What Causes Surface Winds/Mountain Winds/Katabatic or Anabatic Winds

Posted At : January 28, 2009 10:06 AM | Posted By : Ralph
Related Categories: Wind Sensors,General,Bruce R. Robinson

Katabatic and Anabatic Winds:

Local Surface winds are sometimes more a function of Temperature Differences between mountain tops and lower elevations than overriding Synoptic winds. These winds are sometimes called Mountain Winds as they occur most frequently in mountainous areas, meteorologist call them Katabatic or Anabatic Winds

Anabatic Winds are upslope winds driven by warmer surface temperatures on a mountain slope than the surrounding air column. Katabatic winds are downslope winds created when the mountain surface is colder than the surrounding air and creates a down slope wind. Katabatic wind may range over fairly large areas as in the case of the Santa Anna winds experienced throughout southern California during certain times of the year. They can produce winds to 80 miles per hour and dominate local weather patterns for extended periods of time (weeks). As shown in figure 2.4 below, they are initiated when cold air atop higher land masses begins to flow down hill (remember cold air is heavier than warm air) displacing the warm air below it and warming adiabatically and often gaining speed in the process. When the lower elevations are hot desert areas the temperature differences can be quite substantial on the order of 60 to 70 degrees F. The greater the temperature difference the stronger the wind. They are often so well-known that they are given names like California' Santa Anna as mentioned above, the Chinook of the pacific northwest or the Fohn in Switzerland.

Winds can be derived from a number of different meteorological phenomena that are either caused by large scale synoptic pressure and temperature differences or by local temperature and pressure differences. Once generated, however, there are many small scale surface structures that can modify the wind direction and speed and distort the accuracy of the observing instrumentation. We call these wind modifiers and will talk about them in future blogs.

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What Causes Surface Wind/Local Surface Winds?

Posted At : January 9, 2009 11:46 AM | Posted By : Ralph
Related Categories: Wind Instruments,Wind Sensors

Surface winds are often more a function of surface features or local thermal changes than the large area differences in barometric pressure that drive synoptic winds. Temperature differences between water and land and between mountain tops and valleys can cause the air to lift and descend and generate airflow parallel to the surface that will either add to or subtract from wind flow generated by overlying synoptic winds. We will briefly consider several sources of local surface winds: Sea/Land Breezes, Thunderstorms and Mountain (katabatic/anabatic) winds, caused by geography differences and local thermal differences.

Sea/Land Breezes: Sea/Land Breezes are formed as a result of temperature differences between large bodies of water and adjoining land masses, usually within a few miles of the coast. Water will typically retain heat longer than dry land creating temperature differences during the day as the land warms faster than the water thereby warming the overlaying air and creating lift over the land. The rising air decreases pressure over the land draws in the cooler air from the over the adjacent colder water causing a sea breeze. At night the land adjacent to a body of water cools faster than the water causing the warmer air over the water to lift and draw the cooler air over the land toward the water, a land breeze.

As you can see from the drawing in figure 2.2 during the day when the sun warms the land faster than the water (sea or large lake) the air over the land is lifted (remember warm air rises)from the low pressure (less dense air at the surface and cools as it rises (adiabatic lifting). Over the sea the warmer air aloft sinks and cools as it approaches the cool water, the surface wind is thereby caused to flow inland from the water to fill the low pressure area caused by the adiabatic lift of air over the land. During the night when the air over the land is cooled to temperatures below the temperature of the adjacent water the opposite flow occurs and surface air flows from the land toward the sea. This phenomenon is most noticeable in the summer time in the coastal areas and is often minimized or eliminated by strong synoptic winds flowing over the land, especially on the east coast of the U.S.

Point to Ponder: If synoptic wind is flowing in the same direction as the upper level circulation of a land or sea breeze does it increase the lower level , surface, wind flow or decrease it?

Copyright: Belfort Instrument Co

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