Soon, lasers may trigger showers on demand

May 3, 2010 By Leave a Comment

London, May 3 (ANI): Shooting lasers into the air can elicit the formation of water droplets, and scientists claim that the technique could one day help to induce rain artificially.

For a long time, efforts to artificially trigger rain have focussed on ”cloud seeding” — scattering small particles of silver iodide into the air to act as ”condensation nuclei”, or centres around which rain droplets can grow.

“The problem is, it”s still not clear that cloud seeding works efficiently. There are also worries about how safe adding silver iodide particles into the air is for the environment,” Nature quoted optical physicist Jerome Kasparian at the University of Geneva, Switzerland, as saying.

The researchers thought that there might be a more environmentally friendly alternative.

Firing a laser beam made up of short pulses into the air ionizes nitrogen and oxygen molecules around the beam to create a plasma, resulting in a ”plasma channel” of ionized molecules.

These ionized molecules could act as natural condensation nuclei, explained Kasparian.

To see if this technique could induce droplets, the researchers fired a high-powered laser through an atmospheric cloud chamber in the lab containing saturated air (see video).

They illuminated the chamber using a second, standard low-power laser, enabling them to see and measure any droplets produced.

As soon as the laser was fired, drops measuring about 50 micrometres wide formed along the plasma channel.

Over the next three seconds, the droplets grew in size to 80 micrometres as the smaller droplets coalesced.

Next, the researchers took the technique outside.

They tested their high-powered portable ”Teramobile laser” over a number of different nights and in various humidity conditions.

And they detected that the amount of condensation induced by monitoring how much the light from a second laser was back scattered by any droplets.

In low humidity conditions, the Teramobile laser did not induce droplets.

But when the humidity was high, the team measured up to 20 times more back-scattering after the Teramobile laser was fired than before, said Kasparian, suggesting that condensation droplets were forming.

“This is the first time that a laser has been used to cause condensation outdoors,” said Roland Sauerbrey, an expert on laser physics.

The results are published online in Nature Photonics1. (ANI)

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Human pee mixed with ash can turn out to be a natural fertilizer

September 19, 2009 By Leave a Comment

Washington, September 19 (ANI): A new study has proven that human urine mixed with wood ash can be a natural fertilizer.

According to a report in National Geographic News, the study was carried out by Surendra Pradhan, an environmental scientist at University of Kuopio in Finland.

In many ways, the substances are natural complements, explained Pradhan.

Urine is high in nitrogen, while wood ash is rich in nutrients not found in urine, such as calcium and magnesium.

Human urine and wood ash have each separately been used as fertilizer for centuries. But until now, no one had explored applying them together.

For the research, Pradhan and his team fertilized several groups of greenhouse tomato plants: one with human urine and birch ash, another with commercial mineral fertilizer, and another with just urine.

Plants fertilized with urine and ash yielded nearly four times more tomatoes than nonfertilized plants.

This compared favorably with commercial mineral fertilizers, which produced roughly five times as much fruit as nonfertilized plants.

To the team’s surprise, urine alone produced a slightly greater yield than those of urine and ash together.

But the urine-and-ash plants became larger than the other groups, and they bore tomatoes with significantly higher levels of the nutrient magnesium, which is key for bone, muscle, and heart health, among other biochemical functions.

A group of 20 taste testers ranked tomatoes grown by all methods as equally tasty.

The best part of this type of fertilization is that “it is a very simple process,” Pradhan said.

The researchers estimate a single person could supply enough urine to fertilize roughly 6,300 tomato plants a year-yielding some 2.4 tons of tomatoes.

The farmer would just need to give plants ash three days or more after applying urine.

Pradhan and his colleagues are now trying to implement this idea in Nepal. (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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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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Unique acacia tree could nourish soils in Africa

August 25, 2009 By Leave a Comment

Washington, August 25 (ANI): In a new research, scientists have said that a type of acacia tree with an unusual growth habit, which is unlike virtually all other trees, holds particular promise for farmers in Africa as a free source of nitrogen for their soils that could last generations.

With its nitrogen-fixing qualities, the tall, long-lived acacia tree, Faidherbia albida could limit the use of fertilizers; provide fodder for livestock, wood for construction and fuel wood, and medicine through its bark, as well as windbreaks and erosion control to farmers across sub-Saharan Africa.

