Baby fish 'steer by the sun'
July, 2013: -Baby coral reef fishes find their way home using the sun and a body clock to steer by.
A remarkable discovery by an international team of marine scientists has found that tiny fish, no more than a few millimetres in length, avoid getting lost and eaten in the vast ocean and navigate their way to safety using a ‘sun compass’.
When baby fish hatch from the egg on a reef they are swept away by currents into the open ocean – and an epic struggle begins as these tiny creatures seek their way back to the home reef, or another nearby, where they can settle in safety, explains Professor Mike Kingsford of the ARC Centre of Excellence for Coral Reef Studies and James Cook University.
“Failure to get back to a reef spells death for baby fish, and we’ve known for some time that they use their senses of hearing and smell to locate the reef and head back to it.
“The fact that we’ve shown they also have a sun compass in their tiny heads and can orient themselves according to the sun’s position through the day provides the missing link in their navigational toolkit,” he says.
The researchers tested their theory using a small plastic swimming pool and baby cardinal fishes at One Tree Island on Australia’s Great Barrier Reef. In a matter of seconds the fry turned and headed in a south southeasterly direction – and kept on heading that way even when the researchers turned their pool.
“The currents that sweep the baby fish off the reef generally set in a north-northwesterly direction, so to get back to it the fish have to swim SSE. The big question was: how did they know where that point of the compass lay, and keep to it?” Prof. Kingsford says.
“Though smaller than a good many insects, baby fish are surprisingly strong swimmers and they can push up against the current for several days, covering distances of twenty kilometres or even more. The mystery was how they maintained a correct orientation during this life-or-death journey.”
However when the researchers ‘clock shifted’ the little fish six hours back in time, they were fooled by the position of the sun and began automatically to swim in an opposite direction – to the NNW. Clock shifting involves putting the fish in a dark room and using artificial lights to reset their body clocks to a time six hours earlier.
“Since they are swept too far from the home reef to smell or hear it, this provides strong evidence they steer mainly by the sun, making compensatory allowances as it moves across the sky.
“This is a complicated task which quite a few humans would struggle to perform – but which baby coral reef fish seem to accomplish with few difficulties.”
The researchers tested the fishes’ orientation on both sunny and cloudy days, finding that they were more precise in their navigation under clear skies. They also found the fishes’ directional instincts were at their weakest around noon when the sun was directly overhead and thus provided less information to steer by.
“The tests … demonstrate that the fish have an internal clock (‘‘zeitgeber’’) that they use as part of a time-compensated sun compass to maintain their SSE heading,” the researchers concluded in their published paper.
“Since the time-compensation required for a sun compass needs to be learned (because the exact movement of the sun varies greatly with season and latitude), it is likely that this learning takes place during the early dispersal phase.” (ie. soon after the fish larvae drift off their home reef.)
They note that certain birds and sea turtles are born with an inbuilt sense of direction, and it is possible the baby cardinal fish, too, inherit the instinct to head SSE – back towards home.
Their paper ‘Sun Compass Orientation Helps Coral Reef Fish Larvae Return to Their Natal Reef’ by Henrik Mouritsen, Jelle Atema, Michael J. Kingsford and Gabriele Gerlach appears in the open access journal PLOS One of June 2013.
Professor Michael Kingsford, CoECRS and JCU, +61 7 4781 4345 or 0438 731 694
Jenny Lappin, CoECRS, +61 (0)7 4781 4222
Jim O’Brien, James Cook University Media Office, +61 (0)7 4781 4822 or 0418 892449
Issued: July, 2013