A mining-machine test on the deep-ocean floor resulted in species diversity declining by roughly 32% in the tracks of the ...

A cnidarian is attached to a dead sponge stalk on a manganese nodule in the Clarion-Clipperton Zone. Diva Amon and Craig Smith, University of Hawaii at Mānoa Picture an ocean world so deep and dark it ...

A cnidarian is attached to a dead sponge stalk on a manganese nodule in the Clarion-Clipperton Zone. Diva Amon and Craig Smith, University of Hawaii at Mānoa Picture an ocean world so deep and dark it ...

Machines mining minerals in the deep ocean have been found to cause significant damage to life on the seabed, scientists carrying out the largest study of its kind say. They found that the number of ...

A new report reveals the results of a study exploring biodiversity in a region targeted for seabed mining—capturing baseline data, tracking natural changes and assessing the impacts of a polymetallic ...

Deep-sea mining targets mineral deposits on the ocean floor, typically at depths of 3,000–6,000 meters. Most attention focuses on polymetallic nodules—potato-sized rocks lying on abyssal plains—and on ...

Huge tracts of Pacific Ocean seabed are carpeted in polymetallic nodules, bulbous lumps of rock that are rich in metals used in battery production - Copyright AFP ...

Where are the data to validate your assertion that deep-sea mining will be better for the environment than mining on land (“Race to the bottom”, May 3rd)? Large-scale land-based mining produces ...

Workers disembark from a research vessel that returned from the Clarion Clipperton Zone of the Pacific Ocean, where soil, water, and wildlife samples were obtained from deep in the ocean as part of ...