According to scientists, the tree illustrates the benefits of growing trees on farms and is adapted to an incredibly wide array of climates and soils from the deserts to the humid tropics.

“Growing the right tree in the right place on farms in sub-Saharan Africa-and worldwide- has the potential to slow climate change, feed more people, and protect the environment,” said Dennis Garrity, Director General of the World Agroforestry Centre.

“This tree, as a source of free, organic nitrogen, is an example of that. There are many other examples of solutions to African farming that exist here already,” he added.

The Faidherbia acacia tree has the quality of “reverse leaf phenology,” which drives the tree to go dormant and shed its nitrogen-rich leaves during the early rainy season – when seeds are being planted and need the nitrogen – and then to re-grow its leaves when the dry season begins and crops are dormant.

This makes it highly compatible with food crops because it does not compete with them for light-only the bare branches of the tree’s canopy spread overhead while crops grow to maturity.

Their leaves and pods provide a crucial source of fodder in the dry season for livestock when other plants have dried up.

The unique acacia tree is a frequent component of farming systems of Senegal, Mali, Burkina Faso, Niger, Chad, Sudan, and Ethiopia, and in parts of northern Ghana, northern Nigeria, and northern Cameroon.

The tree is growing on over 4.8 million hectares of land in Niger. Half a million farmers in Malawi and in the southern highlands of Tanzania grow the tree on their maize fields.

In Malawi, maize yields were increased up to 280 percent in the zone under the tree canopy compared with the zone outside the tree canopy.

In Zambia, recent unpublished observations showed that unfertilized maize yields in the vicinity of the Faidherbia trees averaged 4.1 tonnes per hectare, compared to 1.3 tonnes nearby but beyond the tree canopy. (ANI)

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Cacti can become ‘rock busters’ through symbiotic relationship with bacteria

August 20, 2009 By Leave a Comment

London, August 20 (ANI): Scientists have found that few plants like the cacti can grow on nothing but bare rock as the have evolved a symbiotic relationship with rock-dissolving bacteria, which they allow to grow in their roots.

According to a report by BBC News, Dr Yoav Bashan, a biologist at the Northwestern Center for Biological Research in La Paz, Mexico, and US-based colleagues Dr Esther Puente and Dr Ching Li discovered that cardon catus, growing in the volcanic region of the Baja California Sur mountain range, harbour bacteria that are capable of dissolving rock.

The cacti even incorporate these rock-busting bugs into their seeds, passing them on to future generations.

“We were working in the desert, when we observed that many individual cacti grew in sheer rocks,” said Dr Yoav Bashan, a biologist at the Northwestern Center for Biological Research in La Paz, Mexico.

“They looked good and green in habitats where usually plants do not grow,” he added.

The enigma, according to Dr Bashan, is that plants need minerals and nitrogen to survive. But neither are available from rock, which binds in minerals and contains no accessible nitrogen.

“The only explanation that we could think of is involvement of microorganisms assisting the plant to grow, fixing nitrogen and dissolving mineral,” he said. “We looked for them and found them,” he added.

These bacteria not only live on the surface of the plant’s roots, but also within cells that make up the root itself.

Further tests revealed the endophytic bacteria also grow in the cactus fruit and from there are transferred into seeds, and that these bacteria can weather rock, dissolving particles into smaller sizes.

“We believe that we have found a new symbiosis between bacteria and plants,” said Dr Bashan.

“The cactus is the carbon provider for the bacteria and the bacteria indirectly provide the minerals and nitrogen for the plant,” he added.

The bacteria and plant work in concert. The bacteria dissolve the rock, allowing the cactus seed to take purchase. The roots then drill into the weathered rock, fracturing it further.

“Consequently, below the plant is a small cave where the rocks were consumed and washed as soil and the roots are literally in the air,” Dr Bashan explained.

Further tests revealed that without the bacteria, cacti couldn’t survive.

The relationship is especially fruitful because the cacti are able to pass the bacteria onto the next generation.

