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Prosser wine country
- Perched on a bluff overlooking the Yakima River in Prosser wine country, Desert Wind is a destination winery & event center featuring spacious accommodations, estate wines, lunch & appetizers.
www.desertwindwinery.com
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The Desert Wind was an Amtrak long-distance passenger train that ran from 1979 to 1997. It operated from Chicago to Los Angeles as a section of the California Zephyr, serving Los Angeles via Salt Lake City; Ogden, Utah; and Las Vegas.
- Overview
- Winds
- Formation and growth of dunes
Winds have three sources of variation that are important—namely, direction, velocity, and turbulence. Most of the great deserts are found in the subtropical areas of high atmospheric pressure, where the winds circulate in a clockwise direction in the Northern Hemisphere and a counterclockwise direction in the Southern Hemisphere. The high-pressure systems tend to dip down to the east so that winds are stronger there, a pattern mirrored by the dunes. Poleward of these circulation systems are the zones of eastward moving depressions in which there are generally westerly winds that mold the dunes of the North American and Central Asian deserts and of the northern Sahara. The boundaries between these two circulation systems migrate back and forth seasonally, so that complicated dune patterns are found in the zones of overlap. Only a few deserts, notably the Thar Desert of India and the Sonoran Desert of the American Southwest, are affected by monsoonal wind systems. Some dunes are built by sea breezes and local winds, as in coastal Peru.
The direction of the wind at any one place in the desert is affected by a number of local factors. Winds are particularly channeled around topographical features, such as the Tibesti Massif in the Sahara, so that dunes are affected by different winds on different sides of the obstruction. Winds also can be channeled around the dunes themselves, thereby developing patterns of secondary flow that modify the shapes of the dunes.
The pattern of wind velocity also is important. Like many natural phenomena, wind velocities have a log-normal distribution: there are a large number of moderate breezes and a diminishing number of increasingly more violent winds. The greatest volumes of sand are probably moved by unusually strong winds, because the amount of sand moved by wind is a power function (exponential factor) of the wind speed. For example, a 10-km-per-hour wind carries 13 grams per hour (0.39 ounce per hour), a 20-km-per-hour wind carries 274 grams per hour, and a 30-km-per-hour wind carries 1,179 grams per hour. A wind of a particular velocity will move fewer larger than smaller grains. Strong winds often blow from a particular direction, as in the southern Sahara, where the intense winds of sandstorms come predominantly from one direction. Such winds are responsible for the undulations of the sand sheets, because they alone can move coarse sands. Lighter winds blow from several different directions, and the dunes, being of finer sand, are therefore affected by several winds.
The wind is retarded near the surface by friction. Above the ground the wind velocity increases rapidly. The near-surface velocity must rise above a certain threshold value before sand will be picked up, the value depending on the size of the sand grains; for example, a wind of 12 km per hour measured at a height of 10 metres is required to move sands 0.02 centimetre in diameter, and a 21-km-per-hour wind is required to move 0.06-cm sands. Once sand movement has been initiated by wind of such velocity, it can be maintained by winds blowing at lower speeds. Because instantaneous wind speeds in eddies can rise well above the average velocity, turbulence also is important, but it is difficult to measure.
Winds have three sources of variation that are important—namely, direction, velocity, and turbulence. Most of the great deserts are found in the subtropical areas of high atmospheric pressure, where the winds circulate in a clockwise direction in the Northern Hemisphere and a counterclockwise direction in the Southern Hemisphere. The high-pressure systems tend to dip down to the east so that winds are stronger there, a pattern mirrored by the dunes. Poleward of these circulation systems are the zones of eastward moving depressions in which there are generally westerly winds that mold the dunes of the North American and Central Asian deserts and of the northern Sahara. The boundaries between these two circulation systems migrate back and forth seasonally, so that complicated dune patterns are found in the zones of overlap. Only a few deserts, notably the Thar Desert of India and the Sonoran Desert of the American Southwest, are affected by monsoonal wind systems. Some dunes are built by sea breezes and local winds, as in coastal Peru.
The direction of the wind at any one place in the desert is affected by a number of local factors. Winds are particularly channeled around topographical features, such as the Tibesti Massif in the Sahara, so that dunes are affected by different winds on different sides of the obstruction. Winds also can be channeled around the dunes themselves, thereby developing patterns of secondary flow that modify the shapes of the dunes.
