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Plate Tectonics I. Tectonics A. Tectonic Forces are forces generated from within deformed Earth causing rock to become___________. folds fault B. Tectonics 1. The study of the origin and arrangement of Earth surface including mountain belts, continents, and earthquake belts. 2. Plate Tectonics a. This is the basic idea that Earths crust is divided into a plates few large, thick ____________ which are large slabs of the lithosphere. lithosphere move slowly (1) Plates are part of the______________ and change in size. (2) Plates may be: sea floor rock (a) entirely ___________ sea floor and _____________ continental rock (b) both ____________ continental rock (c) entirely ______________ Tectonic Plates Tectonic Plates World Distribution of Earthquakes •Earthquakes with focal depths between 0 and 670 km •Over a six-year period Volcanoes (3) Plate boundaries are geologically active with: earthquakes (a) __________________ volcanoes (b) __________________ (c) young __________________ mountain ranges b. Plate Tectonics combines two preexisting ideas (1)____________________which is the idea that Continental Drift the continents move freely over Earth’s surface, changing their positions relative to one another Sea-Floor Spreading which is the (2)____________________ hypothesis that sea floor forms a mid-oceanic ridge crests and then moves horizontally away from the ridge towards oceanic trenches. Sea Floor Spreading A. This is the hypothesis that: 1. Was originally proposed by Harry Hess, a Princeton University geologist 2. Sea floor forms at the__________ Mid-ocean ridge 3. The sea floor moves _________________ horizontally from the ridge crest toward an oceanic trench where it subducts ___________. 3. The two sides move in __________ opposite directions B. The Mid-Ocean Ridge 1. Hot mantle rock rises beneath the ridge as a result of convection 2. This expains high heat flow and basaltic volcanic eruptions. 3. a. ________ Tension at the ridge crest results in cracking open of oceanic crust to form a ____________ rift valley b. Shallow focus earthquakes Rift Valley Fracture Zones c. ______________ (1) (2) (3) (4) Major lines of weakness in Earth’s crust. Cross the mid-ocean ridge at nearly right angles. Extend for 1000's kilometers across the ocean floor. The mid-ocean ridge was once continuous across the fracture zones but is now offset. Transform Faults d. _________________ (1) Mid-ocean ridges are offset along fracture zones (2) Transform motion of rocks on either side is not always in opposite directions. (a) Rocks move in opposite directions only in the section between two segments of ridge crest. (b) This is the only section that experiences earthquakes instead of along the entire section as would normally be expected. 4. Ocean _________ Trenches a. b. c. Sea floor moving away from the ridge cools It becomes denser and subducts ___________, perhaps sinking back into the mantle. Trenches are explained by the downward plunge of cooler rock and explains negative gravity anomalies. 5. Young Age of the Sea Floor a. Less than ______________________ 200 million years old. b. New sea floor continually is formed by basalt eruptions at the _________________. ridge crests c. Basalt is carried horizontally away from the ridge crest where the youngest rock is found. ____________ d. Sea floor is continually destroyed by subduction into the mantle at the oceanic trenches Deep Ocean Sediments • Deep ocean (pelagic) sediment is thin or absent on the crest of the mid-oceanic ridges. • Sediment becomes thicker away from the ridge. III. Causes of Plate Motion A. Mantle ____________ Convection 1. 2. Heat transferred within a fluid due to density differences created by temperature differences. Source of heat: (a) is original heat from Earth’s formation and (b) the decay of radioactive isotopes. Mantle Convection 3. But, rock isn’t a fluid so how does it convect? a. Solid rock will creep when subjected to enough heat and pressure. b. At 1,835o F it behaves like Silly Putty™. It behaves plastically like a fluid. 4. Rate of Convective Flow a. On a human time scale convection is slow - It’s about the rate of fingernail growth - A clock’s hour hand moves 10,000 times faster b. However, this is geologically it’s fast - 58 million years from bottom to top of mantle 5. The pattern of mantle flow is not completely understood a. There are several models . . . (1) Thermal Convection Model • Restricted to the asthenosphere (2) Convection throughout the entire mantle. b. In both models: (1) Spreading ridges mark the rising limbs of neighboring convection cells (2) Trenches occur where the convection cells descend back into Earth’s interior • Most recent models suggests that the lower mantle does not mix with the upper mantle. • Acting like a “lava lamp” heat flows across the core-mantle boundary and then variations in the thickness controls mantle plumes. c. Ridge-Push and Slab-Pull Contradict convection models that assume the plates are dragged Along by movement of underlying mantle rock Ridge - Push 1. _______ Spreading centers stand high on the sea floor As a plate moves away from a divergent boundary it cools and thickens causing the sea floor to subside as it moves, forming the broad side slops of the ridge. As the asthenospheric mantle cools it thickens creating a slope. Lithosphere slides down. Due to higher elevation at the ridge, a push is imparted to the tectonic plate. 