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
A world-first study is challenging long-held assumptions about the role of sunlight in coral biodiversity.
The research questions a classic theory that predicts coral biodiversity is highest in the shallowest waters where more energy is available in the form of sunlight.
The research, led by Dr Ed Roberts from the ARC Centre of Excellence for Coral Reef Studies at James Cook University (Coral CoE at JCU) with colleagues from the Queensland Museum, the UK and Denmark, reveals light—either on its own or in combination with other local factors—doesn’t account for differences in the number of coral species occurring at different depths. The findings test a long-held theory that there is greater species diversity where there is greater available energy.
“Our understanding of how coral diversity varies across depth has been limited by a lack of high-quality data due to the difficulty of deeper surveys,” Dr Roberts said.
“We were able to overcome that in our survey in Kimbe Bay, Papua New Guinea. This allowed us to test the classic Species Energy hypothesis that proposes the greater the energy available, the greater the diversity.”
“Theoretically, more energy allows more individuals to co-exist. This in turn allows more species to maintain large enough populations to avoid local extinction.”
For corals, the highest diversity was expected in the shallows because corals depend on energy from sunlight. To test this idea, the researchers surveyed corals along 98 per cent of the light gradient. Together, they generated an unprecedented dataset of 8,460 coral colonies across six reefs in Kimbe Bay.
“Our results do not agree with this classic explanation of how diversity changes with energy,” Dr Roberts said.
“Instead, the shallowest depths had fewer species, a pattern also poorly explained by alternative explanations such as competition between corals or environmental disturbance.”
The research also revealed that coral diversity was highest at depths between 15 and 20 metres.
The results provide cause to find new theories about diversity distribution.
Co-author Dr Tom Bridge, also from Coral CoE at JCU and the Queensland Museum, said: “Hyper-diverse corals reefs are ideal ecosystems to test theories about how diversity is distributed in nature, so it is really interesting that our results do not support the classic hypotheses.”
“More broadly, our analyses cast doubt on the suitability of these hypotheses more generally across terrestrial, marine and freshwater systems, suggesting that ecologists might need to rethink the underlying causes of these fundamental patterns of diversity.”
—
Paper: Roberts E, Keith S, Rahbek C, Bridge T, Caley M, Baird A (2019).Biology Letters.‘Testing biodiversity theory using species richness of reef-building corals across a depth gradient’. DOI: 10.1098/rsbl.2019.0493
Images are available for media use with this story only, and with credit to Ed Roberts.
CONTACTS
Dr Ed Roberts (currently in the Netherlands)
P: +31 0657 007577
E: edroberts422@gmail.com
Dr Tom Bridge (Townsville, Australia)
P: 0414 219 020
E: Thomas.bridge@jcu.edu.au
FURTHER INFORMATION
Melissa Lyne (Media Manager, Coral CoE at JCU)
P: 0415 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: When a coral reef is bleached, a temperate kelp forest is destroyed by an army of sea urchins, or when intense fishing pressure is removed through the establishment of a marine park, the ma
Abstract: The fate of fish larvae during the pelagic phase has profound effects on replenishment of marine populations that are critical for human and ecosystem health. The survival and transport of l
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: The Great Barrier Reef World Heritage Area (WHA) is one of the most precious and diverse ecosystems on Earth. It is highly valued by people within Australia and worldwide and is critical to
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
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
