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​London, May 18 (IANS) Don't pluck that flower at night for the plant might be sleeping after a long day in the sun, suggests new research that measured the changes in the shape of plants during the day and night cycle.

Most living organisms adapt their behaviour to the rhythm of day and night. Plants are no exception: Flowers open in the morning, some tree leaves close during the night. And while researchers have been studying the day and night cycle in plants for a long time, nobody knew whether trees too go to sleep.

To find out, the team of researchers from Austria, Finland and Hungary measured the movement of fully grown trees using laser scanners.

"Our results show that the whole tree droops during night, which can be seen as position change in leaves and branches," said Eetu Puttonen from Finnish Geospatial Research Institute.

"The changes are not too large, only up to 10 cm for trees with a height of about 5 metres, but they were systematic and well within the accuracy of our instruments," Puttonen said.

To rule out effects of weather and location, the experiment was done twice with two different trees. 

The first tree was surveyed in Finland and the other in Austria. 

Both tests were done close to solar equinox, under calm conditions with no wind or condensation. 

The leaves and branches were shown to droop gradually, with the lowest position reached a couple of hours before sunrise. In the morning, the trees returned to their original position within a few hours. 

However, it is not yet clear whether they were "woken up" by the sun or by their own internal rhythm.

The findings appeared in the journal Frontiers in Plant Science.

The researchers noted that laser scanners use infrared light, which is reflected by the leaves. With this scanning technique, a full-sized tree can be automatically mapped within minutes with sub-centimeter resolution.

"We believe that laser scanning point clouds will allow us to develop a deeper understanding of plant sleep patterns and to extend our measurement scope from individual plants to larger areas, like orchards or forest plots," Norbert Pfeifer from Vienna University of Technology in Austria said.​

​Beijing, May 18 (IANS) Chinese scientists have found fossils of the world's oldest known multi-cellular organisms, dating back as far as 1.56 billion years, nearly one billion years earlier than previously estimated.

The research published on Wednesday in the journal "Nature Communications" showed the fossils were found in carbon-rich compressions in China's Hebei province. The biggest was 30 cm long and eight cm wide, Xinhua news agency reported.

Zhu Maoyan, the lead researcher, said the Yanshan Mountain region has Mesoproterozoic sedimentary mudstone. Organic fragments extracted from the host rock show well-preserved multi-cellular cell structures.

Zhu said multi-cellular life with modest diversity existed in the early Mesoproterozoic seas, but the species' affinity to extant species remains unclear.

"Further research will shed light on the ancient marine ecosystem," he said.

Prior to this discovery, fossils of multi-cellular life only dated back some 600 million years.

The new fossils show organisms large enough to be visible to the naked eye and predate the diversification of multi-cellular life by nearly one billion years.​

London, May 19 (IANS) Current rates of climate change could trigger instability in a major Antarctic glacier, ultimately leading to nearly three metre rise of the sea level, say researchers.

The scientists looked at the future of Totten glacier, a significant glacier in Antarctica that drains one of the world's largest areas of ice, on the East Antarctic Ice Sheet (EAIS).

By studying the history of Totten's advances and retreats, the researchers discovered that if climate change continues unabated, the glacier could cross a critical threshold within the next century, entering an irreversible period of very rapid retreat.

This would cause it to withdraw up to 300 kilometres inland in the following centuries and release vast quantities of water, contributing up to 2.9 metres to global sea-level rise.

"The evidence coming together is painting a picture of East Antarctica being much more vulnerable to a warming environment than we thought," said study co-author Martin Siegert, professor at Imperial College London.

"This is something we should worry about. Totten Glacier is losing ice now, and the warm ocean water that is causing this loss has the potential to also push the glacier back to an unstable place," Siegert noted.

The East Antarctic Ice Sheet is currently thought to be relatively stable in the face of global warming compared with the much smaller ice sheet in West Antarctica, but Totten Glacier is bucking the trend by losing substantial amounts of ice. 

The new research revealed that Totten Glacier may be even more vulnerable than previously thought.

