When Fair Use Isn’t Fair

In her post, Antioxidants in Berries Increased by Ethanol (but Are Daiquiris Healthy?), Shelley Batts, commenting on a journal article which was written based on publicly funded research, used “ONE panel of ONE figure, and a chart, from over 10+ figures in the paper.” The for profit journal sent a threat of legal action. This is exactly the type of behavior that leads many (including me) to push for open access publication of publicly funded research.

When Fair Use Isn’t Fair:

Isn’t the point of publishing data to disseminate it, rather that lob threats at grad students who happen to be excited about it?

It should be but many of the for profit publishers seem to have mistaken their mission to promote science (which would then generate funds to sustain their organization) for a mission to make money with no concern for science.

One comment on that post includes a link to the Standford Fair Use Project which looks like a great resource. Also see: Intellectual Property Rights and Innovation

More on the Bee Deaths

Experts may have found what’s bugging the bees (link removed since content not freely available):

A fungus that caused widespread loss of bee colonies in Europe and Asia may be playing a crucial role in the mysterious phenomenon known as Colony Collapse Disorder that is wiping out bees across the United States, UC San Francisco researchers said Wednesday.

Researchers have been struggling for months to explain the disorder, and the new findings provide the first solid evidence pointing to a potential cause. But the results are “highly preliminary” and are from only a few hives from Le Grand in Merced County, UCSF biochemist Joe DeRisi said. “We don’t want to give anybody the impression that this thing has been solved.”

Other researchers said Wednesday that they too had found the fungus, a single-celled parasite called Nosema ceranae, in affected hives from around the country — as well as in some hives where bees had survived. Those researchers have also found two other fungi and half a dozen viruses in the dead bees.

N. ceranae is “one of many pathogens” in the bees, said entomologist Diana Cox-Foster of Pennsylvania State University. “By itself, it is probably not the culprit … but it may be one of the key players.”

Related: Bye Bye BeesMystery Ailment Strikes Honeybees

Fruit Better Than Vitamins

Fruit proves better than vitamin C alone. Tests show that it isn’t just the vitamin that protects the body.

Other nutrition researchers have suggested that sugars in juice interact with vitamin C to generate the antioxidant effect2. But Guarnieri suspects that the phytochemicals found in oranges (cyanidin-3-glucoside, flavanones and carotenoids) are the substances that need further study. “But how they are interacting is still anyone’s guess,” she adds.

Related: Eat Food. Eat Less. Mostly plants

Innovation with Math

Flight Plan:

Invented by scientists at the nearby Los Alamos National Laboratory in the 1980s, complexity science is a gumbo of insights drawn from fields as diverse as biology, physics, and economics. At its core is the belief that any seemingly complex and utterly random system or phenomenon–from natural selection to the stock market–emerges from the simple behavior of thousands or millions of individuals. Using computer algorithms to stand in for those individual “agents,” scientists discovered they could build fantastically powerful and detailed models of these systems if only they could nail down the right set of rules.

When Brown arrived in town in the late 1990s, many of the scientists-in-residence at the Santa Fe Institute–the serene think tank dedicated to the contemplation of complexity–were rushing to commercialize their favorite research topics. The Prediction Co. was profitably gaming Wall Street by spotting and exploiting small pockets of predictability in capital flows. An outfit called Complexica was working on a simulator that could basically model the entire insurance industry, acting as a giant virtual brain to foresee the implications of any disaster. And the BiosGroup was perfecting agent-based models that today would fall under the heading of “artificial life.”

Eat Less Salt – Save Your Heart

Reducing salt cuts cardiovascular disease risk:

Cutting back on salt intake could lower the risk of developing heart disease by 25 per cent, in addition to lower blood pressure benefits, say researchers who studied people with borderline high blood pressure. Researchers in the U.S. looked at more than 3,000 people in two trials with pre-hypertension who reduced their sodium intake by 25 per cent to 35 per cent, compared with control groups that did not.

Cut Heart Risk by Eating Less Salt:

Last summer, the American Medical Association (AMA) called for a minimum 50% reduction in sodium in processed foods, fast foods, and non-fast-food restaurant meals within a decade. The group also called on the FDA to work harder to educate consumers about the health risks associated with a high-sodium diet.

