A converted Cold War bomber packed with sensitive instruments is investigating atmospheric chemistry and aerosols over the Arctic. The mission is part of NOAA’s growing Earth’s Radiation Budget research program.
A new NOAA analysis shows US emissions of the super-potent greenhouse gas sulfur hexafluoride have declined over 2007-2018, likely due to successful mitigation efforts by the Environmental Protection Agency (EPA) and the electric power industry.
NOAA’s Pacific Marine Environmental Laboratory has released “The Ocean: Earth’s Carbon Dioxide Sponge,” the latest video in the PMEL at Work short video series.
While much is understood about greenhouse gas contributions to surface warming, less is understood about impacts on ocean circulation. A new study uses a climate model to quantify the role of changes to the wind-driven ocean circulation onto global air temperature warming.
On March 6, a team of scientists on the NOAA Ship Ronald H. Brown departed from Suape, Brazil for a 55-day cruise to the northerly waters of Reykjavik, Iceland, with 150 planned stops along the cruise track.
A wave of recent research has focused on extreme warming of ocean surface waters. But marine heat waves also happen deep underwater. In a new paper, researchers used a combination of observations and computer models to generate the first broad assessment of bottom marine heat waves in the productive continental shelf waters surrounding North America.
The NOAA Blue Carbon Inventory (BCI) Project recently conducted a training workshop designed to advance the integration of coastal blue carbon in Costa Rica’s national greenhouse gas inventory.
The Texas Temperature Trends Dashboard, has been renamed and updated to include weather stations in Arkansas, Louisiana, and Oklahoma. Anyone can access the dashboard through a web browser.
Scientists at NOAA’s Geophysical Fluid Dynamics Laboratory are tapping into machine learning to better understand the impacts of climate change on our oceans and atmosphere.
A heat-tolerant algae found in some tropical Pacific corals can make reefs more resilient to heatwave events, according to an exciting new discovery reported in the Proceedings of the National Academy of Sciences.