Wetland blanket: volcanic sulfates may curb methane emission.Sulfates that form in the atmosphere after volcanic eruptions volcanic eruptions discharging of fumes, dust and lava from volcanoes. They have damaging potential in addition to those of being physically overpowering by the lava flow or the ash or dust fallout. and rain down on wetlands may decrease those areas' emissions of methane for several years, thereby cooling the global climate. The effect, now documented in a field study, could extend volcanic sulfates' well-known short-term cooling effect. Large volcanic eruptions send much sulfur dioxide sulfur dioxide, chemical compound, SO2, a colorless gas with a pungent, suffocating odor. It is readily soluble in cold water, sparingly soluble in hot water, and soluble in alcohol, acetic acid, and sulfuric acid. high into the atmosphere, where the gas forms aerosols of tiny droplets. These reflect sunlight back into space, thereby cooling temperatures at ground level for up to 2 years, says Vincent Gauci of the Open University in Milton Keynes Milton Keynes (mĭl`tən kēnz`), town (1991 pop. 36,886) and borough, S central England. Milton Keynes was designated one of the new towns in 1967 to alleviate overpopulation in London. It is the seat of the Open Univ. , England. Eventually, the sulfur dioxide combines with oxygen and water vapor in the atmosphere to form sulfate sulfate, chemical compound containing the sulfate (SO4) radical. Sulfates are salts or esters of sulfuric acid, H2SO4, formed by replacing one or both of the hydrogens with a metal (e.g., sodium) or a radical (e.g., ammonium or ethyl). compounds, which return to ground level in acid rain. Now, Gauci and his colleagues suggest that volcanic sulfates can also play a climate-changing role at ground level by suppressing wetlands' emission of methane, a planet-warming greenhouse gas greenhouse gas n. Any of the atmospheric gases that contribute to the greenhouse effect. greenhouse gas . Between July 1997 and December 1998, the researchers at least once a month spread powdered sodium sulfate sodium sulfate, chemical compound, Na2SO4. It is a white, orthorhombic crystalline compound at ordinary temperatures; above 100°C; it assumes a monoclinic structure, and above about 250°C; it assumes a hexagonal structure. on 2-meter-by2-m plots of a peat bog in northeastern Scotland. The largest total amount of sulfate added to any plot during the 18-month interval represented the amount that scientists estimate was deposited on the wetland by the 1783 eruption of Laki, a volcano in Iceland. That eruption lasted for about a year and pumped out about 10 times the sulfate that industrial sources in Western Europe Western Europe The countries of western Europe, especially those that are allied with the United States and Canada in the North Atlantic Treaty Organization (established 1949 and usually known as NATO). now produce collectively in a single year, says Gauci. During the experiment, the researchers measured atmospheric concentrations of methane at ground level over the test plots. Most of the gas probably came from soil-dwelling bacteria, says Gauci. Plots dosed with the most sulfate produced only 58 percent as much methane as did plots that didn't get additional sulfate. Two years after the researchers stopped adding sulfate, methane production in some plots was still 40 percent below normal. The added chemicals boosted the growth of certain soil bacteria that use sulfates to produce energy, Gauci suggests. That population explosion, in turn, suppressed methane-producing bacteria that thrive under typical bog conditions. Analysis of methane data collected after the sulfate dosing stopped suggests that methane generation in the treated plots would take 5 to 7 years to fully recover, the researchers say in an upcoming 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 . The field tests hint at the complex biological interactions that can affect atmospheric chemistry, says Clive Oppenheimer of the University of Cambridge in England. However, very little is known about where sulfur dioxide from the Laki eruption ended up, he notes. The temporary suppression of methane-producing bacteria by sulfate-nourished microbes is "an interesting idea" says David Stevenson, an atmospheric chemist at the University of Edinburgh (body, education) University of Edinburgh - A university in the centre of Scotland's capital. The University of Edinburgh has been promoting and setting standards in education for over 400 years. . Global evidence for that scenario might be found in layers of polar and glacial ice laid down after volcanic eruptions, says Stevenson. |
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