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Auteurs principaux: Fernández-Gutiérrez, Jesús, Rubal, Marcos, Ramil, Fran, Moreira, Juan, Sampaio, Leandro, Sousa-Pinto, Isabel, Veiga, Puri
Format: Artículo científico
Langue:en
Publié: Marine environmental research 2025
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Accès en ligne:https://pubmed.ncbi.nlm.nih.gov/40752080/
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author Fernández-Gutiérrez, Jesús
Rubal, Marcos
Ramil, Fran
Moreira, Juan
Sampaio, Leandro
Sousa-Pinto, Isabel
Veiga, Puri
author_facet Fernández-Gutiérrez, Jesús
Rubal, Marcos
Ramil, Fran
Moreira, Juan
Sampaio, Leandro
Sousa-Pinto, Isabel
Veiga, Puri
Fernández-Gutiérrez, Jesús
Rubal, Marcos
Ramil, Fran
Moreira, Juan
Sampaio, Leandro
Sousa-Pinto, Isabel
Veiga, Puri
collection PubMed - marine biology
contents Structure of sessile fouling assemblages on pontoons in marinas differs between brackish and marine salinities. Fernández-Gutiérrez, Jesús Rubal, Marcos Ramil, Fran Moreira, Juan Sampaio, Leandro Sousa-Pinto, Isabel Veiga, Puri Salinity Biodiversity Animals Ecosystem Ships Aquatic Organisms Environmental Monitoring Biofouling Seawater Invertebrates The number of recreational marinas has recently increased due to the growing demand for leisure boating. Floating pontoons of marinas provide novel habitats to fouling assemblages, specially to sessile habitat-forming species, that increase heterogeneity creating new habitats for mobile and sessile epibionts. Therefore, sessile species play a crucial role in sustaining biodiversity in urban areas. Despite the relevance of sessile fouling assemblages, the role of environmental factors in shaping the structure of these assemblages has not been comprehensively studied. In the present study, the abundance, richness and multivariate structure of sessile fouling assemblages associated with floating pontoons were studied in marinas under two different environmental conditions (brackish and marine), and the influence of environmental variables (salinity, temperature and dissolved oxygen) on fouling assemblages was tested. Our results showed that univariate variables and assemblage composition significantly differed between environments, with lower values of abundance and richness under brackish conditions. This pattern could result from the influence of freshwater inputs in brackish marinas, that also showed a higher level of multivariate dispersion. Results also pointed out that salinity was the most important factor, explaining 46 %, 56 % and 37 % of abundance, richness and multivariate structure of sessile fouling assemblage, respectively. The sessile assemblage in marine and brackish marinas was dominated in terms of abundance by the native habitat-forming species Mytilus galloprovincialis, which harboured most of the collected sessile epibiont species. These findings highlight the role of floating pontoons to support sessile invertebrates in urban areas where biodiversity may be heavily impacted.
format Artículo científico
id pubmed_40752080
institution PubMed
language en
publishDate 2025
publisher Marine environmental research
record_format pubmed
spellingShingle Structure of sessile fouling assemblages on pontoons in marinas differs between brackish and marine salinities.
Fernández-Gutiérrez, Jesús
Rubal, Marcos
Ramil, Fran
Moreira, Juan
Sampaio, Leandro
Sousa-Pinto, Isabel
Veiga, Puri
Salinity
Biodiversity
Animals
Ecosystem
Ships
Aquatic Organisms
Environmental Monitoring
Biofouling
Seawater
Invertebrates
Structure of sessile fouling assemblages on pontoons in marinas differs between brackish and marine salinities. Fernández-Gutiérrez, Jesús Rubal, Marcos Ramil, Fran Moreira, Juan Sampaio, Leandro Sousa-Pinto, Isabel Veiga, Puri Salinity Biodiversity Animals Ecosystem Ships Aquatic Organisms Environmental Monitoring Biofouling Seawater Invertebrates The number of recreational marinas has recently increased due to the growing demand for leisure boating. Floating pontoons of marinas provide novel habitats to fouling assemblages, specially to sessile habitat-forming species, that increase heterogeneity creating new habitats for mobile and sessile epibionts. Therefore, sessile species play a crucial role in sustaining biodiversity in urban areas. Despite the relevance of sessile fouling assemblages, the role of environmental factors in shaping the structure of these assemblages has not been comprehensively studied. In the present study, the abundance, richness and multivariate structure of sessile fouling assemblages associated with floating pontoons were studied in marinas under two different environmental conditions (brackish and marine), and the influence of environmental variables (salinity, temperature and dissolved oxygen) on fouling assemblages was tested. Our results showed that univariate variables and assemblage composition significantly differed between environments, with lower values of abundance and richness under brackish conditions. This pattern could result from the influence of freshwater inputs in brackish marinas, that also showed a higher level of multivariate dispersion. Results also pointed out that salinity was the most important factor, explaining 46 %, 56 % and 37 % of abundance, richness and multivariate structure of sessile fouling assemblage, respectively. The sessile assemblage in marine and brackish marinas was dominated in terms of abundance by the native habitat-forming species Mytilus galloprovincialis, which harboured most of the collected sessile epibiont species. These findings highlight the role of floating pontoons to support sessile invertebrates in urban areas where biodiversity may be heavily impacted.
title Structure of sessile fouling assemblages on pontoons in marinas differs between brackish and marine salinities.
topic Salinity
Biodiversity
Animals
Ecosystem
Ships
Aquatic Organisms
Environmental Monitoring
Biofouling
Seawater
Invertebrates
url https://pubmed.ncbi.nlm.nih.gov/40752080/