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Contact: Joan Robinson
joan.robinson@springer.com
49-622-148-78130
Springer
Same-sized fish stick together, using chemical cues to identify each other
Have you ever wondered why, and how, shoals of fish are comprised of fish of the same size? According to new research by Ashley Ward, from the University of Sydney in Australia, and Suzanne Currie, from Mount Allison University in Canada, fish can use a variety of different sensory cues to locate shoal-mates, but they are able to use chemical cues to find other fish of the same size as themselves. Using these cues, they can form a group with strength in numbers. The work is published online in Springer's journal, Behavioral Ecology and Sociobiology.
Forming groups is beneficial for animals. One important benefit is the reduction of individual risk from predators. Indeed when animals are in groups, predators are confronted by a number of almost identical prey animals, making it more challenging to select a target.
Dr. Ward said, "Fish typically form shoals with fish of the same size. The key question that motivated our study is this: How on earth does a fish know how big it is? For humans this is trivial - we can stand on a flat surface and see whether we're taller or shorter than someone, or we can look in a mirror. These options don't exist for fish, so how do they choose to associate with fish of the same size?"
The scientists explored which of their senses fish use both to assess the size of other individuals, and to determine how big they are themselves. They studied two freshwater shoaling fish species: three-spined stickleback and banded killfish. In a series of experiments, they exposed the fish to a variety of chemical cues - either from fish of the same species of varying sizes or a control, so-called 'blank' cue. Chemical cues are formed as fish constantly emit molecules into their surroundings.
Ward continued, "We know the sense of smell is well developed in fish and that they are sensitive to tiny differences in the chemical signature given off by others. So could they smell how big they are themselves and use this as a template to assess the size of others? It seems they can."
Both species of shoaling fish preferred the chemical cues of same-sized fish than those of larger or smaller fish from their own species. This suggests that the fish were able to determine their own size relative to other fish of the same species, primarily through chemical self-referencing.
"Using chemical cues to locate similarly sized fish of the same species in the wild promotes the formation of shoals, which creates confusion for predators as well as more coordinated, and potentially efficient, patterns of behavior for both activity and nutrition," concluded Ward.
###
Reference
Ward A & Currie S (2013). Shoaling fish can size-assort by chemical cues alone. Behavioral Ecology and Sociobiology; DOI 10.1007/s00265-013-1486-9
The full-text article is available to journalists on request.
[ | E-mail | Share ]
?
AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.
[ | E-mail | Share ]
Contact: Joan Robinson
joan.robinson@springer.com
49-622-148-78130
Springer
Same-sized fish stick together, using chemical cues to identify each other
Have you ever wondered why, and how, shoals of fish are comprised of fish of the same size? According to new research by Ashley Ward, from the University of Sydney in Australia, and Suzanne Currie, from Mount Allison University in Canada, fish can use a variety of different sensory cues to locate shoal-mates, but they are able to use chemical cues to find other fish of the same size as themselves. Using these cues, they can form a group with strength in numbers. The work is published online in Springer's journal, Behavioral Ecology and Sociobiology.
Forming groups is beneficial for animals. One important benefit is the reduction of individual risk from predators. Indeed when animals are in groups, predators are confronted by a number of almost identical prey animals, making it more challenging to select a target.
Dr. Ward said, "Fish typically form shoals with fish of the same size. The key question that motivated our study is this: How on earth does a fish know how big it is? For humans this is trivial - we can stand on a flat surface and see whether we're taller or shorter than someone, or we can look in a mirror. These options don't exist for fish, so how do they choose to associate with fish of the same size?"
The scientists explored which of their senses fish use both to assess the size of other individuals, and to determine how big they are themselves. They studied two freshwater shoaling fish species: three-spined stickleback and banded killfish. In a series of experiments, they exposed the fish to a variety of chemical cues - either from fish of the same species of varying sizes or a control, so-called 'blank' cue. Chemical cues are formed as fish constantly emit molecules into their surroundings.
Ward continued, "We know the sense of smell is well developed in fish and that they are sensitive to tiny differences in the chemical signature given off by others. So could they smell how big they are themselves and use this as a template to assess the size of others? It seems they can."
Both species of shoaling fish preferred the chemical cues of same-sized fish than those of larger or smaller fish from their own species. This suggests that the fish were able to determine their own size relative to other fish of the same species, primarily through chemical self-referencing.
"Using chemical cues to locate similarly sized fish of the same species in the wild promotes the formation of shoals, which creates confusion for predators as well as more coordinated, and potentially efficient, patterns of behavior for both activity and nutrition," concluded Ward.
###
Reference
Ward A & Currie S (2013). Shoaling fish can size-assort by chemical cues alone. Behavioral Ecology and Sociobiology; DOI 10.1007/s00265-013-1486-9
The full-text article is available to journalists on request.
[ | E-mail | Share ]
?
AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.
Source: http://www.eurekalert.org/pub_releases/2013-02/s-nfa020613.php
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