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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Farmers protest against Hydro Power Project in Himachal

September 19, 2009 By Leave a Comment

Rampur (HP), Sept 18 (ANI): Hundreds of residents and farmers here protested against the construction of run-of-river hydropower plant project on the river Satluj.

The campaigners called for Save Satluj drive and complained that the hydropower plant would disturb the ecological balance of the region.

“Our protest is to save our environment and our natural resources. They are being affected by the project. Because of this, the Sutlaj river will dry up, water mammals will die and the temperature of the region will also rise,” said Mohan Singh, a farmer.

Environmentalists believe that the 412MW Rampur hydropower project is not suitable to the fragile ecology of the region.

“The project will divert this river through the tunnel leaving the river bed dry which will disturb the ecological balance. This will not only affect the course of river but will also harm the crop grown in the area,” said Jai Chand, head of the Village Committee for Environment Protection.

The activists were protesting against the Rampur hydropower project authorities and the district administration.

The campaigners later staged a sit-in-protest outside the office of Sub-Divisional Magistrate demanding his intervention into the matter.

Rampur Hydropower Project will provide renewable and low carbon energy to the country’s over-stretched Northern Electricity Grid. (ANI)

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Action plan to phase out consumption of HCFC is on track: Ramesh

September 17, 2009 By Leave a Comment

New Delhi, Sep 16 (ANI): Union Environment and Forest Minister Jairam Ramesh said on Wednesday that India has developed a comprehensive Road Map and Action Plan to phase-out of production and consumption of Hydrochlorofluorocarbons (HCFCs) in various sectors.

Addressing the gathering during the 15th International Ozone Day here Ramesh said: “The Government of India has taken a number of policy measures, fiscal and regulatory, to encourage the early adoption of alternative technologies in this area by existing and new enterprises.”

Ramesh hailed the Montreal Protocol as the most successful international treaty to ever achieve universal participation.

“At a time when the world is trying to solve the problem of climate change, the International Ozone Day provided a timely reminder of how international cooperation can help to solve major global environmental problems,” Ramesh added.

India is one of the first developing countries to join the Montreal Protocol and pledge its commitment to protect the Ozone Layer.

As a part of the accelerated phase-out of CFCs, India has completely phased out the production and consumption of CFCs as on 1 August 2008, 17 months prior to the agreed schedule.

Ramesh informed that over 97percent of controlled Ozone Depleting Substances (ODS) have been phased out by the Montreal Protocol.

“The end of 2009 will mark another significant milestone in the history of its implementation, with the use of potent ODSs -CFCs, Carbon Tetra Chloride (CTC) and Halons, except pharmaceutical-grade CFCs used in the manufacture of Metered Dose Inhalers (MDIs) – being ceased completely,” he said

The CFCs required for manufacturing for MDIs used by Asthma and Chronic Obstructive Pulmonary Disease (COPD) patients are still available in India, a national transition strategy to phase them out by 2013 is currently under implementation.

“The Ministry of Environment and Forests (MoEF), with support from the Global Environment Facility (GEF) and the World Bank recently also launched the India: Chiller Energy Efficiency Project to accelerate the conversion of CFC-based chillers using new, more energy efficient technologies,” Ramesh said.

This year’s theme for the ozone day was ‘Universal participation – Ozone protection unifies the World.’ (ANI)

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New e-nose can reveal smokers without need for blood, urine tests

September 17, 2009 By Leave a Comment

London, September 16 (ANI): An electronic nose foil some people’s attempt to deceive their doctors by telling them that they are non-smokers, in order to get cheaper life insurance.

Paul Thomas at the University of New South Wales in Sydney, Australia, has revealed that their invention is a tweaked form of a commercially available e-nose.

The researcher says that it can detect the volatile organic compounds (VOCs) in the breath of a person who had smoked a cigarette.

The e-nose uses an array of 32 sensors whose electrical resistance changes as different VOCs are detected.

