Friday, December 24, 2010

Racial profiling behind traffic stop: B.C. judge

Racial profiling behind traffic stop: B.C. judge

http://www.cbc.ca/canada/british-columbia/story/2010/12/24/bc-racial-profiling.html

Last Updated: Friday, December 24, 2010 | 6:19 PM PT Comments31Recommend6

A B.C. judge says an RCMP officer who pulled over a man last year, uncovering 57 marijuana plants inside his car, only did so because the man was Asian.

Provincial court Judge Elizabeth Bayliff has excluded any evidence against Zai Chong Huang obtained during the 2009 traffic stop, saying it's "more probable than not" the man was the victim of racial profiling.

Huang was pulled over in 100 Mile House.

Const. Berze, who is identified in the decision only by his rank and surname, testified he pulled Huang over after he saw the car swerve twice on the highway and didn't realize the driver was Asian.

But Bayliff said she doesn't believe the officer, and instead said it's more likely Berze stopped Huang because he assumed, since the man is Asian, he must be involved in the marijuana trade.

Bayliff said both the traffic stop and the officer's questionable testimony amounted to a "serious breach" of Huang's rights, and allowing the evidence into court would harm the reputation of the justice system.

"In my view, the police conduct in question here was serious," Bayliff wrote in a decision posted to the court's website Friday.

"An inevitable consequence of my finding that the real motivation for this stop was that the officer had observed Huang's race is the finding that Const. Berze was being untruthful with the court. This is a serious matter in and of itself, quite apart from the error in reasoning represented by the act of 'racial profiling.'"

Bayliff's decision excludes all of the evidence uncovered during the traffic stop, including the 57 marijuana plants, a heavy-duty timer, fertilizer and 150 empty plant pots.

The judgment does not say whether the charges against Huang will proceed.



Read more: http://www.cbc.ca/canada/british-columbia/story/2010/12/24/bc-racial-profiling.html#ixzz19696laDG

Herbal medicines may be risky for kids

http://www.cbc.ca/health/story/2010/12/24/alternative-medicine-children-risk.html

Giving alternative treatments such as homeopathic remedies instead of conventional medicines to children may have deadly side-effects in rare instances, a new analysis says.

Australian researchers monitored reports from pediatricians in Australia from 2001 to 2003 looking for suspected side-effects from alternative medicines like herbal treatments, vitamin supplements or naturopathic pills. They found 39 reports of side-effects including four deaths.

The study was published online Thursday in the journal Archives of Disease in Childhood, a specialist publication of the medical journal BMJ.

Unlike conventional medicines, whose side-effects are tracked by national surveillance systems, there are no such systems in place for alternative therapies.

In the study, researchers found infants to children aged 16 were affected by complementary medicines and that in nearly 65 per cent of the cases, side-effects were classified as severe, life-threatening, or fatal. In 44 per cent of cases, pediatricians believed their patient had been harmed by a failure to use conventional medicines.

"We have known for a long time that alternative medicines can put patients at risk," said Edzard Ernst, a professor of complementary medicine at Peninsula Medical School in Exeter, England. He was not linked to the study.

"Perhaps the most serious harm occurs when effective therapies are replaced by ineffective alternative therapies," he said. "In that situation, even an intrinsically harmless medicine, like a homeopathic medicine, can be life-threatening," Ernst said.

All four deaths the researchers identified were caused by a decision to use alternative therapies instead of conventional medicines.

"Many of the adverse events associated with failure to use conventional medicine resulted from the family's belief in complementary and alternative medicine and determination to use it despite medical advice," Alissa Lim of the Royal Children's Hospital in Melbourne and colleagues wrote.

They described one case of a 10-month-old baby who had severe septic shock after being given naturopathic medicines and was assigned to a special diet to treat eczema. In another case, an infant who suffered multiple seizures and a heart attack died after being given alternative therapies — which the parents had chosen due to their concerns about the side-effects of regular medicines.

Ernst said people should recognize the limitations of alternative medicines and that practitioners should be careful not to oversell their benefits.



Read more: http://www.cbc.ca/health/story/2010/12/24/alternative-medicine-children-risk.html#ixzz19680fYYZ

Sunday, December 12, 2010

The decade's top ten new species

http://news.bbc.co.uk/earth/hi/earth_news/newsid_9269000/9269338.stm

As 2010 draws to a close, scientists have been looking back over the array of new species that have been discovered since the beginning of the century.

Some of the weirdest and most scientifically wonderful are featured in a BBC Documentary, Decade of Discovery.

The film-makers collaborated with Conservation International to make the documentary, which has whittled down nature's top ten revelations.

