Class 6: Discussion Note

Volcanoes

Italian Volcanoes

  • Etna
    • Location: Sicily
    • Diameter: 35 km; Elevation: 3,295 m
    • Eruptive style: primarily Strombolian
    • Active today; continuously since classical times
      • Catania almost destroyed in 1669
    • Deposits
      • Trachybasalt (high alkali basalts)
      • Trachyandesite
  • Stromboli
    • Location: Aeolian Islands north of Sicily
    • Diameter: 3.5 km; Elevation: ~ 1,000 m
    • Eruptive style: Strombolian
    • Active today; continuously since classical times
      • Started 200,000 years ago
      • “Lighthouse of the Mediterranean”
    • Deposits
      • K-rich basalts
      • Basaltic andesite
  • Vesuvius
    • Location: ~ 9 km east of Naples
    • Diameter: 6 m; Elevation: 1,281 m
    • Stratovolcano in Campanian volcanic arc
    • Eruptive style: Plinean (explosive!) and Strombolian
    • Deposits: lava pyroclastic flows, ash, pumice
    • Notable eruption in 79 AD destroyed Pompei and Herculaneum
    • Last major eruption: 1944, eruptive more than 50 times
  • Phlegraean Fields
    • Location: West of Naples
    • Diameter: 15 km; Elevation: 458 m (maximum)
    • Large caldera with smaller calderas and small volcanoes
    • Eruptive style: varied in its history
      • Originally Plinean (explosive): Capannina Ignimbrite
      • 1538 Mt Nuova (“New Mountain”): cinder cone
    • Deposits: ash-flows, tuffs, pyroclastic deposits, K-basalt, alkali-trachyte, phonolite
    • “Brayseism”: vertical ground motions
      • Documented since classical times
      • Still going on today

Auvergne and related issues

  • Various features
    • North-south line of “puys” volcanic cones
    • Flows into adjacent valleys (lying to east or west)
    • Stratovolcanoes to south
  • Three interpretive questions for geognosts
    • Origin of Magmas
      • Observe: volcanic cone sitting atop granite plateau
      • No coal available, so infer magma underlying granite
      • Implies heat at depth
    • Origin of Basalts
      • Field relations allow (relatively recent) basalt beds to be traced to volcanic cones
      • Basalts underlain by “baked” soils
      • Infer origin as lava flows
    • Erosion and Modification of deposits
      • Cones show a sequence of morphologies
        • Largely intact cinder cones
        • Eroded, breached cones with loose scoria removed
        • Remnant bases; craters largely eroded
      • Flows also change
        • Well-preserved flow with little erosion; traceable to intact cones
        • Flows not connected to cones; upper surfaces eroded
        • Remnants form flat, isolated plateaus
  • Two major insights
    • If Auvergne basalt are igneous, traditional geognost interpretation of volcanics (due to burning coal) not correct.
      • Modification of interpretive model
    • Erosion of cones and flows suggest long history that can be subdivided using the field relations and relative implied timing
      • Insight into subdividing “recent” earth history in detail