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The Sea Floor Chapter 2 Slide 2 The Water Planet Habitats are shaped by geological processes o Form of coastlines o Depth o Type of bottom sandy, muddy, rocky Slide 3 Case in Point Satellite images of Aceh Province, Indonesia before (left) and after (right) the December 2004 tsunami destroyed coastal villages. Note areas denuded of vegetation along the coast. Slide 4 The Water Planet Earth has lots of liquid water Most other planets have little water Oceans play major role in weather Without water life would not be possible 71% of the earth is covered by water 2/3 of the land on earth is found in the Northern Hemisphere Slide 5 5 Major Ocean Basins Pacific deepest and largest (as big as the others combined) Atlantic 2 nd Largest Indian - similar depths to Atlantic Arctic smallest, shallowest Southern 4 th Largest not universally recognize as an ocean Slide 6 The Worlds Oceans Slide 7 World Ocean The oceans are interconnected not separate The connections allow sea water, materials, and some organisms to move from one to another Slide 8 Big Bang Earth is about 4.6 billion years old Big Bang Theory - 15 billion years ago Materials settled according to their density Slide 9 Density Density is mass of a given volume Which has more volume, a pound of lead or a pound of feathers? Slide 10 Density Denser materials tend to sink Densest material flowed to the center of the earth Lighter material floated on the surface. Light material cooled and formed a thin crust Slide 11 Slide 12 Core Innermost layer core o Mostly iron alloys o Solid inner, Liquid outer core O High pressure o 4000 degrees Celsius Slide 13 Mantle outside core * solid very hot flows like liquid, but much slower Crust Outermost Very thin Like rigid skin floating on the mantle Slide 14 Minerals Oceanic crust minerals called basalt Continental granite Oceanic crust is denser Oldest oceanic rocks are less than 200 million years old * Continental rocks up to 3.8 billion years Slide 15 Continental Drift 1620 Francis Bacon Noted the continents fit together like pieces of a puzzle Coal deposits and other geological formations match up on opposite sides of the Atlantic Fossil evidence also supports this idea Slide 16 Continental Drift Alfred Wegener proposed continental drift proposed that all the continents were once joined in a single supercontinent Pangea Started breaking up 180 million years ago Slide 17 Slide 18 Slide 19 Plate Tectonics What causes the continents to drift? A process called plate tectonics Slide 20 Mid Ocean Ridge Sonar surveys revealed a mid ocean ridge system Continuous chain of volcanic submarine mountains that circle the earth Largest geological system on the planet At regular intervals transform faults Sometimes the ridges are so high they break the surface like iceland Mid-Atlantic Ridge runs down the middle of the Atlantic Ocean Slide 21 Ridges Slide 22 Ridges & Trenches Great deal of activity around the ridges Earthquakes around the ridges Volcanoes at the trenches Scientists found that the farther you get from the ridge, the thicker the sediments get and the older the rocks Slide 23 Earths Magnetic Field The earths magnetic field reverses a few times every million years During the shift, a compass would point to the magnetic north that is what is now the south pole. Cause of the reversals is unknown, but thought to be related to changes in movement of material in the outer core Slide 24 Magnetic Anomolies Many rocks are magnetic. If they are in the molten outer core, they are free to point to magnetic north When the rocks cool, they stay in the same position Geologists found a pattern of magnetic stripes or bands in the mid ocean ridge system. Symmetrical around the ridge mirror images The magnetic bands are called magnetic anomalies Slide 25 Slide 26 Slide 27 A 5 mya B 3 mya C- present day Slide 28 What did that show? Shows the sea floor was not formed all at once, but in strips along the mid-ocean ridge Slide 29 Creation of the Sea Floor Magnetic anomalies together with other evidence led to the understanding of plate tectonics At the ridges, large pieces are separating As the pieces separate, they form a crack or rift This releases pressure and some material rises through the rift The ascending material pushes up and forms a ridge The process is called sea-floor spreading Slide 30 Sea Floor Spreading and Plate Tectonics Lithosphere Rock Sphere Broken into plates called lithospheric plates Slide 31 Plates The plates are about 100 km thick Plates contain oceanic crust, continental crust or both The Mid-Ocean Ridges form the edges of many of the plates Slide 32 Slide 33 How Fast Do They Move? The plates move at between 2 and 18 cm per year Human fingernails grow at 6 cm per year Slide 34 Subduction As lithosphere is created at the ridges, it must be destroyed somewhere else It is destroyed at the trenches Trenches are formed when 2 plates collide and one sinks below the other The downward movement is called subduction Trenches are sometimes called subduction zones Slide 35 Slide 36 Slide 37 ??? Oceanic plate always descends into the mantle when colliding with a continental plate. Why? Slide 38 Answer Because the continental plate is less dense Slide 39 A Record in the Marine Sediments 2 major types of sediments are found in the sea. Lithogenous sediment - Physical and chemical breakdown or weathering of rock Biogenous Sediment Skeletons and shells of marine organisms Calcium carbonate calcareous ooze Silica siliceous ooze Slide 40 A Record in the Marine Sediments Most sediment is in the form of microfossils Tell what kind of organisms lived there in the past Clues to environment cold, warm for example Slide 41 Guyot Shelf Break Slide 42 Deep Ocean Floor Abyssal plain flat, 3000 to 5000 feet deep Dotted with seamounts volcanoes Flat topped seamounts guyots Hydrothermal vents areas where heated seawater are forced up through the crust Slide 43 Hydrothermal Vents Water is up to 350 C (660 F) Mainly sulfides are dissolved in the water and form black smokers Black smokers are chimney like structures that build up as minerals solidify Rich marine life