Giant plumes of methane bubbling to surface of Arctic Ocean2011 12 17
From: UpdatedNews.ca
Russian scientists have discovered hundreds of plumes of methane gas, some 1,000 meters in diameter, bubbling to the surface of the Arctic Ocean. Scientists are concerned that as the Arctic Shelf recedes, the unprecedented levels of gas released could greatly accelerate global climate change.
Igor Semiletov of the Russian Academy of Sciences tells the UK’s Independent that the plumes of methane, a gas 20 times as harmful as carbon dioxide, have shocked scientists who have been studying the region for decades. “Earlier we found torch-like structures like this but they were only tens of meters in diameter,” he said. “This is the first time that we’ve found continuous, powerful and impressive seeping structures, more than 1,000 metres in diameter. It’s amazing.”
Semiletov said that while his research team has discovered more than 100 plumes, they estimate there to be “thousands” over the wider area, extending from the Russian mainland to the East Siberian Arctic Shelf.
“In a very small area, less than 10,000 square miles, we have counted more than 100 fountains, or torch-like structures, bubbling through the water column and injected directly into the atmosphere from the seabed,”
Semiletov said.
“We carried out checks at about 115 stationary points and discovered methane fields of a fantastic scale — I think on a scale not seen before. Some plumes were a kilometer or more wide and the emissions went directly into the atmosphere — the concentration was a hundred times higher than normal.”
Article from: updatednews.ca
Monday, December 19, 2011
Friday, December 16, 2011
Arctic Region Is Permanently Warmer
Scientists see pervasive and permanent changes in the last five years
Web edition : Friday, December 2nd, 2011
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UNFROZEN NORTHMelt ponds form on the frozen surface of the Chukchi Sea northwest of Alaska in July 2010. These ponds can increase light transmission up to tenfold compared with bare ice, new data show.K. Frey, Clark Univ.
Sufficient observational data now exist “to indicate a shift in the Arctic Ocean system since 2006,” says Jacqueline Richter-Menge of the U.S. Army’s Cold Regions Research and Engineering Laboratory in Hanover, N.H., a coeditor of the new analysis. “This shift is characterized by the persistent decline in the thickness and summer extent of sea-ice cover and by a warmer, less salty upper ocean.”
Triggering that turning point, Richter-Menge says, were unusually warm Arctic temperatures in 2006 together with a persistent weather pattern that pushed ice across the Arctic and into the North Atlantic through the Fram Strait east of Greenland: “We like to call it the perfect storm of the Arctic.”
Once extreme events foster the loss of old, multi-year ice, “we seldom go back to where we were before,” says James Overland of the National Oceanic and Atmospheric Administration’s Pacific Marine Environmental Laboratory in Seattle.
“We’ve got a new normal,” concludes Don Perovich of CRREL.
Sea-ice loss in 2011 was the second most severe in the 32-year satellite record of Arctic monitoring. “The past five years have had the five smallest September ice extents,” Perovich says, “showing that Arctic sea ice has not recovered from the large decrease observed in 2007.”
Regional warming and melting of land ice cover have also continued at a record pace, the new report finds. For instance, satellite data show that the loss of ice from Greenland during 2010 to 2011 was the largest since monitoring began in 2002. In the Canadian Arctic, the duration of 2011 lake-ice cover was shorter by four to five weeks compared to what had been the average between 1997 and 2010.
For a decade, monitoring systems have detected continuous warming at Arctic sites near the coast, accompanied by a greening of the landscape as reduced snow cover has allowed small shrubs to grow bigger and seeds of trees and other plants to germinate in formerly frozen soils.
This year, new record highs were witnessed at 20 meters depth at every permafrost observatory on the North Slope of Alaska, where measurements began more than three decades ago. The most recent data suggest this warming “has begun to propagate south towards the northern foothills of the Brooks Range, where a noticeable warming in the upper 20 meters of permafrost has become evident since 2008,” the report says.
