Bivalve gut microbiome responses to sediment characteristics and anthropogenic activities in Cerastoderma edule (Linnaeus, 1758)

dc.contributor.authorNeves, Joana
dc.contributor.authorMil-Homens, Mário
dc.contributor.authorMartins, Marta
dc.contributor.authorAdão, Helena
dc.contributor.authorArteaga, Jorge
dc.date.accessioned2025-12-29T10:52:16Z
dc.date.available2025-12-29T10:52:16Z
dc.date.issued2025-11-19
dc.description.abstractEstuaries are highly dynamic ecosystems that are influenced by fluctuating environmental conditions and sediment-associated contamination. These factors can significantly affect microbiomes associated with their hosts. In this study, we investigated the gut microbiome of the bivalve Cerastoderma edule by integrating bacteria (16S rRNA) and fungal (ITS) diversity data with sediment physicochemical parameters across three estuarine sites subjected to varying degrees of anthropogenic pressure. Sampling was conducted in the Sado Estuary (Portugal), a warm-temperate, mesotidal system. The selected areas, Tróia (TR), Gâmbia (GAM), and Navigator (NAV), represent contrasting environmental settings, from low-contaminated (TR) to more impacted zones influenced by industrial and aquaculture activities (GAM and NAV). Microbial diversity and composition were assessed on a seasonal basis using next-generation sequencing and multivariate analyses. Alpha diversity metrics revealed differences in bacterial communities between sites and seasons, whereas fungal diversity remained relatively stable across locations. This suggests that gut-associated fungi are more resilient to environmental pressures, although specific compositional shifts were observed in the impacted areas, with some taxa showing correlations with trace metal concentrations. Principal Component Analysis (PCA) indicated strong associations between gut microbial composition and sediment parameters, including organic matter, salinity, and trace metals. In particular, the bacterial communities exhibited strong responses to trace metals, such as Hg, Zn, and Pb. Functional inference (FAPROTAX) highlighted the microbial involvement in nitrogen, sulfur, and carbon cycling, indicating potential adaptive responses to contamination. Together, these findings support the utility of the C. edule gut microbiome as a sensitive indicator of estuarine environmental status and host–environment interactions. Moreover, they underscored the importance of including both bacterial and fungal components to obtain a more holistic understanding of microbiome-mediated ecosystem functions.por
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dc.identifier.citationNeves et al., 2025. Bivalve gut microbiome responses to sediment characteristics and anthropogenic activities in Cerastoderma edule (Linnaeus, 1758). Part of the International Online Conference on Marine Science and Engineering series 24–26 November 2025.por
dc.identifier.scientificarea367por
dc.identifier.sharewithMAREpor
dc.identifier.urihttps://sciforum.net/paper/view/27218
dc.identifier.urihttp://hdl.handle.net/10174/40075
dc.identifier.withinvitedoralpresentationnaopor
dc.identifier.withoralpresentationsimpor
dc.identifier.withposternaopor
dc.language.isoengpor
dc.publisherJuan Soriapor
dc.rightsopenAccesspor
dc.subjectEnvironmental disturbance;por
dc.subject16S rRNApor
dc.subjectITS sequencing; Estuarine ecotoxicologypor
dc.subjectHost–microbe interactionspor
dc.subjectFunctional predictionpor
dc.titleBivalve gut microbiome responses to sediment characteristics and anthropogenic activities in Cerastoderma edule (Linnaeus, 1758)por
dc.typelecturepor

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