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Last life on Earth: Microbes will rule the far future in 2.8 Billion years

Last life on Earth: Microbes will rule the far future in 2.8 Billion years | Amazing Science | Scoop.it

The last life on Earth will perish in 2.8 billion years, scorched by the dying sun as it swells to become a red giant. For about a billion years before that, the only living things will be single-celled organisms drifting in isolated pools of hot, salty water. A grim outlook, sure, but there's a silver lining for today's alien-hunters. The model that predicts these pockets of life on a future Earth also hints that the habitability of planets around other stars is more varied than previously believed, offering new hope for finding life in unlikely places.

 

Using what we know about Earth and the sun, researchers in the UK calculated a timeline for the phases of life on our planet as the sun expands to become a red giant. Previous studies modelled this scenario for Earth as a whole, but Jack O'Malley-James at the University of St Andrews, UK, and his colleagues wanted to consider the possibility that life might survive in a few extreme habitats. Sun-like stars of different sizes age at different rates, so the team also looked at how long simple and complex life might thrive around smaller and larger stars.

 

"Habitability is not so much a set attribute of a planet, but more something that has a lifetime of its own," says O'Malley-James. The team started by modelling rising temperatures on Earth's surface at different latitudes, along with long-term changes to the planet's orbital characteristics. Their model shows that as the sun ages and heats Earth more, complex life withers - plants, mammals, fish and finally invertebrates disappear as temperatures soar. The oceans vaporise, and plate tectonics grind to a halt without water as a lubricant. Eventually, pools of hot brine are all that's left in the less scorching higher altitudes, in sheltered caves or far underground. Microbes living in these pools could rule the Earth for about a billion years before they, too, dwindle to extinction.

 

Applying the model to stars of various sizes, life on an Earth-like planet would be only single-celled for about the first 3 billion years. Complex life could exist for comparatively short periods before the star begins to die and conditions once again become favourable to microbes alone. Statistically then, if alien life is out there, it is more likely to be microbial simply due to timing, the team says ( http://arxiv.org/abs/1210.5721 ).

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20,000+ FREE Online Science and Technology Lectures from Top Universities

20,000+ FREE Online Science and Technology Lectures from Top Universities | Amazing Science | Scoop.it

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Margarida Sá Costa's curator insight, January 31, 9:55 AM

Lectures are in Playlists and are alphabetically sorted with thumbnail pictures. No fee, no registration required - learn at your own pace. Certificates can be arranged with presenting universities.

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“Deadly diarrhea” rates in US hospitals nearly doubled in last 10 years, study shows

“Deadly diarrhea” rates in US hospitals nearly doubled in last 10 years, study shows | Amazing Science | Scoop.it

Infections with the intestinal superbug C. difficile nearly doubled from 2001 to2010 in U.S. hospitals without noticeable improvement in patient mortality rates or hospital lengths of stay, according to a study of 2.2 million C. difficile infection (CDI) cases published in the October issue of the American Journal of Infection Control, the official publication of theAssociation for Professionals in Infection Control and Epidemiology (APIC).


 In this retrospective study from The University ofTexas College of Pharmacy, researchers analyzed 10 years of data from the U.S.National Hospital Discharge Surveys (NHDS). From 2001 to 2010, rates of CDIamong hospitalized adults rose from 4.5 to 8.2 CDI discharges per 1,000 total adulthospital discharges.

 

"Several factors may have contributed to the rise inCDI incidence in recent years," said Kelly Reveles, PharmD, PhD, lead author onthe study. "Antibiotic exposure remains the most important risk factor forCDI." 


According to the Centers for Disease Control and Prevention(CDC)C. difficile is themost common bacteria responsible for causing healthcare-associated infectionsin U.S. hospitals and is linked to 14,000 deaths each year. Reducing the use ofhigh-risk, broad-spectrum antibiotics by 30 percent could lower CDI by 26percent, estimates the CDC. The WhiteHouse recently announced a new Executive Order and National Strategy for CombatingAntibiotic-resistant Bacteria, which emphasized the need for antibioticstewardship programs to help clinicians improve prescribing practices.


"It's been estimated that up to half of antibiotic usein humans is unnecessary," said APIC 2014 President Jennie Mayfield, BSN, MPH,CIC. "To make headway against CDI, hospitals and health facilities need to getserious about antibiotic stewardship."


According to The University of Texas College ofPharmacy study, most CDI patients were female (59 percent), white (86 percent),and more than 65 years of age (70 percent).  


Of the 2.2 million adult CDI discharges, 33 percenthad a principal diagnosis of CDI; 67 percent were classified as secondary CDI,meaning that CDI was not the primary reason they were hospitalized. Approximately7.1 percent, or 154,184 patients, died during the study period.

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A Spoonful of a New Crystalline Material Can Absorb a Whole Roomful of Oxygen

A Spoonful of a New Crystalline Material Can Absorb a Whole Roomful of Oxygen | Amazing Science | Scoop.it

A team of scientists at the Universiy of Southern Denmark just invented a crystalline material that can absorb oxygen with astounding efficiency. How astounding? Well, a single spoonful of the stuff can suck all of the oxygen out of a room. The best part is that it can release it again with just a little bit of heat. Say goodbye to bulky oxygen tanks.

"The material can absorb and release oxygen many times without losing the ability. It is like dipping a sponge in water, squeezing the water out of it and repeating the process over and over again," says Professor Christine McKenzie who led the research. "When the substance is saturated with oxygen, it can be compared to an oxygen tank, containing pure oxygen under pressure. The difference is that this material can hold three times as much oxygen."


In other words, a patient with lung trouble or a scuba diver wouldn't need to carry around heavy oxygen tanks. Instead, they could take advantage of this new cobalt-based material in a doubtlessly smaller container. Something as small as a mask could replace complex oxygen tank-and-pump setups. And yes, the scientists say that it will work underwater.


New ways to capture and store oxygen bear massive implications not only for medical technology but also for hydrogen fuel cells. The team in Denmark is now exploring the possibilities which extend all the way to artificial photosynthesis. That said, one can't help but wonder how this material might be weaponized. But let's just focus on the positive for now: Pocket-sized scuba kits here we come.