The wholesale melting has substantially darkened the sea and landscape, making both better absorbers of solar energy and accelerating the region’s warming.
“In an environment that is inherently icy, you have to ask yourself: Once it begins to melt and we get these feedbacks, like the darkening, how would it be possible to actually recover?” says Richter-Menge. “It’s hard to come up with a scenario where that would happen.”
Some regional darkening has nothing to do with melting, says Jason Box of Ohio State University in Columbus. Albedo is the reflectivity of a surface, which is ordinarily highest on ice and new snow. He points out “that we’re seeing a significant albedo reduction over the upper elevations of Greenland, where there is rarely melting.” He attributes it to a change in the shape — the rounding — of ice crystals in response to warmth.
And although Greenland’s ice sheets used to get new blankets of snow year-round, Box reports “there’s been little summertime snowfall over the ice sheets since about 2006.”
With the Arctic a potent driver of climate across the globe, change at the top of the world will have repercussions elsewhere. Altered wind patterns appear to be one of the earliest symptoms, Richter-Menge says.
Over the past several winters, she notes, “we’ve seen where the cold Arctic air isn’t staying in the Arctic any more, but breaking out to head south” into temperate regions. Meanwhile, the more southerly air it’s displacing has been drawn northward, leading to unusually warm Arctic winters.
The report’s big take-home message, she says: “These changes represent a persistent condition” — with consequences far beyond the Arctic.
Sleep Affects Mental Illness and Fights Stress
During REM Sleep Stress Chemicals Shut Down And The Brain Processes Emotional Experiences
Article Date: 27 Nov 2011 - 0:00 PST
They say time heals all wounds, and new research from the University of California, Berkeley, indicates that time spent in dream sleep can help.
UC Berkeley researchers have found that during the dream phase of sleep, also known as REM sleep, our stress chemistry shuts down and the brain processes emotional experiences and takes the painful edge off difficult memories.
The findings offer a compelling explanation for why people with post-traumatic stress disorder (PTSD), such as war veterans, have a hard time recovering from painful experiences and suffer reoccurring nightmares.They also offer clues into why we dream.
"The dream stage of sleep, based on its unique neurochemical composition, provides us with a form of overnight therapy, a soothing balm that removes the sharp edges from the prior day's emotional experiences," said Matthew Walker, associate professor of psychology and neuroscience at UC Berkeley and senior author of the study published in the journal Current Biology.
For people with PTSD, Walker said, this overnight therapy may not be working effectively, so when a "flashback is triggered by, say, a car backfiring, they relive the whole visceral experience once again because the emotion has not been properly stripped away from the memory during sleep."
The results offer some of the first insights into the emotional function of Rapid Eye Movement (REM) sleep, which typically takes up 20 percent of a healthy human's sleeping hours. Previous brain studies indicate that sleep patterns are disrupted in people with mood disorders such as PTSD and depression.
While humans spend one-third of their lives sleeping, there is no scientific consensus on the function of sleep. However, Walker and his research team have unlocked many of these mysteries linking sleep to learning, memory and mood regulation. The latest study shows the importance of the REM dream state.
"During REM sleep, memories are being reactivated, put in perspective and connected and integrated, but in a state where stress neurochemicals are beneficially suppressed," said Els van der Helm, a doctoral student in psychology at UC Berkeley and lead author of the study.
Thirty-five healthy young adults participated in the study. They were divided into two groups, each of whose members viewed 150 emotional images, twice and 12 hours apart, while an MRI scanner measured their brain activity.
Half of the participants viewed the images in the morning and again in the evening, staying awake between the two viewings. The remaining half viewed the images in the evening and again the next morning after a full night of sleep.
Those who slept in between image viewings reported a significant decrease in their emotional reaction to the images. In addition, MRI scans showed a dramatic reduction in reactivity in the amygdala, a part of the brain that processes emotions, allowing the brain's "rational" prefrontal cortex to regain control of the participants' emotional reactions.
