The enigma of why the valued fish, the golden trevally, is so common throughout the world and may even “hitchhike” with whale sharks may have an explanation, according to researchers.
Along with a group of experts in coastal ecology, Associate Professor Nathan Waltham of James Cook University’s Center for Tropical Water and Aquatic Ecosystem Research participated in a preliminary inquiry.
According to him, the golden trevally is a sizable predatory fish with a distribution that spans significant obstacles.
They can be found in a range extending from islands south of Japan to northern Australia as well as from the east coast of Africa to the west coast of North America. The biogeographic barriers that limit the range of the majority of other species with adults connected with reefs or coastal areas do not appear to have an impact on golden trevally.
“Such an unusually extensive range, coupled with relatively low densities, suggests that golden trevally have an unusual life history and/or dispersal mechanism,” said Dr. Waltham.
He said researchers set out to make a simple check of an intriguing theory.
“Both published information and freely available imagery suggest small juvenile Golden Trevally are often associated with whale sharks, which could explain the unusually widespread distribution of the trevally and suggests a novel nursery relationship,” said Dr. Waltham.
Whale sharks are known to undertake extremely long-distance migrations over short periods of time. So, it could be possible for juvenile Golden Trevally to make those same migrations by essentially hitchhiking with whale sharks.
Professor Marcus Sheaves
The team systematically examined images of trevally available on the internet.
Dr. Waltham said 60% of the images featuring trevally in close association with other sea creatures showed them with whale sharks.
“All of the trevally close to whale sharks were juveniles or sub-adults, and in many cases, they were seen close to the sharks’ mouths,” said JCU’s Distinguished Professor Marcus Sheaves, who was also involved in the project.
He said researchers had determined with hydrodynamic models that the front of whale sharks seems to be where small fish benefit the most from reduced drag, thereby reducing their “travel costs.”
“Whale sharks are known to undertake extremely long-distance migrations over short periods of time. So, it could be possible for juvenile Golden Trevally to make those same migrations by essentially hitchhiking with whale sharks,” said Professor Sheaves.
He said stable isotope and genetic analysis would be needed to definitively prove the connection.
“If we can do that, it has implications for the management of both Golden Trevally and whale sharks. A mobile nursery relationship extends the concept of connectivity between spawning, nursery and adult habitats beyond the scope of local-scale management, into the more complex international realm.”
“Additionally, the possible presence of this unusual nursery relationship brings into question the relevance of this or similar models for other species.”
