"We gain a clearer understanding of how these dynamics have varied over millennia and what this means for our current climate ...

A new study suggests the Atlantic Meridional Overturning Circulation has not weakened since the 1960s — but there's no doubt ...

New research uncovers unexpected ways atmospheric winds impact ocean eddies, influencing ocean weather patterns with greater ...

Rising mountain peaks and sharp rock formations cover the ocean floor, with corals, sponges, fish, and tons of sea creatures ...

A new study of satellite imagery and high-resolution climate model data upends previous assumptions and provides insight about how the atmosphere and ocean weather patterns interact. The new research ...

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

The system of Atlantic currents, called the Atlantic Meridional Overturning Circulation (Amoc), is a key reason why the UK is ...

New research highlights how tides, seasons, and ... Exponential growth in big data and computing power is transforming climate science, where machine learning is playing a critical role in mapping ...

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How fast the level of atmospheric carbon dioxide — and with it, the temperature — goes up matters for the ability of humans ...

The Atlantic Meridional Overturning Circulation (AMOC), the system of currents vital to regulating the European climate, has ...

A new study suggests the Atlantic Meridional Overturning Circulation has not weakened since the 1960s — but there's no doubt the circulation will slow in the future, experts say.