In the rolling hills around San Diego and its suburbs, the rumble of bulldozers and the whine of power saws fill the air as a slew of new homes and apartments rise up. 

EPA has included a comparison of NOAA’s atmospheric emission estimates of four HFCs to its own inventory-based estimates in the just-released U.S. Inventory of Greenhouse Gas Emissions and Sinks

Researchers at Tampere University have successfully developed a novel optical fiber design allowing the generation of rainbow laser light in the molecular fingerprint electromagnetic region. 

The presence of an atmospheric acoustic duct, a channel of sound at the boundary between the troposphere and stratosphere, has been verified for the first time by Sandia National Laboratory scientists.

Assistant professor Morgan Raven receives an NSF Faculty Early CAREER award to study a mysterious ocean carbon sequestration process.

Adding rock dust to UK agricultural soils could absorb up to 45 per cent of the atmospheric carbon dioxide needed to reach net zero, according to a major new study led by scientists at the University of Sheffield.

A new study identifies gaps in data on streams around the world, highlighting potential priorities for future installation of monitoring tools.

Rice University geobiologist Jeanine Ash is participating in an Antarctic mission that aims to recover the first direct evidence that can answer one of the biggest questions about 21st-century climate change: How much will sea level rise and how fast?

A team of scientists led by the University of East Anglia (UEA) has made a major breakthrough in detecting changes in fossil fuel carbon dioxide emissions more quickly and frequently.

It is well known that global warming is causing sea levels to rise via two processes: thermal expansion, when water expands because of its increased temperature, and melting of land-based ice, when meltwater flows into the ocean.