Headline of the day
Southern Baptists Fight Climate Change...
Are they for it or against it? Either way, it sounds like a job for Moses.
All it took was a knock on the door from some mook selling magazines. Next thing you know, people are flushing all kinds of things down the toilet.
Prescription drugs found in drinking water across U.S.
A vast array of pharmaceuticals -- including antibiotics, anti-convulsants, mood stabilizers and sex hormones -- have been found in the drinking water supplies of at least 41 million Americans, an Associated Press investigation shows.
Officials in Philadelphia say testing there discovered 56 pharmaceuticals or byproducts in treated drinking water.
To be sure, the concentrations of these pharmaceuticals are tiny, measured in quantities of parts per billion or trillion, far below the levels of a medical dose. Also, utilities insist their water is safe.
But the presence of so many prescription drugs -- and over-the-counter medicines like acetaminophen and ibuprofen -- in so much of our drinking water is heightening worries among scientists of long-term consequences to human health.
In the course of a five-month inquiry, the AP discovered that drugs have been detected in the drinking water supplies of 24 major metropolitan areas -- from Southern California to Northern New Jersey, from Detroit, Michigan, to Louisville, Kentucky. Map: See the cities where drugs were found in drinking water »
Water providers rarely disclose results of pharmaceutical screenings, unless pressed, the AP found. For example, the head of a group representing major California suppliers said the public "doesn't know how to interpret the information" and might be unduly alarmed.
How do the drugs get into the water?
People take pills. Their bodies absorb some of the medication, but the rest of it passes through and is flushed down the toilet. The wastewater is treated before it is discharged into reservoirs, rivers or lakes. Then, some of the water is cleansed again at drinking water treatment plants and piped to consumers. But most treatments do not remove all drug residue.
And while researchers do not yet understand the exact risks from decades of persistent exposure to random combinations of low levels of pharmaceuticals, recent studies -- which have gone virtually unnoticed by the general public -- have found alarming effects on human cells and wildlife.
A 'growing concern'
"We recognize it is a growing concern and we're taking it very seriously," said Benjamin H. Grumbles, assistant administrator for water at the U.S. Environmental Protection Agency.
Members of the AP National Investigative Team reviewed hundreds of scientific reports, analyzed federal drinking water databases, visited environmental study sites and treatment plants and interviewed more than 230 officials, academics and scientists. Video Watch more about what's in our drinking water »
They also surveyed the nation's 50 largest cities and a dozen other major water providers, as well as smaller community water providers in all 50 states.
Here are some of the key test results obtained by the AP:
• Officials in Philadelphia, Pennsylvania, said testing there discovered 56 pharmaceuticals or byproducts in treated drinking water, including medicines for pain, infection, high cholesterol, asthma, epilepsy, mental illness and heart problems. Sixty-three pharmaceuticals or byproducts were found in the city's watersheds.
• Anti-epileptic and anti-anxiety medications were detected in a portion of the treated drinking water for 18.5 million people in Southern California.
• Researchers at the U.S. Geological Survey analyzed a Passaic Valley Water Commission drinking water treatment plant, which serves 850,000 people in Northern New Jersey, and found a metabolized angina medicine and the mood-stabilizing carbamazepine in drinking water.
• A sex hormone was detected in the drinking water of San Francisco, California.
• The drinking water for Washington, D.C., and surrounding areas tested positive for six pharmaceuticals.
The situation is undoubtedly worse than suggested by the positive test results in the major population centers documented by the AP.
Testing not required
The federal government doesn't require any testing and hasn't set safety limits for drugs in water.
Of the 62 major water providers contacted, the drinking water for only 28 was tested. Among the 34 that haven't: Houston, Texas; Chicago, Illinois; Miami, Florida; Baltimore, Maryland; Phoenix, Arizona; Boston, Massachusetts; and New York City's Department of Environmental Protection, which delivers water to 9 million people.
Some providers screen for only one or two pharmaceuticals, leaving open the possibility that others are present.
