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The Nature of Oceans

The Nature of Oceans. Chapter 16. Global Ocean?. Separate but whole Divisions resulting from Continents Island arcs Straits Political boundaries. Salinity. Total dissolved salts (all dissolved ions). Oceans as buffers. Dissolved gasses CO2 and O2

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The Nature of Oceans

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  1. The Nature of Oceans Chapter 16

  2. Global Ocean? • Separate but whole • Divisions resulting from • Continents • Island arcs • Straits • Political boundaries

  3. Salinity • Total dissolved salts (all dissolved ions)

  4. Oceans as buffers • Dissolved gasses • CO2 and O2 • Atmospheric gasses and dissolved ocean gas concentrations

  5. Salinity and Latitude (in ppt)

  6. Other salinity factors • Coastlines • Fresh water inflow—rivers

  7. “Ogres…I mean, Oceans are like onions…” • Thermal layering—think oil/water Epipelagic zone—surface to 200-450 m Constant temp—stirring by wind/waves Thermocline—layer of rapidly decreasing temperature Here be strange critters—FRIGG’N COLD Polar seas—exception--no layering

  8. Ocean Currents • Surface currents in upper 400 m • Involve 10% of water in oceans • Driven by wind horizontally • Deep-sea currents caused by changes in density below 400 m • Vertical and horizontal changes • Driven by density

  9. Surface Currents • Benjamin Franklin and mail • Driving force • Friction between wind and water—circular ocean currents--gyres

  10. Notice Something Odd? • Currents do not always flow in direction of prevailing wind—why? • Coriolis Effect • All free standing objects in N. hemisphere are deflected to the right--opposite in S. hemisphere

  11. Effect on Oceans WIND Wind effect on Water with Depth Coriolis Effect and Water Depth (collectively named Ekman Transport)

  12. Surface Currents • Can also profoundly affect climate

  13. Deep-sea Currents • Caused by cooling temperature and rising salinity • Thermohaline circulation)

  14. Something cold with salt? • Wind near poles = cold • Wind causes evaporation • Water salinity increases • Water temp decreases • Density of water at poles = high • Water sinks at poles and rises near the equator

  15. Upwelling Elkman transport Nitrogen, phosphates and silica— Support plankton populations—base of Food chain Fishing industry

  16. Tides • Gravitational pull of moon and sun causes Earth’s oceans to swell at given times • Two tides per day—12 hours apart • Place directly beneath moon—strongest pull • Only part of story

  17. What Causes Tides? • Second tide—when moon on opposite side of Earth--Why? Actual E/M system Common conception of E/M system

  18. Tide Times • Tides do not occur at same time everyday • Tot offset by 53 minutes/day

  19. Types of tides Spring Tide ~ Seven Days Between… Neap Tide

  20. Who Cares? • Tides (whether high or low) can affect wave height/erosion • Especially in narrow inlets • Its an additive effect • Think about: • Waves • Storm surge

  21. Narrow inlets • Bay of Fundy, Canada • Shape of bay creates dramatic changes between normal and high tides LT HT

  22. Storm Surge • A low pressure effect • Stronger waves, more erosion • Decrease beach slope

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