"if our scientists possibly find other forms of life in other planets,what we are probable to find-bacteria,virus or simply dna and protein molecules? "
Content with the tag: “nai ciw team”
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Moon Samples Found to Contain Water
Using new techniques, scientists from NAI’s Carnegie Institution of Washington Team have discovered for the first time that tiny beads of volcanic glasses collected from two Apollo missions to the Moon contain water. The researchers found that, contrary to previous thought, water was not entirely vaporized in the violent events that formed the Moon. The new study suggests that the water came from the Moon’s interior and was delivered to the surface via volcanic eruptions over 3 billion years ago. The finding calls into question some critical aspects of the “giant impact”...
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NAI Scientist Receives Guggenheim Fellowship
James Farquhar from NAI’s Carnegie Institution of Washington Team is a recipient of the prestigious 2008 Guggenheim Fellowship. The John Simon Guggenheim Memorial Foundation Fellowships are extremely competitive and are given to advanced professionals in many fields. Please join NAI in congratulating James!!!
With the support of his Guggenheim Fellowship, James will be taking sabbatical leave to work with Don Canfield (University of Southern Denmark). Farquhar and Canfield will be extending their research on understanding the ways that different types of sulfur metabolisms work, initiating a project on the sulfur chemistry of a meromictic (stratified) lake in Switzerland,...
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Extraterrestrial Nucleobases in the Murchison Meteorite
A recent study in Earth and Planetary Science Letters from NAI’s Teams at NASA Goddard Space Flight Center, Carnegie Institution of Washington, and University of Wisconsin, shows that nucleic acids of extraterrestrial origin are present in the Murchison meteorite. Carbon-rich meteorites such as the Murchison are thought to be responsible for delivering biologically-relevant organic material to the young Earth. These results demonstrate that the nucleic acids discovered in the meteorite, which are components of the genetic code in modern biochemistry, were already present in the early solar system and...
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Organic Haze, Glaciations and Multiple Sulfur Isotopes in the Mid-Archean Era
Shawn D. Domagal-Goldman (NAI PSU team), J.F. Kasting (NAI PSU team), D. T. Johnson (NAI CIW team), and J. Farquhar (NAI CIW and UCLA teams) have just published an article Organic haze, glaciations and multiple sulfur isotopes in the Mid-Archean era in Earth and Planetary Science Letters. The team used sulfur isotope signatures within ancient sediments and a photochemical model of sulfur dioxide photolysis to interpret the evolution of the atmosphere over the first half of Earth’s history.
Source: [Link]
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Meteorites a Rich Source for Primordial Soup
Scientists from NAI’s Carnegie Institution of Washington Team have a new paper in Meteoritics and Planetary Science detailing their discovery of amino acids in two meteorites at concentrations ten times higher than levels previously measured in other similar meteorites. The result suggests that the early solar system was far richer in the organic building blocks of life than scientists had thought, and that fallout from space may have spiked Earth’s primordial broth. Click here to download the paper.
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Novel Proteobacteria in Microbial Mats at Loihi Seamount
With support from NAI Teams at the Carnegie Institution of Washington and UC Berkeley, researchers at the American Type Culture Collection and their colleagues have a new paper in PLOS One describing a novel lineage of proteobacteria which are dominant in iron-rich hydrothermal vent sites on the Loihi Seamount near Hawai’i. They form a unique morphological structure which could serve as a fossil biomarker.
Source: [Link]
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Oxygen in Earth's Early Atmosphere
Researchers from NAI’s Carnegie Institution of Washington Team have a paper in this week’s Nature describing evidence that Earth’s Mesoarchean atmosphere (3.2 and 2.8 Gya) possessed very low amounts oxygen. These findings contrast with prior claims that Earth’s atmosphere underwent its first rise in oxygen during the Mesoarchean, and indicate that oxygen first rose above parts per million levels sometime between 2.45 and 2.4 billion years ago.
Source: [Link]
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Astrobiotechnology Chip Successfully Launched
Andrew Steele of NAI’s CIW Team, a leader in astrobiotechnology for many years, is behind this current experiment, called the “Life Marker Chip.” A collection of immunoassays which have the potential to detect trace levels of biomarkers in the Martian environment, it launched earlier this week on ESA’s BIOPAN 6 experiment platform. The craft will spend 12 days in orbit, during which time the onboard experiments, including the Chip, will be exposed to microgravity.
