A groundbreaking study in the journal Science, has unveiled how deep ocean currents—known as global overturning circulation—play a pivotal role in shaping the diversity and function of microbial life ...
As the last Ice Age waned and the Holocene dawned, deep-ocean circulation around Antarctica underwent dramatic shifts that helped release long-stored carbon back into the atmosphere. Deep-sea ...
Fresh evidence from sediment cores, satellite records, and deep-ocean sensors is converging on a troubling finding: meltwater pouring off the Antarctic ice sheet may be reorganizing the planet’s ocean ...
Scripps News: Study Reveals how Deep Ocean Currents Shape Microbial Life across South Pacific
Study Reveals how Deep Ocean Currents Shape Microbial Life across South Pacific
New research shows La Niña may have driven the collapse of deep-sea corals in the Galápagos, lasting over 1,000 years.
Scripps Institution of Oceanography: Deep-ocean heat has been marching closer to Antarctica, reveals new long-term study
A new decades-long study of oceanographic conditions provides new evidence that deep-ocean heat has moved closer to Antarctica, threatening the ice shelves that fringe the continent.Researchers at UC ...
Deep-ocean heat has been marching closer to Antarctica, reveals new long-term study
Phys.org on MSN: Atlantic current shows two-decade decline across four deep-ocean monitoring sites
The Conversation: Meltwater from Greenland and the Arctic is weakening ocean circulation, speeding up warming down south
Meltwater from Greenland and the Arctic is weakening ocean circulation, speeding up warming down south
Cooling in the subsurface waters beneath Greenland’s Nioghalvfjerdsfjorden Glacier (79NG) from 2018 to 2021 was driven by European atmospheric blocking, which forced changes in the large-scale ocean ...