Class 15 -- The Oceans

1. Class 15 -- The Oceans PROPERTIES OF SEA WATER Salinity Effect of salinity on physical properties ENERGY TRANSMISSION/ABSORPTION IN WATER AND SEA WATER Heat Light

2. SEA WATER (= Ocean water): • Salinity - - amt. of dissolved salts; symbol = S • Average S = 35 g/kg (p.p.t., ‰) • Range (most sea water): 30 -37 ‰ • How does sea water differ from fresh water? • Greater S --> greater density • Dissolved salts change water properties… • Boiling point higher = 103˚C • Freezing point lowered...

3. Freezing of sea water: 1- salt exclusion • -- Begins to freeze at -2˚C • -- Salt is excluded from the ice that is formed. • -- Remaining water saltier, so... • -- This water freezes at lower temp. • -- As seawater cools below 4˚C, density increases • Very important: This means that the coldest sea water sinks to the bottom. • Oceans not stratified like lakes in winter

4. Density of sea water just above • the freezing point • -- As seawater cools below 4˚C, density increases • Unlike fresh water lakes • Very important: This means that the coldest sea water sinks to the bottom. • This creates deep currents (more later)

6. Density of seawater- • ... Higher S water is denser • ... Colder water is denser • Very important! Remember convection: • Dense water at ocean surface SINKS in places where water is • coldest and/or • salinity is highest, caused by • freezing • evaporation • “Deep water” currents come from these areas

9. Why is the ocean blue? How deep does sunlight penetrate into the oceans? How does solar energy get absorbed by the ocean?

10. Sunlight energy transmission and absorption by water • Radiant energy = Radiation -- direct transmission, through space, air, water, etc. • Different wavelength (l) waves are different colors of light, different types of radiant energy • Solar energy- many l’scombined

11. Fig. 13.3

12. Absorption of solar radiation by the oceans • Sun’s rays reaching the sea surface: • visible • infrared = heat • ultraviolet • Absorption by ocean water is strong, but depends on wavelength...

14. How much energy or light is absorbed at various depths? What kind of energy or light is absorbed at various depths?

18. Consequences: • Photosynthesis <150 meters • Heating from sun only affects top several meters • Blue color of sea water: only shorter wavelengths at depth

19. Photosynthesis limited to top <150 m

20. Water vapor = “latent” heat

21. Heat Within The Oceans

22. Conduction -- heat energy transfer between touching substances: warm to cool • Surface of the ocean <--> atmosphere • conduction important • BUT only affects the top few meters • Conduction between surface of ocean and deep water – not much • Water is a poor heat conductor over long distances • Example: Water at 1000m depth near Bahamas is barely above freezing!

23. Warm Climate Zones: Warm surface layer+ cold water belowStratification

24. Cooling Heating Convection Heat or “coldness” moves with density-driven currents Convection very important in the atmosphere and the oceans Atmosphere- Heated at bottom, cooled at top

25. North Atlantic Equator Cooling Heating • Convection in the Oceans- • Cooling of surface water in far north, far south • Warming of surface water at low latitude