Source: [Link]
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NAI Publication Receives Jubilee Award
A recent publication by members of the NAI’s Carnegie Institution of Washington Team was honored this week with the Jubilee Award from the Geological Society of South Africa. The team’s research, published in the South African Journal of Geology, concerned sulfur isotopes in ancient rocks in South Africa. Congratulations CIW!
Source: [Link]
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MESSENGER Probes Venus' Atmosphere
On route to Mercury, the MESSENGER spacecraft is doing a flyby of Venus where, on June 5th, it sent out a laser beam to measure the location of Venus’ cloud decks. “We are treating the Venus flyby as a full dress rehearsal for the first flyby of Mercury in January 2008,” says Sean Solomon, PI of both the MESSENGER mission and NAI’s Carnegie Institution of Washington Team.
Source: [Link]
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Ancient Organism Verified as Fungus
NAI scientists from the Carnegie Institution of Washington Team and their colleagues have a new paper in Geology outlining their process in resolving the mysterious identity of the Devonian fossil organism Prototaxities as a fungus. The team analyzed carbon isotopic ratios of the fossil relative to plants that lived in the same environment 400 million years ago.
Source: [Link]
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Lab-On-a-Chip Works Aboard the ISS
The Lab-On-a-Chip Application Development Portable Test System (LOCAD-PTS) is an instrument developed by the NAI Carnegie Institution of Washington Team over the past 4 years in collaboration with NASA Marshall Space Flight Center and Charles River Labs. LOCAD-PTS was flown to and recently tested aboard the International Space Station (ISS) to enable crew to monitor microorganisms and potentially hazardous chemicals within the cabin environment. The successful test is the first demonstration of complete biochemical analysis – from sampling to data retrieval – by an astronaut in space.
Source: [Link]
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A New Model for the Early Ocean
NAI’s Marine Biological Laboratory and Carnegie Institution of Washington Teams are contributing authors on a new paper in Earth and Planetary Science Letters presenting a new model for the evolution of Proterozoic deep seawater composition based on rare earth elements. Their data suggest transitional, suboxic conditions in the deep ocean (vs. sulfidic), which likely limited nutrient concentrations in seawater and, consequently, may have constrained biological evolution.
Source: [Link]
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Spectra of Two Extrasolar Planets
Researchers from NAI’s Carnegie Institution of Washington and NASA Goddard Space Flight Center Teams have a new paper in Nature describing the infrared spectrum of exoplanet HD 209458b as obtained by the NASA Spitzer Space Telescope. Scientists from NAI’s University of Arizona and Alumni Virtual Planetary Laboratory Teams are contributing authors on a similar paper in Astrophysical Journal Letters which details the spectrum of exoplanet HD 189733b. Both sets of results show relatively flat spectra, with no significant absorption by water or methane, in contrast with the predictions of most atmospheric models. One spectral feature of...
Source: [Link]
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Greenhouse Gases on Early Earth Helped Keep It Warm
A team of researchers including members of NAI’s University of Colorado, Boulder Team have provided the first direct field evidence supporting the theory that high concentrations of greenhouse gases could have helped avoid global freezing on the early Earth. They analyzed iron carbonates from 3.75-3.8 billion year old rocks in northern Québec, and conclude that the atmosphere of early Earth contained high levels of CO2. Their paper appears in a recent issue of Earth and Planetary Science Letters.
Source: [Link]
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Stardust Sample Analysis
A special issue of Science (Dec 15) includes several papers reporting on various aspects of Stardust sample analysis including an organics survey, isotopic and elemental compositions, mineralogy and petrology, and infrared spectroscopy. Many NAI researchers contributed to this comprehensive analytical campaign, including members of NAI’s Teams at the Carnegie Institution of Washington, NASA’s Ames Research Center and Goddard Space Flight Center, and NAI’s Alumni Team at the University of Washington.
Source: [Link]
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Found: A Hyperthermophilic Nitrogen Fixer
Researchers from NAI’s Carnegie Institution of Washington Team have published in Science their findings of a novel archaeon who’s ability to fix nitrogen at 92 degrees Celcius has officially increased the upper limit of biological nitrogen fixation by 28 degrees Celcius. The hyperthermophilic methanogen was isolated from a hydrothermal vent. Thier findings could reveal a broader range of conditions for life in the subseafloor biosphere.
Source: [Link]
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Astrobiology and Stardust
Carl Sagan once said “We are all star stuff.” But how? What does that really mean? One of the fundamental questions of astrobiology, how does life originate and evolve?, provides a structure in which to examine the relationship between life and the cosmos. Everywhere life has been found on Earth, which is essentially every place in which it has been sought, life’s intimate connection with water has also been found. Within the framework of contemplating life’s cosmic origins, one must also ask about the history of water on Earth. NASA’s Stardust mission has provided the opportunity for astrobiologists to gain deeper insight into this history.
