16/10/2016

Great Barrier Reef Climate History Unlocked As CSIRO Maps Offshore Queensland Basin

ABC NewsKathy McLeish

An underwater landslide, which slid 900 metres and spread 20 kilometres wide at its base. (Supplied: Dr Robin Beaman, James Cook University)
Scientists from the CSIRO are using cutting-edge technology to map the seafloor of the Queensland Basin to understand how the Great Barrier Reef responded to past climate change events.
While the reef is one of the world's most studied ecosystems, its depths could still hold many surprises, including how resilient it might be in the future.
Scientists on the CSIRO research vessel, the RV Investigator, are on a four-week voyage to map the offshore Queensland Basin.
It uses new multi-beam echosounders to survey the seafloor to the depth of about 11 kilometres — eight kilometres deeper than scientists could reach previously.

3D map shows Kerguelen Plateau and SW Indian Ocean.

James Cook University marine geologist Robin Beaman, who heads the project, said the ship worked by constantly scanning the seabed, building a more comprehensive picture than ever before.
While it has mapped parts of the Southern Ocean, this voyage takes the researchers from Brisbane north to the Coral Sea.
"On the edge of the Great Barrier Reef there is this incredible undersea landscape," Dr Beaman said.
"We've got a three-dimensional picture.
"We will use this data for many, many years to come."

Fossilised, drowned reef discovered

The fossilised drowned reef, which would have grown when the sea level was lower. (Photo: Dr Robin Beamean/James Cook University) (ABC News)

So far the team has found a fossilised, or drowned reef about 100 metres down.
It would have grown when the sea level was lower.
Not able to keep pace with the high rate of sea level rise and associated environmental changes after the last ice age, about 20,000 years ago, the coral died and is now preserved at those deeper levels.
Dr Beaman said it had the potential to provide a wealth of knowledge about how best to manage the reef going forward.
"We are facing unprecedented change on the Great Barrier Reef. We look at the past to give context to what we might have in the future," he said.
Robin Beaman aboard the CSIRO research ship, the RV Investigator. (Supplied: CSIRO)
Tsunami-making reef slide
University of Sydney geoscientist Jody Webster said the new information was crucial.
Associate Professor Webster examines a core sample drilled from the reef. (Supplied: Sydney University)
Associate Professor Webster said it would help make improved predictions, such as the rate of sea level rise in the face of global warming as the ice sheets melt.
Similar mapping laid the groundwork for a huge core drilling expedition in 2010, which revealed a mass of information about extinct reefs and organisms.
"One of the key goals is to understand what the environmental thresholds are to the life of the reef," Associate Professor Webster said.
The latest research has also turned up a huge underwater landslide on the edge of the reef shelf.
At a depth of about 120 metres, the slide drops almost a kilometre down and more than 20 kilometres wide at its base.
"It is truly huge in scale," Dr Beaman said.
"We know that these are old, but they generate tsunamis several metres to 10 metres [high].
"It's unlikely that humans were here in Australia at the time."
The mapping from this voyage will be further investigated next year, when the scientists join an international collaboration on board a German research ship in the Great Barrier Reef.

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