seafloor spreading and continental drift
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Seafloor Spreading and Continental Drift. Plate Tectonics. A. Plate Tectonics Summary. 1.This is the basic idea that Earths crust is divided into a few large, thick ____________ which are large slabs of the lithosphere. - PowerPoint PPT PresentationTRANSCRIPT
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Seafloor Spreading and Continental Drift
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I.I. Plate TectonicsPlate Tectonics
1. This is the basic idea that Earths crust is divided into a few large, thick ____________ which are large slabs of the lithosphere.
(a) Plates are part of the______________ move slowly and change in size.(b) Plates may be: (1) entirely ______________ rock (2) both ____________ and _____________ rock
(3) entirely ______________ rock
lithosphere
plates
sea floorsea floor
continentalcontinental
A. Plate Tectonics Summary
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Tectonic Plates
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World Distribution of Earthquakes
•Earthquakes with focal depths between 0 and 670 km•Over a six-year period
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Volcanoes
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(3) Plate boundaries are geologically active with:
(a) __________________(b) __________________(c) __________________
earthquakesvolcanoes
young mountain ranges
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B. Plate Tectonics combines two preexisting ideas
a.____________________which is the idea that the continents move freely over Earth’s surface, changing their positions relative to one another
b.____________________ which is the hypothesis that sea floor forms a mid-oceanic ridge crests and then moves horizontally away from the ridge towards oceanic trenches.
Continental Drift
Sea-Floor Spreading
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II. Sea Floor SpreadingSea Floor Spreading
2. Sea floor forms at the___________
3. The sea floor moves _________________ from the ridge crest toward an oceanic trench where it ___________.
4. The two sides move in __________ directions
A. This is the hypothesis that:1. Was originally proposed by Harry Hess, a Princeton University geologist
5. ________________ in the mantle is the driving force.
Mid-ocean ridge
horizontally
subducts
opposite
Convection
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B. The Mid-Ocean Ridge
3. a. ________ at the ridge crest results in cracking open of oceanic crust to form a ____________
b. Shallow focus earthquakes
Tension
rift valley
1. Hot mantle rock rises beneath the ridge as a result ofconvection
2. This expains high heat flow and basaltic volcanic eruptions.
Rift Valley
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c. ______________
(1) Major lines of weakness in Earth’s crust.(2) Cross the mid-ocean ridge at nearly right angles.(3) Extend for 1000's kilometers across the ocean floor.(4) The mid-ocean ridge was once continuous across the fracture
zones but is now offset.
Fracture Zones
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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.
Transform Faults
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4. Ocean _________
a. Sea floor moving away from the ridge coolsb. It becomes denser and ___________, perhaps sinking back
into the mantle.c. Trenches are explained by the downward plunge of cooler
rock and explains negative gravity anomalies.
Trenches
subducts
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5. Young Age of the Sea Floor
a. Less than ______________________ old.b. New sea floor continually is formed by basalt eruptions at the
_________________.c. Basalt is carried horizontally away from the ridge crest where the
____________ rock is found.d. Sea floor is continually destroyed by subduction into the mantle at the
oceanic trenches
200 million yearsridge crests
youngest
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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.
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C. ______________ Data at the Ridges
1. _______ rock formed at the center of the ridge acquires Earth’s magnetic polarity at that time.
2. Parallel to the ocean ridges there are long strips with alternating magnetic polarity (magnetic anomalies that are symmetrical about the ridge crest).
Paleomagnetic
New
Airborne magnetometer on aU.S. Navy Orion P-3
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Vine-Matthews HypothesisVine-Matthews Hypothesis
• Developed by British geologists Fred Vine and Drummond Matthews• Proposes that the magnetic anomalies match the pattern of magnetic
reversals of Earth’s magnetic field as measured in continental rocks.
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Correlation of Magnetic Anomalies with Correlation of Magnetic Anomalies with Magnetic ReversalsMagnetic Reversals
Same Age
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D. _________ : Models for mid-ocean ridge processes
• Pieces of oceanic plate that have been thrusted (obducted) onto the edge of continental plates.
OphiolitesOphiolites
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• an assemblage of mafic and ultramafic lavas and • hypabyssal rocks found in association with sedimentary rocks • They are found in areas that have complex structure
From seafloor drilling
Coninental Sequenceand seismic studies
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OphiolitesOphiolites
In Cyprus
In the French Alps
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III. Continental DriftContinental Drift
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• German meteorologist
• Credited with hypothesis of continental drift
Alfred Wegener and the Continental Drift Hypothesis
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A. Wegener’s Evidence For Continental Drift
1. ___________a. Wegener proposed the presence of a giant
continent, Pangaea (also spelled Pangea), which literally translated means “all lands.”
b. When it split apart it separated into two parts with the proto-Atlantic between them (called Tethys Sea).(1) ____________was the northern supercontinent that
contained present-day North America and Eurasia (not including India
(2) _____________________ (also called Gondwana) was the southern supercontinent, composed of all present-day southern hemisphere continents and India.
Pangaea
Laurasia
Gondwanaland
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2. _______ Fit of Continents
Shorelines of continents seem to fit together
Jig-Saw
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3. ____________________ Between Continents
Continental Shelf (light blue)
Broad belts of rocks thatCorrelate in type and age
Matching Rock Types
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4. ____________________Matching Mountain Ranges
When continents are brought together, their mountain ranges form a single continuous range of the same age and style of deformation.
