Patterns in Benthic Microbial Community Structure Across Environmental Gradients in the Beaufort Sea Shelf and Slope

Walker, A.; Leigh, Mary Beth; Mincks, Sarah L.

doi:10.3389/fmicb.2021.581124

Cited by 11 publications

(12 citation statements)

References 196 publications

(264 reference statements)

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“…Other bacteria may be specialized in small molecules derived from the breakdown of algal polymers and benefited from the degradation of algal tissue. Members of the family Methyloligellaceae oxidize generally one carbon atom molecules (Walker et al, 2021 ) and Patescibacteria (JGI 069‐P22 and some Saccharimonadales in this study) may be using monosaccharides because they have reduced genes for polysaccharide catabolism in their simple genomes (Tian et al, 2020 ).…”

Section: Discussionmentioning

confidence: 98%

Insights into the bacterial community composition of farmed Caulerpa lentillifera: A comparison between contrasting health states

et al. 2021

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The bacterial communities of Caulerpa lentillifera were studied during an outbreak of an unknown disease in a sea grape farm from Vietnam. Clear differences between healthy and diseased cases were observed at the order, genus, and Operational Taxonomic Unit (OTU) level. A richer diversity was detected in the diseased thalli of C. lentillifera , as well as the dominance of the orders Flavobacteriales (phylum Bacteroidetes) and Phycisphaerales (Planctomycetes). Aquibacter, Winogradskyella , and other OTUs of the family Flavobacteriaceae were hypothesized as detrimental bacteria, this family comprises some well‐known seaweed pathogens. Phycisphaera together with other Planctomycetes and Woeseia were probably saprophytes of C. lentillifera . The Rhodobacteraceae and Rhodovulum dominated the bacterial community composition of healthy C. lentillifera . The likely beneficial role of Bradyrhizobium, Paracoccus , and Brevundimonas strains on nutrient cycling and phytohormone production was discussed. The bleaching of diseased C. lentillifera might not only be associated with pathogens but also with an oxidative response. This study offers pioneering insights on the co‐occurrence of C. lentillifera ‐attached bacteria, potential detrimental or beneficial microbes, and a baseline for understanding the C. lentillifera holobiont. Further applied and basic research is urgently needed on C. lentillifera microbiome, shotgun metagenomic, metatranscriptomic, and metabolomic studies as well as bioactivity assays are recommended.

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Section: Discussionmentioning

confidence: 98%

Insights into the bacterial community composition of farmed Caulerpa lentillifera: A comparison between contrasting health states

et al. 2021

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“…the higher-trophic-level cluster) relative to the lower-trophic-level cluster. These included several genera associated with carbohydrate consumption and metabolism (Blautia, Marvinbryantia, Faecalibacterium and Anaerofilum [61][62][63][64]), as well as two genera that are potential opportunistic pathogenic in humans and other species (Paeniclostridium and Terrisporobacter [65][66][67]) and two common marine environmental microbes (genus Methyloceanibacter [68] and family Methyloligellaceae [69]). In addition to these changes in the gut microbiota, we found that higher-trophic-level diet associated with the presence and abundance of Diphyllobothrium.…”

Section: Discussionmentioning

confidence: 99%

The relationship between dietary trophic level, parasites and the microbiome of Pacific walrus ( Odobenus rosmarus divergens )

et al. 2022

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Arctic species are likely to experience rapid shifts in prey availability under climate change, which may alter their exposure to microbes and parasites. Here, we describe fecal bacterial and macroparasite communities and assess correlations with diet trophic level in Pacific walruses harvested during subsistence hunts by members of the Native Villages of Gambell and Savoonga on St Lawrence Island, Alaska. Fecal bacterial communities were dominated by relatively few taxa, mostly belonging to phyla Fusobacteriota and Firmicutes. Members of parasite-associated phyla Nematoda, Acanthocephala and Platyhelminthes were prevalent in our study population. We hypothesized that high versus low prey trophic level (e.g. fish versus bivalves) would result in different gut bacterial and macroparasite communities. We found that bacterial community structure correlated to diet, with nine clades enriched in walruses consuming higher-trophic-level prey. While no parasite compositional differences were found at the phylum level, the cestode genus Diphyllobothrium was more prevalent and abundant in walruses consuming higher-trophic-level prey, probably because fish are the intermediate hosts for this genus. This study suggests that diet is important for structuring both parasite and microbial communities of this culturally and ecologically important species, with potential implications for population health under climate change.

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“…Some bacteria may be specialized on small molecules derived from the breakdown of algal polymers and benefited from the degradation of algal tissue. Members of the family Methyloligellaceae oxidize generally one carbon atom molecules (Walker et al ., 2021) and Patescibacteria (JGI 069-P22 and some Saccharimonadales in this study) may be using monosaccharides because they have reduced genes for polysaccharide catabolism in their simple genomes (Tian et al ., 2020).…”

Section: Discussionmentioning

confidence: 99%

Section: Potential Detrimental Bacteriamentioning

confidence: 99%

Bacterial community composition of the sea grape Caulerpa lentillifera: a comparison between healthy and diseased states

Kopprio

Luyen

Cuong

et al. 2021

Preprint

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The bacterial communities of the sea grape Caulerpa lentillifera were studied during a disease outbreak in Vietnam. The Rhodobacteraceae and Rhodovulum dominated the composition of healthy C. lentillifera. Clear differences between healthy and diseased cases were observed at order, genus and Operational Taxonomic Unit (OTU) level. Bacterial diversity was lower in healthy C. lentillifera, probably because of antimicrobial compounds from the macroalgae and/or from Clostridium, Cutibacterium or Micrococcus bacteria. The likely beneficial role of Bradyrhizobium, Paracoccus and Brevundimonas strains on nutrient cycling and phytohormone production was discussed. The white coloration of diseased C. lentillifera may not only be associated with pathogens but also with an oxidative response. Aquibacter, Winogradskyella and other OTUs of the family Flavobacteriaceae were hypothesized as detrimental bacteria, this family comprises some well-known seaweed pathogens. Moreover, Thalassobius OTU 2935 and 1635 may represent detrimental Rhodobacteraceae. Phycisphaera together with other Planctomycetes and Woeseia were probably saprophytes of C. lentillifera. This study offers pioneering insights on the co-occurrence of C. lentillifera-attached bacteria, potential detrimental or beneficial microbes, and a baseline for understanding the C. lentillifera holobiont. Further metagenomic and biotechnological approaches are needed to confirm functions of some microbes on this macroalgae to enhance food security in the tropics.

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Patterns in Benthic Microbial Community Structure Across Environmental Gradients in the Beaufort Sea Shelf and Slope

Cited by 11 publications

References 196 publications

Insights into the bacterial community composition of farmed Caulerpa lentillifera: A comparison between contrasting health states

Insights into the bacterial community composition of farmed Caulerpa lentillifera: A comparison between contrasting health states

The relationship between dietary trophic level, parasites and the microbiome of Pacific walrus ( Odobenus rosmarus divergens )

Bacterial community composition of the sea grape Caulerpa lentillifera: a comparison between healthy and diseased states

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