Scientists develop ‘electronic nose’ that can sniff out toxins by changing colors

September 14, 2009 By Leave a Comment

Washington, September 14 (ANI): A team of scientists has developed a sensor that works as an ‘electronic nose’ in sniffing out some known poisonous gases and toxins, simply by changing colors.

Support for the development and application of this electronic nose comes from the National Institute of Environmental Health Sciences, part of the National Institutes of Health.

Once fully developed, the sensor could be useful in detecting high exposures to toxic industrial chemicals that pose serious health risks in the workplace or through accidental exposure.

While physicists have radiation badges to protect them in the workplace, chemists and workers who handle chemicals do not have equivalent devices to monitor their exposure to potentially toxic chemicals.

The investigators hope to be able to market the wearable sensor within a few years.

“The project fits into the overall goal of a component of the GEI Exposure Biology Program that the NIEHS has the lead on, which is to develop technologies to monitor and better understand how environmental exposures affect disease risk,” said NIEHS Director Linda Birnbaum.

“This paper brings us one step closer to having a small wearable sensor that can detect multiple airborne toxins,” she added.

Kenneth S. Suslick, the M.T. Schmidt Professor of Chemistry at the University of Illinois at Urbana-Champaign, and his colleagues have created what they refer to as an optoelectronic nose, an artificial nose for the detection of toxic industrial chemicals (TICs) that is simple, fast, inexpensive, and works by visualizing colors.

“We have a disposable 36-dye sensor array that changes colors when exposed to different chemicals. The pattern of the color change is a unique molecular fingerprint for any toxic gas and also tells us its concentration,” said Suslick.

“By comparing that pattern to a library of color fingerprints, we can identify and quantify the TICs in a matter of seconds,” he added.

The power of this sensor to identify so many volatile toxins stems from the increased range of interactions that are used to discriminate the response of the array.

To test the application of their color sensor array, the researchers chose 19 representative examples of toxic industrial chemicals.

Chemicals such as ammonia, chlorine, nitric acid and sulfur dioxide at concentrations known to be immediately dangerous to life or health were included.

The arrays were exposed to the chemicals for two minutes.

Most of the chemicals were identified from the array color change in a number of seconds and almost 90 percent of them were detected within two minutes. (ANI)

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Now, a smart home that can alert owner about a stove burner left on

September 3, 2009 By Leave a Comment

London, Sep 3 (ANI): Ever thought that your home would tell if you have left a stove burner on after making your breakfast? Well, it is now possible, thanks to the new sensor-stuffed apartment created by researchers at Washington State University in Pullman.

The smart home, known as Casas, developed by Diane Cook and colleagues, can learn the ways of its inhabitants by observing their daily habits and how they use different appliances everyday.

The technology could be used in houses to support people with cognitive difficulties or dementia with their daily living needs, or to make things easier for healthy people.

For example, the apartment can recognise when a person is performing actions associated with making breakfast and can prompt them with audio and video signals to warm them of any anomaly like a stove left burning.

While Casas was developed to analyse the sensors’ output, Graduate student Parisa Rashidi has improved the system, so that it can learn a person’s habits without prior assumptions about what events or patterns to expect.

While previous smart homes used movie cameras to pre-define key activities before recognising them, the new system was successfully tested in a specially outfitted apartment with a single resident on campus.

It required around a month of training to accurately tease out the resident’s habits from the sea of sensor data, said Rashidi.

Once trained, Casas can identify patterns as complex as “at 6 am the kitchen light comes on, the coffee maker turns on, and the toaster turns on” without any prior knowledge of what to expect.

To maintain a resident’s sense of privacy Casas works without cameras, RFID chips or microphones.

Instead less “invasive” sensors that detect motion, temperature, light, humidity, water, door contact and the use of key items, such as opening a bottle of medication or switching on the toaster.

“We don’t want to give residents the feeling that Big Brother is watching them,” New Scientist quoted Rashidi as saying.

The researchers developed a number of data-mining algorithms to help make sense of the sensor output.

One algorithm uses a grid of motion sensors to map out how a person walks around the home, looking for daily “trajectories”, or routes through the house.

A second algorithm finds patterns in a sequence of events, such as learning to expect the resident to turn on a tap after turning on the oven.

And a third algorithm looks to correlate events it detects with the time of day to identify the pattern, for example, of when the person eats dinner.

Now the researchers are working on upgrades that allow the apartment to decipher the actions of multiple inhabitants and recognise subtle variations in commonly repeated tasks.

The study has been published in the journal IEEE Transactions on Systems Man and Cybernetics. (ANI)

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Human-like ‘E-tongue’ created

September 2, 2009 By Leave a Comment

Washington, Sept 2 (ANI): Scientists have created an “electronic tongue” that can digitally measure the taste of sweetness.

