Potato-shaped asteroid could be a stillborn planet

October 30, 2011 By Leave a Comment

A potato-shaped asteroid observed by a European space probe last year may be the remnant of an ancient stillborn planet, say scientists.

“This is the first object of this kind we have ever seen,” said Stephane Erard of the Paris Observatory. “For virtually the first time, we have found a witness to the formation of the planets.”

Three studies published in the journal Science reported the outcome of an encounter last year of the asteroid, 21 Lutetia, with Europe’s comet-chasing probe, Rosetta, the Telegraph reported.

The probe turned an array of cameras, thermal and spectroscopic sensors on the 121 km long, 101 km tall and 75 km wide Lutetia as it raced through the asteroid belt between Mars and Jupiter.

It has a complex surface, ridden with craters, including one that measures 55 kms across, where the asteroid was hit by smaller objects as well as shafts, crests and escarpments and smooth, younger-looking plains.

Lutetia’s high density, at 3,400 kilos per cubic metre, its large size and its ancient surface make it unlike any other asteroid probed so far, the studies said.

Erard, the study co-author, said it was likely to be a planetesimal, a bit of the material that clumped together to make the planets at the birth of the Solar System nearly four billion years ago.

“We believe that Lutetia is not debris resulting from a collision. Instead, it’s probably one of the holdouts of the (Solar System’s) primitive population,” added Erard.

Planetesimals are defined as rocks that, after clumping together grains of cosmic dust, become big enough to generate a gravitational field of their own. This attracts other bodies, eventually forming proto-planets, or the planetary embryoes.

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New evidence points towards water on Moon

September 19, 2009 By Leave a Comment

London, September 19 (ANI): Two separate lunar missions have found evidence which indicates that the polar regions of the moon are chock full of water-altered minerals.

According to a report in Nature News, early results from NASA’s Lunar Reconnaissance Orbiter (LRO), launched on June 18, are offering a wide array of watery signals.

The Moon, in fact, has water in all sorts of places: not just locked up in minerals, but scattered throughout the broken-up surface, and, potentially, in blocks or sheets of ice at depth.

“We are on the verge of a renaissance in our thinking about the poles of the Moon, including how water ice gets there,” said Anthony Colaprete, principal investigator for the Lunar Crater Observation and Sensing Satellite (LCROSS), which on October 9, will slam into a polar crater with the intention of ploughing up a plume of water ice for many telescopic eyes to see.

The initial LRO results confirm what was long suspected as a way for ice to stay trapped on the Moon for billions of years.

A thermal mapping instrument showed that permanently shadowed regions within deep polar craters are as cold as 35o Kelvin (-238o Celsius).

Project scientist Richard Vondrak said that they are the coldest spots in the Solar System – even colder than the surface of Pluto.

Variations in the flux of neutrons suggests variability in water content among craters.

But, the surprise comes from a different instrument on LRO, which counts slow-moving neutrons as a way of measuring hydrogen abundance in the top metre or so of the surface.

This hydrogen is often interpreted as a proxy for water ice, although it could also be molecular hydrogen or hydrogen trapped in other molecules.

The LRO instrument has already found a significant excess of hydrogen at the poles.

But, with added resolution, it is seeing surprising variability within the polar regions. Some of the craters appear enriched in hydrogen. Others are not.

Stranger still, some areas outside the crater walls, which were thought to get too hot for water to linger, show an excess of hydrogen.

Vondrak said this shows that the water could have arrived more recently, or that it can persist if buried as impacts till the lunar soil.

If the LCROSS impact spews up ice, it will eliminate the last vestiges of doubt about water on the Moon.

It could also start a new hunt: to find a record of impact events, such as water-rich comet strikes, that put the ice there in the first place. (ANI)

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Navy inducts stealth destroyer INS Kochi

September 19, 2009 By Leave a Comment

Kochi, Sep 18 (ANI): The Indian Navy today inducted a stealth destroyer of Kolkata class, INS Kochi, to boost its maritime capabilities and safeguard India’s interests.

Madhulika Verma wife of Chief of the Naval Staff, Admiral Nirmal Verma, named the second of the three Project 15-A stealth destroyers on September 18.

Mazagon Docks Ltd in Mumbai built the 6500-ton ship, named INS Kochi.

The ship has advanced stealth features, which make it less vulnerable to detection by enemy radar and will be fitted with state-of-the-art weapon systems which include the supersonic BrahMos surface-to-surface missile, the LRSAM Long Range Surface-to-Air Missiles and the MFStar multi-function radar system providing accurate data on surface and air targets.