In addition, the researchers recorded the electrical brain activity of the participants while they slept, using electroencephalograms. They found that during REM dream sleep, certain electrical activity patterns decreased, showing that reduced levels of stress neurochemicals in the brain soothed emotional reactions to the previous day's experiences.
"We know that during REM sleep there is a sharp decrease in levels of norepinephrine, a brain chemical associated with stress," Walker said. "By reprocessing previous emotional experiences in this neuro-chemically safe environment of low norepinephrine during REM sleep, we wake up the next day, and those experiences have been softened in their emotional strength. We feel better about them, we feel we can cope."
Walker said he was tipped off to the possible beneficial effects of REM sleep on PTSD patients when a physician at a U.S. Department of Veterans Affairs hospital in the Seattle area told him of a blood pressure drug that was inadvertently preventing reoccurring nightmares in PTSD patients.
It turns out that the generic blood pressure drug had a side effect of suppressing norepinephrine in the brain, thereby creating a more stress-free brain during REM, reducing nightmares and promoting a better quality of sleep. This suggested a link between PTSD and REM sleep, Walker said.
"This study can help explain the mysteries of why these medications help some PTSD patients and their symptoms as well as their sleep," Walker said. "It may also unlock new treatment avenues regarding sleep and mental illness."
UC Berkeley researchers have found that during the dream phase of sleep, also known as REM sleep, our stress chemistry shuts down and the brain processes emotional experiences and takes the painful edge off difficult memories.
The findings offer a compelling explanation for why people with post-traumatic stress disorder (PTSD), such as war veterans, have a hard time recovering from painful experiences and suffer reoccurring nightmares.They also offer clues into why we dream.
"The dream stage of sleep, based on its unique neurochemical composition, provides us with a form of overnight therapy, a soothing balm that removes the sharp edges from the prior day's emotional experiences," said Matthew Walker, associate professor of psychology and neuroscience at UC Berkeley and senior author of the study published in the journal Current Biology.
For people with PTSD, Walker said, this overnight therapy may not be working effectively, so when a "flashback is triggered by, say, a car backfiring, they relive the whole visceral experience once again because the emotion has not been properly stripped away from the memory during sleep."
The results offer some of the first insights into the emotional function of Rapid Eye Movement (REM) sleep, which typically takes up 20 percent of a healthy human's sleeping hours. Previous brain studies indicate that sleep patterns are disrupted in people with mood disorders such as PTSD and depression.
While humans spend one-third of their lives sleeping, there is no scientific consensus on the function of sleep. However, Walker and his research team have unlocked many of these mysteries linking sleep to learning, memory and mood regulation. The latest study shows the importance of the REM dream state.
"During REM sleep, memories are being reactivated, put in perspective and connected and integrated, but in a state where stress neurochemicals are beneficially suppressed," said Els van der Helm, a doctoral student in psychology at UC Berkeley and lead author of the study.
Thirty-five healthy young adults participated in the study. They were divided into two groups, each of whose members viewed 150 emotional images, twice and 12 hours apart, while an MRI scanner measured their brain activity.
Half of the participants viewed the images in the morning and again in the evening, staying awake between the two viewings. The remaining half viewed the images in the evening and again the next morning after a full night of sleep.
Those who slept in between image viewings reported a significant decrease in their emotional reaction to the images. In addition, MRI scans showed a dramatic reduction in reactivity in the amygdala, a part of the brain that processes emotions, allowing the brain's "rational" prefrontal cortex to regain control of the participants' emotional reactions.
In addition, the researchers recorded the electrical brain activity of the participants while they slept, using electroencephalograms. They found that during REM dream sleep, certain electrical activity patterns decreased, showing that reduced levels of stress neurochemicals in the brain soothed emotional reactions to the previous day's experiences.