The pattern of wind velocity also is important. Like many natural phenomena, wind velocities have a log-normal distribution: there are a large number of moderate breezes and a diminishing number of increasingly more violent winds. The greatest volumes of sand are probably moved by unusually strong winds, because the amount of sand moved by wind is a power function (exponential factor) of the wind speed. For example, a 10-km-per-hour wind carries 13 grams per hour (0.39 ounce per hour), a 20-km-per-hour wind carries 274 grams per hour, and a 30-km-per-hour wind carries 1,179 grams per hour. A wind of a particular velocity will move fewer larger than smaller grains. Strong winds often blow from a particular direction, as in the southern Sahara, where the intense winds of sandstorms come predominantly from one direction. Such winds are responsible for the undulations of the sand sheets, because they alone can move coarse sands. Lighter winds blow from several different directions, and the dunes, being of finer sand, are therefore affected by several winds.
The wind is retarded near the surface by friction. Above the ground the wind velocity increases rapidly. The near-surface velocity must rise above a certain threshold value before sand will be picked up, the value depending on the size of the sand grains; for example, a wind of 12 km per hour measured at a height of 10 metres is required to move sands 0.02 centimetre in diameter, and a 21-km-per-hour wind is required to move 0.06-cm sands. Once sand movement has been initiated by wind of such velocity, it can be maintained by winds blowing at lower speeds. Because instantaneous wind speeds in eddies can rise well above the average velocity, turbulence also is important, but it is difficult to measure.
The dune-forming process is complex, particularly where many thousands of dunes have grown side-by-side in sand seas. Yet, an introductory account can be given based on the example of a single dune on a hard desert surface.
Most of the sand carried by the wind moves as a mass of jumping (saltating) grains; coarser particles move slowly along the surface as creep and are kept in motion partly by the bombardment of the saltating grains. Saltating sand bounces more easily off hard surfaces than off soft ones, with the result that more sand can be moved over a pebbly desert surface than over a smooth or soft one. Slight hollows or smoother patches reduce the amount of sand that the wind can carry, and a small sand patch will be initiated. If it is large enough, this patch will attract more sand.
The wind adjusts its velocity gradient on reaching the sand patch; winds above a certain speed decrease their near-surface velocity and deposit sand on the patch. This adjustment takes place over several metres, the sand being deposited over this distance, and a dune is built up. The growth of this dune cannot continue indefinitely. The windward slope is eventually adjusted, so that there is an increase in the near-surface velocity up its face to compensate for the drag imposed by the sandy surface. When this happens, the dune stops growing and there is no net gain or loss of sand.
As the dune grows, the smooth leeward slope steepens until the wind cannot be deflected down sharply enough to follow it. The wind then separates from the surface leaving a “dead zone” in the lee into which falls the sand brought up the windward slope. When this depositional slope is steepened to the angle of repose of dry sand (about 32°), this angle is maintained and the added sand slips down the slope or slip face. When this happens, the dune form is in equilibrium, and the dune moves forward as a whole, sand being eroded from the windward side and deposited on the lee.
In our part of the desert, the geography forms a wind tunnel between two mountain ranges. It is the engine that begins the Santa Anas. The air slides down into the desert and then across the Los Angeles basin heating up and drying out as it goes.
Wind is the primary sculptor of a desert’s hills of sand, called dunes. Wind builds dunes that rise as high as 180 meters (590 feet). Dunes migrate constantly with the wind. They usually shift a few meters a year, but a particularly violent sandstorm can move a dune 20 meters (65 feet) in a single day.
Apr 29, 2021 · Wind speeds at the surface died down and the sand grains settled. Every day, the process repeated, with the desert moving a little and pumping more dust into the atmosphere.
Perched on a bluff overlooking the Yakima River in Prosser wine country, Desert Wind is a destination winery & event center featuring spacious accommodations, estate wines, lunch & appetizers.
Oct 19, 2023 · In northern China, growing urbanization, which left much of the land unprotected against wind erosion and the buildup of sediment from the surrounding desert, created a desertification problem, prompting the government to build a "great green wall" as a hedge against encroaching desert.
