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Transcript
Planetesimal/nebula hypotheses (dust-cloud hypotheses) Basis: observations of other systems 1. 2. 3. 4. 5. 6. Collision or Large star in Milky Way exploded Nebula (cloud of dust and gas) results H and He condense into Sun Other elements form disk of matter around sun Disk slowly accretes into clumps (planetesimals) planetesimals → planetoids → planets and satellites Eras, periods and epochs Superposition: youngest rocks superimposed on older rocks “Relative time” Dating by radioactive isotopes Half-life: time for ½ of unstable isotopes to decay “Absolute time” Uniformitarianism: “The same physical processes active in the environment today have been operating throughout geologic time” Hutton (1795), Lyell (1830) Source: University of Calgary Mineral A natural, inorganic compound with a specific chemical formula and a crystalline structure Examples silicates (quartz, feldspar, clay minerals), oxides (eg., hematite) carbonates (eg., calcite) A rock is an assemblage of minerals bound together • Igneous (solidify and crystallize from molten magma) • Sedimentary (settling) • Metamorphic (altered under pressure) • from magma (molten rock beneath the surface) • intrusive or extrusive (from lava) Existing rock is digested by weathering, picked up by erosion, moved by transportation, and deposited at river, beach and ocean sites. Laccolith Sill Dike Lithification follows (cementation, compaction and hardening) Batholith Laid down in horizontally-layered beds Conglomerate Sandstone Siltstone Shale Limestone Coal largest clasts sand cemented together derived from silt mud/clay compacted into rock calcium carbonate, bones and shells cemented or precipitated in ocean waters ancient plant remains compacted into rock Any type of rock is transformed, under pressure and increased temperature Shale Slate • Harder and more resistant to weathering Granite Gneiss Basalt Schist Limestone, dolomite Marble Sandstone Quartzite • Compressional forces: (i) collision of plates, (ii) rock thrust under crust, (iii) weight of sediment above •Continents are adrift due to convection currents in the asthenosphere •Mantle drags around the continents •225 M BP: Pangaea Fossil Record (plant and animal) Distribution of marsupials vs. placentals Age of mid-oceanic ridge magnetic stripes Age and thickness of oceanic crust Subduction zones “Ring of fire” Divergent Boundaries (constructional) Convergent Boundaries (destructional) Transform Fault Boundaries URL: http://pubs.usgs.gov/publications/text/Vigil.html Earthquakes Source: USGS Two types of crust “float” on the upper mantle: • oceanic crust (heavier, sinks lower) • continental crust (lighter, floats higher) Three types of plate convergence • oceanic – continental • oceanic – oceanic • continental - continental Oceanic – continental plate convergence Nazca plate – South America plate Oceanic – oceanic plate convergence New Hebrides Trench near Vanuatu Earthquake Motion Continental – continental plate convergence India/Eurasia plate collision (forms Himalayan Mountains) Historical seismic activity in Canada http://www.pgc.nrcan.gc.ca/seismo/recent/50.htm http://www.ctv.ca/servlet/ArticleNews/story/CTVNews/1099405935151_16/?hub=Canada 1906 San Francisco Earthquake Mercalli Richter Liquefaction and slumping Anchorage, Alaska - 1964 1964 Alaska earthquake damage map: modified Mercalli scale III - IV V VI VII VIII - X Earthquake-proof buildings Tsunami (seismic wave) Is a major earthquake in California, Alaska or Japan of any concern thousands of kilometers away, in Hawaii? The power of a tsunami Volcanoes Effusive eruptions (gentle flows, lots of lava) • cinder cones • shield volcanoes • plateau basalts Explosive eruptions (viscous lava, trapped gases) • composite volcanoes • calderas Cinder cone Big Cinder Butte, Craters of the Moon, Idaho Shield volcano Mauna Loa, Hawaii • Low viscosity magma Gases readily escape From this magma Effusive eruptions - forms small hills, less than 450 m high - black scoria rock with air bubbles Kilauea, Hawaii Seamounts Hot spot Composite volcano Shield/Composite Comparison Plateau basalts Live Photo of Mt. St. Helens! Mount St. Helens: the day before http://www.fs.fed.us/gpnf/volcanocams/msh/ Flooding (from steam-melted ice and snow) Caldera Four years later Crater Lake, Oregon Volcanic hazards and effects 6600 years ago windblown ash landed in Calgary • • • • • • • hot ash (pyroclastics) steam and gas explosions lava flows poisonous gases (carbon dioxide, sulfuric acid) landslides tree blowdowns lahars (steam-melted ice and snow cause flooding and large mudflows) • increase in atmospheric dust (decreased global temperatures) Volcanic benefits • new fertile soils - Hawaii, Philippines • geothermal energy - Iceland, Italy, New Zealand • new real estate - Iceland, Japan, Hawaii Diamond-bearing kimberlite pipe