So here is a shortlist of many of the team's favourite new species, listed in reverse order according to how unique, special and surprising they are.

Big red jellyfish (Tiburonia granrojo)

Big red jellyfish (Image: MBARI)
The one-metre-wide jelly was found at a depth of 3,000m

More than 3,000m under the Pacific ocean, researchers from the Monterey Bay Aquarium Research Institute (MBARI) used cameras on a remotely operated vehicle to capture the hidden life at that depth.

Out of the darkness emerged a large, one-metre-wide red jellyfish.

Big red, as it has been dubbed, has no tentacles, making it unlike most jellies. Instead, it uses its fleshy arms to capture food. The scientists still do not know what it eats. They say it is a great example of how little we know of the deep sea.

Chan's megastick (Phobaeticus chani)

This is, as its name implies, a huge stick insect.

Largest stick insect in the wordl, Chan's megastick
The largest specimen of Chan's megastick is in London's Natural History Museum

It was found near Gunung Kinabalu Park, Sabah, in the Heart of Borneo and measures more than half a metre in length - the longest insect on the planet.

The largest and one of only a handful of known specimens in the world is held at the Natural History museum in London.

Despite is enormous size virtually nothing is known about it. Scientists believe it lives high up in the rainforest canopy, which has made it hard to find and kept it a secret until now.

Grey-faced sengi (Rhyncocyon udzungwensis)

This sengi or elephant shrew was first discovered in 2006 in Uzungwa National Park, Tanzania. Italian scientist, Francesco Rovero, from the Trento Museum of Natural Sciences caught the tiny mammal on a camera trap.

New species of sengi discovered in Tanzania (Image: Francesco Rovero)
Elephant shrews share a common ancestor with elephants

The grey-faced sengi is much bigger than any other - roughly the size of a rabbit. It weighs about 700g and has a long, flexible nose which resembles an elephant's trunk.

Strangely, elephant shrews are not related to shrews but they do share a common ancestor with elephants.

Bamboo shark (Hemiscyllium galei)

The bamboo shark, also known as the walking shark, was found in 2006 in Cenderawasih Bay in West Papua, Indonesia.

This area of coral reef habitat has such a high level of biodiversity that some researchers call it a "species factory".

Walking shark discovered in Indonesia (Image: Gerry Allen/ Conservation International)
The shark can swim but usually uses its pectoral fins to walk along the reef

Mark Erdmann from Conservation International was the first scientist to lay eyes on this new shark species in 2006.

Although it can swim if it needs to, it usually uses its pectoral fins to walk along the reef and feed amongst the coral.

Scientists raised funds for marine conservation by auctioning the naming rights to the new shark.

Giant slipper orchid (Phragmipedium Kovachii)

This large flamboyant purple flower caused something of a sensation when it was discovered.

It was found in 2001 being sold at the side of the road in the Peruvian Highlands by an orchid hunter and dealer, who illegally imported it to the US.

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Giant orchid among the decade's top ten new species

He was duly prosecuted, but the orchid still bears his name. A few legal specimens are now in the hands of a select group of orchid breeders.

With its huge flowers - up to 20cm across - it originates in the Andes mountains of Peru.

Kipunji (Rungwecebus kipunji)

This is the first new genus (or group of monkey species) to be discovered since the 1920s.

It was tracked down in 2003 by Tim Davenport, a biologist from the Wildlife Conservation Society, who was working in the Mount Rungwe region of Tanzania.

He was interviewing local people about the animals they hunted and knew about in the forest. A few mentioned a "kipunji", a large monkey which sounded unlike anything else.

When Dr Davenport saw it he knew it was a new species, but later DNA analysis showed that it was actually an entirely new genus.

There were just 1,117 Kipunji in the wild at the last count, making them critically endangered.

Pitcher plant (Nepenthes palawanensis)

New species of pitcher plant discovered in the Philippines (Image: Stewart McPherson)
The large pitcher's slippery sides trap its prey

This giant plant was discovered just this year by botanist Stewart Macpherson who has made it his mission to find and photograph every species of these carnivorous plants around the world.

He found it at the very top of a mountain called Sultan's Peak, on the island of Palawan in the Philippines.

Pitcher plants are named after their highly-specialised leaves that form hollow, water-filled "pitchers".

Insects, such as flies, are attracted by nectar in the pitcher, but its sides are slippery so when prey falls in it cannot climb out.

Langkawi bent-toed gecko (Cyrtodactylus macrotuberculatus)

This extraordinary gecko was first discovered in 2008 on an island off North-western Malaysia by Dr Lee Grismer and his team.