"We know that during REM sleep there is a sharp decrease in levels of norepinephrine, a brain chemical associated with stress," Walker said. "By reprocessing previous emotional experiences in this neuro-chemically safe environment of low norepinephrine during REM sleep, we wake up the next day, and those experiences have been softened in their emotional strength. We feel better about them, we feel we can cope."
Walker said he was tipped off to the possible beneficial effects of REM sleep on PTSD patients when a physician at a U.S. Department of Veterans Affairs hospital in the Seattle area told him of a blood pressure drug that was inadvertently preventing reoccurring nightmares in PTSD patients.
It turns out that the generic blood pressure drug had a side effect of suppressing norepinephrine in the brain, thereby creating a more stress-free brain during REM, reducing nightmares and promoting a better quality of sleep. This suggested a link between PTSD and REM sleep, Walker said.
"This study can help explain the mysteries of why these medications help some PTSD patients and their symptoms as well as their sleep," Walker said. "It may also unlock new treatment avenues regarding sleep and mental illness."
Nice People Finish Last
Nice Guys Earn Less Money
Big Think Editors on December 4, 2011, 6:06 PM
What's the Latest Development?
A new study shows that 'agreeableness' correlates negatively with how much money men earn. According to Notre Dame researchers, 'agreeableness' is a combination of trust, straightforwardness, compliance, altruism, modesty and tender-mindedness. Men who were found less agreeable were not sociopaths or maniacs but they were willing to aggressively advocate for their position during conflicts. The difference in pay was stunning: agreeable men earned an average of $7,000 less than their bristly peers.
What's the Big Idea?
Why do we allow nice guys to finish last? What is it about aggressive personalities that we find worthy of financial reward? "Although agreeable people are less likely to get fired, and are just as likely to supervise others, they appear far less effective at negotiating pay increases, thus suggesting that the main financial benefit of disagreeableness is a willingness to stubbornly fight for what’s wanted, even if it makes others uncomfortable." When it comes to romance, however, studies show kindness is the most important trait.
Angel of Clarity for December
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Clear your perceptions free of confusion.
Focus on intent and straightforward expression. See the world as it is without your projections, judgments and assumptions.
Clarity is a process not a singular event and once reached tends to mark progress not arrival. The love of truth clears the attachments that result in mis-conceptions and false conclusions and makes it possible to align with our essential presence. As we learn to attune ourselves to our true nature, it informs our consciousness of the right attitudes, directions, and actions - free of assumptions and judgments.
So what do we do to encourage clarity to emerge? We engage in dynamic exploration into ourselves; asking, what is the source of my being? Why am I acting this way or that way? What do I need to heal? Through self-inquiry, we invite our inner being to disclose its richness and mysteries and reveal its possibilities.
The world as we perceive it is made up of our thoughts, images, emotions, and impressions. They are important only as points of orientation, not as conclusive evidence of reality. We need to be willing to allow our dreams, our current self-images, our very identities to completely change in kind and quality.
Clear the confusion and preconception that covers your deepest and most cherished inner sensations and be completely yourself.
May the Angel of Clarity animate your inner being and bring new and fresh ways of viewing yourself and the world throughout the coming month.
Thursday, December 1, 2011
Fukushima Nightmare Continues And Is In Early Stages Of China Syndrom
Fukushima ‘China syndrome,’ hydrovolcanic explosion possible
November 30, 2011 by Editor
The molten core of several Fukushima Daiichi reactors is sinking through the Earth’s crust and appears to be in early stages of a “China Syndrome,” according to Uehara Haruo, architect of Fukushima Daiichi’s Reactor No. 3 and former president of Saga University, Fukushima Diary reports.
If fuel has reached an underground water vein, it will cause contamination of underground water, soil, and sea, he said. “Moreover, if the underground water vein keeps being heated for long time, a massive hydrovolcanic explosion will be caused.”
