Page 1 - Cipriano_Madonia_alii_2017
P. 1

GEOLOGICA CARPATHICA, FEBRUARY 2017, 68, 1, 80 – 93                         doi: 10.1515/geoca-2017-0007

                   Geomorphological evolution of western Sicily, Italy




                           CIPRIANO DI MAGGIO, GIULIANA MADONIA, MARCO VATTANO,
                                   VALERIO AGNESI and SALVATORE MONTELEONE


                   Università degli Studi di Palermo, Dipartimento di Scienze della Terra e del Mare, via Archirafi 22, 90123 Palermo, Italy;
             cipriano.dimaggio@unipa.it, giuliana.madonia@unipa.it, marco.vattano@unipa.it, valerio.agnesi@unipa.it, salvatore.monteleone@unipa.it

                               (Manuscript received February 24, 2016; accepted in revised form November 30, 2016)

                    Abstract: This paper proposes a morphoevolutionary model for western Sicily. Sicily is a chain–foredeep–foreland
                      system  still  being  built,  with  tectonic  activity  involving  uplift  which  tends to  create  new relief. To reconstruct  the
                      morphoevolutionary model, geological, and geomorphological studies were done on the basis of field survey and aerial
                    photographic interpretation. The collected data show large areas characterized by specific geological, geomorphological,
                    and topographical  settings with rocks, landforms, and landscapes progressively older from south to north Sicily.
                    The achieved  results display: (1) gradual emersion of new areas due to uplift, its interaction  with the Quaternary
                      glacio-eustatic oscillations of the sea level, and the following production of a flight of stair-steps of uplifted marine
                      terraces in southern Sicily, which migrates progressively upward and inwards; in response to the uplift (2) triggering of
                    down-cutting processes that gradually dismantle the oldest terraces; (3) competition between uplift and down-cutting
                    processes, which is responsible for the genesis of river valleys and isolated rounded hills in central Sicily; (4) continuous
                    deepening over time that results in the exhumation of older and more resistant rocks in northern Sicily, where the higher
                    heights of Sicily are realized and the older forms are retained; (5) extensional tectonic event in the northern end of Sicily,
                    that produces the collapse of large blocks drowned in the Tyrrhenian Sea and sealed by coastal-marine deposits during
                    the Calabrian stage; (6) trigger of uplift again in the previously subsiding blocks and its interaction with coastal processes
                    and sea level fluctuations, which produce successions of marine terraces during the Middle–Upper Pleistocene stages.
                    Keywords: Sicily, geomorphological evolution,  Quaternary, uplift,  extensional tectonics,  down-cutting  processes,
                      differential erosion.


                              Introduction                    transpressive deformation occurred, and extension took place
                                                              in the Tyrrhenian Sea as the shortening and thrusting in the
            Sicily is located on the Pelagian promontory of the African   arcuate  Apennines–Sicily,  east-  and  southward-directed
            plate and is formed by the Iblean foreland, the Gela foredeep,     orogens.  The extensional  deformation  propagates  towards
            the  thick  Sicilian  orogen, and the thick-skinned  Calabrian–  the  SE associated with the  fast retreat  and roll-back  of the
            Peloritani wedge (Fig. 1).                        NW-dipping subduction of the Adria–Ionian plate underneath
              Previous geological studies have shown that the fold and   Calabria  (Malinverno  &  Ryan  1986;  Doglioni  et  al.  1999;
            thrust belt of Sicily was formed in the context of the complex   Pepe et al. 2005; Carminati & Doglioni 2012 and references
            roll-back of the African–Pelagian slab that was associated first   therein).
            with the counter-clockwise rotation of Corsica and Sardinia   According to the plate tectonic setting, the topography and
            and the subsequent clockwise  rotation  of the Calabria–   geomorphology of Sicily is the result of constructive  (tec-
            Peloritani–Kabylian  units, during the late Neogene (e.g.,   tonic) and destructive (erosional) forces following the colli-
            Rosenbaum et al. 2002; Carminati et al. 2012; Catalano et al.   sion between the African and European plates, that produced,
            2013; Vitale & Ciarcia 2013). Various Authors have described   among other things, the Sicilian Mountains.
            the ages of the orogenic construction of the Sicilian  chain   Previous  geomorphological  studies  have  been  performed
            (e.g., Avellone et al. 2010; Catalano et al. 2013 and references   since the first half of last century (e.g., Cipolla 1933) and have
            therein) within the framework of the evolution of the Apennine   undergone a boost in recent decades. They deal with the recon-
            orogen (e.g., Ciarcia et al. 2009; Ascione et al. 2012;  Ciarcia   struction of the geomorphology of small areas (e.g., Mauz et
            & Vitale 2013). From the upper Oligocene, the orogenic con-  al. 1997; Di Maggio et al. 1999) or specific thematic studies
            struction started with the accretion of the Calabria-Peloritani   (e.g., Ferrarese et al. 2003; Di Maggio et al. 2012, 2014;
            wedge, and the deposition of flysch (e.g., Numidian flysch) in   Madonia et al. 2013;  Vattano  et al. 2013; De  Waele  et al.
            foreland basins. During the Early–Middle Miocene the defor-  2016).
            mation of the internal zone occurred, with a first tectonic event   Hugonie (1982) carried out studies on a regional scale and
            characterized by shallow seated thrusting; at the same time,   proposed a morphoevolutionary  model  for northern  Sicily,
            the first wedge-top basins developed. From the Late Miocene,   emphasizing the role of both structure and climate. Hugonie
            a second tectonic  event characterized  by deep-seated   (1982)  imputed  to  the  Plio–Quaternary  tectonic  phase,  the

                                                                                        www.geologicacarpathica.com
   1   2   3   4   5   6