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Volcanic Environments

Volcanic Environments. Volcanic environments are one of the Earth’s most spectacular natural events. Hot molten material from inside the Earth explodes onto the surface and into the atmosphere. It can destroy and build up at the same time. .

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Volcanic Environments

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  1. Volcanic Environments

  2. Volcanic environments are one of the Earth’s most spectacular natural events. Hot molten material from inside the Earth explodes onto the surface and into the atmosphere. It can destroy and build up at the same time. Molten: metal or rock that is in liquid from due to great heat.

  3. Magma: the hot molten rock beneath the surface of the earth. Volcanos form when magma is pushed through an opening in the Earth’s crust. This material often builds up into a cone-shaped mountain as the lava cools. Lava: the molten material that flows out from a volcano.

  4. Volcano Categories • Active Volcanoes: currently erupting or likely to erupt in the future. Active volcanoes have erupted in the last few hundred years. • Dormant Volcanoes: currently inactive but may erupt in the future. These volcanoes have not erupted for up to 10,000 years. • Extinct Volcanoes: unlike to erupt again. These volcanoes have not erupted for more than 10,000 years.

  5. There are about 1300 active volcanoes on land as well as many undersea volcanoes. Australia has no active volcanoes. Mt. Kilauea, Hawaii (Key-Low-Way-Ah)

  6. Mount Etna, Italy

  7. Mount Fuji, Japan last erupted 1708

  8. Underwater volcano, off the coast of Indonesia

  9. Dormant Volcano: Blue Lake, Mount Gambier ; last eruption 4,500 years ago

  10. Extinct: Mount Macedon

  11. Structure of the Earth

  12. Layers of the Earth

  13. Layers of the Earth: Core The core is the central layer of the Earth. It is made up of the inner core and outer core. The inner core is believed to be solid due to the surrounding pressure. The outer core is liquid made up mainly of iron.

  14. Layers of the Earth: Mantle The largest layer of the Earth is the mantle. It makes up about 80% of the Earths volume. The upper mantle provides the magma for volcanoes. The Earth’s core pushes molten rock up towards the surface. As it cools it sinks back down. This movement causes convection currents.

  15. Asthenosphere • The asthenosphere is the zone beneath the relatively rigid lithosphere (top of the Mantle) where the fluid molten rock has maximum plasticity (easily moulded) or flowing ability. • The asthenosphere is the main source of magma for Earth’s volcanoes.

  16. Layers of the Earth: Crust The crust extends as far as down as 50km (possibly 70 km depending on reference) the average thickness of the crust is between 30-40km under the continents. Under the oceanic plates it can be as little as 6 km thick. The crust floats on the soft mantle underneath. The crust is broken into a mosaic of plates, that can move past or bump into each other.

  17. How is an egg similar to the Earth?

  18. Tectonic: from the Latin for building. A tectonic plate is a massive slow moving piece of the Earth’s surface. Plate Tectonics The Earth is moving

  19. Plate Tectonic Key Ideas • The Earth’s surface is covered with several tectonic plates. • The ocean floors are always moving; in a repeating process of new material rising from the centre and old material falling at the edges. • The plate move in different directions due to the convection current underneath them. • The convection currents get their energy from radioactive sources within the mantle of the Earth

  20. The lithospheric plates float like rafts on the deeper, molten layer of mantle. • Movement is due to convection currents. These currents redistribute the huge amounts of heat generated by the formation of the planet and natural radioactive decay. • The movement of the convection currents is very slow, measuring only millimetres per year.

  21. Converging Boundary: Continental- Continental Convergent boundaries – where plates collide into each other one plate is destroyed as it subducts under the other.

  22. Converging Boundary: Continental- Oceanic (a) & Oceanic- Oceanic (b) Subductionis a process in which the edge of a lithospheric plate slides underneath the edge of an adjacent plate.

  23. Diverging Boundary: Continental- Continental Divergent boundaries- where adjacent plate move away from each other as new oceanic lithosphere is created.

  24. Diverging Boundary: Oceanic- Oceanic One of the best known divergent boundaries is the Mid-Atlantic Ridge, which spreads apart at a rate of about 2.5 cm per year.

  25. Computer-generated detailed topographic map of a segment of the Mid-Oceanic Ridge. "Warm" colours (yellow to red) indicate the ridge rising above the seafloor, and the "cool" colours (green to blue) represent lower elevations.

  26. Transform Boundary Transform boundaries- where the plates slide past each other, neither creating nor destroying the plates. Most transform boundaries are oceanic but the rare example is the San Andreas fault in California on land.

  27. Hotspots • Hotspots are relatively hotter zones of the mantle that rise up through the lithosphere to form volcanoes. • As the plate moves the old volcano becomes extinct. The hotspot creates a younger volcano. Forms a chain like Hawaii

  28. Factors affecting types of volcanic activity

  29. Type of eruption Central vent eruption Fissure eruption Reading: Geography Environments, page 35

  30. Volcanic Material Rock in liquid form Broken solid fragments Pyroclastic rocks Lava Pahoehoe (ropey appearance) Aa (thick rocky solidified lava).

  31. Lava viscosity Viscosity is the ‘thickness’ of a fluid, the ability to resist flow. Water is low viscosity, honey is high viscosity. The higher the lava viscosity the more explosive the eruption. • High viscosity lava usually involves basaltic lava. • Lower viscosity lava usually involves granitic magma.

  32. Types of volcanic material • Tephra (Greek for ash) is the material exploded into the atmosphere-hot ash, rocks and lumps of semi-solidified lava from the volcano. This may aerially bombard human settlements and cause loss of life or property damage.

  33. Tephra • Tephra is classified by size. Ranging in size from dust particles to much larger lava bombs and blocks. • Pumice is classified as tephra as it is a rock the cools quickly in the atmosphere.

  34. Types of volcanic material Pyroclastic Eruptions are the fast-moving clouds of lava, ash and volcanic gases that may suffocate and incinerate people and animals. Pyroclastic eruptions and mudflows account for the most deaths caused by volcanoes.

  35. Types of volcanic material • Poisonous gases such as carbon monoxide, sulphur dioxide, carbon dioxide and hydrochloric acid may be released during eruptions. These suffocate and kill people and animals. Also affects climate change.

  36. What determines how explosive the eruption will be? • Viscosity of lava • The amount of pressure • Gas content • Chemical composition of the lava

  37. References: • Geography environments, VCE Geography 1&2 GTAV, 2012 • Big Ideas, Geography level 6, Oxford, 2010 • Thinking Geography

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