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VOLCANOES AND VOLCANIC ERUPTIONS (Chapter 6)

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Title: VOLCANOES AND VOLCANIC ERUPTIONS (Chapter 6)


1
VOLCANOES AND VOLCANIC ERUPTIONS(Chapter 6)
2
A volcano produces
  1. Lava flow (molten rock)
  2. Pyroclastic debris (solid chunks of rocks and
    ash)
  3. Volcanic gas and AEROSOLS (when volcanic gases
    condense to form tiny liquid droplets)

3
Ash, gas and aerosols combine to form the smoke
above a volcano
  • Volcanic behavior depends on
  • VISCOSITY ("stickiness") of the magma
  • GAS CONTENT
  • TEMPERATURE

4
More viscous (less fluid) magmas cause more
explosive eruptions (Text page 176, table 6.2)
Gases cannot easily escape from viscous magmas
High pressure
Explosive eruptions
5
Viscosity of magma depends on
  • Composition of the magma (how much silica it
    contains)
  • This is the major factor that controls viscosity
    and explosivity of volcanoes
  • Temperature (Hotter magmas are more fluid)

6
  • Volcanoes along mid-ocean ridges (e.g. Iceland)
    and hot spots (e.g. Hawaii) produce BASALTIC
    magma (pages 179-180)
  • Basaltic magma is less viscous (low silica
    content, 50) and least dangerous
  • It usually forms shield volcanoes (table 6.2)

7
  • When Basaltic magma rises through continental
    crust, it melts the crustal rocks and form FELSIC
    (or rhyolitic) magma (silica gt70)
  • Felsic magma is highly viscous and usually forms
    volcanic domes (table 6.2)
  • This type of magma causes highly explosive
    eruptions

8
  • Mixing of felsic and Basaltic magma, as well as
    melting of ocean sediments produces intermediate
    magma (ANDESITE, silica 55)
  • Intermediate magma is most common in subduction
    zones and form composite volcanoes (or
    stratovolcanoes, table 6.2)
  • Intermediate magma is highly explosive

9
IMPACTS OF VOLCANIC ERUPTIONS
  • Lava flows (Page 185)
  • Non-explosive, gentle eruptions
  • Will burn anything on its path
  • Is possible to control/divert lava flows (page
    186)

10
  • Pyroclastic flows (Page 186)
  • Mixture of HOT, mostly poisonous gases, ash and
    rocks
  • Can travel at speeds of 100-300 kmph (60-90 mph)
  • Can cover a large area in a very short time
  • Causes instant death on contact, flatten
    buildings and forests (e.g. Mt. St. Helens)

11
  • Ash falls (Page 187)
  • Hot burning ash is fatal close to the volcano
    (e.g. Pompeii)
  • Windborne ash can cause respiratory problems,
    bury crops and spread toxic chemicals over large
    areas
  • Hazard to airplanes
  • Ash, dust and aerosols in the stratosphere can
    cause global cooling (similar to nuclear winter)

12
  • Gases (pages 188-189)
  • Toxic sulfurous gases are harmful
  • Carbon dioxide can cause suffocation (e.g. Lake
    Nyos, Cameroon, West Africa, Fig. 6.22)
  • Water vapor from volcanic eruptions started the
    hydrologic cycle on the earth

13
  • SECONDARY IMPACTS
  • Landslides and lahars (page 190)
  • Earthquakes
  • Tsunamis

14
WHY DO PEOPLE STILL LIKE TO LIVE NEAR VOLCANOES?
  • Nutrient-rich soil
  • View (Travel and tourism, outdoor activities)
  • Geothermal energy
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