</i> [Data set]. GFZ Data Services. https://doi.org/10.5880/FIDGEO.2018.072

10.5880/fidgeo.2018.072

References


Contact

TecLab - Tectonic Modelling Laboratory (Utrecht University, The Netherlands)

Utrecht University;


Citiation

Krstekanić, N., & Willingshofer, E. (2020). Top-view and cross-section photographs from analogue experiments of strain partitioning around a rigid indenter performed in the Tectonic modelling laboratory (TecLab) at Utrecht University. Utrecht University. https://doi.org/10.24416/UU01-8TX6RL


Collection Period

2018-08-23 - 2019-09-18


Geo location(s)

Serbian Carpathians