The findings were published in the journal Nature. 

To uncover the history of Totten Glacier's movements, the team looked at the sedimentary rocks below the glacier using airborne geophysical surveys. 

From the geological record, influenced by the erosion by ice above, they were able to understand the history of the glacier stretching back millions of years.

The researcehrs found that the glacier has retreated more quickly over certain 'unstable' regions in the past. 

Based on this evidence, the scientists believe that when the glacier hits these regions again we will see the same pattern of rapid retreat.​

​Washington, May 19 (IANS) April 2016 was the 12th consecutive month a monthly global temperature record has been broken, the US government's climate agency said on Wednesday.

"This is the longest such balmy streak in the 137-year record, which dates back to 1880," Xinhua quoted the US National Oceanic and Atmospheric Administration (NOAA) as saying.

"The heat goes on -- and so do the records," the agency added.

For April, the average temperature across global land and ocean surfaces was 1.98 degrees Fahrenheit (1.10 degrees Celsius) above the 20th century average of 56.7 degrees Fahrenheit (13.7 degrees Celsius), according to the monthly report released by the NOAA.

This temperature departure from average was not only the highest for the month of April in the 1880-2016 record, but also the fourth-highest among all months on record, behind March 2016, February 2016, and December 2015, said the report.

On land, all six continents had at least a top nine warm April, with South America, Africa, and Asia observing a record high average temperature for April, the NOAA report said.

Only northeastern Canada and southern South America were cooler than average, with the most notable cool temperature departures across northeastern Canada.

Overall, "April 2016 was characterised by warmer to much warmer-than-average conditions across most of Earth's land surfaces," it concluded.

The globally averaged sea surface temperature for April was also highest for this month on record and surpassed the same period in 1998 by 0.43 degrees Fahrenheit (0.24 degrees Celsius) -- the last time a similar strength El Nino occurred.

This April also saw the the smallest Northern Hemisphere snow cover extent recorded in 50 years of snow-cover data collection.

For the four months of 2016, the average temperature for the globe was 2.05 degrees Fahrenheit (1.14 degrees Celsius) above the 20th-century average of 54.8 degrees Fahrenheit (12.7 degrees Celsius), the report added.​

Sydney, May 18 (IANS) Australian researchers have created a device that has set a new world record for solar efficiency, the media reported on Wednesday.

The device traps light through a simple prism, which dramatically bolsters the efficiency of solar cells, Xinhua news agency reported.

Researchers from the University of New South Wales (UNSW) Martin Green and Mark Keevers said the device extracts the maximum energy from sunlight, using a hybrid four-junction receiver to squeeze even more electricity from each beam of sunlight.

"This encouraging result shows there are still advances to come in photovoltaics research to make solar cells even more efficient," said Keevers.

"Extracting more energy from every beam of sunlight is critical to reducing the cost of electricity generated by solar cells as it lowers the investment needed, and delivering payback faster."

The pair set a new world record for sunlight-to-electricity conversion efficiency at 34.5 percent.

"What's remarkable is that this level of efficiency had not been expected for many years," said Green.

"A recent study by Germany's Agora Energiewende think tank set an aggressive target of 35 percent efficiency by 2050 for a module that uses unconcentrated sunlight, such as the standard ones on family homes."

The efficiency of commercially available solar panels is said to range between 14 to 22 percent.

"So things are moving faster in solar cell efficiency than many experts expected, and that's good news for solar energy," Green added.

"But we must maintain the pace of photovoltaic research in Australia to ensure that we not only build on such tremendous results, but continue to bring benefits back to Australia."​

​New York, May 18 (IANS) A genetic switch that is turned on in the brain during fasting helps halt the spread of intestinal bacteria into the bloodstream, says a new study.

The study shows a molecular pathway by which the brain communicates with the gastrointestinal (GI) tract to prevent unnecessary activation of the immune system during fasting by strengthening the barrier against gut microbes. 

The discovery of this brain-gut signal in fruit flies, which has many parallels to humans, could eventually inform the treatment of inflammatory bowel diseases in people, said the study published in the journal Proceedings of the National Academy of Sciences.