During a test, the researchers could correctly identified 37 out of 39 volunteers as either smokers or non-smokers relying upon on the resultant “smellprint”.

Based on their observations, the team came to the conclusion that such e-noses could quickly and reliably reveal smokers without the need for a blood or urine test.

The current method of measuring the carbon monoxide content of exhaled breath to confirm smoking activity picks up a smoker for only a few hours after their last cigarette.

It is even prone to error because it cannot tell whether carbon monoxide in the breath came from other sources such as traffic exhaust fumes.

Insurers are very interested in whether a person applying for health or life insurance smokes – for obvious reasons.

“Some insurance providers don’t ask questions about smoking at all, while others ask the question on an application form but do not require a test as the applicant is expected to answer the question honestly,” New Scientist magazine quoted Kelly Ostler-Coyle, of the Association of British Insurers, as saying.

By making the test simple and reliable, an e-nose could provide doctors with the truth in minutes, according to the researchers.

They, however, admit that their system needs further testing to prove its worth.

“This e-nose idea, whilst of interest, will require larger-scale trials to demonstrate clinical efficacy and patient acceptability before it can be considered for use,” says a spokesman for the UK Department of Health.

A research article describing the innovation has been published in the Journal of Breath Research. (ANI)

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Declining CO2 levels helped in Antarctic formation 34 million years ago

September 14, 2009 By Leave a Comment

Washington, September 14 (ANI): In a major research study, the link between declining carbon dioxide (CO2) levels in the earth’s atmosphere and the formation of the Antarctic ice caps some 34 million years ago has been confirmed for the first time.

The research was carried out by a team of scientists from Cardiff, Bristol and Texas A and M universities, in a small East African village, where they extracted microfossils in samples of rocks which show the level of CO2 in the Earth’s atmosphere at the time of the formation of the ice-cap.

Geologists have long speculated that the formation of the Antarctic ice-cap was caused by a gradually diminishing natural greenhouse effect.

The study’s findings confirm that atmospheric CO2 declined during the Eocene – Oligocene climate transition and that the Antarctic ice sheet began to form when CO2 in the atmosphere reached a tipping point of around 760 parts per million (by volume).

According to Professor Paul Pearson from Cardiff University’s School of Earth and Ocean Sciences, who led the mission to the remote East Africa village of Stakishari, “About 34 million years ago, the Earth experienced a mysterious cooling trend. Glaciers and small ice sheets developed in Antarctica, sea levels fell and temperate forests began to displace tropical-type vegetation in many areas.”

“The period, known to geologists as the Eocene – Oligocene transition, culminated in the rapid development of a continental-scale ice sheet on Antarctica, which has been there ever since,” he said.

“We therefore set out to establish whether there was a substantial decline in atmospheric carbon dioxide levels as the Antarctic ice sheet began to grow,” he added.

The team mapped large expanses of bush and wilderness and pieced together the underlying local rock formations using occasional outcrops of rocks and stream beds.

Eventually, they discovered sediments of the right age near a traditional African village called Stakishari.

By assembling a drilling rig and extracting hundreds of meters of samples from under the ground, they were able to obtain exactly the piece of Earth’s history they had been searching for.

According to co-author Dr Gavin Foster from the University of Bristol Earth Sciences Department, “By using the rather unique set of samples from Tanzania and a new analytical technique that I developed, we have, for the first time, been able to reconstruct the concentration of CO2 across the Eocene-Oligocene boundary – the time period about 34 million years ago when ice sheets first started to grow on Eastern Antarctica.” (ANI)

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Cities trap more CO2 than rain forests

September 10, 2009 By Leave a Comment

Washington, September 9 (ANI): A surprising new study has found that cities trap more carbon dioxide (CO2) than rain forests.

According to a report in National Geographic News, compared with tropical rain forests, cities store more carbon, acre for acre, in their trees, buildings, and dirt.

“Everyone thinks about the tropical forests, but I don’t think people consider cities as a way to store carbon,” said study leader Galina Churkina of the Leibniz Centre for Agricultural Landscape Research in Germany.

