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Hauptverfasser: Pons, Aina, Aspillaga, Eneko, Catalán, Ignacio A, Viver, Tomeu, Arlinghaus, Robert, Martorell-Barceló, Martina, Barcelo-Serra, Margarida, Alós, Josep
Format: Artículo científico
Sprache:en
Veröffentlicht: The Journal of animal ecology 2026
Online-Zugang:https://pubmed.ncbi.nlm.nih.gov/42271554/
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author Pons, Aina
Aspillaga, Eneko
Catalán, Ignacio A
Viver, Tomeu
Arlinghaus, Robert
Martorell-Barceló, Martina
Barcelo-Serra, Margarida
Alós, Josep
author_facet Pons, Aina
Aspillaga, Eneko
Catalán, Ignacio A
Viver, Tomeu
Arlinghaus, Robert
Martorell-Barceló, Martina
Barcelo-Serra, Margarida
Alós, Josep
Pons, Aina
Aspillaga, Eneko
Catalán, Ignacio A
Viver, Tomeu
Arlinghaus, Robert
Martorell-Barceló, Martina
Barcelo-Serra, Margarida
Alós, Josep
collection PubMed - marine biology
contents Social organization and habitat use shape the gut microbiome of a marine fish. Pons, Aina Aspillaga, Eneko Catalán, Ignacio A Viver, Tomeu Arlinghaus, Robert Martorell-Barceló, Martina Barcelo-Serra, Margarida Alós, Josep The gut microbiome hosts diverse bacterial communities that significantly influence individual spatial behaviour in animal societies. However, this relationship remains understudied in marine fish due to the challenges associated with measuring behavioural traits in free-living fish and simultaneously obtaining gut microbiome composition data. In this study, we conducted a field experiment to explore the relationship between space and habitat use, social organization, and gut microbiome composition in marine fish. We used a novel high-resolution acoustic telemetry system to collect 7930 one-day-long movement trajectories from 232 individuals of Xyrichtys novacula of the same population (153 females, 79 males) near the coastline of Mallorca, Spain. A subset of these individuals was recaptured to analyse the diversity of core and non-core gut microbiome, quantified using operational phylogenetic units (OPUs) based on 16S rRNA gene amplicons through Illumina sequencing. Individuals closer to Posidonia oceanica seagrass meadow had higher non-core microbiome diversity, especially larger individuals. Multivariate analysis showed no significant differences in microbiome composition across the tested variables (i.e. body size, territory size, degree, strength, distance to the seagrass meadow, and sex), but males showed a visually greater, but non-significant, variability in core microbiome composition. Core microbiome composition was weakly associated with social harem structure. These findings indicate that gut microbiome composition is primarily shaped by local habitat conditions, while social organization may contribute weakly and indirectly, pending further experimental validation.
format Artículo científico
id pubmed_42271554
institution PubMed
language en
publishDate 2026
publisher The Journal of animal ecology
record_format pubmed
spellingShingle Social organization and habitat use shape the gut microbiome of a marine fish.
Pons, Aina
Aspillaga, Eneko
Catalán, Ignacio A
Viver, Tomeu
Arlinghaus, Robert
Martorell-Barceló, Martina
Barcelo-Serra, Margarida
Alós, Josep
Social organization and habitat use shape the gut microbiome of a marine fish. Pons, Aina Aspillaga, Eneko Catalán, Ignacio A Viver, Tomeu Arlinghaus, Robert Martorell-Barceló, Martina Barcelo-Serra, Margarida Alós, Josep The gut microbiome hosts diverse bacterial communities that significantly influence individual spatial behaviour in animal societies. However, this relationship remains understudied in marine fish due to the challenges associated with measuring behavioural traits in free-living fish and simultaneously obtaining gut microbiome composition data. In this study, we conducted a field experiment to explore the relationship between space and habitat use, social organization, and gut microbiome composition in marine fish. We used a novel high-resolution acoustic telemetry system to collect 7930 one-day-long movement trajectories from 232 individuals of Xyrichtys novacula of the same population (153 females, 79 males) near the coastline of Mallorca, Spain. A subset of these individuals was recaptured to analyse the diversity of core and non-core gut microbiome, quantified using operational phylogenetic units (OPUs) based on 16S rRNA gene amplicons through Illumina sequencing. Individuals closer to Posidonia oceanica seagrass meadow had higher non-core microbiome diversity, especially larger individuals. Multivariate analysis showed no significant differences in microbiome composition across the tested variables (i.e. body size, territory size, degree, strength, distance to the seagrass meadow, and sex), but males showed a visually greater, but non-significant, variability in core microbiome composition. Core microbiome composition was weakly associated with social harem structure. These findings indicate that gut microbiome composition is primarily shaped by local habitat conditions, while social organization may contribute weakly and indirectly, pending further experimental validation.
title Social organization and habitat use shape the gut microbiome of a marine fish.
url https://pubmed.ncbi.nlm.nih.gov/42271554/