Wednesday, July 14, 2010

insects as model animals


Video - Jeremy Niven's locust walking a ladder experiment.

NYTimes | Q. OVER YOUR CAREER, WHAT WOULD YOU SAY HAS BEEN YOUR MOST SIGNIFICANT FINDING?

A. In 2007, we were able to study how much energy neurons used and we quantified it. We studied different types of insect eyes — from tiny fruit fly eyes to huge blowfly eyes. In each creature, we worked out how much energy it takes for neurons in the brain to process information. What we learned was that the more information a fly’s eye needed to process, the more energy each unit of information consumed. That means that it’s bad, in the evolutionary sense, for an animal to have a bigger brain than it needs for survival. It’s like having a gas-eating Ferrari, when what you really need is Honda Civic.

Q. SO BIG BRAINS ARE NOT ALWAYS AN ADVANTAGE?
A. Bigger is better if you want to produce enormously complicated behavior. But in evolution, brains evolve by selection. There always is pressure on animals to produce behaviors for as little energy as possible. And that means for many animals, smaller brains are better because they won’t waste energy.

You know, there’s this pervasive idea in biology that I think is wrong. It goes: we humans are at the pinnacle of the evolutionary tree, and as you get up that tree, brain size must get bigger. But a fly is just as evolved as a human. It’s just evolved to a different niche.

In fact, in evolution there’s no drive towards bigger brains. It’s perfectly possible that under the right circumstances, you could get animals evolving small brains. Indeed, on some islands, where there’s reduced flora and fauna, you’ll see smaller versions of mainland species. I would argue that their brain size has been reduced because it saves energy, which permits them to survive in situations of scarcity. They also might not need big brains because they don’t have natural predators on the islands—and don’t have to be as smart because there’s nothing to avoid.

mind is the most precious thing in the universe...,

NYTimes | Think of the universe as a box of scrabble letters. There is only one way to have the letters arranged to spell out the Gettysburg Address, but an astronomical number of ways to have them spell nonsense. Shake the box and it will tend toward nonsense, disorder will increase and information will be lost as the letters shuffle toward their most probable configurations. Could this be gravity?

It’s hard to imagine a more fundamental and ubiquitous aspect of life on the Earth than gravity, from the moment you first took a step and fell on your diapered bottom to the slow terminal sagging of flesh and dreams.

But what if it’s all an illusion, a sort of cosmic frill, or a side effect of something else going on at deeper levels of reality?

So says Erik Verlinde, 48, a respected string theorist and professor of physics at the University of Amsterdam, whose contention that gravity is indeed an illusion has caused a continuing ruckus among physicists, or at least among those who profess to understand it. Reversing the logic of 300 years of science, he argued in a recent paper, titled “On the Origin of Gravity and the Laws of Newton,” that gravity is a consequence of the venerable laws of thermodynamics, which describe the behavior of heat and gases.

“For me gravity doesn’t exist,” said Dr. Verlinde, who was recently in the United States to explain himself. Not that he can’t fall down, but Dr. Verlinde is among a number of physicists who say that science has been looking at gravity the wrong way and that there is something more basic, from which gravity “emerges,” the way stock markets emerge from the collective behavior of individual investors or that elasticity emerges from the mechanics of atoms.

Looking at gravity from this angle, they say, could shed light on some of the vexing cosmic issues of the day, like the dark energy, a kind of anti-gravity that seems to be speeding up the expansion of the universe, or the dark matter that is supposedly needed to hold galaxies together.

Tuesday, July 13, 2010

the creativity crisis

Newsweek | For the first time, research shows that American creativity is declining. What went wrong—and how we can fix it. Back in 1958, Ted Schwarzrock was an 8-year-old third grader when he became one of the “Torrance kids,” a group of nearly 400 Minneapolis children who completed a series of creativity tasks newly designed by professor E. Paul Torrance. Schwarzrock still vividly remembers the moment when a psychologist handed him a fire truck and asked, “How could you improve this toy to make it better and more fun to play with?” He recalls the psychologist being excited by his answers. In fact, the psychologist’s session notes indicate Schwarzrock rattled off 25 improvements, such as adding a removable ladder and springs to the wheels. That wasn’t the only time he impressed the scholars, who judged Schwarzrock to have “unusual visual perspective” and “an ability to synthesize diverse elements into meaningful products.”

The accepted definition of creativity is production of something original and useful, and that’s what’s reflected in the tests. There is never one right answer. To be creative requires divergent thinking (generating many unique ideas) and then convergent thinking (combining those ideas into the best result).

In the 50 years since Schwarzrock and the others took their tests, scholars—first led by Torrance, now his colleague, Garnet Millar—have been tracking the children, recording every patent earned, every business founded, every research paper published, and every grant awarded. They tallied the books, dances, radio shows, art exhibitions, software programs, advertising campaigns, hardware innovations, music compositions, public policies (written or implemented), leadership positions, invited lectures, and buildings designed.

Nobody would argue that Torrance’s tasks, which have become the gold standard in creativity assessment, measure creativity perfectly. What’s shocking is how incredibly well Torrance’s creativity index predicted those kids’ creative accomplishments as adults. Those who came up with more good ideas on Torrance’s tasks grew up to be entrepreneurs, inventors, college presidents, authors, doctors, diplomats, and software developers. Jonathan Plucker of Indiana University recently reanalyzed Torrance’s data. The correlation to lifetime creative accomplishment was more than three times stronger for childhood creativity than childhood IQ.

Like intelligence tests, Torrance’s test—a 90-minute series of discrete tasks, administered by a psychologist—has been taken by millions worldwide in 50 languages. Yet there is one crucial difference between IQ and CQ scores. With intelligence, there is a phenomenon called the Flynn effect—each generation, scores go up about 10 points. Enriched environments are making kids smarter. With creativity, a reverse trend has just been identified and is being reported for the first time here: American creativity scores are falling.

Kyung Hee Kim at the College of William & Mary discovered this in May, after analyzing almost 300,000 Torrance scores of children and adults. Kim found creativity scores had been steadily rising, just like IQ scores, until 1990. Since then, creativity scores have consistently inched downward. “It’s very clear, and the decrease is very significant,” Kim says. It is the scores of younger children in America—from kindergarten through sixth grade—for whom the decline is “most serious.”

fighting christian supremacists in the military

truthout | In his fight against British imperialism, Mahatma Gandhi described the life cycle of successful civil disobedience: "First they ignore you, then they laugh at you, then they fight you, then you win." Mikey Weinstein, the 55-year-old founder of the Albuquerque, New Mexico-based Military Religious Freedom Foundation (MRFF), likes to quote it, knowing full well he's crossed the line into a bloody-knuckle brawl. Over the past year, Weinstein and his organization have recorded a tremendous string of victories in the fight against Christian supremacists inside the armed forces.