The AP's investigation also indicates that watersheds, the natural sources of most of the nation's water supply, also are contaminated. Tests were conducted in the watersheds of 35 of the 62 major providers surveyed by the AP, and pharmaceuticals were detected in 28.
Yet officials in six of those 28 metropolitan areas said they did not go on to test their drinking water -- Fairfax, Virginia; Montgomery County in Maryland; Omaha, Nebraska; Oklahoma City, Oklahoma; Santa Clara, California; and New York City.
The New York state health department and the USGS tested the source of the city's water, upstate. They found trace concentrations of heart medicine, infection fighters, estrogen, anti-convulsants, a mood stabilizer and a tranquilizer.
City water officials declined repeated requests for an interview. In a statement, they insisted that "New York City's drinking water continues to meet all federal and state regulations regarding drinking water quality in the watershed and the distribution system" -- regulations that do not address trace pharmaceuticals.
In several cases, officials at municipal or regional water providers told the AP that pharmaceuticals had not been detected, but the AP obtained the results of tests conducted by independent researchers that showed otherwise.
Of the 28 major metropolitan areas where tests were performed on drinking water supplies, only Albuquerque, New Mexico; Austin, Texas; and Virginia Beach, Virginia, said tests were negative. The drinking water in Dallas, Texas, has been tested, but officials are awaiting results. Arlington, Texas, acknowledged that traces of a pharmaceutical were detected in its drinking water but cited post-9/11 security concerns in refusing to identify the drug.
The AP also contacted 52 small water providers -- one in each state, and two each in Missouri and Texas -- that serve communities with populations around 25,000. All but one said their drinking water had not been screened for pharmaceuticals; officials in Emporia, Kansas, refused to answer AP's questions, also citing post-9/11 issues.
Rural, bottled water also unchecked
Rural consumers who draw water from their own wells aren't in the clear either, experts say.
Even users of bottled water and home filtration systems don't necessarily avoid exposure. Bottlers, some of which simply repackage tap water, do not typically treat or test for pharmaceuticals, according to the industry's main trade group. The same goes for the makers of home filtration systems.
Contamination is not confined to the United States. More than 100 different pharmaceuticals have been detected in lakes, rivers, reservoirs and streams throughout the world. Studies have detected pharmaceuticals in waters throughout Asia, Australia, Canada and Europe -- even in Swiss lakes and the North Sea.
In the United States, the problem isn't confined to surface waters. Pharmaceuticals also permeate aquifers deep underground, the source of 40 percent of the nation's water supply. Federal scientists who drew water in 24 states from aquifers near contaminant sources such as landfills and animal feed lots found minuscule levels of hormones, antibiotics and other drugs.
Perhaps it's because Americans have been taking drugs -- and flushing them unmetabolized or unused -- in growing amounts. Over the past five years, the number of U.S. drug prescriptions rose 12 percent to a record 3.7 billion, while nonprescription drug purchases held steady around 3.3 billion, according to IMS Health and The Nielsen Co.
Medications not all absorbed
"People think that if they take a medication, their body absorbs it and it disappears, but of course that's not the case," said EPA scientist Christian Daughton, one of the first to draw attention to the issue of pharmaceuticals in water in the United States.
Some drugs, including widely used cholesterol fighters, tranquilizers and anti-epileptic medications, resist modern drinking water and wastewater treatment processes. Plus, the EPA says there are no sewage treatment systems specifically engineered to remove pharmaceuticals.
Veterinary drugs also play a role. Pets are now treated for a wide range of ailments -- sometimes with the same drugs as humans. The inflation-adjusted value of veterinary drugs rose by 8 percent, to $5.2 billion, over the past five years, according to an analysis of data from the Animal Health Institute.
Ask the pharmaceutical industry whether the contamination of water supplies is a problem, and officials will tell you no.
"Based on what we now know, I would say we find there's little or no risk from pharmaceuticals in the environment to human health," said microbiologist Thomas White, a consultant for the Pharmaceutical Research and Manufacturers of America.
But at a conference last summer, Mary Buzby -- director of environmental technology for drug maker Merck & Co. Inc. -- said: "There's no doubt about it, pharmaceuticals are being detected in the environment and there is genuine concern that these compounds, in the small concentrations that they're at, could be causing impacts to human health or to aquatic organisms."
