OCE3008: Chapter 2: Plate Tectonics and Ocean Floor
Most divergent plate boundaries occur?
Along the crest of the mid-ocean ridge, where sea floor spreading creates new oceanic crust
Who proposed theory of plate tectonics?
Alfred Wegener (1912) •Called it "continental drift"
Coral Reef Development Stages
1. (fringing reef) on an active volcano, coral growth builds up very close to the shore 2. (Barrier reef) as the volcano becomes inactive and sinks, coral builds up over time 3. (Atoll) eventually the island sinks low sea level but a thick section of coral builds up to stay close to the surface
Future Predictions from Plate Tectonics
1. Atlantic will enlarge, Pacific will shirnk 2. New sea from East Africa rift valleys 3. Further Himalaya uplift 4. Separation of North and South America 5. Part of California in Alaska
Three types of plate boundaries?
1. Divergent boundary 2. Convergent boundary 3. Transform boundary
Wilson Cycle
1. Embryonic stage, uplift (rift valleys) East Africa rift valleys 2. Juvenile, divergence (spreading) Red Sea 3. Mature, divergence (spreading) ocean basin w/ continental margins, Atlantic/Arctic Oceans 4. Declining, Convergence (subduction) Pacific Ocean 5. Terminal, Convergence/collision/uplift, Mediterranean sea 6. Suturing, Convergence/uplift, Himalaya mountains
What are the different types of coral reefs?
1. Fringing 2. Barrier 3. Atolls
Types of Spreading Centers
1. Oceanic Rise 2. Oceanic Ridge 3. Ultra-Slow
Three Types of Convergent Boundaries
1. Oceanic-Contiental 2. Oceanic-Oceanic 3. Continental-Continetal
What evidence supports plate tectonics?
1. Orientation of magnetic particles in Earth's crust 2. Magnetic dip 3. Apparent polar wandering 4. Magnetic polarity reversals 5. Ocean floor magnetic anomalies 6. Sea floor spreading 7. Uneven heat flow in Earth's crust 8. Worldwide earthquake distribution 9. Use of satellite data to detect plate motion
Hotspot Track
1. Plume of hot buoyant material detaches from deep mantle/core-mantle 2. Plume rises more rapidly than the plume head can push through viscous mantle which inflates head and elevates earth surface 3. Decompression near surface partially melts plume head which comes to surface and creates a hotspot volcano 4. Volcano carried away by plate motion, plume continues to feed subsequent volcanoes
Wegener's Evidence for Continental Drift
1. Puzzle-like fit of modern continents 2. Searched for matching sequences of rock units/ ancient mountain chains (similar rock types/ages/structures found on dif. continents) 3. Glacial ages/patterns & direction of glacial flow 4. Distribution of organisms
History of ocean basins
1. Seafloor spreading 2. Mantle convection cells (driving mechanism)
Divergent Boundary - Creation of an Ocean Basin
1. Shallow heat source under continent causes upwarping/volcanic activity 2. Movement apart creates linear rift valley 3. Increased spreading/downdropping = a linear sea 4. After millions of years, a full-fledged ocean basin is created, separating continental pieces
Transform faults occur?
Between mid-ocean ridge segments
Continental Accretion
Continental material added to edges of continents through plate motion
Wegner (The Origins of Continents and Oceans 1915) Proposed Mechanism
Continents plow through ocean basins due to gravitational attraction of equatorial bulge and tidal forces from the sun and moon
Continental Transform Fault
Cuts across continent (San Andreas Fault)
Fringing Reefs
Develop among margin of landmass
Glaciation
Evidence of glaciation in now tropical regions •patterns and direction of glacial flow and rock scouring •Plant/animal fossils indicate different climate than today
Tablemounts/Guyots
Flattened tops •If seamounts are tall enough to reach the surface and become islands, their tops are eroded flat by wave activity and become tablemounts
Heat flow
Heat from Earth's interior released to surface •Very high at mid-ocean ridges •Low at subduction zones
Nematath
Hotspot track
Earth's magnetic polarity is recorded in?
