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Main Authors: Holmes, Roxanne B, Hamilton, Nadia M, Criswell, Katharine E, Smithson, Keturah Z, Herbert-Read, James E, Chapuis, Lucille
Format: Artículo científico
Language:en
Published: Journal of fish biology 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/40877013/
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author Holmes, Roxanne B
Hamilton, Nadia M
Criswell, Katharine E
Smithson, Keturah Z
Herbert-Read, James E
Chapuis, Lucille
author_facet Holmes, Roxanne B
Hamilton, Nadia M
Criswell, Katharine E
Smithson, Keturah Z
Herbert-Read, James E
Chapuis, Lucille
Holmes, Roxanne B
Hamilton, Nadia M
Criswell, Katharine E
Smithson, Keturah Z
Herbert-Read, James E
Chapuis, Lucille
collection PubMed - marine biology
contents Structural and developmental insights into the muscles involved in lionfish (Pterois spp.) vocalisations. Holmes, Roxanne B Hamilton, Nadia M Criswell, Katharine E Smithson, Keturah Z Herbert-Read, James E Chapuis, Lucille Animals Vocalization, Animal Female Male Air Sacs Perciformes Sex Characteristics Muscles Vocal signalling is an important mode of communication in fishes. The two species of lionfish in the Pterois complex, the Indo-Pacific lionfish (Pterois volitans) and the red lionfish (Pterois miles), are both known to produce different types of sounds with sonic muscles attached to the swimbladder. However, the specific mechanism and the functions of these vocalisations in these invasive species are still unknown. We used three-dimensional bioimaging to describe the anatomy of the sonic muscles of both species. We further quantified the muscles of P. volitans to specifically explore how muscles developed across ontogeny and to test the hypothesis that sonic muscles would show sexual dimorphism if they were a sexually selected trait. Both P. volitans and P. miles showed a physoclistous swimbladder with a bilaterally symmetric pair of extrinsic sonic swimbladder muscles (ESSMs), which have been suggested to control buoyancy and generate vocalisations. Both species also displayed an additional pair of anterior extrinsic muscles, which projected dorsoventrally from the spinal column and inserted onto the anterior wall of the swimbladder, potentially also having a role in sound production. Both types of sonic muscles were present across ontogeny. Quantification of the posterior belly of the ESSMs in P. volitans showed that both the length and mass of these muscles in both mature and immature individuals increased linearly with body size. There were no ontogenetic or sex differences in sonic muscle investment between individuals. Given the primary function of these muscles is to control the swimbladder for buoyancy, this may constrain the modification of these muscles relative to body size, or they may have no differences in their acoustic function between sexes or across ontogeny.
format Artículo científico
id pubmed_40877013
institution PubMed
language en
publishDate 2025
publisher Journal of fish biology
record_format pubmed
spellingShingle Structural and developmental insights into the muscles involved in lionfish (Pterois spp.) vocalisations.
Holmes, Roxanne B
Hamilton, Nadia M
Criswell, Katharine E
Smithson, Keturah Z
Herbert-Read, James E
Chapuis, Lucille
Animals
Vocalization, Animal
Female
Male
Air Sacs
Perciformes
Sex Characteristics
Muscles
Structural and developmental insights into the muscles involved in lionfish (Pterois spp.) vocalisations. Holmes, Roxanne B Hamilton, Nadia M Criswell, Katharine E Smithson, Keturah Z Herbert-Read, James E Chapuis, Lucille Animals Vocalization, Animal Female Male Air Sacs Perciformes Sex Characteristics Muscles Vocal signalling is an important mode of communication in fishes. The two species of lionfish in the Pterois complex, the Indo-Pacific lionfish (Pterois volitans) and the red lionfish (Pterois miles), are both known to produce different types of sounds with sonic muscles attached to the swimbladder. However, the specific mechanism and the functions of these vocalisations in these invasive species are still unknown. We used three-dimensional bioimaging to describe the anatomy of the sonic muscles of both species. We further quantified the muscles of P. volitans to specifically explore how muscles developed across ontogeny and to test the hypothesis that sonic muscles would show sexual dimorphism if they were a sexually selected trait. Both P. volitans and P. miles showed a physoclistous swimbladder with a bilaterally symmetric pair of extrinsic sonic swimbladder muscles (ESSMs), which have been suggested to control buoyancy and generate vocalisations. Both species also displayed an additional pair of anterior extrinsic muscles, which projected dorsoventrally from the spinal column and inserted onto the anterior wall of the swimbladder, potentially also having a role in sound production. Both types of sonic muscles were present across ontogeny. Quantification of the posterior belly of the ESSMs in P. volitans showed that both the length and mass of these muscles in both mature and immature individuals increased linearly with body size. There were no ontogenetic or sex differences in sonic muscle investment between individuals. Given the primary function of these muscles is to control the swimbladder for buoyancy, this may constrain the modification of these muscles relative to body size, or they may have no differences in their acoustic function between sexes or across ontogeny.
title Structural and developmental insights into the muscles involved in lionfish (Pterois spp.) vocalisations.
topic Animals
Vocalization, Animal
Female
Male
Air Sacs
Perciformes
Sex Characteristics
Muscles
url https://pubmed.ncbi.nlm.nih.gov/40877013/