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Pill coated with tiny needles can deliver drugs directly into the lining of the digestive tract

Pill coated with tiny needles can deliver drugs directly into the lining of the digestive tract | Amazing Science | Scoop.it

Given a choice, most patients would prefer to take a drug orally instead of getting an injection. Unfortunately, many drugs, especially those made from large proteins, cannot be given as a pill because they get broken down in the stomach before they can be absorbed.


To help overcome that obstacle, researchers at MIT and Massachusetts General Hospital (MGH) have devised a novel drug capsule coated with tiny needles that can inject drugs directly into the lining of the stomach after the capsule is swallowed. In animal studies, the team found that the capsule delivered insulin more efficiently than injection under the skin, and there were no harmful side effects as the capsule passed through the digestive system.


“This could be a way that the patient can circumvent the need to have an infusion or subcutaneous administration of a drug,” says Giovanni Traverso, a research fellow at MIT’s Koch Institute for Integrative Cancer Research, a gastroenterologist at MGH, and one of the lead authors of the paper, which appears in the Journal of Pharmaceutical Sciences.


Although the researchers tested their capsule with insulin, they anticipate that it would be most useful for delivering biopharmaceuticals such as antibodies, which are used to treat cancer and autoimmune disorders like arthritis and Crohn’s disease. This class of drugs, known as “biologics,” also includes vaccines, recombinant DNA, and RNA.


“The large size of these biologic drugs makes them nonabsorbable. And before they even would be absorbed, they’re degraded in your GI tract by acids and enzymes that just eat up the molecules and make them inactive,” says Carl Schoellhammer, a graduate student in chemical engineering and a lead author of the paper.

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Causes of California drought clearly linked to man-made climate change, Stanford scientists say

Causes of California drought clearly linked to man-made climate change, Stanford scientists say | Amazing Science | Scoop.it

The atmospheric conditions associated with the unprecedented drought currently afflicting California are "very likely" linked to human-caused climate change, Stanford scientists write in a new research paper.


In a new study, a team led by Stanford climate scientist Noah Diffenbaugh used a novel combination of computer simulations and statistical techniques to show that a persistent region of high atmospheric pressure hovering over the Pacific Ocean that diverted storms away from California was much more likely to form in the presence of modern greenhouse gas concentrations.


The research, published on Sept. 29 as a supplement to this month's issue of the Bulletin of the American Meteorological Society, is one of the most comprehensive studies to investigate the link between climate change and California's ongoing drought.


"Our research finds that extreme atmospheric high pressure in this region – which is strongly linked to unusually low precipitation in California – is much more likely to occur today than prior to the human emission of greenhouse gases that began during the Industrial Revolution in the 1800s," said Diffenbaugh, an associate professor of environmental Earth system science at Stanford and a senior fellow at the Stanford Woods Institute for the Environment.


The exceptional drought currently crippling California is by some metrics the worst in state history. Combined with unusually warm temperatures and stagnant air conditions, the lack of precipitation has triggered a dangerous increase in wildfires and incidents of air pollution across the state. Arecent report estimated that the water shortage would result in direct and indirect agricultural losses of at least $2.2 billion and lead to the loss of more than 17,000 seasonal and part-time jobs in 2014 alone. Such impacts prompted California Gov. Jerry Brown to declare a drought emergency and the federal government to designate all 58 California counties as "natural disaster areas."


Scientists agree that the immediate cause of the drought is a particularly stubborn "blocking ridge" over the northeastern Pacific – popularly known as the Ridiculously Resilient Ridge, or "Triple R" – that prevented winter storms from reaching California during the 2013 and 2014 rainy seasons.

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We are slowly winning the war on cancer: Mortality rates have fallen from 215 deaths per 100,000 to 172 per 100,000

We are slowly winning the war on cancer: Mortality rates have fallen from 215 deaths per 100,000 to 172 per 100,000 | Amazing Science | Scoop.it

"If science and medicine are so great, then why are so many people dying of cancer?" This question has been asked many times. The answer is complex and multifaceted:


(1) Most importantly, we are dying of cancer because more of us are living long enough to die of cancer. Thanks to scientific and technological advances, Americans no longer drop dead of diphtheria (which, in 1900, was the #10 cause of death). In 1900, the average American lifespan was a paltry 46.3 years for males and 48.3 years for females. By contrast, in 2010, life expectancy was 76.2 years for men and 81.1 years for women. Of course, as Thaddeus Sim smartly points out on his blog, that doesn't mean that old people didn't exist in 1900. They did. But, a far smaller percentage of Americans made it to old age: Fewer than half of Americans made it to age 60 in 1900, but more than half of Americans made it to age 80 in 2000.


The point is that life expectancy and the percentage of Americans reaching old age are both increasing. That explains why, as a paper in The New England Journal of Medicine showed, cancer was the #8 cause of death in 1900 but the #2 cause of death in 2010.* We aren't dying of cancer because of Monsanto's pesticides and GMOs, as one lady recently said to me in an e-mail. We are dying of cancer because we are running out of things to die from. As George Johnson explained in the New York Times:


  • "People between 55 and 84 are increasingly more likely to die from cancer than from heart disease. For those who live beyond that age, the tables reverse, with heart disease gaining the upper hand. But year by year, as more failing hearts can be repaired or replaced, cancer has been slowly closing the gap."


(2) We are becoming better at diagnosing cancer. That's not necessarily good news. It is still possible that an early detection will not cause you to live a moment longer. (This is a phenomenon referred to as lead time bias.) But, knowing the cause of death is better than not knowing, and we have become quite good at medical diagnostics.


(3) And, what is MOST IMPORTANT, we are indeed slowly winning the war against cancer. How so? As a 2014 paper in CA: A Cancer Journal for Clinicians explains, a combination of factors -- including early detection, preventative measures, and improved treatment -- has reduced the cancer mortality rate from a peak of 215 deaths per 100,000 people in 1991 to 172 deaths per 100,000 people in 2010.


Source: Rebecca Siegel, Jiemin Ma, Zhaohui Zou, Ahmedin Jemal. "Cancer Statistics, 2014." CA: A Cancer Journal for Clinicians 64 (1): 9-29. Jan/Feb 2014. DOI: 10.3322/caac.21208

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Russell R. Roberts, Jr.'s curator insight, Today, 12:52 AM

Our campaign against cancer is a mixed bag.  On one hand our diagnostic tools and modern medicines are allowing us to live longer, so cancer can eventually kill us. Yet, at the same time, early detection, preventative measures, and better treatment have allowed us to reduce the mortality rate of the disease, so that we can still enjoy life, even if the "Big C" gets inside us.  Aloha, Russ.

