It's spring, the sun is shining and something is about to happen with the plankton in the cold waters of the Arctic Ocean.

The population fluctuations of these marine mammals reveal a connection between the abundance of their prey and biophysical oscillations in the Pacific Ocean.

A Bennu-type asteroid could lead to “severe environmental consequences,” researchers write, while acknowledging that a ...

What would happen if a 500-meter asteroid hit Earth? Scientists at the IBS Center for Climate Physics modeled the aftermath, ...

She began to wonder about the vast, cold blackness of the polar ocean. In early 2020, Hoppe found herself testing the limits of photosynthesis directly, camped aboard an icebreaker ship that had been ...

Nanotube bridge networks grow between the most abundant photosynthetic bacteria in the oceans, suggesting that the world is ...

Of 15 global Earth system models of how climate change will impact oceans, those that project a future decline in primary ...

Earth's oceans may have been green for billions of years until the first photosynthetic organisms flooded our atmosphere with ...

A new publication by researchers from the Department of Earth Sciences at the University of Oxford shows that the ...

“This discovery overturns the traditional understanding of photosynthesis and opens possibilities ... gave us our first knowledge of the deep ocean, we are now revealing some of its best-kept ...

The idea that life on Earth arose through a series of improbable "hard" evolutionary steps may be misjudged, according to a ...

would disrupt photosynthesis on land and in the water, while settling dust with high iron content could cause months-long algal blooms in some ocean regions. Overall, they write, a Bennu-type ...