In addition, four AK-630 rapid-fire guns and a medium range gun will boost the ship’s close-range defence capability.

The ships will also be fitted with indigenously developed twin-tube torpedo launchers and anti-submarine rocket launchers.

The NPOL developed Humsa-NG hull-mounted sonar, and two multi-role helicopters adding punch to the ship’s anti-submarine capability. The maximum speed of the ship is above 30 Knots.

The destroyer will be launched using the pontoon-assisted launch technique, to be employed for the first time in the history of indigenous warship building.

This technique helps in overcoming slipway/ draft constraints and permits launching of heavier vessels. (ANI)

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Catalyst simulations for fuel cells may make clean cars a reality

September 19, 2009 By Leave a Comment

Washington, Sep 18 (ANI): University of Wisconsin-Madison researchers are working towards developing better catalyst for fuel cells in a bid to make clean cars a reality.

If successful, the researchers could make a car that runs on hydrogen from solar power, and produces water instead of carbon emissions.

Materials science and engineering assistant professor Dane Morgan and Ph.D. student Edward (Ted) Holby have developed a computational model that could optimise an important component of fuel cells, making it possible for the technology to have a more widespread use.

The researchers investigated how particle size is related to the overall stability of a material, and showed with their model that increasing the particle size of a fuel cell catalyst decreases degradation and therefore increases the useful lifetime of a fuel cell.

Fuel cells are electrochemical devices that facilitate a reaction between hydrogen and oxygen, producing electrical power and forming water.

In the type of fuel cells Morgan is researching, called proton exchange membrane fuel cells (PEMFCs), hydrogen is split into a proton and electron at one side of the fuel cell (the anode).

The proton moves through the device while the electron is forced to travel in an external circuit, where it can perform useful work, while at the other side of the fuel cell (the cathode), the protons, electrons and oxygen combine to form water, which is the only waste product.

One of the many hurdles to producing efficient fuel cells for widespread use is the catalyst added to aid the reaction between protons, electrons and oxygen at the cathode.

Current fuel cells use platinum and platinum alloys as a catalyst. While platinum can withstand the corrosive fuel cell environment, it is expensive and not very abundant.

Thus, to maximize platinum use, researchers use catalysts made with platinum particles as small as two nanometers, which are approximately 10 atoms across.

These tiny structures have a large surface area on which the fuel cell reaction occurs.

However, platinum catalysts this small degrade very quickly, which means that the fuel cell doesn’t last long.

The researchers have found a possible solution to the rapid degradation problem-when it comes to catalyst particle size, sometimes smaller isn’t better.

In their modelling work, they showed that if the particle size of a platinum catalyst is increased to four or five nanometers, which is approximately 20 atoms across, the level of degradation significantly decreases.

This means the catalyst and the fuel cell as a whole can continue to function for much longer than if the particle size was only two or three nanometers.

“Fuel cells are just one of many energy technologies – solar, battery, etc. – with enormous potential to reduce our dependence on oil and our carbon emissions. Computer simulation offers a powerful tool to understand and develop new materials at the heart of these energy technologies,” said Morgan. (ANI)

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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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Vaccine for urinary tract infections comes closer to reality

September 19, 2009 By Leave a Comment

Washington, Sept 18 (ANI): A simple vaccine may soon be available to protect against urinary tract infections, thanks to researchers from University of Michigan.

The study conducted over mice showed that the vaccine prevented infection and produced key types of immunity.

It alerts the immune system to iron receptors on the surface of Escherichia coli bacteria that perform a critical function allowing infection to spread.

Administered in the nose, it induces an immune response in the body’s mucosa, a first line of defense against invading pathogens. The response, also produced in mucosal tissue in the urinary tract, should help the body fight infection where it starts.

The researchers used novel systematic approach, combining bioinformatics, genomics and proteomics, to look for key parts of the bacterium that could be used in a vaccine to elicit an effective immune response.

The team, led by Dr. Harry L.T. Mobley, screened 5,379 possible bacterial proteins and identified three strong candidates to use in a vaccine to prime the body to fight E. coli.

Mobley’s team is currently testing more strains of E. coli obtained from women treated at U-M.

If the robust immunity achieved in mice can be reproduced in humans, it could be the first ever vaccine for urinary tract infections.

Most of the strains produce the same iron-related proteins that can be vaccine targets, an encouraging sign that the vaccine could work against many urinary tract infections.