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Scientists are now almost sure that wild chimpanzees have a socially transmitted culture

Scientists are now almost sure that wild chimpanzees have a socially transmitted culture | Amazing Science | Scoop.it
Wild chimps learning to use tools from each other may hint at humanity's past. We finally caught wild chimpanzees teaching each other new ways to drink water.


Under a tree in Uganda’s Budongo forest in 2013, Catherine Hobaiter first mentioned the strange chimp behaviors she'd seen two years before. Hobaiter, a chimpanzee researcher at the University of St. Andrews in the UK, told fellow primatologist Thibaud Gruber that she had witnessed a group of chimps using a mix of moss and leaves to soak up drinking water from a watering hole in the forest. In 20 years of research, no one had observed this behavior in this community of chimps, and yet Hobaiter had managed to capture the behavior on video — numerous times.


"When she told me that she had all the videos on her laptop and, most importantly, that we could probably extract from these videos all the information necessary to document the spread of the behavior within the community," Gruber explains, "I knew we were in business!"


Chimpanzees are widely considered the most "cultural" of all non-human animals, Gruber says. Their ability to use tools is well-known, and their capacity to transmit those behaviors socially has garnered a lot of attention in recent years. Until now, though, observations of chimps learning to use tools from each other had only taken place in captivity — a setting that, necessarily, doesn't resemble the wild. Captivity had limited the ecological validity of the earlier findings, says Gruber, who works at the University of Neuchâtel in Switzerland.


In the recent study, published today in PLOS Biology, Gruber and his team investigated how two new variations of "leaf-sponge" use spreads across a population. These single-use tools are usually the result of a chimp folding leaves into its mouth and subsequently using it to drink, or even to collect honey in experimental conditions. But Hobaiter’s footage showed that some chimps reuse their sponges, whereas others make them by mixing moss into the leaves. "The chimpanzees just decided to display this novel behavior right in front of us," Gruber says, "and we only needed our camcorders to capture the scenes."


With the footage in hand, the researchers gathered data and ran statistical models. The goal was to see if these novel behaviors were socially transmitted from chimp to chimp. And, according to their results, moss-sponging was a product of social learning among the chimp population. Leaf-sponge reuse, on the other hand, wasn't. What's more, every time an individual sees another chimpanzee perform a behavior, that first chimp is 15 times more likely to develop the behavior, the research showed. "Most interestingly," Gruber says, "the spread of the behavior was very fast, with seven individuals acquiring the novel behavior in only six days." This shows that chimpanzees can adopt new tools very quickly.

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Ebola Diagnosed Inside the U.S. For The First Time

Ebola Diagnosed Inside the U.S. For The First Time | Amazing Science | Scoop.it

A patient was diagnosed with Ebola in the United States for the first time, CNBC reported, citing the U.S. Centers for Disease Control and Prevention (CDC). Until Tuesday, Ebola patients had only been treated in the U.S. after being diagnosed elsewhere. The AP confirmed the news. 


According to WFAA.com, the patient was being treated at a Dallas hospital. Texas Health Presbyterian Hospital of Dallas announced on Monday that one its patients was being tested for Ebola. The patient was kept in isolation and CDC officials headed to Dallas to meet with doctors there. Texas health officials believe that the chances of an outbreak in the Dallas area are very low.


he CDC gave more details about the case in a Tuesday press conference.

Dr. Thomas Frieden, Director of the CDC, reported that the infected patient was traveling from Liberia and left on September 19th, arrived in the U.S. on September 20th, but had no symptoms of the disease during that timeframe. On September 24th, the patient developed symptoms, and then sought care on September 26th. On September 28th, the patient was admitted to the hospital in Dallas. Frieden stated that he had "no doubt that we'll stop this in its tracks in the U.S."


Friedan didn’t disclose much information about the patient beyond the fact that he is visiting family in the U.S. Doctors didn't reveal his nationality -- or whether he resides in the U.S. or is a tourist. Officials did confirm that he was critically ill and that the hospital was discussing experimental therapies with the patient’s family and drug providers.


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Evolutionary arms race between retrotransposons and regulatory networks

Evolutionary arms race between retrotransposons and regulatory networks | Amazing Science | Scoop.it
Retrotransposons are thought to be remnants of ancient viruses that infected early animals and inserted their genes into the genome long before humans evolved. Now they can only replicate themselves within the genome. Depending on where a new copy gets inserted into the genome, a jumping event can disrupt normal genes and cause disease. Often the effect is neutral, simply adding to the overall size of the genome. Very rarely the effect might be advantageous, because the added DNA can itself be a source of new regulatory elements that enhance gene expression. But the high probability of deleterious effects means natural selection favors the evolution of mechanisms to prevent jumping events.

Scientists estimate that jumping genes or "transposable elements" account for at least 50 percent of the human genome, and retrotransposons are by far the most common type.

"There have been successive waves of retrotransposon activity in primate evolution, when a transposable element changed to become expressed and replicated itself throughout the genome until something turned it off," Salama said. "We've discovered a major mechanism by which the genome is able to shut down these mobile DNA elements."

The repressors identified in the new study belong to a large family of proteins known as "KRAB zinc finger proteins." These are DNA-binding proteins that repress gene activity, and they constitute the largest family of gene-regulating proteins in mammals. The human genome has over 400 genes for KRAB zinc finger proteins, and about 170 of them have emerged since primates diverged from other mammals.


Their findings, published September 28 in Nature, show that over evolutionary time, primate genomes have undergone repeated episodes in which mutations in jumping genes allowed them to escape repression, which drove the evolution of new repressor genes, and so on. Furthermore, their findings suggest that repressor genes that originally evolved to shut down jumping genes have since come to play other regulatory roles in the genome.


"We have basically the same 20,000 protein-coding genes as a frog, yet our genome is much more complicated, with more layers of gene regulation. This study helps explain how that came about," said Sofie Salama, a research associate at the UC Santa Cruz Genomics Institute who led the study.