In January, the MRFF broke the story on the Pentagon's Jesus Rifles, where rifle scopes used in Afghanistan and Iraq were embossed with New Testament verses. In April, he got the military to rescind its invitation to the Reverend Franklin Graham to speak at May's National Prayer Day because of Islamophobic remarks. Most shockingly, MRFF received its second nomination for the Nobel Peace Prize in late October. These high-profile victories have earned him the enmity of the hardcore Christian Right and the mentally unstable. And the crazies are getting crazier. Weinstein and his family are bombarded with hate mail, from the grammatically incorrect and easy to dismiss - "I hope all your kids turn out gay as hell, take it in the ass, and get aids and die!!!!" - to the kind of threats that immediately make you leap out of your chair and double-check that the doors and windows are locked. (MRFF has referred multiple death threats on Mikey, his family, and MRFF employees to the FBI.)

Unlike Gandhi, Mikey's no pacifist. Aggression rises up in his voice like a white shark's fin breaks the waves. In a recent conversation, Mikey bragged how a punk wouldn't shut up in a movie. When a confrontation ensued and the man took a wild swing, Mikey put him down. None of this is surprising. Weinstein boxed during his Air Force days, his face marked by a strong jawline sitting below a bald head on top of a stocky body - a cross between Rocky Marciano and Butter Bean. Simply put: Mikey Weinstein can be a brute and a zealot. He knows this and admits it freely. But he believes it's the only position a reasonable person can take when confronted with a faction dedicated to mutating the U.S. military into "a weaponized Gospel of Jesus Christ."

But for all of his rhetorical excesses and bravado, Weinstein's fight is simple and correct. The United States military cannot favor one religious sect over another, staying true to the Constitution's establishment clause that service members pledge to defend. More pragmatically, the military cannot favor one religious sect over another because it's destructive of good order and discipline, creating divisions between service members when they must rely on the guy next to them to survive in a firefight. Yet inside the U.S. military a small, determined, and fanatical clique wants to abuse its power and prosetlyze to service members below them in the chain of command. Through this captive market, they can inject their peculiar ideology into the most powerful institution on earth. As Weinstein likes to say, this isn't just a civil rights issue, it's a national security threat of the gravest magnitude. The description sounds hyberbolic, but according to Weinstein there's a pervasive Christian supremacist milieu inside the U.S. military that's a danger not only to constitutional order, but to the American wars in Afghanistan and Iraq. What's ironic about Mikey's fight is that he never thought about becoming "a civil rights activist." He discovered his calling by rising up like a grizzly bear for his son. Fist tap Davera.

restricting citizenship for converts?

WaPo | An Israeli parliamentary committee on Monday advanced a bill that could lead to lack of recognition for conversions to Judaism performed by rabbis from the Reform and Conservative movements.

The bill could give the chief rabbinate, the religious authority in Israel run by ultra-Orthodox Jews, the power to decide which conversions are accepted, overturning an Israeli Supreme Court decision that ensures eligibility for Israeli citizenship for Jews converted by rabbis from all branches of Judaism.

Representatives of the Reform and Conservative movements, which have been battling for years for more rights in Israel, saw the committee vote as a threat to their efforts to strengthen their legitimacy in Israel. The chief rabbinate already holds a monopoly on such rituals as marriage and divorce.

"It sets us back 20 years in terms of the advances that were made," said Rabbi Steven Wernick, executive vice president of the United Synagogue of Conservative Judaism, an umbrella organization of Conservative Jewish congregations in the United States, who spoke by telephone during a visit to Jerusalem. "The practical implication of this bill is one that we are very, very concerned about and angry about."

The bill "delegitimizes most of North American Jewry" and brings back the question of "who has the authority to determine someone's Jewish identity," Wernick added, noting that 85 percent of American Jewry is affiliated with non-Orthodox branches of Judaism.

Sunday, July 11, 2010

genomes of the permanent parasitic lifestyle

PNAS | As an obligatory parasite of humans, the body louse (Pediculus humanus humanus) is an important vector for human diseases, including epidemic typhus, relapsing fever, and trench fever. Here, we present genome sequences of the body louse and its primary bacterial endosymbiont Candidatus Riesia pediculicola. The body louse has the smallest known insect genome, spanning 108 Mb. Despite its status as an obligate parasite, it retains a remarkably complete basal insect repertoire of 10,773 protein-coding genes and 57 microRNAs. Representing hemimetabolous insects, the genome of the body louse thus provides a reference for studies of holometabolous insects. Compared with other insect genomes, the body louse genome contains significantly fewer genes associated with environmental sensing and response, including odorant and gustatory receptors and detoxifying enzymes. The unique architecture of the 18 minicircular mitochondrial chromosomes of the body louse may be linked to the loss of the gene encoding the mitochondrial single-stranded DNA binding protein. The genome of the obligatory louse endosymbiont Candidatus Riesia pediculicola encodes less than 600 genes on a short, linear chromosome and a circular plasmid. The plasmid harbors a unique arrangement of genes required for the synthesis of pantothenate, an essential vitamin deficient in the louse diet. The human body louse, its primary endosymbiont, and the bacterial pathogens that it vectors all possess genomes reduced in size compared with their free-living close relatives. Thus, the body louse genome project offers unique information and tools to use in advancing understanding of coevolution among vectors, symbionts, and pathogens.

the human edge - finding our inner fish

NPR | It took him years of searching in the Canadian Arctic, but in 2004, Neil Shubin found the fossilized remains of what he thinks is one of our most important ancestors.

Turns out, it's a fish.

Shubin says his find, which he named Tiktaalik, represents an important evolutionary step, because it has the structures that will ultimately become parts of our human bodies. Shoulders, elbows, legs, a neck, a wrist — they're all there in Tiktaalik.

"Everything that we have are versions of things that are seen in fish," says Shubin.

Of course, there are things that we have that Tiktaalik doesn't.

"We have a big brain, and portions of that big brain are not seen in Tiktaalik," says Shubin. "But the template, all the way down to the DNA that builds it, is already present in creatures like this."

Inside this fish, Shubin sees us.

"It's like peeling an onion," he says. "Layer after layer after layer is revealed to you. Like in a human body, the first layer is our primate history, the second layer is our mammal history, and on and on and on and on, until you get to the fundamental molecular and cellular machinery that makes our bodies and keeps are cells alive, and so forth."

Our Inner Yeast
In fact, not only are we related to an ancient fish, but many of the parts critical for making yeast are also critical for making us, says Gavin Sherlock, a geneticist at Stanford University.

"About one-third of the yeast genes have a direct equivalent version that still exists in humans," he says.

Sherlock says that not only do many of the same genes still exist in humans and yeast, but they're so similar that you can exchange one for the other.

"There are several hundred examples where you can knock out the yeast gene, put in the human equivalent, and it restores it back to normal," he says.

Think about it, he says: We have a lot in common with yeast. Yeast consume sugars like we do, yeast make hormones like we do, and yeast have sex — not quite like we do, but sex.

Sex isn't just fun and games. Sexual reproduction is critical for stirring the genetic pot, speeding the evolution of endless forms most beautiful, from fruit flies to blue whales to humans.

Now yeast is a single-celled organism. We have trillions and trillions of cells in our bodies — different kinds of cells, all fitting together. How did that happen?

The answer is at the Field Museum in Chicago.

fish "talk" to one another

Discovery | The undersea world isn't as quiet as we thought, according to a New Zealand researcher who found fish can "talk" to each other.

