News Release

Conditioning reefs for the future

In a world first, a new 'state-of-the-art' climate change experimental facility has been completed at the University of Queensland's Heron Island Research Station on the Great Barrier Reef

Peer-Reviewed Publication

Global Change Institute

In a world first, a new 'state of the art' climate change experimental facility has been completed at the University of Queensland's Heron Island Research Station.

The Climate Change Mesocosm (CCM) project led by Associate Professor Sophie Dove and Dr. David Kline from the Global Change Institute's Coral Reef Ecosystems Laboratory is one of the largest and most accurately controlled ocean acidification and warming experimental systems in the world and simulates ocean temperatures and acidification levels predicted to occur on coral reefs in the next 50 to 100 years.

Able to regulate both temperature and CO2 levels prescribed by the 2100 IPCC scenarios in a highly controlled environment, the CCM system allows studies of climate change from the molecular to the ecosystem level.

"While similar to the "Free Ocean Carbon Enrichment" (FOCE) project, recently featured in Sir David Attenborough's documentary "Death of the Oceans", the CCM differs in that it regulates the temperature, in addition to, the acidification levels above and below the current ambient conditions of water on the reef" said Dr Dove.

It is unique in so far as the experimental controls allow variation with respect to real-time conditions of CO2 and temperature measured in the adjacent deepwater of Wistari channel."

Conditions in the 72 experimental aquaria and 12 mini-reefs can then fluctuate a fixed amount above or below the ambient 'control' conditions, but importantly incorporate a day/night and seasonal variability."

The main components of the system are 4 x 7,500L custom built air-tight and insulated fibre-glass tanks or sumps which provide the necessary residence time of the water for the fine control of CO2 and temperature.

Dr David Kline a research fellow with the GCI explains "We are simulating preindustrial ocean conditions of -100 ppm CO2 and minus 1°C; a control treatment of current reef CO2 and temperature; the "B1" IPCC scenario of + 220ppm CO2 and +2°C, and an extreme "A1FI" scenario of +640 ppm CO2, +4.5 °C."

"In the eight months the FOCE system has been on the reef flat we have noticed the corals exposed to the higher CO2 levels look quite different. The types of algae are different and the growth rate of the coral appears to have slowed.

We expect to see similar results from the CCM experiments where reefal organisms respond to the dual influences of acidification and temperature."

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For more information contact:
Sophie Dove: s.dove@uq.edu.au +61 7 336 57229 or David Kline: d.kline@uq.edu.au +61 7 334 69576

Media: Robert Mackay-Wood, Communications Manager, Global Change Institute (r.mackaywood@uq.edu.au, +61 7 3346 9041 or +61 410 491 159)

Images: www.gci.uq.edu.au/mesocosm

About the Global Change Institute:

The Global Change Institute at UQ, Brisbane, Australia, investigates complex, interconnected, large-scale global issues in innovative ways, in order to contribute evidence-based, progressive solutions to the major problems of a rapidly-changing world.

The Global Change Institute is a vehicle for collaborative research, learning, engagement and advocacy. It seeks to partner with third-parties and achieve multi-disciplinary, integrated solutions to global change issues within the existing and projected frameworks of those problems: political, environmental, social, economic and technological.

About Heron Island Research Station:

Heron Island is an important site for the long-term collection of baseline oceanographic data on the Southern Great Barrier Reef. It is an integral component of the Great Barrier Reef Ocean Observations System (GBROOS) and the nation wide Integrated Marine Observing System (IMOS). Situated on the southern Great Barrier Reef, 80 kilometres offshore from the city of Gladstone, the crystal clear water and near pristine conditions make an ideal platform to conduct research and teaching activities.


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