Igneous rocks (from magma or lava) •Magnetite in basalt
Magnetic dip
Magnetite particles in sedimentary rocks or igneous rocks (basalt) align with Earth's magnetic field
Oceanic Transform Fault
Ocean Floor Only
Subduction Zones
Oceanic trench site of crust destruction (slap pull/slab suction) •Subduction can generate deep ocean trenches
Detecting Plate Movement with Satellites
Plate tectonics describes the movement of the outermost portion of earth and creation of continental and sea floor features; plates part of lithosphere floating on asthenosphere
Atolls
Reefs continue to grow after volcanoes are submerged
Seamounts
Rounded tops •Tall volcanoes formed at volcanic centers •Subsidence of flanks of mid-ocean ridge/hotspot movement
Distribution of organisms
Same fossils found on continents today that are widely separated •modern organisms with similar ancestries
Barrier Reefs
Separated from landmass by lagoon
Mid-Ocean Ridge
Spreading center
Paleomagnetism
Study of Earth's ancient magnetic filed •Interprets where rocks first formed
Sir Edward Bullard
Used computer models to fit continents
Continental Drift
Wegener proposed Pangaea (one large supercontinent existed 200 mya) •Panthalassa = one large ocean (+ Tethys Sea)
Theory of Plate Tectonics
thin rigid plates comprising the lithosphere move horizontally
Breakup of Pangaea
•180 mya Pangaea separated (N & S America rifted from Europe & Africa, Atlantic Ocean forms) •120 mya S. America & Africa clearly separated •45 mya India starts Asia collision
Seafloor spreading evidence: Frederick Vine and Drummond Matthews
•Analysis of igneous rock stripes around mid-ocean ridge •Sea floor stripes record Earth's magnetic polarity
Ultra-Slow
•Deep rift valley •(<2 cm/year) •Widely scattered volcanoes •Arctic & SW INdia
Oceanic-Oceanic Convergence
•Denser (older) plate is subducted •Deep trenches generated •Volcanic island arcs generated
Oceanic Rise
•Fast spreading (16.5cm/yr) •Gentle Slopes •East pacific
Mantle Plumes/Hotspots
•Intraplate features •Volcanic islands within a plate •Island chains
Age of Ocean Floor
•Late 1960s deep sea drilling •Radiometric dating of ocean rocks •Symmetric pattern of age distribution at mid-ocean ridges •Oldest ocean floor only 180 myo
Divergent Boundary
•Mantle upwelling •New lithosphere created •Spreading centers •Plates are moving apart (mid-ocean ridge)
Divergent Boundary Features
•Mid-Ocean Ridge (Rift Valley) •New ocean floor (Rifting) •Faster Spreading: less energy released in earthquakes •Shallow focus earthquakes
Earthquakes
•Most large earthquakes occur at subduction zones •Earthquake activity mirrors tectonic plate boundaries
Continental-Continental Convergence
•No subduction •Tall Mountains uplifted Ex: Himalayas from India-Asia Collision
Oceanic-Continetal Convergence
•Ocean plate is subducted (denser oceanic crust subducts) •Continental arcs generated •Explosive andesitic volcanic eruptions ex: Mt. St. Helens
Convergent Boundary Features
•Oceanic crust destroyed (ocean trench, volcanic arc) •Deep focus earthquakes •Great forces invovled •Mineral structure changes
Transform Boundary Features
•Offsets oriented perpendicular to mid-ocean ridge •Offsets permit mid-ocean ridge to move apart at different rates •Shallow strong earthquakes 1. Oceanic Transform fault 2. Continental Transform Fault
Convergent Plate Boundaries: Plate movement, tectonic process
•Plate movement: Together •Tectonic process: Subduction(oceanic-oceanic crust), Collision (continental-continental) •Peru-Chile Trench, Andes Mountains, Marianna Trench, Aleutian Islands
Divergent Plate Boundaries: Plate movement, tectonic process
•Plate movement: apart •Tectonic process: sea floor spreading (oceanic-oceanic crust), continental rifting (continental-continetnal crust) •Mid-Atlantic Ridge, East Pacific Rise, East Africa Rift Valleys, Red Sea, Gulf of California
Transform Plate Boundaries: Plate movement, tectonic process
•Plate movement: past each other •Tectonic process: Transform faulting •Mendocino Fault, Eltanin Fault, San Andreas Fault, Alpine Fault
Convergent Boundary
•Plates collide (plates moving together) •One plate subjects under another ex: deep-ocean trench
Oceanic Ridge
•Slow spreading (2.5cm/year) •Steep slopes •Mid-Atlantic
Objections to Early Continental Drift Model
•Tidal gravitational attractions too small to move continents •Wegener's hypothesis about continental drift was right but proposed mechanism was wrong
Transform boundary
•Usually offset segments of ocean ridges (two divergent boundaries) •Can also join up different combination of divergent and convergent boundaries •plate slide past each other
Harry Hess
•World War II submarine captain and geologist •HIs depth recordings show sea floor features
