Dyke-induced fault measurements and predicted dyke properties offshore NW Australia
Dataset title | Dyke-induced fault measurements and predicted dyke properties offshore NW Australia |
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Dataset creators | Craig Magee, University of Leeds Victoria Love, University of Leeds |
Dataset theme | Geoscientific Information |
Dataset abstract | Fault analyses used to estimate underlying dyke properties, imaged in 3D seismic reflection data. The seismic reflection data are located offshore NW Australia and image a series of Late Jurassic dykes and overlying dyke-induced normal faults; these structures occur within a sedimentary basin and are now buried beneath several kilometres of rock. The specific seismic reflection dataset used for this study so far is the Chandon 3D survey, which is freely available through https://www.ga.gov.au/nopims. Other 3D seismic surveys (e.g., Glencoe) near Chandon will be used in due course to extend the study area. Analyses of these faults uses an array of point pairs, defined by X, Y, and Z co-ordinates, that mark where certain sedimentary beds are intersected by the fault in its footwall and hanging wall. Mapping of these points every 125 m along each studied fault, for 11-14 sedimentary horizons, was conducted using Petrel seismic interpretation software. From the footwall and hanging wall point pairs, the throw, heave, displacement, and dip of each fault was calculated. By measuring distances between corresponding point pairs on opposing faults, graben width properties and estimated down-dip fault continuations were calculated. The expression of dyke-induced faults observed at the surface in active volcanic areas is often used to estimate dyke location, thickness (expected to roughly equal the heave on overlying faults), and upper tip depth (expected to occur where overlying, oppositely dipping faults meet; i.e. the point of the 'V'). This study represents the first time natural dyke-induced faults and underlying dykes have been imaged in 3D and quantitatively studied. The dataset presented here allows hypotheses concerning relationships between dyke-induced fault geometries and dyke properties to finally be tested, and provides insight into normal fault kinematics; this will be useful to structural geologists and volcanologists. |
Dataset content dates | 03/12/2018 - 03/12/2021 |
Dataset spatial coverage | Exmouth Plateau, offshore NW Australia |
Dataset supply format | csv, .pet, .ptd, .shp, .txt |
Dataset language | English-United Kingdom |
Dataset discovery metadata record | Discovery Link to the dataset's BGS Discovery Metadata record |
Dataset publisher | NERC EDS National Geoscience Data Centre |
Dataset publication date | 08/12/2021 |
Dataset digital object identifier(DOI) | 10.5285/f8c2c92a-450d-49e7-bfac-9317d2828e33 |
Dataset citation text | Magee, C., Love, V. (2021). Dyke-induced fault measurements and predicted dyke properties offshore NW Australia. NERC EDS National Geoscience Data Centre. (Dataset). https://doi.org/10.5285/f8c2c92a-450d-49e7-bfac-9317d2828e33 |
Constraints and terms of use | This data set is available under Open Government Licence, subject to the following acknowledgement accompanying any reproduced materials: "Contains data supplied by permission of the Natural Environment Research Council [YEAR]". |
Access the dataset | https://webapps.bgs.ac.uk/services/ngdc/accessions/index.html#item170389 |