Under the leadership of Kenneth Suslick, a chemistry professor at the University of Illinois at Urbana-Champaign, the revolutionary device, which makes use of a postage stamp-size piece of paper dotted with colored pigments, has been developed.

The study has appeared August 1 in the journal Analytical Chemistry.

“E-tongue” can identify with 100 percent accuracy the full sweep of natural and artificial sweet substances, including 14 common sweeteners, using easy-to-read color markers, reports National Geographic News.

Suslick’s team spent a decade developing colorimetric sensor arrays (PDF), where chemicals in each of the 16 to 36 micro dye spots reacted with sweet substances to produce color changes.

The colors tell not just which types of sweeteners are present, but also how much there is. (ANI)

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New ultrasensitive electronic sensor to speed up DNA testing (corrected)

September 1, 2009 By Leave a Comment

Washington, Sept 1 (ANI): Singapore scientists have developed a new ultrasensitive electronic sensor that would speed up DNA testing for disease diagnosis and biological research.

The novel electronic sensor array would be rapid, accurate and cost-efficient.

According to lead researcher Dr Zhiqiang Gao, from Singapore’s Institute of Bioengineering and Nanotechnology (IBN), the Nanogap Sensor Array has shown “excellent” sensitivity at detecting trace amounts of DNA.

“By saving time and lowering expenses, our newly developed Nanogap Sensor Array offers a scalable and viable alternative for DNA testing,” said Gao.

The biosensor translates the presence of DNA into an electrical signal for computer analysis.

The distinctively designed sensor chip has the ability to detect DNA more efficiently by “sandwiching” the DNA strands between the two different surfaces.

“The novel vertical nanostructure design and two different surfaces of the sensor allow ultrasensitive detection of DNA,” said Gao.

“This sensitivity is best-in-class among electrical DNA biosensors. The design of the sensor also took into consideration the feasibility of mass production in a cost-effective way for expanded usage,” the expert added.

Presently, human DNA is detected through the use of polymerase chain reaction (PCR), which while effective, is also expensive, cumbersome and time-consuming for widespread use.

Although effective, tests involving PCR may not be optimal for situations such as a pandemic outbreak.

The biosensor captures DNA strands more effectively. This is possible because the two surfaces of the sensor are coated with a chemically treated “capture probe” solution through an electrochemical technique specially developed by IBN.

This allows DNA strands to “stick” more easily to the sensor, resulting in a faster and more accurate analysis.

“This new biosensor holds significant promise to speed up on-going efforts in the detection and diagnosis of debilitating diseases such as cancer, cardiovascular problems and infectious viruses,” said Dr Jackie Y. Ying, Executive Director of IBN, one of the research institutes of Singapore’s Agency for Science, Technology and Research (A*STAR).

“We aim to make healthcare accessible to the masses with early disease diagnosis as the critical driving force behind the research we undertake here at IBN,” she added.

The study appears in Journal of the American Chemical Society. (ANI)

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ISRO formally calls off India’s first moon mission

September 1, 2009 By Leave a Comment

Panaji. Aug 31 (ANI): Indian Space Research Organisation (ISRO) has formally called off Chandrayaan-1, India’s first moon mission, after it lost contact with the craft. ink with the Chandrayaan-1 craft broke down early on Saturday.

Talking to reporters here on Sunday, ISRO Chairman G Madhavan Nair said, “The net result is that the lunar has lost radio contact with the craft and we are not receiving any signal. So we had to terminate the mission with this sequence…we made all attempts but our attempts were not succeed.”

Nair claimed that though the moon mission terminated much before its two-year lifetime it was a great success.

“About 95 percent of the objectives of the scientific experiments have been completed and we have more than 70,000 images of the moon, especially the most critical regions are in our custody,” he added.

The 79-million dollar mission was launched amid national euphoria last October, putting India in the Asian space race alongside China.

A probe vehicle landed on the moon a month later and sent back images of the lunar surface.

But a critical sensor in the main craft, orbiting the moon, malfunctioned in July, raising fears that the two-year mission might have to be curtailed.

One of the mission’s main aims was to look for Helium 3, an isotope which is very rare on earth but could be an energy source in the future in nuclear fusion.

ISRO has plans to send a manned mission to space in four years’ time and eventually on to Mars. (ANI)

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India’s first moon mission may be over, says project director

August 29, 2009 By Leave a Comment

Bangalore, Aug 29 (ANI):India’s ambitious moon mission — Chandrayaan-I — has probably ended after losing radio contact since Saturday noon, said its project director M. Annadurai, but Indian Space Research Organisation (ISRO) chairman G. Madhavan Nair said scientists will evaluate the performance of the mission over the next two days before deciding whether or not to call it off.

Earlier, in the day the flamboyant spacecraft had lost the radio control at around 1.30 a.m. IST, increasing fears of a premature end of the spacecraft.