“Although a lot of studies have focused on carbon in forests, grasslands, and other natural ecosystems, looking at cities-which now house half of the world’s population-is relatively new,” Churkina said.

Intentionally storing carbon in cities could be one approach to counter global warming, she added.

Churkina and colleagues pulled together previous evidence looking at various stores of organic carbon, which comes from living things, as well as from such as plants and animals, wood, dirt, and even garbage.

Cities, including both dense metropolises and sprawling suburbs, store about a tenth of all the carbon in U.S. ecosystems, the study estimated.

In total, U.S. cities contain about 20 billion tons of organic carbon, mostly in dirt, according to the new study.

Some of this carbon-rich topsoil is in parks and under lawns, but it’s also sealed underneath buildings and roads-a remnant of grasslands or forests that were there before development.

Of all this urban carbon, about three billion tons are locked up in human-made materials-two-thirds of it in garbage dumps, and the rest in building materials such as wood.

Many cities have already launched ambitious plans for turning gray to green, such as Los Angeles’ Million Trees LA project, which aims to plant a million trees in the Californian city over several years.

Trees take up CO2 and turn it into carbon in their trunks, branches, and leaves, so planting more trees helps counter some of the excess CO2 in the air.

Likewise trees also cool cities and reduce the need for air-conditioning, according to urban forest expert David Nowak of the U.S. Forest Service in Syracuse, New York.

By planting trees around buildings, he added, “you avoid about four times more CO2 emissions than the trees sequester.”

Study leader Churkina added, “people could (also) try to store more carbon in gardens by smart management of the land. The carbon storage in lawns is quite amazing.” (ANI)

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Novel biosensor can detect typhoid bacteria instantly

September 10, 2009 By Leave a Comment

Washington, Sept 9 (ANI): Scientists from Rovira i Virgili University (URV) in Tarragona have come up with a novel biosensor that can instantly detect Salmonella typhi, the bacteria that causes typhoid fever.

The technique uses carbon nanotubes and synthetic DNA fragments that activate an electric signal when they link up with the pathogen.

“We have developed a new biosensor that can detect extremely low concentrations of bacteria immediately, easily and reliably”, F. Xavier Rius, lead author of the study and a professor in the Chemometrics, Qualimetrics and Nanosensors research group in the Analytical Chemistry and Organic Chemistry Department of the URV, told SINC.

The new biosensor functions using a method, which involves carbon nanotubes with inbuilt aptamers providing electrochemical readings.

According to the researchers, the aptamers are small fragments of artificial DNA or RNA designed to attach themselves specifically to a particular molecule, cell or micro organism, in this case Salmonella.

If the bacteria are not present, the aptamers remain on the walls of the carbon nanotubes.

However, if they detect bacteria, they become activated and stick to it, and the carbon nanotubes generate an electric signal that is picked up by a simple potentiometer connected to the biosensor.

“The presence of the bacteria sparks a change in the interaction between the aptamers and the nanotubes, which takes place in a few seconds and creates an increase in the voltage of the electrode”, said Ruis, who led the research along with researcher Jordi Riu.

“This technique means small quantities of micro organisms can be detected simply and practically in real time, just the same as measuring the pH of water”, Ruis added.

The study appears in the scientific journal Angewandte Chemie International Edition. (ANI)

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Maldives uses coconuts to reduce its CO2 emissions

September 4, 2009 By Leave a Comment

London, September 4 (ANI): The Maldives government has launched a project to reduce its carbon dioxide (CO2) emissions using “biochar”, a charcoal made from bio-wastes such as coconut shells.

According to a report by BBC News, the pilot project, launched by the Maldives government together with a UK-based company, Carbon Gold, aims to produce biochar using bio-waste, including coconut shells, which are abundantly available in the archipelago.

Biochar is produced through the “slow cooking” (pyrolysis) of plant wastes. The resulting black char is rich in carbon and can be mixed with soil as a fertiliser.

