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Title: The%20Sea%20Floor


1
The Sea Floor
  • Chapter 2

2
Continental Drift
  • Theory proposed by Alfred Wegner (German
    geophysicist),
  • Stated that all the continents were joined
    together at one time in to a supercontinent
    called Pangea.
  • Pangea began to break apart 180 million years ago.

3
Pangea
4
Theory of Plate Tectonics
  • Theory that provides the explanation for
    continental drift.
  • It is the process involved in the movement of
    large plates on the earths crust.

5
Mid Ocean Ridge
  • Discovered from sonar images after WWII.
  • It is a continuous chain of volcanic mountains
    that encircles the globe like a baseballs seams.
  • It is the largest geological feature on Earth!!!
  • The formation was made when transformation faults
    were displaced by cracks in the Earths crust.

6
The Sea Floor
  • The sea floor is geologically distinct from
    continental land masses.
  • Geological processes sculpt the shoreline,
    determine water depth, control if the sea bottom
    is muddy, sandy, or rocky.
  • Geological processes create new islands and
    undersea mountains for colonization and determine
    specific marine habitats.

7
Earth is a water planet.
  • Oceans cover 71 of the globe.
  • Oceans regulate Earths climate and atmosphere.
  • The Northern Hemisphere is 61 covered by oceans.
  • The Southern Hemisphere is 80 covered by oceans.

8
Ocean Classification
  • Oceans are divided into four basins.
  • Pacific Basin- deepest and largest
  • Atlantic Basin- second largest
  • Indian Basin- third largest
  • Arctic Basin- smallest and shallowest

9
Connected to basins are seas.
  • Examples of seas are Mediterranean, Gulf of
    Mexico, South China, Red, Dead, Baltic, etc.
  • All oceans are interconnected and compromise a
    single world ocean referred to as Panthalassa.
  • The Southern Ocean is a continuous body of water
    that surrounds Antarctica.

10
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11
Internal Earth Structure
12
The Core
  • The innermost portion of Earth.
  • The inner core is made of solid iron.
  • The outer core is made of liquid iron that has a
    swirling motion.
  • This motion is responsible for Earths magnetic
    field.

13
The Mantle
  • Found outside the core.
  • Most is solid and very hot, near the melting
    point of most rocks.
  • Some flows very slowly like a liquid.

14
The Crust
  • Outermost layer made of thin, rigid rock that
    floats on top of the mantle.
  • Continental Crust- mostly made of granite and is
    light in color. It is less dense than oceanic
    crust so it floats on the mantle. Approx. 3.8
    million yr. old.
  • Oceanic Crust- mostly made of basalt and is
    denser and thinner than continental crust. It
    does not float as high on the mantle. Aprox. 180
    million years old.

15
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16
Mid Ocean Ridge
17
Classification
  • In the Atlantic- Called Mid Atlantic Ridge
  • In the Pacific- Called East Pacific Rise

18
Trenches
  • Deep depressions in the sea floor especially
    common in the Pacific.

19
Significance of Mid Ocean Ridge
  • Lead to the discovery that from time to time the
    Earths magnetic field has reversed direction.
  • This happens about every 700,000 years.
  • Reversal takes 5000 years.
  • Reversal occurs from the movements of materials
    in the Earths core.

20
Magnetic Anomalies
  • Geologists found striped patterns of magnetic
    bands in the sea floor.
  • Show alternate periods of normal and reversed
    periods of earths magnetic field.

21
The Sea Floor
  • Created by oceanic crust separated at the
    mid-ocean ridge allowing some mantle to rise
    through the rift.
  • When the mantle rises through the rift it cools
    and solidifies to form new oceanic crust.

22
Sea Floor Spreading
  • Process of making new oceanic crust.
  • What do you remember about the oceanic crust?

23
Lithosphere
  • Litho Rock
  • Rock sphere
  • Composed of plates of crust and upper mantle.
  • These plates can contain continental/oceanic
    crusts or both.
  • The lithosphere floats on the denser, more
    plastic athenosphere.

24
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25
Plate Movement
26
Subduction
  • The downward plate movement into the mantle at
    a subduction zone to form a trench.
  • This movement causes earthquakes and when some
    molten material rises to the surface it may form
    volcanoes.
  • Ex. When oceanic crust subducts under
    continental crust the Andes mountains of South
    America were formed.

27
Subduction
28
  • When two oceanic crusts collide one will subduct
    below the other and form trenches that lead to
    the formation of volcanic island chains called
    island arcs.
  • Ex The Aleutian and Marianas Islands

29
  • When two continental plates collide both tend to
    float and buckle and neither is subducted.
  • This forms mountains ranges such as the
    Himalayas.
  • What properties of the continental crust make
    this happen?

30
Shear Boundary
  • When two plates slide past each other causing
    extreme friction.
  • This stress can cause earthquakes.
  • Ex A shear boundary formed the San Andreas
    Fault in California.

31
Shear Boundary
32
Convection
  • When heat from the mantle swirls the plates.
  • This used to be the main hypothesis of plate
    tectonics.
  • Now it is believed to be an auxiliary form of
    plate motion.

