Genomic evidence for sulfur intermediates as new biogeochemical hubs in a model aquatic microbial ecosystem
Background The sulfur cycle encompasses a series of complex aerobic and anaerobic transformations of S-containing molecules and plays a fundamental role in cellular and ecosystem-level processes, influencing biological carbon transfers and other biogeochemical cycles. Despite their importance, the m...
| Main Authors: | , , , , , |
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| Format: | Other/Unknown Material |
| Language: | English |
| Published: |
2021
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| Subjects: | |
| Online Access: | https://hdl.handle.net/20.500.11794/68702 |
| _version_ | 1833101975728685056 |
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| author | Culley, Alexander Lovejoy, Connie Vincent, Warwick F. Vigneron, Adrien Couture, Raoul-Marie Cruaud, Perrine |
| author_facet | Culley, Alexander Lovejoy, Connie Vincent, Warwick F. Vigneron, Adrien Couture, Raoul-Marie Cruaud, Perrine |
| author_sort | Culley, Alexander |
| collection | Université Laval: CorpusUL |
| description | Background The sulfur cycle encompasses a series of complex aerobic and anaerobic transformations of S-containing molecules and plays a fundamental role in cellular and ecosystem-level processes, influencing biological carbon transfers and other biogeochemical cycles. Despite their importance, the microbial communities and metabolic pathways involved in these transformations remain poorly understood, especially for inorganic sulfur compounds of intermediate oxidation states (thiosulfate, tetrathionate, sulfite, polysulfides). Isolated and highly stratified, the extreme geochemical and environmental features of meromictic ice-capped Lake A, in the Canadian High Arctic, provided an ideal model ecosystem to resolve the distribution and metabolism of aquatic sulfur cycling microorganisms along redox and salinity gradients. Results Applying complementary molecular approaches, we identified sharply contrasting microbial communities and metabolic potentials among the markedly distinct water layers of Lake A, with similarities to diverse fresh, brackish and saline water microbiomes. Sulfur cycling genes were abundant at all depths and covaried with bacterial abundance. Genes for oxidative processes occurred in samples from the oxic freshwater layers, reductive reactions in the anoxic and sulfidic bottom waters and genes for both transformations at the chemocline. Up to 154 different genomic bins with potential for sulfur transformation were recovered, revealing a panoply of taxonomically diverse microorganisms with complex metabolic pathways for biogeochemical sulfur reactions. Genes for the utilization of sulfur cycle intermediates were widespread throughout the water column, co-occurring with sulfate reduction or sulfide oxidation pathways. The genomic bin composition suggested that in addition to chemical oxidation, these intermediate sulfur compounds were likely produced by the predominant sulfur chemo- and photo-oxidisers at the chemocline and by diverse microbial degraders of organic sulfur molecules. Conclusions ... |
| format | Other/Unknown Material |
| genre | Arctic Arctic Ocean Arctique* |
| genre_facet | Arctic Arctic Ocean Arctique* |
| geographic | Arctic Arctic Ocean |
| geographic_facet | Arctic Arctic Ocean |
| id | ftunivlavalcorp:oai:corpus.ulaval.ca:20.500.11794/68702 |
| institution | Open Polar |
| language | English |
| op_collection_id | ftunivlavalcorp |
| op_coverage | Arctique, Océan |
| op_doi | https://doi.org/20.500.11794/68702 |
| op_relation | https://hdl.handle.net/20.500.11794/68702 |
| op_rights | http://purl.org/coar/access_right/c_abf2 |
| publishDate | 2021 |
| record_format | openpolar |