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Mineral Surfaces and Life
Robert Hazen, from NAI’s Carnegie Institution of Washington Team, published his 2005 Presidential Address to the Mineralogical Society of America in this month’s American Mineralogist. The address reviews the role of mineral surfaces on the self-assembly of lipids, the polymerization of amino acids and nucleic acids, and the selective adsorption of organic species, including chiral molecules, onto mineral surfaces.
Source: [Link]
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Microbes of the Deep
In this week’s Science, researchers from NAI’s Indiana, Princeton, Tennessee Astrobiology Initiative (IPTAI) and Carnegie Institution of Washington Teams report that they have found an extant microbial biome at 2.8km depth in a South African mine. Analyses showed thermophilic sulfate reducers existing “with no apparent reliance on photosynthetically derived substrates.”
Source: [Link]
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Photosynthesis in the late Archean
A new study on carbon isotopes in sedimentary rocks from Western Australia by researchers from NAI’s Penn State and Carnegie Institution of Washington Teams supports the idea that small, shallow pools of water containing photosynthetic microbes existed on the early Earth ~ 2.72 Gya, about 300 million years before the rise of oxygen in the atmosphere. Their findings suggest a “global-scale expansion” of these habitats, and a progression away from anaerobic ecosystems and toward photosynthetic communities before the oxygenation of the atmosphere. This work was published in the early edition of this week’s PNAS.
Source: [Link]
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Exoplanet Weather
Researchers from NAI’s UCLA, Carnegie Institution of Washington, and NASA Goddard Space Flight Center Teams published this week in Science Express what may well be the first “Interstellar Weather Report.” Focusing on the innermost planet orbiting the star Upsilon Andromeda b, a hot Jupiter, the team used NASA’s Spitzer Space Telescope to make measurements indicating that the temperature variation between the planets light and dark sides is 2,550 degrees Fahrenheit.
Source: [Link]
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Father of Earth-formation models, Carnegie's George Wetherill, dies at 80
Carnegie Institution planetary-formation theorist and founding NAI member, George Wetherill, died from heart failure on July 19, 2006, at his Washington, D.C., home. Wetherill’s work revolutionized planet and solar system formation through theoretical models.
Source: [Link]
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Carbon Isotope Record from ~2.2 Ga Rocks in the Great Lakes Area
Andrey Bekker of NAI’s Carnegie Institution of Washington Team and his colleagues have an article in press for Precambrian Research which details the carbon isotope record for the carbonate platform in the Great Lakes area. Observed carbon isotope values from the Lake Superior area may correspond to those from Griqualand West Basin, South Africa, supporting the notion of three global glaciations in the Paleoproterozoic Era.
Source: [Link]
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B-Pictoris Debris Disk Rich in Carbon Gas
Using NASA’s FUSE spacecraft, scientists from NAI’s Carnegie Institution of Washington Team have discovered abundant amounts of carbon gas in a dusty disk surrounding the young star Beta Pictoris. While planets may have already formed, the prevalence of carbon gas in the disk indicates that the planets could be carbon-rich worlds of graphite and methane, potentially resembling the early conditions of our own Solar System. The authors suggest that either carbon-rich asteroids or comets, unlike any in our own solar system, have vaporized, or that bodies outgassing carbon-bearing species such as methane are responsible for the observation....
Source: [Link]
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Super-Earths Around M Dwarf Stars - Competing Theories
Alan Boss of NAI’s Carnegie Institution of Washington Team published in the current issue of the Astrophysical Journal a new look at the origin of super-Earths orbiting M dwarf stars. The core accretion mechanism of giant planet formation has been used to explain the presence of these planets. Boss’ new work shows they could also have been formed by the disk instability mechanism.
Source: [Link]
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Interstellar Chemistry Record
Researchers at NAI’s Carnegie Institution of Washington Team published this week in Science their new study of the interstellar chemistry record in both meteorites and interplanetary dust particles. They show that isotopic compositions in meteories meet and exceed those in found in IDP’s, demonstrating the capability of both to preserve primitive organics.