The findings are published in the open-access journal PLoS Pathogens. (ANI)

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Findings from India’s Chandrayaan to provide new understanding of lunar surface

September 19, 2009 By Leave a Comment

London, September 18 (ANI): India’s Chandrayaan-1 X-ray Spectrometer (C1XS) has gathered data for a total of 30 solar flares, giving the most accurate measurements to date of magnesium, aluminum, silicon, calcium, and iron in the lunar surface.

Although contact was lost with Chandrayaan-1 last month, the enhanced performance of the C1XS instrument, which exceeded its design specification, means that the science team will be able to determine the geochemistry of new areas of the lunar surface, adding some vital pieces to the jigsaw of the mineralogy of the lunar surface.

The miniature C1XS instrument investigated the lunar surface using an effect whereby X-ray illumination from the Sun causes rocks to fluoresce, emitting light at a different wavelength.

This re-emitted light contains spectral peaks that are characteristic of elements contained in the rock, revealing its composition.

Solar flares act like a flash bulb, giving added illumination and allowing C1XS to ‘see’ more elements.

During normal conditions, C1XS could detect magnesium, aluminum, and silicon and collected data on the levels of these elements, enabling detailed mapping of areas of the lunar surface during its operational period.

During the 30 solar flares, C1XS detected calcium and iron (and sometimes titanium, sodium, and potassium) in key areas in the southern hemisphere and on the far side of the Moon.

The spectral resolution of 50 km was much better than previous missions.

According to Professor Grande, “The C1XS team will be analyzing the data collected during the Chandrayaan-1 mission over the next few months, and the results will help us further our knowledge of the Moon and planetary formation.”

In addition, the design of the instrument has been proved very successful in that it withstood passage through the Earth’s radiation belts and went on to produce these wonderful high-resolution spectra. We were able to separate clear peaks for each of the target elements, allowing us not only to identify where they are present but give an accurate estimate for how much is there,” he said.

“The technology developed for C1XS opens up some exciting opportunities for future missions,” he added. (ANI)

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Navy to induct stealth destroyer INS Kochi on Sep.18

September 17, 2009 By Leave a Comment

New Delhi, Sep 16 (ANI): The Indian Navy will induct a stealth destroyer of Delhi class on September 18 to boost its maritime capabilities and safeguard India’s interests.

Madhulika Verma wife of Chief of the Naval Staff, Admiral Nirmal Verma, will launch the second of the three Project 15-A stealth destroyers on September 18.

The 6500-ton ship, to be named INS Kochi, is being built by Mazagon Docks Ltd in Mumbai. The Directorate of Naval Design has designed the destroyer indigenously. The existing Delhi Class destroyers are INS Delhi, INS Mysore and INS Mumbai.

The ship has advanced stealth features, which make it less vulnerable to detection by enemy radar and will be fitted with state-of-the-art weapon systems which include the supersonic BrahMos surface-to-surface missile, the LRSAM Long Range Surface-to-Air Missiles and the MFStar multi-function radar system providing accurate data on surface and air targets.

In addition, four AK-630 rapid-fire guns and a medium range gun will boost the ship’s close-range defence capability.

The ships will also be fitted with indigenously developed twin-tube torpedo launchers and anti-submarine rocket launchers.

The NPOL developed Humsa-NG hull-mounted sonar, and two multi-role helicopters adding punch to the ship’s anti-submarine capability. The maximum speed of the ship is above 30 Knots.

The destroyer will be launched using the pontoon-assisted launch technique, to be employed for the first time in the history of indigenous warship building.

This technique helps in overcoming slipway/ draft constraints and permits launching of heavier vessels. (ANI)

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Scientists unravel chemistry of Titan’s hazy atmosphere

September 17, 2009 By Leave a Comment

Washington, September 16 (ANI): In a new research, a team of scientists has unraveled the chemical evolution of the orange-brownish colored atmosphere of Saturn’s moon Titan, the only solar system body besides Venus and Earth with a solid surface and thick atmosphere.

Scientists at University of Hawai’i at Manoa carried out the research.

The UH Manoa team, including Xibin Gu and Seol Kim, conducted simulation experiments mimicking the chemical reactions in Titan’s atmosphere utilizing crossed molecular beams in which the consequence of a single collision between molecules can be followed.

The team’s experiments indicate that triacetylene can be formed by a single collision of a “radical” ethynyl molecule and a diacetylene molecule.

An ethynyl radical is produced in Titan’s atmosphere by the photodissociation of acetylene by ultraviolet light.