Fish communicate with noises including grunts, chirps and pops, University of Auckland marine scientist Shahriman Ghazali has discovered according to newspaper reports Wednesday.

"All fish can hear, but not all can make sound -- pops and other sounds made by vibrating their swim bladder, a muscle they can contract," Ghazali told the New Zealand Herald.

Fish are believed to communicate with each other for different reasons, including attracting mates, scaring off predators or orienting themselves.

The gurnard species has a wide vocal repertoire and keeps up a constant chatter, Ghazali found after studying different species of fish placed into tanks.

On the other hand, cod usually kept silent, except when they were spawning.

"The hypothesis is that they are using sound as a synchronization so that the male and female release their eggs at the same time for fertilization," he said.

Some reef fish, such as the damselfish, made sounds to attempt to scare off threatening fish and even divers, he said.

But anyone hoping to strike up a conversation with their pet goldfish is out of luck.

"Goldfish have excellent hearing, but excellent hearing doesn't associate with vocalization. They don't make any sound whatsoever," Ghazali said.

He was to present his findings to the New Zealand Marine Sciences Society conference on Wednesday.

geithner and summers should mcchrystal

truthout | What we need is for the president's economic hotshots, Timothy Geithner and Lawrence Summers, to grant damaging interviews to Rolling Stone, as Gen. Stanley McChrystal recently did in self-destructing. Perhaps then President Obama would have the gumption to fire the misleaders of his economic team.

It was always bizarre that those two, who did so much to wreck the economy, were put in charge of the effort to salvage it. Their previous records should have provided ample warning that their economic outlook begins and ends with the demands of Wall Street.

It was Geithner who, as head of the New York Fed, presided over the $180 billion bailout of AIG, which, as revealed by the 500-page documented record of that travesty released last week by the Financial Crisis Inquiry Commission, was a scam to pass taxpayer money to Goldman Sachs and the other large banks that had created the problem.

And it was Summers who, as President Bill Clinton's treasury secretary, pushed through the Commodity Futures Modernization Act, which guaranteed "legal certainty" for the toxic derivatives packages that Goldman and the others sold. At the time, Summers assured Congress that "the parties to these kinds of contracts are largely sophisticated financial institutions that would appear to be eminently capable of protecting themselves from fraud and counterparty insolvencies."

For such not-so-prescient but very convenient insight, Goldman Sachs rewarded Summers with $200,000 for two speeches he gave to its executives while he was an adviser to candidate Obama. Not surprisingly, the new financial regulations proposed by this administration and soon to be signed into law let Goldman and the others so much at fault off the hook.

There is enormous and justifiable populist outrage out there over the antics of a runaway Wall Street that is not being held accountable. Obama could tap into that outrage by taking his cues from a true populist, Democratic Sen. Russ Feingold of Wisconsin. One of only eight senators to vote against the Clinton-backed 1999 repeal of the Glass-Steagall Act, which had done so much to protect the economy, Feingold voted against the Bush bailout, too, and is now breaking with Obama on his so-called financial reform:

"The bill does not eliminate the risk to our economy posed by 'too big to fail' financial firms, nor does it restore the proven safeguards established after the Great Depression, which separated Main Street banks from big Wall Street firms and are essential to preventing another economic meltdown. The recent financial crisis triggered the nation's worst recession since the Great Depression. The bill should have included reforms to prevent another such crisis. Regrettably, it did not."

The president's record on the economy is even worse than his performance in Afghanistan, and a reversal of course is much in order. If he doesn't get the message now, the voters will give it to him loud and clear come the November midterm elections.

Saturday, July 10, 2010

is humanity inherently unsustainable?



economic deathride - hitler vs. stalin 1941-1945

Boston | We think we understand the great German-Russian conflict of the Eastern Front of World War II. We think it was the great grudge match of the tyrants, Stalin and Hitler. We think Stalin panicked in June 1941 when his Nazi ally turned on him. We think Hitler was beaten by the same Russian winter that defeated Napoleon a century earlier. We think Stalin was steadfast in refusing to consider surrender. We think the Soviets prevailed in the greatest tank battle ever, at Kursk.

Maybe not. At least that is what the historian John Mosier, who in an earlier volume shattered the myths surrounding Hitler’s Blitzkrieg, is telling us in “Deathride: Hitler vs. Stalin — The Eastern Front, 1941-1945.’’ It is a dramatic departure from the conventional wisdom and is itself a dramatic chronicle of the most brutal theater in the most brutal war in one of history’s most brutal centuries. But the real theme is even bigger than the Eastern Front, which itself stretched from the Baltic to the Black Sea.

Mosier is arguing that World War II was fought for economics, not for political or ideological reasons. That is not a new thesis, to be sure, but his is a creative approach, holding that not only the motivations but also the maneuvers of the war were almost entirely economic in nature.

Hitler, for example, wanted Poland because it was a net exporter of goods to Germany. The Allies then tried to block iron ore shipments from Scandinavia, hoping to deny the Nazis the materials required to build tanks and planes. And the whole bloody thing was a war on an economic, not a political, front. The Allies, which included the Soviet Union by war’s end, simply out produced Germany, and in fact the Third Reich was defeated by two nations that weren’t even their adversaries when the war began, the United States and the Soviet Union.

This is a clear-eyed, compelling description of a battle that has been described many times, but seldom with such an ironic eye. This monstrous war, conducted against the backdrop of the tyrants’ purges and their mechanical approaches to civilian death, was conducted in a great killing field of ethnic groups, including the Poles and other Slavic peoples, many of whom fared little better under Stalin than they did under Hitler. And these persecuted Eastern Europeans were themselves no friends of the Jews, who were virtually exterminated in this charnel house.

What emerges from these pages is a struggle between vicious Soviet bunglers with a craven leadership willing to sacrifice millions to survive versus vicious German technocrats with a leadership that didn’t anticipate the dangers of military over-extension and the advantages its rival possessed by fighting a defensive war in a primitive land with unlimited cannon fodder. That said, Mosier believes that Stalin was closer than anyone (including Stalin himself) knew to running out of men, some of whom by 1943 were getting only two days of training.

the mile long glass

TheOilDrum | The longer straw - the future of fossil fuels (and most other resources)

The future of fossil fuels, particularly of oil, but also many other resources including water and minerals, looks problematic. People keep discussing proven reserves and whether peak oil already has arrived or not. Unfortunately, we will only be able to put this argument to rest in hindsight. But what is more important is the fact that - no matter how much additional oil we can still retrieve - future barrels will be much more difficult to extract relative to the past.

Drilling a hole in the desert and waiting for black gold to gush out is infinitely less complex than drilling a much deeper hole 5000 feet under water, as the public is now painfully beginning to understand. Many experts agree that we probably have used about 40-50% of recoverable oil. It is difficult to prove such numbers, but we may for a minute assume that this is true. For pessimists, this makes our glass half empty. For optimists, it remains half full. This has been the exact argument the energy community has been having, to little avail, so let’s play with that analogy some more: our oil reserves can be compared with a 1 mile deep glass full of our favorite drink. Getting the first sips is easy. Whenever we are thirsty, we lower a straw into the fluid and drink as much as we like. After a while, that straw might become too short, so we have to find a longer one. Not really a problem. We might even get better at making straws for a while. And so it continues.

