Many of the same concepts used in our discussion of thermal circulations can be used to understand a variety of other relatively small scale regional wind circulations.


This first figure shows development of a valley breeze.  This is a circulation that forms early in the day when the sun's rays are striking the mountain sides more directly than the level ground in the valley.  The mountain sides will begin to warm more rapidly that the valley floor (the mountain slopes aren't warmer than the valley just warming more quickly because the incident sunlight is more direct).  Air in contact with the mountain warms and becomes bouyant and creates an upslope breezs.  Wind begins to blow from the valley up the mountain sides to replace the rising air. 

At night the ground will cool more quickly and becomes colder than the air above.


Air in contact with the ground cools.  This now denser air slides downslope and moves into the valleys.  Since the surface winds blow from the mountain into the valleys this is called a mountain breeze.

The term katabatic wind is a more general term for a high density, gravity driven, downslope or drainage wind.  A katabatic wind can affect a much larger area than a simple mountain breeze.

Katabatic winds often originate over high elevation snow covered plateaus where stagnant air can become quite cold and also very dry.  A large scale pressure pattern can then move the air away from its source region.  When the downward moving air is confined by canyon walls, winds can reach hurricane force.  Though generally cold, katabatic winds can also be warm or hot.  This is because as the air moves downhill and is compressed it warms.


 
The mistral is a strong, cold, and dry, katabatic wind that affects SE France.  In this case the downward flow of the air is enhanced by a large scale pressure pattern.  The winds can persist for several days.  (these two figures are from a Wikipedia article on the mistral)

A chinook (foehn) wind is a warm dry downslope wind (this figure looks a lot like the one used to explain the rain shadow effect).



Warming is due to release of latent heat during cloud formation as moist air flows up and over a mountain range and by compressional heating on the downslope side of the mountain.

Chinook winds can produce record setting changes in weather and temperature (these records are from a Wikipedia article on Chinook winds)

Greatest temperature change
in a 24 hour period
Most rapid temperature change
ever recorded
103 F change
(-54 F to +49 F)
Jan. 1972, Loma, Montana
49 F in 2 minutes
(-4 F to +45 F)
Spearfish, South Dakota




The Santa Ana winds are probably the best known of the regional winds we will be discussing.  These are warm (hot) dry winds that originate in the high deserts of the Great Basin and blow southwestward across southern California usually in the fall.  They are often associated with devastating wild fires.



The wind circulation that develops when high pressure forms over the Great Basin causes some of the cool (cold) dense air to begin to move downhill toward the coast.  As the air descends it is compressed and warms (this is the main source of warming).  Winds pick up speed when the air is funneled through mountain canyons near the coast.  There is often a marked improvement in visibility in the Los Angeles basin when the Santa Ana winds are blowing (assuming of course no wildfire activity).

As mentioned earlier the Santa Ana winds can quickly turn a relatively small wildfire into a catastrophic fire event.  9 people were killed, 85 injured, at least 1500 homes and 500,000 acres were burned during a series of wildfires in Southern California in October, 2007.  Drought and the Santa Ana winds were major contributing factors.


In addition to being a fire danger, winds in desert regions like southeastern Arizona can produce dust storms.



This is a particularly good photograph of a dust storm approaching a military camp in Al Asad, Iraq.  The picture was taken just before nightfall on April 27, 2005 by Corporal Alicia M. Garcia (US Marine Corp.).  Dust or sand storms like this are often called a haboob.

Dust storms are a particular hazard to highway travel because they can reduce visibility to near zero very rapidly.



This photograph, taken in August 2003, shows a dust cloud moving into the Pheonix area (Ahwatukee) in August, 2003.  The dust probably marks the leading edge of cold downdraft winds that are moving outward from underneath a thunderstorm (the gust front). 

Here are some suggestions about what you should do if you are caught in a dust storm.