3D characterization of fracture systems using Terrestrial Laser Scanning: an example from the Lewisian basement of NW Scotland

Pless, J.C.; McCaffrey, K.J.W.; Jones, R.R.; Holdsworth, R.E.; Conway, A.; Krabbendam, M.

doi:10.1144/sp421.14

3D characterization of fracture systems using Terrestrial Laser Scanning: an example from the Lewisian basement of NW Scotland

Pless, J.C.; McCaffrey, K.J.W.; Jones, R.R.; Holdsworth, R.E.; Conway, A.; Krabbendam, M.

Authors

J.C. Pless

Professor Kenneth Mccaffrey k.j.w.mccaffrey@durham.ac.uk
Professor

Professor Richard Jones r.r.jones@durham.ac.uk
Academic Visitor

Professor Bob Holdsworth r.e.holdsworth@durham.ac.uk
Professor

A. Conway

M. Krabbendam

Contributors

F.J. Richards
Editor

N.J. Richardson
Editor

S.J. Rippington
Editor

R.W. Wilson
Editor

C.E. Bond
Editor

Abstract

Fractured gneiss lithologies form a basement-cored high, the Rona Ridge in the Faroe–Shetland Basin. Basement structures are known to play an important role in the petroleum system for the overlying giant Clair Field. An onshore analogue exposure in the Lewisian Gneiss Complex at Kinlochbervie in NW Scotland provides an example of a hanging-wall damage zone of a large basement-hosted normal fault. In this study, we used remote sensing (2D), outcrop line sample methods (1D) and a virtual outcrop created by terrestrial laser scanning methods (3D) to characterize spatial variations of the fracture systems. Spacing distributions from 1D line samples collected from exposures and pseudo-wells constructed through the virtual outcrop show power-law distributions. The virtual outcrop data enable us to extend the scale-invariant description from 1 to 3 orders of magnitude. We developed a novel box-counting workflow to provide an assessment of 2- and 3D variations in the fracture properties. Fracture density and fractal dimension are elevated whereas the number of intersections is decreased within a 220 m-wide volume adjacent to the fault. We discuss how the methods and results from this study can aid the development of analogue for basement reservoirs in the offshore UK continental shelf.

Citation

Pless, J., McCaffrey, K., Jones, R., Holdsworth, R., Conway, A., & Krabbendam, M. (2015). 3D characterization of fracture systems using Terrestrial Laser Scanning: an example from the Lewisian basement of NW Scotland. In F. Richards, N. Richardson, S. Rippington, R. Wilson, & C. Bond (Eds.), Industrial structural geology : principles, techniques and integration (125-141). The Geological Society. https://doi.org/10.1144/sp421.14

Acceptance Date	May 29, 2015
Publication Date	Nov 30, 2015
Deposit Date	Jul 6, 2015
Publicly Available Date	Jul 15, 2015
Publisher	The Geological Society
Pages	125-141
Series Title	Geological Society special publication
Book Title	Industrial structural geology : principles, techniques and integration.
DOI	https://doi.org/10.1144/sp421.14
Publisher URL	https://www.geolsoc.org.uk/SP421
Additional Information	Series: Geological Society special publication.

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Copyright Statement
Geological Society, London, Special Publications, 421, 125–141. First published online August 5, 2015, http://dx.doi.org/10.1144/SP421.14 © 2015 The Author(s). Published by The Geological Society of London