Mapping the frozen sky; study looks at clouds from both sides now. (This Week).Scientists have combined simultaneous observations from satellite sensors and ground-based radar to construct a detailed, three-dimensional map of a high-altitude cirrus cloud. Such thin, wispy wisp n. 1. A small bunch or bundle, as of straw, hair, or grass. 2. a. One that is thin, frail, or slight. b. A thin or faint streak or fragment, as of smoke or clouds. 3. clouds waft above as much as 30 percent of Earth's surface Noun 1. Earth's surface - the outermost level of the land or sea; "earthquakes originate far below the surface"; "three quarters of the Earth's surface is covered by water" surface , and the new analytical technique An analytical technique is a method that is used to determine the concentration of a chemical compound or chemical element. There are a wide variety of techniques used for analysis, from simple weighing (gravimetric) to titrations (titrimetric)to very advanced techniques using may help researchers quantify the clouds' precise effect on Earth's climate. Cirrus clouds, which typically appear at high altitudes and are predominantly made of ice crystals, can occur at any latitude in any season, says Kuo-Nan Liou, an atmospheric scientist at the University of California, Los Angeles UCLA comprises the College of Letters and Science (the primary undergraduate college), seven professional schools, and five professional Health Science schools. Since 2001, UCLA has enrolled over 33,000 total students, and that number is steadily rising. . The clouds cool Earth's surface slightly by reflecting some sunlight back into space, but they also warm the lower atmosphere by trapping some of the planet's outbound infrared radiation. The exact influence of the global fleet of cirrus clouds depends upon the average size and distribution of the clouds' ice particles, among other factors. That's where the new method can help, says Liou. Spaceborne space·borne adj. Operating in or involving equipment operating in outer space: a spaceborne satellite. sensors can measure the degree to which a cloud blocks various wavelengths of light passing through it. However, satellites can't assess other properties of a cloud, such as its vertical thickness or characteristics of its constituent particles. Cirrus researchers recently developed a way to fill in those blanks with data from Doppler radar A system for measuring speed that is based on the Doppler effect. It is used in police radar systems as well as for measuring the velocity of hurricanes and tornadoes. See Doppler effect. and other ground-based instruments. By combining the space-down and ground-up observations, scientists can get a more complete picture of how cirrus clouds vary in both the horizontal and vertical directions. That, in turn, will help researchers model how cirrus clouds scatter radiation and thereby affect temperature and other atmospheric conditions. The analytical technique developed by Liou and his team provides results that match simultaneous measurements obtained by aircraft flying through clouds, but it's easier and less expensive. The researchers report their findings in an upcoming issue of Geophysical Research Letters Geophysical Research Letters is a publication of the American Geophysical Union. GRL is the organization's only letters journal. Since its introduction in 1974, GRL has published only short research letters, typically 3-5 pages long, which focus on a specific discipline or . A cirrus cloud's ice particles come in several shapes, says Liou. About 50 percent of the dust-size particles are hexagonal prisms capped on each end by pointed pyramids, about 30 percent are hexagonal hex·ag·o·nal adj. 1. Having six sides. 2. Containing a hexagon or shaped like one. 3. Mineralogy tubes, and the rest are flat hexagonal plates. Although the flat plates make up the smallest fraction of particles in a cirrus cloud, if they align in similar directions they can have a strong influence on how much radiation the cloud blocks, says Liou. If light strikes a thin particle on its edge, the ice crystal doesn't stop much of the radiation. If the plate is turned to face the sun, however, much more of the radiation can be reflected back into space. Recent ground-based observations suggest that under some conditions, these flat crystals indeed align. Specifically, when conditions inside the cloud are calm, plate-like particles oscillate To swing back and forth between the minimum and maximum values. An oscillation is one cycle, typically one complete wave in an alternating frequency. like seesaws through an angle of about 12[degrees] centered on the horizontal, says Luc Bissonnette of the Defence Research Establishment Valcartier in Val-Belair, Quebec. In their experiment, Bissonette and his team beamed an infrared laser up into a wintertime, low-level cirrus cloud. As they moved the beam from directly overhead to points near the horizon, they measured the amount of radiation scattered back to the ground. This group also reports its findings in an upcoming Geophysical Research Letters. |
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