Historically, the ocean has been difficult to model. Scientists struggled in years past to simulate ocean currents or accurately predict fluctuations in temperature, salinity, and other properties. As ...

GOES-East satellite observations and machine learning have, for the first time, connected this observed structure to the much ...

Scientists have developed a new method to measure ocean surface currents over large areas in greater detail than ever before. Called GOFLOW (Geostationary Ocean Flow), the approach applies deep ...

Oceans are experiencing sudden temperature changes due to climate change, affecting marine ecosystems and global fisheries.

Getting your Trinity Audio player ready... A sprawling, slow-moving system of ocean currents circulating in the Atlantic that help regulate the earth’s temperature is set to deliver a blob of warmer, ...

The Atlantic Meridional Overturning Circulation (AMOC) is a large-scale and delicate system of ocean currents, responsible for our warm climate.

A new AI-driven method called GOFLOW is turning weather satellite images into highly detailed maps of ocean currents. By tracking how temperature patterns shift over time, it can reveal fast-moving, ...

Ocean currents driven by wind, water density, tides, ocean floor features, or the Coriolis effect, have an important role on climate regulation and marine ecology. In turn, increasing water surface ...

Researchers compared DNA from corals and their symbiotic organisms from two sites along the Pacific coast of Panama to better understand how the different members of the coral holobiont influence ...

The Gulf Stream is full of interleaving temperature gradient structures that hint at complex underlying current dynamics. GOES-East satellite observations and machine learning have, for the first time ...