2. ____ Slab - Pull • The dense, leading edge of a subducting plate pulls the rest of the plate along. • Density increases – Cooling – Loss of water – Phase transitions of minerals • Motion is rapid along a steep slope “Ridge Push” and “Slab Pull” C. Mantle Plumes and Hot Spots 1. Mantle Plumes Narrow columns of hot mantle rock that _________________: 2. rise through the mantle. Hot Spots _________________: Regions of active volcanism at Earth’s surface above plumes 3. Effects of Plumes a. Flood basalts formed when the head of a plume contacts a continent, causing uplift and eruption of basaltic lavas b. Continental Rifting Aulacogen • A plume causes a dome that breaks in a three-pronged pattern. • The plume separates the crust along two of the three fractures • The third fracture become inactive and eventually fills with sediment (called a failed rift or aulacogen.) Hawaiian Volcanism IV. Types of Plate Boundaries Divergent Boundaries A. ___________ Summary of Divergent Boundaries 1. Plates moving ____________ from each other. away 2. Marked by rifting, basaltic volcanism, and uplift. 3. Tension causes shallow-focus earthquakes along normal faults along which the crust is stretched and thinned. rift valley 4. In a continent a ___________forms as a central valley. 5. Found at: Mid-ocean a. ___________ridges b. Continental ____________rift valleys (East African Rift) (1) After widening of the rift, eventually the plates separate and seawater floods into the linear basin between the two divergent continents. (2) Eventually opens into an ocean with a midocean ridge in the center. B. Transform __________Boundaries 1. One plate slides _____________ horizontally past another. 2. Sites of shallow-focus earthquakes and less likely to have volcanic activity 3. Strike-slip motion is common. 4. No new surface is formed or consumed 5. Locations of transform motion. San Andreas Fault in California (between the North a. _________________ American Plate and the Pacific Plate) fracture zones (not plate boundaries) b. At mid-ocean ridge _________________ Convergent Plate Boundaries C. __________ Tectonic Plates Collide 1. Ocean-Ocean Convergence a. b. Two plates capped by sea floor converge One plate ________________ beneath the other. subducts (1) The subducting plate bends downward forming the outer wall of an oceanic trench (2) The trench forms a broad curve convex to the subducting plate due to Earth’s rounded surface. 3. A Benioff Zone Forms (a)Inclined zone of seismic activity. (b)Subduction angle of 30o to 60o. (c) Above the Benioff Zone (i) Island Arc of volcanic islands (ii) In a curved line parallel to the trench Accretionary Wedge 4. ____________ • Inner wall of a trench that is towards the arc • Thrust faulted and folded marine sediment along with pieces of ocean crust. • “Snowplowed” off the subducting plate by the overlying plate. Forearc Basin 5. _______ • Lies between the accretionary wedge and the volcanic arc • Relatively undeformed Alaska’s Aleutian Islands Japanese Island Arc 2. Ocean- Continent Convergence a. Oceanic crust is subducted under continental lithosphere resulting in a active continental margin. b. A ____________zone of earthquakes dips under the edge of the continent. Benioff c. A new mountain belt is formed. 2. Ocean- Continent Convergence d. Magma rises forming a magmatic arc with the continent (rather than a island arc). e. Andesitic volcanism occurs f. Beneath the volcanoes are large plutons in thickened crust, seen on land as batholiths when exposed by extensive erosion 2. Ocean- Continent Convergence g. The more buoyant continental plate experiences intense deformation, metamorphism, and melting (1) crust thickens (2) also rises isostatically (3) thrust faults , associated with folds, move slivers of mountain-belt rocks ` landward over the continental interior. h. Today this is occurring where: (1) The Juan De Fuca plate is subducting under North America. (2) The Nazca Plate is subducting under South America Ophiolites i. ______________ : Evidence of an Ancient Convergent Boundary (1) Believed to be slivers representing ocean crust and upper mantle (2) Pieces of oceanic plate that have been thrusted (obducted) onto the edge of continental plates. From seafloor drilling and seismic studies Continental Sequence 3. Similar to the structure of oceanic crust, determined from seismic studies and drilling. Ophiolites In the French Alps In Cyprus 3. Continent-Continent Convergence collide a. Two continents ___________. b. Continents become welded together along a dipping ____________ suture zone. c. A mountain belt forms at the interior of the new continent. Examples: (1) Himalayas between Eurasia and India (2) Appalachians - Formed when Pangaea collided with North America