Effects of Prior Precipitation and Source Area Characteristics on Threshold Wind Velocities for Blowing Dust Episodes, Sonoran Desert 1948–78

Effects of Prior Precipitation and Source Area Characteristics on Threshold Wind Velocities for Blowing Dust Episodes, Sonoran Desert 1948–78

A better understanding of the effects of precipitation and source area on blowing dust in the Sonoran Desert has been sought through the study of 1190 dust episodes occurring during the 1948–78 time period at Blythe, California, and Yuma, Arizona. Threshold mean hourly wind speeds (MHWSs) increase d...

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Bibliographic Details
Published in:Journal of applied meteorology (1988) Vol. 36; no. 9; pp. 1160 - 1175
Main Authors: Holcombe, Troy Leon, Ley, Trevor, Gillette, Dale A.
Format: Journal Article
Language:English
Published: Boston, MA American Meteorological Society 01-09-1997
Subjects:
Earth, ocean, space
Exact sciences and technology
External geophysics
Meteorology
Particles and aerosols
Precipitation
Rain
Spreadsheets
Storms
Summer
Surface areas
Vegetation canopies
Weather
Wind direction
Wind velocity
California
United States
North America
Arizona
America
Yuma, Arizona
Blythe, California
Wind velocity
Wind field
Desert
Atmospheric precipitation
Vegetation effect
Atmospheric dust
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Summary:A better understanding of the effects of precipitation and source area on blowing dust in the Sonoran Desert has been sought through the study of 1190 dust episodes occurring during the 1948–78 time period at Blythe, California, and Yuma, Arizona. Threshold mean hourly wind speeds (MHWSs) increase directly with prior precipitation in proportion to the inhibiting effect of the vegetation canopy, which blooms following periods of increased precipitation. Because of the time required for the vegetation canopy to fully develop and the persistence of the vegetation canopy once developed, correlation between the threshold MHWS and precipitation is highest for 4–6-month windows of total precipitation prior to each dust event at both stations. Many dust events associated with unusually low MHWSs are clustered in time, and these events can be correlated with interstate highway construction and soil preparation for new irrigation projects. Since threshold MHWSs for blowing dust lie well below the recorded MHWSs during most dust events at most times, it is possible to predict that mean annual precipitation could in the future increase to about 8 cm per 6 months without significantly reducing the occurrence of blowing dust episodes. On the other hand, increases in future mean annual precipitation to 10–12 cm per 6 months would raise the threshold MHWS to the point that conditions for blowing dust would be substantially reduced. Many of the infrequently occurring periods of elevated precipitation correlate in time with El Nin˜o-Southern Oscillation events, which typically repeat every 2–8 yr. Average MHWSs, and threshold MHWSs for blowing dust, vary with wind direction at Blythe and Yuma. These variations can be related to variations in the susceptibility of upwind source areas in most instances, but in one or more instances this variation may be related to storm type.
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ISSN:0894-8763
1520-0450
DOI:10.1175/1520-0450(1997)036<1160:EOPPAS>2.0.CO;2