A current system in the Atlantic Ocean that's crucial for regulating the world's weather and ecosystems might be more stable ...

Physicists have long tried to model the chaotic phenomenon of turbulence. Now, a team has pioneered a new quantum ...

In a new study, biology researchers from the College of Sciences’ UCF Marine Turtle Research Group studied the dispersal ...

Crevasses can reach over 300 feet in width, thousands of feet in length, and hundreds of feet in depth. Research led by glaciologist Thomas Chudley from ...

The deepest regions of Earth's oceans, known as the abyssal and hadal zones, lie at least as far under the water's surface as ...

Scientists found that atmospheric winds can either slow or energize ocean eddies depending on their direction.

While jet streams are air patterns, the Gulf Stream is an ocean pattern that also has an impact on weather.

Satellites have managed to detect faint electromagnetic signals generated by ocean tides, suggesting that space-born sensors ...

Research on hidden structures deep within Earth’s mantle challenges theories about our planet’s middle layer and could ...

Scientists have detected faint magnetic signals from Earth's ocean tides using ESA's Swarm ... creating weak electric currents. Researchers analyzed data from the European Space Agency's (ESA ...

ESA's Swarm mission, utilizing the faint magnetic signals generated by Earth's ocean tides, offers groundbreaking insights into undersea magma distribution and potential changes in global ocean ...