Shark Teeth Analysis Provides Detailed New Look at Arctic Climate Change
University of ChicagoA new study shows that some shark species may be able to cope with the rising salinity of Arctic waters that may come with rising temperatures.
A new study shows that some shark species may be able to cope with the rising salinity of Arctic waters that may come with rising temperatures.
University and government scientists are embarking on a collaborative research expedition to improve volcanic eruption forecasting by learning more about how a deep-underground feeder system creates and supplies magma to Mount St. Helens.
In a paper published in Earth and Planetary Science Letters, University of Rochester Professor Carmala Garzione explains that the Altiplano plateau in the central Andes—and most likely the entire mountain range—was formed through a series of rapid growth spurts.
Soils that formed on the Earth’s surface thousands of years ago and that are now deeply buried features of vanished landscapes have been found to be rich in carbon, adding a new dimension to our planet’s carbon cycle.
1) Reducing soot. 2) Hydropower. 3) Understanding driver behavior. 4) A performance record in high-temperature superconducting wires.
Groundbreaking work by a team of chemists on a fringe element of the periodic table could change how the world stores radioactive waste and recycles fuel.
Shale, the source of the United States’ current natural gas boom, could help solve another energy problem: what to do with radioactive waste from nuclear power plants. The unique properties of the sedimentary rock and related clay-rich rocks make it ideal for storing the potentially dangerous spent fuel for millennia, according to a geologist studying possible storage sites. He presented his research today at the 247th National Meeting & Exposition of the American Chemical Society.
Last year’s gigantic landslide at a Utah copper mine probably was the biggest nonvolcanic slide in North America’s modern history, and included two rock avalanches that happened 90 minutes apart and surprisingly triggered 16 small earthquakes, University of Utah scientists discovered.
Scientists at the URI Graduate School of Oceanography are shedding light on the genetic makeup of Earth’s deep microbial life and the geochemistry of the lavas that form the Earth’s crust through research conducted as part of the Deep Carbon Observatory, a 10-year international collaboration unraveling the mysteries of Earth’s inner workings.
The following is a sampling of research results that will be presented by University of Rhode Island scientists at the American Geophysical Union’s fall meeting in San Francisco from Dec. 9 to 13:
The tsunami that struck Japan’s Tohoku region in 2011 was touched off by a submarine earthquake far more massive than anything geologists had expected in that zone. Now, a team of scientists has published a set of studies in the journal Science that shed light on what caused the dramatic displacement of the seafloor.
Clay, a seemingly infertile blend of minerals, might have been the birthplace of life on Earth. Or at least of the complex biochemicals that make life possible, Cornell University biological engineers report in the Nov. 7 online issue of the journal Scientific Reports, published by Nature Publishing.
Researchers at the University of Delaware found staggering and spacing out turbines in an offshore wind farm can improve performance by as much as 33 percent.
Meteorite bombardment left large craters that contained water and chemical building blocks for life, which ultimately led to the first organisms.