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Powers of attraction could decimate deadly starfish
by Staff Writers
Brisbane, Australia (SPX) Apr 10, 2017

These are adult COTS predating on coral. White coral skeleton (foreground), unconsumed coral (background). Image courtesy Australian Institute of Marine Science.

An American who fell in love with both the Great Barrier Reef and his wife via The University of Queensland has led a breakthrough discovery that could protect one of the Seven Natural Wonders. Husband-and-wife Professor Bernard Degnan and Associate Professor Sandie Degnan, believe they, along with research colleagues, can use the powers of attraction to decimate one of the reef's fiercest enemies.

In esteemed journal Nature, the international research team has revealed crown-of-thorns starfish gather en masse due to a release of pheromones - a scent they've decoded so the prickly pests can be lured to their capture. "For an already struggling Great Barrier Reef, and indeed any reefs across the Indo-Pacific region, these starfish pose an enormous threat due to the ability of a single female to produce up to 120 million offspring in one spawning season," Professor Bernard Degnan said.

"They feast on the coral and leave it bleached white and vulnerable to destruction in heavy storms. "Millions of dollars have been spent over many years on a variety of ways to capture crown-of-thorns starfish, whether it be via diver collection, injections or robotics.

"Now we've found the genes the starfish use to communicate, we can begin fabricating environmentally safe baits that trick them into gathering in one place, making it easier to remove reproductively-primed animals."

The Degnans worked alongside a team of UQ researchers, and long-standing colleagues at the Australian Institute of Marine Science (AIMS), the Okinawa Institute of Science and Technology (OIST) and University of the Sunshine Coast (USC). The painstaking process of sequencing the of crown-of-thorns genome and its pheromones was completed 30 years after Professor Degnan moved from his hometown of New York to Brisbane to study as one of UQ's first international exchange students.

A graduate in Marine Biology and Molecular Biology, Professor Degnan developed an early fascination with the biodiversity of Queensland's Great Barrier Reef in his formative years, and while at UQ's Heron Island Research Station he met his future wife.

"I guess there is a nice story there about the reef bringing us together and now we're working hard to develop novel ways to understand and preserve it," Professor Bernard Degnan said.

"But beyond us, there's personal history with some of the other researchers, like Mike Hall at AIMS who is one of our oldest colleagues and who came up with the original genome concept.

"Nori Satoh at OIST could be considered the grandfather of marine genomics and has been a very supportive friend, as has Scott Cummins of USC, who was a former research fellow in my lab."

"What I like most is that we're finding a solution to a problem, not merely documenting it." Beyond the role their genomics breakthrough brings to controlling the crown-of-thorns, the Degnans believe it could have other environmental and economical benefits.

They say a similar approach could be used to combat invasions of sea snails and other marine pests throughout the world. For fishermen and coastal communities, that's a win on several fronts.

"I expect for local economies there could be some positive cash flow from the fishermen that collect and remove the crown-of-thorns.," Professor Bernard Degnan said. "Furthermore, as the reef becomes healthier, the benefits to a raft of industries from tourism to fisheries quickly follow."

The crown-of-thorns research is available in full via the Nature journal.

Skeletons developed as chemistry of oceans changed
Edinburgh, UK (SPX) Apr 10, 2017
Skeletons and shells first came into being 550 million years ago as the chemical make-up of seawater changed, a study suggests. Ancient marine life may have developed from soft-bodied animals into creatures with hard body parts as oxygen levels rose and calcium and magnesium levels in prehistoric oceans changed, researchers say. Until now, little was known about how skeletons and shells - ... read more

Related Links
University of Queensland
Water News - Science, Technology and Politics

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