Any Mars life would be hard to find.Some researchers propose that life on Earth first evolved in warm environments such as hot springs and deep thermal vents. According to this theory, where there's heat and water there may be life. Now, a study indicates that Mars' geophysical heat could have supported the development of a modest population of microorganisms over its 4-billion-year history. Those microbes may be so scarce, however, that a mission to sample Martian soil could easily miss them or their remains, report geochemists Bruce M. Jakosky of the University of Colorado University of Colorado may refer to:
Washington University in St. Louis is a private, coeducational, research university located in St. Louis, Missouri. . Mars could have produced, at most, a planetwide average of 20 grams of microorganisms per square centimeter during its entire history, Jakosky and Shock calculate. Jakosky says, however, that most of that biomass would have decayed away. Their study, described in the Aug. 25 Journal of Geophysical Research Journal of Geophysical Research is a publication of the American Geophysical Union. JGR was formerly titled Terrestrial Magnetism from its founding by the AGU's president Louis A. , offers the first quantitative estimate of Martian biomass, says Kenneth H. Nealson of 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 CaƱada Flintridge, near Los Angeles, California, USA. (JPL (language) JPL - JAM Programming Language. ) in Pasadena, Calif. "This puts in quantitative terms what biologists felt intuitively," Nealson says. "This is a very clever paper." The study also bolsters previous arguments by biologists that expeditions should target thermally active areas of Mars to seek evidence of life, he says (SN: 11/1/97, p. 284). About half of the biomass would have derived its energy from hydrothermal vents, the report estimates. The authors suggest that oxidation of iron at the planet surface and underground could have provided sufficient energy to produce the remaining biomass. Although scientists have not yet found conclusive proof of hydrothermal hydrothermal, hydrothermic relating to the temperature effects of water, as in hot baths. activity on Mars, Jakosky and Shock argue that it would have accompanied volcanism volcanism or vulcanism Any of various processes and phenomena associated with the surface discharge of molten rock or hot water and steam, including volcanoes, geysers, and fumaroles. , which has occurred on the planet. Because there has been less volcanic activity on Mars than on Earth, they conclude that Mars must have generated proportionately lass hydrothermal energy. Considering only biomass produced by geophysical processes, Jakosky and Shock suggest that Mars could have produced only one-fortieth the quantity of life estimated on Earth. Since Earth also supports life through photosynthesis, which may not occur on Mars, Earth's total biomass througthout its history could easily be more than 4 million times that of Mars, they say. Jakosky concedes that the study relies on the conjecture that Mars' little-understood geology has similarities to Earth's. That represents "a big assumption," says Jonathan I. Lunine, a planetary scientist at the University of Arizona (body, education) University of Arizona - The University was founded in 1885 as a Land Grant institution with a three-fold mission of teaching, research and public service. in Tucson. Mars may lack adequate amounts of many trace elements Trace elements A group of elements that are present in the human body in very small amounts but are nonetheless important to good health. They include chromium, copper, cobalt, iodine, iron, selenium, and zinc. Trace elements are also called micronutrients. , such as phosphorus, necessary to sustain life on Earth, he suggests. "It's not clear whether life can exist without phosphorus, but it's not clear that it's impossible, either," Jakosky responds. However, without geophysical energy, "you're stuck," he says. The new study also speculates that any microbial microbial pertaining to or emanating from a microbe. microbial digestion the breakdown of organic material, especially feedstuffs, by microbial organisms. life on Europa, a moon of Jupiter, would be even more rare than on Mars. Scientists suspect that an ocean that may contain life exists beneath that moon's frozen surface and have discussed sending a robotic probe to find out (SN: 7/6/96, p. 8). The amount of life possible on Europa may be especially small because that moon may lack volcanic activity, the report says. If microbes must be sustained by oxidizing reactions alone, too few would be released into the ocean to be detectable by a probe, Jakosky speculates. |
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