According to a press release by the ISRO, the deep Space Network at Byalalu near Bangalore has not received any signal form the spacecraft since midnight.

“Radio contact with Chandrayaan-I spacecraft was abruptly lost at 0130 Hrs (IST) on August 29, 2009. Deep Space Network at Byalalu near Bangalore received the data from Chandrayaan-I during the previous orbit upto 0025 Hrs (IST),”the press release states.he ISRO has ordered for a detailed review of the data received by the spacecraft, “Detailed review of the Telemetry data received from the spacecraft is in progress and health of the spacecraft subsystems is being analysed,” press release states.

Earlier, on July 17, the flamboyant moon mission Chandrayaan-I, had lost a major sensor. The scientific community then feared the premature end of the spacecraft.

The Chandrayaan-I, which was launched from Satish Dhawan Space Centre at Sriharikota in Andhra Pradesh in October 2008, has completed over 350 days in orbit making more than 3400 orbits around the Moon and providing large volume of data from sophisticated sensors.

The spacecraft was equipped with Terrain Mapping Camera, Hyper-spectral Imager, Moon Mineralogy Mapper etc.,

The ISRO scientists expressed confidence of attaining most of the scientific objectives of the mission.

Addressing the Ninth convocation of the International Institute of Information and Technology at Bangalore last month, Nair said the tracking and detection of several factors by Chandrayaan are important steps in mapping the mineralogical composition of moon’s surface, which in turn would enable further study in its origin and evolution.

“I think I am happy to say that Chandrayaan has been completely successful in collecting all the data what we wanted. First was the three dimensional of the lunar surface, also getting the mineral content of the surface and then trying to use the extra instruments,” said Nair.

“All this went on very well and we are more or less very happy that the mission is complete,” he added.

Nair also added that the second moon mission would be launched by 2012. (ANI)

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New technique to help Parkinson’s patients speak louder

August 26, 2009 By Leave a Comment

Washington, Aug 26 (ANI): Scientists from Purdue University’s Department of Speech, Language and Hearing Sciences have come up with a novel technique that would help Parkinson’s patients speak louder.

“People with Parkinson’s disease commonly have voice and speech problems,” said Jessica Huber, an associate professor in Purdue’s Department of Speech, Language and Hearing Sciences.

“At some point in their disease they will have some form of voice or speech disorder that generally occurs a little later in the disease,” she added.

The most common therapy, the Lee Silverman voice treatment program, trains patients to speak louder in one-hour sessions four days a week for a month.

“Some Parkinson’s patients do great with this approach, but others do not. They forget to keep speaking louder the minute they have left the therapy room,” said Huber.

Lee Silverman tends to work less for people with later stages of disease or those who have some cognitive decline.

Huber used a new approach: The patients were asked to speak louder while a recording of background “multitalker babble noise” was played. The noise is essentially the sound of a restaurant full of patrons, but without the clattering silverware and clinking glasses.

“They had an easier time getting louder when I had the noise in the room,” she said.

“Ordinarily, when I asked them to be twice as loud they would say they couldn’t. They couldn’t speak 10 decibels louder, but when I turned on the babble noise, they spoke over 10 decibels louder,” she added.

In the device built by engineering resources manager Jim Jones and senior research engineer Kirk Foster, both in the Weldon School, the voice-activated device automatically plays the background babble when the person begins to speak.

A sensor placed on the neck detects that the person has begun to speak and tells the device to play the babble through an earpiece worn by the patient.

“I got the idea that if we train them with a natural cue in their everyday environment, we will probably get better results. We ask them to wear the system for about four hours a day as they go about their daily routine,” she added.(ANI)

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New discovery may lead to therapies for RSV, influenza A

August 25, 2009 By Leave a Comment

London, Aug 24 (ANI): A research team led by Indian-origin scientist claims to have identified a cellular molecule that not only helps recognize viruses that cause respiratory problems but also direct cells to produce defensive immune response.

Dr Santanu Bose and colleagues have identified a cellular molecule, called NOD2, that detects respiratory viruses and can instruct cells to defend against them.

The team from The University of Texas Health Science Centre at San Antonio hope that the new discovery could lead to therapies for human respiratory syncytial virus (RSV) and influenza A (commonly known as flu).

“This molecule could be used to boost host immune defenses and stimulate vaccine efficacy against RSV and influenza A, especially among high-risk individuals,” Nature quoted senior author Dr Santanu Bose, assistant professor of microbiology and immunology as saying.

The study showed that mice lacking the sensor survive for only 10 days after infection, compared with up to eight weeks for normal animals.

Researchers said that identifying this sensor and understanding its key role could result in therapies that activate the NOD2 gene during or prior to infection, leading to enhanced protective immunity.

The NOD2 sensor also has the potential to recognize other viruses, such as West Nile virus, yellow fever, Ebola and rabies.