“While wasting the environment we are wasting a lot of money by buying (fertilizer) from abroad,” said Minister of state for fisheries and agriculture, Aminath Shafia.

“So, we were looking into a project that could develop it using something that is available in the country,” she said.

The Maldives wants to be carbon neutral by 2020

President Mohamed Nasheed, who earlier announced a target of going carbon neutral by 2020, has welcomed the new partnership.

“Biochar has a crucial role in helping us achieve carbon neutral status as well as providing an economic and environmental boost to our people,” he said.

Shafia said that the project would be launched on three islands and rolled out to others if farmers responded positively.

According to officials at Carbon Gold, biochar is an effective way of removing CO2 from the atmosphere.

The company said that the fertiliser also improves soil fertility and locks up its carbon contents for several years after it is ploughed into the ground.

Daniel Morrel, a co-founder of the company, told BBC News that the Maldives was the first government to sponsor its production.

He described biochar as “carbon negative”.

“Waste that would have rotted or been burnt before is now locked up and put very safely in the soil,” he said.

“It is not one of the best solutions, but the great thing about biochar is while everybody is talking about reducing the CO2 emissions, this is actually taking CO2 out of the atmosphere,” he added. (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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Carbon monoxide exposure may up heart problem risk for the elderly

September 1, 2009 By Leave a Comment

Washington, Sep 1 (ANI): Carbon monoxide exposure has been found to elevate the risk of hospitalisation for the elderly with heart problems in an American study.

The nationwide study of 126 urban communities has shown that an increase in carbon monoxide of 1 part per million in the maximum daily one-hour exposure is linked with a 0.96 percent increase in the risk of hospitalisation from cardiovascular disease among people over the age of 65.

The connection remains even when carbon monoxide levels are less than 1 part per million, which is well below the Environmental Protection Agency’s (EPA) National Ambient Air Quality Standard of 35 parts per million.

The finding has indicated that an under-recognized health risk to seniors.

Presently, the EPA is evaluating the scientific evidence on the link between carbon monoxide and health to determine whether the health-based standard should be modified.

“This evidence indicates that exposure to current carbon monoxide levels may still pose a public health threat. Higher levels of carbon monoxide were associated with higher risk of hospitalisations for cardiovascular heart disease,” said Michelle Bell, the study’s lead investigator.

Working in collaboration with experts from the Johns Hopkins Bloomberg School of Public Health and the University of Southern California’s Keck School of Medicine, Bell analysed hospital records for 9.3 million Medicare recipients and data on air pollution levels and weather, gathered between 1999 and 2005.

The analysis considered the health effects of other traffic-related pollutants, including nitrogen dioxide, fine particles, and elemental carbon.

“We found a positive and statistically significant association between same-day carbon monoxide levels and an increased risk of hospitalisation for cardiovascular disease in general, as well as for multiple, specific cardiovascular disease outcomes, including ischemic heart disease, heart rhythm disturbances, heart failure and cerebrovascular disease,” said Bell.

Carbon monoxide is a tasteless, odourless gas that is a component of automobile exhaust.

The researchers stressed the need for additional research to investigate whether carbon monoxide or a combination of it and other traffic-related pollutants could result in increased cardiovascular hospitalisations in the elderly.

Their most recent findings have been detailed in a research article published in Circulation: Journal of the American Heart Association. (ANI)

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Man-made volcanoes may cool Earth by reflecting sunlight back into space

August 30, 2009 By Leave a Comment

London, August 30 (ANI): The Royal Society in London seems to be convinced that man-made volcanoes can help stave off climate change, as it is backing research into simulated volcanic eruptions that will spray millions of tons of dust into the air to cool the Earth.

This week, the society will call for a global programme of studies into geo-engineering, which can help devise new ways to manipulate the planet’s climate to counteract global warming.

It believes that pouring sulphur-based particles into the upper atmosphere may help keep the planet cool.