“When a seed falls in bats and bird droppings onto barren rock, it contains all the bacteria it needs to pioneer colonization of that rock,” said Dr Bashan. (ANI)

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Efforts on to revive tradition of Sanjha Chulahs in Punjab

July 8, 2009 By Leave a Comment

Fazilika (Punjab), July 8 (ANI): Sanjha Chulha or, traditional common oven has been a part of Punjabi tradition for ages, however, it has been losing it popularity for quite some time.

A non-governmental organisation is making efforts to save it from being forgotten.

It’s part of the initiative by the Graduates Welfare Association, an NGO, working to save the environment and strengthen the community.
The NGO has installed six `Sanjha Chulhas’ or common ovens across Fazilka to popularlise it and enable poor housewives to cook their meals twice a day.
In modern times, when prices of LPG cylinders are skyrocketing, it will help poor people cut costs.
A traditional oven like this enables 10-15 families to cook food besides being eco-friendly as well.
“We want to send out a message to the whole world that we care about global warming. The fossil fuels generate carbon dioxide, nitrogen and other poisonous gases, which harm the atmosphere. So we have come up with Sanjha Chulha project, which will reduce the use of fossil fuel at homes.

The natural fuels like wood and coal don’t harm atmosphere like fossil fuels. In this way, we will be able to help in the progress of our country and the differences among people will also be reduced when they cook food together,” said Varun Gagneja, project coordinator, Graduates Welfare Association.
The Sanjha Chulha brings together women from different communities to cook meals at the common oven. And, it strengthens bonds.
In rural Punjab Sanjha Chulha was quite popular and women usually gathered at Chulah to bake bread and discuss day’s happenings.
But, with modernity and busy schedules, the tradition is facing extinction.

However, by reviving the tradition of `Sanjha Chulha’, Fazilka’s Graduates Welfare Association has done a great service to community.
“This oven should be kept in different areas of the villages and the cities. It will help improve relations among people. They can share all their happiness, sorrows and pains with each other,” said one of the residents.

“This type of oven should be kept everywhere. People will meet and it will strengthen social bonds,” said another local resident. eanwhile, people of Fazilka are savoring delicious meals cooked in an earthen oven. Breads baked in such ovens are considered good for health and tastes distinctly.
There is a belief among many local resident that if such initiatives succeed, they will help save fuel, unite people and allow them to relish `tandoori’ delights. By Avtar Singh (ANI)

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Omega Nebula’s ‘watercolors’ revealed in new image

July 8, 2009 By Leave a Comment

Munich, July 8 (ANI): A new image captured by the European Southern Observatory (ESO) has reveled the Omega Nebula, a stellar nursery where infant stars illuminate and sculpt a vast pastel fantasy of dust and gas, in all its glory.

The Omega Nebula, sometimes called the Swan Nebula, is a dazzling stellar nursery located about 5500 light-years away towards the constellation of Sagittarius (the Archer).

An active star-forming region of gas and dust about 15 light-years across, the nebula has recently spawned a cluster of massive, hot stars.

The intense light and strong winds from these hulking infants have carved remarkable filigree structures in the gas and dust.

When seen through a small telescope, the nebula has a shape that reminds some observers of the final letter of the Greek alphabet, omega, while others see a swan with its distinctive long, curved neck.

Swiss astronomer Jean-Philippe Loys de Cheseaux discovered the nebula around 1745. The French comet hunter Charles Messier independently rediscovered it about twenty years later and included it as number 17 in his famous catalogue.

In a small telescope, the Omega Nebula appears as an enigmatic ghostly bar of light set against the star fields of the Milky Way.

In recent years, astronomers have discovered that the Omega Nebula is one of the youngest and most massive star-forming regions in the Milky Way.

Active star-birth started a few million years ago and continues through today.

The newly released image, obtained with the EMMI instrument attached to the ESO 3.58-metre New Technology Telescope (NTT) at La Silla, Chile, shows the central region of the Omega Nebula in exquisite detail.

The NASA/ESA Hubble Space Telescope has also imaged small parts of this nebula.

At the left of the image, a huge and strangely box-shaped cloud of dust covers the glowing gas.