The findings appear in the journal Nature Immunology. (ANI)

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Sensory ‘sweet-tooth’ to make ‘E-tongue’ more human-like

August 18, 2009 By Leave a Comment

Washington, Aug 18 (ANI): Scientists in Illinois have given sweet-tooth a “sensory” makeover by developing a small, inexpensive, lab-on-a-chip sensor that quickly and accurately identifies sweetness – an advancement that provides a new approach to an effective “electronic tongue”.

The scientific breakthrough can identify with 100 percent accuracy the full sweep of natural and artificial sweet substances, including 14 common sweeteners, using easy-to-read color markers.

The sensory “sweet-tooth” shows special promise as a simple quality control test that food processors can use to ensure that soda pop, beer, and other beverages taste great, – with a consistent, predictable flavor.

The study has been described at the American Chemical Society’s 238th National Meeting.

The new sensor, which is about the size of a business card, can also identify sweeteners used in solid foods such as cakes, cookies, and chewing gum.

In the future, doctors and scientists could use modified versions of the sensor for a wide variety of other chemical-sensing applications ranging from monitoring blood glucose levels in people with diabetes to identifying toxic substances in the environment, the researchers say.

“We take things that smell or taste and convert their chemical properties into a visual image,” says study leader Kenneth Suslick, Ph.D., of the University of Illinois at Urbana-Champaign.

“This is the first practical “electronic tongue” sensor that you can simply dip into a sample and identify the source of sweetness based on its color,” the researchers added.

The research team has spent a decade developing “colorimetric sensor arrays” that may fit the bill. The “lab-on-a-chip” consists of a tough, glass-like container with 16 to 36 tiny printed dye spots, each the diameter of a pencil lead. The chemicals in each spot react with sweet substances in a way that produces a color change. The colors vary with the type of sweetener present, and their intensity varies with the amount of sweetener.

The sensor identified 14 different natural and artificial sweeteners, including sucrose (table sugar), xylitol (used in sugarless chewing gum), sorbitol, aspartame, and saccharin with 100 percent accuracy in 80 different trials. (ANI)

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New water desalination system helps cut costs, time in producing clean water

July 14, 2009 By Leave a Comment

Washington, July 14 (ANI): Scientists have developed a new water desalination and filtration system that helps cut costs and time in producing clean water.

The new mini-mobile-modular (M3) “smart” water desalination and filtration system has been made by researchers at the UCLA (University of California, Los Angeles) Henry Samueli School of Engineering and Applied Science.

In designing and constructing new desalination plants, creating and testing pilot facilities is one of the most expensive and time-consuming steps.

Traditionally, small yet very expensive stationary pilot plants are constructed to determine the feasibility of using available water as a source for a large-scale desalination plant.

The M3 system helps cut both costs and time.

“Our M3 water desalination system provides an all-in-one mobile testing plant that can be used to test almost any water source,” said Alex Bartman, a graduate student on the M3 team who helped to design the sensor networks and data acquisition computer hardware in the system.

“The advantages of this type of system are that it can cut costs, and because it is mobile, only one M3 system needs to be built to test multiple sources. Also, it will give an extensive amount of information that can be used to design the larger-scale desalination plant,” he added.

The M3 demonstrated its effectiveness in a recent field study in the San Joaquin Valley in which it desalted agricultural drainage water that was nearly saturated with calcium sulfate salts, accomplishing this with just one reverse osmosis (RO) stage.

“In this specific field study by our team, in the first part of the reverse osmosis process, 65 percent of the water that was fed in was recovered as drinking water, or potable water,” said Yoram Cohen, professor of chemical and biomolecular engineering and lead investigator on the team.

“We can potentially go up to 95 percent recovery using an accelerated chemical demineralization process that was also developed here at UCLA,” he added.

According to Bartman, the M3 could also be deployed to various locations and used to produce fresh water in emergency situations.

“The M3′s ‘smart’ nature means it can autonomously adapt to almost any variation in source water, allowing the M3 system to operate in situations where traditional RO desalination systems would fail almost immediately,” he said.

Though the system is compact enough to be transported anywhere in the back of a van, it can generate 6,000 gallons of drinking water per day from the sea or 8,000 to 9,000 gallons per day from brackish groundwater.

By Cohen’s estimate, that means producing enough drinking water daily for up to 6,000 to 12,000 people. (ANI)

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Cyclists transform into mobile pollution sensors

June 30, 2009 By Leave a Comment

London, June 30 (ANI): Pedestrians and cyclists in urban areas of the UK are being transformed into mobile pollution sensors, as part of a Government-backed scheme to monitor air quality.

According to a report by Sky News, researchers, led by a team at Imperial College London, will trial three new types of sensors on people, vehicles and traffic islands to measure traffic emissions and noise pollution.

