How life might evolve with “exotic” biochemistry and solvents

September 19, 2009 By Leave a Comment

London, September 18 (ANI): Scientists at a new interdisciplinary research group in Austria are working to uncover how life might evolve with “exotic” biochemistry and solvents, such as sulfuric acid instead of water.

The research group for Alternative Solvents as a Basis for Life Supporting Zones in (Exo-) Planetary Systems was established by the University of Vienna.

Traditionally, planets that might sustain life are looked for in the ‘habitable zone’, the region around a star in which Earth-like planets with carbon dioxide, water vapor and nitrogen atmospheres could maintain liquid water on their surfaces.

Consequently, scientists have been looking for biomarkers produced by extraterrestrial life with metabolisms resembling the terrestrial ones, where water is used as a solvent and the building blocks of life, amino acids, are based on carbon and oxygen.

However, these may not be the only conditions under which life could evolve.

“It is time to make a radical change in our present geocentric mindset for life as we know it on Earth,” said scientist Johannes Leitner.

“Even though this is the only kind of life we know, it cannot be ruled out that life forms have evolved somewhere that neither rely on water nor on a carbon and oxygen based metabolism,” he added.

One requirement for a life-supporting solvent is that it remains liquid over a large temperature range.

Water is liquid between 0 degree Celsius and 100 degrees C, but other solvents exist which are liquid over more than 200 degrees C.

Such a solvent would allow an ocean on a planet closer to the central star.

The reverse scenario is also possible. A liquid ocean of ammonia could exist much further from a star.

Furthermore, sulfuric acid can be found within the cloud layers of Venus and it is now known that lakes of methane/ethane cover parts of the surface of the Saturnian satellite Titan.

Consequently, the discussion on potential life and the best strategies for its detection is ongoing and not only limited to exoplanets and habitable zones.

The newly established research group at the University of Vienna, together with international collaborators, will investigate the properties of a range of solvents other than water, including their abundance in space, thermal and biochemical characteristics as well as their ability to support the origin and evolution of life supporting metabolisms. (ANI)

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‘Cosmic fireworks display’ seen inside Helix Nebula

July 3, 2009 By Leave a Comment

Washington, July 3 (ANI): A new image, taken with an infrared camera on the Subaru Telescope in Hawaii, has revealed a cosmic fireworks display, in the form of tens of thousands of previously unseen comet-shaped knots inside the Helix Nebula.
he sheer number of knots – more than have ever been seen before – looks like a massive fireworks display in space.

The Helix Nebula was the first planetary nebula in which knots were seen, and their presence may provide clues to what planetary material may survive at the end of a star’s life.

Planetary nebulae are the final stages in the lives of low-mass stars, such as our Sun. As they reach the ends of their lives, they throw off large amounts of material into space.

Although the nebula looks like a fireworks display, the process of developing a nebula is neither explosive nor instantaneous. It takes place slowly, over a period of about 10,000 to 1,000,000 years.

This gradual process creates these nebulae by exposing their inner cores, where nuclear burning once took place and from which bright ultraviolet radiation illuminates the ejected material.

Astronomers from the National Astronomical Observatory of Japan (NAOJ), from London, Manchester and Kent Universities in the UK, and from the University of Missouri in the USA studied the emissions from hydrogen molecules in the infrared and found that knots are found throughout the entire nebula.

Although these molecules are often destroyed by ultraviolet radiation in space, they have survived in these knots, shielded by dust and gas that can be seen in optical images.

The comet-like shape of these knots results from the steady evaporation of gas from the knots, produced by the strong winds and ultraviolet radiation from the dying star in the centre of the nebula.

Unlike previous optical images of the Helix Nebula knots, the infrared image shows thousands of clearly resolved knots, extending out from the central star at greater distances than previously observed.

The extent of the cometary tails varies with the distance from the central star.

“This research shows how the central star slowly destroys the knots and highlights the places where molecular and atomic material can be found in space,” said lead astronomer Dr. Mikako Matsuura from University College London.

The images, captured by the infrared camera, enable astronomers to estimate that there may be as many as 40,000 knots in the entire nebula, each of which are billions of kilometers/miles across. (ANI)

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Demetri Martin catches “Moneyball” role

April 23, 2009 By Leave a Comment

LOS ANGELES (Hollywood Reporter) – Comedy Central star Demetri Martin has been cast opposite Brad Pitt in “Moneyball,” a professional baseball drama that Steven Soderbergh is directing.

Steven Zaillian wrote the screenplay of the Columbia film, which adapts Michael Lewis’ nonfiction book about Oakland A’s general manager Billy Beane, who assembled a contending ball club despite having a payroll much lower than that of other major-league teams.

Martin will play Paul DePodesta, a Harvard graduate who is into stats and probabilities and helps Beane (Pitt) develop his system.

A rising actor and comedian, Martin serves as star, writer, composer and executive producer of Comedy Central’s “Important Things With Demetri Martin.”

He has a role in Ang Lee’s upcoming “Taking Woodstock,” an ensemble drama starring Liev Schreiber, Emile Hirsch and Jeffrey Dean Morgan.

(Editing by Sheri Linden at Reuters)

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“Eye of God” seen staring down from space!

February 26, 2009 By Leave a Comment

London, Feb 26 (ANI): A stunning new photo taken by astronomers shows a Big Brother-style cosmic eye, nicknamed the “Eye of God”, staring down from space.

According to a report in New Scientist, the amazing object is actually a shell of gas and dust that has been blown off by a faint central star.

Our own solar system will meet a similar fate five billion years in the future.

The “Eye of God” lies around 700 light-years away in the constellation of Aquarius, and can be dimly seen in small backyard telescopes by amateur astronomers who call it the Helix nebula.

It covers an area of sky around a quarter the size of the full moon.

The bright blue pupil and the white of the eye are fringed by flesh-coloured eyelids, but this eye is so big that it light takes two and a half years to cross from one side to the other.

The photo was taken with a giant telescope at the European Southern Observatory, high on a mountaintop at La Silla in Chile.

It is so detailed that a close-up reveals distant galaxies within the central eyeball. (ANI)

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