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Autori principali: Li, Yunmeng, Hablützel, Pascal I, Liu, Zixia, Van Acker, Emmanuel, Janssen, Colin R, Asselman, Jana, De Rijcke, Maarten
Natura: Artículo científico
Lingua:en
Pubblicazione: Environmental microbiology reports 2024
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Accesso online:https://pubmed.ncbi.nlm.nih.gov/39513461/
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author Li, Yunmeng
Hablützel, Pascal I
Liu, Zixia
Van Acker, Emmanuel
Janssen, Colin R
Asselman, Jana
De Rijcke, Maarten
author_facet Li, Yunmeng
Hablützel, Pascal I
Liu, Zixia
Van Acker, Emmanuel
Janssen, Colin R
Asselman, Jana
De Rijcke, Maarten
Li, Yunmeng
Hablützel, Pascal I
Liu, Zixia
Van Acker, Emmanuel
Janssen, Colin R
Asselman, Jana
De Rijcke, Maarten
collection PubMed - marine biology
contents Seasonal dynamics of bacterial community structure and function in the surf zone seawater of a recreational beach in Ostend, Belgium. Li, Yunmeng Hablützel, Pascal I Liu, Zixia Van Acker, Emmanuel Janssen, Colin R Asselman, Jana De Rijcke, Maarten Belgium Seawater Seasons Bacteria RNA, Ribosomal, 16S Bathing Beaches Phylogeny Microbiota DNA, Bacterial Chlorophyll A Temperature Despite the importance of bacteria in surf zone water quality, detailed insights into their community composition, functions, and seasonal dynamics at recreational beaches are scarce. This study conducted year-long, weekly monitoring of bacterial communities and environmental factors at a recreational beach in Ostend, Belgium. Using full-length 16S rRNA gene sequencing, we correlated bacterial composition and predicted functions with environmental factors to identify potential drivers. Bacterial communities were significantly affected by seasonal variations in chlorophyll a (Chl a), net primary productivity (NPP), and seawater temperature (SWT), with minimal influence from faecal inputs due to human activities. Spring showed distinct abundances of Planktomarina, Amylibacter, and Sulfitobacter, positively correlated with Chl a and related to sulphur oxidation potential. Summer had higher abundances of Cryomorphaceae, likely enhancing chemoheterotrophy. Beginning in mid to late fall and extending into winter, bacterial communities underwent substantial changes. Fall featured a distinctive enrichment of Thioglobaceae, inversely correlated with Chl a. Winter was dominated by Methylophilaceae (OM43 clade), negatively correlated with Chl a, NPP, and SWT. Both seasons exhibited elevated levels of potentially pathogenic phenotypes and predicted functions related to methanol oxidation and methylotrophy. This study provides a baseline for understanding how surf zone bacterial communities respond to environmental changes and impact health.
format Artículo científico
id pubmed_39513461
institution PubMed
language en
publishDate 2024
publisher Environmental microbiology reports
record_format pubmed
spellingShingle Seasonal dynamics of bacterial community structure and function in the surf zone seawater of a recreational beach in Ostend, Belgium.
Li, Yunmeng
Hablützel, Pascal I
Liu, Zixia
Van Acker, Emmanuel
Janssen, Colin R
Asselman, Jana
De Rijcke, Maarten
Belgium
Seawater
Seasons
Bacteria
RNA, Ribosomal, 16S
Bathing Beaches
Phylogeny
Microbiota
DNA, Bacterial
Chlorophyll A
Temperature
Seasonal dynamics of bacterial community structure and function in the surf zone seawater of a recreational beach in Ostend, Belgium. Li, Yunmeng Hablützel, Pascal I Liu, Zixia Van Acker, Emmanuel Janssen, Colin R Asselman, Jana De Rijcke, Maarten Belgium Seawater Seasons Bacteria RNA, Ribosomal, 16S Bathing Beaches Phylogeny Microbiota DNA, Bacterial Chlorophyll A Temperature Despite the importance of bacteria in surf zone water quality, detailed insights into their community composition, functions, and seasonal dynamics at recreational beaches are scarce. This study conducted year-long, weekly monitoring of bacterial communities and environmental factors at a recreational beach in Ostend, Belgium. Using full-length 16S rRNA gene sequencing, we correlated bacterial composition and predicted functions with environmental factors to identify potential drivers. Bacterial communities were significantly affected by seasonal variations in chlorophyll a (Chl a), net primary productivity (NPP), and seawater temperature (SWT), with minimal influence from faecal inputs due to human activities. Spring showed distinct abundances of Planktomarina, Amylibacter, and Sulfitobacter, positively correlated with Chl a and related to sulphur oxidation potential. Summer had higher abundances of Cryomorphaceae, likely enhancing chemoheterotrophy. Beginning in mid to late fall and extending into winter, bacterial communities underwent substantial changes. Fall featured a distinctive enrichment of Thioglobaceae, inversely correlated with Chl a. Winter was dominated by Methylophilaceae (OM43 clade), negatively correlated with Chl a, NPP, and SWT. Both seasons exhibited elevated levels of potentially pathogenic phenotypes and predicted functions related to methanol oxidation and methylotrophy. This study provides a baseline for understanding how surf zone bacterial communities respond to environmental changes and impact health.
title Seasonal dynamics of bacterial community structure and function in the surf zone seawater of a recreational beach in Ostend, Belgium.
topic Belgium
Seawater
Seasons
Bacteria
RNA, Ribosomal, 16S
Bathing Beaches
Phylogeny
Microbiota
DNA, Bacterial
Chlorophyll A
Temperature
url https://pubmed.ncbi.nlm.nih.gov/39513461/