As I was sitting patiently in Long Beach waiting to exit the plane and listening to that weird sawing sound that I hear every time I fly on an Airbus A320, I was wondering two things:

1) Why does it sound like Paul Bunyon is attacking my plane with a drywall saw, and

2) Who is going to be the first person to make some stupid joke, like “Oh no, Paul Bunyon is attacking our plane with a drywall saw!” Would it be the young woman to my right in 20D — we’ll call her “Cathy” — with whom I was fiercely trying not to make eye contact for the duration of the flight, for fear that I would be not only subjected to the inordinate flow of words streaming from her mouth, but also socially obliged to smile and nod at the relevant pauses in her soliloquy?

New research, reported this week in the online early edition of the Proceedings of the National Academy of Sciences, finds that coal burning, primarily in North America and Europe, contaminated the Arctic and potentially affected human health and ecosystems in and around Earth's polar regions.

The study, titled "Coal Burning Leaves Toxic Heavy Metal Legacy in the Arctic," was conducted by the Desert Research Institute (DRI), Reno, Nev. and partially funded by the National Science Foundation.

Detailed measurements from a Greenland ice core showed pollutants from burning coal--the toxic heavy metals cadmium, thallium and lead--were much higher than expected. The catch, however, was the pollutants weren't higher at the times when researchers expected peaks.

Fast memory chips such as DRAMs and SRAMs (Dynamic and Static Random Access Memory) commonly used today have one decisive disadvantage: in case of power interruption, they lose their stored information. This problem could be solved by magnetic memory chips called MRAMs (Magnetic Random Access Memory). In MRAM the digital information is not stored by means of electric charge but by means of the orientation of the magnetization of a magnetic cell.

An experiment carried out at the Physikalisch-Technische Bundesanstalt (PTB) has realized spin torque switching of a nanomagnet as fast as the fundamental speed limit allows. Using this so-called ballistic switching future non-volatile magnetic memories could operate as fast as the fastest non-volatile memories. The experiments are described in the next issue of Physical Review Letters (22 August, 2008).

Self-recognition, it has been argued, is a hallmark of advanced cognitive abilities in animals. It was previously thought that only the usual suspects of higher cognition—some great apes, dolphins, and elephants—were able to recognize their own bodies in a mirror. In a PLoS Biology article, psychologist Helmut Prior and colleagues show evidence of self-recognition in magpies — a species with a brain structure very different from mammals.

The researchers subjected the magpies to a mark test, wherein a mark is placed on the subject's body in such a way that it can only be seen in a mirror. When the magpies engaged in activity that was directed towards the mark (e.g. scratching at it), the researchers were able to conclude that these birds recognized the image in the mirror as themselves, and not another animal.

Cells obtained from menstrual blood, termed 'endometrial regenerative cells' (ERCs), are capable of restoring blood flow in an animal model of advanced peripheral artery disease, according to a study published today in Journal of Translational Medicine. When circulation-blocked mice were treated with ERC injections, circulation and functionality were restored.

Critical limb ischemia, an advanced form of peripheral artery disease, causes approximately 150,000 amputations per year in the US. Currently there are no medical or surgical interventions that are effective in the advanced stages of the disease. ERCs are cells taken from menstrual blood that are capable of forming into at least 9 different tissue types, including heart, liver and lung. Their discovery won the 'Medicine Research Award of the Year' award for BioMed Central's Research Awards in 2007.

Knowing the words for numbers is not necessary to be able to count, according to a new study of aboriginal children by UCL (University College London) and the University of Melbourne. The study of the aboriginal children from two communities which do not have words or gestures for numbers found that they were able to copy and perform number-related tasks.

The findings suggest that we possess an innate mechanism for counting, which may develop differently in children with dyscalculia, a lessor-known learning disability that affects mathatical calculations.

Whether a family attends religious services has as much of an impact on a teen's grade point average as whether the student's parents earned a college degree, a University of Iowa study indicates.

Researchers found that on average, students whose parents received a four-year college degree average a GPA .12 higher than those whose parents only completed a high school education. Students who attend religious services weekly average a GPA .144 higher than those who never attend services, said Jennifer Glanville, a sociologist in the UI College of Liberal Arts and Sciences who led the study.

Other studies have noted a link between religious service attendance and positive educational outcomes, but this is one of the first to look at why.

Cocoa flavanols may increase blood flow to the brain, according to new research published in the Neuropsychiatric Disease and Treatment journal. The researchers suggest that long-term improvements in brain blood flow could impact cognitive behavior, offering future potential for debilitating brain conditions including dementia and stroke.

In a Mars, Inc. study of healthy, older adults ages 59 to 83, Harvard medical scientists found that study participants who regularly drank a cocoa flavanol-rich beverage made using the Mars Cocoapro process had an eight percent increase in brain blood flow after one week, and 10 percent increase after two weeks.

The summer games in Beijing are not the only place where the United States can claim gold medal bragging rights. The sixth International Linguistics Olympiad ended Friday in Slanchev Bryag, Bulgaria, and U.S. high school students captured 11 out of 33 awards, including gold medals in individual and team events. This was only the second time the U.S. has ever competed in the event. Their achievement brings a new focus on computational linguistics.

This year's Olympiad featured 16 teams from around the world, including Bulgaria, Estonia, Germany, Latvia, the Netherlands, Poland, Russia, Sweden, South Korea and Slovenia. Each problem presented clues about the sounds, words or grammar of a language the students had never studied, such as Micmac, a Native American language spoken in Canada, the New Caledonia languages of Drehu and Cemuhi, as well as several historical Chinese dialects. They were then judged by how accurately and quickly they could untangle the clues to figure out the rules and structures of the languages to solve the problem.

Tetra-Amido Macrocyclic Ligands (TAMLs) are environmentally friendly catalysts with a host of applications for reducing and cleaning up pollutants, and a prime example of "green chemistry."

Carnegie Mellon University's Terry Collins, the catalyst's inventor, believes that the small-molecule catalysts have the potential to be even more effective than previously proven. Collins will discuss how iron-TAMLs (Fe-TAMLs) work and areas for further research, citing evidence from mechanistic and kinetic studies of the catalyst on Monday, Aug. 18 at the 236th national meeting of the American Chemical Society in Philadelphia.