Photodissociation is a process in which a chemical compound is broken down by photons.

“Surprisingly, the photochemical models show inconsistent mechanisms for the production of polyynes,” said Kaiser, who is the principal investigator of this study.

The mechanism involved in the formation of triacetylene, was also confirmed by accompanying theoretical calculations by Alexander Mebel, a theoretical chemist at Florida International University.

These theoretical computations also provide the 3D distribution of electrons in atoms and thus the overall energy level of a molecule.

To apply these findings to the real atmosphere of Titan, Danie Liang and Yuk Yung, planetary scientists at Taiwan’s Academia Sinica and California Institute of Technology (Caltech), respectively, performed photochemical modeling studies of Titan’s atmosphere.

All data together suggest that triacetylene may serve as a building block to form more complex and longer polyynes and produce potential precursors for the aerosol-based layers of haze surrounding Titan.

The study demonstrated for the first time that a sensible combination of laboratory simulation experiments with theory and modeling studies can shed light on decade old unsolved problems crucial to understand the origin and chemical evolution of the solar system.

The researchers hope to unravel next the mystery of the missing ethane lakes on Titan – postulated to exist for half a century, but not detected conclusively within the framework of the Cassini-Huygens mission.

In the future, the UH Manoa team will combine the research results with terrestrial-based observations of Titan’s atmosphere. (ANI)

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Cracks on Mars a result of evaporating lakes in ancient times

September 17, 2009 By Leave a Comment

Washington, September 16 (ANI): Networks of giant polygonal troughs etched across crater basins on Mars have been identified as desiccation cracks caused by evaporating lakes, providing further evidence of a warmer, wetter Martian past.

The findings were presented at the European Planetary Science Congress by PhD student M. Ramy El Maarry of the Max Planck Institute for Solar System Research.

The polygons are formed when long cracks in the surface of the Martian soil intersect.

El Maarry investigated networks of cracks inside 266 impact basins across the surface of Mars and observed polygons reaching up to 250 meters in diameter.

Polygonal troughs have been imaged by several recent missions but, until now, they have been attributed to thermal contractions in the Martian permafrost.

El Maarry created an analytical model to determine the depth and spacing of cracks caused by stresses building up through cooling in the Martian soil.

He found that polygons caused by thermal contraction could have a maximum diameter of only about 65 meters, much smaller than the troughs he was seeing in the craters.

“I got excited when I saw that the crater floor polygons seemed to be too large to be caused by thermal processes. I also saw that they resembled the desiccation cracks that we see on Earth in dried up lakes,” said El Maarry.

“The stresses that build up when liquids evaporate can cause deep cracks and polygons on the scale I was seeing in the craters,” he added.

El Maarry identified the crater floor polygons using images taken by the MOC camera on Mars Global Surveyor and the HiRISE and Context cameras on Mars Reconnaissance Orbiter.

The polygons in El Maarry’s survey had an average diameter of between 70 and 140 kilometers, with the width of the actual cracks ranging between 1 and 10 meters.

Evidence suggests that between 4.6 and 3.8 billion years ago, Mars was covered in significant amounts of water.

Rain and river water would have collected inside impact crater basins, creating lakes that may have existed for several thousand years before drying out.

However, according to El Maarry, in the northern hemisphere, some of the crater floor polygons could have been formed much more recently.

“When a meteorite impacts with the Martian surface, the heat can melt ice trapped beneath the Martian crust and create what we call a hydrothermal system. Liquid water can fill the crater to form a lake, covered in a thick layer of ice. Even under current climatic conditions, this may take many thousands of years to disappear, finally resulting in the desiccation patterns,” said El Maarry. (ANI)

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Research team all set to explore sacred Maya pools of Belize

September 14, 2009 By Leave a Comment

Washington, September 14 (ANI): A team of expert divers, a geochemist and an archaeologist is all set to become the first to explore the sacred pools of the southern Maya lowlands in rural Belize.

The expedition, made possible with a grant from the National Geographic Society and led by a University of Illinois archaeologist, will investigate the cultural significance and environmental history and condition of three of the 23 pools of Cara Blanca, in central Belize.

Called ‘cenotes’, these groundwater-filled sinkholes in the limestone bedrock were treated as sacred sites by the Maya, according to University of Illinois archaeologist Lisa Lucero, who will lead the expedition next spring.

“Any openings in the earth were considered portals to the underworld, into which the ancient Maya left offerings,” said Lucero. “We know from ethnographic accounts that Maya collected sacred water from these sacred places, mostly from caves,” she added.

