Fish diet heats up marine biodiversity hotspot
Scientists have discovered a never-before-seen biodiversity pattern of coral reef fishes that suggests some fishes might be exceptionally vulnerable to environmental change. A new study shows plank
ARC Centre of Excellence for Coral Reef Studies
James Cook University Townsville
Queensland 4811 Australia
Phone: 61 7 4781 4000
Email: info@coralcoe.org.au
An investigation of previously unexplored depths of Australia’s Coral Sea has revealed living fossils, rare corals and sponges, and ecosystems that have remained largely unchanged for millions of years.
A team of Australian and German researchers has published their analysis of data, specimens, photographs and video footage collected in 2009, when they sent a remotely operated vehicle (ROV) to a depth of 800 metres at Osprey Reef off the far north Queensland coast.
“Osprey Reef is one of most-dived locations in the Coral Sea, but diving only reveals the top thirty metres or so,” said James Cook University’s Dr Robin Beaman, whose seabed maps helped guide the expedition.
“The reef sits atop a coral bank that rises almost 1500 metres from the surrounding Queensland Plateau,” JCU researcher Dr Tom Bridge said. “One of the attractions for divers is the sight of the sheer walls of the outer reef slope, disappearing into the depths, but until this expedition few people knew what was down there.”
The research was conducted by scientists from: James Cook University; Ludwig-Maximilians-Universität, Munich; the Natural History Museum, Berlin; Göttingen University; Queensland Museum and the University of Queensland.
The researchers sent the ROV, from the Centre for Marine Environmental Sciences in Bremen, Germany, to a depth of 800 metres and then recorded its slow ascent to the surface, recording precise depth information for each finding.
After years of painstaking analysis, the expedition’s results have just been published in the journal Marine Biodiversity.
“At 800 metres the water is cold and dark, and the environmental conditions really haven’t changed much for millions of years,” Dr Beaman said.
“Between 800 and 450 metres, we found corals and sponges that aren’t related to the species we see in the warmer waters up top,” he said. “There are relict organisms that have survived in this area throughout the varying climate cycles of the Pleistocene, stretching back several million years.”
Here, the researchers found large colonies of shimmering golden corals (of the genus
Chrysogorgia) and precious red coral (Corallium) familiar to jewellery makers in other parts of the world, but never before found in the Australian tropics.
“What we saw in this deepest zone was very much determined by the nature of the substrate or sediment cover,” Dr Beaman said.
“In areas of deep sand we saw species that spend most of their time buried in or crawling over the sand, and we were able to film their tracks and burrows.
“In other places, we saw glass sponges and bamboo corals growing on small rocks with a thin layer of sand – we were also able to film sea urchins, small crustaceans and spoon worms in those areas.
“But the most diverse communities, where we found the beautiful golden and precious red corals, were in areas where large rocks provided protection and niches for all sorts of marine life, including stalked sea lilies, crustaceans and gastropod molluscs.”
Among the living fossils recorded are some species of glass sponge that are new to science.
“We were also able to film the chambered nautilus in a zone between 500 and 600 metres,” Dr Beaman said. “The nautilus belongs to a very ancient family of cephalopods. We didn’t know a lot about their habits, so it was exciting to see them at this depth.”
Rising slowly towards the surface, the ROV revealed an eerily bare zone between 400 and 250 metres below sea level.
“It’s a zone that’s too cold for the tropical sea life we know so well, but it’s too warm for the ancient life we found at greater depths,” Dr Beaman said. “Around 200 metres, only very little sunlight penetrates and the ecosystem is dominated by black corals, hydro corals and soft corals.”
Closer to the surface and life-giving light, the steeply sloping outer walls of Osprey Reef become busier, densely populated by gorgonian corals (sea whips and sea fans), soft corals and sponges.
At around 120 metres below sea level, the ROV revealed another ancient secret.
“In the reef’s outer walls we found a series of caves likely formed by wave action. These caves mark the last ice age, about 20,000 years ago, when sea levels were 120 metres lower than today,” Dr Beaman said.
“In addition to the excitement of seeing a previously unknown world, we now have a wealth of knowledge to help guide the conservation and protection of the Great Barrier Reef and the Coral Sea,” Dr Tom Bridge said.
Video (3min:46sec, 1.071GB) from the expedition can be viewed at:http://ftt.jcu.edu.au/deepreef/temp/OspreyReef_Youtube.mov
Information for media:
Dr Rob Beaman in Cairns
Tel 07 4232 1693, Mobile 0438 623 145, robin.beaman@jcu.edu.au
Dr Tom Bridge in Townsville
Mobile 0414 219 020, thomas.bridge@jcu.edu.au
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ARC Centre of Excellence for Coral Reef Studies
James Cook University Townsville
Queensland 4811 Australia
Phone: 61 7 4781 4000
Email: info@coralcoe.org.au