The fascinating palette of subtle color shades across the image comes from the presence of different gases (mostly hydrogen, but also oxygen, nitrogen and sulfur) that are glowing under the fierce ultraviolet light radiated by the hot young stars. (ANI)

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How plants use nitrogen to invade and take over native plants

July 8, 2009 By Leave a Comment

Washington, July 7 (ANI): A research at the University of Nebraska-Lincoln (UNL), US, gives important new information on how plants can change “nitrogen cycling” to gain nitrogen and how this allows plant species to invade and take over native plants.

In the research, UNL biologist Johannes Knops has demonstrated how one invasive plant species replaces native species because of its ability to take up and hold on to nitrogen.

Biologists know that nitrogen is crucial to plant growth that invasive species often grow better and acquire more nitrogen, but have been uncertain about which mechanism allows invasive species to gain an advantage.

Over seven years’ study at the Cedar Creek Ecosystem Science Reserve in central Minnesota, Knops and PhD candidate Ramesh Laungani studied the nitrogen pool and fluxes in the ecosystem that included seven grassland and forest species, including the Eastern white pine, a species that is rapidly invading Minnesota prairies.

Over time, they discovered that the pine had accrued nearly twice as much biomass as the next most productive species, and more than three times as much biomass relative to the other species.

“The higher productivity of the white pine is caused by an increased biomass nitrogen pool that was not driven by increased ecosystem level nitrogen inputs,” Knops said.

“But we found the white pine takes up nitrogen and holds on to it much longer, with leads to an accumulation of much more nitrogen in the plant and a depletion of nitrogen in the soil. We concluded high nitrogen residence time was the key mechanism driving the significantly higher plant nitrogen pool and the high productivity of that species,” he added.

In other words, pines mine the soil for organic nitrogen, decrease soil fertility and use this nitrogen to outcompete other species.

According to Knops, the higher nitrogen residence time creates a positive feedback that redistributes nitrogen from the soil into the plant’s nitrogen cycling, and this strengthened the species to support its invasion.

“What this higher nitrogen residence time means is that the plant is taking nitrogen from the soil and using it to make the plant grow more efficiently, and it also gives them an upper hand in being able to invade other species,” he said.

This study is the first to study all together and pinpoint the mechanism that explains why this pine is a successful invader. (ANI)

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Humans may have started feasting on fish about 40,000 years ago

July 7, 2009 By Leave a Comment

Washington, July 7 (ANI): A new study by an international team of researchers has suggested that fish may have become an important part of the year-round diet for early humans in China as far back as 40,000 years ago.

Freshwater fish are an important part of the diet of many peoples around the world, but it has been unclear when fish became an important part of the year-round diet for early humans.

Chemical analysis of the protein collagen, using ratios of the isotopes of nitrogen and sulfur in particular, can show whether such fish consumption was an occasional treat or a regular food item.

Analysis of a bone from one of the earliest modern human in Asia, the 40,000-year-old skeleton from Tianyuan Cave near Beijing, has shown that at least this individual was a regular fish consumer.

This analysis provides the first direct evidence for the substantial consumption of aquatic resources by early modern humans in China.

Since this occurs before there is consistent evidence for effective fishing gear, the shift to more fish in the diet likely reflects greater pressure from an expanding population at the time of modern human emergence across Eurasia. (ANI)

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Cardiac drug research may get a boost from new way to detect nitroxyl

July 6, 2009 By Leave a Comment

Washington, July 6 (ANI): Wake Forest University scientists have identified unique chemical markers for detecting the presence of a compound called nitroxyl in biological systems, an achievement that can boost cardiac drug research.

The researchers point out that nitroxyl-a cousin to the blood-vessel relaxing compound nitric oxide-has already been shown to strengthen canine heart beats in previous studies.

However, they add, research into its potential benefits for humans has been slowed by a lack of specific detection methods.

“I think this is a very powerful tool to help in the development of new drugs for congestive heart failure,” said S. Bruce King, a professor of chemistry at Wake Forest who leads the team that conducted the research.

The researchers say that nitroxyl can be generated from precursor chemicals under controlled conditions, but studying the molecule’s activity in cells is difficult because its constituent elements-nitrogen, oxygen and hydrogen-react so readily with other molecules.

King and colleagues used compounds that are not present in normal cell biology to produce a reaction that yields the identifying chemical markers.

While the researchers have established that the human body naturally produces nitric oxide, natural production of nitroxyl is suspected but has not been demonstrated.