In addition to its role in promoting the absorption of nutrients from food, the GI tract is host to a panoply of bacteria. These microbes actually help in the digestive process by producing chemicals that break down complex fats and carbohydrates.

"Fasting has a positive value that spills over not just into the metabolic system, but also inflammation and brain function," said the study's lead investigator Marc Montminy, professor at Salk Institute for Biological Studies in La Jolla, California, US.

"Understanding how the gut maintains this barrier, and creating drugs to enhance that barrier, may have important benefits for people with inflammatory bowel disease," Montminy noted.

The new study is part of an ongoing research to pin down the mechanisms that a genetic switch in the brain called Crtc uses to control energy balance. ​

​Toronto, May 18 (IANS) Researchers, including one of Indian origin, have developed a device that can dramatically reduce the time and cost required for detecting the deadly E. coli bacteria in drinking water.

Some kinds of E. coli can cause diarrohea, while others cause urinary tract infections, respiratory illness and pneumonia, and other illnesses, according to the US Centres for Disease Control and prevention.

"We have developed a hydrogel based rapid E. coli detection system that will turn red when E. coli is present,” said Sushanta Mitra, professor at York University in Toronto.

"It will detect the bacteria right at the water source before people start drinking contaminated water,” Mitra said.

The new technology can cut down the time taken to detect E. coli from a few days to just a couple of hours. 

It is also an inexpensive way to test drinking water (Rs.155 per test estimated), which is a boon for many developing countries, the researchers said.

"This is a significant improvement over the earlier version of the device, the Mobile Water Kit, that required more steps, handling of liquid chemicals and so on,” Mitra noted.

"The entire system is developed using a readily available plunger-tube assembly. It’s so user-friendly that even an untrained person can do the test using this kit,” he added.

Traditional methods of testing for E. coli contamination involves collecting water samples to send to an appropriate microbiological lab where the bacteria is cultured before a plate count is done to detect E. coli presence.

The testing device uses the porous hydrogel matrix, developed by Mitra’s team at his Micro & Nano-scale Transport Laboratory that cages specific enzymatic substrates that release certain enzymes in E. coli cells. 

These enzymes then chemically react with the substrates to change colour. If there is no E. coli, the colour of the hydrogel won’t change, as there is no chemical reaction.

The results of the water test can be instantly broadcast using a mobile app already developed by the team​

​Washington, May 18 (IANS) Jupiter's moon Europa -- strongly believed to hide a deep ocean of salty liquid water beneath its icy shell -- can have the necessary balance of chemical energy for life even if the moon lacks volcanic hydrothermal activity, researchers have revealed.

Scientists at NASA's Jet Propulsion Laboratory (JPL), Pasadena, California, compared Europa's potential for producing hydrogen and oxygen with that of Earth through processes that do not directly involve volcanism.

The balance of these two elements is a key indicator of the energy available for life.

The study found that the amounts would be comparable in scale. On both worlds, oxygen production is about 10 times higher than hydrogen production.

The work draws attention to the ways that Europa's rocky interior may be much more complex and possibly Earth-like than people typically think.

“We're studying an alien ocean using methods developed to understand the movement of energy and nutrients in Earth's own systems. The cycling of oxygen and hydrogen in Europa's ocean will be a major driver for Europa's ocean chemistry and any life there, just it is on Earth,” explained Steve Vance, planetary scientist at JPL and lead author.

As part of the study, the researchers calculated how much hydrogen could potentially be produced in Europa's ocean as seawater reacts with rock in a process called serpentinisation.

In this process, water percolates into spaces between mineral grains and reacts with the rock to form new minerals, releasing hydrogen in the process.

New cracks expose fresh rock to seawater, where more hydrogen-producing reactions can take place.

In Earth's oceanic crust, such fractures are believed to penetrate to a depth of five-six kms.

On present-day Europa, the researchers expect water could reach as deep as 25 kms into the rocky interior, driving these key chemical reactions throughout a deeper fraction of Europa's seafloor.