But once we are half a mile down into this huge glass, the straw will be so long that one might need help to even hold it, and we will most likely require help to suck hard enough to make the fluid come all the way up. What has happened? We still have half of our favorite drink left, but the efforts to get to it are becoming increasingly painful, significantly diminishing the net benefit of that next sip. And so we might (have to) give up drinking long before the glass is empty, just because its too difficult to get at the fluid in a meaningful way, and because the effort of sucking eventually exceeds the benefit and joy from each sip.

The concept behind our "mile-long glass" analogy unfortunately applies to almost every raw material and energy source we are currently using. The more we have extracted, the more difficult it becomes to get to the next unit. Our organization (IIER) looks at this phenomenon using the term "Resource Return on Energy Investment" (RREI), which is based on established approaches used for Energy Returns on (Energy) Investment (EROI). It describes the amount of effort (energy) needed to get one unit of a resource we want to extract. To extract the next unit, our effort typically increases compared to the past, as we have mostly exploited the easy finds and must pursue the ones that are further away, harder to get, more difficult to secure politically, or any such combination. Over time, this increasing effort makes the production less and less useful to societies. Or to use our drinking straw example: at one point sucking out more from that glass exhausts us so much (e.g. the energy invested per sip becomes so big) that we will have to stop our effort and turn to something else, or - if there is no equivalent alternative - drink less.

When looking at RREI, almost all resources currently used in human processes show declines. Less "easy oil" means that we have to drill in hostile environments deep under the surface of oceans, lower ore grades mean that we have to move four times as much rock to extract the same amount of copper when compared to a couple of decades ago, and the depletion of groundwater sources translates to getting drinking water from desalination plants or from fossil (non-renewable) aquifers far away, at much higher energy cost.

This decline in easily extractable resources and the increased effort to retrieve them is much more important than the exact year when peak production of a particular resource actually occurs. It is today's reality, and helps explain why we are drilling at the bottom of the ocean at depths where no human being could survive for even a second.

big brother's a good thing

Wired | The NSA is denying a report from the Wall Street Journal that a secret program code-named “Perfect Citizen” will be monitoring civilian networks.

That’s from a rare public statement by the ultra-secret agency responsible for spying on outsiders and defending classified networks. The NSA, as a wing of the military, is largely prohibited from operating within the U.S.

The Journal reported Wednesday that defense contractor Raytheon won a $100 million contract that would involve sensors in the networks of “critical infrastructure” such as utilities and nuclear power plants. The sensors would report anomalies to the NSA via a partnership with Homeland Security, the Journal reported. According to an e-mail cited in the report, a Raytheon employee described it as a “Big Brother” system.

Our take on the original report is here.

But, in a statement put out by NSA spokeswoman Judith Emmel Thursday, the agency denies there is any monitoring activities and called on the public to trust the NSA’s adherence to the law (despite the Bush-era warrantless wiretapping to the contrary). The NSA did, however, confirm the creepy code name.

Today’s Wall Street Journal article by Siobhan Gorman, titled “US Plans Cyber Shield for Utilities, Companies,” is an inaccurate portrayal of the work performed at the National Security Agency. Because of the high sensitivity surrounding what we do to defend our nation, it is inappropriate to confirm or deny all of the specific allegations made in the article. We will, however, provide the following facts:

- PERFECT CITIZEN is purely a vulnerabilities-assessment and capabilities-development contract. This is a research and engineering effort. There is no monitoring activity involved, and no sensors are employed in this endeavor.

- Specifically, it does not involve the monitoring of communications or the placement of sensors on utility company systems.

- This contract provides a set of technical solutions that help the National Security Agency better understand the threats to national security networks, which is a critical part of NSA’s mission of defending the nation.

- Any suggestions that there are illegal or invasive domestic activities associated with this contracted effort are simply not true. We strictly adhere to both the spirit and the letter of U.S. laws and regulations.

Now, if you understand what “vulnerabilities-assessment and capabilities-development” means, please let us know, because it just sounds like security gobbedly-gook to us.

Friday, July 09, 2010

lady gaga and the new world order?

Guardian | You might think that by know you've read more than enough online exegesis of Lady Gaga's videos but you haven't even scratched the surface until you've read the work of The Vigilant Citizen. This anonymous Canadian blogger explained last year's Paparazzi video with reference to the CIA's MK-ULTRA mind-control programme, Fritz Lang's Metropolis, the Eye of Horus and the goat-god Baphomet, concluding that Gaga was indubitably an "Illuminati puppet". Bad Romance apparently "offers a chilling description of a music industry ruled by the elite". In Alejandro, she "flashes in her fans' faces the symbols of their own oppression".

The Vigilant Citizen has a good claim to be the world's most distinctive music critic. On his website, vigilantcitizen.com, he describes himself as a graduate in communications and politics and a producer for "some fairly well-known 'urban' artists". He has spent five years researching "Theosophy, Freemasonry, Rosicrucianism, the Bavarian Illuminati and Western Occultism". All of these interests converge in his insanely detailed analyses of the symbolism of pop videos and lyrics. Thus Pink's MTV awards performance mimics a Masonic initiation; Jay-Z's Run This Town trumpets the coming of the New World Order (NWO); and the video for Black Eyed Peas' Imma Be Rocking That Body advances "the transhumanist and police state agenda".

What's surprising is the methodical, matter-of-fact, occasionally humorous tone of his essays. He does not write like a swivel-eyed loon rambling about Obamunism (although, inevitably, there's an unsavoury fascination with Jewish influence). To those who don't study occult symbolism, he concedes, it might all seem "totally far-fetched and ridiculous", but for those in the know "I was simply stating the obvious". His examinations are certainly exhaustive. Scrolling down his densely illustrated posts, you may find yourself thinking, "Say, Lady Gaga really does very often cover up one eye. And a lot of pop stars really do pretend to be robots."

But the Vigilant Citizen can't encounter a predictable pop trope without interpreting it as part of an occult music-industry plot to brainwash the masses. The ostensibly meaningless "Bum bum be-dum" refrain in Rihanna's Disturbia, for example, is decoded as: "You good-for-nothing, idiotic person, let yourself become dumb, stop thinking and let yourself be hypnotised and possessed." It's something of a stretch.

take cover son...,


NYTimes | WITH the stock market lurching again, plenty of investors are nervous, and some are downright bearish. Then there’s Robert Prechter, the market forecaster and social theorist, who is in another league entirely.

Mr. Prechter is convinced that we have entered a market decline of staggering proportions — perhaps the biggest of the last 300 years.

In a series of phone conversations and e-mail exchanges last week, he said that no other forecaster was likely to accept his reasoning, which is based on his version of the Elliott Wave theory — a technical approach to market analysis that he embraces with evangelical fervor.

