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Relic of life in that Martian meteorite? A fresh look
March 23, 2006Since the mid-1990s a great debate has raged over whether organic compounds and tiny globules of carbonate minerals imbedded in the Martian meteorite Allan Hills 84001 were processed by living creatures from the Red Planet. The materials have been under intense scrutiny ever since. Scientists at the Carnegie Institution's Geophysical Laboratory, with colleagues,1 have taken a fresh look at how material associated with carbonate globules was created using sophisticated instrumentation and they compared the results to analogous globules from a volcanic complex on Svalbard, an island north of Norway. It does not appear that living organisms were at work. The research is presented at NASA's Astrobiology Science Conference (AbSciCon) 2006 at the Ronald Reagan Building in Washington, D.C. March 26-30. See http://abscicon2006.arc.nasa.gov/ for details.
To some, the tiny carbonate globules from the meteorite seem to resemble minerals that arise from microbial activity on Earth. The team focused on whether macromolecular carbon (MMC) in and around the globules was processed organically or not-an unresolved issue. The team had a complete depth profile of the meteorite. Lead author Andrew Steele explained, "By using micro-Raman spectroscopy and a scanning electron microscope we could detect both the structure of the minerals and the forms of carbon present. We did a similar analysis on carbonate globules from Earth in terrain analogous to Mars-the Bockjord Volcanic Complex on Svalbard-for comparison."
The researchers found that the macromolecular carbon is always associated with the mineral magnetite. This association is important because magnetite is known to act as a catalyst in the formation of MMC. Macromolecular carbon present within the carbonate globules in ALH84001 may represent the first evidence of non-biological synthesis of organic molecules on Mars.
"Although we haven't settled the debate on whether evidence of life is contained in Allan Hills, we have shown that these carbon complexes likely formed by non-biological processing on Mars," concluded Steele.
Carnegie Institution
"Although we haven't settled the debate on whether evidence of life is contained in Allan Hills, we have shown that these carbon complexes likely formed by non-biological processing on Mars," concluded Steele.
Carnegie Institution
Building blocks of life formed on Mars
Organic compounds contain carbon and hydrogen and form the building blocks of all life on Earth. By analyzing organic material and minerals in the Martian meteorite Allan Hills 84001, scientists at the Carnegie Institution's Geophysical Laboratory have shown for the first time that building blocks of life formed on Mars early in its history.
University of Leicester space scientists see the funny side of Mars
National competition offers fragment of Mars meteorite. Scientists at the University of Leicester are offering a piece of real Martian Meteorite ...to anyone who can make them laugh the loudest! One of the key teams behind the Beagle 2 Mars Mission, which is led by the Open University, has launched a national competition to find the most amusing caption for an image on their site. The competition, posted on a Beagle 2 site at the University of Leicester, aims to raise awareness of, and involvement in, the UK's pioneering space odyssey. The European Space Agency's Mars Express Mission took off on June 2. On board is Beagle 2, the UK's Mars Lander probe due to land on Christmas Day, which has
Nature press release for 17 January issue
[415331] LIFELINES: AIDS VACCINE PROGRESS (pp331-335; 335-339; N&V) An experimental AIDS vaccine is able to control infection in monkeys, researchers report in this week`s Nature. However, surviving virus may escape its effects by mutating, warns a second report in the same issue. AIDS is notoriously difficult to target with vaccines, which are unable to induce antibodies against a broad range of virus strains. Vaccine researchers are now taking an alternative strategy: stimulating the immune system`s T cells to attack virus-infected cells. Using this technique, Emilio Emini of Merck Research Laboratories in West Point, Pennsylvannia, and colleagues show that macaques immunized with a DNA v
Life hitching a ride to Earth: Bugs could travel to Earth in comfort aboard Martian meteorites
FOR the first time, millions of bacterial spores have been purposely exposed to outer space, to see how they are affected by solar radiation. The results support the idea that life could have arrived on Earth in the form of bacteria carried from Mars on meteorites. The idea that life started elsewhere and spread through space is called panspermia. It was first proposed in 1903 by the Swedish chemist Svante Arrhenius, who suggested that solar radiation might propel single spores across solar systems. Then, in the 1970s, astronomers Fred Hoyle and Chandra Wickramasinghe studied the infrared spectra of interstellar grains of dust and concluded th
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