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Tides

Tides. Tides are huge shallow water waves. They are caused by: - Gravitational force of moon and sun Motion of the earth. Tides.

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Tides

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  1. Tides • Tides are huge shallow water waves. • They are caused by: - Gravitational force of moon and sun • Motion of the earth

  2. Tides • Tides are periodic, short-term changes in the height of the ocean surface at a particular place, due to gravitational attraction of the moon and sun and the motion of the earth. • Wavelength can be one half of the circumference of the earth.

  3. Tides • Equilibrium theory of tides (due to position and attraction of earth, moon and sun only) • Dynamic theory of tides (takes into account water depth and interference of continents)

  4. Tides • Moon has greatest effect on tides • Sun has about one half the effect

  5. Tides • Lunar cycle - explanation of what we see • Equilibrium theory of tides - idealized view (attraction of earth, moon and sun and their motion) • Dynamic theory of tides - more realistic view (water depth, continents in the way, tide rocks back and forth in ocean basins)

  6. -Lunar cycle- tidal day is 24 hrs, 50 min long

  7. 3 4 2 5 1 6 8 7

  8. Some points about the earth/moon system: • Lunar day is 27 days, 7 hours, 43.2 minutes • Moon rises 50 minutes later each day • High tide is 50 minutes later each day • Moon does not stay over the equator • Each month it moves 28.5 degrees • above and below the equator

  9. View model of earth, moon and sun

  10. Tides • Equilibrium theory of tides (due to position and attraction of earth, moon and sun only) - assumes that the ocean surface is in balance with the forces acting on it.

  11. What is the affect of moon on the ocean surface? • Gravity tends to pull earth and the moon together • Inertia tends to keep them apart (“centifugal force”) • Earth and moon are in a stable orbit. Inertia keeps water in a bucket that swings overhead. Imagine two people holding hands and spinning Imagine earth and moon connected by a stick and orbiting - center of mass is about 1000 miles into earth.

  12. Newton, 1687 The pull of gravity between two bodies is proportional to the masses of the bodies but inversely proportional the square of the distance between them. What does this mean? Heavy bodies attract each other more strongly. Gravitational attraction quickly weakens as the distance grows longer.

  13. F= Gravitational attraction F = G (m1m2/r2) G= gravitational constant m1 = mass of object one m2 = mass of object two r = distance between their centers

  14. moon does not stay over the equator • each month it moves 28.5 degrees • above and below the equator

  15. Moon is closer to the earth so has a bigger effect than the sun, even though the sun is much larger (more massive). Sun has about 1/2 effect on ocean surface as does the moon.

  16. Continents interfere with tide movement

  17. Gulf of California Tide in a bathtub Mode at center of Gulf - least tide Extreme tides in N & S Gulf North - shallower, most extreme tides “seiche”

  18. How are tides measured? • Depth guages measure depth change at a site • One year of data per site is minimum necessary • Need 18.5 years to most astronomical data and most accurate record for tides at a spot.

  19. Types of tides Diurnal (one low, one high per day) Semidiurnal (two lows, two highs per day) Mixed (lows and highs are unequal)

  20. Spring tides (springen - “to move quickly”) During full and new moons Most extreme tides Neap tide (naepa - “hardly disturbed”) During quarter moons Least extreme tides

  21. Tides • Tides are huge shallow water waves. • Caused by gravitational force of moon and sun, & motion of the earth • Moon exerts a greater tidal effect than does sun • Ocean basins and water depth influence tides

  22. Ocean currents and upwelling

  23. Ocean currents and upwelling • Why does water pile up in the western Pacific and how does this lead to upwelling in the eastern Pacific? • - Sun drives wind • Wind drives currents

  24. Ocean currents and upwelling Strong southeasterly winds prevail along S. America Coast. Coriolis Effect due to earth’s rotation drag water to the left (northwest). Cold deep water comes to surface to replace the surface water = upwelling.

  25. Ocean currents and upwelling • - Sun drives wind • Wind drives currents • Earth’s rotation to the east causes wind and water to: • -Deflect to the right in the • Northern hemisphere • - Deflect to the left in the • Southern hemisphere • -Leads to gyres (huge circular currents) in the ocean basins • Leads to Trade Winds at Equator (Easterlies) • Leads to Westerlies at Poles • Water piles up on the western boundaries of oceans • Water blown from shore on the eastern boundaries of oceans • Upwelling occurs when water blown from shore

  26. Effects of tides on life in the intertidal • Intertidal zone - what is it? • What is it like to live there?

  27. Effects of tides on life in the intertidal • Intertidal zone - what is it? Area of the shore that is uncovered and covered by the tides each day. • What is it like to live there? Good! (soup of food, gases, mobility for larval forms, etc) Challenging at the interface of land and sea What are some of challenges?

  28. Life in the intertidal Challenges: Physical factors Desiccation (drying), heat, wind, waves Biological factors Competition, predation, mutualism, commensalism

  29. life in the intertidal Diversity- most phyla are marine 35-39 phyla of animals, most are marine, majority exclusively marine (insects dominate on land) Differences between life in sea versus land: Lots of suspension, filter and deposit feeders Larval stages are mobile Radial symmetry not uncommon Many sessile animals

  30. Research (“Intertidal Stories”) at Rocky Point • Sponge isopod and three male forms • Seastar plague from El Nino (1978- present) • Angelic tooth snail and barnacles • Nerite snail “arms race” with lumpy claw crab • Hermit crab zonation and clumping • Invasion of the killer hydroid

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