Ken Caldeira, an earth scientist at Stanford University, California, and a member of a Royal Society working group on geo-engineering, said that dust sprayed into the stratosphere in volcanic eruptions could cool the Earth by reflecting light back into space.

“If I had a dollar for geo-engineering research I would put 90 cents of it into stratospheric aerosols and 10 cents into everything else,” Times Online quoted Caldeira as saying.

The intervention by the Royal Society comes amid tension ahead of the United Nations-sponsored climate talks in Copenhagen in December to agree global cuts in carbon dioxide emissions.

The Royal Society’s decision to take geo-engineering seriously is a measure of the desperation felt by scientists about climate change.

Brian Launder, a professor at Manchester University, who is also on the working group, recently said that without CO2 reductions or geo-engineering “civilisation as we know it will end within our grandchildren’s lifetime”.

“The only rational scheme is to reduce the sunlight reaching Earth and to reflect back more of it,” he said.

The society’s report is expected to draw partly on research by Tim Lenton, professor of earth sciences at the University of East Anglia, who has just completed the first big comparison of different forms of geo-engineering.

“We estimate that 1.5-5m tons of sulphate particles could be released (artificially) into the stratosphere each year on a recurring basis. This is quite a small amount, which makes it potentially economically viable, but it could reduce global temperature rise by up to 2C,” said Lenton. (ANI)

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Indian forests absorb 11 per cent of annual greenhouse gas emissions: Jairam Ramesh

August 29, 2009 By Leave a Comment

New Delhi, Aug. 29 (ANI): Minister of State for Environment and Forests, Jairam Ramesh, said on Saturday that about 11 per cent of the annual greenhouse gas emissions (GHG) is being absorbed by the country’s forests.

According to the World Resources Institute, India’s total GHG emissions stood at 1,853 million metric tons equivalent of carbon dioxide, about 4.9 percent of global emissions in 2005.

During the release of a report in the capital by the Institute of Defence Studies and Analysis (IDSA), Ramesh spoke about the contribution of Indian forests in soaking the annual carbon dioxide gas emissions.

“We have just recently two weeks ago released a report for the first time which quantified what is the carbon sequestration that is taking place through our forest cover. Our estimators said that about 11 per cent of our annual greenhouse emission is being absorbed by our forest such as, as it is, about 21 per cent of our geographical areas is about 65 million hectares, ” said Jairam Ramesh.

India aims at expanding its forest cover by another six million hectares over the next six years.

“I am sure if we improve the quality of our forest cover, reduce the proportion of degraded forest, increase the proportion of medium and high density forest, this 11 per cent could in fact even increase,” added Ramesh.

As per a new report, the country contributes around five percent to global carbon dioxide emissions and is still only about a quarter of the emissions of China and the United States.

India’s per capita emissions at only one-twentieth of the United States and about one-tenth of Western Europe and Japan, the report says. (ANI)

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Metal catalysts in carbon nanotubes block critical signalling pathway in neurons

August 28, 2009 By Leave a Comment

Washington, August 28 (ANI): In what may prove very useful in improving treatments for human neurological disorders, Brown University scientists have found out why carbon nanotubes tend to block a critical signalling pathway in neurons.

Writing about their findings in the journal Biomaterials, the researchers have revealed that it is not the tubes, but the metal catalysts used to form them, that are to blame.

They say that minute amounts of a metal called ‘yttrium’ may impede neuronal activity.

They add that the findings mean that carbon nanotubes without metal catalysts may be able to treat human neurological disorders, although other possible biological effects still need to be studied.

“It’s a problem we can fix. We can purify the nanotubes by removing the metals, so it’s a problem we can fix,” said Lorin Jakubek, a Ph.D. candidate in biomedical engineering and lead author of the paper.

Taking single-walled carbon nanotubes to the laboratory of Brown neuroscientist Diane Lipscombe, the research team zeroed in on ion channels located at the end of neurons’ axons.

These channels are gateways of sorts, driven by changes in the voltage across neurons’ membranes. When an electrical signal, known as an action potential, is triggered in neurons, these ion channels “open”, each designed to take in a certain ion.