Studies of shallow lakes and cenotes in Mexico and Guatemala have found that the Maya also left elaborate offerings in the sacred lakes and pools.

Items found on the bottom of lakes in these regions include masks, bells, jade, human remains, figurines and ceramic vessels decorated with animals, plants and the gods of fertility and death.

“Diving the sacred pools of Cara Blanca, in central Belize, is necessary to determine if they have similar sacred qualities,” Lucero said.

“Once underwater, we will first have to cut out some of the jungle wood so that we can even reach the bottom,” said Patricia Beddows, a lecturer of earth and planetary sciences at Northwestern University and an expert diver who has explored cenotes on the Yucatan Peninsula of Mexico.

“After mapping for fragile Maya artifacts, we will also take water data and manually drill sediment cores,” she added.

“The sediment samples will provide a record of changes in surface and water conditions,” Beddows said.

“Were the Maya challenged by droughts in the area? Did the water quality suddenly go bad due to sulfur or other geologic factors? We hope these cenotes will provide a rich story of linked human and environmental conditions,” she said.

One of the three pools the researchers will explore has a substantial Maya structure on its edge, likely ceremonial.

Preliminary investigations of the structure conducted by archaeologist Andrew Kinkella, of Moorpark College, turned up a lot of jars and the fragments of jars.

“This could indicate that the site was important for collecting sacred water,” Lucero said. (ANI)

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Climate change is faster in Arctic than in any other location on Earth

September 14, 2009 By Leave a Comment

Washington, September 13 (ANI): Researchers at the University of Helsinki in Finland have participated in two new studies, which indicate that climate change is progressing faster in Arctic areas than in any other location on Earth.

The study results indicate that the Arctic eco-system has experienced immense changes in the last twenty years.

At many levels, the changes impact the eco-system services that the environment provides for people: the effects extend to the adequacy of natural resources, food production, climate temperature, and result in changes to the landscape.

The changes in the northern nature can be interpreted as an advance warning of what is to be expected on all latitudes.

The results show that spring begins considerably sooner than before.

The blossoming and pollination period of plants starts as much as twenty days sooner in comparison to the situation ten years ago.

Predators are in dire straits because nutrition is now available too soon in relation to the otherwise favourable nesting period.

The distribution of many insects has moved even more north. European winter moths, for example, have destroyed extensive birch areas in Lapland after moving north.

Species invading new areas might supersede the original species in the area, which is already happening to Arctic foxes, which are currently being overrun by red foxes.

Ivory gulls, ringed seals, polar bears and narwhals are examples of species with a small distribution and specialized habitats, and such species will be the first ones to suffer from the changes.

Climate change also has indirect effects that appear in the interaction between different species.

Olivier Gilg and academy professor Ilkka Hanski from the University of Helsinki have teamed up with Benoit Sittler, a researcher from the University of Freiburg, and studied the waning of the previously cyclical population dynamics of the collared lemming in Greenland.

With mathematical models, the researchers showed that the drastic change in the population dynamics of collared lemmings is explained by the fact that snow melts sooner than before.

The lemmings do not procreate as long as before below the snow, and are also easier for predators to hunt.

In addition, frost-melt events in winter form ice layers in the snow layer or at the tundra’s surface, which is why the lemmings are unable to find food like they used to. (ANI)

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Airborne laser to shoot ballistic missile as part of flight test

September 12, 2009 By Leave a Comment

London, September 12 (ANI): Soon, the Airborne Laser (ABL), built into a customized Boeing 747, is ready for flight tests, in which it will try to shoot a ballistic missile.

According to a report in New Scientist, the US Department of Defense’s Missile Defense Agency (MDA) has developed the ABL.

The ABL aims to focus a beam of laser energy in the megawatt range for several seconds onto a missile at a “militarily significant distance” – more than 100 kilometres.

So far, the laser has only operated at near full power on the ground. On August 18, it was fired successfully from the air, but at reduced power.

That, however, was no mean feat, as aircraft vibrations play havoc with the precisely aligned optical components needed to generate a laser beam.

Firing at full power poses other challenges as well.

At powers high enough to destroy missiles, any surface contamination or tiny flaw in the laser optics can absorb so much heat that they crack or shatter.

High-power laser beams also heat the air they pass through, creating perturbations that can disperse or divert the beam.

To counteract those effects, the ABL uses an adaptive system that senses atmospheric changes along its path and makes optical adjustments to compensate.