The three-year Environmental Sensing System Across Grid Environments (MESSAGE) initiative will receive data from 100 sensors in South Kensington, Leicester, Gateshead and Cambridge to test how they operate in different types of location.

The new sensor technology will provide unprecedented detail about pollution hotspots.

“There is a lot that we do not know about air quality in our cities and towns because the current generation of large stationary sensors don’t provide enough information,” said professor John Polak.

“We envisage a future where hundreds and thousands of mobile sensors are deployed across the country, to improve the way we monitor, measure and manage pollution in our urban areas,” he added.

The sensors will measure up to five different traffic pollutants simultaneously, including harmful nitrogen oxides and sulphur dioxides.

The sensors, which are attached to pedestrians and cyclists, are small enough to fit into a pocket and can detect car pollutants and other contaminants including carbon monoxide from cigarette smoke.

They will transmit the data back via the wearer’s mobile phone.

The scientists will also model pollution clouds in 3-D, by attaching sensors to traffic lights and street lamps to try to work out whether poor traffic signalling, for example, is causing air quality to deteriorate.

The air quality measurements and the location of each mobile sensor will be tracked on Google maps. (ANI)

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NASA spacecraft detects ultra fast hydrogen coming from Moon

June 20, 2009 By Leave a Comment

Washington, June 19 (ANI): NASA’s Interstellar Boundary Explorer (IBEX) spacecraft has made the first observations of very fast hydrogen atoms coming from the Moon, following decades of speculation and searching for their existence.

During spacecraft commissioning, the IBEX team turned on the IBEX-Hi instrument, built primarily by Southwest Research Institute (SwRI) and the Los Alamos National Laboratory, which measures atoms with speeds from about half a million to 2.5 million miles per hour.

Its companion sensor, IBEX-Lo, built by Lockheed Martin, the University of New Hampshire, NASA Goddard Space Flight Center, and the University of Bern in Switzerland, measures atoms with speeds from about one hundred thousand to 1.5 million mph.

“Just after we got IBEX-Hi turned on, the Moon happened to pass right through its field of view, and there they were,” said Dr. David J. McComas, IBEX principal investigator and assistant vice president of the SwRI Space Science and Engineering Division.

“The instrument lit up with a clear signal of the neutral atoms being detected as they backscattered from the Moon,” he added.

From its vantage point in space, IBEX sees about half of the Moon – one quarter of it is dark and faces the nightside (away from the Sun), while the other quarter faces the dayside (toward the Sun).

Solar wind particles impact only the dayside, where most of them are embedded in the lunar surface, while some scatter off in different directions.

The scattered ones mostly become neutral atoms in this reflection process by picking up electrons from the lunar surface.

The IBEX team estimates that only about 10 percent of the solar wind ions reflect off the sunward side of the Moon as neutral atoms, while the remaining 90 percent are embedded in the lunar surface.

Characteristics of the lunar surface, such as dust, craters and rocks, play a role in determining the percentage of particles that become embedded and the percentage of neutral particles, as well as their direction of travel, that scatter.

According to McComas, the results also shed light on the “recycling” process undertaken by particles throughout the solar system and beyond.

The solar wind and other charged particles impact dust and larger objects as they travel through space, where they backscatter and are reprocessed as neutral atoms.

These atoms can travel long distances before they are stripped of their electrons and become ions and the complicated process begins again.

The combined scattering and neutralization processes now observed at the Moon have implications for interactions with objects across the solar system, such as asteroids, Kuiper Belt objects and other Moons. (ANI)

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NASA uses satellite to improve global crop forecasting

May 27, 2009 By Leave a Comment

Washington, May 27 (ANI): NASA researchers are using satellite data to cultivate the most accurate estimates of soil moisture, which would improve global crop forecasting.

Soil moisture is essential for seeds to germinate and for crops to grow. But, record droughts and scorching temperatures in certain parts of the globe in recent years have caused soil to dry up, crippling crop production.

The falling food supply in some regions has forced prices upward, pushing staple foods out of reach for millions of poor people.

Now, NASA researchers are using satellite data to deliver a kind of space-based humanitarian assistance.

They are cultivating the most accurate estimates of soil moisture and improving global forecasts of how well food will grow at a time when the world is confronting shortages.

In this context, NASA scientist John Bolten described a new modeling product that uses data from the Advanced Microwave Scanning Radiometer for EOS (AMSR-E) sensor on NASA’s Aqua satellite to improve the accuracy of West African soil moisture.

The group produced assessments of current soil moisture conditions, or “nowcasts,” and improved estimates by 5 percent over previous methods.

“Though seemingly small and incremental, the increase can make a big difference in the precision of crop forecasts,” Bolten said.

The modeling innovation comes at a time when crop analysts at agencies like the U.S. Department of Agriculture (USDA) are working to meet the food shortage problem head on.

They combine soil moisture estimates with weather trends to produce up-to-date forecasts of crop harvests.