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First complete sequence of C. autoethanogenum, a bacteria important to fuel and chemical production

First complete sequence of C. autoethanogenum, a bacteria important to fuel and chemical production | Amazing Science | Scoop.it
Researchers at the Department of Energy’s Oak Ridge National Laboratory are the first team to sequence the entire genome of the Clostridium autoethanogenum bacterium, which is used to sustainably produce fuel and chemicals from a range of raw materials, including gases derived from biomass and industrial wastes.

The ORNL work was funded by LanzaTech, a biotechnology company based in Illinois with an innovative carbon recycling process. LanzaTech’s gas fermentation platform uses proprietary microbes for efficiently converting carbon-rich waste gases and residues into useful fuels and chemicals.

Successfully sequencing Clostridium autoethanogenum—classified as a complex, class III microbe because of its many repeating units of DNA bases—has been of significant interest to the biotechnology industry. A Biotechnology for Biofuels paper co-authored by ORNL’s Steve Brown and Miriam Land, University of Tennessee doctoral student Sagar Utturkar and collaborating LanzaTech researchers generated a top-5-percent rating from Altmetric, an online rating system that measures the volume and value of recognition an article receives from research communities and media outlets.

“With the complete genomic sequence, we will have a better understanding of the microbe’s metabolism and mutations that will enable LanzaTech to make modifications to the wild-type, or naturally occurring, strain for optimizing the conversion of waste into fuel,” Brown said. “Our ORNL lab has a lot of experience sequencing genomes, and we have the analytic capability to tackle this project.”

The research team sequenced the more than 4.3 million base pairs of DNA that make up the organism’s genome using RS-II long-read sequencing technology developed by Pacific Biosciences (PacBio).
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Physicists design record-breaking laser that accelerates the interaction between light and matter by ten times

Physicists design record-breaking laser that accelerates the interaction between light and matter by ten times | Amazing Science | Scoop.it

Reporting in the journal Nature Physics, physicists from Imperial College London and the Friedrich-Schiller-Universität Jena, in Germany, used semiconductor nanowires made of zinc oxide and placed them on a silver surface to create ultra-fast lasers. 


By using silver rather than a conventional glass surface, the scientists were able to shrink their nanowire lasers down to just 120 nanometres in diameter - around a thousandth the diameter of human hair.


The physicists were able to shrink the laser by using surface plasmons, which are wave-like motions of excited electrons found at the surface of metals. When light binds to these oscillations it can be focused much more tightly than usual. 


By using surface plasmons they were able to squeeze the light into a much smaller space inside the laser, which allowed the light to interact much more strongly with the zinc oxide. 


This stronger interaction accelerated the rate at which the laser could be turned on and off to ten times that of a nanowire laser using a glass surface. These are the fastest lasers recorded to date, in terms of the speed at which they can turn on and off.


Senior author Dr Rupert Oulton from the Department of Physics at Imperial College London said: “This work is so exciting because we are engineering the interaction of light and matter to drive light generation in materials much faster than it occurs naturally. When we first started working on this, I would have been happy to speed up switching speeds to a picosecond, which is one trillionth of a second. But we’ve managed to go even faster, to the point where the properties of the material itself set a speed limit.” 


PhD student Robert Röder, from Friedrich-Schiller Universität Jenasaid: “This is not only ‘world record’ regarding the switching speed. Most likely we also achieved the maximum possible speed at which such a semiconductor laser can be operated.” 

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Flooding Risk From Climate Change, Country by Country

Flooding Risk From Climate Change, Country by Country | Amazing Science | Scoop.it
More than a quarter of Vietnam’s residents live in areas likely to be subject to regular floods by the end of the century. Four percent of China’s residents — 50 million people — live in the same kind of areas. Across the globe, about one person in 40 lives in a place likely to be exposed to such flooding by the end of the century, absent significant changes.

These figures are the result of a new analysis of sea levels and flood risk around the world, conducted by Climate Central and based on more detailed sea-level data than has previously been available. The analysis offers country-by-country estimates for populations at risk of regular flooding, accounting for a range of potential emissions reductions and for variations of sea level sensitivity to climate change.

Globally, eight of the 10 large countries most at risk are in Asia. The Netherlands would be the most exposed, with more than 40 percent of its country at risk, but it also has the world’s most advanced levee system, which means in practice its risk is much lower.

Some countries in Asia may choose to emulate the Dutch system in coming decades, but some of the Asian nations are not wealthy and would struggle to do so.

The analysis offers more evidence that the countries emitting the most carbon aren’t necessarily the ones that will bear the brunt of climate change. The United States — one of the world’s largest carbon emitters per capita and historically the overall largest emitter — ranks 34th on the list of risk of flood exposure, between India and Madagascar. The share of Americans projected to be exposed to regular flooding — about 1 percent — might seem small, but it’s still about 3.1 million people, more than live in Chicago and Minneapolis combined.

China, on the other hand, leads the world in both current emissions and greatest number of people exposed to flood risk.

Climate Central, a news organization and research group, has released the new analysis as the United Nations gathers this week for a summit on climate change. Climate scientists expect flooding to increase as global warming melts snow and ice and expands the volume of oceans. The analysis defines regular flooding as a flood at least once every three years.

Of course, there is substantial uncertainty about the future of carbon emissions, global warming and sea levels. The map above includes estimates, given current trends, for the most likely possibility but also the extreme low and high estimates for sea levels and flood risk. Climate change could occur at a different pace than expected, and governments will surely vary in the aggressiveness of their policy responses.
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All Ashkenazi Jews alive today can trace their roots to a group of just 350 people who lived 600 to 800 years ago

All Ashkenazi Jews alive today can trace their roots to a group of just 350 people who lived 600 to 800 years ago | Amazing Science | Scoop.it

Ashkenazi Jews (AJ), identified as Jewish individuals of Central- and Eastern European ancestry, form the largest genetic isolate in the United States. AJ demonstrate distinctive genetic characteristics12, including high prevalence of autosomal recessive diseases and relatively high frequency of alleles that confer a strong risk of common diseases, such as Parkinson’s disease3and breast and ovarian cancer4. Several recent studies have employed common polymorphisms5,-13 to characterize AJ as a genetically distinct population, close to other Jewish populations as well as to present-day Middle Eastern and European populations. Previous analyses of recent AJ history highlighted a narrow population bottleneck of only hundreds of individuals in late medieval times, followed by rapid expansion1214.