Recent laboratory research has found that small amounts of medication have affected human embryonic kidney cells, human blood cells and human breast cancer cells. The cancer cells proliferated too quickly; the kidney cells grew too slowly; and the blood cells showed biological activity associated with inflammation.
Also, pharmaceuticals in waterways are damaging wildlife across the nation and around the globe, research shows. Notably, male fish are being feminized, creating egg yolk proteins, a process usually restricted to females. Pharmaceuticals also are affecting sentinel species at the foundation of the pyramid of life -- such as earthworms in the wild and zooplankton in the laboratory, studies show.
Wildlife problems troubling
Some scientists stress that the research is extremely limited, and there are too many unknowns. They say, though, that the documented health problems in wildlife are disconcerting.
To the degree that the EPA is focused on the issue, it appears to be looking at detection. Grumbles acknowledged that just late last year the agency developed three new methods to "detect and quantify pharmaceuticals" in wastewater.
"We realize that we have a limited amount of data on the concentrations," he said. "We're going to be able to learn a lot more."
So much is unknown. Many independent scientists are skeptical that trace concentrations will ultimately prove to be harmful to humans. There's growing concern in the scientific community, though, that certain drugs -- or combinations of drugs -- may harm humans over decades because water, unlike most specific foods, is consumed in sizable amounts every day.
Our bodies may shrug off a relatively big one-time dose, yet suffer from a smaller amount delivered continuously over a half century, perhaps subtly stirring allergies or nerve damage. Pregnant women, the elderly and the very ill might be more sensitive.
"We know we are being exposed to other people's drugs through our drinking water, and that can't be good," says Dr. David Carpenter, who directs the Institute for Health and the Environment of the State University of New York at Albany.
Sounds like the title for a Philip K. Dick novel.
Can Moths Or Butterflies Remember What They Learned As Caterpillars?
ScienceDaily (Mar. 8, 2008) — Butterflies and moths are well known for their striking metamorphosis from crawling caterpillars to winged adults. In light of this radical change, not just in body form, but also in lifestyle, diet and dependence on particular sensory cues, it would seem unlikely that learned associations or memories formed at the larval or caterpillar stage could be accessible to the adult moth or butterfly. However, scientists at Georgetown University recently discovered that a moth can indeed remember what it learned as a caterpillar.
The Georgetown researchers found that tobacco hornworm caterpillars could be trained to avoid particular odors delivered in association with a mild shock. When adult moths emerged from the pupae of trained caterpillars, they also avoided the odors, showing that they retained their larval memory. The Georgetown University study is the first to demonstrate conclusively that associative memory can survive metamorphosis in Lepidoptera--the order of insects that includes moths and butterflies--and provokes new questions about the organization and persistence of the central nervous system during metamorphosis.
"The intriguing idea that a caterpillar's experiences can persist in the adult butterfly or moth captures the imagination, as it challenges a broadly-held view of metamorphosis -- that the larva essentially turns to soup and its components are entirely rebuilt as a butterfly," says senior author Martha Weiss, an associate professor of Biology at Georgetown University.
"Scientists have been interested in whether memory can survive metamorphosis for over a hundred years," says first author Doug Blackiston, who completed the interdisciplinary research while earning a PhD in Biology from Georgetown University in the labs of developmental biologist Elena Casey and behavioral ecologist Martha Weiss. The brain and nervous system of caterpillars is dramatically reorganized during the pupal stage and it has not been clear whether memory could survive such drastic changes.
The findings of the Georgetown researchers suggest the retention of memory is dependent on the maturity of the developing caterpillars' brains. Caterpillars younger than three weeks of age learned to avoid an odor, but could not recall the information as adults, whereas older caterpillars, conditioned in the final larval stage before pupation, learned to avoid the odor and recalled the information as adults. In addition, the results have both ecological and evolutionary implications, as retention of memory through metamorphosis could allow a female butterfly or other insect to lay her eggs on the type of host plant that she herself had fed on as a larva, a behavior that could shape habitat selection and eventually lead to development of a new species.