“The average American is eating three times as much salt as is healthy every day — the equivalent of 2 to 3 teaspoons instead of no more than 1,” he says. “The assumption tends to be, ‘If I don’t use my salt shaker much, I’m probably OK,’ but that just isn’t true.”

Related: Cutting salt ‘reduces heart risk’

10 Lessons of an MIT Education

Very good, definitely worth reading – 10 Lessons of an MIT Education by Gian-Carlo Rota:

In science and engineering, you can fool very little of the time. Most of the sweeping generalizations one hears about MIT undergraduates are too outrageous to be taken seriously. The claim that MIT students are naive, however, has struck me as being true, at least in a statistical sense.

Last year, for example, one of our mathematics majors, who had accepted a lucrative offer of employment from a Wall Street firm, telephoned to complain that the politics in his office was “like a soap opera.” More than a few MIT graduates are shocked by their first contact with the professional world after graduation. There is a wide gap between the realities of business, medicine, law, or applied enginering, for example, and the universe of scientific objectivity and theoretical constructs that is MIT.

An education in engineering and science is an education in intellectual honesty. Students cannot avoid learning to acknowledge whether or not they have really learned. Once they have taken their first quiz, all MIT undergraduates know dearly they will pay if they fool themselves into believing they know more than is the case.

On campus, they have been accustomed to people being blunt to a fault about their own limitations-or skills-and those of others. Unfortunately, this intellectual honesty is sometimes interpreted as naivete.

Toy and Entertainment Engineering Camp

via our post suggestion page, this Toy and Entertainment Engineering camp looks interesting (for students or a teacher) to me.

My name is Rebecca and I work for a Branded Camp Services. We design and operate residential academic summer camps for high school students.

This year, at Union College in Schenectady, we will be offering a course in Toy and Entertainment Engineering. I’m looking to hire an
energetic teacher for both two-week sessions in July. Most of our teachers are currently in graduate school or recent graduates. This
class is brand new and we’re having a harder time recruiting because of its specialized nature.

Thanks! You can apply by writing me at Rebecca at brandedcampservices.com

Quantum Theory Fails Reality Checks

Quantum Theory Fails Reality Checks

Reality just got a one-two punch. A new experiment has tried to suss out which of two counterintuitive ingredients is more basic to quantum theory, only to find that they go hand in hand.

Einstein was famously bugged by what are now well-established facts of quantum theory: the randomness of a particle’s choices and the possibility of instantaneous linkages between far-flung light or matter. Experimenters now conclude that Einstein cannot even pick his poison, because allowing for instant links kills any simple notion of reality, too.

$600 Million for Basic Biomedical Research

Howard Hughes Medical Institute (HHMI) will hold a national competition for investigators that will result in an investment of at least $600 million in basic biomedical research. Up to 50 new researchers will be selected by spring 2008. HHMI Announces New Open Competition:

HHMI seeks applications from outstanding scientists studying biomedical problems in a broad array of disciplines, including not only biology and medicine, but related areas of chemistry, physics, engineering and computational biology. This competition is open to early career stage scientists at approximately 200 eligible institutions.

HHMI values innovation and encourages its investigators to extend the boundaries of science. By appointing scientists as Hughes investigators — rather than awarding research grants — HHMI is guided by the principle of “people, not projects.” HHMI investigators have the freedom to explore and, if necessary, to change direction in their research. Moreover, they have support to follow their ideas through to fruition — even if that process takes many years.

This new competition represents the first time that HHMI has opened up a general competition to the direct application process. In the past, faculty members had to be nominated by their institutions for HHMI investigator positions.

More details and apply via: 2008 HHMI Investigator Competition.

Innovative Alarm Clocks

I heard about clocky last year on NPR and again last week. Gauri Nanda, designed clocky while a student at MIT – an alarm clock that runs and hides so you have to get out of bed to turn it off. She has since manufactured them and now you can buy your very own mobile clock.

There is also the April Fools joke, SnÅ«zNLÅ«z – Wifi Donation Alarm Clock, but I think people would really buy it. “Connects via WiFi to your online bank account, and donates YOUR real money to an organization you HATE when you decide to snooze!”