Chemistry ties CFCs firmly to ozone hole.Chemistry ties CFCs firmly to ozone hole A new study for the first time "convincingly" identifies the dominant chemical process by which the Antarctic ozone hole forms, its authors say. In so doing, the study also appears to indict in·dict tr.v. in·dict·ed, in·dict·ing, in·dicts 1. To accuse of wrongdoing; charge: a book that indicts modern values. 2. chlorofluorocarbons chlorofluorocarbons (klōr'əfl  r`əkär'bənz, klôr'–) (CFCs), organic compounds that contain carbon, chlorine, and fluorine atoms. (CFCs) for much of the ozone loss. Since discovering it several years ago, atmospheric scientists have puzzled over the destruction of stratospheric ozone above Antarctica. While many researchers strongly suspected emissions of manufactured CFCs played a role, the chemistry by which CFCs' chlorine breaks down ozone in the upper atmosphere couldn't operate at the lower altitudes where an ozone "hole" now forms. That led some to question chlorine's overall role in the hole. About 18 months ago, Mario Molina, an atmospheric chemist at NASA's Jet Propulsion Laboratory “JPL” redirects here. For other uses, see JPL (disambiguation). Jet Propulsion Laboratory (JPL) is a NASA research center located in the cities of Pasadena and La Cañada Flintridge, near Los Angeles, California, USA. in Pasadena, Calif., offered a hypothesis to explain chlorine's role in the hole. Unlike chlorine's destruction of ozone in the upper stratosphere, this pathway required the linkage of two chlorine monoxide (CIO CIO: see American Federation of Labor and Congress of Industrial Organizations. (Chief Information Officer) The executive officer in charge of information processing in an organization. ) molecules into a fragile dimer dimer /di·mer/ (di´mer) 1. a compound formed by combination of two identical molecules. 2. a capsomer having two structural subunits. di·mer n. 1. (Cl.sub.2.O.sub.2.). Upon exposure to the sun's ultraviolet light, the dimer would ultimately decompose de·com·pose v. de·com·posed, de·com·pos·ing, de·com·pos·es v.tr. 1. To separate into components or basic elements. 2. To cause to rot. v.intr. 1. into two chlorine atoms and a molecule of oxygen (O.sub.2.). The recycled free chlorines were then available to destroy more ozone. The potential hitch in this hypothesis was the general rarity of atmospheric ClO molecules. At levels normally found in the stratosphere, there was little likelihood that two would collide to form a dimer. Using millimeter-wave spectroscopy, physicists at the State University of New York (body) State University of New York - (SUNY) The public university system of New York State, USA, with campuses throughout the state. in Stony Brook studied stratospheric levels of this ClO during September and October of 1986 and 1987. And consistent with Molina's hypothesis, their ground-based measurements of the skies above Antarctica's McMurdo Station found "a huge excess" of ClO -- levels on the order of at least 1 part per billion -- notes Robert de Zafra, one of the scientists. In fact, data published by his group in the Dec. 1 NATURE show this ClO excess occurred only between 17 and 23 kilometers -- the precise altitudes where simultaneous, direct balloon measurements by others showed ozone destruction was occurring. Moreover, the Stony Brook researchers found that ClO excesses disappeared at night and quickly returned with the morning sun. Such variations in ClO concentrations--by altitude and between day and night--"corroborate To support or enhance the believability of a fact or assertion by the presentation of additional information that confirms the truthfulness of the item. The testimony of a witness is corroborated if subsequent evidence, such as a coroner's report or the testimony of other one of the important predictions [of the dimer hypothesis]," Molina told SCIENCE NEWS. And while data collected by others from airplanes at about the same time last year also showed an excess of ClO in the Antarctic ozone hole, Molina says the "high quality" of the Stony Brook data provides stronger -- and the first formally published--measurements pointing to dimer formation as the most likely route to ozone destruction over Antarctica. These high ClO measurements also confirm for the first time that CFCs -- contributing about two-thirds of the atmospheric chlorine--are largely responsible for the Antarctic ozone hole, notes Mark Schoeberl, an atmospheric scientist at NASA's Goddard Space Flight Center The Goddard Space Flight Center (GSFC) is a major NASA space research laboratory established on May 1, 1959 as NASA's first space flight center. GSFC employs approximately 10,000 civil servants and contractors, and is located approximately 6.5 miles northeast of Washington, D.C. in Greenbelt, Md. |
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