Definition of a fault permeability predictor from outcrop studies of a faulted turbidite sequence, Taranaki, New Zealand-Reference-Cited by-同舟云学术

Definition of a fault permeability predictor from outcrop studies of a faulted turbidite sequence, Taranaki, New Zealand

Published:2007 Issue:1 Volume:292 Page:235-258
ISSN:0305-8719
Container-title:Geological Society, London, Special Publications
language:en
Short-container-title:Geological Society, London, Special Publications

Author:

Childs C.¹,Walsh J. J.¹,Manzocchi T.¹,Strand J.¹²,Nicol A.³,Tomasso M.⁴⁵,Schöpfer M. P. J.¹,Aplin A. C.⁶

Affiliation:

1. Fault Analysis Group, School of Geological Sciences, University College Dublin, Belfield, Dublin 4, Ireland (e-mail: conrad@fag.ucd.ie)

2. CSIRO Petroleum, P.O. Box 1130, Bentley, WA 6102, Australia

3. GNS Science, P.O. Box 30368, Lower Hutt, New Zealand

4. Marine and Petroleum Geology Group, School of Geological Sciences, University College Dublin, Belfield, Dublin 4, Ireland

5. Present address: Bureau of Economic Geology, The University of Texas at Austin, University Station, Box X, Austin, Texsas 78713-8924, USA

6. School of Civil Engineering and Geosciences, School Office: Cassie Building, University of Newcastle upon Tyne NE1 7RU, UK

Abstract

AbstractPost-depositional normal faults within the turbidite sequence of the Late Miocene Mount Messenger Formation of the Taranaki Basin, New Zealand are characterized by granulation and cataclasis of sands and by the smearing of clay beds. Clay smears maintain continuity for high ratios of fault throw to clay source bed thickness (c. 8), but are highly variable in thickness, and gaps occur at any point between the clay source bed cut-offs at higher ratios. Although cataclastic fault rock permeabilities may be appreciably lower (c. two orders of magnitude) than host rock sandstone permeabilities, the occurrence of continuous clay smears, combined with low clay permeabilities (10s to 100s nD) means that the primary control on fault rock permeability is clay smear continuity. A new permeability predictor, the Probabilistic Shale Smear Factor (PSSF), is developed which incorporates the main characteristics of clay smearing from the Taranaki Basin. The PSSF method calculates fault permeabilities from a simple model of multiple clay smears within fault zones, predicting a more heterogeneous and realistic fault rock structure than other approaches (e.g. Shale Gouge Ratio, SGR). Nevertheless, its averaging effects at higher ratios of fault throw to bed thickness provide a rationale for the application of other fault rock mixing models, e.g. SGR, at appropriate scales.

Publisher

Geological Society of London

Subject

Geology,Ocean Engineering,Water Science and Technology

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