Traces of organisms detected in sediments from 7.5 kilometers below the ocean surface reveal how organisms living in the deep sea are engineering their own environments. Analyses of sediment cores ...

Organisms in the deep sea rely on gravity flows to lay down sediment and then make burrows beneath the seafloor, according to a new study.

By studying elephant seals' hunting patterns, scientists have discovered a new way to monitor deep-sea fish populations.

Militaries and startups use artificial intelligence to sift through vast amounts of data and power autonomous underwater ...

More than half of the buoys washed ashore while the turtles did not. “This tiny little hatchling is actually making its own ...

Out of the water each buoy stands 6 metres tall, measures 3 metres in diameter, and weighs 4.5 tonnes. They have anchor cables several kilometres in length to moor it in the deep ocean.

A shark research organization came face to face last week with a deep sea creature who isn't known for seeing the light of day. Condrik Tenerife, a shark and stingray research and conversation ...

This way we can see how much movement of the buoy is attributed to waves and other ocean processes ... technology for tsunamis focuses on deep waters, but seafloor motion in shallow waters ...

Protecting the deep sea's biodiversity and carbon storage before it's too late. © Naturepl.com / David Shale / WWF The deep sea is home to habitats and species found ...