Characterizing the cirri and gut microbiomes of the intertidal barnacle Semibalanus balanoides

Characterizing the cirri and gut microbiomes of the intertidal barnacle Semibalanus balanoides

Natural populations inhabiting the rocky intertidal experience multiple ecological stressors and provide an opportunity to investigate how environmental differences influence microbiomes over small geographical scales. However, very few microbiome studies focus on animals that inhabit the intertidal...

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Bibliographic Details
Published in:Animal microbiome Vol. 2; no. 1; p. 41
Main Authors: Brown, Bianca R P, Nunez, Joaquin C B, Rand, David M
Format: Journal Article
Language:English
Published: England BioMed Central 13-11-2020
BMC
Subjects:
16S rRNA gene
Algae
Animal behavior
Appendages
Barnacles
Cirri
Cold
Coma
Habitats
Heat
Immune system
Immunology
Intertidal
Intestinal microflora
Invertebrates
Microbiome
Microbiomes
Microenvironments
Pathogens
Rocky shore
Semibalanus balanoides
Shores
United States > US
Damariscotta River
Maine
Semibalanus balanoides
Rocky shore
Barnacles
Intertidal
16S rRNA gene
Microbiome
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Summary:Natural populations inhabiting the rocky intertidal experience multiple ecological stressors and provide an opportunity to investigate how environmental differences influence microbiomes over small geographical scales. However, very few microbiome studies focus on animals that inhabit the intertidal. In this study, we investigate the microbiome of the intertidal barnacle Semibalanus balanoides. We first describe the microbiome of two body tissues: the feeding appendages, or cirri, and the gut. Next, we examine whether there are differences between the microbiome of each body tissue of barnacles collected from the thermally extreme microhabitats of the rocky shores' upper and lower tidal zones. Overall, the microbiome of S. balanoides consisted of 18 phyla from 408 genera. Our results showed that although cirri and gut microbiomes shared a portion of their amplicon sequence variants (ASVs), the microbiome of each body tissue was distinct. Over 80% of the ASVs found in the cirri were also found in the gut, and 44% of the ASVs found in the gut were also found in the cirri. Notably, the gut microbiome was not a subset of the cirri microbiome. Additionally, we identified that the cirri microbiome was responsive to microhabitat differences. Results from this study indicate that S. balanoides maintains distinct microbiomes in its cirri and gut tissues, and that the gut microbiome is more stable than the cirri microbiome between the extremes of the intertidal.
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ISSN:2524-4671
2524-4671
DOI:10.1186/s42523-020-00058-0