Many locations across the Southeast, Gulf Coast and Southwest extending from Georgia to southern California and across the Corn Belt from eastern Nebraska eastward into northern Ohio have experienced moderate to severe drought conditions for the last several months. Last fall, significant monetary losses were felt across a large portion of the East, with some reports suggesting that this drought was one of the worst of the century.
What constitutes a drought? The answer depends upon whom you ask. At least four types of drought can be defined. To the farmer, an agricultural drought represents an extended interval with a serious soil moisture deficiency during critical crop growth periods. A hydrologist would classify a hydrological drought as an extended interval containing abnormally low stream flow, lake levels and ground water reservoirs. Most meteorologists would consider a meteorological drought to occur when the accumulated precipitation is well below a prescribed amount that would depend upon the region or season. A fourth type would be socioeconomic drought, where the shortage of water affects humans, typically in terms of economic activities. Economic goods that may be affected may include water, agricultural food products and hydroelectric power.
Typically, the severity of a drought depends upon the lack of soil moisture, which is influenced by one or more of the following factors to include a lack of precipitation, low atmospheric humidity, high air temperature, strong winds, a lack of clouds and intense sunlight. In addition, the drought severity depends upon its duration and the size of the affected area.
The start of a drought usually is subtle in that few can tell when a spell of dry weather really constitutes the incipient phase of a drought. Similarly, the end of a drought is also difficult to assess, since one rain event does not necessarily "break a drought". The National Weather Service uses several indices to assess the severity of a drought. One of the most frequently used drought indices is the Palmer Drought Severity Index developed by Wayne Palmer in the 1960s. This Palmer Index incorporates temperature and rainfall information in a formula to determine abnormal dryness or wetness over prolonged time intervals, such as a month to years. The National Weather Service and U.S. Department of Agriculture jointly compute the Drought Index weekly for each of 344 climatological divisions across the United States. A map of the current Drought Index is available that shows those divisions experiencing drought with negative index values and varying shades of red, while those regions with excess precipitation have positive values and varying shades of green.
The most recent map (18 March 2000) indicates that severe drought remains across southwest Georgia, portions of the Louisiana and Texas Gulf Coast, west Texas, southern New Mexico, northwest Arizona, northern Indiana and northern Ohio. Moderate drought conditions remain across much of the Southeast, Gulf Coast and Southwestern States, as well as across the eastern Plains and Great Lakes States. In some of the regions across the Southeast, as much as 12 inches would be needed to alleviate the drought conditions, while 3 to 6 inches would be needed across the Midwest.
Palmer, W.C., 1988 (12 Jul): The Palmer Drought Index: When and how it was developed. Weekly Weather and Crop Bulletin, 75 (28), 5.
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Prepared by Edward J. Hopkins, Ph.D.
© Copyright, 2000, The American Meteorological
Society.
