In a study published Thursday, researchers evaluated the effects of sudden flooding from the Tohoku tsunami on more than 20 bird species nesting on the distant Pacific islands. The results shed light not only on how those birds weathered the dramatic rise in seas from the extreme event, but also how island wildlife may fare with the threat of rising sea levels and increased storm surges.  

Many seabird species have disappeared from human populated higher islands, and their worldwide distributions are now concentrated on the low-lying islands protected as Wildlife Refuges and Marine National Monuments.

Researchers from the National Institute of Standards and Technology (NIST) and the University of Colorado Boulder have demonstrated a new mobile, ground-based system that could scan and map atmospheric gas plumes over kilometer distances.

The system uses an eye-safe laser instrument to send light that “combs” the air to a flying multi-copter and analyzes the colors of light absorbed along the way to identify gas signatures in near-real time.

The “comb and copter” system may be useful to scan for leaks in oil and gas fields, study the mixing of auto emissions and other gases in the boundary between the Earth’s surface and the next layer of the atmosphere, or, with planned upgrades, detect pollutants or chemical threats and their sources.

A series of unprecedented storms over the Southern Ocean likely caused the most dramatic decline in Antarctic sea ice seen to date, a new study finds.

During the last glacial period, within only a few decades the influence of atmospheric CO2 on the North Atlantic circulation resulted in temperature increases of up to 10 degrees Celsius in Greenland – as indicated by new climate calculations from researchers at the Alfred Wegener Institute and the University of Cardiff. Their study is the first to confirm that there have been situations in our planet’s history in which gradually rising CO2 concentrations have set off abrupt changes in ocean circulation and climate at “tipping points”. These sudden changes, referred to as Dansgaard-Oeschger events, have been observed in ice cores collected in Greenland. The results of the study have just been released in the journal Nature Geoscience.

A research of UPM and UPV has shown that the inclusion of agroindustrial by-products in pig feed can reduce the nitrous oxide emissions (N2O) of the slurry used as manures up to 65%.

The aim of this study carried out by UPM researchers with the collaboration of Institute for Animal Science and Technology of UPV was to influence the ingredients of pig diet to modify the composition of slurry used as manures and to assess the possible variations on N2O emissions.

NASA's Aqua satellite analyzed Tropical Storm Cindy in infrared light to identify areas of strongest storms and the Global Precipitation Measurement mission or GPM satellite found locations of heaviest rainfall as Cindy was making landfall along the U.S. Gulf Coast states.

The Atmospheric Infrared Sounder or AIRS instrument aboard NASA's Aqua satellite looked at Tropical Depression Cindy in infrared light. The AIRS image was taken on June 21 at 19:53 UTC (3:53 p.m. EST) and showed some cloud top temperatures of thunderstorms near the center of circulation as cold as minus 63 degrees Fahrenheit (minus 53 degrees Celsius). NASA research has shown the storms with cloud tops that cold have the potential to generate heavy rainfall. 

The infrared data was false-colored at NASA's Jet Propulsion Laboratory in Pasadena, California, where AIRS data is managed.

Cindy made landfall around 3 a.m. CDT in southwestern Louisiana. At that time, the National Hurricane Center or NHC said that Cindy was centered about 30 miles (45 km) west-southwest of Lake Charles, Louisiana.

Almost 25 percent of the world’s malnourished population lives in sub-Saharan Africa (SSA), where more than 300 million people depend on maize (corn) for much of their diet. The most widely-produced crop by harvested area in SSA, maize is also highly sensitive to drought. Because maize in this region is grown largely on rainfed rather than irrigated land, any future changes in precipitation patterns due to climate change could significantly impact crop yields. Assessing the likely magnitude and locations of such yield changes in the coming decades will be critical for decision makers seeking to help their nations and regions adapt to climate change and minimize threats to food security and to rural economies that are heavily dependent on agriculture.

Are there similarities between the tobacco industry and the fossil fuel industry when it comes to legal liability? Could, for example, energy companies that rely on fossil fuels and emit greenhouse gases be held accountable for the damage caused by climate change? Two researchers in the Faculty of Law have set out to answer these important questions.

Federal scientists forecast that this summer’s Gulf of Mexico dead zone – an area of low to no oxygen that can kill fish and other marine life – will be approximately 8,185 square miles, or about the size of New Jersey.

This would be the third largest dead zone recorded since monitoring began 32 years ago – the average Gulf dead zone since then has been 5,309 square miles.

NASA’s Aqua satellite captured an image of Tropical Storm Cindy after it formed and was already affecting the U.S. Gulf Coast states. Cindy continues to crawl toward land and Tropical Storm warnings are in effect for June 21.

On June 21 at 11 a.m. EDT, a Tropical Storm Warning is in effect for San Luis Pass, Texas to the mouth of the Mississippi River.

When NASA’s Aqua satellite passed over the Gulf of Mexico on June 20 at 19:15 UTC (3:15 p.m. EDT), Tropical Depression 3 was already upgraded to Tropical Storm status and named Cindy. The storm was classified as a tropical storm at 2 p.m. EDT. The Moderate Resolution Imaging Spectroradiometer or MODIS instrument aboard Aqua showed Cindy’s center of circulation in the central Gulf of Mexico with a large area of thunderstorms sweeping from northwest to southeast of the center, stretching from eastern Texas to Florida.