While most research on learning and memory in insects has centered on social insects, such as honeybees or ants, Weiss' lab is particularly interested in solitary insects, such as butterflies, praying mantids, and mud-dauber wasps. Weiss and her colleagues will continue to study how these self-sufficient, multitasking insects use learning and memory skills to adapt to their environments.
This study was farther afield from the neural cell specification research that is ongoing in Casey's lab. Casey, associate professor of Biology at Georgetown, focuses on identifying the signals that are required to direct a cell to develop into a neuron and determining how the complex human central nervous system evolved.
Blackiston, now conducting postdoctoral work at the Forsyth Center for Regenerative and Developmental Biology and the Department of Developmental Biology at the Harvard School of Dental Medicine, is currently examining learning and memory in aquatic vertebrates.
More evidence that some people area more like this than that, sometimes.
Profound Impact Of Our Unconscious On Reaching Goals Revealed
ScienceDaily (Mar. 8, 2008) — Whether you are a habitual list maker, or you prefer to keep your tasks in your head, everyone pursues their goals in this ever changing, chaotic environment. We are often aware of our conscious decisions that bring us closer to reaching our goals, however to what extent can we count on our unconscious processes to pilot us toward our destined future?
People can learn rather complex structures of the environment and do so implicitly, or without intention. Could this unconscious learning be better if we really wanted it to?
Hebrew University psychologists, Baruch Eitam, Ran Hassin and Yaacov Schul, examined the benefit of non-conscious goal pursuit (moving toward a desired goal without being aware of doing so) in new environments. Existing theory suggests that non-conscious goal pursuit only reproduces formerly learned actions, therefore ineffective in mastering a new skill. Eitam and colleagues argue the opposite: that non-conscious goal pursuit can help people achieve their goals, even in a new environment, in which they have no prior experience.
In the first of two experiments, Eitam and colleagues had participants complete a word search task. One half of the participants’ puzzles included words associated with achievement (e.g. strive, succeed, first, and win), while the other half performed a motivationally neutral puzzle including words such as, carpet, diamond and hat. Then participants performed a computerized simulation of running a sugar factory.
Their goal in the simulation was to produce a specific amount of sugar. They were only told that they could change the number of employees in the factory. Although participants were not told about the complex relationship that existed between the number of employees and past production levels (and could not verbalize it after the experiment had ended); they gradually grew better in controlling the factory.
As predicted, the non-consciously motivated participants (the group that had previously found words associated with achievement) learned to control the factory better than the control group.
In a second experiment the researchers replicated the findings by having participants perform a simple task of responding to a circle that repeatedly appeared in one of four locations. They were not told that the circle (sometimes) appeared in a fixed sequence of locations. Non-consciously motivated participants had again (nonconsciously) learned the sequence better than control participants.
“Taken together, both studies suggest that the powerful, unintentional, mechanism of implicit learning is related to our non-conscious wanting and works towards attaining our non-conscious goals,” the researchers write. These results, which appear in the March issue of Psychological Science, a journal of the Association for Psychological Science, reveal an unconscious process that has both an advantage over conscious processing and an ability to serve a person’s current goals. Such unconscious processes may be responsible for far more of human ability than is yet recognized.
Kind of like “Transformers,” only bigger
CAPE CANAVERAL, Florida (AP) -- Astronauts bound for orbit this week will dabble in science fiction, assembling a "monstrous" two-armed space station robot that will rise like Frankenstein from its transport bed.
Endeavour commander Dominic Gorie, left, and pilot Gregory Johnson will help assemble a space robot.
Putting together Dextre, the robot, will be one of the main jobs for the seven Endeavour astronauts, who are scheduled to blast off in the wee hours of Tuesday, less than three weeks after the last shuttle flight.
They're also delivering the first piece of Japan's massive Kibo space station lab, a float-in closet for storing tools, experiments and spare parts. For the first time, each of the five major international space station partners will own a piece of the real estate.
