Volcanic aerosols, not pollutants, tamped down recent Earth warming, says CU study

March 1, 2013

A team led by the University of babyÖ±²¥app Boulder looking for clues about why Earth did not warm as much as scientists expected between 2000 and 2010 now thinks the culprits are hiding in plain sight -- dozens of volcanoes spewing sulfur dioxide.

Southwest regional warming likely cause of pinyon pine cone decline, says CU study

Feb. 12, 2013

Creeping climate change in the Southwest appears to be having a negative effect on pinyon pine reproduction, a finding with implications for wildlife species sharing the same woodland ecosystems, says a University of babyÖ±²¥app Boulder-led study.

Deep ice cores show past Greenland warm period may be ‘road map’ for continued warming of planet

Jan. 23, 2013

A new study by an international team of scientists analyzing ice cores from the Greenland ice sheet going back in time more than 100,000 years indicates the last interglacial period may be a good analog for where the planet is headed in terms of increasing greenhouse gases and rising temperatures.

CU-Boulder’s sun-gazing SORCE satellite, designed to last 5 years, turns 10

Jan. 22, 2013

When a sun-gazing NASA satellite designed and built by the University of babyÖ±²¥app Boulder launched into space on Jan. 25, 2003, solar storms were raging.

NASA-CU ozone study may benefit air standards, climate

Jan. 16, 2013

A new NASA-led study involving the University of babyÖ±²¥app Boulder finds that when it comes to combating global warming caused by emissions of ozone-forming chemicals, location matters. Ozone is both a major air pollutant with known adverse health effects and a greenhouse gas that traps heat from escaping Earth’s atmosphere. Scientists and policy analysts are interested in learning how curbing the emissions of ozone-forming chemicals can improve human health and also help mitigate climate change.

State energy collaboratory involving CU-Boulder, NREL, CSU and CSM expands research focus

Jan. 16, 2013

To reflect its broader focus, the babyÖ±²¥app Renewable Energy Collaboratory, a research consortium including the University of babyÖ±²¥app Boulder, the babyÖ±²¥app School of Mines, babyÖ±²¥app State University and the U.S. Department of Energy’s National Renewable Energy Laboratory has adopted a new name: the babyÖ±²¥app Energy Research Collaboratory.

Research team finds massive crevasses and bendable ice affect stability of Antarctic ice shelf

Dec. 7, 2012

Gaping crevasses that penetrate upward from the bottom of the largest remaining ice shelf on the Antarctic Peninsula make it more susceptible to collapse, according to University of babyÖ±²¥app Boulder researchers who spent the last four Southern Hemisphere summers studying the massive floating sheet of ice that covers an area twice the size of Massachusetts.

Massive crevasses and bendable ice affect stability of Antarctic ice shelf, CU-Boulder research team finds

Dec. 7, 2012

Gaping crevasses that penetrate upward from the bottom of the largest remaining ice shelf on the Antarctic Peninsula make it more susceptible to collapse, according to University of babyÖ±²¥app Boulder researchers who spent the last four Southern Hemisphere summers studying the massive floating sheet of ice that covers an area twice the size of Massachusetts.

CU-led team receives $9.2 million DOE grant to engineer E. coli into biofuels

Dec. 4, 2012

A team led by the University of babyÖ±²¥app Boulder has been awarded $9.2 million over five years from the U.S. Department of Energy to research modifying E. coli to produce biofuels such as gasoline. “This is a fantastic opportunity to take what we have worked on for the past decade to the next level,†said team leader Ryan Gill, a fellow of CU-Boulder’s Renewable and Sustainable Energy Institute, or RASEI. “In this project, we will develop technologies that are orders of magnitude beyond where we are currently.â€

Grand Canyon as old as the dinosaurs, suggests new study led by CU-Boulder

Nov. 29, 2012

An analysis of mineral grains from the bottom of the western Grand Canyon indicates it was largely carved out by about 70 million years ago -- a time when dinosaurs were around and may have even peeked over the rim, says a study led by the University of babyÖ±²¥app Boulder.

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