Download THE OCEAN FLOOR

Earth / Environmental Science
Ch. 14 – THE OCEAN FLOOR
The Blue Planet
ƒNearly 70% of the Earth’s surface is covered by the global ocean
ƒIt was not until the 1800s that the ocean became an important focus of
study.
ƒThis is why Earth is often referred to the “Blue Planet” or also “Water
Planet”
Oceanography - The science that draws on the methods and knowledge of
geology, chemistry, physics, and biology to study all aspects of the world’s
oceans.
Geography of Oceans
ƒThe world’s oceans can be divided into four main ocean basins:
ƒthe Pacific Ocean
ƒthe Atlantic Ocean
ƒthe Indian Ocean, and
ƒthe Arctic Ocean
ƒPacific - The largest ocean - covers more than half the surface area on
Earth. It is also the deepest Ocean reaching an average depth of 3940
meters.
ƒAtlantic - Is approximately half the size of the Pacific, and not quite as
deep. The Atlantic and Pacific are bounded to the east and west by
continents.
ƒIndian - Although slightly smaller, the Indian Ocean has approximately the
same depth of the Atlantic. It is located almost entirely in the southern
hemisphere.
ƒArctic Ocean - Is about 7% of the size of the Pacific Ocean. It is also a little
more than one-quarter deep as the rest of the oceans
Mapping the Ocean floor
The topography of the ocean floor is as diverse as that of the continents.
Bathymetry
ƒ - Is the measure of ocean depths and charting of the shape or topography
of the ocean floor.
ƒToday’s Technology - includes sonar, satellites, and submersibles.
ƒThese allow scientists to study the ocean floor in a more efficient and
precise manner than ever before
Sonar
ƒWas invented in the 1920s.
ƒSonar is an acronym for SOund NAvigation and Ranging
ƒSonar works by transmitting sound waves toward the ocean bottom.
Satellites
ƒMeasure the ocean surface from space
ƒMountains and ridges produce elevated areas on the ocean surface.
Features such as canyons and trenches cause slight depressions.
ƒThese rises and depressions are not visible by the human eye
ƒSatellites can measure variations in sea-surface height as small as 3 to 6
centimeters
Submersibles
ƒSubmersibles- Are small underwater crafts used for deep-sea research.
ƒThese are used to collect information about areas of the ocean that are
unreachable by humans.
ƒThe first submersible used was in 1934 by William Beebe. Descending to a
depth of 923 meters
Ocean Floor Features
ƒThe ocean floor regions are the continental margins, the ocean basin floor,
and the mid-ocean ridge
Continental Margin
ƒContinental Margin - The zone of transition between a continent at the
adjacent ocean basin floor
ƒContinental Shelf - the gently sloping submerged surface
ƒContinental shelves contain important mineral deposits, large reservoirs of
oil and natural gas and huge sand and gravel deposits. They also contain
important fishing grounds, which are significant sources of food
Continental Slope
ƒIs the seaward edge of the continental shelf.
ƒIt is steeper than the shelf and marks the boundary between continental
crust and oceanic crust
ƒSubmarine canyons - Deep, steep-sided valleys that cut into the continental
slope
ƒTurbidity currents - Occasional movements of dense, sediment-rich water
down the continental slope
Continental Rise
ƒContinental Rise - The steep continental slope that merges into a more
gradual incline
ƒThe continental rise may be hundreds of kilometers wide, when a
continental slope averages around 20 kilometers
Ocean Basin Floor
ƒOcean basin floor- the area between the continental margin and the mid-
ocean ridge.
ƒDeep ocean trenches form at sites of plate convergence where one moving
plate descends beneath another and plunges back into the mantle
Abyssal Plains
ƒDeep, extremely flat features. Possibly the most level places on earth.
ƒThe sediments that make up abyssal plains are carried there by turbidity
currents or deposited as a result of suspended sediments settling.
Seamounts and Guyots
ƒSeamounts- Submerged volcanic peaks that dot the ocean floor
ƒThe majority of seamounts are found in the Pacific Ocean. They are mainly
volcanoes that have not reached the surface
ƒGuyots - are once-active, now-submerged, flat-topped structures.
Mid-Ocean ridges
ƒIs found near the center of most ocean basins
ƒThis system is the longest topographic feature on the Earth’s surface,
exceeding 70,000 kilometers in length.
Sea-floor spreading
ƒOccurs at divergent plate boundaries where two lithospheric plates are
moving apart
ƒNew ocean floor is formed at mid-ocean ridges as magma rises between
the diverging plates and cools
Hydrothermal vents
ƒHydrothermal vents form along mid-ocean ridges.
ƒThese are zones where mineral-rich water, heated by the hot, newly
formed oceanic crust, escapes through cracks in the oceanic crust into
surrounding water.
Types of Seafloor Sediments
ƒThe ocean floor sediments can be classified according to their origin into
three broad categories:
ƒTerrigenous sediments
ƒBiogenous sediments, and
ƒHydrogenous sediments.
Terrigenous
ƒTerrigenous sediment is sediment that originates on land.
ƒTerrigenous sediments consist of primarily mineral grains that were eroded
from continental rocks and transported to the ocean.
Biogenous Sediment
ƒBiogenous sediment is the sediment that is biological in origin
ƒBiogenous sediments consist of shells and skeletons of marine animals and
algae.
ƒCalcareous ooze- Produced from the calcium carbonate shells of organisms.
Hydrogenous Sediment
ƒHydrogenous sediment consists of materials that crystallize directly from
ocean water through various chemical reactions.
ƒThese sediments make up an overall small portion of the ocean.
Energy Resources
ƒOil and natural gas are the main energy products currently being obtained
from the ocean floor.
ƒOther energy sources are possible from the ocean and could be used in the
future
Oil and Natural Gas
ƒThe ancient remains of microscopic organisms
ƒThe percentage of world oil produced from offshore regions has increased
from trace amounts in the 1930s to more than 30 percent today
Gas Hydrates
ƒMost oceanic gas hydrates are created when bacteria break down organic
matter trapped in ocean-floor sediments.
ƒGas hydrates are compact chemical structures made of water and natural
gas.