King said that the new chemical markers could help answer that question, as well.

A research article on this study has been published online in the American Chemical Society’s journal Organic Letters. (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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Solar X-rays may create life on Saturn’s moon Titan

June 27, 2009 By Leave a Comment

London, June 26 (ANI): A new laboratory study has suggested that blasting the atmosphere of Saturn’s moon Titan with X-rays can produce DNA building blocks, a finding that adds to evidence that Titan may be ripe for life.

According to a report in New Scientist, researchers led by Sergio Pilling of the Catholic University of Rio de Janeiro in Brazil have produced adenine, one of five base components of DNA and RNA, in Titan-like conditions.

Instead of using UV light, however, they used low-energy, or “soft”, X-rays.

“Soft X-rays can penetrate deeper in Titan’s atmosphere and reach denser regions (than UV),” Pilling told New Scientist, adding that X-rays set off different chemical reactions in Titan’s atmosphere.

They modelled Titan’s current atmosphere using a mixture of nitrogen and methane gas, and added water to it to simulate the conditions when the moon is bombarded with water-bearing comets or asteroids – a situation that occurred much more frequently in the early solar system.

A frozen sheet of salty water ice lay below this ‘atmosphere’ and caused the gas to condense into liquid droplets, like dew settling onto Titan’s icy surface.

Then, the researchers bombarded the setup with X-rays for up to three days, representing the radiation that Titan would get from the sun over a period of about 7 million years.

Afterwards, the still-frozen surface contained some organic compounds, but nothing that could be called the building blocks of life.

But when they heated the samples to room temperature, adenine appeared.

That means Titan’s saucepan of proto-life would need a source of extra heat to activate.

If there was a warm period in Titan’s history, perhaps prompted by volcanic activity or meteoroid impacts, “a primitive life could have had a chance to flourish there,” according to the researchers.

Titan is due to be heated up in the next few billion years, when the sun bloats into a red giant star, expanding to the present orbit of Earth, they added.

According to Chris McKay, an astrobiologist at NASA, if impacts sometimes allow water to exist on the moon’s surface, then things might happen.

“It is interesting to see how far the chemistry can go,” he said. (ANI)

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Land management practices in agricultural watersheds can affect carbon losses

June 20, 2009 By Leave a Comment

Washington, June 20 (ANI): In a new study, scientists have determined that specific land management practices in agricultural watersheds, such as manure application, can affect carbon losses.

Dissolved organic carbon (DOC) losses from tile drains are an underquantified portion of the terrestrial carbon cycle.

This is particularly important in the eastern corn belt where tile drainage dominates the agricultural landscape.

Specific land management practices, such as manure application, can play a large role in the export of DOC as soluble organic carbon is applied to or injected into the soil surface.

As animal agriculture intensifies in the upper Midwest, measuring DOC exported through tile drains is important when evaluating carbon budgets and carbon sequestration potential.

Scientists at Purdue University have investigated the impacts of manure application, crop rotation, and nitrogen application rate on DOC losses from tile drains.

Research was conducted over a six-year span (1998-2004) at Purdue University’s Water Quality Field Station, which was designed specifically to measure drainflow and solute losses from agricultural practices.

Forty-eight drainage lysimeters were established at the field site in 1992.

Twelve field treatments included a restored prairie grass, continuous corn rotations and corn-soybean rotations fertilized at three nitrogen rates, and continuous corn rotations fertilized with lagooned swine effluent applied in the spring or fall of each year.

The study determined that annual losses of DOC were not affected by any crop management practice.

However, when drainage-inducing rainfall occurred with one month of manure application, the monthly DOC concentration of the manured plot was greater than that of non-manured plots.

Overall, drainage hydrology was determined to be the largest sole driver of DOC loss.

Greater daily drainflows were associated with higher DOC concentrations compared to lower daily drainflows.

This indicates that larger storms effectively “flush” DOC from the soil systems.

According to Dr. Matt Ruark, now an Assistant Professor at the University of Wisconsin-Madison, “Understanding the concentrations and amounts of DOC contributed to surface waters from tile drains is essential for evaluating the overall aquatic ecology of a watershed.

