There’s a whole lot of talking going on beneath the waves. A new Cornell study finds that fish are far more likely to communicate with sound than generally thought – and some fish have been doing this for at least 155 million years.
“We’ve known for a long time that some fish make sounds,” said lead author Aaron Rice, a researcher at the K. Lisa Yang Center for Conservation Bioacoustics at the Cornell Lab of Ornithology. “But fish sounds were always perceived as rare oddities. We wanted to know if these were one-offs or if there was a broader pattern for acoustic communication in fishes.”
Credit: Cornell University
Audio from a Midshipman.
Rice is first author of “Evolutionary Patterns in Sound Production Across Fishes,” published Jan. 20 in the journal Ichthyology and Herpetology.
The authors looked at a branch of fishes called ray-finned fishes. These are vertebrates (having a backbone) comprising 99% of the world’s known species of fishes. They found 175 families that contain two-thirds of fish species that do, or are likely to, communicate with sound. By examining the fish family tree, study authors found that sound was so important, it evolved at least 33 separate times over millions of years.
“Thanks to decades of basic research on the evolutionary relationships of fishes, we can now explore many questions about how different functions and behaviors evolved in the approximately 35,000 known species of fishes,” said co-author William E. Bemis ’76, professor of ecology and evolutionary biology in the College of Agriculture and Life Sciences. “We’re getting away from a strictly human-centric way of thinking. What we learn could give us some insight on the drivers of sound communication and how it continues to evolve.”
The scientists used three sources of information: existing recordings and scientific papers describing fish sounds; the known anatomy of a fish – whether they have the right tools for making sounds, such as certain bones, an air bladder and sound-specific muscles; and references in 19th century literature before underwater microphones were invented.
“Sound communication is often overlooked within fishes, yet they make up more than half of all living vertebrate species,” said Andrew Bass, co-lead author and the Horace White Professor of Neurobiology and Behavior in the College of Arts and Sciences. “They’ve probably been overlooked because fishes are not easily heard or seen, and the science of underwater acoustic communication has primarily focused on whales and dolphins. But fishes have voices, too.”
Credit: Cornell University
Audio from a Longspine squirrelfish.
What are the fish talking about? Pretty much the same things we all talk about – sex and food. Rice says the fish are either trying to attract a mate, defend a food source or territory, or let others know where they are. Even some of the common names for fish are based on the sounds they make, such as grunts, croakers, hog fish, squeaking catfish and trumpeters.
Rice intends to keep tracking the discovery of sound in fish species and add them to his growing database – a project he began 20 years ago with study co-authors Ingrid Kaatz ’85, M.S. ’92, and Philip Lobel, professor of biology at Boston University. Their collaboration has continued and expanded since Rice came to Cornell.
“This introduces sound communication to so many more groups than we ever thought,” Rice said. “Fish do everything. They breathe air, they fly, they eat anything and everything – at this point, nothing would surprise me about fishes and the sounds that they can make.”
Other co-authors are Stacy Farina of Howard University and Andrea Makowski ’18. The research was partly funded by the National Science Foundation, the U.S. Bureau of Ocean Energy Management, the Tontogany Creek Fund and the Cornell Lab of Ornithology.
Pat Leonard is a staff writer at the Cornell Lab of Ornithology.
Read the story in the Cornell Chronicle