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
For the first time, scientists have assessed how many corals there are in the Pacific Ocean—and evaluated their risk of extinction.
While the answer to “how many coral species are there?” is ‘Googleable’, until now scientists didn’t know how many individual coral colonies there are in the world.
“In the Pacific, we estimate there are roughly half a trillion corals,” said the study lead author, Dr Andy Dietzel from the ARC Centre of Excellence for Coral Reef Studies at James Cook University (Coral CoE at JCU).
“This is about the same number of trees in the Amazon, or birds in the world.”
The results are crucial for the research and conservation of corals and coral reefs as they decline across the world due to the effects of climate change.
“We need to know the abundance of a species to assess its risk of extinction,” Dr Dietzel said. “However, there is very little data on most of Earth’s wild animal and plant species—not just corals.”
Dr Dietzel said the eight most common coral species in the region each have a population size greater than the 7.8 billion people on Earth.
The findings suggest that while a local loss of coral can be devastating to coral reefs, the global extinction risk of most coral species is lower than previously estimated.
Extinctions could instead unfold over a much longer timeframe because of the broad geographic ranges and huge population sizes of many coral species.
Co-author Professor Sean Connolly, from Coral CoE at JCU and the Smithsonian Tropical Research Institute, said the study’s new analysis of the 80 species considered by the IUCN to have an elevated extinction risk shows that 12 of those species have estimated population sizes of more than one billion colonies.
“As an example, the finger-coral, Porites nigrescens, ranks amongst the ten most abundant species we examined. It’s also not considered to be highly susceptible to coral bleaching—yet it is currently listed by IUCN as vulnerable to global extinction,” Prof Connolly said.
Co-author Professor Michael Bode from Coral CoE at JCU and the Queensland University of Technology said, “One third of the rarest species in our analysis—covering the bottom ten percent of species abundances—are nonetheless listed by the IUCN as being of Least Concern.”
The study measured the population sizes of more than 300 individual coral species on reefs across the Pacific Ocean, from Indonesia to French Polynesia. The scientists used a combination of coral reef habitat maps and counts of coral colonies to estimate species abundances.
Co-author Professor Terry Hughes from Coral CoE at JCU said the study results have major implications for managing and restoring coral reefs.
“We counted an average of 30 corals per square metre of reef habitat. This translates into tens of billions of corals on the Great Barrier Reef—even after recent losses from climate extremes,” Prof Hughes said.
“Coral restoration is not the solution to climate change. You would have to grow about 250 million adult corals to increase coral cover on the Great Barrier Reef by just one percent.”
He said the study highlights the opportunity for action to mitigate the threats to reef species—and well before climate change causes global extinctions—to make an eventual recovery of reef coral assemblages possible.
“The challenge now is to protect wild populations of corals, because we could never replace more than a tiny percentage of them. Prevention is better than cure,” Prof Hughes said.
“Given the huge size of these coral populations, it is very unlikely that they face imminent extinction. There is still time to protect them from anthropogenic heating, but only if we act quickly on reducing greenhouse gas emissions.”
PAPER
Dietzel A, Bode M, Connolly S, Hughes T. (2021). ‘The population sizes and global extinction risk of reef-building coral species at biogeographic scales’. Nature Ecology & Evolution. DOI: 10.1038/s41559-021-01393-4
IMAGES
A selection of images can be used for media stories with credit to the photographer as stated in the caption. Please note these are for single use with this story only, not for any other story. No archival permissions are granted.
CONTACT
Dr Andreas Dietzel (Townsville, Australia)
P: +61 (0)432 916 224
E: andreas.dietzel@my.jcu.edu.au
Prof Sean Connolly (Panama, Central America)
P: (available on request)
E: ConnollyS@si.edu
Prof Michael Bode (Brisbane, Australia)
P: +61 (0)414 108 439
E: michael.bode@qut.edu.au
Prof Terry Hughes (Townsville, Australia)
P: +61 (0)400 720 164
E: terry.hughes@jcu.edu.au
FOR FURTHER INFORMATION
Melissa Lyne/ Coral CoE at JCU (Sydney, Australia)
P: +61 (0) 415 514 328
E: melissa.lyne@jcu.edu.au
The most extensive reef survey of the Coral Sea Marine Park ever undertaken will continue this week as scientists from ARC Centre of Excellence for Coral Reef Studies at James Cook University (Coral C
Scientists have used modern genetic techniques to prove age-old assumptions about what sizes of fish to leave in the sea to preserve the future of local fisheries. “We’ve known for decades that
Scientists say outdated assumptions around gender continue to hinder effective and fair policymaking and action for climate mitigation and adaptation. Lead author of a new study, Dr Jacqueline Lau
For the first time, scientists have assessed how many corals there are in the Pacific Ocean—and evaluated their risk of extinction. While the answer to “how many coral species are there?” is
Abstract: Neonate sharks experience high predation during early ontogeny. For this reason, predator avoidance is the major driver of shallow-water habitat use in neonate sharks. When a predator encoun
Abstract: Humans have been harvesting predators and other creatures from the global oceans for millennia. More recently, conservation measures, such as marine reserves, have been established to restor
Abstract: We frequently hear about demise and decline in fisheries systems. This narrative can inadvertently shift thefocus of research and funding away from the opportunities and benefits avail
Abstract: Multiple habitats in a tropical seascape are increasingly recognized as interconnected to one another. Mangroves, seagrass beds, and macroaglal beds are important components of a tropical se
Abstract: Current conservation goals for reef-building corals under climate change involve boosting desirable traits like heat tolerance and fast growth in natural and restored coral populations. This
Abstract: Coral reefs are threatened by local and global stressors, and critical to managing corals for persistence is understanding the components of how coral populations resist and recover from st
Abstract: The vast majority of reef fishes have a life history consisting of a pelagic larval phase of typically 20 to 60 days, followed by larval settlement where they remain through their juvenile a
Abstract: Social networks have been and remain important across the Pacific Islands, and beyond, for building and maintaining social-ecological resilience. However, there is little quantitative infor
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