At 16 days, the mission will be NASA's longest space station trip ever and will include five spacewalks, the most ever performed while a shuttle is docked there. Three of those spacewalks will feature Dextre, which is sure to steal the show.
With 11-foot arms, a shoulder span of nearly 8 feet and a height of 12 feet, the Canadian Space Agency's Dextre -- short for dexterous and pronounced like Dexter -- is more than a little intimidating, at least for astronaut Garrett Reisman.
"Now I wouldn't go as far to say that we're worried it's going to go run amok and take over the space station or turn evil or anything because we all know how it's operated and it doesn't have a lot of its own intelligence," Reisman told The Associated Press last week.
"But I'll tell you something ... He's enormous and to see him with his giant arms, it is a little scary. It's a little monstrous, it is."
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Dextre will be flying up aboard Endeavour in pieces, and it will be up to a team of spacewalking astronauts to assemble the 3,400-pound robot and attach it to the outside of the space station. That job will fall to Reisman, Michael Foreman and Richard Linnehan.
"I feel kind of like dad on Christmas Eve, you know, opening up this present and trying to put it together for the son or daughter and going, 'Whoa, what have I gotten myself into here with this 'some assembly required' part of the space station," Foreman said.
Reisman, who will be moving into the space station, can't wait to see Dextre rise from its shuttle transport pallet, rotating up "almost like it's Frankenstein's monster coming alive."
In reality, there's nothing sinister about Dextre. The robot, in fact, was once in the running to be the Hubble Space Telescope's savior.
Following the 2003 Columbia disaster, NASA canceled the last remaining Hubble repair mission by shuttle astronauts because of safety concerns, and considered sending Dextre up to do the job. The shuttle flight was restored after a change at NASA's helm -- it's scheduled for late summer -- and Dextre went back to being a space station assistant.
Dextre -- which cost more than $200 million -- was created by the same Canadian team that built the space shuttle and space station robot arms.
Equipped with a tool holster, Dextre is designed to assist spacewalking astronauts and, ultimately, to take over some of their dangerous outdoor work.
Dextre can pivot at the waist, and has seven joints per arm. Its hands, or grippers, have built-in socket wrenches, cameras and lights. Only one arm is designed to move at a time to keep the robot stable and avoid a two-arm collision. The robot has no face or legs, and with its long arms certainly doesn't look human.
Space station astronauts will be able to control Dextre, as will flight controllers on the ground. The robot will be attached at times to the end of the space station arm, and also be able to ride by itself along the space station arm's railway.
Canadian officials said they're convinced Dextre could have pulled off the Hubble repair job, and should have no problems replacing old batteries and other space station parts.
"It's quite surprising what a robot like Dextre can do with its sense of touch and its precision," said Daniel Rey, a Canadian Space Agency engineer who heads the project.
Dextre has only three tools, for now, versus the more than 100 tools available to spacewalking astronauts, Rey said. It will probably take months to learn how to properly use the robot; its first real job could come next year.
Linnehan, who worked on Hubble in 2002, wonders just how much Dextre will be able to do.
Even though it's suited for space station maintenance, astronauts are faster, Linnehan said. As for Hubble, he said Dextre cannot compare to a human repairman because it lacks fine motor control, and cannot think and react to problems that might crop up.
That said, Linnehan acknowledges it's "a cool project" that reminds him of Japanese animation shows from decades past, namely Gigantor the space-age robot. NASA officials agree that a big part of Dextre is learning how robots operate in space, for future exploration.
Dextre, by the way, isn't necessarily a "he."
"I tend to use 'he' because I think Dextre is a masculine name," Rey said. "But it's a robot. It's tele-operated. It doesn't have artificial intelligence yet. So I need to be more careful when I say 'he.'
CAPE CANAVERAL, Florida (AP) -- Astronauts bound for orbit this week will dabble in science fiction, assembling a "monstrous" two-armed space station robot that will rise like Frankenstein from its transport bed.
art.space.shuttle.ap.jpg
Endeavour commander Dominic Gorie, left, and pilot Gregory Johnson will help assemble a space robot.