It uses its amazing eyesight and grip to catch its forest-dwelling prey at night.

But what made it a discovery of the decade was that this forest gecko has also recently been found in a limestone cave.

Two new species of gecko discovered in Malaysia (Image: Giles Badger)
The forest-dwelling and cave-dwelling geckos show evolution at work

The cave gecko looks similar to those living in the forest but has some remarkable visible differences.

Dr Grismer believes this could be evolution in the making - a gecko that has evolved to live in a cave.

The lizards may have moved into the caves to avoid predators - specifically pit vipers that live in the forest.

Pygmy three-toed sloth (Bradypus pygmaeus)

This species, discovered on the island on Escudo de Veraguas off the Carribean coast, shows how quickly the process of evolution can happen.

Pygmy sloth
The pygmy sloth, number one on the list, has a surprising talent

The pygmy sloth has been isolated on its tiny island habitat for just 9,000 years - when rising sea levels cut the island off from the mainland.

The sloths are slower and more placid than their mainland relatives and, remarkably, they can swim.

They seem suitably adapted to their Caribbean island lifestyle.

Pygmy sloths are less than half the size of a normal sloth and they only eat mangrove leaves - a low-nutirent diet that explains their diminutive stature.

There are just 200 of them on the island so every mangrove tree counts for these vulnerable creatures.

Decade of Discovery, a collaboration between Conservation International and the BBC's Natural History Unit, will be broadcast at 20.00BST on Tuesday 14 December on BBC Two.

Thursday, December 9, 2010

B.C. forests adding to air pollution: report

http://www.cbc.ca/canada/british-columbia/story/2010/12/09/bc-forests-carbon-dioxide-report.html

Reputation as a carbon sink no longer applies

Last Updated: Thursday, December 9, 2010 | 7:33 PM PT Comments2Recommend3

The pine beetle has turned one-quarter of B.C.'s pine forests brown, and that's hurt their ability to soak up carbon dioxide. The pine beetle has turned one-quarter of B.C.'s pine forests brown, and that's hurt their ability to soak up carbon dioxide. (CBC)

British Columbia's forests, often hailed as a giant sponge soaking up harmful air pollution, have become a net producer of carbon dioxide, a government reports says.

The report indicates the mountain pine beetle, which has killed millions of trees, and massive forest fires in recent years have transformed the forests from a carbon sink into a polluter.

The State of the Forests Report says the pine beetle epidemic appears to have peaked, but it will still take another decade before B.C. forests return to their carbon-sink status.

Forests Minister Pat Bell said the report shows government policies are supporting a sustainable forest industry.

But the B.C. Government and Service Employees Union doesn't share that view, saying the report shows budget cuts and reorganization in the Forests Ministry have severely eroded the government's ability to manage the forests.

Union president Darryl Walker is calling for a public inquiry to make recommendations to revitalize the forestry sector and restore public accountability



Read more: http://www.cbc.ca/canada/british-columbia/story/2010/12/09/bc-forests-carbon-dioxide-report.html#ixzz17gH071n6

Tuesday, December 7, 2010

Study reveals how taking an active role in learning enhances memory

Study reveals how taking an active role in learning enhances memory

http://www.physorg.com/news/2010-12-reveals-role-memory.html
December 6, 2010 Study reveals how taking an active role in learning enhances memory

Enlarge

A new study from psychology professor Neal Cohen (in blue shirt) and postdoctoral researcher Joel Voss found that those who have some control over their learning environment do better at remembering what they learned than those who don't. The study offers a first look at the brain mechanisms that contribute to this phenomenon. Credit: Photos by L. Brian Stauffer. Montage by Joel Voss.

Good news for control freaks! New research confirms that having some authority over how one takes in new information significantly enhances one's ability to remember it. The study, in the journal Nature Neuroscience, also offers a first look at the network of brain structures that contribute to this phenomenon.

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"Having active control over a learning situation is very powerful and we're beginning to understand why," said University of Illinois psychology professor Neal Cohen, who led the study with postdoctoral researcher Joel Voss. "Whole swaths of the not only turn on, but also get functionally connected when you're actively exploring the world."

The study focused on activity in several brain regions, including the hippocampus, located in the brain's medial temporal lobes, near the ears. Researchers have known for decades that the hippocampus is vital to memory, in part because those who lose hippocampal function as a result of illness or injury also lose their ability to fully form and retain new memories.