Originating in the writings of Ralph Nelson Elliott, an obscure accountant who found repetitive patterns, or “fractals,” in the stock market of the 1930s and ’40s, the theory suggests that an epic downswing is under way, Mr. Prechter said. But he argued that even skeptical investors should take his advice seriously.

“I’m saying: ‘Winter is coming. Buy a coat,’ ” he said. “Other people are advising people to stay naked. If I’m wrong, you’re not hurt. If they’re wrong, you’re dead. It’s pretty benign advice to opt for safety for a while.”

His advice: individual investors should move completely out of the market and hold cash and cash equivalents, like Treasury bills, for years to come. (For traders with a fair amount of skill and willingness to embrace risk, he suggests other alternatives, like shorting the market or making bets on volatility.) But ultimately, “the decline will lead to one of the best investment opportunities ever,” he said.

Buy-and-hold stock investors will be devastated in a crash much worse than the declines of 2008 and early 2009 or the worst years of the Great Depression or the Panic of 1873, he predicted. Fist tap Nana.

the preznit's ceo problem..,



WaPo | The American economy is sputtering and we are running out of options. Interest rates can't go any lower. Another burst of government spending -- whether a good or bad idea -- looks politically impossible. Can anything protect us from the dangers of stagnation or a double dip? Actually, there is a second stimulus that could have a dramatic effect on the economy -- even more so than government spending. And it won't add to the deficit.

The Federal Reserve recently reported that America's 500 largest nonfinancial companies have accumulated an astonishing $1.8 trillion of cash on their balance sheets. By any calculation (for example, as a percentage of assets), this is higher than it has been in almost half a century. Yet most corporations are not spending this money on new plants, equipment or workers. Were they to loosen their purse strings, hundreds of billions of dollars would start pouring through the economy. These investments would probably have greater effect and staying power than a government stimulus.

To be clear: There is a strong case for a temporary and targeted government stimulus. Consumers and companies are being very cautious about spending. Right now, government spending is keeping the economy afloat. Without a second stimulus, state and local governments will have to slash spending and raise taxes, which will produce a downward spiral of higher unemployment, slower growth, lower tax revenue and a larger deficit. Joel Klein, the New York City schools chancellor, told me that when the stimulus money runs out at the end of this year, he will be forced to lay off 5,000 teachers. Multiply that example a thousand times to get a sense of what 2011 could look like.

But government spending can only be a bridge to private-sector investment. The key to a sustainable recovery and robust economic growth is to get companies investing in America. So why are they reluctant, despite having mounds of cash? I put this question to a series of business leaders, all of whom were expansive on the topic yet did not want to be quoted by name, for fear of offending people in Washington.

Economic uncertainty was the primary cause of their caution. "We've just been through a tsunami and that produces caution," one told me. But in addition to economics, they kept talking about politics, about the uncertainty surrounding regulations and taxes. Some have even begun to speak out publicly. Jeffrey Immelt, chief executive of General Electric, complained Friday that government was not in sync with entrepreneurs. The Business Roundtable, which had supported the Obama administration, has begun to complain about the myriad laws and regulations being cooked up in Washington.

another round of prohibition....ta loco?!?!?

WaPo | Before the 18th Amendment could make drink illegal, the 16th Amendment had to make the income tax legal. It was needed because by 1910 alcohol taxes were 30 percent of federal revenue.

Workmen's compensation laws gave employers an interest in abstemious workers. Writes Okrent, Asa Candler, founder of the Coca-Cola Co., saw "opportunity on the other side of the dry rainbow." World War I anti-German fever fueled the desire to punish brewers with names such as Busch, Pabst, Blatz and Schlitz. And President Woodrow Wilson's progressivism became a wartime justification for what Okrent calls "the federal government's sudden leap into countless aspects of American life," including drink.

And so Prohibition came. Sort of. Briefly.

After the first few years, alcohol consumption dropped only 30 percent. Soon smugglers were outrunning the Coast Guard ships in advanced speedboats, and courts inundated by violations of Prohibition began to resort to plea bargains to speed "enforcement" of laws so unenforceable that Detroit became known as the City on a Still.

Prohibition agents cherished $1,800 jobs because of the bribes that came with them. Fiorello La Guardia taunted the government that it would need another "150,000 agents to watch the first 150,000." Exemptions from Prohibition for church wine and medicinal alcohol became ludicrously large -- and lucrative -- loopholes.

After 13 years, Prohibition, by then reduced to an alliance between evangelical Christians and criminals, was washed away by "social nullification" -- a tide of alcohol -- and by the exertions of wealthy people, such as Pierre S. du Pont, who hoped that the return of liquor taxes would be accompanied by lower income taxes. (They were.)

Ex-bootleggers found new business opportunities in the southern Nevada desert. And in the Second World War, draft boards exempted brewery workers as essential to the war effort.

The many lessons of Okrent's story include: In the fight between law and appetite, bet on appetite. And: Americans then were, and let us hope still are, magnificently ungovernable by elected nuisances.

Thursday, July 08, 2010

building one big brain?

NYTimes | Maybe the essential thing about technological evolution is that it’s not about us. Maybe it’s about something bigger than us — maybe something big and wonderful, maybe something big and spooky, but in any event something really, really big.

Don’t get me wrong. I join other humans in considering human welfare — and the welfare of one human in particular — very important. But if we’re going to reconcile human flourishing with the march of technology, it might help to understand what technology is marching toward.

Could it be that, in some sense, the point of evolution — both the biological evolution that created an intelligent species and the technological evolution that a sufficiently intelligent species is bound to unleash — has been to create these social brains, and maybe even to weave them into a giant, loosely organized planetary brain? Kind of in the way that the point of the maturation of an organism is to create an adult organism?

If we grant the superorganism scenario for the sake of argument, is it spooky? Is it bad news for humans if in some sense the “point” of the evolutionary process is something bigger than us, something that subsumes us?

I have to admit that I’m not totally loving the life of a cell. I’m as nostalgic as the next middle-aged guy for the time when focus was easier to come by, and I do sometimes feel, after a hard day of getting lots of tiny little things more-or-less done, that the superorganism I’m serving is tyrannical — as if I’m living that line in Orwell’s “1984”: “Can you not understand, Winston, that the individual is only a cell? The weariness of the cell is the vigor of the organism.”

But at least the superorganism that seems to be emerging, though in some ways demanding, isn’t the totalitarian monster that Orwell feared; it’s more diffuse, more decentralized, more reconcilable — in principle, at least — with liberty.

And that’s good news, because I do think we ultimately have to embrace a superorganism of some kind — not because it’s inevitable, but because the alternative is worse. If technological progress grinds to a halt, it will be because chaos has engulfed the world; and if we don’t use technology to weave people together and turn our species into a fairly unified body, chaos will probably engulf the world — because technology offers so much destructive power that a sharply divided human species can’t flourish. Fist tap Nana.

is the synthetic cell about life?



The Scientist | The announcement that the J. Craig Venter Institute has succeeded (finally) in synthesizing the genome of Mycoplasma mycoides—inserting it into a cell of Mycoplasma capricolum whose genome had been removed, and creating a fully functioning Mycoplasma mycoides—has been heralded as the moment that science finally took the magic out of life. Venter has said that the achievement has changed the definition of life. Bioethicist Art Caplan, a friend of mine, thinks it puts forever to rest the idea that living things are “endowed with some sort of special power, force, or property.” It is conclusive proof that life is nothing more than interacting chemicals.

