Big waves costly for fish: ANU study
Updated: 2014-02-03 09:14
CANBERRA - Big waves are energetically costly for fish, and there are more big waves than ever, a study by the Australian National University (ANU) found out.
The good news is that fish might be able to adapt, ANU said in a press release. "There has been a lot of recent work in oceanography documenting the fact that waves are becoming more frequent and more intense due to climate change," said Dominique Roche, PhD candidate from the Research School of Biology at ANU. "The habitats that fish live in are changing." "This is not a localised problem, but something that is documented globally," added Sandra Binning, also a PhD candidate in the Research School of Biology.
Roche and Binning are co-authors on a study documenting the energy it takes for fish to swim through large, intense waves. Specifically, they focused on fish that swim with their arm, or pectoral fins, which are very common on both rocky and coral reefs.
"By controlling water flow in an experimental chamber with the help of a computer, we were able to replicate oscillations in the water flow like in a wave pool," said Roche.
"We looked at how much energy the fish consumed while swimming without waves, in conditions with small waves, and in conditions with large waves. The idea was to compare the amount of energy that fish consume while swimming in these three conditions when their average swimming speed was exactly the same."
They found that it's a lot more energetically demanding for fish to deal with large fluctuations in water speed and wave height.
"It's harder to constantly switch speeds than it is to remain at a constant speed, like a runner changing between running and walking during interval training versus a steady jog. Well, it's the same for swimming fish," said Roche.
"Things could get tough for fish in windy, exposed habitats if waves get stronger with changing climate. But there may be a silver lining," said Binning.
"In the swim chamber, when the water flow increased, fish had to beat their fins faster to keep up. But when the water flow slowed down, some fish took advantage and rode the wave. Essentially, rather than beating their fins frantically, these fish used the momentum that they had gained while speeding up to glide and save energy."
"This means that some individuals are better at dealing with waves than others, and that there is hope for populations to adapt their swimming behavior to potentially changing conditions in the future," concluded Roche.
Their research was recently published in The Journal of Experimental Biology.
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