“This is of particular importance in the eastern corn belt, where up to 80 percent of the land in agricultural watersheds are tile drained,” he added.

Further research is required to evaluate the fate of tile drainage-exported DOC once it enters the surface water system.

The effect of manure management on the availability of DOC leached into subsurface soil is currently being investigated. (ANI)

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Cabbage fuel-powered jets can cut carbon emissions by 84pct

June 20, 2009 By Leave a Comment

Washington, June 20 (ANI): Jet fuel’s grave carbon emissions can be reduced by about 84 per cent by refining it from the seeds of a lowly weed, which is a cousin to the cabbage, says a Michigan Technological University researcher.

David Shonnard, Robbins Chair Professor of Chemical Engineering, came to this conclusion after analysing the carbon dioxide emissions of jet fuel made from camelina oil over the course of its life cycle, from planting to tailpipe.

“Camelina jet fuel exhibits one of the largest greenhouse gas emission reductions of any agricultural feedstock-derived biofuel I’ve ever seen. This is the result of the unique attributes of the crop-its low fertilizer requirements, high oil yield, and the availability of its coproducts, such as meal and biomass, for other uses,” he said.

Originated in Europe, Camelina sativa is a member of the mustard family, along with broccoli, cabbage and canola.

Also known as false flax or gold-of-pleasure, it thrives in the semi-arid conditions of the Northern Plains. The camelina used for the research was grown in Montana.

Shonnard points out that it is possible to convert oil from camelina to a hydrocarbon green jet fuel that meets or exceeds all petroleum jet fuel specifications.

According to the researcher, the fuel is a “drop-in” replacement that is compatible with the existing fuel infrastructure, from storage and transportation to aircraft fleet technology.

“It is almost an exact replacement for fossil fuel. Jets can’t use oxygenated fuels like ethanol; they have to use hydrocarbon replacements,” Shonnard said.

Given that camelina needs little water or nitrogen to flourish, Shonnard says that it can be grown on marginal agricultural lands.

“Unlike ethanol made from corn or biodiesel made from soy, it won’t compete with food crops. And it may be used as a rotation crop for wheat, to increase the health of the soil,” the researcher added.

Shonnard conducted the life cycle analysis for UOP LLC, of Des Plaines, Ill., a subsidiary of Honeywell and a provider of oil refining technology.

When asked whether people will soon be flying in plant-powered aircraft, Tom Kalnes, a senior development associate for UOP in its renewable energy and chemicals research group, said: “It depends.”

Kalnes added: “There are a few critical issues. The most critical is the price and availability of commercial-scale quantities of second generation feedstocks.”

He further said that more farmers would be require to be convinced to grow a new crop, and refiners must want to process it.

“But if it can create jobs and income opportunities in rural areas, that would be wonderful,” he said. (ANI)

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Dual nutrient strategy vital to improve aquatic ecosystems

May 19, 2009 By Leave a Comment

Washington, May 19 (ANI): A scientist has stressed on the need for a dual nutrient strategy to improve aquatic ecosystems.

Excess phosphorus and nitrogen produced by human activities on neighboring land is making its way into coastal waters and degrading both water quality and aquatic life.

Although historically the priority has been to control phosphorus, Professor Hans Paerl, from the University of North Carolina in the US, argues that nitrogen imbalance is equally damaging.

According to Professor Paerl, a dual nutrient strategy, which tackles both phosphorus and nitrogen surplus, is necessary to manage effectively this nutrient over-enrichment and resulting habitat degradation of coastal waters in the long-term.

The combination of human population growth, urbanization, and agricultural and industrial expansion is causing unprecedented and alarming rates of nutrient over-enrichment and accelerated plant growth in receiving waters worldwide.

The increasing levels of nitrogen and phosphorus are of particular concern because an excess of these two nutrients promotes accelerated production of plant-based organic matter (or eutrophication) to the extent that excessive production, including harmful algal blooms, contributes to the expansion of marine ‘dead zones’ and leads to the destruction of fisheries habitat.

The negative consequences of eutrophication have been apparent in freshwater habitats for a long time and phosphorus has been identified as the key nutrient responsible.

While freshwater lakes have, over the past few decades, received continual doses of phosphorus, many coastal systems have experienced ever-increasing nitrogen loads from rapidly growing human sources, with severe negative impacts on ecosystem structure and function.

