Most abundant morphotaxa encountered across the six submersible dives in the Japanese trenches. Credit: Journal of Biogeography (2025). DOI: 10.1111/jbi.70053

A series of submersible surveys to nearly 10 kilometers in the deepest parts of Japan's ocean trenches have revealed seafloor biodiversity is shaped by depth, food supply, seismic activity and the seafloor's structure.

Dr. Denise Swanborn, from The University of Western Australia's School of Biological Sciences and Minderoo-UWA Deep-Sea Research Center, was lead author of the study published in the .

Researchers analyzed video from six crewed submersible dives at hadal depths of 6,939 meters to 9,775 meters in three Japanese subduction trenches鈥攖he Japan, Ryukyu and Izu-Ogasawara trenches.

The video observations led to the documentation of nearly 30,000 organisms, spanning 70 morphological groups in 11 taxonomic categories across eight .

"This provided one of the most detailed observations of seafloor biodiversity and habitats at these depths," Dr. Swanborn said.

"We found differences in and diversity between trenches, linked to depth and nutrient input from surface waters."

The nutrient-rich Japan Trench supported high abundances of and other deposit feeders at 7.5 kilometers depth.

The same depth in the more food-limited Ryukyu Trench was dominated by very different communities where sea cucumbers were nearly absent and instead brittle stars were found.

In the Izu-Ogasawara Trench on a dive area near the Boso Triple Junction to a depth of about nine kilometers, extensive crinoid (sea lilies) meadows were discovered.

"Within trenches, at the same depth band, differences in historical seismic disturbance and seafloor stability created different communities," Dr. Swanborn said.

"For example, historically seismically active areas in the Japan Trench were dominated by low-diversity organisms that had adapted to their environment, while the more stable under-riding slope supported more diverse communities.

"Hadal video surveys of this scope are exceptionally rare and our findings of how depth, regional setting and seafloor disturbance interact to structure biodiversity has provided the foundation for future hypothesis-driven ecological research in the deepest parts of the ocean."

More information: Denise J. B. Swanborn et al, Seismic Disturbance, Productivity and Depth Shape Hadal Benthic Habitats and Biodiversity in the Japan, Ryukyu and Izu鈥怬gasawara Trenches (Northwest Pacific Ocean), Journal of Biogeography (2025).

Journal information: Journal of Biogeography

Provided by University of Western Australia