But the hippocampus doesn't act alone. Robust tie it to other important brain structures, and traffic on these data highways flows in both directions. (fMRI) studies, which track blood flow in the brain, show that the hippocampus is functionally connected to several brain networks – distinct regions of the brain that work in tandem to accomplish critical tasks.

To better understand how these brain regions influence active versus passive learning, Voss designed an experiment that required participants to memorize an array of objects and their exact locations in a grid on a computer monitor. A gray screen with a window in it revealed only one object at a time. The "active" study subjects used a computer mouse to guide the window to view the objects.

"They could inspect whatever they wanted, however they wanted, in whatever order for however much time they wanted, and they were just told to memorize everything on the screen," Voss said. The "passive" learners viewed a replay of the window movements recorded in a previous trial by an active subject.

Then participants were asked to select the items they had seen and place them in their correct positions on the screen. After a trial, the active and passive subjects switched roles and repeated the task with a new array of objects.

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Study reveals how taking an active role in learning enhances memory
Enlarge

The new study showed that activity and interactivity increases between important brain regions in individuals who have more control over their learning environment, as compared to those who are passively absorbing information. The researchers found that the hippocampus is essential to the boost in performance that results from this heightened activity. Credit: Joel Voss

The study found significant differences in brain activity in the active and passive learners.
Those who had active control over the viewing window were significantly better than their peers at identifying the original objects and their locations, the researchers found. Further experiments, in which the passive subjects used a mouse that moved but did not control the viewing window, established that this effect was independent of the act of moving the mouse.

To identify the brain mechanisms that enhanced learning in the active subjects, the researchers repeated the trials, this time testing individuals who had amnesia – a disease characterized by impairment in learning new information – as a result of hippocampal damage. To the surprise of the researchers, these participants failed to benefit from actively controlling the viewing window.

"These data suggest that the hippocampus has a role not just in the formation of new memory but possibly also in the beneficial effects of volitional control on memory," the researchers wrote.

Brain imaging (by means of fMRI) of healthy young subjects engaged in the same active and passive learning tests revealed that hippocampal activity was highest in the active subjects' brains during these tests. Several other brain structures were also more engaged when the subject controlled the viewing window, and activity in these brain regions was more synchronized with that of the hippocampus than in the passive trials.

Study reveals how taking an active role in learning enhances memory
Enlarge

The hippocampus plays a vital role in enhancing memory in those who are actively engaged in learning something new. It coordinates with other brain structures to accomplish different tasks, such as recognizing an object one has seen before or remembering its original location. Credit: Graphic by Diana Yates. Brain by Andrew Giglio.

Activity in the dorsolateral prefrontal cortex, the cerebellum and the hippocampus (see cartoon) was higher, and more highly coordinated, in participants who did well on spatial recall, the researchers found. Increased activity in the inferior parietal lobe, the parahippocampal cortex and the hippocampus (see cartoon) corresponded to better performance on item recognition.

"Lo and behold," Cohen said, "our friend the hippocampus makes a very conspicuous appearance in active learning."

The new findings challenge previous ideas about the role of the hippocampus in learning, Voss said. It is a surprise, he said, that other that are known to be involved in planning and strategizing, for instance, "can't do very much unless they can interact with the hippocampus."

Rather than being a passive player in learning, the "is more like an integral part of an airplane guidance system," Voss said. "You have all this velocity information, you have a destination target and every millisecond it's taking in information about where you're headed, comparing it to where you need to go, and correcting and updating it."

More information: http://www.nature. … nn.2693.html

Provided by University of Illinois at Urbana-Champaign (news : web)

Friday, December 3, 2010

Chinese train sets speed record, says state media

Chinese train sets speed record, says state media

http://www.cnn.com/2010/WORLD/asiapcf/12/03/china.high.speed.train/index.html?hpt=T2

By the CNN Wire Staff
December 3, 2010 9:05 p.m. EST
Click to play
China's record-setting train
STORY HIGHLIGHTS
  • The unmodified commercial train hits 481.1 kph (nearly 300 mph), state media says
  • That tops the previous record by 64.5 kph
RELATED TOPICS
  • China

(CNN) -- A Chinese high-speed train broke a world record Friday for fastest unmodified commercial train, reaching speeds of up to 481.1 kph (298.9 mph), state media reported.

According to China's official Xinhua news agency, the new-generation CRH380 moved as fast as a low-cruising jet-plane during a trial run on what will become the country's rail line between Beijing and Shanghai.

The previous world record was set by China in September, when a train on a Shanghai-Hangzhou high-speed line hit a speed of 416.6 kilometers per hour, Xinhua said.