Source: [Link]
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NAI Discoveries Ranked Among NASA's Top Science Stories of the Year
Scientists from NAI’s NASA Goddard Space Flight Center Lead Team and NAI’s Carnegie Institution of Washington Lead Team and their collaborators used the NASA Spitzer Space Telescope to capture the first light ever detected from two planets orbiting stars other than the sun. Spitzer picked up the infrared glow from the Jupiter-sized planets. The findings mark the beginning of a new age of planetary science, in which extrasolar planets can be directly measured and compared.
Source: [Link]
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Microbial Sulfur Disproportionation and Accelerated Oxygenation at Earth's Surface
Researchers from NAI’s Carnegie Institution of Washington Lead Team published a study in this week’s Science using high-precision measurements of a rare sulfur isotope, 33S, to establish that microbial sulfur disproportionation was in place almost half a billion years earlier than previously thought. This could imply that Earth’s surface may have become progressively more oxygenated during the middle Proterozoic.
Source: [Link]
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More on the Rise of Earth's Oxygen Levels
A new paper in Earth and Planetary Science Letters from NAI’s Carnegie Institution of Washington Lead Team and NAI’s International Partner, the Australian Centre for Astrobiology, explores environmental changes during the rise of atmospheric oxygen and the relationship between tectonics, atmospheric oxygen, and climatic changes.
Source: [Link]
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Finding Life in Mars Analog Sites on Earth
Andrew Steel of the NAI Carnegie Team and other scientists have recently tested life-detection instruments designed for Mars at the Arctic Mars Analog site in a Norwegian volcano. In a press release, Hans Amundsen of the University of Oslo said “The instruments detected both living and fossilized organisms, which is the kind of evidence we’d be searching for on the Red Planet.” One instrument, designed by scientists at the Jet Propulsion Lab (JPL), detected “minute quantities of aromatic hydrocarbons from microorganisms and lichens present in the rocks and ice,” said JPL researcher Arthur Lonne Lane. One goal...
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Dust Around an Old Star?
Investigators from NAI’s UCLA and* Carnegie Institution of Washington* Lead Teams observed dust orbiting an old, relatively dead star, GD 362, and published their results in the_ Astrophysical Journal_ this month. This enigmatic observation could form the basis for predictions about the end of our own solar system.
Source: [Link]
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A Solar Analogue Explored
Astronomers from NAI’s Lead Teams at UCLA and the Carnegie Institution of Washington describe in this week’s issue of Nature their observations of large quantities of warm dust debris surrounding a Sun-like star some 300 light years from Earth. The dust is orbiting close to the star, and is similar in composition to dust in the Solar System. The composition and quantity of the dust may indicate massive and/or frequent collisions of large objects, perhaps similar to the theorized impactor that struck Earth to form the Moon.
Source: [Link]
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A New Class of Planet?
Astronomers have recently discovered what appear to be rocky planets intermediate in size between Earth and Jupiter. We have nothing like this in our own solar system, where there is a sharp distinction between small terrestrial planets and giants like Jupiter and Saturn. Alan Boss of the NAI Carnegie Team discusses the significance of these strange objects.
Source: [Link]
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Linking the Rise in Atmospheric Oxygen with Paleoproterozoic Glaciations
Andrey Bekker, once with NAI’s former Harvard Lead Team and now part of NAI’s Carnegie Institution of Washington Lead Team, led a study in this month’s Precambrian Research that for the first time documents chemostratigraphy and correlates Early Paleoproterozoic post-glacial carbonates of North America and South Africa.
Source: [Link]
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Pyruving the Origin of Life
For the origin of life, chemical synthesis of pyruvic acid is a critical step. In a difficult experiment, Carnegie Institute/NAI researchers report that the natural synthesis of such compounds would occur wherever hot ocean vents pass through iron sulfide-containing crust.
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iron-sulfur minerals iron concentrations iron formation iron isotope fractionation iron oxide iron oxidizing bacteria iron reduction kinetics irons-sulfur surfaces iron spectromicroscopy irradation irradiation ir spectroscopy isomerases isotope isotopes isotopic fractionation iss issol jack hills jakoba incarcerata jakoba libera jakobids jarosite journal:earth journal: journal of geophysical research journal of bacteriology journal of the american chemical society jpl jupiter kbo kbo size distribution kepler key nutrient metals kuiper belt kuiper belt objects laboratory laboratory investigation laboratory science lake lakes landsat tm data laser laser desorption lassen lassen volcanic national park late accretion late bombardment ldn 673 left-handed lefty level of analysis lexen program life life and environment life elsewhere in the universe life in extreme life in our solar system life on mars light lightning li isotopes lipids liquid liquid chromatography mass spectrometry lithic 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