The AJ population is much larger and/or experienced a more severe bottleneck than other founder populations, such as Amish, Hutterites or Icelanders15, whose demographic histories facilitated a steady stream of genetic discoveries. This suggests the potential for cataloguing nearly all founder variants in a large extant population by sequencing a limited number of samples, who represent the diversity in the founding group (for example, ref. 16). Such a catalogue of variants can make a threefold contribution: First, it will enable clinical interpretation of personal genomes in the sizeable AJ population by distinguishing between background variation and recent, potentially more deleterious mutations. Second, it will improve disease mapping in AJ by increasing the accuracy of imputation. Third, the ability to extensively sample a population with ancient roots in the Levant is expected to provide insights regarding the histories of both Middle Eastern and European populations.


Now a team of scientists report high-depth sequencing of 128 complete genomes of AJ controls. Compared with European samples, our AJ panel has 47% more novel variants per genome and is eightfold more effective at filtering benign variants out of AJ clinical genomes. Reconstruction of recent AJ history from such data confirms a recent bottleneck of merely ≈350 individuals. Modeling of ancient histories for AJ and European populations using their joint allele frequency spectrum determines AJ to be an even admixture of European and likely Middle Eastern origins. The researchers date the split between the two ancestral populations to ≈12–25 Kyr, suggesting a predominantly Near Eastern source for the repopulation of Europe after the Last Glacial Maximum.

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Ellen Diane's curator insight, September 27, 1:37 PM

very interesting- thanks;)

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Two new Jupiter-sized extrasolar planets found, each orbiting one star of a binary-star system

Two new Jupiter-sized extrasolar planets found, each orbiting one star of a binary-star system | Amazing Science | Scoop.it

Astronomers at Keele University have found two new Jupiter-sized extra-solar planets, each orbiting one star of a binary-star system.


Most known extra-solar planets orbit stars that are alone, like our Sun. Yet many stars are part of binary systems, twin stars formed from the same gas cloud.  Now, for the first time, two stars of a binary system are both found to host a ``hot Jupiter'' exoplanet.


The discoveries, around the stars WASP-94A and WASP-94B, were made by a team of British, Swiss and Belgian astronomers. The Keele-led WASP-South survey found tiny dips in the light of WASP-94A, suggesting that a Jupiter-like planet was transiting the star; Swiss astronomers then showed the existence of planets around both WASP-94A and then its twin WASP-94B. Marion Neveu-VanMalle (Geneva Observatory), who wrote the announcement paper, explains: "We observed the other star by accident, and then found a planet around that one also!"


Hot Jupiter planets are much closer to their stars than our own Jupiter, with a "year" lasting only a few days. They are rare, so it would be unlikely to find two Hot Jupiters in the same star system by chance.   Perhaps WASP-94 has just the right conditions for producing Hot Jupiters?  If so WASP-94 could be an important system for understanding why Hot Jupiters are so close to the star they orbit.


The existence of huge, Jupiter-size planets so near to their stars is a long-standing puzzle, since they cannot form near to the star where it is far too hot.


They must form much further out, where it is cool enough for ices to freeze out of the proto-planetary disk circling the young star, hence forming the core of a new planet.   Something must then move the planet into a close orbit, and one likely mechanism is an interaction with another planet or star.  Finding Hot-Jupiter planets in two stars of a binary pair might allow us to study the processes that move the planets inward.


Professor Coel Hellier, of Keele University, remarks: "WASP-94 could turn into one of the most important discoveries from WASP-South. The two stars are relatively bright, making it easy to study their planets, so WASP-94 could be used to discover the compositions of the atmospheres of exoplanets".


The WASP survey is the world's most successful search for hot-Jupiter planets that pass in front of (transit) their star. The WASP-South survey instrument scans the sky every clear night, searching hundreds of thousands of stars for transits. The Belgian team selects the best WASP candidates by obtaining high-quality data of transit light curves.

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Molecular logic computer used for Ebola and Marburg virus diagnosis

Molecular logic computer used for Ebola and Marburg virus diagnosis | Amazing Science | Scoop.it

Early detection is key to slowing outbreaks of Ebola, such as the one currently spreading across west Africa that is estimated to have infected almost 1000 people, according to the latest World Health Organization report. A molecular computer could one day simplify analysis of biomedical assays like those used to diagnose Ebola, researchers say. And a new prototype device can display a fluorescent letter in the presence of nucleic acid sequences from the Ebola virus or the closely-related Marburg virus: ‘E’ for Ebola or ‘M’ for Marburg


The monitoring of molecular systems usually requires sophisticated technologies to interpret nanoscale events into electronic-decipherable signals. A group of scientists new demonstrate a new method for obtaining read-outs of molecular states that uses graphics processing units made from molecular circuits. Because they are made from molecules, the units are able to directly interact with molecular systems.


The researchers developed deoxyribozyme-based graphics processing units able to monitor nucleic acids and output alphanumerical read-outs via a fluorescent display. Using this design we created a molecular 7-segment display, a molecular calculator able to add and multiply small numbers, and a molecular automaton able to diagnose Ebola and Marburg virus sequences. These molecular graphics processing units provide insight for the construction of autonomous biosensing devices, and are essential components for the development of molecular computing platforms devoid of electronics.


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Astrophysicist Joshua Frieman discusses attempts to characterize dark energy with the Dark Energy Detection Camera

Astrophysicist Joshua Frieman discusses attempts to characterize dark energy with the Dark Energy Detection Camera | Amazing Science | Scoop.it

Like most theoretical cosmologists, Joshua Frieman was thrilled when astronomers announced in 1998 that the expansion of the universe appeared to be speeding up, driven by an invisible agent that they called “dark energy.”


Frieman and his fellow theorists imagined two possible causes for the cosmic acceleration: Dark energy could be the quantum jitter of empty space, a “cosmological constant” that continues to accrue as space expands, pushing outward ever more forcefully. Alternately, a yet-undetected force field could pervade the cosmos, one akin to the field that scientists believe powered the exponential expansion of the universe during the Big Bang.


But the scientists also realized that the two options would have nearly identical observational consequences, and either theory could fit the crude measurements to date.


