Around the world, from the surface waters to the seafloor, our oceans are warming, and we are beginning to adapt to and prepare for this change in our climate.
Low sea ice cover in the northern Bering and Chukchi Seas over back-to-back winters 2018 to 2019 caused a cascade of impacts on the regional marine ecosystem, compounding challenges faced by the communities that rely on it.
A new study concludes that the range of possible sea surface temperature conditions in the North Atlantic could more than double by the mid-21st century, leading to vastly different climate outcomes.
Models used in a new study indicate that the primary driver of productivity changes in the California Current System will involve the nitrate concentration in subsurface waters rather than upwelling strength.
From a computer with allergies to shark-Niño, our blogger highlights 10 of his favorite ENSO graphics from the blog's first decade.
In contrast with the global models used for the latest Intergovernmental Panel on Climate Change Report, a new model offers a 10-fold improvement in spatial resolution over the contiguous United States, to better resolve cities, mountain valleys, thunderstorms, and urban-to-rural air quality variations.
The Department of Commerce and NOAA have announced $4.55 million in funding for two virtual centers of excellence to support community heat monitoring and resilience. One center will be based out of Durham, North Carolina. The other will be based out of Los Angeles.
These maps compare the extent and severity of the ongoing event to the peak coral heat stress of the three prior events.
A new forecast provides people with pollen allergies and respiratory conditions a data-driven tool that estimates when and where pollen will cause higher allergen exposure and respiratory irritation levels.
Scientists at NOAA’s Atlantic Oceanographic and Meteorological Laboratory are investigating how crucial reef-building coral species are affected by the impacts of climate change using a suite of open-source robotic arms.