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Spatial distributions, feeding ecologies, and behavioral interactions of four rabbitfish species (Siganus unimaculatus, S. virgatus, S. corallinus, and S. puellus)

Clarifying the underlying mechanisms that enable closely related species to coexist in a particular environment is a fundamental aspect of ecology. Coral reefs support a high diversity of marine organisms, among which rabbitfishes (family Siganidae) are a major component The present study aimed to r...

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Autor principal: Nanami, Atsushi
Formato: Online Artículo Texto
Lenguaje:English
Publicado: PeerJ Inc. 2018
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6304264/
https://www.ncbi.nlm.nih.gov/pubmed/30595989
http://dx.doi.org/10.7717/peerj.6145
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author Nanami, Atsushi
author_facet Nanami, Atsushi
author_sort Nanami, Atsushi
collection PubMed
description Clarifying the underlying mechanisms that enable closely related species to coexist in a particular environment is a fundamental aspect of ecology. Coral reefs support a high diversity of marine organisms, among which rabbitfishes (family Siganidae) are a major component The present study aimed to reveal the mechanism that allows rabbitfishes to coexist on coral reefs in Okinawa, Japan, by investigating the spatial distributions, feeding ecologies, and behavioral interactions of four species: Siganus unimaculatus, S. virgatus, S. corallinus, and S. puellus. All four species had a size-specific spatial distribution, whereby small individuals were found in sheltered areas that were covered by branching and bottlebrush Acropora spp. and large individuals were found in both sheltered and exposed rocky areas. However, no clear species-specific spatial distribution was observed. There was some variation in the food items taken, with S. unimaculatus primarily feeding on brown foliose algae, red foliose algae, and red styloid algae, and S. virgatus and S. puellus preferring brown foliose algae and sponges, respectively. However, S. corallinus did not show any clear differences in food preferences from S. virgatus or S. unimaculatus, mainly feeding on brown foliose algae and red styloid algae. The four species exhibited differences in foraging substrate use, which was probably related to differences in their body shape characteristics: S. unimaculatus has a slender body with a remarkably protruding snout and mainly used concave substrates for feeding, whereas S. virgatus has a deeper body with a low degree of snout protrusion and mainly used convex substrates. The other two species have a low degree of snout protrusion combined with a deeper body in the case of S. corallinus and a slender body in the case of S. puellus and used concave, flat, and convex substrates to an equal degree for feeding. Behavioral interactions were categorized into “agonistic behaviors” (attack and agonistic displays) and “no interactions.” For all four species, a greater frequency of agonistic behaviors was observed when two conspecific pairs approached each other than when two heterospecific individuals encountered each other. Together, these results suggest that food item partitioning is one of the main factors enabling the coexistence of these four syntopic rabbitfish species, which is enhanced by species-specific differences in feeding substrates as a result of their different body shape and behavioral characteristics.
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spelling pubmed-63042642018-12-28 Spatial distributions, feeding ecologies, and behavioral interactions of four rabbitfish species (Siganus unimaculatus, S. virgatus, S. corallinus, and S. puellus) Nanami, Atsushi PeerJ Animal Behavior Clarifying the underlying mechanisms that enable closely related species to coexist in a particular environment is a fundamental aspect of ecology. Coral reefs support a high diversity of marine organisms, among which rabbitfishes (family Siganidae) are a major component The present study aimed to reveal the mechanism that allows rabbitfishes to coexist on coral reefs in Okinawa, Japan, by investigating the spatial distributions, feeding ecologies, and behavioral interactions of four species: Siganus unimaculatus, S. virgatus, S. corallinus, and S. puellus. All four species had a size-specific spatial distribution, whereby small individuals were found in sheltered areas that were covered by branching and bottlebrush Acropora spp. and large individuals were found in both sheltered and exposed rocky areas. However, no clear species-specific spatial distribution was observed. There was some variation in the food items taken, with S. unimaculatus primarily feeding on brown foliose algae, red foliose algae, and red styloid algae, and S. virgatus and S. puellus preferring brown foliose algae and sponges, respectively. However, S. corallinus did not show any clear differences in food preferences from S. virgatus or S. unimaculatus, mainly feeding on brown foliose algae and red styloid algae. The four species exhibited differences in foraging substrate use, which was probably related to differences in their body shape characteristics: S. unimaculatus has a slender body with a remarkably protruding snout and mainly used concave substrates for feeding, whereas S. virgatus has a deeper body with a low degree of snout protrusion and mainly used convex substrates. The other two species have a low degree of snout protrusion combined with a deeper body in the case of S. corallinus and a slender body in the case of S. puellus and used concave, flat, and convex substrates to an equal degree for feeding. Behavioral interactions were categorized into “agonistic behaviors” (attack and agonistic displays) and “no interactions.” For all four species, a greater frequency of agonistic behaviors was observed when two conspecific pairs approached each other than when two heterospecific individuals encountered each other. Together, these results suggest that food item partitioning is one of the main factors enabling the coexistence of these four syntopic rabbitfish species, which is enhanced by species-specific differences in feeding substrates as a result of their different body shape and behavioral characteristics. PeerJ Inc. 2018-12-20 /pmc/articles/PMC6304264/ /pubmed/30595989 http://dx.doi.org/10.7717/peerj.6145 Text en ©2018 Nanami http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, reproduction and adaptation in any medium and for any purpose provided that it is properly attributed. For attribution, the original author(s), title, publication source (PeerJ) and either DOI or URL of the article must be cited.
spellingShingle Animal Behavior
Nanami, Atsushi
Spatial distributions, feeding ecologies, and behavioral interactions of four rabbitfish species (Siganus unimaculatus, S. virgatus, S. corallinus, and S. puellus)
title Spatial distributions, feeding ecologies, and behavioral interactions of four rabbitfish species (Siganus unimaculatus, S. virgatus, S. corallinus, and S. puellus)
title_full Spatial distributions, feeding ecologies, and behavioral interactions of four rabbitfish species (Siganus unimaculatus, S. virgatus, S. corallinus, and S. puellus)
title_fullStr Spatial distributions, feeding ecologies, and behavioral interactions of four rabbitfish species (Siganus unimaculatus, S. virgatus, S. corallinus, and S. puellus)
title_full_unstemmed Spatial distributions, feeding ecologies, and behavioral interactions of four rabbitfish species (Siganus unimaculatus, S. virgatus, S. corallinus, and S. puellus)
title_short Spatial distributions, feeding ecologies, and behavioral interactions of four rabbitfish species (Siganus unimaculatus, S. virgatus, S. corallinus, and S. puellus)
title_sort spatial distributions, feeding ecologies, and behavioral interactions of four rabbitfish species (siganus unimaculatus, s. virgatus, s. corallinus, and s. puellus)
topic Animal Behavior
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6304264/
https://www.ncbi.nlm.nih.gov/pubmed/30595989
http://dx.doi.org/10.7717/peerj.6145
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