Renewable Energy Technology Is Becoming Increasingly Cost Competitive
Renewable Energy Becoming Cost Competitive, IEA Says
Posted 11/23/2011 9:41 AM by Henning Gloystein from International Business Times in Investing, Commodities
(REUTERS) -- Renewable energy technology is becoming increasingly cost competitive and growth rates are in line to meet levels required of a sustainable energy future, the International Energy Agency (IEA) said in a report on Wednesday.
The report also said subsidies in green energy technologies that were not yet competitive are justified in order to give an incentive to investing into technologies with clear environmental and energy security benefits.
The renewable electricity sector has grown rapidly in the past five years and now provides nearly 20 percent of the world's power generation, the IEA said during the presentation of the report titled Deploying Renewables 2011.
The IEA's report disagreed with claims that renewable energy technologies are only viable through costly subsidies and not able to produce energy reliably to meet demand.
"A portfolio of renewable energy ( RE ) technologies is becoming cost-competitive in an increasingly broad range of circumstances, in some cases providing investment opportunities without the need for specific economic support," the IEA said, and added that "cost reductions in critical technologies, such as wind and solar, are set to continue."
"The portfolio of RE technologies, which includes established hydro power, geothermal and bioenergy technologies is now, therefore, cost-competitive in an increasingly broad range of circumstances, providing investment opportunities without the need for specific economic support."
But the IEA also defended subsidies in renewable energy technology as a necessary means to create a clean and independent energy supply system.
In the past, the IEA has been criticized by environmental groups for underplaying the role of renewable energy technologies in favor of nuclear and fossil-fuels.
"Where technologies are not yet competitive, economic support for a limited amount of time may be justified by the need to attach a price signal to the environmental and energy security benefits of RE deployment," the report said.
The majority of renewable energy growth is taking place in OECD countries and in major emerging markets like China, India and Brazil .
The report said "the OECD was the only region where the deployment of less mature technologies (such as solar PV, offshore wind) reached a significant scale, with capacities in the order of GWs."
Most OECD countries have large-scale subsidies in place in order to develop renewable energy technologies.
RAPID GROWTH
The IEA the renewable energy sector had grown by nearly 18 percent between 2005 and 2009, and this growth was evidence it could deliver the intended policy benefits of improved energy security, greenhouse gas reductions and other environmental benefits, as well as economic development opportunities.
"Each of the sectors has been growing strongly, at rates broadly in line with those required to meet the levels required in IEA projections of a sustainable energy future."
Of all renewable energy technologies, the report said hydro power remained the major source of renewable electricity, at 84 percent of renewable generation, which corresponded to about 16 percent of total generation in 2009.
Other renewable electricity technologies have grown by nearly 74 percent between 2005 and 2009, it said.
"Wind has grown most rapidly in absolute terms and has overtaken bioenergy. Solar has grown at a growth rate of 50.2 percent (CAGR), and installed capacity reached about 40 gigawatt ( GW ) by the end of 2010," the report said.
(Editing by James Jukwey )
The views and opinions expressed herein are the views and opinions of the author and do not necessarily reflect those of The NASDAQ OMX Group, Inc.
Harnessing Renewable Geothermal Energy Could Cause Quakes
Geothermal Energy’s Promise and Problems
Google-funded research shows U.S. potential is huge, but extraction could cause quakes
By DAVE LEVITAN / DECEMBER 2011
Image: SMU Geothermal Lab
8 November 2011—Geothermal energy is touted as one of the few renewable resources that could be used for base-load (round-the-clock) power generation: Earth’s heat is always on, and it’s not dependent on the vagaries of wind or sun. New research from Southern Methodist University—sponsored by Google’s philanthropic arm—suggests massive potential for geothermal power in the United States. But exploiting that resource will be slowed by the cost of the technology—and the fact that it can cause small earthquakes.
