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The Ocean EARTH: The only planet w/ Oceans (or liquid water) Covers 71% of earth’s surface “Divided” into 4 large basins –Pacific (largest, deepest) –Atlantic.

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Presentation on theme: "The Ocean EARTH: The only planet w/ Oceans (or liquid water) Covers 71% of earth’s surface “Divided” into 4 large basins –Pacific (largest, deepest) –Atlantic."— Presentation transcript:

1 The Ocean EARTH: The only planet w/ Oceans (or liquid water) Covers 71% of earth’s surface “Divided” into 4 large basins –Pacific (largest, deepest) –Atlantic –Indian –Arctic (smallest, shallowest) –A fifth? The Antarctic…

2 Ocean basins South pole view

3 Ocean Basin Depths

4 Interior of Earth

5 The Difference Between an Ocean and a Continent…ROCKS! Continent: very thick, very old, less dense and made up of Granite Ocean (floor): younger, more dense, not as thick and made up of Basalt Thus, the “Ocean Floor” “sinks” below the continent(s) and provides the habitats of marine organisms

6

7 Continental Drift If we know the Continental Crust and Oceanic Crust have different densities…how did they “separate” to become 7 continents and 4 oceans? We start (Pangea) 210 mya!

8 PANGEA (the super continent) 180 million yrs. ago – all continents were attached together and have slowly moved apart over time Discovered (S. F. Bacon, 1600’s) “Coasts of continents fit together like a puzzle.” Lead to theory of continental drift and plate techtonics.

9 Pangea (reptile fossils)

10 So…WHERE DID WE START AND WHERE ARE WE NOW?

11 Figure 2.14a

12 Figure 2.14e

13 PLATE TECTONICS Continental drift leads to the theory of Plate tectonics Although Bacon discussed it in the 1600’s, it was not understood until the 1960’s.

14 The Ocean Floor (P. Tectonics) Mid-Ocean Ridges –Underwater mountain ranges –Fault: Crack in earths crust –Rift: Ocean crust separates & creates “cracks” –Earthquakes are common Trenches –Deep depressions in the seafloor –Mostly in Pacific, Volcanoes common

15 Major features of Sea Floor

16 CO 2 Mid-Atlantic Ridge (above sea surface in Iceland)

17 Sea-Floor Spreading (plate tectonics) New sea-floor forms at mid-ocean ridges (where the edge of these “plates” meet) Continental Drift: If the plate (as it spreads away from the ridge) contains continental crust (on top) the continents “drift” (move) apart.

18 How? Convection and Density!

19 Figure 2.08 Sea Floor Spreading: X-section of sea floor @ Mid ocean ridge

20 Figure 2.07 Paleomagnetism: Normal magnetism @ ridge crests (but Reversed in other locations)

21 We get: Plate boundaries With geologic activity, such as earthquakes, that (may) correspond w/ these plate boundaries

22 Earthquake and Volcano distribution

23 Lithospheric plate boundaries

24 How does everything move? Plate Tectonics! The earth’s upper layer, the lithosphere, is divided into plates Plates may contain sea-floor, continents, or both Plates are moving (few cm per year), floating on top of the earth’s molten mantle

25 Subduction (plate techtonics) sea-floor is destroyed by plunging back into the earth’s interior at trenches When 2 plates collide, 1 dips below the other (in to the mantle) and 1 is destroyed (causing, sometimes, earthquakes) Ocean vs. Cont. plate: ocean plate destroyed, can get coastal mountain ranges Ocean vs. Ocean plate: 1 dips = volcano or earthquake Cont. vs. cont: none destroyed, mnt. Ranges fold 2 plates, no collision, lock/shear/earthquake (S. Andreas F)

26 Figure 2.10 Continental + Oceanic plate collision = trench, earthquake

27 Figure 2.11 2 oceanic plates collide = trench/earthquake

28

29 Figure 2.13 San Andreas Fault (CA)

30 Sea Floor Regions All of this “plate” movement and geologic activity that occurs under the water yields different sea floor regions Each dependent upon depth, width, slope etc.

31 Regions of the sea-floor Continental Margins contain continental shelf, slope and rise Cont. shelf = shallow, most “rich” (diverse) Deep Ocean Floor, “Abyssal Plain” The Ocean “floor” (on average) is 2-3.5 miles BELOW the oceans (water) surface!

32 Figure 2.17 Continental margin

33 Active vs. Passive Margins An active margin is a geologically very “active” area; whereas a Passive margin is a geologically in-active area.

34 Figure 2.18 (Passive Margin) Continental Shelf (19 mi. off of Atlantic City, NJ) Shelf break Tom’s Canyon

35 The California Coast Monterey Canyon

36 Active Coast (CA)

37 Margins We know what it looks like at the top of the (Continental) margin but what does it look like AT the margin (at the ridge line, deep under the oceans surface)?

38 Figure 2.24 “Black Smoker” Hydro- thermal Vent (at a Mid Ocean Ridge)

39 Black Smoker, cross section

40 Who are we? Iceland, Azores = fault (mountain) Andes (mts.) = subduction trench (o-c) Aleutian/Mariana (Is.) = sub. trench (o-o) Himalayas (mts.) = sub. Trench (c-c) Hydrothermal vents: Deep Ocean See Fig. 2.5 for locations and other “interesting” places to visit.

41 Major features of Sea Floor


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