The achievement is arguably a landmark moment in science, but it’s not a philosophical watershed.

First, as many have noted, the technical accomplishment is not quite what the JCVI press release claimed. It’s hard to see this as a synthetic species, or a synthetic organism, or a synthetic cell; it’s a synthetic genome of Mycoplasma mycoides, which is familiar enough. David Baltimore was closer to the truth when he told the New York Times that the researchers had not created life so much as mimicked it. It might be still more accurate to say that the researchers mimicked one part and borrowed the rest.

The explanation from the Venter camp is that the genome took over the cell, and since the genome is synthetic, therefore the cell is synthetic. But this assumes a strictly top-down control structure that some biologists now question. Why not say instead that the genome and the cell managed to work out their differences and collaborate, or even that the cell adopted the genome (and its identity)? Do we know enough to say which metaphor is most accurate?

For the sake of argument, let’s grant that JCVI created a synthetic cell. This is when we must address Caplan’s question. Does creating life in a lab demystify it?

more than meets the eye

The Scientist | When Antonie van Leeuwenhoek looked down at a prokaryote through his simple microscope made of a single mounted lens back in the 1660s, he discovered the first organelle. Captivated by the fluttering “legs” that would later be called the cell’s eyelashes, or cilia in Latin, he might have wondered about the origin of their movement.

Researchers had known that properly moving cilia were not only important to protozoans swimming in their dish, but also for the proper function of the ciliated cells that comprised organs: from the trachea to the lining of the brain and the female reproductive tract, and there was more to come.1 We soon realized that the flashier variety of cilia—the kind that moved—was only a small part of the story. Cilia with no ability to move studded cells of sensory organs like the eye or the insect ear. When I returned from Copenhagen, researchers began to point out that many ordinary tissue cells also bore non-moving single cilia.

Only recently did we discover that those cilia were actually crucial as signaling appendices, acting as cells’ antennae. They have since opened up many more questions regarding the evolution and function of this intriguing organelle.

As the first organelle ever observed by scientists, it’s interesting to reflect on how the cilium became a necessary component of most cells in the body. Many people now conclude that the complexity of the nucleated cell arose by a series of invasive/symbiotic events. The major organelles—mitochondria, chloroplast, perhaps even the nucleus itself—are the results of such invasions or engulfments within a basic bacterial cytoplasm. My colleagues and I have proposed that the sensory 9+0 cilium could have originated in this way, when a large enveloped RNA-containing virus whose core was the primitive centriole failed to exocytose completely after the invasion of the cytoplasm, leaving a bud. When the protein transport mechanism permitted the bud to grow and to accumulate specific membrane proteins, the sensory cilium was born. Later, motility and an efficient coupling between sensory information and motile response evolved.

Wednesday, July 07, 2010

do parasites rule the world?

Discover | On a clear summer day on the California coast, the carpinteriasalt marsh vibrates with life. Along the banks of the 120-acre preserve, 80 miles northwest of Los Angeles, thousands of horn snails, their conical shells looking like miniature party hats, graze the algae. Arrow gobies slip through the water, while killifish dart around, every now and then turning to expose the brilliant glint of their bellies. Fiddler crabs slowly crawl out of fist-size holes and salute the new day with their giant claws, while their bigger cousins—lined-shore crabs— crack open snails as if they were walnuts. Meanwhile, a carnival of birds— Caspian terns, willet, plover, yellowleg sandpipers, curlews, and dowitchers— feast on littleneck clams and other prey burrowed in the marsh bottom.

Standing on a promontory, Kevin Lafferty, a marine biologist at the University of California at Santa Barbara, watches the teeming scene and sees another, more compelling drama. For him, the real drama of the marsh lies beneath the surface in the life of its invisible inhabitants: the parasites. A curlew grabs a clam from its hole. "Just got infected," Lafferty says. He looks at the bank of snails. "More than 40 percent of these snails are infected," he pronounces. "They're really just parasites in disguise." He points to the snowy constellation of bird droppings along the bank. "There are boxcars of parasite biomass here; those are just packages of fluke eggs."

Every living thing has at least one parasite that lives inside or on it, and many, including humans, have far more. Leopard frogs may harbor a dozen species of parasites, including nematodes in their ears, filarial worms in their veins, and flukes in their kidneys, bladders, and intestines. One species of Mexican parrot carries 30 different species of mites on its feathers alone. Often the parasites themselves have parasites, and some of those parasites have parasites of their own. Scientists have no idea of the exact number of species of parasites, but they do know one fact: Parasites make up the majority of species on Earth. Parasites can take the form of animals, including insects, flatworms, and crustaceans, as well as protozoa, fungi, plants, and viruses and bacteria. By one estimate, parasites may outnumber free-living species four to one. Indeed, the study of life is, for the most part, parasitology.

Most of the past century's research on parasites has gone into trying to fight the ones that cause devastating illness in humans, such as malaria, AIDS, and tuberculosis. But otherwise, parasites have largely been neglected. Scientists have treated them with indifference, even contempt, viewing them as essentially hitchhikers on life's road. But recent research reveals that parasites are remarkably sophisticated and tenacious and may be as important to ecosystems as the predators at the top of the food chain. Some castrate their hosts and take over their minds. Others completely shut down the immune systems of their hosts. Some scientists now think parasites have been a dominant force, perhaps the dominant force, in the evolution of life.

the brain's dark energy

SciAm | Brain regions active when our minds wander may hold a key to understanding neurological disorders and even consciousness itself.

Imagine you are almost dozing in a lounge chair outside, with a magazine on your lap. Suddenly, a fly lands on your arm. You grab the magazine and swat at the insect. What was going on in your brain after the fly landed? And what was going on just before? Many neuroscientists have long assumed that much of the neural activity inside your head when at rest matches your subdued, somnolent mood. In this view, the activity in the resting brain represents nothing more than random noise, akin to the snowy pattern on the television screen when a station is not broadcasting. Then, when the fly alights on your forearm, the brain focuses on the conscious task of squashing the bug. But recent analysis produced by neuroimaging technologies has revealed something quite remarkable: a great deal of meaningful activity is occurring in the brain when a person is sitting back and doing nothing at all.

It turns out that when your mind is at rest—when you are daydreaming quietly in a chair, say, asleep in a bed or anesthetized for surgery—dispersed brain areas are chattering away to one another. And the energy consumed by this ever active messaging, known as the brain’s default mode, is about 20 times that used by the brain when it responds consciously to a pesky fly or another outside stimulus. Indeed, most things we do consciously, be it sitting down to eat dinner or making a speech, mark a departure from the baseline activity of the brain default mode.

