1 / 87

Fnft: The major plates of the earth's crusts

What does the bottom of the ocean look like? OR What is the topography or bathymetry of the ocean floor?. Fnft: The major plates of the earth's crusts. Courtesy of Reto Stockli, NASA Earth Observatory. Topography of the Ocean Floor. echo soundings (1920’s)

jude
Télécharger la présentation

Fnft: The major plates of the earth's crusts

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. What does the bottom of the ocean look like?ORWhat is the topography or bathymetry of the ocean floor?

  2. Fnft: The major plates of the earth's crusts Courtesy of Reto Stockli, NASA Earth Observatory

  3. Topography of the Ocean Floor • echo soundings (1920’s) • ocean was not deepest in the center • deepest part of the ocean lie near its edges

  4. Figure 3.3- Side-scan SONAR (Sound Navigation and Ranging)

  5. Figure 3.2- Multibeam SONAR (Sound Navigation And Ranging)

  6. An echo sounder trace. A sound pulse from a ship is reflected off the seabed and returns to the ship. Transit time provides a measure of depth. For example, it takes about 2 seconds for a sound pulse to strike the bottom and return to the ship when the water depth is 1,500 meters (4,900 feet). Bottom contours are revealed as the ship sails a steady course. In this trace, the horizontal axis represents the course of the ship, and the vertical axis represents the water depth. The ship has sailed over a small submarine canyon.

  7. Ridges/trenches in South Atlantic Sea Floor

  8. Figure 3.C

  9. Bathymetry can tell you where things are: Oceanic ridge system Fig nft

  10. Figure 3.6

  11. BATHYMETRY – OCEAN FLOOR CONTOURS Fig 4-5, g

  12. Atlantic Ocean

  13. fnft

  14. Fnft: Some large-scale features of the North Atlantic seafloor Courtesy National Geophysical Data Center/NOAA

  15. Mid-Atlantic Ridge between Florida and western Africa • Canyon in middle of ridge

  16. Topography of the Ocean Floor REMEMBER: • deepest part of the ocean lie near its edges

  17. fnft

  18. Topography of the Ocean Floor • Submerged outer edge of the continents are called continental margins • Deep-sea floor beyond these is called the ocean basin

  19. Fig 4-9, g

  20. Figure 3.8

  21. Florida coast

  22. but • What goes UP must go DOWN! & • There are 2 sides to every…OCEAN!

  23. Figure 3.7

  24. Fig 4-7, g

  25. 2 types of “margins” • PASSIVE MARGIN: Continental margins that face diverging plates. These do not coincide with plate boundaries. Little or no activity. Typically associated with the Atlantic. • ACTIVE MARGIN: Continental margins that face converging plates. These coincide w/plate boundaries. A lot of activity (earthquake/volcano). Typically associated with the Pacific.

  26. Continental Margins • Passive margins – • continental margins not located on plate boundaries • Atlantic-type margins

  27. Continental Margins • Active margins- • continental margins on the edge of convergent or transform plate boundaries • Pacific-type margins

  28. Fig 4-8, g

  29. Continental Margin:Continental SHELFContinental BREAKContinental SLOPEContinental RISE

  30. Fig 4-9, g

  31. Continental Margins (Shelves) • Width of Continental Shelf is determined by : • proximity to a plate boundary (active margins have narrow shelves while passive margins have broad shelves)

  32. Continental Margins (Shelves) • Continental Shelves • Shallow, submerged extension of a continent • broad, gently sloping • 7.4% of earths Ocean area

  33. Fig nft

  34. Continental (Passive) Margins • Shelf break – • transition between the continental shelf and the continental slope There are also changes from the continental slope (edge of shelf) to the continental rise (ends at edge of ocean floor).

  35. Continental Margins • Continental Slopes • Steeper than the shelf • end at the deep ocean

  36. Fig 4-9, g

  37. Continental Margins • Continental rises • at the base of continental slope • covered by a blanket of accumulated sediment • gradual slope

  38. Folded ridges of sediment cover the ocean floor west of Oregon

  39. Continental Margins • Submarine Canyons • cut into the continental shelf and slope • formed by turbidity currents (avalanche-like sediment movements)

  40. Submarine Canyon Off of The coast Of New Jersey

  41. What comes next? • Where the Continental Slope/Rise (granite rock) meets the “deep” ocean floor you get a sediment covered area (Continental Rise) that meets the “true” ocean floor (basalt rock)…what do you find there? What does it look like?

  42. Fig 4-9, g

  43. Ocean Basin • thick layer of sediment (up to 5 km or 3mi thick) covering basaltic rocks • Make up more than ½ of the earth’s surface

  44. Figure 3.15

  45. Ocean Basin • Oceanic ridges • Underwater mountain chain • an active spreading center • offset at regular intervals by transform faults • You know this as “Sea Floor Spreading” (divergent plate boundary)

  46. WHERE THE RIDGES ARE! Fig nft

More Related