Lasers show atmosphere differs from models. (Science News of the week).New observations of the atmosphere over Earth's polar regions polar regions: see Antarctica; Arctic, the. may require scientists to revamp their mathematical models of environmental conditions at high altitudes. Such refinements could lead to better predictions of the effects of global warming
The predicted effects of global warming on the environment and for human life are numerous and varied. It is generally difficult to attribute specific natural phenomena to long-term causes, but some effects of . During recent summers at the two poles--June and July 1999 in the Arctic and December 1999 and January 2000 in Antarctica--researchers from the University of Illinois at Urbana-Champaign Early years: 1867-1880 The Morrill Act of 1862 granted each state in the United States a portion of land on which to establish a major public state university, one which could teach agriculture, mechanic arts, and military training, "without excluding other scientific shone ultraviolet (UV) lasers into the sky to measure the temperatures at altitudes from 30 to 105 kilometers. They found that the high-altitude temperatures matched those predicted by standard atmospheric models This article is about static atmospheric models. For weather prediction and climate models, see atmospheric model. Static atmospheric models describe how the ideal gas properties (namely: pressure, temperature, density, and molecular weight) of an atmosphere . However, as fall arrived at the South Pole, temperatures began to stray from predictions, says Chester S. Gardner, an electrical engineer who led the research team. In May 2000, temperatures between 55 and 75 km up were as much as 20oC higher than predicted. At heights between 75 and 95 km, temperatures were as much as 20[degrees]C lower than expected. Gardner and his colleagues report their findings in two papers in the April 1 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 . At heights from 30 to 80 kin, the amount of UV-laser-light scattering from the air molecules provided a measure of the air's density, and therefore its temperature. Above 80 km, laser-light scattering from iron atoms allowed the researchers to directly gauge the temperature of the air. The iron in the upper atmosphere comes from meteors vaporized va·por·ize tr. & intr.v. va·por·ized, va·por·iz·ing, va·por·iz·es To convert or be converted into vapor. va in their descent. The scientists also used their lasers to study polar mesospheric clouds. At altitudes between 82 and 86 km, these are Earth's loftiest clouds. They form only at high latitudes and at atmospheric temperatures below -123[degrees]C. Over the past 40 years, the frequency, brightness, and area covered by these high, diffuse clouds has increased. These changes may reflect increased concentrations of water at high altitudes due to global warming. Gardner's team found that the mesospheric clouds over the South Pole were, on average, at an altitude of 85.5 km at the peak of summer. This is about 2 km higher than the average for such clouds in the Arctic and may be due to strong summertime upwelling up·well·ing n. 1. The act or an instance of rising up from or as if from a lower source: an upwelling of emotion. 2. of the atmosphere over Antarctica. As the summer progressed and the upwelling waned, the clouds' altitude fell about 64 meters each day. Gardner notes that his team's finding of higher altitudes for Southern Hemisphere polar mesospheric clouds contradicts data from satellite measurements. That includes measurements obtained during the Antarctic summer of 1998 and the Arctic summer of 1999. Daniel Morrison, an atmospheric scientist at Johns Hopkins University Johns Hopkins University, mainly at Baltimore, Md. Johns Hopkins in 1867 had a group of his associates incorporated as the trustees of a university and a hospital, endowing each with $3.5 million. Daniel C. Applied Physics Laboratory The Johns Hopkins University Applied Physics Laboratory (APL), located in Laurel, Maryland, is a not-for-profit, university-affiliated research center employing 4,000 people. in Laurel, Md., presented the satellite data last December at the American Geophysical Union's fall meeting in San Francisco. Morrison and his colleagues reported that, on average, there was no difference in altitude for summertime polar mesospheric clouds for the two hemispheres. In both regions, the polar mesospheric clouds appeared at heights of about 82.5 km., the researchers found. More data will be the key to determining whether Gardner's finding has identified a real difference between the hemispheres in the altitude of such clouds, Morrison says. |
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