Key to an understanding of the brain's default mode has been the discovery of a heretofore unrecognized brain system that has been dubbed the brain's default mode network(DMN). The exact role of the DMN in organizing neural activity is still under study, but it may orchestrate the way the brain organizes memories and various systems that need preparation for future events: the brain's motor system has to be revved and ready when you feel the tickle of a fly on your arm. The DMN may play a critial role in synchronizing all parts of the brain so that, like racers in a track competition, they are all in the proper "set" mode when the starting gun goes off. If the DMN does prepare the brain for conscious activity, investigations of its behavior may provide clues to the nature of conscious experience. Neuroscientists have reason to suspect, moreover, tat disruptions to the DMN may underlie simple mental errors as well as a range of complex brain disorders, from Alzheimer's disease to depression.

The ups and downs of the DMN may provide insight into some of the brain's deepest mysteries. It has already furnished scientists with fascinating insigts into the nature of attention, a fundamental component of conscious activity. In 2008 a multinatinal team of researchers reported that by watching the DMN, they could tell up to 30 seconds before a subject in a scanner was about to commit an error in a computer test. A mistake would occer if, at that time, the default network took over and activity in areas involved with focused concentration abated.

And in years to come, the brain's dark evergy may provide clues to the nature of consciousness. As most neuroscientists acknowledge, our conscious interactions with the world are just a small part of the brain's activity. What does on below the level of awareness - the brain's dark every, for one - is critical in providing the context for what we experience in the small window of conscious awareness. Fist tap Arnach.

one reason you humans are "special"

SciAm | Now back to masturbation fantasies and cognition—and this is where it gets really interesting. Baker and Bellis’s theory may be peculiarly true for human beings, because from all appearances, under natural conditions, we are the only primate species that seems to have taken these seminal shedding benefits into its own lascivious hands. Unfortunately, there have been a paltry handful of studies tracking the masturbatory behaviors of nonhuman primates. Although some relevant data is probably buried in some mountain of field notes, I didn’t come across any targeted studies on the subject in wild chimpanzees , and even the prolific Jane Goodall doesn’t seem to have ever gone there. But nevertheless by all available accounts, and by contrast with human beings, masturbation to completion is an exceedingly rare phenomenon in other species with capable hands very much like our own. As anybody who has ever been to the zoo knows, there's no question that other primates play with their genitalia; the point is that these diddling episodes so seldom lead to an intentional orgasm.

So why don’t monkeys and apes masturbate even nearly as much as humans? It’s a rarity even among low status male nonhuman primates that frustratingly lack sexual access to females–in fact, the few observed incidents seem to be with dominant males. And why haven’t more researchers noticed such an obvious difference with potentially enormous significance for understanding the evolution of human sexuality? After all, it’s been nearly 60 years since Alfred Kinsey first reported that 92 percent of Americans were involved in masturbation leading to orgasm.

The answer for this cross-species difference, I’m convinced, lies in our uniquely evolved mental representational abilities—we alone have the power to conjure up at will erotic, orgasm-inducing scenes in our theater-like heads … internal, salacious fantasies completely disconnected from our immediate external realities. One early sex researcher, Wilhelm Stekel, described masturbation fantasies as a kind of trance or altered state of consciousness, “a sort of intoxication or ecstasy, during which the current moment disappears and the forbidden fantasy alone reigns supreme.”

toxoplasmosis and psychology

The Economist | IF AN alien bug invaded the brains of half the population, hijacked their neurochemistry, altered the way they acted and drove some of them crazy, then you might expect a few excitable headlines to appear in the press. Yet something disturbingly like this may actually be happening without the world noticing.

Toxoplasma gondii is not an alien; it is a relative of that down-to-earth pathogen Plasmodium, the beast that causes malaria. It is common: in some parts of the world as much as 60% of the population is infected with it. And it can harm fetuses and people with AIDS, because in each case their immune systems cannot cope with it. For other people, though, the symptoms are usually no worse than a mild dose of flu. Not much for them to worry about, then. Except that there is a growing body of evidence that some of those people have their behaviour permanently changed.

One reason to suspect this is that a country’s level of Toxoplasma infection seems to be related to the level of neuroticism displayed by its population. Another is that those infected seem to have poor reaction times and are more likely to be involved in road accidents. A third is that they have short attention spans and little interest in seeking out novelty. A fourth, possibly the most worrying, is that those who suffer from schizophrenia are more likely than those who do not to have been exposed to Toxoplasma.

Nor is any of this truly surprising. For, besides humans, Toxoplasma has two normal hosts: rodents and cats. And what it does to rodents is very odd indeed.

parasitic prevalence and IQ?

RoyalSociety | Here, we offer a new hypothesis—the parasite-stress hypothesis—to explain the worldwide distribution of intelligence. The brain is the most complex and costly organ in the human body. In human newborns, the brain demands 87 per cent of the body's metabolic budget, 44 per cent at age five, 34 per cent at age ten, and 23 per cent and 27 per cent for adult males and females, respectively (Holliday 1986). Presumably, if an individual cannot meet these energetic demands while the brain is growing and developing, the brain's growth and developmental stability will suffer. Lynn (1990, 1993) has argued that nutrition is vital to high degrees of mental development. Lynn (1990) suggested that nutrition may account for the Flynn effect (large increases in IQ over short periods of time as nations develop; Flynn 1987), and later (Lynn 1993) reviewed evidence showing that undernourished children have smaller heads, smaller brains and lower psychometric intelligence than sufficiently nourished children.

Parasitic infection affects the body, and hence the brain, energetically in four ways. (i) Some parasitic organisms feed on the host's tissues: the loss must be replaced at energetic cost to the host. Such organisms notably include flukes and many kinds of bacteria. (ii) Some parasites inhabit the intestinal tract or cause diarrhoea, limiting the host's intake of otherwise available nutrients. These notably include tapeworms, bacteria, giardia and amoebae. (iii) Viruses use the host's cellular machinery and macromolecules to reproduce themselves, at the energetic expense of the host. (iv) The host must activate its immune system to fight off the infection, at energetic expense. Of these, diarrhoeal diseases may impose the most serious cost on their hosts' energy budget. First, diarrhoeal diseases are the most common category of disease on every continent, and are one of the two top killers of children under five, accounting for 16 to 17 per cent of all of these deaths worldwide (WHO 2004a). Second, diarrhoea can prevent the body from accessing any nutrients at all. If exposed to diarrhoeal diseases during their first five years, individuals may experience lifelong detrimental effects to their brain development, and thus intelligence. Parasites may negatively affect cognitive function in other ways, such as by infecting the brain directly, but we focus only on energetic costs.

The worldwide distribution of parasites is well known. Disease-causing organisms of humans are more prevalent in equatorial regions of the world and become less prevalent as latitude increases. Ecological factors contributing to this distribution include mean annual temperature, monthly temperature range and precipitation (e.g. Guernier et al. 2004). Similar trends of parasite distribution have been shown in other host species (e.g. Møller 1998).

