A cone snail in the lab

Deadly cone snails are too clumsy to catch their prey when exposed to the levels of ocean acidification expected under predicted climate change, according to new research published in Biology Letters.

The study by scientists from the ARC Centre for Excellence for Coral Reef Studies at James Cook University reveals the impact that rising carbon dioxide (CO 2 ) levels could have on the ocean food chain.

“We found the carbon dioxide made the cone snails hyperactive,” says lead author Dr. Sue-Ann Watson. “But despite moving three times faster than normal they caught fewer prey. They meandered around instead of moving by stealth and sneaking up on their prey.”

Cone snails typically hide in the sand to surprise their enemy. They harpoon their prey using a powerful venom which can also be fatal to humans.

Scientists took cone snails from around Lizard Island, on the Great Barrier Reef, and put them into tanks with a popular cone snail delicacy – jumping snails, but only 10 per cent of the cone snails under the influence of elevated CO 2 managed to catch dinner compared to 60 per cent of those kept in tanks under normal conditions.

Ocean acidification occurs when the ocean absorbs carbon dioxide from the atmosphere, resulting in chemical changes as the pH of the water decreases.

“We already know that ocean acidification will weaken snails’ shells and this new research shows it can also affect their energy levels by increasing activity while at the same time decreasing their food intake,” said Professor Philip Munday.

Previous work by Dr Watson has shown that behaviour of the cone snail’s prey, such as jumping snails, is altered by rising CO 2 levels. This new study shows that predator behaviour is affected as well.

“As the behaviour of species change under these conditions, so too can the relationship between predator and prey. The results of this study could have implications for food chains beyond cone snails and their prey.”

“Marine snails and other molluscs are important for the ocean food chain and are also resources for humans. If their behaviour changes, there could be a flow-on effect in the food chain – these changes could potentially affect commercially important seafood species,” said Dr Watson.

Paper: Watson S-A, Fields JB, Munday PL. 2017 Ocean acidification alters predator behaviour and reduces predation rate. Biology Letters. 20160797.

http://dx.doi.org/10.1098/rsbl.2016.0797 (Available by request)

Images: https://www.dropbox.com/sh/q164fzvxhwzukgv/AADm7AKtpjtDBzdXoSJuGxVqa?dl=0