Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
4734370 | Journal of Structural Geology | 2008 | 12 Pages |
Abstract
Compaction models of normal growth faults, combined with displacement data from a natural growth fault (Cape Egmont Fault, New Zealand), are used to quantify the loss of displacement arising from compaction, in circumstances where growth faults are blanketed and buried by compacting sediment in both footwall and hangingwall. Comparison of imposed tectonic displacements with the preserved displacements indicates that although the thicknesses of sand/shale sequences may decrease by up to c. 55% due to compaction, associated losses in displacement on growth faults are typically <20% because they displace partially compacted sediments. The importance of displacement loss generally increases with increases in the depth range over which fault displacements migrate along the compaction curves and in the percentage shale of the faulted sequence. Displacement loss due to compaction is relatively small (70%) and post-faulting burial is large (i.e. km-scale).
Keywords
Related Topics
Physical Sciences and Engineering
Earth and Planetary Sciences
Geology
Authors
Susanna K. Taylor, Andrew Nicol, John J. Walsh,