1. Cyclones: Horizontal Structure and Evolution
AOS 101 Section 301
20 April 2009

2. The Mid-Latitude Cyclone
Large area of low pressure, with winds that flow counter-clockwise around the pressure minimum

3. The Mid-Latitude Cyclone
Large area of low pressure, with winds that flow counter-clockwise around the pressure minimum L

4. The Mid-Latitude Cyclone
Large area of low pressure, with winds that flow counter-clockwise around the pressure minimum
Clouds and precipitation often organized around fronts – regions of strong temperature gradients

5. The Mid-Latitude Cyclone
Large area of low pressure, with winds that flow counter-clockwise around the pressure minimum
Clouds and precipitation often organized around fronts – regions of strong temperature gradients L

6. The Mid-Latitude Cyclone
Large area of low pressure, with winds that flow counter-clockwise around the pressure minimum
Clouds and precipitation often organized around fronts – regions of strong temperature gradients
Systems which persist for 5-7 days on average, and are responsible for much of the weather that we see day-to-day

7. Distinctive Shape
What gives the mid-latitude cyclone its distinctive comma-head shape?

8. Distinctive Shape Clouds appear in regions of rising air
The structure of a mid-latitude cyclone promotes rising air in specific areas which create the “comma” appearance

10. Because friction is important near the surface, the winds are directed slightly toward the center of the low pressure (L)
Low level convergence leads to rising air, and clouds appear in the “comma head” region

11. Fronts are also regions that promote rising air, leading to clouds and precipitation in frontal regions

12. Fronts Regions of strong temperature gradients
Cold air is advected south behind the cold front, and warm air is advected north behind the warm front
The movement of cold/warm air into new territory creates rising motion
These fronts provide the cyclone with its energy source, when they are gone, the cyclone dies

13. Cold Fronts
Because cold air is denser than warm air, it pushes its way into the region inhabited by warm air (in front of the cold front)

14. Cold Fronts
Because cold air is denser than warm air, it pushes its way into the region inhabited by warm air (in front of the cold front)
The warm air rises up over the dome of cold air pushing in at a steep angle

15. Warm Fronts
In the region of the warm front, warm air is slowly pushing cold northward

16. Warm Fronts
In the region of the warm front, warm air is slowly pushing cold northward
This creates a shallow ramp of cold air that warm air rises on top of as it pushes the cold air out of the way

17. Fronts
Because the geometry of these fronts are different, they produce different kinds of weather:
Cold Fronts = Sharp lines of intense precipitation and deep clouds
Warm Fronts = Wide regions of less-intense precipitation and shallower clouds

19. L

20. Occluded Fronts Cold fronts can move more quickly than warm fronts
When a cold front catches up with a warm front, the warm air is squeezed out of the way, leading to an occluded front
This is the “last gasp” for the front, and occlusion occurs as the storm reaches peak intensity, then weakens and dies

21. Occluded Fronts

22. Cyclone Lifecycle
Cyclones go through three distinctive phases in their 5-7 day lifespan:

23. Incipient Stage
We start with a “stationary front”, which is just a region of strong temperature contrast between cold polar air and warm tropical air

24. Incipient Stage
We start with a “stationary front”, which is just a region of strong temperature contrast between cold polar air and warm tropical air
A small low-pressure disturbance starts to circulate air, creating warm fronts and cold fronts

25. Mature Stage Cyclone strengthens to mature stage:
Sea level pressure drops
Pressure gradient and Winds increase
More clouds and precipitation
Better defined fronts
“Comma” appearance

26. Occluded Stage
Frontal occlusion begins as the cold front catches up to the warm front
Storm is at its strongest – lowest sea-level pressure, strongest winds, strong precipitation
“Death knell” – cyclone center is detached from warm air, fronts and cyclone will start to weaken

27. Decaying Stage Cyclone center now completely separated from warm air
Sea-level pressure rises
Pressure-gradient and winds die down
Precipitation and clouds cease
This storm has used all of its available energy