A colossal ocean current encircling Antarctica—stronger than all the world’s rivers combined—played a far more complex role in shaping Earth’s climate than scientists once thought. New research shows ...

New research by MIT Sloan School of Management finds that global leaders who participate in facilitated engagements using an ...

It transports far more than 100 times as much water as all of the Earth's rivers combined: The Antarctic Circumpolar Current ...

Earth is absorbing heat at roughly twice the pace it was two decades ago, and the real-world measurements now sit well beyond what most climate models predicted. A peer-reviewed study published in ...

Panellists argued that framing the issue for different audiences needs to become standard practice, not an afterthought. For ...

We've been watching temperatures climb, extreme weather events intensify, and ice sheets shrink. Every weather forecast and climate projection relies on incredibly complex computer simulations that ...

Our project is designed to unravel the complexities of climate change impacts within the Neponset River Watershed, employing sophisticated methods tailored specifically to this study domain. Through ...

Nvidia (NVDA) announced two new NVIDIA NIM microservices that can accelerate climate change modeling simulation results by 500x in NVIDIA Earth-2. Earth-2 is a digital twin platform for simulating and ...

Scientists reveal that Antarctica’s ocean current formed slowly and needed winds, ice, and shifting continents to shape Earth’s climate.

In October 2008, Chris Bretherton lifted off from the coast of northern Chile in a C-130 turboprop plane. It was too dark to see the sandy hills of the Atacama Desert below, but the darkness suited ...