Deep-sea soft corals living at 2 250 m near the Tasman Fracture Zone Marine Reserve, approximately 350 km south-west of Hobart, Tasmania, Australia.

Deep-sea soft corals living at 2 250 m near the Tasman Fracture Zone Marine Reserve, approximately 350 km south-west of Hobart, Tasmania, Australia.

Ancient climate secrets raised from ocean depths

Reference: 08/15

Scientists aboard the research vessel, Southern Surveyor, return to Hobart today with a collection of coral samples and photographs taken in the Southern Ocean at greater depths than ever before.

  • 1 February 2008

Using a remotely operated submersible vehicle the international research team captured images of life found on deep-sea pinnacles and valleys up to three kilometres beneath the Ocean’s surface.

During a three-week voyage, scientists from CSIRO’s Wealth from Oceans National Research Flagship and the US, collaborated to retrieve examples of live and fossilised deep-ocean corals from a depth of 1 650 metres near the Tasman Fracture Zone, south-east of Tasmania.

“These corals are evidence of an extinct coral reef,” says the voyage’s Chief Scientist, CSIRO Marine and Atmospheric Research’s Dr Ron Thresher.

“Our sampling came up with some very old fossil corals of the type we are now seeing live and forming extensive reefs at depths of 800-1300 metres. This suggests that the reef extended much deeper in the past, but how long ago or why it died out, we don't know yet,” he says.

The composition of deep-sea corals is used to determine past ocean conditions, such as temperature, salinity and the mixing of surface and deep-water layers, over tens to hundreds of thousands of years.

Dr Thresher says over the coming year the samples will be examined to determine when these newly discovered reefs existed and if their extinction can be related to long-term climate patterns.

“The voyage was a success despite some of the roughest conditions ever experienced by the team, particularly in deploying the ABE.” 
Dr Ron Thresher
Research Scientist
CSIRO Marine and Atmospheric Research

The findings will provide ancient climate data that contribute to models of regional and global climate change, based on historical circulation patterns in the Southern Ocean.

He says that at times the submersible vehicle – or Autonomous Benthic Explorer (ABE), on loan from the Woods Hole Oceanographic Institution (WHOI) – was pushed off course while exploring the extreme depths and, in two cases, had its forward progress stopped altogether. Such movements enabled researchers to identify previously unknown and unexpectedly strong, deep currents.

“The voyage was a success despite some of the roughest conditions ever experienced by the team, particularly in deploying the ABE,” Dr Thresher says.

The voyage is part of a collaboration between CSIRO’s Wealth from Oceans Flagship, WHOI in the US, the National Science Foundation in the US, the marine division of the Australian Department of Environment, Water, Heritage and the Arts and, the Marine National Facility.

Media are invited to discuss the results with Ron Thresher, Jess Adkins (California Institute of Technology) and Dana Yoerger (WHOI) when the Southern Surveyor arrives in Hobart at 10.30 am today at CSIRO Marine and Atmospheric Research – Castray Esplanade.

National Research Flagships

CSIRO initiated the National Research Flagships to provide science-based solutions in response to Australia’s major research challenges and opportunities. The nine Flagships form multidisciplinary teams with industry and the research community to deliver impact and benefits for Australia.

Download images at: Ancient climate secrets raised from ocean depths.

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