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5. _________ Evidence
a. Almost identical late Paleozoic fossils in South America, Africa, India, Antarctica, and Australia.
b. Bones of land reptiles have been found in Antarctic rocks. Antarctica is now completely separate and isolated from other continents.
Fossil
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c. _____________
(1) A Late Paleozoic plant found in rocks on all five continents.
(2) When the land areas are joined, similarity can be seen.
Glossopteris
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d. _______________
• Areas where found reveal narrow, sharply defined habitats extending across:– three continents and – the subcontinents of Madagascar and India.
• The shape of the animals ranges can best be
explained by assuming that these lands were once united as one landmass.
Extinct Reptiles
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Mesosaurus
• A freshwater carnivorous reptile; cm long• Fossils found in Permian-aged rocks in Brazil and Africa
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Lystrosaurus
• Early Triassic terrestrial mammal-like reptile• About 1 meter long with two long teeth protruding from the upper jaw• Fossils found in Africa, India, and Antarctica
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Cynogathus
• Early Triassic terrestrial mammal-like reptile• About 1 meter in length• Fossils found in Brazil and Africa
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Fossil Evidence
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6. Late Paleozoic _________
• Distribution of Late Paleozoic continental glacial evidence on the Gondwanaland continents can only be explained by a supercontinent.
Glaciation
Glacial evidence shows theOrigin of the glaciers in theAtlantic
Boulders in S. America tracedto a source in Africa
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7. _____________ (Ancient Climates)
a. Inferring the Location of the Poles
• If it is assumed that ancient climates had the same geographic distribution as present-day climates,
• then the distribution of sedimentary rocks can be used to infer the locations of the ancient poles and the paleoequator.
Paleoclimates
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Glacial Evidence(1) Glacial ____ (soil) and __________ (scratches)
on bedrock are found in cold polar climates.till striations
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Coral Reefs
• Coral reefs are found in tropical regions (as far as 300 north or south of the equator)
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Cross-Bedded Sandstones
• Indicate the locations of ancient deserts• Latitudes of 30o
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(2) ______________
• Wegener inferred that the ancient poles were in different positions that the present-day poles.
• This apparent change in positions of the poles is termed polar wandering.
Polar Wandering
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Explaining Polar Wandering
(A) Continents remain stationary and the poles actual change position(B) Poles remain stationary and the continents change position
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Paleomagnetic Evidence for Continental Drift
• Magnetic dip of magnetite crystals increases towards the North magnetic pole.
• Aligned with magnetic lines of force
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The Permian North Pole• Permian rocks in N.
America point to a pole position in eastern Asia
• Rocks in Europe point to a different position– Every continent
shows a different Permian pole position
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Polar Wandering
• Paths of polar wandering have similar shapes
• If North America is theoretically pushed back towards Europe, its polar wandering path lies exactly on the path for Europe
• Suggests – one north magnetic pole – The continents were joined.
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Rodinia – The Late Proterozoic Supercontinent
• Assembled between 1.3 and 1.0 billion years ago• Began fragmenting 750 million years ago• Pieces formed another supercontinent, Pannotia, about 650 million years ago
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Late Cambrian Paleogeography
Africa, Antarctica, Australia,Florida, India, Madagascar, andparts of Middle East & southernEurope
Most of N. America, Greenland, NW Ireland, & Scotland
Russia west of Ural Mts., major part of N. Europe
Russia east of Ural Mts. Asia north of KazkhsstanAnd south of Mongolia
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Late Ordovician Paleogeography
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Middle Silurian Paleogeography
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Early Paleozoic Era Continental DriftSummary(Cambrian – Silurian)
• Six major continents– Four were located near the paleoequator
• Laurentia moved northward• Gondwana moved to a south polar
location
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Late Devonian Period Paleogeography
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Early Carboniferous Period Paleogeography
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Late Carboniferous Period Paleogeography
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Late Permian Period Paleogeography
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Late Paleozoic Continental Drift Summary
(Cambrian – Silurian)
• Baltica and Laurentia collided, forming Laurasia
• Siberia and Kazakhastania . . .– Collided– Became sutured to Laurasia
• Gondwana moved over the South Pole• During the Permian . . .
– the formation of Pangaea was completed– Panthalassa, a global ocean, surrounded the
supercontinent
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Mesozoic Era PaleogeographyThe Triassic Period
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Mesozoic Era PaleogeographyThe Jurassic Period
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Mesozoic Era PaleogeographyThe Cretaceous Period
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Allochthonous Terranes in Western North America
• Microcontinents incorporated into the crumpled margin of a larger continent.
• Called:– Allochthonous
terranes– Suspect terranes– Alien terranes
Green terranes are probably from continents other than N. America
Pink terranes are probablyfrom displaced parts ofNorth America
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Early Mesozoic Evaporites
• Rifting of Pangaea opened the Proto-Atlantic Ocean
• Evaporites accumulated in shallow basins
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Change in Oceanic Circulation
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Mesozoic Era Continental Drift Summary
• The main event was the breakup of Pangaea.
• The breakup of Pangaea influenced global climatic and atmospheric circulation patterns
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Pangaea Breakup and Continental Drift
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“Pangaea Ultima”