The Rök Runestone, erected in the late 800s in the Swedish province of Östergötland, is the world's most well-known runestone. Its long inscription has seemed impossible to understand, despite the fact that it is relatively easy to read. A new interpretation of the inscription has now been presented - an interpretation that breaks completely with a century-old interpretative tradition. What has previously been understood as references to heroic feats, kings and wars in fact seems to refer to the monument itself.
Earth
ANN ARBOR -- An analysis of more than 40 climate-adaptation plans from across the U.S. shows that local communities are good at developing strategies to combat the harmful effects of climate change but often fail to prioritize their goals or to provide implementation details.
In the past decade, several dozen U.S. communities have created stand-alone climate-adaptation plans that describe how climate change is projected to impact their communities and what actions should be taken now to prepare.
More than 500 million people live in the Middle East and North Africa - a region which is very hot in summer and where climate change is already evident. The number of extremely hot days has doubled since 1970. "In future, the climate in large parts of the Middle East and North Africa could change in such a manner that the very existence of its inhabitants is in jeopardy," says Jos Lelieveld, Director at the Max Planck Institute for Chemistry and Professor at the Cyprus Institute.
If using a single atom to capture high-resolution images of nanoscale material sounds like science fiction, think again.
That's exactly what the Quantum Sensing and Imaging Group at UC Santa Barbara has achieved. Members of physicist Ania Jayich's lab worked for two years to develop a radically new sensor technology capable of nanometer-scale spatial resolution and exquisite sensitivity. Their findings appear in the journal Nature Nanotechnology.
MIAMI -- In a new study, University of Miami (UM) Rosenstiel School of Marine and Atmospheric Science researchers found that the limestone that forms the foundation of coral reefs along the Florida Reef Tract is dissolving during the fall and winter months on many reefs in the Florida Keys. The research showed that the upper Florida Keys were the most impacted by the annual loss of reef.
Two years ago, Northwestern University's Mark Hersam discovered a way to stabilize exfoliated black phosphorus -- or phosphorene -- a layered semiconductor that chemically degrades in open air but shows great promise for electronics. By encapsulating it in aluminum oxide, he was able to stabilize phosphorene's reactivity to oxygen and water.
CORVALLIS, Ore. - Although the coastal regions of the Greenland Ice Sheet are experiencing rapid melting, a significant portion of the interior of that ice sheet has remained stable - but a new study suggests that stability may not continue.
Researchers found that very little of the snow and ice on the vast interior of the ice sheet is lost to the atmosphere through evaporation because of a strong thermal "lid" that essentially traps the moisture and returns it to the surface where it refreezes.
Three recent publications by early career researchers at three different institutions across the country provide the first look into the biogeochemistry, geophysics and geology of Subglacial Lake Whillans, which lies 800 meters (2,600 feet) beneath the West Antarctic Ice Sheet.
The findings stem from the Whillans Ice Stream Subglacial Access Research Drilling (WISSARD) project funded by the National Science Foundation (NSF).
Climate change has caused a drop in the amount of oxygen dissolved in the oceans in some parts of the world, and those effects should become evident across large parts of the ocean between 2030 and 2040, according to a new study led by researchers at the National Center for Atmospheric Research (NCAR) in Boulder, Colorado.
The Earth's climate has been warming, but even though the Greenland ice sheet is melting rapidly in the coastal regions, there are large parts of the ice sheet (40 percent) where there has hardly been any melting on the surface. A warmer climate usually also means that there is more precipitation, but there has been no increase in the amount of precipitation on the ice sheet.
Studying the way that solitary hunters such as tigers, bears or sea turtles chase down their prey turns out to be very useful in understanding the interaction between individual white blood cells and colonies of bacteria. Reporting their results in the Journal of Physics A: Mathematical and Theoretical, researchers in Europe have created a numerical model that explores this behaviour in more detail.
Two-dimensional phosphane, a material known as phosphorene, has potential application as a material for semiconducting transistors in ever faster and more powerful computers. But there's a hitch. Many of the useful properties of this material, like its ability to conduct electrons, are anisotropic, meaning they vary depending on the orientation of the crystal.
The tiny crystals probably formed in huge impact craters not long after Earth formed, some 4 billion years ago
DUBLIN, IRELAND, Thursday April 28th, 2016 - New research suggests that the very oldest pieces of rock on Earth -- zircon crystals -- are likely to have formed in the craters left by violent asteroid impacts that peppered our nascent planet, rather than via plate tectonics as was previously believed.
Washington, DC--New work from a research team led by Carnegie's Anat Shahar contains some unexpected findings about iron chemistry under high-pressure conditions, such as those likely found in the Earth's core, where iron predominates and creates our planet's life-shielding magnetic field. Their results, published in Science, could shed light on Earth's early days when the core was formed through a process called differentiation--when the denser materials, like iron, sunk inward toward the center, creating the layered composition the planet has today.
Inside every living cell, internal structures are continuously moving about. Under a microscope, organelles such as the nucleus, mitochondria, transport vesicles, or even external flagella wobble and twitch. This may happen spontaneously as these tiny structures are passively jostled inside a cell. But that's not necessarily all there is to it. Often a cell invests extra energy into these motions to enhance cell functions in ways we don't yet understand.