• Title of article

    Transverse systems along the extensional Tyrrhenian margin of central Italy and their influence on volcanism

  • Author/Authors

    Acocella، Valerio نويسنده , , Funiciellol، Renato نويسنده ,

  • Issue Information
    دوماهنامه با شماره پیاپی سال 1997
  • Pages
    -2002
  • From page
    2003
  • To page
    0
  • Abstract
    The Tyrrhenian margin of central Italy has undergone Plio-Quaternary extension, developing NW-SE normal faults and NE-SW faults. The NE-SW faults decrease in frequency toward NE with the stretching factor (beta), becoming negligible for (beta) < 1.3. Plio-Quaternary volcanoes, aligned NW-SE, formed at the intersection among NE-SW and NW-SE faults; fissure eruptions are mostly controlled by NE-SW faults. Structural field data show normal motions for 76% of NW-SE Quatemary faults and transtensive for 73% of NE-SW Quaternary faults. Analogue experiments simulating the NE-SW Tyrrhenian extension show that transverse transtensive faults form with differential extension (delta)(beta) > 0.21. These data suggest that the NE-SW transtensive structures are transfer faults of the NW-SE normal faults due to relevant differential extension ((delta)(beta) > 0.21) within a stretched crust ((beta) > 1.3). The minor dipslip and strike-slip components of the NE-SW and NW-SE faults, respectively, possibly result from the NW-SE extension due to the southeastward slab retreat beneath the Calabrian arc. The NE-SW and NW-SE extensions in the central southern Tyrrhenian Sca account for the composite kinematics of the NE-SW structures, which, in turn, exert a twofold role in controlling volcanism. Where their dip-slip component forms basins, the associated decompression induces magma accumulation (developing central volcanoes) at the intersection among NW-SE and NE-SW systems. Where transfer faults are mainly strike slip, their inferred subvertical attitude enhances their permeability to magma, accounting for the observed NE-SW fissure eruptions. Regional extension, forming NW-SE faults, enhances the overall generation and rise of magma along the margin, but NE-SW structures focus magma rise and emplacement at shallower levels.
  • Keywords
    gravity modeling , Lithoprobe , crustal structure. , Archean , Superior Province
  • Journal title
    Tectonics
  • Serial Year
    1997
  • Journal title
    Tectonics
  • Record number

    117196