Surface ocean : Wind driven circulation

Question 1

4 Forces controlling ocean current circulation

Answer 1

Fw- Wind stress
Fp- Pressure
Ff- Friction
Fc- Coriolis force

Question 2

Coriolis force

Answer 2

where an object moving with respect to the Earth tends to be deflected to the right in the Northern hemisphere and to the left in the southern

Question 3

Centrifugal Force

Answer 3

Tendence for an object to fly away from the axis of rotation

Question 4

Ekman transport

Answer 4

Wind stress balances the Coriolis force

Question 5

Geostrophic currents

Answer 5

Pressure gradients balance coriolis force

Question 6

Rule of geostrophic flow:

Answer 6

Water moves along isobars with the higher pressure on its left in Southern Hemisphere and to its right in Northern Hemisphere

Question 7

Why do winds circulate around anti-cyclones?

Answer 7

Balance of atmospheric pressure by Coriolis force

Question 8

Planetary and Relative vorticity

Answer 8

The movement of ocean water creates rotations of various sizes, from small eddies to large gyres. This spinning motion is called local relative vorticity.

Question 9

Total Vorticity

Answer 9

Every water parcel has a total spin which is the sum of planetary vorticity and local relative vorticity

Question 10

Planetary vorticity

Answer 10

The inherent spin a water body gets due to Earth’s rotation- increases as you move north (anticlockwise in the N.Hemisphere)

Question 11

Local relative vorticity

Answer 11

Additional spin the water has due to its own currents

Question 12

Conservation Principle

Answer 12

As water moves around, its total vorticity needs to stay constant - if planetary vorticity increases (moving North) , local relative vorticity must decrease (spin slower or change direction) to keep total spin balanced.

Question 13

Wind Torques

Answer 13

=A cyclonic or anticyclonic wind pattern when it exerts a twisting force

Question 14

Sverdrup transport

Answer 14

• Ekman Pumping provides squashing or stretching
• Water columns must respond. They do this by changing latitude

Question 15

Local relative vorticity can be lost by …

Answer 15

friction between ocean currents and the continents

Question 16

Planetary vorticity can be lost by:

Answer 16

Moving towards the equator

Question 17

Subtropical Gyres

Answer 17

Anticyclonic

Question 18

Subpolar gyres

Answer 18

Cyclonic

Question 19

Ekman Suction:

Answer 19

Ekman transport divergence= upwelling

Question 20

Ekman Pumping

Answer 20

Convergence= Downwelling

Question 21

Potential Vorticity

Answer 21

Q= (f+ζ)/H
Potential vorticity= (planetary vorticity + relative vorticity )/ Column Height)

Question 22

Stretching 1/H

Answer 22

height of the water column= denominator since making a column taller makes it spin faster

Question 23

Conservation of potential vorticity

Answer 23

Planetary vorticity grows, relative vorticity must decrease

Question 24

Squashing

Answer 24

Equatorward movement

Question 25

Stretching

Answer 25

Poleward movement

Question 26

If there is a decrease in H

Answer 26

Decrease in latitude- water moves towards the equator

Question 27

To compensate for the Sverdrup transport…

Answer 27

Western boundary currents are developed in all ocean basins as a strong and deep poleward flow of water

Question 28

Eddies

Answer 28

• Friction can create or destroy vorticity by producing a velocity gradient
• Frictional effects are confined to a boundary layer

Question 29

Conservation of vorticity

Answer 29

Produces eddies beyond the edge of a spit when drag of coastal friction is removed

Question 30

Gulf stream- North of Cape

Answer 30

Broad Shelf of shallow sea relatively untouched by the warm waters of the Gulf Stream but more influenced by v. cold waters of the Labrador with temperature between 3 and 9 C

Question 31

Examples of upwelling- Atlantic Ocean

Answer 31

Tropical Atlantic: off the Coast of Africa e.g. Gulf of Guinea
North Atlantic: Canary Islands

Question 32

What direction do trade winds transport wind from 30S-30N ?

Answer 32

East to West

Question 33

What latitudes do westerlies occur? W-E

Answer 33

30-60N and 30-60S