To distinguish between them, Frieman, a professor of astronomy and astrophysics at the University of Chicago and a senior staff scientist at the Fermi National Accelerator Laboratory (Fermilab) in nearby Batavia, Ill., co-founded the Dark Energy Survey (DES), a $50 million, 300-person experiment. The centerpiece of the project is the Dark Energy Camera, or DECam, a 570-megapixel, optical and near-infrared CCD detector built at Fermilab and installed on the four-meter Blanco Telescope in Chile two years ago. By observing 300 million galaxies spanning 10 billion light-years, DES aims to track the cosmic acceleration more precisely than ever before in hopes of favoring one hypothesis over the other. Frieman and his team are now reporting their first results.

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Platinum meets its match in quantum dots from coal

Platinum meets its match in quantum dots from coal | Amazing Science | Scoop.it

Graphene quantum dots created at Rice University grab onto graphene platelets like barnacles attach themselves to the hull of a boat. But these dots enhance the properties of the mothership, making them better than platinum catalysts for certain reactions within fuel cells.


The Rice lab of chemist James Tour created dots known as GQDs from coal last year and have now combined these nanoscale dots with microscopic sheets of graphene, the one-atom-thick form of carbon, to create a hybrid that could greatly cut the cost of generating energy with fuel cells. - See more at: f


The research is the subject of a new paper in the American Chemical Society journal ACS Nano.


The lab discovered boiling down a solution of GQDs and graphene oxide sheets (exfoliated from common graphite) combined them into self-assembling nanoscale platelets that could then be treated with nitrogen and boron. The hybrid material combined the advantages of each component: an abundance of edges where chemical reactions take place and excellent conductivity between GQDs provided by the graphene base. The boron and nitrogen collectively add more catalytically active sites to the material than either element would add alone.


“The GQDs add to the system an enormous amount of edge, which permits the chemistry of oxygen reduction, one of the two needed reactions for operation in a fuel cell,” Tour said. “The graphene provides the conductive matrix required. So it’s a superb hybridization.”

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Fur Coat-Like Super-Sized Bacteria On Marine Worms are Ectosymbionts

Fur Coat-Like Super-Sized Bacteria On Marine Worms are Ectosymbionts | Amazing Science | Scoop.it

Looking closely at the small, worm-like nematode Eubostrichus dianeae under a microscope, one would observe what appears to be a carpet of long fur tendrils covering the exterior of the worm.  Look even more closely and one would realize that the fur is in fact a mass of ectosymbiont bacteria, Gammaproteobacteria, that lives by attaching one end to the surface of the nematode’s cuticle, its outer surface.  The longest of these bacteria is a stunning 140 microns long, at the threshold of perception according to resolution capabilities of our eye.  In comparison, the common Escherichia coli is about 2 microns long.  The nematode Eubostrichus fertilis is similarly covered by a carpet of shorter bacteria (image above), each of which is attached on both ends, and aligned along the long axis of the body.


Scientists at the University of Vienna have found that the exceptionally long bacteria coating the two nematodes exhibit exquisite control of division despite the bacteria having a one order-of-magnitude variation in size.  On Eubostrichus dianeae, the bacteria size range from 16 to 140 microns (0.016 to 0.140 mm).  In Eubostrichus fertilis, the bacteria range from 3 to 45 microns (0.003 to 0.045 mm).  Despite the variation, the bacteria exhibit exquisite control over the reproduction process.  A hither-to yet unknown internal machinery generates a constricting ring in the exact center, pinching off two progeny bacteria in a process of symmetric division.


DNA sequencing revealed that the bacteria on E dianeae and E fertilis are pure respectively, each belonging to a sulphur-oxidizing family.  The exact species identities of the bacteria are not known.  To establish the genetic uniformity, the researchers sequenced the well-conserved 16s ribosome, a universal protein-building machinery found in all bacteria and all life.  This allowed not only analysis of variation within the population of surface-coating bacteria, but also a comparison to sequence information in existing databases.  The resulting ribosomal sequences matched closely bacteria that had been characterized on other marine nematodes.

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When the Earth ran dry of water — 4th largest freshwater lake is almost dry

When the Earth ran dry of water — 4th largest freshwater lake is almost dry | Amazing Science | Scoop.it

In the 1960s, the Soviet Union undertook a major water diversion project on the arid plains of Kazakhstan, Uzbekistan, and Turkmenistan. The region’s two major rivers, fed by snowmelt and precipitation in faraway mountains, were used to transform the desert into farms for cotton and other crops. Before the project, the Syr Darya and the Amu Darya rivers flowed down from the mountains, cut northwest through the Kyzylkum Desert, and finally pooled together in the lowest part of the basin. The lake they made, the Aral Sea, was once the fourth largest in the world.


Although irrigation made the desert bloom, it devastated the Aral Sea. This series of images from the Moderate Resolution Imaging Spectroradiometer (MODIS) on NASA’s Terra satellite documents the changes. At the start of the series in 2000, the lake was already a fraction of its 1960 extent (black line). The Northern Aral Sea (sometimes called the Small Aral Sea) had separated from the Southern (Large) Aral Sea. The Southern Aral Sea had split into eastern and western lobes that remained tenuously connected at both ends.


By 2001, the southern connection had been severed, and the shallower eastern part retreated rapidly over the next several years. Especially large retreats in the eastern lobe of the Southern Sea appear to have occurred between 2005 and 2009, when drought limited and then cut off the flow of the Amu Darya. Water levels then fluctuated annually between 2009 and 2014 in alternately dry and wet years. Dry conditions in 2014 caused the Southern Sea’s eastern lobe to completely dry up for the first time in modern times.


As the lake dried up, fisheries and the communities that depended on them collapsed. The increasingly salty water became polluted with fertilizer and pesticides. The blowing dust from the exposed lakebed, contaminated with agricultural chemicals, became a public health hazard. The salty dust blew off the lakebed and settled onto fields, degrading the soil. Croplands had to be flushed with larger and larger volumes of river water. The loss of the moderating influence of such a large body of water made winters colder and summers hotter and drier.


In a last-ditch effort to save some of the lake, Kazakhstan built a dam between the northern and southern parts of the Aral Sea. Completed in 2005, the dam was basically a death sentence for the southern Aral Sea, which was judged to be beyond saving. All of the water flowing into the desert basin from the Syr Darya now stays in the Northern Aral Sea. Between 2005 and 2006, the water levels in that part of the lake rebounded significantly and very small increases are visible throughout the rest of the time period. The differences in water color are due to changes in sediment.

