13.1: Locations of Deserts

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Deserts are not randomly located on the Earth’s surface. Many deserts are located at latitudes between 15° and 30° in both hemispheres and at both the North and South Poles, created by prevailing wind circulation in the atmosphere. Sinking, dry air currents occurring at 30° north and south of the equator produce trade winds that create deserts like the African Sahara and Australian Outback. [1].

Deserts are colored red-orange on the map and are located in areas such as the western US, the west and east coasts of South America, the northern and southern ends of Africa, the Middle East, central China and central and western Australia. — Figure \(\PageIndex{1}\): Map of the world's major deserts. (By NASA; public domain.)

Another type of desert is found in the rain shadow created from prevailing winds blowing over mountain ranges. As the wind drives air up and over mountains, atmospheric moisture is released as snow or rain. Atmospheric pressure is lower at higher elevations, causing the moisture-laden air to cool. Cool air holds less moisture than hot air, and precipitation occurs as the wind rises up the mountain. After releasing its moisture on the windward side of the mountains, the dry air descends on the leeward or downwind side of the mountains to create an arid region with little precipitation called a rain shadow. Examples of rain-shadow deserts include the Western Interior Desert of North America and Atacama Desert of Chile, which is the Earth’s driest, warm desert.

Prevailing winds blow from the ocean toward land, which forces warm, moist air up the windward side of a mountain. Rising air cools and condenses, forming precipitation. The now dry air advances to the other side of the mountain, forming a rain shadow on the leeward side. — Figure \(\PageIndex{2}\): Left: Mountainous areas in front of the prevailing winds create a rain shadow. (By dodomegg; CC BY 4.0 via Wikimedia Commons.) Right: In this image from the ISS, the Sierra Nevada Mountains are perpendicular to prevailing westerly winds, creating a rain shadow to the east (down in the image). Note the dramatic decrease in snow on the Inyo Mountains.

There are several ranges, some more snowy than others. — Figure \(\PageIndex{2}\): Left: Mountainous areas in front of the prevailing winds create a rain shadow. (By dodomegg; CC BY 4.0 via Wikimedia Commons.) Right: In this image from the ISS, the Sierra Nevada Mountains are perpendicular to prevailing westerly winds, creating a rain shadow to the east (down in the image). Note the dramatic decrease in snow on the Inyo Mountains.

Finally, polar deserts, such as the vast areas of the Antarctic and Arctic are created from sinking cold air that is too cold to hold much moisture. Although they are covered with ice and snow, these deserts have very low average annual precipitation. As a result, Antarctica is Earth’s driest continent.

Watch this video on rain shadow deserts:

References

1. Walker, A. S. Deserts: geology and resources. (Government Printing Office, 1996).

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