Author Archives: Guest Post

Study Identifies Deepwater Horizon Debris as Likely Source of Gulf of Mexico Oil Sheens

A chemical analysis of oil sheens found floating recently at the ocean’s surface near the site of the Deepwater Horizon disaster indicates that the source is pockets of oil trapped within the wreckage of the sunken rig. Both the Macondo well and natural oil seeps common to the Gulf of Mexico were confidently ruled out.

Researchers from Woods Hole Oceanographic Institution (WHOI) and the University of California, Santa Barbara (UCSB) used a recently-patented method to fingerprint the chemical makeup of the sheens and to estimate the location of the source based on the extent to which gasoline-like compounds evaporated from the oil sheens. The study was published online in Environmental Science & Technology. (more…)

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Evolution picks up hitchhikers

In a twist on “survival of the fittest,” researchers have discovered that evolution is driven not by a single beneficial mutation but rather by a group of mutations, including ones called “genetic hitchhikers” that are simply along for the ride. These hitchhikers are mutations that do not appear to have a role in contributing to an organism’s fitness and therefore its evolution, yet may play an important role down the road.

Researchers from Princeton University found in a study of 1,000 generations of adaptation in 40 yeast populations that about five to seven specific mutations, rather than just a one, are needed for an organism to succeed. The knowledge of how mutations drive evolution can inform our understanding of how tumors resist chemotherapeutics and how bacteria evolve resistance to antibiotics. The study was published July 21 in the journal Nature. (more…)

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Researchers Build 3-D Structures Out of Liquid Metal

Researchers from North Carolina State University have developed three-dimensional (3-D) printing technology and techniques to create free-standing structures made of liquid metal at room temperature.

“It’s difficult to create structures out of liquids, because liquids want to bead up. But we’ve found that a liquid metal alloy of gallium and indium reacts to the oxygen in the air at room temperature to form a ‘skin’ that allows the liquid metal structures to retain their shapes,” says Dr. Michael Dickey, an assistant professor of chemical and biomolecular engineering at NC State and co-author of a paper describing the work. (more…)

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Questions for Jack Mustard: Helping to shape a new Mars rover

In 2020, a new-generation Mars rover will land on the Red Planet and gather much more detailed data than Curiosity, which is on Mars now. NASA revealed details about the new rover at a news conference Tuesday, July 9, 2013. Brown University’s Jack Mustard chaired the Mars 2020 Science Definition Team.

PROVIDENCE, R.I. [Brown University] — NASA unveiled details about a new rover proposed to land on the surface of Mars in 2020. The details came in the form of a 154-page document prepared by the Mars 2020 Science Definition Team, which was tasked with recommending scientific objectives of the mission. (more…)

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Computer modeling shows crucial function of water molecules in proteins

Using molecular simulations that modeled a potassium channel and its immediate cellular environment, atom for atom, UChicago scientists have discovered that just 12 molecules of water cause the long post-activation recovery period required by such ion channels before they can function again. The research has revealed a new mechanism in the function of a nearly universal biological structure that will have broad implications, ranging from fundamental biology to the design of pharmaceuticals.

“Our research clarifies the nature of this previously mysterious inactivation state. This gives us better understanding of fundamental biology and should improve the rational design of drugs, which often target the inactivated state of channels,” said Benoît Roux, professor of biochemistry and molecular biology, whose team’s findings were published online July 28 in Nature. (more…)

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The Trappings of Trade: Osterley House reveals its gems from the East

Stunning Japanese-lacquered chests, Gujarati fabrics and fine Chinese porcelain are some of the distinctive objects displayed in a new exhibition co-curated by UCL researchers, National Trust staff and volunteers at Osterley Park and House in west London. (more…)

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Successful Test of New U.S. Magnet Puts Large Hadron Collider on Track for Major Upgrade

U.S. Department of Energy national laboratories – including Berkeley Lab – collaborate to build the new magnets CERN needs to increase LHC luminosity by an order of magnitude

The U.S. LHC Accelerator Program (LARP) has successfully tested a powerful superconducting quadrupole magnet that will play a key role in developing a new beam focusing system for CERN’s Large Hadron Collider (LHC). This advanced system, together with other major upgrades to be implemented over the next decade, will allow the LHC to produce 10 times more high-energy collisions than it was originally designed for.

Dubbed HQ02a, the latest in LARP’s series of High-Field Quadrupole magnets is wound with cables of the brittle but high-performance superconductor niobium tin (Nb3Sn). Compared to the final-focus quadrupoles presently in place at the LHC, which are made with niobium titanium, HQ02a has a larger aperture and superconducting coils designed to operate at a higher magnetic field. In a recent test at the Fermi National Accelerator Laboratory (Fermilab), HQ02a achieved all its challenging objectives. (more…)

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