Reef fish futures foretold
An international group of scientists is predicting markedly different outcomes for different species of coral reef fishes under climate change – and have made substantial progress on picking the ‘
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
Scientists have discovered that rising ocean temperatures slow the development of baby fish around the equator, raising concerns about the impact of global warming on fish and fisheries in the tropics.
In the largest study of its kind, researchers from the ARC Centre of Excellence for Coral Reef Studies at James Cook University examined the impact of increasing water temperature on fish larvae.
They analysed fishes collected from over two thousand kilometres of ocean, from the sub-tropical southern Great Barrier Reef to northern Papua New Guinea, close to the equator.
“We found that where ocean temperatures warmed beyond a certain point as we neared the equator, at about 29 degrees, the pace of larval development slowed,” says study lead author, Dr Ian McLeod.
Most marine fish go through a larval development stage in the open ocean when they are more vulnerable to predators.
Dr McLeod says the longer larvae remain in this stage the less likely they are to survive.
“Faster growth during the larval stage should lead to a survival advantage because they can develop sooner and get out of the dangerous pelagic environment faster,” he says.
Study co-author, Professor Philip Munday says the findings are a concern.
“These populations may be particularly vulnerable to global warming,” Professor Munday says.
To analyse the early life history of the fish, the researchers studied their otoliths, or ear stones, which are put down in layers similar to tree rings as the fish develop.
“It’s like reading their diary, we can learn about their growth rates, how long they take to develop, we can even calculate their size when they settled back on the reef ” says Dr McLeod.
Professor Geoffrey Jones, also from the Coral CoE adds that the findings are a concern for the millions of people living around the equator who depend on fishing for food and their livelihoods.
“Many people in equatorial regions such as Papua New Guinea rely of fish as their main source of protein, so these results raise concerns about future food security in these places.”
‘Latitudinal variation in larval development of coral reef fishes: implications of a warming ocean’ by Ian McLeod, Mark McCormick, Philip Munday, Timothy Clark, Amelia Wenger, Rohan Brooker, Miwa Takahashi and Geoffrey Jones, appears in Marine Ecology Progress Series.
Coral reef fish. Image: Ian McLeod
PNG Fishers. Image: Ian McLeod
Dr Ian McLeod – ian.mcleod1@jcu.edu.au,+ 61 (0) 4 4984 0082
Prof Philip Munday – philip.munday@jcu.edu.au, +61 (0) 7 4781 5341
Eleanor Gregory, Coral CoE communications – eleanor.gregory@jcu.edu.au, +61 (0) 428 785 895
An international group of scientists is predicting markedly different outcomes for different species of coral reef fishes under climate change – and have made substantial progress on picking the ‘
New research has found as climate change causes the world’s oceans to warm, baby sharks are born smaller, exhausted, undernourished and into environments that are already difficult for them to survi
A new study shows the coastal protection coral reefs currently provide will start eroding by the end of the century, as the world continues to warm and the oceans acidify. A team of researchers led
A team of scientists led by the ARC Centre of Excellence for Coral Reef Studies (Coral CoE) won one of the nation’s top science awards at tonight’s ‘Oscars of Australian science’, the Eureka P
Abstract: It is a little over a decade since research commenced into the effects of anthropogenic ocean acidification on marine fishes. In that time, we have learned that projected end-of-century
Abstract: Increased uptake of carbon dioxide from the atmosphere has caused the world’s ocean to become more acidic. Different marine habitats are known to have varying ranges of CO2 across mul
Abstract: The Allen Coral Atlas (http://allencoralatlas.org) partnership uses high-resolution satellite imagery, machine learning, and field data to map and monitor the world’s coral reefs at unp
Abstract: Climate change is causing the average surface temperature of the oceans to rise and increasing the frequency and intensity of marine heatwaves. In addition, absorption of additional CO2
Abstract: Marine environments are a concealing medium, where observations of natural fish behavior are challenging. In particular, the geographic and depth distributions of migratory top predators ar
Abstract: Invasive species management can be the the subject of debate in many countries due to conflicting ecological, ethical, economic, and social reasons, especially when dealing with a species s
Abstract: Ocean acidification, the increase in seawater CO2 with all its associated consequences, is relatively well understood in open oceans. In shelf seas such as the Great Barrier Reef, processe
Abstract: The backdrop of legends and movies, the deep sea has always been unfathomable because we had no idea what existed there. Once thought to be barren of life, we now know this couldn’t be
Partner Research Institutions
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