Putting together Dextre, the robot, will be one of the main jobs for the seven Endeavour astronauts, who are scheduled to blast off in the wee hours of Tuesday, less than three weeks after the last shuttle flight.
They're also delivering the first piece of Japan's massive Kibo space station lab, a float-in closet for storing tools, experiments and spare parts. For the first time, each of the five major international space station partners will own a piece of the real estate.
At 16 days, the mission will be NASA's longest space station trip ever and will include five spacewalks, the most ever performed while a shuttle is docked there. Three of those spacewalks will feature Dextre, which is sure to steal the show.
With 11-foot arms, a shoulder span of nearly 8 feet and a height of 12 feet, the Canadian Space Agency's Dextre -- short for dexterous and pronounced like Dexter -- is more than a little intimidating, at least for astronaut Garrett Reisman.
"Now I wouldn't go as far to say that we're worried it's going to go run amok and take over the space station or turn evil or anything because we all know how it's operated and it doesn't have a lot of its own intelligence," Reisman told The Associated Press last week.
"But I'll tell you something ... He's enormous and to see him with his giant arms, it is a little scary. It's a little monstrous, it is."
Dextre will be flying up aboard Endeavour in pieces, and it will be up to a team of spacewalking astronauts to assemble the 3,400-pound robot and attach it to the outside of the space station. That job will fall to Reisman, Michael Foreman and Richard Linnehan.
"I feel kind of like dad on Christmas Eve, you know, opening up this present and trying to put it together for the son or daughter and going, 'Whoa, what have I gotten myself into here with this 'some assembly required' part of the space station," Foreman said.
Reisman, who will be moving into the space station, can't wait to see Dextre rise from its shuttle transport pallet, rotating up "almost like it's Frankenstein's monster coming alive."
In reality, there's nothing sinister about Dextre. The robot, in fact, was once in the running to be the Hubble Space Telescope's savior.
Following the 2003 Columbia disaster, NASA canceled the last remaining Hubble repair mission by shuttle astronauts because of safety concerns, and considered sending Dextre up to do the job. The shuttle flight was restored after a change at NASA's helm -- it's scheduled for late summer -- and Dextre went back to being a space station assistant.
Dextre -- which cost more than $200 million -- was created by the same Canadian team that built the space shuttle and space station robot arms.
Equipped with a tool holster, Dextre is designed to assist spacewalking astronauts and, ultimately, to take over some of their dangerous outdoor work.
Dextre can pivot at the waist, and has seven joints per arm. Its hands, or grippers, have built-in socket wrenches, cameras and lights. Only one arm is designed to move at a time to keep the robot stable and avoid a two-arm collision. The robot has no face or legs, and with its long arms certainly doesn't look human.
Space station astronauts will be able to control Dextre, as will flight controllers on the ground. The robot will be attached at times to the end of the space station arm, and also be able to ride by itself along the space station arm's railway.
Canadian officials said they're convinced Dextre could have pulled off the Hubble repair job, and should have no problems replacing old batteries and other space station parts.
"It's quite surprising what a robot like Dextre can do with its sense of touch and its precision," said Daniel Rey, a Canadian Space Agency engineer who heads the project.
Dextre has only three tools, for now, versus the more than 100 tools available to spacewalking astronauts, Rey said. It will probably take months to learn how to properly use the robot; its first real job could come next year.
Linnehan, who worked on Hubble in 2002, wonders just how much Dextre will be able to do.
Even though it's suited for space station maintenance, astronauts are faster, Linnehan said. As for Hubble, he said Dextre cannot compare to a human repairman because it lacks fine motor control, and cannot think and react to problems that might crop up.
That said, Linnehan acknowledges it's "a cool project" that reminds him of Japanese animation shows from decades past, namely Gigantor the space-age robot. NASA officials agree that a big part of Dextre is learning how robots operate in space, for future exploration.
Dextre, by the way, isn't necessarily a "he."
"I tend to use 'he' because I think Dextre is a masculine name," Rey said. "But it's a robot. It's tele-operated. It doesn't have artificial intelligence yet. So I need to be more careful when I say 'he.'
“Danger Will Robinson, danger.
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