| spelling | ftunivlavalcorp:oai:corpus.ulaval.ca:20.500.11794/68702 2025-05-25T13:48:03+00:00 Genomic evidence for sulfur intermediates as new biogeochemical hubs in a model aquatic microbial ecosystem Culley, Alexander Lovejoy, Connie Vincent, Warwick F. Vigneron, Adrien Couture, Raoul-Marie Cruaud, Perrine Arctique, Océan 2021-04-07T11:58:40Z application/pdf https://hdl.handle.net/20.500.11794/68702 eng eng https://hdl.handle.net/20.500.11794/68702 http://purl.org/coar/access_right/c_abf2 Meromictic lakes Anoxic basin Arctic Ocean Sulfur cycling Organic sulfur Sulfur intermediates Redox gradients Metagenomics Cycle du soufre Soufre -- Composés Métagénomique Écologie des lacs Écologie microbienne article de recherche COAR1_1::Texte::Périodique::Revue::Contribution à un journal::Article::Article de recherche 2021 ftunivlavalcorp https://doi.org/20.500.11794/68702 2025-04-28T00:28:26Z Background The sulfur cycle encompasses a series of complex aerobic and anaerobic transformations of S-containing molecules and plays a fundamental role in cellular and ecosystem-level processes, influencing biological carbon transfers and other biogeochemical cycles. Despite their importance, the microbial communities and metabolic pathways involved in these transformations remain poorly understood, especially for inorganic sulfur compounds of intermediate oxidation states (thiosulfate, tetrathionate, sulfite, polysulfides). Isolated and highly stratified, the extreme geochemical and environmental features of meromictic ice-capped Lake A, in the Canadian High Arctic, provided an ideal model ecosystem to resolve the distribution and metabolism of aquatic sulfur cycling microorganisms along redox and salinity gradients. Results Applying complementary molecular approaches, we identified sharply contrasting microbial communities and metabolic potentials among the markedly distinct water layers of Lake A, with similarities to diverse fresh, brackish and saline water microbiomes. Sulfur cycling genes were abundant at all depths and covaried with bacterial abundance. Genes for oxidative processes occurred in samples from the oxic freshwater layers, reductive reactions in the anoxic and sulfidic bottom waters and genes for both transformations at the chemocline. Up to 154 different genomic bins with potential for sulfur transformation were recovered, revealing a panoply of taxonomically diverse microorganisms with complex metabolic pathways for biogeochemical sulfur reactions. Genes for the utilization of sulfur cycle intermediates were widespread throughout the water column, co-occurring with sulfate reduction or sulfide oxidation pathways. The genomic bin composition suggested that in addition to chemical oxidation, these intermediate sulfur compounds were likely produced by the predominant sulfur chemo- and photo-oxidisers at the chemocline and by diverse microbial degraders of organic sulfur molecules. Conclusions ... Other/Unknown Material Arctic Arctic Ocean Arctique* Université Laval: CorpusUL Arctic Arctic Ocean |
| spellingShingle | Meromictic lakes Anoxic basin Arctic Ocean Sulfur cycling Organic sulfur Sulfur intermediates Redox gradients Metagenomics Cycle du soufre Soufre -- Composés Métagénomique Écologie des lacs Écologie microbienne Culley, Alexander Lovejoy, Connie Vincent, Warwick F. Vigneron, Adrien Couture, Raoul-Marie Cruaud, Perrine Genomic evidence for sulfur intermediates as new biogeochemical hubs in a model aquatic microbial ecosystem |
| title | Genomic evidence for sulfur intermediates as new biogeochemical hubs in a model aquatic microbial ecosystem |
| title_full | Genomic evidence for sulfur intermediates as new biogeochemical hubs in a model aquatic microbial ecosystem |
| title_fullStr | Genomic evidence for sulfur intermediates as new biogeochemical hubs in a model aquatic microbial ecosystem |
| title_full_unstemmed | Genomic evidence for sulfur intermediates as new biogeochemical hubs in a model aquatic microbial ecosystem |
| title_short | Genomic evidence for sulfur intermediates as new biogeochemical hubs in a model aquatic microbial ecosystem |
| title_sort | genomic evidence for sulfur intermediates as new biogeochemical hubs in a model aquatic microbial ecosystem |
| topic | Meromictic lakes Anoxic basin Arctic Ocean Sulfur cycling Organic sulfur Sulfur intermediates Redox gradients Metagenomics Cycle du soufre Soufre -- Composés Métagénomique Écologie des lacs Écologie microbienne |
| topic_facet | Meromictic lakes Anoxic basin Arctic Ocean Sulfur cycling Organic sulfur Sulfur intermediates Redox gradients Metagenomics Cycle du soufre Soufre -- Composés Métagénomique Écologie des lacs Écologie microbienne |
| url | https://hdl.handle.net/20.500.11794/68702 |