Atmospheric circulation

Atmospheric circulation cells and global windsystems - Source: https://upload.wikimedia.org/wikipedia/commons/c/cd/AtmosphCirc2.png

Atmospheric circulation cells and global windsystems

On Earth, an atmospheric circulation takes place (see picture) which is triggered by the temperature difference on the ground at the equator and poles. During the year, the sun is shining perpendicular at the equator whereby there is no sun in winter. In the summer, the sun only shines from a shallow angle. Thus, different pressure areas which trigger a large circulation between the equator and the poles are formed. Because of the earth´s rotation, a direct flow between anticyclone (equator) and depression (poles) is prevented. In the northern hemisphere, the air masses are defelcted to the right and in the southern hemisphere to the left. For that reason, three large circulation cells are generated (Hadley cell, Ferrel cell and the Polar cell).

The main effects of the atmospheric circulation:

  • Continuous transport of humidity from the equator to the north and to the south tropics.
  • Transport of hot air and humidity from the tropics to the temperate zones.
  • Transport of warmer air and humidity from the temperate to the colder zones.

Hadley cell

Atmospheric circulation cells - Source: http://www.s-cool.co.uk/a-level/geography/introduction-to-weather-and-climate/revise-it/atmospheric-circulation-and-motion

Atmospheric circulation cells

At the equator, the air rises up, because of strong heating by the sun. At the tropopause (temperature inversion in about 18km above ground), the air masses will deflect to the North and South. Through area correction, the air masses slide down to the poles. Furthermore, through the earth´s rotation, the winds fall until the 30th latitude and flow back to the equator as trade winds. At the equator, these winds meet in the Intertropical Convergence Zone (ITCZ). This circulation is called Hadley cell.

During the ascend process, the air cools down, the steam inside condenses, clouds are build and it starts to rain very strongly. In  the descending process, the exact opposite is happening. The air gets warm and the water in it starts to evaporate. Desert areas (such as Sahara or Namib Desert) around the 30th latitude are consequences of this procedure. There are several anticyclones in this region, which is caused by the warm air on the ground. These are assigned to the subtropical ridge (horse latitudes).

Polar cell

Near the ground level, air currents flow from the poles toward the equator. These are called polar easterlies, because they are distracted from eastside by the rotation of the earth. Near the 60th latitude, the winds are heated  and rise up on the way to the South. This second circulation is called Polar cell.

Ferrel Cell

Based on air ascent (60th latitude) and air cooling (30th latitude), a third circulation is formed in the area between the 60th and 30th latitude. This circulation is called Ferrel cell. Near ground level, there is an air transport towards the poles wherey the air flows towards the equator at higher levels. In the northern hemisphere, the air on the ground is distracted to the right and in the southern hemisphere to the left. The winds from the West are called westerlies.

The polar front is located on the border between the polar easterlies (cold) and the easterlies (warm). This border is usually between the 60th and the 70th latitude. In this area, depressions often occure.

Exercises

The map below shows the prevailing winds on a high of 10 meters above ground.

Exercise 1: Try to identify the following wind currents on the map.

  • North- East trade wind
  • South- West trade wind
  • Westerlies
  • Polar easterlies

Exercise 2: Try to identify the following anticyclones and depressions on the map.

  • Intertropical convergence zone (ITCZ)
  • Subtropical ridge
  • Polar front

Exercise 3: Compare the different wind currents above the country (continent) and water (ocean). What are possible reasons for your findings?

Global windmap 10m

Publisher: J. Schweizer