Thursday, December 2, 2010

NASA-Funded Research Discovers Life Built With Toxic Chemical

NASA-Funded Research Discovers Life Built With Toxic Chemical
12.02.10

http://www.nasa.gov/topics/universe/features/astrobiology_toxic_chemical.html
Image of Mono Lake Research area Image of Mono Lake Research area
Click photo for larger image.

Felisa Wolfe-Simon processing mud from Mono Lake to inoculate media to grow microbes on arsenic Felisa Wolfe-Simon processing mud from Mono Lake to inoculate media to grow microbes on arsenic.
Image Credit: Henry Bortman
Click photo for larger image.

GFAJ-1 grown on arsenic Image of GFAJ-1 grown on arsenic.
Image Credit: Jodi Switzer Blum
Click photo for larger image.

GFAJ-1 grown on phosphorus Image of GFAJ-1 grown on phosphorus.
Image Credit: Jodi Switzer Blum
Click photo for larger image.

NASA-funded astrobiology research has changed the fundamental knowledge about what comprises all known life on Earth.

Researchers conducting tests in the harsh environment of Mono Lake in California have discovered the first known microorganism on Earth able to thrive and reproduce using the toxic chemical arsenic. The microorganism substitutes arsenic for phosphorus in its cell components.

"The definition of life has just expanded," said Ed Weiler, NASA's associate administrator for the Science Mission Directorate at the agency's Headquarters in Washington. "As we pursue our efforts to seek signs of life in the solar system, we have to think more broadly, more diversely and consider life as we do not know it."

This finding of an alternative biochemistry makeup will alter biology textbooks and expand the scope of the search for life beyond Earth. The research is published in this week's edition of Science Express.

Carbon, hydrogen, nitrogen, oxygen, phosphorus and sulfur are the six basic building blocks of all known forms of life on Earth. Phosphorus is part of the chemical backbone of DNA and RNA, the structures that carry genetic instructions for life, and is considered an essential element for all living cells.

Phosphorus is a central component of the energy-carrying molecule in all cells (adenosine triphosphate) and also the phospholipids that form all cell membranes. Arsenic, which is chemically similar to phosphorus, is poisonous for most life on Earth. Arsenic disrupts metabolic pathways because chemically it behaves similarly to phosphate.

"We know that some microbes can breathe arsenic, but what we've found is a microbe doing something new -- building parts of itself out of arsenic," said Felisa Wolfe-Simon, a NASA Astrobiology Research Fellow in residence at the U.S. Geological Survey in Menlo Park, Calif., and the research team's lead scientist. "If something here on Earth can do something so unexpected, what else can life do that we haven't seen yet?"

The newly discovered microbe, strain GFAJ-1, is a member of a common group of bacteria, the Gammaproteobacteria. In the laboratory, the researchers successfully grew microbes from the lake on a diet that was very lean on phosphorus, but included generous helpings of arsenic. When researchers removed the phosphorus and replaced it with arsenic the microbes continued to grow. Subsequent analyses indicated that the arsenic was being used to produce the building blocks of new GFAJ-1 cells.

The key issue the researchers investigated was when the microbe was grown on arsenic did the arsenic actually became incorporated into the organisms' vital biochemical machinery, such as DNA, proteins and the cell membranes. A variety of sophisticated laboratory techniques was used to determine where the arsenic was incorporated.

The team chose to explore Mono Lake because of its unusual chemistry, especially its high salinity, high alkalinity, and high levels of arsenic. This chemistry is in part a result of Mono Lake's isolation from its sources of fresh water for 50 years.

The results of this study will inform ongoing research in many areas, including the study of Earth's evolution, organic chemistry, biogeochemical cycles, disease mitigation and Earth system research. These findings also will open up new frontiers in microbiology and other areas of research.

"The idea of alternative biochemistries for life is common in science fiction," said Carl Pilcher, director of the NASA Astrobiology Institute at the agency's Ames Research Center in Moffett Field, Calif. "Until now a life form using arsenic as a building block was only theoretical, but now we know such life exists in Mono Lake."

The research team included scientists from the U.S. Geological Survey, Arizona State University in Tempe, Ariz., Lawrence Livermore National Laboratory in Livermore, Calif., Duquesne University in Pittsburgh, Penn., and the Stanford Synchroton Radiation Lightsource in Menlo Park, Calif.

NASA's Astrobiology Program in Washington contributed funding for the research through its Exobiology and Evolutionary Biology program and the NASA Astrobiology Institute. NASA's Astrobiology Program supports research into the origin, evolution, distribution, and future of life on Earth.

For more information about the finding and a complete list of researchers, visit:

http://astrobiology.nasa.gov