Lithofacies and faunal succession (faunal phase analysis) as a tool in unravelling climatic and tectonic signals in marginal basins; Messinian (Miocene), Sicily

doi:10.1144/gsjgs.156.4.0855

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Journal of the Geological Society; 1999; v. 156; issue.4; p. 855-863;
DOI: 10.1144/gsjgs.156.4.0855
© 1999 Geological Society of London

Article

Lithofacies and faunal succession (faunal phase analysis) as a tool in unravelling climatic and tectonic signals in marginal basins; Messinian (Miocene), Sicily

MARTYN PEDLEY¹ & ROSANNA MANISCALCO²

¹ Department of Geology (Leicester), and Research Institute of Environmental Science and Management, University of Hull, Hull HU6 7RX, UK (e-mail: H.M.Pedley{at}geo.hull.ac.uk)
² Istituto di Geologia e Geofisica, Universita di Catania, Corso Italia 55, 95129 Catania, Italy

Many basins are filled under the influence of tectonics andvariable climatically driven processes. Unravelling the relativecontributions of these is generally easier in fossiliferoussequences if faunal diversity patterns are considered in conjunctionwith lithofacies analysis. This approach has been successfullyapplied to Late Miocene strata of Sicily, where progressiverestriction and desiccation within the Sicilian Caltanissettaregion occurred under a semi-arid climate during the MessinianStage. This restriction was partly due to Antarctic coolingwhich produced Palaeo-Mediterranean sea-level oscillations duringthe Early Messinian, as a prelude to closure of the Atlanticconnections. In addition, regions within this Afro-Europeanplate collision zone were also subjected to syndepositionaltectonic deformation associated with progressive perched basindevelopment above foreland (south) verging thrust sheets. Therelative impacts of climatic (eustatic) versus tectonic controlon sedimentation patterns within these perched basins has beendebated at length. However, progress towards resolving thisproblem by a combined approach involving lithofacies analysis,and faunal phase analysis provides clues for separating theeffects of the controlling factors. Faunal phase analysis identifiesgeneral faunal associations with minimal emphasis on speciesdiversity. The resulting ‘phase’ plots for EarlyMessinian strata appear to be transgression skewed when controlledby eustatic cyclicity, and regression skewed when driven byregional tectonics associated with perched basin tectonics.

Key Words: Messinian • Sicily • faunal phase analysis • tectonics • eustasy

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