Those estimates help regional and national officials prepare for and prevent food crises.

“The USDA’s estimates of global crop yields are an objective, timely benchmark of food availability and help drive international commodity markets,” said Bolten, a physical scientist at NASA’s Goddard Space Flight Center, Greenbelt, Maryland.

Crop analysts must estimate root-zone soil moisture, the amount of water beneath the surface available for plants to absorb.

But estimating the amount of water in soil has posed challenges and data gaps.

Under a new NASA-USDA collaboration known as the Global Agriculture Monitoring Project, Bolten and colleagues from the USDA’s Agricultural Research Service are using AMSR-E to fill the data gaps with daily soil moisture “snapshots.”

Since its launch in 2002, the instrument has “seen” through clouds, and light vegetation like crops and grasses to detect the amount of soil moisture beneath Earth’s surface.

Bolten says that results from AMSR-E are just a precursor to dramatic new improvements in data and prediction accuracy researchers expect from the Soil Moisture Active and Passive satellite, slated to launch in 2013. (ANI)

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Miniscule magnets in ant antennae act as internal GPS

May 22, 2009 By Leave a Comment

Washington, May 22 (ANI): A new research has led to the discovery of miniscule magnets in ant antennae, which act as an internal GPS (Global positioning system), making these insects aware as to where they are going.

According to a report in Discovery News, while human global positioning systems rely upon receivers that pick up information from a network of satellites, the probable ant system weighs next to nothing, requires little energy to operate and appears to be mostly built out of dirt.

“The ants we studied dwell in tropical soils that are full of very fine-grained iron minerals, so there is plenty of material available,” said researcher Dr Jandira Ferreira de Oliveira of the Technical University of Munich and the Brazilian Center for Physics Research.

“The incorporation of minerals probably starts as soon as ants start getting in touch with soil,” she said.

Her team found ultra fine-grained crystals of magnetic magnetite, maghemite, hematite, goethite, and aluminum silicates in ant antennae.

These particles could make a “biological compass needle” that drives ant GPS.

For the study, published in the latest Journal of the Royal Society Interface, Oliveira and her colleagues collected worker ants from the species Pachycondyla marginata in Sao Paulo.

Prior studies found these ants tend to always migrate at an orientation of 13 degrees relative to Earth’s geomagnetic north-south axis, and that the ant’s strongest magnetic signal comes from its antennae.

High-powered microscopes and chemical analysis revealed the presence of the dirt-acquired magnetic particles in the antennae, intriguingly next to a body part called the Johnston’s organ that may also be part of the ant’s GPS.

According to Oliveira, “Our planet is magnetized, likely due to rotational forces of liquid iron in earth’s core. Although the resulting magnetic field is one-twenty thousandth as strong as a refrigerator magnet, ants appear to perceive the geomagnetic information through a magnetic sensor (the dirt particles), transduce it in a signal to the nervous system and then to the brain.”

The University of Oxford’s Dr Robert Srygley, one of the world’s leading insect experts, said that the new study “is a major advance toward finding the magnetic compass in this nomadic ant.” (ANI)

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How bacteria’s in-built thermometer helps spread infection

May 21, 2009 By Leave a Comment

Washington, May 21 (ANI): Scientists at the Helmholtz Centre for Infection Research (HZI) have for the first time shown how bacteria measure temperature, and thereby cause intestinal infection.

The HZI researchers at Braunschweig and the Braunschweig Technical University have found that bacteria of the Yersinia genus have a unique protein thermometer – the protein RovA – that helps them in the infection process. ovA is a multi-functional sensor that measures both the temperature of its host and the host’s metabolic activity and nutrients.

If these are suitable for the survival of the bacteria, the RovA protein activates genes for the infection process to begin.

Yersinia is known for triggering various different diseases, one of the well-known diseases is the Yersinia pestis type which caused the Plague in medieval times, leading to the death of around a third of Europe’s population.

The Yersinia enterocolitica and Yersinia pseudotuberculosis species cause an inflammation of the intestines following food poisoning.

The Yersinia bacteria contain invasin as a surface protein to help them penetrate the intestinal cells, leading to heavy bouts of diarrhoea.

Led by Petra Dersch, the researchers have now identified how the RovA protein plays a key role in the various stages of Yersinia infection.

The protein reads the temperature for the bacteria, on the basis of which it either contains the factors required for the infection to begin or else adapts to life within the host.

“The functioning of RovA in this way is unique among bacteria,” said Dersch.

If inhabiting an environment of around 25 degree Celsius, the protein RovA ensures that the Yersinia bacteria form invasin as a surface protein, which ensures that the bacteria can penetrate the intestinal cells immediately upon reaching the 37 degree Celsius intestine via food.

The warm environment enables RovA to alter its form and de-activates the gene for invasin production.

