Hungry for hydrogen: microbes in hot springs feed on unlikely source.Visitors to Yellowstone National Park's geothermal springs are struck as much by the stench as by the landscape. The sulfur compounds emanating from the springs bear a rotten-egg odor, and they have long been regarded as a major source of energy for the springs' rich community of microorganisms. New research, however, suggests this positive spin on sulfur may be overblown o·ver·blown v. Past participle of overblow. adj. 1. a. Done to excess; overdone: overblown decorations. b. . Most microorganisms in the springs seem to live off hydrogen, scientists report. To find out what kinds of microbes inhabit these extreme environments, where water temperatures can surpass 70[degrees]C, researchers at the University of Colorado University of Colorado may refer to:
With extensive measurements, the researchers also determined that molecular hydrogen is abundant throughout the geothermal system. "These are the first systematic measurements of hydrogen in Yellowstone's springs," says lead investigator Norman Pace Norman Pace is an English comedian and actor, born 17 February 1953 in Dudley, West Midlands, who is best known as one half of the comedy duo Hale and Pace with his friend and comic partner Gareth Hale. He worked as a teacher before forming the double act with Hale. . His computer model suggests why, even in the presence of sulfur, bacteria favor hydrogen. It's because sulfur-metabolizing organisms require oxygen, which serves as the depot for electrons that the microbes strip from sulfur. At temperatures greater than 70[degrees]C, however, oxygen is poorly soluble. So, most of the microbes living in the geothermal springs turn to hydrogen instead. Pace and his colleagues describe their results in an upcoming Proceedings of the National Academy of Sciences The Proceedings of the National Academy of Sciences of the United States of America, usually referred to as PNAS, is the official journal of the United States National Academy of Sciences. . Although hydrogen-consuming bacteria have been found in other low-oxygen environments, such as rice paddies and cow rumens, the new study hints that such microbes may be surprisingly prevalent. "This will popularize pop·u·lar·ize tr.v. pop·u·lar·ized, pop·u·lar·iz·ing, pop·u·lar·iz·es 1. To make popular: A famous dancer popularized the new hairstyle. 2. the importance of hydrogen metabolism in the environment. Most people don't think about it very much," says Pace. The finding also implies that many bacteria in deep-sea hydrothermal vents, for instance, may metabolize me·tab·o·lize v. 1. To subject to metabolism. 2. To produce by metabolism. 3. To undergo change by metabolism. metabolize to subject to or be transformed by metabolism. hydrogen instead of sulfur. Although he finds the Colorado group's findings surprising, Ken Nealson of the University of Southern California The U.S. News & World Report ranked USC 27th among all universities in the United States in its 2008 ranking of "America's Best Colleges", also designating it as one of the "most selective universities" for admitting 8,634 of the almost 34,000 who applied for freshman admission in Los Angeles says that they also make a lot of sense. "Hydrogen is the most abundant element in the universe," he notes. "Any wise organism would choose hydrogen over sulfur." Nealson says that Pace's results may not only cause researchers to take a closer look at the microbes on Earth but also stimulate new ideas for scientists searching for life on other planets. For instance, volcanic activity and other hydrogen-generating geochemical processes that have been observed in the solar system might host microbial microbial pertaining to or emanating from a microbe. microbial digestion the breakdown of organic material, especially feedstuffs, by microbial organisms. life, says Nealson. |
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