33
Convection
34
Geologic History
35
Pangea
  • 200 million years ago Pangea was surrounded by
    Panthalassa.
  • What was Panthalassa?
  • Panthalassa is thought to be the ancestor to the
    Pacific ocean.
  • Tethys Sea- separated Eurasia from Africa (It is
    the modern Mediterranean Sea.
  • Sirius Borealis- is the modern Arctic Ocean.

36
180 million years ago. . .
  • A new rift formed between North America and
    combined the continents of South America and
    Africa.
  • This rift formed the early Mid-Atlantic Ridge and
    the North Atlantic Ocean.
  • Pangea broke into two continents
  • Laurasia- North America and Eurasia
  • Gondwana- South America, Antarctica, India, and
    Australia. A rift split at this time forming the
    Indian Ocean.

37
Marine Sediments
  • Lithogenous- sediments derived from physical and
    chemical weathering of rocks.
  • These are most common.
  • Ex red clay on the open ocean floor.

38
  • Biogenous- made of skeletons, shells of marine
    organisms such as diatoms, radiolarians,
    foraminiferans, and coccolithophorids.
  • Composed of calcium carbonate- sometimes referred
    to as calcareous ooze.

39
  • Diatoms
  • Foraminiferans

40
  • Microfossils- microscopic preserved remains of
    marine organisms that give clues about the type
    of water the organism lived in such as whether it
    was cold or warm.

41
Microfossils
42
Radiometric Dating
  • The use of radioactive isotopes to determine the
    exact age of a fossil.
  • Also referred to as carbon dating.

43
Climate and Changes in Sea Level
44
  • Earths climate fluctuated between warm
    interglacial periods and cold ice ages.
  • During ice ages the sea level falls because water
    is trapped as glaciers.

45
Pleistocene Epoch
  • Two million years ago- was the last major period
    of glaciation.
  • Sea level has risen over the past 3,000 years due
    to greenhouse gases such as carbon dioxide and
    methane.
  • These gases are said to cause global warming
    therefore melting glaciers and subsequently
    causing a rise in sea level.

46
Geology of the Sea Floor
47
The sea floor is divided into two main regions
  • Continental margin- are boundaries between
    continental and oceanic crust.
  • They consist of shallow, gently sloping
    continental shelf, a steeper continental slope,
    and a gently sloping continental rise.

48
Continental shelf
  • Shallowest part of the continental margin.
  • Makes up only 8 of the oceans surface area but
    are the most biologically rich portion of the
    ocean.
  • When the sea level rises- submarine canyons have
    formed here.
  • The shelf ends at the shelf break where the
    slope gets steeper 120-400m.

49
Continental Shelf
50
Continental Slope
  • Begins at the shelf break and descends to deep
    sea floor.
  • Submarine canyons cause its depth to reach
    3000-5000m.
  • The continental slope channels sediments to the
    sea floor.

51
Continental Slope
52
Continental Rise
  • When sediment from the submarine canyons
    accumulates and deep sea fans (deposits that are
    similar to a river delta) piles on the sea floor.

53
Continental Rise
54
Active and Passive Margins
55
Active Margins
  • Continental margins with intense geological
    activity.
  • Earthquakes and volcanoes are characteristic
    here.
  • Have steep, rocky shorelines, narrow continental
    shelves, steep continental slopes, and lack a
    developed continental rise.

56
Active Margin
57
Passive Margin
  • Inactive geologically.
  • Flat, coastal plains with wide continental
    shelves and gradual slopes, leading to a thick
    continental rise.

58
Passive Margins
59
Deep Ocean Basins
  • Most of the deep sea floor lies at a depth of
    3000-5000m (10,000-16,500 ft).
  • Abyssal plain- deep sea floor, rises at gentle
    slope toward mid-ocean ridge.
  • Relatively flat but can contain submarine
    channels, abyssal hills, plateaus, rises and
    other features.

60
Abyssal Plain
61
Seamounts
  • Comprised of volcanic islands and submarine
    volcanoes.
  • Ex Guyots- flat-topped seamounts that are
    common in the Pacific.
  • These areas have a great diversity of marine life.

62
Trenches
  • Areas where plates descend into mantle.
  • Are the deepest parts of the ocean.
  • The deepest is the Mariana Trench in the Western
    Pacific at 11, 022m (36,153ft).

63
Mariana Trench
64
Mid-Ocean Ridge and Hydrothermal Vents
65
  • The Mid-Ocean Ridge contains a gap called the
    central rift valley.
  • Formed when fractures and crevices let seawater
    seep downward where it is then heated to a very
    high temperature by the mantle.
  • This heated water is forced back through the
    crust via hydrothermal vents or deep sea
    hotsprings.

66
Mid-Ocean Ridge
67
Hydrothermal Vents
68
Deep Sea Hot Springs
69
  • Water from hydrothermal vents can be warm, 10-20C
    (50-68F) or blistering 350C (660F)!
  • This hot water dissolves minerals such as
    sulfides. These minerals cool and form deposits
    around the vents.

70
Black Smokers
  • One type of deposit. They look like a chimney.
  • Made of solidified minerals.
  • The smoke the boils from them is a dense cloud of
    mineral particles.

71
Black Smokers
72
  • Deep Sea hot springs are of interest to
    geologists and biologists.
  • They are an abundant source of marine life.
  • Many marine organisms are found around these
    vents.

73
Tube worms around a vent.
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