To test that system, the MDA plans a series of increasingly powerful shots at modified ballistic missiles loaded with sensors to measure the distribution of laser power on the target.

Engineers will assess each shot’s performance and use the results to fine-tune the adaptive optics.

Once this is done, the MDA will test the laser again in varying conditions, and attempt to destroy actual missiles.

The first of these tests is planned to take place late this year, with two more to follow in early 2010, according to an MDA spokeswoman. (ANI)

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Gecko’s tail has a mind of its own

September 10, 2009 By Leave a Comment

Washington, September 9 (ANI): A new study has found that the gecko tail literally has a mind of its own, as it exhibits not only rhythmic but also complex movements, including flips, jumps and lunges, after it is shed.

Anthony Russell of the University of Calgary (U of C) and Tim Higham of Clemson University in South Carolina carried out the study.

Geckos and other lizards have long been known for their incredible ability to shed their tails as a decoy for predators, but little is known about the movements and what controls the tail once it separates from the lizard’s body.

Although one previous study has looked at movement of the tail after it is severed, no study up to this point has quantified movement patterns of the tail by examining the relationship between such patterns and muscular activity.

“What we’ve discovered is that the tail does not simply oscillate in a repetitive fashion, but has an intricate repertoire of varied and highly complex movements, including acrobatic flips up to three centimetres in height,” said Russell, a biological sciences professor at the U of C.

“An intriguing, and as yet unanswered, question is what is the source of the stimulus is that initiates complex movements in the shed tails of leopard geckos,” said Higham.

“The most plausible explanation is that the tail relies on sensory feedback from the environment. Sensors on its surface may tell it to jump, pivot or travel in a certain direction,” he added.

The ability of an animal, or part of an animal, to move without the active control of higher centres in the brain is well known, but this generally occurs as a result of traumatic physical injury.

Tails of lizards are shed under the animal’s own control.

Because of this, the behaviour of the shed part has adaptive evolutionary importance and its actions are programmed to assist in the owner’s survival.

The movements are coordinated by the part of the spinal cord that is housed in the tail.

The isolated tail serves as a vehicle for studying the ways that nerves and muscles act together to generate controlled but complex outputs in the absence of the influence of the brain.

The new study shows that the signals responsible for movements of the shed tail begin at the very far end of the tail, indicating that there is a control centre located there that is likely overridden by higher centres until the tail is shed, at which point its potential is realized. (ANI)

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Researchers make bacteria to produce useful proteins

September 7, 2009 By Leave a Comment

Washington, Sep 7 (ANI): Researchers at the University of British Columbia have turned the bacterium Caulobacter crescentus into a protein production factory by adapting a single protein on its surface, thus making useful proteins that can act as vaccines and drugs.

C. crescentus is a harmless bacterium that has a single protein layer on its surface.

Led by Dr. John Smit, the researchers adapted the system that secretes this protein, which self-assembles into a structure called the “S-layer”, to secrete instead many proteins that are useful for vaccines and other therapeutic purposes.

In other words, by keeping the S-layer protein intact and genetically inserting new things inside it, they produce a very dense display of useful proteins on the cell surface.

The researchers are now hoping to use the entire bacterium in a therapeutic application.

Bacteria are commonly used in biotechnology to produce useful protein products.

If the bacteria secrete the protein rather than keep it contained within the cell, purification costs are greatly lowered.

The researchers have developed a commercially available kit based on this technology, which could be especially useful in developing countries as it might be used to manufacture HIV-blocking agents very cheaply and with little specialist expertise.

“This S-layer system is very efficient at producing and secreting proteins – we can make the bacterium into a protein pump, secreting over half of all the protein it makes as engineered S-layer protein,” said Smit.

He added: “Applications of S-layer display that we are currently developing include anti-cancer vaccines, an HIV infection blocker and agents to treat Crohn’s and colitis, and diarrhoea in malnourished populations”.

Smit presented the findings at the Society for General Microbiology’s meeting at Heriot-Watt University, Edinburgh. (ANI)

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Missing protein in rare genetic brain disorder restored

September 7, 2009 By Leave a Comment

Washington, Sep 7 (ANI): By using protease inhibitors, researchers at the University of California-San Francisco (UCSF) have restored to normal levels a key protein that is involved in early brain development, and causes the rare brain disorder lissencephaly.

Reduced levels of the protein called LIS1 have been shown to cause lissencephaly, which is characterized by brain malformations, seizures, severe mental retardation and very early death in human infants.

