A new study uses computer modeling to explore how injecting reflective particles into the atmosphere might slow Antarctic ice melt. The study finds that location matters; a single injection in the Northern Hemisphere could increase Antarctic melt.
While carbon dioxide emissions of declining in some regions, they continue to rise overall. A new report indicates global action to reduce fossil fuel consumption is not happening fast enough to prevent dangerous impacts from climate change.
A new study finds that sea level variations along the U.S. East Coast are skillfully predictable 3 to 10 years in advance over the North Atlantic regions. The most predictable sea level component is characterized by a basin-wide upward trend.
November 30 marks the official end of the Atlantic hurricane season. NOAA scientists and forecasters pushed boundaries throughout the 2023 season to conduct crucial research to better protect those most affected.
In a changing climate, the intensity, duration, and frequency of droughts may change. A new report offers ideas for action and research that federal, tribal, state, local agencies and academic institutions can advance.
Every five years, the U.S. Global Change Research Program releases a new National Climate Assessment. The newest (fifth) assessment offers information on how drought will change as the climate changes, how to adapt, and how future droughts might impact your region and livelihood.
On Tuesday, November 28, the White House released a coordinated national strategy, “The National Strategy to Advance an Integrated U.S. Greenhouse Gas Measurement, Monitoring and Information Service,” to measure, monitor, and share greenhouse gas information.
The Climate Program Office’s Atmospheric Chemistry, Carbon Cycle and Climate (AC4) Program funded new research to find a better way to track sulfur and nitrogen compound emissions (SOx and NOx) in the United States.
An explainer about the international climate meeting known as “COP.”
This study reveals the potentially dominant role of anthropogenic forcing on coastal cyclone changes around the US Atlantic coast, Hawaii region, Northeast Asian coast near Japan and Korea, South China Sea, western coast of the Arabian Sea, and Madagascar.