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Russell R. Roberts, Jr.'s curator insight, Today, 12:45 AM

A sad and irreversible tale of human technology gone bad.  An attempt to irrigate semi-desert lands with water from the Aral Sea has turned into an ecological disaster for farmers, ranchers, and fisherman who once depended on this river-fed fresh water lake for their livelihoods.  A new dam built by Kazakhstan in 2005 will probably be able to save part of this vital lake, but areas bordering the southern extent of the lake are believed to be too polluted by pesticides and sediment to save.  A sad cautionary tale.  Aloha, Russ.

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Genetically manipulated yeast can produce morphine to avoid poppy crop problems like climate, disease and war

Genetically manipulated yeast can produce morphine to avoid poppy crop problems like climate, disease and war | Amazing Science | Scoop.it

Yeast. They already participate in producing some of the most popular pain-killing substances around: beer and wine. Now, scientists have engineered yeast that can also make one of the most powerful analgesics:morphine. Their work is in the journal Nature Chemical Biology. [Kate Thodey, Stephanie Galanie and Christina D. Smolke, A microbial biomanufacturing platform for natural and semisynthetic opioids] 


Opiates like morphine and codeine are essential for treating severe pain. But making these meds isn’t easy. All are derived from opium poppies, and tens to hundreds of thousands of tons are needed to meet global needs. The crops can also be affected by climate, disease and even political turmoil in the countries where the plants are grown, which further limits commercial production. To get around these potential challenges, researchers have turned to yeast, an organism that can be grown easily on industrial scales.

The scientists inserted into yeast cells a handful of genes isolated from the opium poppy. These genes encode the enzymes the plants use to produce opiates. After tweaking the system to adjust the relative amounts of the enzymes, the researchers could feed their yeast a precursor chemical called thebaine, and get pure morphine in return.

The yeast can’t yet make opiates from scratch. But with a bit more effort and a few more enzymes, yeast may produce painkillers that are prescription strength.

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Experiment makes Schrödinger's cat choose—things can be real, or certain, but not both

Experiment makes Schrödinger's cat choose—things can be real, or certain, but not both | Amazing Science | Scoop.it

Experimenting within quantum theory is an extremely complex process, where common intuitions are regularly inverted within shifting reality. Over the years several quantum features and methods of their study have been identified. Now scientists have investigated a new set of assumptions and proposed a novel experiment, to test the consequences of making quantum theory more intuitive.


"While quantum theory is the science behind almost all of our technology, its disconnect with our everyday intuitions is still worrisome and actively researched," says lead author Associate Professor Daniel Terno.


"How do you find your way in a reality which is shifting, where the opposites are allowed to coexist? Moreover, how do you conduct experiments in it? These are the questions that must be answered when dealing with the floating world of quantum mechanics."


Throughout the development of quantum theory, a set of reasonable ideas has led to strange paradoxes, such as the famous Schrodinger's cat, which is neither dead nor alive.


Using this wave-particle duality as their starting point, the research team investigated a new and more comprehensible set of assumptions:


  • Every object at any time is really a particle or a wave, but not both (objectivity)
  • If you know enough you can predict everything (determinism)
  • Speed of light is the ultimate limit (locality)

 

In taking these assumptions and applying them to an experiment, where the measuring device is controlled by a Schrodinger's cat-like state, the research team reached some perplexing paradoxes.


"Only after the cat was found to be dead or alive were we able to tell if what we did was to look for a particle or for a wave," says Associate Professor Terno. "Then these three innocent-looking ideas result in predictions that would contradict an experiment. The universe simply does not work like that: you can see things to be real, or certain, but not both."


Then the researchers tweaked their initial assumptions, replacing the third assumption with the requirement that how you set your detectors does not affect the system you study before they interact. This tweak lead to another strange result: it is not only that our quantum world is not like that, but such a combination cannot be realized in any universe.


"We can just repeat after Alice: things get stranger and stranger"

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'Invisibility cloak' uses lenses to bend light, effectively rendering things invisible to the eye

'Invisibility cloak' uses lenses to bend light, effectively rendering things invisible to the eye | Amazing Science | Scoop.it
A device called the Rochester Cloak uses an array of lenses to bend light, effectively rendering what is on the other side invisible to the eye. And you can try it for yourself.


One of the problems with the cloaking devices developed to date -- and it's a big one -- is that they really only work if both the viewer and whatever is being cloaked remain still. This, of course, is not entirely practical, but a difficult problem to solve.


For the first time, researchers have made a cloaking device that works multi-directionally in three dimensions -- using no specialized equipment, but four standard lenses.


"There've been many high tech approaches to cloaking and the basic idea behind these is to take light and have it pass around something as if it isn't there, often using high-tech or exotic materials," said professor of physics at Rochester University John Howell, who developed the Rochester Cloak with graduate student Joseph Choi.


"This is the first device that we know of that can do three-dimensional, continuously multidirectional cloaking, which works for transmitting rays in the visible spectrum," Choi added.


As well as at least partially solving the viewpoint problem, the Rochester cloak also leaves the background undisturbed, without any warping, as has appeared in other devices. This invisibility has a range of around 15 degrees; as you can see in the video below at around the two-minute mark when Choi places his hand in between the lenses, the dead centre of the field is not included.


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IBM opens a new era of computing with brain-like chip: 4096 cores, 1 million neurons, 5.4 billion transistors

IBM opens a new era of computing with brain-like chip: 4096 cores, 1 million neurons, 5.4 billion transistors | Amazing Science | Scoop.it

Scientists at IBM Research have created by far the most advanced neuromorphic (brain-like) computer chip to date. The chip, called TrueNorth, consists of 1 million programmable neurons and 256 million programmable synapses across 4096 individual neurosynaptic cores. Built on Samsung’s 28nm process and with a monstrous transistor count of 5.4 billion, this is one of the largest and most advanced computer chips ever made. Perhaps most importantly, though, TrueNorth is incredibly efficient: The chip consumes just 72 milliwatts at max load, which equates to around 400 billion synaptic operations per second per watt — or about 176,000 times more efficient than a modern CPU running the same brain-like workload, or 769 times more efficient than other state-of-the-art neuromorphic approaches. Yes, IBM is now a big step closer to building a brain on a chip.