The findings in mice offer a proof-of-principle that the genetic equivalent to human lissencephaly, also known as “smooth brain” disease, can be treated during pregnancy and effectively reversed to produce more normal offspring.

The researchers are hoping that this approach could also be used to treat other defects in utero, or even those manifesting after birth, when caused by a partial deficiency in one gene, according to Dr. Anthony Wynshaw-Boris.

“Researchers have not considered it possible to treat such a pervasive, early developmental brain disorder as lissencephaly. Not only were we able to show a clear cellular effect from using these protease inhibitors, but also were able to treat the disorder in utero,” Nature quoted Wynshaw-Boris as saying.

The work is the culmination of 15 years of collaborative research into the cause and mechanisms of lissencephaly, which is caused by a deletion or loss of one copy of the LIS1 gene, and affects an estimated one in 50,000-100,000 infants.

In 1998, the researchers reported of producing a mouse with the same mutation that displayed defective brain development.

The current research used these mice, and found that the protein calpain degrades the LIS1 protein to less than half its normal levels near the surface of the cells.

The team then used a specific small-molecule protease inhibitor of calpain in these mice.

At a cellular level, the protease inhibitors enabled LIS1 protein to be expressed at near-normal levels.

The team then gave daily injections of a calpain inhibitor to pregnant mice whose foetuses had the mouse-model of this defect.

They observed that the resulting offspring had more normal brains and showed no sign of mental retardation.

“This study is really a proof-of-principle not only for treating complex developmental brain disorders, but also for any disorder with reduced protein levels where proteases normally play some role in breaking down that protein. This will be much more difficult to apply to humans, because of the safety issues involved, but it could lead to new therapies that might be effective for a wide range of developmental disorders,” said the researchers.

The findings have been published in the journal Nature Medicine. (ANI)

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NASA all set to launch infrared eye to hunt for dark asteroids

September 3, 2009 By Leave a Comment

Sydney, September 3 (ANI): NASA is preparing to launch an infrared telescope that will hunt down dark asteroids that have slipped beneath our radar.

According to a report by ABC Science, the Wide-field Infrared Survey Explorer (WISE) spacecraft recently arrived at Vandenberg Air Force Base in California ahead of its launch later this year.

With a quartet of infrared sensors and a wide view, WISE is designed to survey the whole sky in infrared light.

It’s not the first telescope to do so, but scientists expect WISE’s observations will be 500 times sharper than a survey conducted in 1980s by IRAS, the Infrared Astronomical Satellite, according to astronomer Martin Cohen of the University of California at Berkeley.

The data will be complied into an all-sky infrared atlas, a tome that is expected to include about 300 million objects, including around 100,000 asteroids.

Many of the asteroids seen by WISE will be known objects.

Scientists hope to use the new observations to nail down details, such as an asteroid’s diameter and surface reflectivity.

“With ground-based scopes, it’s just a point source. You can’t tell size directly,” said University of Texas astronomer Dr Robert McMillan who leads Spacewatch, an asteroid-survey project.

“A big object that is dark and a small object that is bright are going to look like they have the same brightness,” he added.

The solar system contains several million asteroids, most of which reside in the main asteroid belt between Mars and Jupiter.

About 7000 asteroids have been identified that cross or come close to Earth’s orbit.

WISE will be able to spot asteroids emitting heat due to direct exposure from the Sun, as opposed to visible-light searches that find asteroids that are reflecting sunlight.

“Those are two different physical effects,” said McMillan. “An asteroid that has very dark colour in invisible light is going to get heated up more, just like a black car in a parking lot is going to get heated up more than a white car,” he added.

Scientists hope to get enough positioning information to follow up targets with ground-based observations.

McMillan expects that WISE will discover a few hundred new asteroids.

The information will be folded into ongoing surveys to map asteroids that could impact Earth and cause widespread damage.

Other WISE targets include brown dwarfs, which are Jupiter-sized stars that never got their nuclear fusion engines running, and ultra-luminous galaxies, which pump out the equivalent of about 1000 Sun-sized stars every year. (ANI)

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Climate change mitigation strategies ignore carbon cycling processes of inland waters

September 2, 2009 By Leave a Comment

Washington, Sept 2 (ANI): In a new report, scientists have determined that climate change mitigation strategies ignore carbon cycling processes of inland waters.

Scientists from the University of Vienna, Uppsala University in Sweden, University of Antwerp, and the US based Stroud Water Research Center, authored the report, which is published in the September issue of Nature Geoscience.

