Dust storm over the Black Rock Desert: Larger-scale dynamic signatures

A dust storm that originated over the Black Rock Desert (BRD) of northwestern Nevada is investigated. Our primary goal is to more clearly understand the sequence of dynamical processes that generate surface winds responsible for entraining dust from this desert. In addition to reliance on convention...

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Bibliographic Details
Published in:Journal of Geophysical Research 2011, Vol.116 (D6), p.1M-n/a, Article D06113
Main Authors: Lewis, John M., Kaplan, Michael L., Vellore, Ramesh, Rabin, Robert M., Hallett, John, Cohn, Stephen A.
Format: Article
Language:English
Subjects:
Black Rock Desert
Deserts
Dust
Dust storm
Dust storms
Geophysics
geostrophic adjustment
Rocks
transverse circulation
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Summary:A dust storm that originated over the Black Rock Desert (BRD) of northwestern Nevada is investigated. Our primary goal is to more clearly understand the sequence of dynamical processes that generate surface winds responsible for entraining dust from this desert. In addition to reliance on conventional surface and upper‐air observations, we make use of reanalysis data sets (NCAR/NCEP and NARR)—blends of primitive equation model forecasts and observations. From these data sets, we obtain the evolution of vertical motion patterns and ageostrophic motions associated with the event. In contrast to earlier studies that have emphasized the importance of indirect transverse circulations about an upper‐level jet streak, our results indicate that in this case the transition from an indirect to a direct circulation pattern across the exit region of upper‐level jet streak is central to creation of low‐level winds that ablate dust from the desert. It is further argued that the transition of vertical circulation patterns is in response to adjustments to geostrophic imbalance—an adjustment time scale of 6–9 h. Although unproven, we suggest that antecedent rainfall over the alkali desert 2 weeks prior to the event was instrumental in lowering the bulk density of sediments and thereby improved the chances for dust ablation by the atmospheric disturbance. We comprehensively compare/contrast our results with those of earlier investigators, and we present an alternative view of key dynamical signatures in atmospheric flow that portend the likelihood of dust storms over the western United States. Key Points A dust storm that originated over the Black Rock Desert of northwestern Nevada
ISSN:0148-0227
2169-897X
2156-2202
2169-8996
DOI:10.1029/2010JD014784