This has led to the need for nitrogen control measures.

Professor Paerl shows that the argument for reducing surplus phosphorus alone, to control eutrophication, is idealized and conceptually and technically inapplicable to many freshwater and marine ecosystems.

He added that focusing on phosphorus alone ignores the fact that natural and human influences that affect upstream waters have significant adverse consequences on downstream waters.

Therefore, it is essential to look at nutrient control measures and their effects across the entire freshwater to marine continuum, not each one in isolation.

According to Professor Paerl, “The dual nutrient approach represents an evolutionary step in arresting eutrophication, with consideration of the larger scale freshwater-marine continuum being the driving force.” (ANI)

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River delta areas can provide clue to environmental changes in 21st century

May 12, 2009 By Leave a Comment

Washington, May 12 (ANI): Researchers at Texas A and M University, US, have determined that the historical information that can be gathered from sediment cores collected in and around river delta areas regions is critical for a better understanding of environmental changes in the 21st century.

The research was carried out by Thomas Bianchi, a professor in the Department of Oceanography, Texas A and M University, and colleague Mead Allison.

The researchers have examined sediments from delta areas around the world, most notably the Mississippi in the United States and the (Huanghe) Yellow and Yangtze in China.

“These sediments contain information that can provide data on past changes in nitrogen application in the drainage basin from agricultural fertilizers, records of past flooding and hurricane events, to name a few,” Bianchi said.

“These deltaic sediments can serve as a history book of sorts on land-use change in these large drainage basins which is useful for upland and coastal management decisions as related to climate change issues,” he explained.

“Although the information stored in these sediments can be altered during its transport from the upper drainage basin to the coast, we still find very stable tracers, both organic and inorganic, that can be used to document changes induced by natural and human forces,” he added.

According to the researchers, such sediments are ever-present, noting that 87 percent of the Earth’s land surface is connected to the ocean by river systems.

Much of the sediment from rivers forms into what are called large river delta-front estuaries (LDEs), and human activity in some of these can be traced back more than 5,000 years ago to some of the first cities in Mesopotamia, along the Nile and in regions of China.

The knowledge learned from these delta areas tell about the history of the region from how the land was used – or not used – through time, according to the researchers.

In the US, hypoxic areas – where there is little or no oxygen – can in some cases be linked with deltaic regions that are releasing large amounts of water and nutrients, Bianchi explained.

“Low oxygen in aquatic systems is clearly not good for the organisms in those systems, but not all aquatic systems respond in the same way,” he noted.

“It affects marine life in some areas severely, while other areas seem unchanged. We need to find out why,” he added. (ANI)

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Carbon from lush plankton blooms never reaches the deep ocean

May 7, 2009 By 1 Comment

Washington, May 7 (ANI): A new analysis has revealed that most of the carbon from lush plankton blooms, whether artificially fertilized or natural, never reaches the deep ocean.

The analysis was based on data collected by deep-diving Carbon Explorer that floats continuously, straight through the Antarctic winter.

The researchers who did the analysis were oceanographers Jim Bishop and Todd Wood of the US Department of Energy’s Lawrence Berkeley National Laboratory, who measured the fate of carbon particles originating in plankton blooms in the Southern Ocean.

Their study reveals that most of the carbon from lush plankton blooms never reaches the deep ocean.

The surprising discovery deals a blow to the simplest version of the Iron Hypothesis, whose adherents believe global warming can be slowed or even reversed by fertilizing plankton with iron in regions that are iron-poor, but rich in other nutrients like nitrogen, silicon, and phosphorus.

The Southern Ocean is one of the most important such regions.

“Just adding iron to the ocean hasn’t been demonstrated as a good plan for storing atmospheric carbon,” said Bishop, a member of Berkeley Lab’s Earth Sciences Division and a professor of Earth and planetary sciences at the University of California at Berkeley.

“What counts is the carbon that reaches the deep sea, and a lot of the carbon tied up in plankton blooms appears not to sink very fast or very far,” he added.

The reasons, while complex, are most likely due to the seasonal feeding behavior of planktonic animal life, and specifically to the effects of the dark Antarctic winter on plant and animal growth and the mixing of surface and deep waters by winter storms.