They argue that current international strategies to mitigate manmade carbon emissions and address climate change have overlooked a critical player – inland waters.

Streams, rivers, lakes, reservoirs, and wetlands play an important role in the carbon cycle that is unaccounted for in conventional carbon cycling models.

According to Dr. Tom J. Battin of the department of Freshwater Ecology at the University of Vienna and lead author of the report, “While inland waters represent only 1 percent of the Earth’s surface, their contribution to the carbon cycle is disproportionately large, underestimated, and not recognized within the models on which the Kyoto protocol was based.”

The team of scientists points out that all current global carbon models consider inland waters static conduits that transfer carbon from the continents to the oceans.

In reality, inland waters are dynamic ecosystems with the potential to alter the fates of terrestrial carbon delivered to them including: burial in sediments leading to long-term storage or sequestration; and metabolism in rivers and subsequent outgassing of respired carbon dioxide to the atmosphere.

“Twenty percent of the continental carbon sequestration actually occurs as burial in inland water sediments,” said Dr. Lars Tranvik, Professor of Limnology at Uppsala University in Sweden.

“River outgassing of respired carbon, contributes carbon to the atmosphere in an amount equivalent to 13 percent of annual fossil fuel burning,” said Dr. Anthony K. Aufdenkampe, a scientist at the Stroud Water Research Center.

Because the amount of atmospheric carbon is well known and conservation of matter requires a balanced global carbon budget, this previously unaccounted for source of carbon to the atmosphere implies the existence of an additional continental carbon sink such as higher rates of biomass accrual in forests.

“A larger accumulation of carbon in forest ecosystems that could offset the outgassing from rivers would be more consistent with current independently-derived estimates of carbon sequestration on the continents,” said Dr. Sebastian Luyssaert of the department of Biology at University of Antwerp in Belgium. (ANI)

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Moonbell – the way to make sweet music from Moon!

September 2, 2009 By Leave a Comment

London, Sept 2 (ANI): Food for thought: What would music made on the moon sound like? Stop scratching your head, for JAXA, Japan’s space exploration agency, has come up with the answer.

JAXA has created a strange little applet on its Web site called “Moonbell”, which is free to use.

It takes topographic data gathered by the agency’s Kaguya orbiter, and translates them into patterns of ascending and descending musical notes, reports The Telegraph.

Users can either play a full orbit or select the “free scratch” mode, which allows them to map their own routes across the Moon’s surface.

Like a record player, Moonbell translates the bumps and ridges it detects into musical notes.

The resulting compositions can be interpreted by any combination of more than 138 instruments. (ANI)

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Saraswat takes charge as new DRDO chief

September 1, 2009 By Leave a Comment

New Delhi, Sep 1 (ANI): Dr Vijay Kumar Saraswat, who is in charge of the development of missile and strategic systems in the country, today took charge as scientific adviser to Defence Minister AK Antony and will also serve as Director General of the Defence Research and Development Organisation.

Dr. Saraswat, who replaced the present incumbent M Natarajan on September 1, will also serve as Secretary Department of Defence Research and Development,.

He is presently Chief Controller Research and Development (Missiles and Strategic Systems) since November 2005 in DRDO.

In this capacity, he spearheaded the development of country’s strategic and tactical missile systems, including the AGNI series of strategic missiles covering a range up to 3000 kms.

Dr Saraswat, who has a doctorate in Combustion Engineering, started his career in DRDO in 1972 at Defence Research and Development Laboratory (DRDL), Hyderabad and was responsible for the development of country’s first Liquid Propulsion Engine.

As Project Director ‘PRITHVI’, he steered the design, development, production and induction of first indigenous Surface-to-Surface missile system ‘PRITHVI’, into armed forces.

The successful testing of DHANUSH missile on board a moving ship with high terminal accuracy brought new dimension in the national defence capability. Dr. Saraswat also pioneered the concept of theatre defence system and integration of national Air Defence elements.

He was Director RCI before taking over as CCR and D(MSS). He has headed various committees of national importance.

Dr Saraswat is forerunner in the development of number of critical missile technologies that were under denial due to Missile Technology Control regime, thus making India self-reliant in Missile Technologies.

He has received several awards including Prof Jai Krishna Memorial Award of Indian National Academy of Engineering (INAE) and National Systems Gold Medal by Systems Society of India.

International Academy of Engineering, Russia, elected Dr. Saraswat as Member of Academy and honoured him as an academician. (ANI)

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