One such ion channel passes only calcium, a protein that is critical for transmitter release and thus for neurons to communicate with each other.

In experiments using cloned calcium ion channels in embryonic kidney cells, the researchers found that nickel and yttrium, two metal catalysts used to form the single-walled carbon nanotubes, were interfering with the ion channel’s ability to absorb the calcium.

Lipscombe, who specializes in neuronal ion channels and is a corresponding author on the paper, pointed out that yttrium’s ionic radius is nearly identical to calcium’s, which is why it “gets stuck and prevents calcium from entering and passing through. It’s an ion pore blocker.”

The experiments showed that yttrium in trace amounts – less than 1 microgram per milliliter of water – may disrupt normal calcium signalling in neurons and other electrically active cells, an amount far lower than what had been thought to be safe levels.

With nickel, the amount needed to impede calcium signalling was 300 times higher.

“Yttrium is so potent that … a very low nanotube dose” would be needed to affect neuronal activity, said Robert Hurt, professor of engineering and a corresponding author on the paper.

Jakubek said she was surprised that the metals turned out to be the cause.

“Based on the literature, I thought it would be the nanotubes themselves,” she said. (ANI)

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Foul odour from industrial chicken rendering facilities may soon be history

August 27, 2009 By Leave a Comment

Washington, Aug 27 (ANI): A research team led by Indian-origin scientist from North Carolina State University has devised a new technique that can help eliminate foul odour and air pollutants from industrial chicken rendering facilities.

Rendering facilities take animal byproducts (e.g., skin, bones, feathers) and process them into useful products such as fertilizer. However, the rendering process produces extremely foul odours.

Currently, the industry uses chemical “scrubbers” to remove odor-causing agents, but this technique is not very effective.

Furthermore, some of the odour-causing compounds are aldehydes, which can combine with other atmospheric compounds to form ozone – triggering asthma attacks and causing other adverse respiratory health effects.

According to Praveen Kolar, assistant professor of biological and agricultural engineering, the inexpensive treatment process uses ozone and specially-designed catalysts to break down the odour-causing compounds.

The new technique with an effective filtration system takes advantage of catalytic oxidation to remove these odour-causing pollutants.

This process takes place at room temperature, so there are no energy costs, and results in only two byproducts: carbon dioxide and pure water.

The researchers developed the catalysts by coating structures made of activated carbon with a nanoscale film made of cobalt or nickel oxides.

“We used activated carbon because its porous structure gives it an extremely large surface area meaning that there is more area that can be exposed to the odorous agents,” said Kolar.

The cobalt and nickel oxide nanofilms make excellent catalysts, Kolar explains, “because they increase the rate of the chemical reaction between the odour-causing compounds and the ozone, making the process more efficient. They are also metals that are both readily available and relatively inexpensive.” (ANI)

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Newly found natural odours could pave way for developing mosquito repellents

August 27, 2009 By Leave a Comment

London, Aug 27 (ANI): In a lab study on fruit flies, entomologists led by an Indian origin scientist at the University of California, Riverside, have discovered a novel class of compounds that could help in developing inexpensive and safe mosquito repellents for combating West Nile virus and other deadly tropical diseases.

Under stress, fruit flies emit carbon dioxide (CO2) that serves as a warning to other fruit flies that danger or predators could be nearby.

The fruit flies are able to detect the CO2 and escape because their antennae are equipped with specialized neurons that are sensitive to the gas.

But fruits and other important food sources for fruit flies also emit CO2 as a by-product of respiration and ripening.

Researchers started to wonder how does fruit flied find their way to these foods, despite having an inherent tendency to avoid CO2.

However, Anandasankar Ray, an assistant professor in the Department of Entomology, and Stephanie Turner, his graduate student, have now identified a new class of odorants – chemical compounds with smells – present in ripening fruit that prevent the CO2-sensitive neurons in the antennae from functioning.