Researchers led by David Blackwell at SMU’s Geothermal Laboratory set out to update existing maps of the heat beneath our feet, maps that Blackwell says had significant gaps. The researchers doubled the number of locations measured from previous efforts, and by sampling more than 35 000 sites, they found a "technical potential" of almost 3 million megawatts.
"The technical potential is our best estimate of what actually might be extracted," says Blackwell. He says that depths greater than 6.5 kilometers are impractical to access, so his calculation does not take into account a supply of power that’s more than 10 times as much at depths up to 10 km.
To put this in perspective, there are only about 3000 MW of installed geothermal capacity in the United States today, and no other country has more. The total installed electricity capacity from all energy sources in the country is right around 1 million megawatts. So if all that geothermal energy were harnessed, it could power the country three times over.
According to Colin Williams, a scientist with the U.S. Geological Survey who has worked on similar geothermal resource estimates, the SMU work is less about new discoveries than about technological optimism. "It’s not like they discovered more thermal energy down there, but they’re pushing the scenario that you could get more of it out," he says. His own calculations from a 2008 study showed that even the most easily developed geothermal resources could bring 6500 MW online and that more "unconventional" resources represented more than half a million megawatts of potential. That assessment differed from the SMU work in several ways, including stopping at a depth of 6 km instead of 6.5, as well as focusing almost entirely on the western United States.
Blackwell also says the most notable improvements over previous estimates are in the East—especially under coal-rich West Virginia. The energy is there, he says, but "the question is, Do we have the will to go ahead and try to really develop it?"
The answer to that question is still up in the air and depends on some ongoing debates about the cost and risk associated with geothermal technology. Most existing geothermal projects come from hydrothermal reservoirs where hot water is brought up from below the surface to produce electricity. And such projects have been multiplying: Geothermal power was present in only four U.S. states little more than five years ago; now it is in nine, with plans or projects in another half dozen. But the new 3 million MW would almost all require what is known as enhanced geothermal systems (EGS). That technique allows the use of lower-temperature areas by fracturing the rock with high-pressure water, similar to the controversial "fracking" process in the natural gas industry. However, it’s worth noting that at this point, EGS uses only water and none of the toxic chemicals that have raised water-quality and health issues with natural-gas fracking. There is ample evidence, though, that EGS produces small earthquakes.
"We know that creating these EGS reservoirs involves making earthquakes. That’s just going to happen," Williams says. "The question then becomes, Are we going to be able to control the process of generating the microseismicity so that we don’t generate earthquakes that are magnitude 3.5 or 4.0 or something like that?" There will likely need to be geographic restrictions on development so that such a potential quake doesn’t occur near a large fault and possibly cause an even bigger quake. The U.S. National Academy of Sciences and the National Academy of Engineering have launched an investigation, looking across many energy technologies; their report is expected in 2012.
After EGS was blamed for a 3.4-magnitude earthquake in Basel, Switzerland, projects in Europe and the United States have struggled to get off the ground. Karl Gawell, the executive director of an industry group called the Geothermal Energy Association, says that the scrutiny now placed on the issue suggests that projects won’t move forward without strong indications of safety. "You won’t see another Basel, Switzerland, at least not in the United States," he says.
For the moment, cost is also a primary barrier to widespread adoption. USGS’s Williams says traditional geothermal electricity is "in the ballpark" in terms of cost with other electricity sources. A 2009 report by the investment bank Credit Suisse quoted a conventional geothermal cost of 3.6 U.S. cents per kilowatt-hour, below the 5.5 cents for coal. EGS is costlier. A 2007 report by consulting firm GeothermEx estimated the best possible cost for EGS systems in the future at 5.4 cents per kilowatt-hour and suggested that the technology won’t be truly cost competitive until 2050. "Until EGS is developed on a wide scale, initially it probably wouldn’t be competitive," Williams says. "Right now we’re looking at sort of slow but steady development."
A version of this article appeared in the December 2011 print edition of IEEE Spectrum.
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