Phytoplankton blooms in the spring may indicate that much of the zooplankton (animal) population essential for carbon sedimentation has starved during the winter.

“We would never have made these surprising observations if the autonomous Carbon Explorer floats hadn’t been recording data 24 hours a day, seven days a week, at depths down to 800 meters or more, for over a year after the experiment’s original iron signature had disappeared,” Bishop said. (ANI)

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Yangtze River in China threatened by climate change and water conservation projects

April 20, 2009 By Leave a Comment

Washington, April 20 (ANI): A new report has determined that climate change and major water conservation projects are a major risk to the long-term “health” of the Yangtze River in China.

The Yangtze Conservation and Development Report 2009, compiled by the China Academy of Science (CAS), states the basin of China’s longest waterway has been hit by a yearly reduction in rain since 2006, brought on by global warming.

Annual rainfall dropped 10.3 and 6.9 percent respectively in 2006 and 2007, the report said, while severe droughts in 2007 and last year resulted in the shrinking of two of the nation’s biggest freshwater lakes, Poyang and Dongting.

The research also estimated that by 2030, the glacial area at the source of the Yangtze River will be reduced by 6.9 percent from the level recorded in 1970.

“Long-tem observation and multi-disciplinary studies on possible impacts are needed to better understand what climate change will do to the river,” said Yang Guishan, a CAS researcher and an author of the report.

The massive Three Gorges Dam project is also damaging the overall water quality, ecosystems of the wetlands and fish stocks, according to the report.

The research showed that with a hike in the concentration of nitrogen and phosphorus, the water quality in reservoir areas of the Three Gorges Dam has deteriorated since it began water storing in 2003.

According to the report, an increase in outbreaks of algae caused by excessive nutrients in the water has also been found in the reservoirs, while the Three Gorges Dam and other conservation projects are disrupting migration routes for fish and changing the ecology of the fish spawning sites in the Yangtze River.

The report found a steady fall in the number of black carp, grass carp, silver carp and crucian carp since 2003. (ANI)

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Space “aerobrakes” could bring used rockets back to Earth safely

April 18, 2009 By Leave a Comment

London, April 18 (ANI): Scientists are working on ways to build a gossamer-thin space sail or “aerobrake” that would help bring back a used rocket back to Earth safely.

According to a report in New Scientist, space-flight engineers Max Cerf and Brice Santerre at the European aerospace firm EADS Astrium have put the idea forward.

Rocket stages are a particular risk to spacecraft because they often contain large amounts of unused fuel, which can explode when sunlight heats the tank. Leaking fuel can also act like a mini-thruster, pushing the rocket into an orbit where it may cause a collision.

One way to tackle the problem is to vent unused fuel in a controlled way, and drain power from the battery, but this is unlikely to eliminate all collisions.

Now, Cerf and Santerre are devising ways to build a sail that would quickly remove a spent rocket from orbit.

The sail or “aerobrake” would be deployed after a rocket has delivered its satellite into low-Earth orbit, slowing it down by friction with the thin atmosphere so that burns up in around 25 years, much earlier than conventional rocket stages, some of which are expected to survive for at least 100 years.

The aerobrake would be deployed after the rocket has delivered its satellite into low-Earth orbit.

For the final stage of an Ariane 5 launcher, the conical sail would need to have an area of about 350 square metres and be supported by an inflatable mast 12 meters long.

Cerf and Santerre propose a number of possible ways to build the mast.

The simplest envisages a woven polymer and aluminium tube that is kept inflated by nitrogen gas.

Another uses a tube made of polymer composite, which after being inflated with nitrogen is set hard by the sun’s ultraviolet rays. A third design uses epoxy resin that is set hard by solvent evaporation.

The pair revealed their designs at this month’s Fifth European Conference on Space Debris in Darmstadt, Germany, organised by the European Space Agency.

According to Peter Roberts, a space-flight engineer at Cranfield University in the UK, who is working on similar technology for small satellites, “It’s a good idea, says Peter Roberts, a space-flight engineer at Cranfield University in the UK.”

“The risk of fragmentation of end-of-life spacecraft due to impacts from other debris can be greatly reduced by deploying a drag sail,” he said. (ANI)

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