They discovered that particularly two odours, hexanol and 2,3- butanedione, are strong inhibitors of the CO2-sensitive neurons in the fruit fly.

The research has strong implications for control of deadly diseases transmitted by Culex mosquitoes such as West Nile virus disease and filariasis, an infectious tropical disease affecting the lymphatic system.

“CO2 emitted in human breath is the main attractant for the Culex mosquito to find people, aiding the transmission of these deadly diseases. In our experiments we identified hexanol, and a related odor, butanal, as strong inhibitors of CO2-sensitive neurons in Culex mosquitoes. These compounds can now be used to guide research in developing novel repellents and masking agents that are economical and environmentally safe methods to block mosquitoes’ ability to detect CO2 in our breath, thereby dramatically reducing mosquito-human contact,” Nature quoted Ray as saying.

Inhibitory odours not only play an important role in modifying insect behaviour, but the study found that some of these odours even have a long-term effect.

For example, the researchers found that some odours silenced the CO2 neuron in the fruit fly well beyond the period of application.

“To our surprise, we found that exposure to a long-term CO2 response inhibitor can exert a profound and specific effect on the behavior of the insect, even after the inhibitor is no longer in the environment.

This means this odorant could potentially be used to keep mosquitoes at bay for longer periods of time, benefiting people in areas where mosquito-transmitted diseases are prevalent,” said Ray.

The results of the study appear in Nature. (ANI)

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World’s last remaining “pristine” forest under threat

August 26, 2009 By Leave a Comment

Adelaide, August 26 (ANI): A team of international researchers has found that the world’s last remaining “pristine” forest, namely the boreal forest across large stretches of Russia, Canada and other northern countries, is under increasing threat.

The researchers were from the University of Adelaide in Australia, Memorial University of Newfoundland in Canada and the National University of Singapore.

They have called for the urgent preservation of existing boreal forests in order to secure biodiversity and prevent the loss of this major global carbon sink.

The boreal forest comprises about one-third of the world’s forested area and one-third of the world’s stored carbon, covering a large proportion of Russia, Canada, Alaska and Scandinavia.

To date, it has remained largely intact because of the typically sparse human populations in boreal regions.

That is now changing, according to researchers and co-authors Associate Professor Corey Bradshaw, University of Adelaide, Associate Professor Ian Warkentin, Memorial University, and Professor Navjot Sodhi, National University of Singapore.

“Much world attention has focused on the loss and degradation of tropical forests over the past three decades, but now the boreal forest is poised to become the next Amazon,” said Associate Professor Bradshaw, from the University of Adelaide’s Environment Institute.

“Historically, fire and insects have driven the natural dynamics of boreal ecosystems,” said Associate Professor Warkentin.

“But with rising demand for resources, human disturbances caused by logging, mining and urban development have increased in these forests during recent years, with extensive forest loss for some regions and others facing heavy fragmentation and exploitation,” he added.

According to the findings, few countries are reporting an overall change in the coverage by boreal forest, but the degree of fragmentation is increasing with only about 40 percent of the total forested area remaining “intact”.

Russian boreal forest is the most degraded and least “intact” and has suffered the greatest decline in the last few decades.

Countries with boreal forest are protecting less than 10 percent of their forests from timber exploitation, except for Sweden where the figure is about 20 percent. (ANI)

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Kolkata cycle rally promotes environment awareness

August 25, 2009 By Leave a Comment

Kolkata, Aug 24 (ANI): Hundreds of cyclists took to the streets here on Sunday in a cycle rally organized with an aim to promote environmental awareness.

The rally was organized by the state-run oil refinery, the Indian Oil Corporation.

“We want to spread awareness amongst the people regarding the global warming, the environmental friendly attitude, what we need and how we can protect the environment, why should you protect the environment, all these points we are taking through this walk and this rally,” said Aloke Kumar Singh, Indian Oil spokesperson.

The cyclists included participants young and old.

