Using high-resolution stratigraphy to date fold and thrust activity: examples from the Neogene of south-central Sicily

doi:10.1144/gsjgs.154.4.0633

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Journal of the Geological Society; 1997; v. 154; issue.4; p. 633-643;
DOI: 10.1144/gsjgs.154.4.0633
© 1997 Geological Society of London

Article

Using high-resolution stratigraphy to date fold and thrust activity: examples from the Neogene of south-central Sicily

R. W. H. BUTLER¹ & W. H. LICKORISH²

¹ Department of Earth Sciences, The University of Leeds, Leeds LS2 9JT, UK (e-mail: butler{at}earth.leeds.ac.uk)
² Geologisches Institut, ETH-Zentrum, Zurich, Switzerland

The integration of structural and stratigraphic data is fundamentalfor determining rates of deformation in the uppermost continentalcrust. The high temporal resolution provided by Neogene marinesediments is used here to examine deformation rates in partof a thrust belt chosen from the Maghrebian orogen of Sicily.Conventional biozonal stratigraphy, calibrated against the geomagneticpolarity time scale, shows that individual thrust-fold structuresgrew steadily over many millions of years. Structures acrossthe thrust belt were active at the same time and accommodatedbulk shortening rates of c. 0.5 mm a^-1. In contrast the basaldetachment operated about ten times faster. These results arein broad agreement with some theoretical models for orogenicwedge kinematics. Shore-line carbonate successions, calibratedwith precession cycles of sea-level change, provide a very high-resolution,temporal scale with which to chart tilt rates on fold limbs(1°/27.6 ka = 0.036° ka^-1). These show that fold amplificationwas continuous although the rates may have varied with time.Incremental tilting of limbs during fold amplification is notpredicted by popular models of fault-bend and 'fault-propagation'folding. Geometric modelling suggests that folding occurredby limb rotation, with minor hinge migration during bucklingabove buried thrusts. Thus stratigraphic data may be used toexamine the kinematic evolution of thrust-fold systems alongregional cross-sections, and of local structures. However, thetypes of structural models that can be tested using estimatesof deformation rates depend upon the chrono-stratigraphic resolutionavailable for the syn-tectonic sediments.

Keywords: Sicily, Italy, Neogene, thrust faults, folds, deformation rates.

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