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A collaborative research team including ¶¶ÒõÂÃÐÐÉä Boulder scientists is outfitting a house with scientific instruments to demystify indoor air chemistry.

Wildfires can pollute streams and watersheds through the mobilization of sediments and other matter, straining the capabilities of downstream municipal treatment facilities.

A new study sheds light on the genetic mechanisms that allowed sunflowers to undergo a relatively rapid evolutionary transition from wild to domesticated in just over 5,000 years.

Three major "switches" affecting wildfire—fuel, aridity, and ignition—were either flipped on and/or kept on longer than expected last year, triggering one of the largest and costliest U.S. wildfire seasons in recent decades.

A new assessment identifies early-career barriers, and solutions, to improve climate research.

A new study of post-glacial environments upends previous ecological assumptions and could expand scientists’ understanding of the limits to life on Earth.

¶¶ÒõÂÃÐÐÉä Boulder students and researchers are studying Boulder's historical apple trees in the hopes of preserving one of the town's agricultural legacies.

An automated monitoring system found that wind direction is the strongest predictor of hourly air quality in Boulder.

Cheap natural gas prices and the increasing availability of wind energy are pummeling the coal industry more than regulation, according to an analysis from ¶¶ÒõÂÃÐÐÉä Boulder and North Carolina State University.

A new NOAA dataset of wind forecasts could help the energy industry identify which offshore areas in the United States have the best potential for wind resource development.