Lecture 4: OCEANS (Outline)

Basic Structures and Dynamics

      Ekman transport

      Geostrophic currents

Surface Ocean Circulation

      Subtropicl gyre

      Boundary current

Deep Ocean Circulation

      Thermohaline conveyor belt

The State of Oceans

Temperature

    warm on the upper ocean, cold in the deeper ocean.

Salinity

   variations caused by determined by evaporation, precipitation, sea-ice formation and melt, and river runoff.

Density

    small in the upper ocean, large in the deeper ocean.

Characteristics of the Gyres

Currents are in geostropic balance

Each gyre includes 4 current components:

      two boundary currents: western and eastern

      two transverse currents: easteward and westward

Western boundary current (jet stream of ocean)

       the fast, deep, and narrow current moves warm water polarward (transport ~50 Sv or greater)

Eastern boundary current

      the slow, shallow, and broad current moves cold water equatorward (transport ~ 10-15 Sv)

Trade wind-driven current

       the moderately shallow and broad westward current (transport ~ 30 Sv)

Westerly-driven current

       the wider and slower (than the trade wind-driven current) eastward current

Major Current Names

Western Boundary Current

     Gulf Stream (in the North Atlantic)

       Kuroshio Current (in the North Pacific)

       Brazil Current (in the South Atlantic)

       Eastern Australian Current (in the South Pacific)

       Agulhas Current (in the Indian Ocean)

Eastern Boundary Current

      Canary Current (in the North Atlantic)

       California Current (in the North Pacific)

       Benguela Current (in the South Atlantic)

       Peru Current (in the South Pacific)

      Western Australian Current (in the Indian Ocean)

Gulf Stream

Surface Current – Geostrophic Gyre

Mixed Layer

      Currents controlled by frictional force + Coriolis force

      à wind-driven circulation

      à Ekman transport (horizontal direction)

      à convergence/divergence

      à downwelling/upwelling at the bottom of mixed layer

Thermocline

      downwelling/upwelling in the mixed layer

      à pressure gradient force + Coriolis force

      à geostrophic current

      à Sverdrup transport (horizontal)

Step 1: Surface Winds

Winds and Surface Currents

Step 2: Ekman Layer
(frictional force + Coriolis Force)

Ekman Spiral – A Result of Coriolis Force

Formula for Ekman Transport

How Deep is the Ekman Layer?

Ekman Transport

Mixed Layers in the Atmosphere and Ocean

Step 3: Geostrophic Current
(Pressure Gradient Force + Corioils Foce)

Ekman Transport à Convergence/Divergence

Geostrophic Current

Step 4: Boundary Currents

Boundary Currents

Eastern Boundary Current

Costal Upwelling/Downwelling

Interior Upwelling / Downwelling

Deep Ocean Circulation: Density-Driven

Thermohaline Circulation

Two Regions of Deep Water Formation

Ocean Water Mass

Surface Water

      to a depth of about 200 meters

Central Water

      to the bottom of the main thermocline

Intermediate Water

      to about 1500 meters

Deep Water

      below intermediate water but not in

      contact with the bottom

Bottom Water

      in contact with sea floor

Thermohaline Conveyor Belt


	Basic Structures and Dynamics
	Ekman transport
	Geostrophic currents
	Surface Ocean Circulation
	Subtropicl gyre
	Boundary current
	Deep Ocean Circulation
	Thermohaline conveyor belt


	Temperature
	warm on the upper ocean, cold in the deeper ocean.
	Salinity
	variations caused by determined by evaporation, precipitation, sea-ice formation and melt, and river runoff.
	Density
	small in the upper ocean, large in the deeper ocean.


	Currents are in geostropic balance
	Each gyre includes 4 current components:
	two boundary currents: western and eastern
	two transverse currents: easteward and westward
	Western boundary current (jet stream of ocean)
	the fast, deep, and narrow current moves warm water polarward (transport ~50 Sv or greater)
	Eastern boundary current
	the slow, shallow, and broad current moves cold water equatorward (transport ~ 10-15 Sv)
	Trade wind-driven current
	the moderately shallow and broad westward current (transport ~ 30 Sv)
	Westerly-driven current
	the wider and slower (than the trade wind-driven current) eastward current


	Western Boundary Current
	Gulf Stream (in the North Atlantic)
	Kuroshio Current (in the North Pacific)
	Brazil Current (in the South Atlantic)
	Eastern Australian Current (in the South Pacific)
	Agulhas Current (in the Indian Ocean)
	Eastern Boundary Current
	Canary Current (in the North Atlantic)
	California Current (in the North Pacific)
	Benguela Current (in the South Atlantic)
	Peru Current (in the South Pacific)
	Western Australian Current (in the Indian Ocean)


	Mixed Layer
	Currents controlled by frictional force + Coriolis force
	à wind-driven circulation
	à Ekman transport (horizontal direction)
	à convergence/divergence
	à downwelling/upwelling at the bottom of mixed layer
	Thermocline
	downwelling/upwelling in the mixed layer
	à pressure gradient force + Coriolis force
	à geostrophic current
	à Sverdrup transport (horizontal)


	Surface Water
	to a depth of about 200 meters
	Central Water
	to the bottom of the main thermocline
	Intermediate Water
	to about 1500 meters
	Deep Water
	below intermediate water but not in
	contact with the bottom
	Bottom Water
	in contact with sea floor