Meteorite hints at early life on Mars.For 8 years, a meteorite meteorite, meteor that survives the intense heat of atmospheric friction and reaches the earth's surface. Because of the destructive effects of this friction, only the very largest meteors become meteorites. discovered in an Antarctic ice field languished in a storage cabinet at NASA's Johnson Space Center in Houston. Now, a 2- year analysis of that rock, believed to hail from Mars, offers tantalizing tan·ta·lize tr.v. tan·ta·lized, tan·ta·liz·ing, tan·ta·liz·es To excite (another) by exposing something desirable while keeping it out of reach. evidence that primitive life existed on the Red Planet some 3.6 billion years ago. Scientists have long speculated that the planet, cut by long, sinuous sinuous /sin·u·ous/ (sin´u-us) bending in and out; winding. sinuous bending in and out; winding. channels that might be dry riverbeds, may once have been a warmer, wetter place that supported some form of life. In an article scheduled for the Aug. 16 Science, researchers describe an array of intriguing findings from the meteorite ALH ALH Advanced Light Helicopter ALH Amplitude of Lateral Head (Displacement) ALH Alpha Hospitality Corporation (former stock symbol; now ALHY) ALH Advanced Liquid Hydrogen 84001, the oldest of the 12 rocks thought to have fallen to Earth from Mars. The team discovered organic molecules that might be associated with life, several minerals characteristic of biological activity, and tiny tubular and egg- shaped structures that resemble the fossils of ancient, single-celled bacteria found on Earth. Moreover, all of these compounds and structures lie within a few hundred thousandths of a centimeter of each other. Examined separately, each finding might have a nonbiological explanation, but taken together, "all explanations except life seem far-fetched," asserts study coauthor Richard N. Zare of Stanford University. "The evidence is exciting, even compelling, but not conclusive," says NASA NASA: see National Aeronautics and Space Administration. NASA in full National Aeronautics and Space Administration Independent U.S. administrator Daniel S. Goldin. "NASA is ready to assist the process of rigorous scientific investigation and lively scientific debate that will follow this discovery." "They've done a very respectable paper," comments Allan H. Treiman of the Lunar and Planetary Institute The Lunar and Planetary Institute (LPI) is a NASA-funded research institute, dedicated to studies of the solar system, its evolution and formation. The Institute is part of the Universities Space Research Association, located in Houston, Texas. in Houston. "They have a number of observations that could be indicative of [ancient] life." If the new findings were in Earth rocks, he adds, "people would say 'you've got intriguing evidence, but you haven't proved it yet.'" "It is very difficult to prove life existed 3.6 billion years ago on Earth, let alone on Mars," notes Zare. "The existing standard of proof, which we think we have met, includes having an accurately dated sample that contains native microfossils, mineralogical min·er·al·o·gy n. pl. min·er·al·o·gies 1. The study of minerals, including their distribution, identification, and properties. 2. A book or treatise on mineralogy. features characteristic of life, and evidence of complex organic chemistry." In studying the fractured surface of the meteorite, the team used laser spectroscopy and electron microscopy to measure minute concentrations of organic compounds and to image structures less than one-hundredth the thickness of a human hair. Recent advances in these techniques enabled the team to detect indications of life not seen in previous studies of ALH84001 or other Martian meteorites Meteorites See also astronomy. aerolithology the science of aerolites, whether meteoric stones or meteorites. Also called aerolitics. astrolithology the study of meteorites. Also called meteoritics. , they say. The team found two distinctive compounds-iron sulfide and magnetite-that on Earth are commonly produced by anaerobic bacteria and other microscopic organisms. Moreover, the compounds were found in the same tiny region that contains carbonate globules and possible bacterial fossils. The Martian microfossils are similar in shape to, though slightly larger than, those produced by the tiniest known terrestrial bacteria. Fossils formed by nanobacteria have been discovered in calcite calcite (kăl`sīt), very widely distributed mineral, commonly white or colorless, but appearing in a great variety of colors owing to impurities. deposits from ancient groundwater in southern Italy. The first suggestion that ALH84001 might contain evidence of ancient Martian life came more than a year ago, when the same researchers reported that they had detected carbonates and organic molecules known as polycyclic aromatic hydrocarbons (PAHs) concentrated in some areas of the 1.9-kilogram meteorite (SN: 3/25/95, p. 180). On Earth, PAHs are produced by the decay or combustion of plants and other organisms. Some researchers have argued that the Antarctic ice field in which ALH84001 landed some 13,000 years ago could have contaminated the meteorite with terrestrial PAHs or other organic materials. But the team's analysis shows that the concentration of PAHs increases from the meteorite's crust to its interior-exactly the opposite pattern one would expect if the organic molecules were foreign contaminants. "We're very confident that we're not looking at PAH PAH, PAHA aminohippuric acid. PAH abbr. para-aminohippuric acid PAH 1 Polycyclic aromatic hydrocarbon, see there 2. Pulmonary artery HTN contamination," says Zare. The team has suggested that the carbonates formed on Mars some 3 billion years ago, when water rich in dissolved carbon dioxide percolated through the rock. Other researchers have raised doubts about whether water, a compound associated with life on Earth, necessarily played a role. In the July 4 Nature, Ralph P. Harvey of Case Western Reserve University in Cleveland and Harry Y. McSween Jr. of the University of Tennessee The University of Tennessee (UT), sometimes called the University of Tennessee at Knoxville (UT Knoxville or UTK), is the flagship institution of the statewide land-grant University of Tennessee public university system in the American state of Tennessee. in Knoxville argue that carbonates might have formed in the absence of water. They propose that about 1 billion years ago, an asteroid smashed into the Martian surface, heating some of the planet's abundant reserves of carbon dioxide frost and ice to a temperature as high as 700 kelvins. The heat would have 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 any liquid water and sent a pulse of hot carbon dioxide fluid into the planet's crust, where it would have reacted to form the carbonates recently discovered in the meteorite. Such debate is certain to continue. "We are putting this evidence out to the scientific community for other investigators to verify, enhance, attack-disprove if they can," says David S. McKay David S. McKay is Chief Scientist for Astrobiology at the Johnson Space Center. Dr. McKay was the first author of a major scientific paper (Science, Aug. 16, 1996) postulating past life on Mars on the basis of evidence in Martian meteorite ALH84001 found in Antarctica. , a coauthor of the Science article, who is at the Johnson Space Center. Three Mars-bound spacecraft-two U.S. and one Russian-are scheduled for launch this fall. Of these, NASA's Mars Pathfinder, which will land a rover on the planet to collect soil samples, holds the most promise of finding other clues of past or present life on Mars Scientists have long speculated about the possibility of life on Mars owing to the planet's proximity and similarity to Earth. It remains an open question whether life exists on Mars now, or existed there in the past. , Treiman says. "There are certain defining moments of an age," says Zare. "The discovery, if it proves to be such, that we are not alone, would be such a defining moment." |
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