Many studies have shown a negative relationship between intestinal helminth infection and cognitive ability (reviewed in Watkins & Pollitt 1997; see also Dickson et al. 2000). Although several hypotheses have been proposed to explain this phenomenon, none have considered intestinal worms in the larger context of all parasitic infection, nor have they considered fully the energetic cost of infection and its consequences on the brain. Other studies have shown relationships between helminth infection and economic and educational factors that are related to intelligence. For example, Bleakley (2007) studied the effects of eradication of hookworm in the southern US during the early twentieth century, and found that areas where hookworm infections had been greatly reduced had higher average incomes after treatment than areas that had not received treatment. Jardin-Botelho et al. (2008) found that Brazilian children infected with hookworm performed more poorly on cognitive tests than uninfected children, and that children infected with more than one type of intestinal helminth performed more poorly than children infected with only one.

Thus, from the parasite-stress hypothesis, we predict that average national intelligence will correlate significantly and negatively with rates of infectious disease, and that infectious disease will remain an important predictor of average national intelligence when other variables are controlled for. It is the purpose of this study to introduce this hypothesis to describe the worldwide variation in intelligence, and to provide some supportive evidence using correlations and linear modelling techniques.

Tuesday, July 06, 2010

num8er my5teries

Guardian | Eager to find new ways to involve his readers in the mysteries of numbers, mathematician Marcus du Sautoy looked to new technology. A revolution is coming, he argues, and the whole idea of what a book can do is about to change.

Consider two books: Hilary Mantel's Wolf Hall and Lewis Carroll's Alice in Wonderland. Not the printed books, the apps – software for mobiles and the iPad. The Wolf Hall app is a thing of beauty. It contains the text, of course, but readers can also move slickly between the text, family trees of the Tudors and the Yorkists, extra articles by Mantel and a fascinating video discussion between the novelist and historian David Starkey. All of which gives a deeper and richer understanding of the novel's historical context and its characters.

But this is nothing compared to Alice for the iPad. You can throw tarts at the Queen of Hearts, help the Caterpillar smoke his hookah pipe, make Alice grow as big as a house and then shrink again. You can watch as "the Mad Hatter gets even madder", and throw pepper at the Duchess. Over the 52 pages of the app there are 20 animated scenes. Each illustration has been taken from the original book and has been made gravity-aware, responding to a shake, tilt or the touch of a finger. The story is never the same twice, because users are Alice's guide through Wonderland. The Caterpillar will smoke his hookah in a new way when you tilt your iPad, or you can throw more pepper the second time around.

It would have been quite simple to convert the printed files of Carroll's book and drop it straight on to the iBookstore, but what Atomic Antelope (atomicantelope.com) has done, through painstaking artistry, is to capture, for adults and children alike, the fantastical nature of the story. This is about recreating what a book is and can be. With the advent of new technology – devices such as the iPhone or iPad, the Sony Reader or the Kindle – authors and publishers are being offered a huge challenge: to reconceive their content to provide a visual and interactive experience that the printed book cannot provide. Art books with huge numbers of accessible images; architecture books with 3D plans of buildings; travel books with videos and interactive maps; children's books with games and characters who introduce themselves; and so on and on. The potential is vast. This is not a case of simply trying to cram written content on to an e-reader; this is about taking that content and completely reinventing it.

Currently readers are being offered little more than the novelty of a book on an electronic device, but the thrill of turning the page by clicking a button quickly pales. Many of the current projects are just tarted-up books for electronic media, but if it doesn't move the experience on to a new level, to enhance the material, what's the point? What authors and publishers need to do is to go back to the drawing board and, at the moment ideas are conceived, work out how – if at all – to make use of these new toys.

bookRings

organelle | The illustration at the top of the page represents a recombinant “ring of ‘books’”. It’s purpose is to at once suggest a ‘specific and valuable ring’ and also to illustrate the concept of scalarly recombinant ‘bookRings’— as a learningToy. To create and play with this toy we will imaginally credential the following assertions:

Language, and minds, have sources.
These sources are not yet clear.
Languages emerge from interscalar psybiocognitive connectivity. (not from humans or ‘knowledge’)

Our human experiential sentience is deeply linkted to ‘lingual’ systems and figures.
The sources of language and sentience are linked.
The stories of these linkages are far more interesting than we suppose.

Flatness is a cognitive problem created by mechanization.

Understandings of Emergence and Scalarity remedy flatness problems.

Chiastic relationships established via triangulations provide a positive toySystem for exploring these domains.

When we read books, we imply they are important. If any book can be important, we could decide that some books are essentially and functionally far more important than others — in a given set of active domains.

But by what means would we decide this?
A Toy:

(there is an ancient accessToy which all living creatures share. It is engineered to solve this riddle, faster, each time it's accessed by any being whatsoever. The toy is not hidden, but it is cognitive in nature. Language, and logics, can interfere with it dramatically)

You're spontaneously transported to 'the library of worlds'. This library contains every moment of every cognitive being's experience since the universe began (and unto it's end) encoded in tiny books; each one fits in your human palm.

As you arrive, you notice a note in your hand:

Greetings EarthHuman,

You are in the library of worlds. It is one square mile in surface area, and is octagonal in shape. You are in the center of the library.

Your world is dying. You've got 144 minutes of oxygen, thus, you are dying as well.

Within the time allotted to you, you must locate one of three books.

Book 1 will return you to your dying world.
Book II will return you with the knowledge to save it, but you will perish from having known it.
Book III Will rescue you and your world, leaving all parties unharmed.

Whichever book you open first, will accomplish that mission. You may open as many as you desire in the process of seeking. You need only open the book and glance at its pages once to resolve the dilemma.

There are more books here than you have cells in your entire lineage. To succeed, you will need to allow yourself to touch your sources. Any other strategy will result in your expiration, and that of your planet. The chances of you accidentally stumbling on even one of the books, without a real connection strategy aren't worth considering.

There are 288 shelves arranged in a starPattern around your current location. Speak the linkName of any book into the central station and that book will be delivered into your hand.

You are then given the internal understanding of the basics of access and standards of organization of the library. Somehow, this is ‘communicated into you’ instantly.

On the floor, at your feet, is a stopwatch. Twelve minutes have elapsed since your arrival.

If you can't locate the essential and ‘alingual’ migration skill in yourSelf, which book will most rapidly and efficiently lead you to the skill you seek?

Why?

Tick. Tock.
We could probably agree that, given a game of survival and elaboration, arriving in any library at all might imply that there is a single key book which is perhaps more important than any other possible book, to become cognitively intimate with. And strangely, there are 'more than one' such book(s)', in any library — part of this is a result of the essential generality of the universe and its paradigms of organizational symmetry.

Books, are, it turns out, scalar accretions more than they are linear recordings. This secret has for far too long been hidden. Experiencing it as a reader grants some extremely uncommon cognitive experiences, abilities, and emergent skills. That is the goal of this toy.

I believe that probably for as long as we have had written language there has been something that is in essence a ‘book of how to talk’ to the beings who live in the transports, which are within you, as you are within them.

This is the finest possible goal of knowing — to return us to active relation with its sources, and to authorize us to again experience the innocence, wonder, and miraculous nature of our birthright and their power to insure liberty, unity, mutual uplift, and rescue.

Fuck Robert Kagan And Would He Please Now Just Go Quietly Burn In Hell?

politico | The Washington Post on Friday announced it will no longer endorse presidential candidates, breaking decades of tradition in a...