Post on 14-Jan-2016
Continental DriftContinental DriftAlfred Wegener (1912)Alfred Wegener (1912) First serious proponentFirst serious proponent
Alfred manning the weather station, Greenland - 1913
Fit of the Continents Fit of the Continents A more modern view than Wegener’s uses 1000 or 2000 m A more modern view than Wegener’s uses 1000 or 2000 m isobath as estimate of edge of continental crustisobath as estimate of edge of continental crust
Fit of Structural Elements Fit of Structural Elements
Pennsylvanian (300 Ma) GlaciationPennsylvanian (300 Ma) Glaciation
Glacial striations in bedrock, South Australia
Pennsylvanian (300 Ma) GlaciationPennsylvanian (300 Ma) Glaciation
Using present continental locations
Arrows indicate ice movement directions
Pennsylvanian (300 Ma) GlaciationPennsylvanian (300 Ma) Glaciation
Using pre-drift continental locations
Arrows indicate ice movement directions
Fossil EvidenceFossil EvidenceGlossopteris: an ancient seed fern(200 Ma)
Distribution of Glossopteris fossils
Fossil EvidenceFossil Evidence
Mesosaurus couldn’t swim in open ocean
Distribution of Mesosaurus fossils
PaleomagnetismPaleomagnetismThe Earth as a dipoleThe Earth as a dipole
Magnetic declination and inclination
PaleomagnetismPaleomagnetismMagnetization of volcanic rocks and sedimentsMagnetization of volcanic rocks and sediments
PaleomagnetismPaleomagnetism
““Polar Wandering” curvesPolar Wandering” curves
2) The Earth’s Interior2) The Earth’s Interior
Miles from ridge axis
Plate Tectonics: a breakthroughPlate Tectonics: a breakthroughBrian Mason (Scripps) led a group that studied a 2-D area spanning
the Mid-Atlantic Ridge in detail
An explanation of the An explanation of the curious magnetic anomaly curious magnetic anomaly patternpattern
The process at mid-ocean ridges
The process at mid-ocean ridges
Black SmokersBlack Smokers
SeismicitySeismicityEarthquakes occur due to motion along faultsEarthquakes occur due to motion along faults
Dip-slip FaultsDip-slip Faults
Normal FaultNormal Fault Reverse Fault (thrust) Reverse Fault (thrust)
View is cross-section
SeismicitySeismicity
Earthquakes occur due to motion along faultsEarthquakes occur due to motion along faults
Strike-slip FaultsStrike-slip Faults
Right-LateralRight-Lateral Left-Lateral Left-Lateral
Map View
Seismicity: global distribution of earthquakesSeismicity: global distribution of earthquakes
Earthquake foci in the vicinity Earthquake foci in the vicinity of the Japan trenchof the Japan trench
SeismicitySeismicityFirst motion studies
Bomb
SeismicitySeismicityFirst motion studies
Earthquake
SeismicitySeismicityFirst motion studies tell us that earthquakes:First motion studies tell us that earthquakes: At ridges At ridges normal faults (extension) normal faults (extension) At trenches At trenches thrust faults (compression) thrust faults (compression) At fracture zones At fracture zones strike-slip faults strike-slip faults
Seismicity: global distribution of earthquakesSeismicity: global distribution of earthquakes
The Deep-Sea Drilling The Deep-Sea Drilling ProgramProgram
Sediment ages directly on crustSediment ages directly on crust
Age of the ocean crustAge of the ocean crust
Hot Spots Hot Spots
Hot Spots Hot Spots
Hot Spots Hot Spots
The Modern PlatesThe Modern Plates
Three types of plate boundariesThree types of plate boundaries
Three types of plate boundariesThree types of plate boundaries
Divergent boundaryDivergent boundary
Divergent boundaryDivergent boundaryWhere on Earth is continental rifting occurring today?Where on Earth is continental rifting occurring today?
Transform boundaryTransform boundaryNote opposite sense of motion (first motion studies)Note opposite sense of motion (first motion studies)
San Andreas Transform
Transform boundaryTransform boundary
ConvergentConvergent boundary boundary
Three sub-typesThree sub-types Ocean-ContinentOcean-Continent Ocean-OceanOcean-Ocean Continent-ContinentContinent-ContinentCan you name an Can you name an
example of each? example of each?
Convergent boundaryConvergent boundary
Ocean-Continent: Ocean-Continent: Andes, CascadesAndes, Cascades
Ocean-Ocean: Ocean-Ocean: Aleutians, JapanAleutians, Japan
Continent-Continent: Continent-Continent: Himalaya, AlpsHimalaya, Alps
Convergent boundaryConvergent boundary Trench and subduction zoneTrench and subduction zone EarthquakesEarthquakes Linear chain of andesitic volcanoes (granites below)Linear chain of andesitic volcanoes (granites below) Creation of mountain ranges (also linear chains)Creation of mountain ranges (also linear chains)
Andean type - continental arcAndean type - continental arc Himalayan type - collisional (a terminal type)Himalayan type - collisional (a terminal type)
““Andean-type” Andean-type” orogenesisorogenesis
Continental crust Continental crust thickens by addition thickens by addition of magma from the of magma from the subduction zonesubduction zone
Compression due to Compression due to plate convergenceplate convergence
““Himalayan-type” Himalayan-type” orogenesisorogenesis
Begins as Andean-typeBegins as Andean-type
““Himalayan-type” Himalayan-type” orogenesisorogenesis
How do you locate the suture zone today?How do you locate the suture zone today?How can you determine the “polarity” of subduction?How can you determine the “polarity” of subduction?
Slivers of oceanic crust and upper mantle (ophiolites) become incorporated into the “mélange” in the accretionary wedge of deformed sediments
The “suture zone” is marked by the mélange and particularly by the occurrence of ultramafic rocks composing the mantle portion of the ocean lithosphere
Chain of ultramafic bodies in Vermont indicating a suture zone of the Ordovician Taconic Orogeny. The ultramafics mark a closed oceanic basin between North American rocks and an accreted island arc terrane. From Chidester, (1968) in Zen et al., Studies in Appalachian Geology, Northern and Maritime. Wiley Interscience.
AppalachiaAppalachian Historyn History
Can “accrete” Can “accrete” island arc island arc
terranes as well terranes as well as continentsas continents
Plate MotionsPlate Motions
Plate Tectonics in the Pacific NorthwestPlate Tectonics in the Pacific Northwest
The Wilson The Wilson CycleCycle
The Breakup of PangeaThe Breakup of Pangea
The History of an Ocean
Basin
Igneous ProcessesIgneous Processes
Decompression partial melting at divergent zonesDecompression partial melting at divergent zones
Igneous ProcessesIgneous Processes
Partial melts: low-T fraction is always more Si-Al-Na-K-Partial melts: low-T fraction is always more Si-Al-Na-K-rich and Fe-Mg-poor than source rock. rich and Fe-Mg-poor than source rock.
Leaves behind Mg-Fe-rich refractory residueLeaves behind Mg-Fe-rich refractory residue
Decompression partial melting at divergent zonesDecompression partial melting at divergent zones
Igneous ProcessesIgneous Processes
Hot spots and mantle plumesHot spots and mantle plumes Subduction zones: Subduction zones:
Conveyor of basalt to melt Conveyor of basalt to melt andesite andesite Water lowers melting point of mantle wedgeWater lowers melting point of mantle wedge
Igneous ProcessesIgneous Processes
Subduction zones: water lowers melting pointSubduction zones: water lowers melting point