Without invasin on their surface, the Yersinia bacteria are invisible to the body’s immune system, thus making it possible for RovA to now activate other genes in the bacteria to adapt the Yersinia metabolism with that of the host.

“We have long been searching for the mechanisms which regulate RovA activity. It was therefore all the more surprising to discover that RovA controls various processes by acting as a thermometer and as such is self-regulating,” said Dersch.

The results have been published in the current online edition of the PLoS Pathogens science magazine. (ANI)

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How the body differentiates between a scorch and a scratch

May 20, 2009 By Leave a Comment

Washington, May 20 (ANI): American scientists have shed new light on how the body figures out whether it has been stuck by a pin or burnt by a match.

Researchers from the California Institute of Technology (Caltech) and the University of California, San Francisco (UCSF) have found that this sensory discrimination begins in the skin at the very earliest stages of neuronal information processing, with different populations of sensory neurons-called nociceptors-responding to different kinds of painful stimuli.

“Conventional wisdom was that the nociceptive neurons in the skin can’t tell the difference between heat and mechanical pain, like a pin prick. The idea was that the skin is a dumb sensor of anything unpleasant, and that higher brain areas disentangle one pain modality from another, to tell you if you’ve been scorched or scratched,” says David Anderson, Seymour Benzer Professor of Biology, a Howard Hughes Medical Institute (HHMI) Investigator, and one of the paper’s lead authors.

However, that was not sufficient to understand the control of pain-avoidance behavior, the researcher added.

“We were asking the cells what the cells can sense, not asking the animal what the cells can sense,” he said.

For their study, Anderson and his colleague Allan Basbaum, chair of the Department of Anatomy at UCSF, created a genetically engineered mouse in which specific populations of pain-sensing neurons could be selectively destroyed.

The researchers were then able to see if the mouse continued to respond to different types of stimuli by pulling its paw away, when exposed to a relatively gentle heat source or poked with a nylon fishing line.

When they killed off a certain population of nociceptor neurons, the mice stopped responding to being poked, but still responded to heat.

When the researchers injected a toxin to destroy a different population of neurons, the mice stopped responding to heat, but their sense of poke remained intact.

“This tells us that the fibers that mediate the response to being poked are neither necessary nor sufficient for a behavioral response to heat, and vice versa for the fibers that mediate the response to heat,” Anderson said. he researcher further said that neither of the two classes of sensory neurons seemed to be required for responding to a painful cold stimulus, like dry ice.

He said that research into pinpointing that population of cells was ongoing.

“This tells us that the discernment of different types of painful stimuli doesn’t happen only in the brain-it starts in the skin, which is therefore much smarter than we thought.

That’s a pretty heretical point of view,” said Anderson.

The study has been published in the early online edition of the Proceedings of the National Academy of Sciences (PNAS). (ANI)

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NASA examines long stretch of nicks on space shuttle Atlantis

May 13, 2009 By Leave a Comment

Washington, May 13 (ANI): Astronauts aboard NASA’s space shuttle Atlantis have uncovered a long stretch of nicks on their space shuttle, which are the result of launch debris.

They were inspecting their ship for signs of launch damage when they came across the nicks.

Mission Control informed the crew that it’s a 21-inch stretch of nicks over four to five thermal tiles on the right side of Atlantis. The damage is where the right wing joins the fuselage.

Mission Control says it could be related to debris that came off the fuel tank almost two minutes after liftoff.

NASA said that the damage does not appear to be serious, but more analysis is needed.

Atlantis blasted off on May 11 on a risky repair mission to the Hubble Space Telescope. Endeavour is on standby in case a rescue is needed.

This final trip to Hubble is especially dangerous because of all the space junk in the telescope’s 350-mile-high orbit.

Atlantis seems to have come through its launch fairly well, at least. But the analysis is continuing.

On this fifth and final repair mission, Atlantis’ crew will replace Hubble’s batteries and gyroscopes, install two new cameras and take a crack at fixing two broken science instruments, something never before attempted.

They also will remove the command and data-handling unit that failed in September and had to be revived, and put in a spare that was hustled into operation.

Fresh insulating covers will be added to the outside of the telescope, and a new fine guidance sensor for pointing will be hooked up.

Five spacewalks will be needed to accomplish everything. (ANI)

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Gecko-inspired multifocal contact lenses, cameras on the anvil

May 8, 2009 By Leave a Comment

Washington, May 8 (ANI): Scientists are all set to harness the mechanism behind nocturnal geckos’ unique ability to see colours at night, in making multifocal contact lenses and better cameras.

Researchers at Lund University in Sweden have found that the key to the exceptional night vision of the nocturnal helmet gecko is a series of distinct concentric zones of different refractive powers.
The multifocal optical system in geckos is comprised of large cones, which was calculated to be over 350 times more sensitive than human cone vision at the human colour vision threshold.

