Abstract
Fishes can detect underwater sounds and use them to obtain key information about the environment around them. Sounds travel rapidly over great distances in water and can provide detailed information on the presence of prey, predators, and related fishes, while the overall acoustic scene provides the fishes with key information about their environment. Although they do not have the external ears that many vertebrates have, all fish species have effective internal ears. Many fish species engage in making sounds themselves. Their calls are often produced when they are approached by other fish species, and they can be used to startle and deflect their opponents. Sounds are also produced during reproductive activities. There are often differences in the sounds made by fish species, even between closely related species. The sounds of individuals may also differ, and this may play a role in sexual selection, as males compete with one another and aim to attract females that are looking for the best males to mate with. The sounds that fishes can hear are confined to low frequencies, although this is species- dependent. It is evident that fishes can distinguish between sounds that differ in their amplitude and frequency, and also discriminate between sounds that have different temporal characteristics. They can also distinguish between sounds that arrive from different directions and distances, in some cases enabling them to locate the sources of sound. Detecting sounds may enable fishes to navigate and move to particular habitats, search for prey, move away from predators, and communicate during spawning. However, a particular problem in sound detection is the masking of those sounds that interest the fishes by high and variable levels of background noise. Although some of the background noise is generated by natural sources, including the precipitation of rain and snow, and wind and waves, many underwater sounds now come from anthropogenic sources. Some of these human-made sounds can kill or injure fishes, impair their hearing, and alter their behaviour. Interference with the detection of sounds can have especially adverse effects upon the lives of fishes. There is a need for more work on the impact of human- made underwater noise upon the fitness of fishes, and the strength of fish populations.
Reference44 articles.
1. Balcombe J (2016) What a fish knows: The inner lives of our underwater cousins. Scientific American/Farrar, Straus and Giroux.
2. Leroi AM (2014) The Lagoon: How Aristotle Invented Science (Viking, 9/25/2014); ISBN 978-0670026746.
3. Popper AN. Hawkins AD, Sand, and Sisneros JA (2019) Examining the hearing abilities of fishes. J Acoust Soc Am; 146 (2), 948-955.
4. Marshall NB (1962) The biology of sound-producing fishes. Symp Zool Soc London 7: 45-60.
5. Hawkins AD and Myrberg AA (1983) Hearing and sound communication underwater. In Bioacoustics: A Comparative Approach. edited by B. Lewis (London: Academic Press); 347–405.