First completely remote at-sea science expedition in Australia’s coral sea marine park: Discover new coral and possible species never before seen

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a pink fin fish from the deep ocean
A striking image of Hollardia goslinei. This is a species of deepwater spike fishes native to Hawaii. ROV footage of this species occurring in Australia puts it very far away from its known ‘home’ range.

Scientists working remotely with Schmidt Ocean Institute, one of the only at-sea ​science expeditions​ to continue operating during the global pandemic, have completed the first look at deep waters in the Coral Sea never before seen. The Australian science team discovered the deepest living hard corals in Eastern Australian waters, sighted fish in regions where they had never been found before, and identified up to 10 new marine species of fish, snails, and sponges.

A spectacular group of “Harp” ctenophores (Lyrocteis imperatoris) spotted while exploring Lihou Reef in the Coral Sea Marine Park, at 358 m deep. This is a species of benthic comb jellyfish. Unlike swimming pelagic comb jellies, it attaches itself to rocks and corals. To feed, their comb-like tentacles reach out from the tip of its body to catch floating zooplanktons.

Schmidt Ocean Institute’s​ research vessel ​Falkor-​ -the only year-round philanthropic research vessel in the world–spent the last 46 days in one of the world’s largest protected areas, the Coral Sea Marine Park. The team of Australian scientists connected remotely to the ship from their homes, collecting high-resolution seafloor maps and video footage of the deep ocean down to 1,600 meters. Led by chief scientist Dr Robin Beaman of James Cook University, the expedition enabled the team to develop a better understanding of the physical and long-term changes that have occurred on the deep reefs. This marked the first time the region had been viewed, using an underwater robot that streamed real-time 4K video.

The extraordinary mapping effort has illuminated a complex seafloor of 30 large coral atolls and banks, revealing submarine canyons, dune fields, submerged reefs, and landslides. More than 35,500 square kilometres were mapped–an area larger than half of Tasmania, transforming the Queensland Plateau from one of the poorest-mapped to one of the best-mapped frontier areas of Australia’s marine estate. The maps created will be available through ​AusSeabed​, a national Australian seabed mapping program, and will also contribute to the Nippon Foundation GEBCO Seabed 2030 Project​. Only the shallower parts of these reefs had been mapped previously, and until now no detailed mapping data existed of the deeper areas.

A variety of life – including crinoids, sponges, and corals -perches on exposed strata surrounded by coral skeletons near Lihou Reef in the Coral Sea Marine Park.

“This expedition has provided us with a unique window into both the geological past and the present-day conditions, allowing scientists and park managers to be able to see and tell the full story of the interconnected environments,” said Dr Beaman. “This vision is invaluable for science, management, and education.”

Over 91 hours of high-resolution video surveys were collected with ​Falkor’s​ underwater robot, Sebastian, showing no evidence of coral bleaching below 80 meters.

“We know that the shallower coral counterparts are currently undergoing their third mass bleaching event in five years, so it’s an invaluable insight for scientists and managers to know how deep that bleaching extends, ” said Dr Jyotika Virmani, executive director of Schmidt Ocean Institute. “It’s important to note, however, that the corals discovered are specialized to these deep habitats and are not found in the shallows. This expedition was the first time these species have been recorded in such high abundance in the Coral Sea.”

A beautiful urchin seen while diving the South Diamond Islet/Tregrosse Reef in the Coral Sea Marine park off the east coast of Australia on the Queensland Plateau.

The 14 historic deep-sea dives completed with SuBastian have also helped give a much better understanding of the depth and habitat preferences of the Coral Sea deep reef community. All of the data collected has been publicly shared through more than 74 hours of video surveys and highlights available on the Schmidt Ocean Institute ​YouTube channel​ and ​website​. The live-streamed dives created an online platform, drawing spectators from around the world to witness unique species like deepwater sharks and chambered nautiluses– a distant cousin to squids that use jet propulsion to move.

“The footage coming from our dives is just astounding, ” Virmani said. “The ​Falkor​’s robust telepresence technology has allowed scientists from all over the world to collaborate on some of these discoveries. The data will greatly advance the characterization of Australia’s massive and ecologically important marine estate.”

Research Vessel ​Falkor​ will return to the Coral Sea Marine Park for an additional month of research at the end of July. You can learn more about the upcoming expedition ​here​.

Some gently-sloping habitats were seen to have fields of hard coral, dominated by the genus Leptoseris. Massive fields of these corals are known from places such as Au’au Channel in Hawaii but had never been observed in the Coral Sea until these dives. The dim, purple light in these habitats has led to the mesophotic zone sometimes being referred to as the ‘twilight zone.’

About the Organization

The Schmidt Ocean Institute was established in 2009 by Eric and Wendy Schmidt to advance oceanographic research through the development of innovative technologies, open sharing of information, and broad communication about ocean health. For more information, visit www.schmidtocean.org.


This piece was prepared online by Panuruji Kenta, Publisher, SEVENSEAS Media