A midlatitude cirrus cloud climatology from the facility for atmospheric remote sensing. Part V: Cloud structural properties

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Abstract

In this fifth of a series of papers describing the extended-time high cloud observation program from the University of Utah Facility for Atmospheric Remote Sensing, the structural properties of cirrus clouds over Salt Lake City, Utah, are examined. Wavelet analysis is applied to a 10-yr record of cirrus cloud ruby (0.694 μm) lidar backscatter data as a function of cloud height in order to study the presence of periodic cloud structures, such as the signatures of Kelvin-Helmholtz instabilities, cirrus mammata, and uncinus cells (all with length scales of ∼1-10 km), as well as mesoscale cloud organizations generally believed to be induced by gravity waves. About 8.4% of the data display structures after passing a 95% confidence level test, but an 80% confidence level, which seems better able to resolve structures spread over long periods, yields 16.4%. The amount of identified cloud structures does not change significantly with length scale from 0.2 to 200 km, although the frequency of mesoscale cloud structures tends to increase as length scales increase. The middle-to-lower portion of cirrus clouds contains the most identified cloud structures, which seems related to the mesoscale organization of fall streaks from cloud-top-generating cells. The variability of cirrus cloud optical depth τ (defined by the standard deviation over mean τ) derived from a combined lidar and infrared radiometer (LIRAD) analysis is shown to be largely independent of τ. Because visual examination of the lidar displays also indicates that few cirrus layers can be considered horizontally homogeneous over our typical 3-h lidar data collection period, the authors conclude that the clouds in their sample are inherently inhomogeneous even though most cirrus structures are not revealed as periodic by wavelet analysis. © 2007 American Meteorological Society.

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Sassen, K., Wang, L., Starr, D. O. C., Comstock, J. M., & Quante, M. (2007). A midlatitude cirrus cloud climatology from the facility for atmospheric remote sensing. Part V: Cloud structural properties. Journal of the Atmospheric Sciences, 64(7), 2483–2501. https://doi.org/10.1175/JAS3949.1

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