February 14, 2011
Acid Oceans Demand Greater Reef Care
The more humanity acidifies and warms the world's oceans with carbon emissions, the harder we will have to work to save our coral reefs.
That's the blunt message from a major new study by an international scientific team, which finds that ocean acidification and global warming will combine with local impacts like overfishing and nutrient runoff to weaken the world's coral reefs right when they are struggling to survive.Modeling by a team led by Dr Ken Anthony of the ARC Centre of Excellence for Coral Reef Studies and The University of Queensland's Global Change Institute has found that reefs already overfished and affected by land runoff are likely to be more vulnerable to increasing CO2 in the atmosphere caused by the burning of fossil fuels.
Their study is the first to integrate global scale processes, such as warming and acidification, with the local factors overfishing and runoff, to predict the combined impact on coral reefs.
"As CO2 levels climb to 450-500 parts per million "“ as they are now expected to do by 2050 "“ how well we manage local impacts on reefs like fishing and runoff will become absolutely critical as to whether they survive as coral reefs, or are overtaken by algae that compete with corals for space on reefs," Dr Anthony says.
Warmer conditions cause periodic mass coral deaths by bleaching, while acidifying sea water "“ due to CO2 dissolving out of the atmosphere "“ weakens the corals by interfering with their ability to form their skeletons, making them more vulnerable to impact by storms. If the corals are also affected by heavy nutrient runoff from the land "“ which fertilizes the algae "“ and overfishing of parrot fishes and others that keep the reefs clear of weed, then corals can struggle to re-establish after a setback, he explains. "In those situations, the reef can become completely overgrown by algae."
The team's modeling, which they say is on the conservative side, has far-reaching implications for the preservation even of well-managed reefs such as Australia's Great Barrier Reef "“ and extremely serious implications for reefs in developing countries, where most reefs are located and where reefs face high levels of stress from human activities.
"Put simply, our model indicates that the more CO2 we humans liberate, the harder it will become for coral reefs, as we know them, to survive. This means they will need all the help they can get in the way of good management to prevent their being overgrown by sea weeds," he adds.
"Coral reefs in developing nations, where most of the world's reefs occur and overfishing and nutrification remain key concerns, are particularly vulnerable, highlighting the need to continue to build capacity amongst reef managers and governments in areas like SE Asia," the team warns in their report, which was recently published in the journal Global Change Biology.
"A failure to rapidly stabilize and reduce the concentration of CO2 in the Earth's atmosphere is likely to lead to significant loss of key (coral) framework builders such as Acropora, irrespective of the effectiveness of local management," the scientists conclude.
"However local reef management efforts to maintain high grazing fish populations and prevent runoff of silt, fertilizers and sewage from the land will play a critical role in maintaining coral resilience while CO2 concentrations are stabilized", they add.
The study, which is the first to quantify the relative importance of carbon emissions and local disturbances in compromising reef health, can be used to optimize future management practices of coral reefs. It makes clear that both policy changes on emissions and local management measures are required to secure a future for coral reefs.
Their paper, "Ocean acidification and warming will lower coral reef resilience" by Kenneth R Anthony, Jeffery A Maynard, Guillermo Diaz-Pulido, Peter J Mumby, Paul A Marshall, Long Cao and Ove Hoegh-Guldberg appears in Global Change Biology (2011).
Image 1 courtesy of Jeff Maynard. Image 2 courtesy of Guillermo Diaz-Pulido.
On the Net:
- ARC Centre of Excellence for Coral Reef Studies
- University of Queensland Global Change Institute
- Global Change Biology