The animal brain (which includes the human brain, of course), as you may have heard before, is by far the most efficient computer in the known universe. As you can see in the graph below, the human brain has a “clock speed” (neuron firing speed) measured in tens of hertz, and a total power consumption of around 20 watts. A modern silicon chip, despite having features that are almost on the same tiny scale as biological neurons and synapses, can consume thousands or millions times more energy to perform the same task as a human brain. As we move towards more advanced areas of computing, such as artificial general intelligence and big data analysis — areas that IBM just happens to be deeply involved with — it would really help if we had a silicon chip that was capable of brain-like efficiency.

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How Big The Internet Of Things Could Become

How Big The Internet Of Things Could Become | Amazing Science | Scoop.it

75 billion. That's the potential size of the Internet Things sector, which could become a multi-trillion dollar market by the end of the decade.


That's a very big number of devices that Morgan Stanley has extrapolated from a Cisco report that details how many devices will be connected to the Internet of Things by 2020. That's 9.4 devices for every one of the 8 billion people that's expected to be around in seven years.


To help put that into more perspective, back in Cisco also came out with the number of devices it thinks were connected to the Internet in 2012, a number Cisco's Rob Soderbery placed at 8.7 billion. Most of the devices at the time, he acknowledged were the PCs, laptops, tablets and phones in the world. But other types of devices will soon dominate the collection of the Internet of Things, such as sensors and actuators.


By the end of the decade, a nearly nine-fold increase in the volume of devices on the Internet of Things will mean a lot of infrastructure investment and market opportunities will available in this sector. And by "a lot," I mean ginourmous. In an interview with Barron's, Cisco CEO John Chambers figures that will translate to a $14-trillion industry.


Granted, Cisco has a lot of reasons to be bullish about the prospect of the Internet of Things: with product offerings in the router and switch space and a recent keen interest on building intelligent routing and application platforms right inside those devices, Cisco stands to gain a lot of business if it can get itself out in front of this newfangled Internet of Things.


It's not just Cisco talking up the Internet of Things: late last week, Morgan Stanley published a big 29-page research note on the topic that sought to at once define the Internet of Things and also quantify its size, growth and potential to make money.

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WHO: Ebola virus disease fact sheet

WHO: Ebola virus disease fact sheet | Amazing Science | Scoop.it
The Ebola virus causes an acute, serious illness which is often fatal if untreated. Ebola virus disease (EVD) first appeared in 1976 in 2 simultaneous outbreaks, one in Nzara, Sudan, and the other in Yambuku, Democratic Republic of Congo. The latter occurred in a village near the Ebola River, from which the disease takes its name.

The current outbreak in west Africa, (first cases notified in March 2014), is the largest and most complex Ebola outbreak since the Ebola virus was first discovered in 1976. There have been more cases and deaths in this outbreak than all others combined. It has also spread between countries starting in Guinea then spreading across land borders to Sierra Leone and Liberia, by air (1 traveller only) to Nigeria, and by land (1 traveller) to Senegal.

The most severely affected countries, Guinea, Sierra Leone and Liberia have very weak health systems, lacking human and infrastructural resources, having only recently emerged from long periods of conflict and instability. On August 8, the WHO Director-General declared this outbreak a Public Health Emergency of International Concern.

A separate, unrelated Ebola outbreak began in Boende, Equateur, an isolated part of the Democratic Republic of Congo.

The virus family Filoviridae includes 3 genera: Cuevavirus, Marburgvirus, and Ebolavirus. There are 5 species that have been identified: Zaire, Bundibugyo, Sudan, Reston and Taï Forest. The first 3, Bundibugyo ebolavirus, Zaire ebolavirus, and Sudan ebolavirus have been associated with large outbreaks in Africa. The virus causing the 2014 west African outbreak belongs to the Zaire species.


Key facts

  • Ebola virus disease (EVD), formerly known as Ebola haemorrhagic fever, is a severe, often fatal illness in humans.
  • The virus is transmitted to people from wild animals and spreads in the human population through human-to-human transmission.
  • The average EVD case fatality rate is around 50%. Case fatality rates have varied from 25% to 90% in past outbreaks.
  • The first EVD outbreaks occurred in remote villages in Central Africa, near tropical rainforests, but the most recent outbreak in west Africa has involved major urban as well as rural areas.
  • Community engagement is key to successfully controlling outbreaks. Good outbreak control relies on applying a package of interventions, namely case management, surveillance and contact tracing, a good laboratory service, safe burials and social mobilisation.
  • Early supportive care with rehydration, symptomatic treatment improves survival. There is as yet no licensed treatment proven to neutralise the virus but a range of blood, immunological and drug therapies are under development.
  • There are currently no licensed Ebola vaccines but 2 potential candidates are undergoing evaluation.


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New evidence of ancient multicellular life sets evolutionary timeline back 60 million years

New evidence of ancient multicellular life sets evolutionary timeline back 60 million years | Amazing Science | Scoop.it

A Virginia Tech geobiologist with collaborators from the Chinese Academy of Sciences have found evidence in the fossil record that complex multicellularity appeared in living things about 600 million years ago – nearly 60 million years before skeletal animals appeared during a huge growth spurt of new life on Earth known as the Cambrian Explosion.

The discovery published online Wednesday in the journal Nature contradicts several longstanding interpretations of multicellular fossils from at least 600 million years ago.


"This opens up a new door for us to shine some light on the timing and evolutionary steps that were taken by multicellular organisms that would eventually go on to dominate the Earth in a very visible way," said Shuhai Xiao, a professor of geobiology in the Virginia Tech College of Science. "Fossils similar to these have been interpreted as bacteria, single-cell eukaryotes, algae, and transitional forms related to modern animals such as sponges, sea anemones, or bilaterally symmetrical animals. This paper lets us put aside some of those interpretations."


In an effort to determine how, why, and when multicellularity arose from single-celled ancestors, Xiao and his collaborators looked at phosphorite rocks from the Doushantuo Formation in central Guizhou Province of South China, recovering three-dimensionally preserved multicellular fossils that showed signs of cell-to-cell adhesion, differentiation, and programmed cell death—qualities of complex multicellular eukaryotes such as animals and plants.


The discovery sheds light on how and when solo cells began to cooperate with other cells to make a single, cohesive life form. The complex multicellularity evident in the fossils is inconsistent with the simpler forms such as bacteria and single-celled life typically expected 600 million years ago.

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