Seasonal dynamics of bacterial communities in a highly polluted coastal lagoon: Dominance of sulfur bacteria in response to elevated H2S levels

This study aims to evaluate the effects of different environmental gradients and seasonality on the bacterial communities of an impacted coastal lagoon. While the community compositions were homogenous in surface waters with the dominance of Candidatus Pelagibacter, diversity showed high vertical va...

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Bibliographic Details
Published in:Marine pollution bulletin 2024-12, Vol.209 (Pt A), p.117186, Article 117186
Main Authors: Ozbayram, E. Gozde, Köker, Latife, Oğuz, Ayça, Zengin, Zuhal, Akçaalan, Reyhan, Albay, Meriç
Format: Article
Language:English
Subjects:
16S rRNA gene sequencing
Anoxia/hypoxia
Bacteria
bacterial communities
coastal water
community structure
Desulfobacula
dissolved oxygen
H2S
Kucukcekmece lagoon
marine pollution
oxygen
salinity
sediments
species
sulfur
Syntrophus
Water pollution
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Summary:This study aims to evaluate the effects of different environmental gradients and seasonality on the bacterial communities of an impacted coastal lagoon. While the community compositions were homogenous in surface waters with the dominance of Candidatus Pelagibacter, diversity showed high vertical variation due to salinity and dissolved oxygen gradients. Anoxic conditions occurred at deeper parts of the lagoon, particularly at 14 m and 18 m, where nutrient enrichment and high H2S concentration were detected resulting in a shift of bacterial community to anoxic species. Sulfurimonas, Sulfurovum, and Desulfobacula were dominant genera at 14 m and 18 m where the H2S concentration was high. The community composition of the sediment did not change over seasons, dominated by Syntrophus species. The insights gained from this study may contribute to understanding how dissolved oxygen, H2S concentrations and salinity drive bacterial community structure in euxinic ecosystems especially the dominance of anoxic bacteria. •This study examined the bacterial diversity of a coastal lagoon by metagenomics.•A distinct variation in salinity at different depths was recorded.•Hypoxic conditions were observed at deeper layers of the water column.•Various sulfur bacteria were detected in the water column.•Sulfurimonas, Sulfurovum, and Desulfobacula were abundant at 14 m and 18 m.
ISSN:0025-326X
1879-3363
1879-3363
DOI:10.1016/j.marpolbul.2024.117186