“Today’s rally is organised to bring pollution under control because if we check pollution it will be good for us, for our next generation and for the country as well,” said 60-year-old Amarjit Singh.

It is feared that the doubling of carbon dioxide in the atmosphere within 50 years would raise global temperatures between 1.5 degree Celsius and 4.5 degree Celsius.

The WHO has warned that such environmental shifts could cause waterborne and parasitic blights, such as cholera and lyme disease, to spread to new areas. (ANI)

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US navy chemists try to turn seawater into jet fuel

August 19, 2009 By Leave a Comment

London, August 19 (ANI): In a new experiment, US navy chemists have processed seawater into unsaturated short-chain hydrocarbons that with further refining could be made into kerosene-based jet fuel.

According to a report by New Scientist, the process involves extracting carbon dioxide (CO2) dissolved in the water and combining it with hydrogen – obtained by splitting water molecules using electricity – to make a hydrocarbon fuel.

It uses a variant of a chemical reaction called the Fischer-Tropsch process, which is used commercially to produce a gasoline-like hydrocarbon fuel from syngas, a mixture of carbon monoxide and hydrogen often derived from coal.

Robert Dorner, a Naval Research Laboratory chemist in Washington DC and first author of a new paper on the technique, said that CO2 is rarely used in the Fischer-Tropsch process because of its chemical stability.

“But CO2′s abundance, combined with concerns about global warming, make it an attractive potential feedstock,” Dorner said.

“Although the gas forms only a small proportion of air – around 0.04 per cent – ocean water contains about 140 times that concentration,” he added.

The navy team has been experimenting to find out how to steer the CO2-producing process away from producing unwanted methane to produce more of the hydrocarbons wanted.

In the conventional Fischer-Tropsch process, carbon monoxide and hydrogen are heated in the presence of a catalyst to initiate a complex chain of reactions that produce a mixture of methane, waxes and liquid fuel compounds.

Dorner and colleagues found that using the usual cobalt-based catalyst on seawater-derived CO2 produced almost entirely methane gas.

Switching to an iron catalyst resulted in only 30 per cent methane being produced, with the remainder short-chain hydrocarbons that could be refined into jet fuel.

According to Heather Willauer, the navy chemist leading the project, the efficiency needs to be much improved, perhaps by finding a different catalyst. (ANI)

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China’s carbon emissions may peak around 2030

August 18, 2009 By Leave a Comment

New Delhi, August 18 (ANI): A panel of experts have determined that China’s carbon emissions output could peak around 2030 if the government continues to be serious about “strengthened measures” to improve energy efficiency and if it accelerates exploration of renewable energy.

According to the panel from the National Development and Reform Commission and the Development Research Center of the State Council, with the right policies, emissions growth could slow after 2020, with a peak around 2030.

This is the first time a Chinese think-tank has officially announced when it thinks China’s carbon emissions will peak.

The international community has closely watched the country’s carbon emissions curve because China and the US are the top two carbon emissions countries in the world.

The panel has advised China to invest significantly in low-carbon technology research and development, saying the strategy of developing such technology is “a stone killing two birds”.

“Only by using advanced low-carbon technologies can China’s greenhouse gas emissions peak around 2030; otherwise, the peak will be delayed and we don’t want to see the latter scenario,” said Jiang Kejun, a leading economist of the panel.

If the peak happens around 2030, the huge investment in low-carbon technologies could keep China’s economy growing at a fast pace and make China a global leader in cutting-edge technologies.

“I think China will become a major supplier of nuclear, wind and hydropower technologies and electricity transmission by 2030,” said Jiang. “And that should be a strategic goal for the Chinese government to pursue,” he added.

If China can achieve these goals, by 2050, its carbon emissions from fossil fuel “could fall to the same emissions levels as in 2005 or even lower”, the report said.

Jiang said that the Chinese government has been “on the right track” in making policy decisions to develop low-carbon technologies as new economic growth engines while countries worldwide are working on a plan by October to replace the Kyoto Protocol, which is set to expire in 2012. (ANI)

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