The other half of Europa's chemical-energy-for-life equation would be provided by oxidants -- oxygen and other compounds that could react with the hydrogen -- being cycled into the Europan ocean from the icy surface above.

“The oxidants from the ice are like the positive terminal of a battery, and the chemicals from the seafloor, called reductants, are like the negative terminal," noted Kevin Hand, planetary scientist at JPL.

“Whether or not life and biological processes complete the circuit is part of what motivates our exploration of Europa,” he added in a new paper published in Geophysical Research Letters, a journal of the American Geophysical Union.

Europa's rocky, neighbouring Jovian moon “Io” is the most volcanically active body in the solar system.

Scientists have long considered it possible that Europa might also have volcanic activity, as well as hydrothermal vents, where mineral-laden hot water would emerge from the sea floor.

NASA is currently formulating a mission to explore Europa and investigate the moon's potential habitability.​

London, May 18 (IANS) Based on the "liquid wire" technique in spider webs, a team of international researchers has created composite fibers which extend like a solid and compress like a liquid.

Pulling on a sticky thread in a garden spider's orb web and letting it snap back reveals that the thread never sags but always stays taut, even when stretched to many times its original length.

This is because any loose thread is immediately spooled inside the tiny droplets of watery glue that coat and surround the core gossamer fibres of the web's capture spiral.

The study, which was carried out by researchers from the University of Oxford and the Pierre and Marie Curie University, Paris, was published by the University of Oxford in the journal Proceedings of the National Academy of Sciences.

"Surprisingly, each drop packs enough punch in its watery skins to reel in loose bits of thread. And this winching behaviour is used to excellent effect to keep the threads tight at all times, as we can all observe and test in the webs in our gardens," said Prof. Fritz Vollrath form the University of Oxford.

The novel properties observed and analysed by the researchers rely on a subtle balance between fibre elasticity and droplet surface tension. The team was also able to recreate this technique in the laboratory using oil droplets on a plastic filament.

This artificial system behaved just like the spider's natural winch silk, with spools of filament reeling and unreeling inside the oil droplets as the thread extended and contracted, according to the study.

"Our bio-inspired hybrid threads could be manufactured from virtually any components. These new insights could lead to a wide range of applications, such as micro-fabrication of complex structures, reversible micro-motors, or self-tensioned stretchable systems," said Herve Elettro, the first author of the study and a doctoral researcher from the Pierre and Marie Curie University.​

​London, May 18 (IANS) A study has found a new link between inflammation and cell division -- two of the most important processes in the human body whose accurate control is a holy grail for scientists researching the prevention of infection, inflammatory disease and cancer.

"This is an exciting discovery: for the first time we find a link between the system which regulates how cells divide and the basis of some of medicine's most intractable diseases," said Mike White, who led the joint study by the University of Manchester and Liverpool. 

Inflammatory signals produced by a wound or during an infection can activate a protein called Nuclear Factor-kappaB (NF-kB), which controls the activity of genes that allow cells to adapt to the situation.

Incorrect control of NF-kB is associated with inflammatory diseases, such as Crohn's disease, psoriasis and rheumatoid arthritis. It has also been linked with ageing and some cancers.

A key way in which human cells adapt to signals in their environment is by dividing to produce new cells through a repeating pattern of events, called the cell cycle. A cell first makes copies of its DNA, in a stage known as the DNA synthesis phase, and then divides into two daughter cells.

The cell cycle is controlled by a family of proteins called E2 factors, which control the start of the new cell's DNA synthesis phase.

The study published recently in the journal eLife showed that the NF-kB and E2 factors bind to each other in the cell. This controls the level of the NF--kB signal, which is enhanced just before DNA synthesis, but reduced during the DNA synthesis phase.

Scientists also showed that signals which activate NF-kB can change the timing of cell division.

The findings suggest that direct interactions between E2 factor proteins and NF-kB enable cells to decide whether to divide and determine how they react in different ways to inflammatory signals.​