Greenhouse plants? Vegetation may produce methane.Lab tests suggest that a wide variety of plants may routinely do something that scientists had previously thought impossible--produce methane in significant quantities. Methane, like carbon dioxide carbon dioxide, chemical compound, CO2, a colorless, odorless, tasteless gas that is about one and one-half times as dense as air under ordinary conditions of temperature and pressure. , traps heat in Earth's atmosphere “Air” redirects here. For other uses, see Air (disambiguation). Earth's atmosphere is a layer of gases surrounding the planet Earth and retained by the Earth's gravity. It contains roughly (by molar content/volume) 78% nitrogen, 20.95% oxygen, 0.93% argon, 0. . Scientists have been studying natural sources of methane for decades but hadn't pegged plants as a producer, notes Frank Keppler, a geochemist at the Max Planck Institute for Nuclear Physics The Max-Planck-Institut für Kernphysik ("MPI for Nuclear Physics" or MPIK for short) is a research institute in Heidelberg, Germany. The institute, founded in 1958, is one of the 80 institutes of the Max-Planck-Gesellschaft (Max Planck Society), an independent, non-profit in Heidelberg, Germany. Previously recognized sources of methane include bacterial action in the digestive systems of ruminants such as cows and in the saturated soils of swamps and rice paddies. Now, Keppler and his colleagues find that plants, from grasses to trees, may also be sources of the greenhouse gas greenhouse gas n. Any of the atmospheric gases that contribute to the greenhouse effect. greenhouse gas . "This is really surprising," Keppler says, because most scientists assumed that methane production requires an oxygenfree environment. In its experiments, Keppler's team scrutinized the gaseous gas·e·ous adj. 1. Of, relating to, or existing as a gas. 2. Full of or containing gas; gassy. emissions of a variety of plants and their debris at normal atmospheric oxygen concentrations. A gram of dried plant material, such as fallen leaves, released up to 3 nanograms of methane per hour when the temperature was about 30[degrees]C. Each 10[degrees]C rise above that temperature, up to 70[degrees]C, caused the emission rate to approximately double. Living plants growing at their normal temperatures generated even larger quantities of methane, as much as 370 ng per gram of plant tissue per hour. Methane emission more than tripled when the plants, either living or dead, were exposed to sunlight. The team's experiments took place in sealed chambers with a well-oxygenated atmosphere, so it's unlikely that bacteria that thrive without oxygen generated the methane, says Keppler. Experiments on plants that were grown in water rather than in soil also resulted in methane emissions, another strong sign that the gas came from the plants and not soil microbes. From their data, the researchers estimate that the world's plants generate more than 150 million metric tons of methane each year, or about 20 percent of what typically enters the atmosphere. They report their findings in the Jan. 12 Nature. "This is some pretty strange chemistry," says David C. Lowe, an atmospheric chemist with the National Institute of Water and Atmospheric Research Atmospheric Research (ISSN 0169-8095) is scientific journal dealing with the part of the atmosphere where meteorological events occur; intended for atmospheric scientists (such as meteorologists and climatologists), aerosol scientists, and hydrologists. in Wellington, New Zealand New Zealand (zē`lənd), island country (2005 est. pop. 4,035,000), 104,454 sq mi (270,534 sq km), in the S Pacific Ocean, over 1,000 mi (1,600 km) SE of Australia. The capital is Wellington; the largest city and leading port is Auckland. . One reason that scientists hadn't considered plants as a source of the gas is that the laws of thermodynamics The laws of thermodynamics, in principle, describe the specifics for the transport of heat and work in thermodynamic processes. Since their conception, however, these laws have become some of the most important in all of physics and other branches of science connected to don't favor methane production in an oxygen-rich environment. However, Lowe notes, many plants produce volatile hydrocarbons that contribute to haze and smog (SN: 12/7/02, p. 360). The new finding is an "interesting observation," says Jennifer Y. King, a biogeochemist at the University of Minnesota (body, education) University of Minnesota - The home of Gopher. http://umn.edu/. Address: Minneapolis, Minnesota, USA. in St. Patti. Because some types of soil microbes consume methane, they may prevent plant-produced methane from reaching the atmosphere. Field tests will be needed to assess the plants' influence, she notes. The Keppler team's results may partially explain the large methane plumes recently observed over some tropical forests by Earth orbiting satellites, says John B. Miller, an atmospheric scientist at the Earth System Research Laboratory in Boulder, Colo. Although such plumes are unsurprising during the rainy season, when methane-producing soil microbes are most active, they also appeared during the dry season. The new findings will probably spur researchers to revise their models of where and how methane is generated as well as their interpretations of the gas' concentrations measured in ancient ice cores. "This is a big deal if it's real," says Stanley C. Tyler, an atmospheric chemist at the University of California The University of California has a combined student body of more than 191,000 students, over 1,340,000 living alumni, and a combined systemwide and campus endowment of just over $7.3 billion (8th largest in the United States). , Irvine. |
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