“We were interested in the geckos because they – and other lizards – differ from most other vertebrates in having only cones in their retina.With the knowledge from the gecko eyes we might be able to develop more effective cameras and maybe even useful multifocal contact lenses,” said project leader Dr. Lina Roth, from the Department of Cell and Organism Biology at the university.

The nocturnal geckos’ multifocal optical system gives them an advantage because light of different ranges of wavelengths can focus simultaneously on the retina.

Another possible advantage of their optical structure is that their eyes allow them to focus on objects at different distances, which makes their multifocal eye to generate a sharp image for at least two different depths.

Roth said that geckos that are active during the day do not possess the distinct concentric zones and are considered monofocal.

The scientists also developed a new method to gather optical data from live animals without any harm to their modifications to the Hartmann-Shack wavefront sensor.

“Studies of animals with relatively large eyes, such as owls and cats, have included surgery and fixation of the head. In this study, we demonstrate that it is possible to obtain high-resolution wavefront measurements of small, unharmed gecko eyes without completely controlling the gaze or the accommodation of the animal eyes,” said the authors.

The study has been published online in the Journal of Vision. (ANI)

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‘Smart turbine blades’ to improve wind power

May 4, 2009 By Leave a Comment

Washington, May 3 (ANI): In a new research, scientists have developed a technique that uses sensors and computational software to constantly monitor forces exerted on wind turbine blades, a step toward improving efficiency by adjusting for rapidly changing wind conditions.

The research, by engineers at Purdue University and Sandia National Laboratories, is part of an effort to develop a smarter wind turbine structure

“The ultimate goal is to feed information from sensors into an active control system that precisely adjusts components to optimize efficiency,” said Purdue doctoral student Jonathan White, who is leading the research with Douglas Adams, a professor of mechanical engineering and director of Purdue’s Center for Systems Integrity.

The system also could help improve wind turbine reliability by providing critical real-time information to the control system to prevent catastrophic wind turbine damage from high winds.

The engineers embedded sensors called uniaxial and triaxial accelerometers inside a wind turbine blade as the blade was being built.

The blade is now being tested on a research wind turbine at the US Department of Agriculture’s Agriculture Research Service laboratory in Bushland, Texas.

Such sensors could be instrumental in future turbine blades that have “control surfaces” and simple flaps like those on an airplane’s wings to change the aerodynamic characteristics of the blades for better control.

Because these flaps would be changed in real time to respond to changing winds, constant sensor data would be critical.

Research findings show that using a trio of sensors and “estimator model” software developed by White accurately reveals how much force is being exerted on the blades.

“You want to be able to control the generator or the pitch of the blades to optimize energy capture by reducing forces on the components in the wind turbine during excessively high winds and increase the loads during low winds. In addition to improving efficiency, this should help improve reliability,” said Adams.

“We envision smart systems being a potentially huge step forward for turbines,” said Sandia’s Rumsey.

“There is still a lot of work to be done, but we believe the payoff will be great. Our goal is to provide the electric utility industry with a reliable and efficient product. We are laying the groundwork for the wind turbine of the future,” he added.

Purdue and Sandia have applied for a provisional patent on the technique. (ANI)

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‘E-mosquito’ to make painful pinpricks history for diabetics

April 25, 2009 By Leave a Comment

Washington, Apr 25 (ANI): University of Calgary researchers have made a discovery that could change diabetics’ lives forever.

A skin patch, called ‘Electronic Mosquito’, could provide a less-invasive alternative for diabetics who need to take regular samples of their own blood to keep glucose levels in check.

The common method of drawing blood from fingertips and using glucose testing strips and metres can be painful, inconvenient and time-consuming.

Therefore, electrical engineers at the Schulich School of Engineering at the University of Calgary have patented the device.

The patch is approximately the size of a deck of cards and contains four micro-needles that “bite” sequentially at programmed intervals. The needles are electronically controlled to penetrate the skin deep enough to draw blood from a capillary, but not deep enough to hit a nerve. This means patients would experience little or no pain.

The patch could be worn anywhere on the body where it could obtain accurate readings of capillary blood. A sensor in each cell of the e-Mosquito measures sugar levels in the blood. This data can then be sent wirelessly to a remote device such a computer or a monitoring instrument worn on the wrist. The system could even be connected to an alarm to alert patients or doctors when blood sugar levels enter the danger zone.

“This is a dramatic improvement over manual poking, particularly for children and elderly patients,” says Martin Mintchev, director of the Low Frequency Instrumentation Lab at the Schulich School of Engineering.

“Our approach is radically different and offers a reliable, repeatable solution with the minor inconvenience of wearing something similar to an adhesive bandage,” the expert added.

Mintchev spent three years designing the e-Mosquito along with Karan Kaler, director of the Schulich School’s Bio-Micro Electromechanical Systems (MEMS) Laboratory. (ANI)

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