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Transcript
Earth Science Common Assessment #8 Oceans and other Salty Stuff 12 easy* questions *If you can remember my presentation! Submarine Topography • The shape of the ocean floor is known to scientists as submarine topography. The floor contains mountains, plains, canyons, plateaus, basins, and other topographic features that are found on land. Usually, the ocean bottom is divided into three major zones: the continental margin*, the ocean-basin floor*, and the mid-ocean ridge*. The continental rise • The continental rise* is an underwater feature found between the continental slope and the abyssal plain. • This feature can be found all around the world, and it represents the final stage in the boundary between continents and the deepest part of the ocean. • The environment in the continental rise* is quite unique, and many oceanographers study it extensively in the hopes of learning more about the ocean and geologic history. Higher Salinity* • What do you think the factors for higher salinity might be? Seamounts* What are seamounts? Seamounts are undersea mountains Usually of volcanic origin rising from the seafloor and peaking below sea level. A seamount tall enough to break the sea surface is called an oceanic island, e.g., the islands of Hawaii, the Azores and Bermuda were all underwater seamounts at some point in the past. Seamounts are undersea mountains Why are seamounts so important? • Seamounts are hotspots of marine life in the vast realms of the open ocean. As they stand proud of the surrounding seabed they tend to concentrate water currents and they can have their own localized tides, eddies and upwelling's (where cold, nutrient-rich, deepwater moves up along the steep sides of the seamount). SO? Marine mammals, sharks, tuna and cephalopods , and even seabirds all congregate over seamounts to feed on the rich booty of marine life. Summary Seamounts http://www.montereyinstitute.org/noaa/lesso n15.html - Upwelling* • Upwelling is the process by which subsurface water is brought to the surface. • Upwelled water is usually colder, saltier, and often has higher concentrations of nutrients and dissolved oxygen than the water it replaces. • Nutrients provided by upwelling promote the growth of phytoplankton which form the basis of the marine food chain. • Many of the world's major fisheries are located in areas where strong persistent upwelling occurs. Abyssal Plains* are the most level places on Earth • Science and the Sea - Abyssal Plains Abyssal Plains* • There are several distinct abyssal plains across the world's oceans. • Each abyssal plain starts at a continental rise and continues until it reaches a mid-oceanic ridge, resuming on the other side. • Mid-oceanic ridges are huge underwater mountain chains marking major plate boundaries. • These ridges are also the primary source of seafloor spreading, since they are slowly pulling apart. • Since the continental slope and the ridges essentially form the edge of a deep bowl, some people refer to the abyssal plain as the ocean basin. • Overall, the abyssal plain represents around 40% of the ocean floor. Abyssal Plains* • While some people visualize the abyssal plain as desert-like, this characterization is far from the truth. • The environment is actually teeming with life, since a multitude of organisms have adapted to the intense conditions. • Organisms which live on or around the abyssal plain have specialized body structures which are designed to handle the pressure, and they often look unusual and fantastic; photographs and drawings of these creatures could be mistaken for alien life. Thermocline* a transition layer between deep and surface water • The thermocline is the transition layer between the mixed layer at the surface and the deep water layer. • The definitions of these layers are based on temperature. • The mixed layer is near the surface where the temperature is roughly that of surface water. In the thermocline, the temperature decreases rapidly from the mixed layer temperature to the much colder deep water temperature. http://www.encyclopedia.com/video/FuOX23yX hZ8-ocean-odyssey-density-current.aspx • Video About Ocean Odyssey - Density Current | Encyclopedia.com Oxygen* • Is supplied to deep-sea life by density currents that form at the surface and then sink The Continental Shelf The Continental Shelf* • The continental shelf is the gently sloping undersea plain between a continent and the deep ocean. • The continental shelf is an extension of the continent's landmass under the ocean. • The waters of the continental shelf are relatively shallow (rarely more than 150 to 200 meters deep) compared to the open ocean (thousands of meters deep). • The continental shelf extends outward to the continental slope where the deep ocean truly begins. Distinct Marine Life Zones Available sunlight, water depth, and the distance from shore all determine Marine Life Zones Latitude* is not a factor in determining marine life zones The oceanic trenches • The oceanic trenches are long but narrow topographic depressions of the sea floor. Trenches are the deepest parts of the ocean floor. The oceanic trenches* • A deep-sea trench is a narrow, elongate, v-shaped depression in the ocean floor. Trenches * are the deepest parts of the ocean, and the lowest points on Earth, reaching depths of nearly 7 mi below sea level. • These long, narrow, curving depressions can be thousands of miles in length, yet as little as 5 mi in width. • Deep-sea trenches are part of a system of tectonic processes termed subduction. Salinity • The salinity of ocean water varies. • It is affected by such factors as melting of ice, inflow of river water, evaporation, rain, snowfall, wind, wave motion, and ocean currents that cause horizontal and vertical mixing of the saltwater. HOW SALTY IS THE OCEAN?... • Some scientists estimate that the oceans contain as much as 50 quadrillion tons (50 million billion tons) of dissolved solids. • If the salt in the sea could be removed and spread evenly over the Earth's land surface it would form a layer more than 500 feet thick, about the height of a 40-story office building. THE SALTIEST WATER*... • The saltiest water occurs in the Red Sea and the Persian Gulf, where rates of evaporation are very high*. What can make the ocean SALTIER? • Salts become concentrated in the sea because the Sun's heat (temperature*) distills or vaporizes almost pure water from the surface of the sea and leaves the salts behind. • This process is part of the continual exchange of water between the Earth and the atmosphere that is called the hydrologic cycle. The density of sea water depends on: • Temperature* , • Salinity and • Pressure , which increases with water depth.
