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Contrasting Microbiome Dynamics of Putative Denitrifying Bacteria in Two Octocoral Species Exposed to Dissolved Organic Carbon (DOC) and Warming

Authors :
Christiane Hassenrück
Christian Wild
Nan Xiang
Astrid Gärdes
Christian R. Voolstra
Claudia Pogoreutz
Susana Marcela Simancas-Giraldo
Nils Rädecker
Source :
Applied and Environmental Microbiology. 88
Publication Year :
2022
Publisher :
American Society for Microbiology, 2022.

Abstract

Mutualistic nutrient cycling in the coral-algae symbiosis depends on limited nitrogen (N) availability for algal symbionts. Denitrifying prokaryotes capable of reducing nitrate or nitrite to dinitrogen could thus support coral holobiont functioning by limiting N availability. Octocorals show some of the highest denitrification rates among reef organisms, however little is known about the community structures of associated denitrifiers and their response to environmental fluctuations. Combining 16S rRNA gene amplicon sequencing with nirS in-silico PCR and quantitative PCR, we found differences in bacterial community dynamics between two octocorals exposed to excess dissolved organic carbon (DOC) and concomitant warming. While bacterial communities of the gorgonian Pinnigorgia flava remained largely unaffected by DOC and warming, the soft coral Xenia umbellata exhibited a pronounced shift towards Alphaproteobacteria dominance under excess DOC. Likewise, the relative abundance of denitrifiers was not altered in P. flava, but decreased by one order of magnitude in X. umbellata under excess DOC likely due to decreased proportions of Ruegeria spp. Given that holobiont C:N ratios remained stable in P. flava but showed a pronounced increase with excess DOC in X. umbellata host, our results suggest that microbial community dynamics may reflect the nutritional status of the holobiont. Hence, denitrifier abundance may be directly linked to N availability. This suggests a passive regulation of N cycling microbes, which could help stabilize nutrient limitation in the coral-algal symbiosis and thereby support holobiont functioning in a changing environment. Importance Octocorals are important members of reef-associated benthic communities that can rapidly replace scleractinian corals as the dominant ecosystem engineers on degraded reefs. Considering the substantial change in the (a)biotic environment that is commonly driving reef degradation, maintaining a dynamic and metabolically diverse microbial community might contribute to octocoral acclimatization and ecological adaptation. Nitrogen (N) cycling microbes, in particular denitrifying prokaryotes, may support holobiont functioning by limiting internal N availability, but little is known about the identity and (a)biotic drivers of octocoral-associated denitrifiers. Here, we show contrasting dynamics of bacterial communities associated with two common octocoral species, the soft coral Xenia umbellata and the gorgonian Pinnigorgia flava after a six-week exposure to excess dissolved organic carbon (DOC) under concomitant warming conditions. The specific responses of denitrifier communities associated with the two octocoral species aligned with the nutritional status of holobiont members. This suggests a passive regulation of this microbial trait based on N availability in the coral holobiont.

Details

ISSN :
10985336 and 00992240
Volume :
88
Database :
OpenAIRE
Journal :
Applied and Environmental Microbiology
Accession number :
edsair.doi.dedup.....b68911d58a05220f86662a0b7a2fec97
Full Text :
https://doi.org/10.1128/aem.01886-21