Abstract
Most of our knowledge regarding the biodiversity of gut microbes comes from terrestrial organisms or marine species of economic value, with less emphasis on ecologically important species. Here we investigate the bacterial composition associated with the gut of Siganus fuscescens, a rabbitfish that plays an important ecological role in coastal ecosystems by consuming seaweeds. Members of Firmicutes, Bacteroidetes and delta-Proteobacteria were among the dominant taxa across samples taken from the contents and the walls (sites) of the midgut and hindgut (location). Despite the high variability among individual fish, we observed statistically significant differences in beta-diversity between gut sites and gut locations. Some bacterial taxa low in abundance in the midgut content (e.g., Desulfovibrio) were found in greater abundances on the midgut wall and within the hindgut, suggesting that the gut may select for specific groups of environmental and/or food-associated microorganisms. In contrast, some distinct taxa present in the midgut content (e.g., Synechococcus) were noticeably reduced in the midgut wall and hindgut, and are thus likely to be representative of transient microbiota. This is the first assessment of the bacterial diversity associated with the gut of S. fuscescens and highlights the need to consider the variability across different gut locations and sites when analyzing fish gut microbiomes.
Highlights
Microbial symbioses are key to the survival of multicellular organisms with individuals capable of harboring diverse communities of beneficial microorganisms
The mottled spinefoot rabbitfish (Siganus fuscescens) is a common herbivorous fish found in Indo-Pacific tropical reefs that plays an important role in the control of algal growth on coral reef systems (Bennett & Bellwood, 2011; Michael et al, 2013; Gilby, Tibbetts & Stevens, in press) yet to date nothing is known about its gut microbiome
We investigated the bacterial community in the gut contents and in direct association with the gut wall from individual adults
Summary
Microbial symbioses are key to the survival of multicellular organisms with individuals capable of harboring diverse communities of beneficial microorganisms. Gut bacteria play a vital role in host nutrition, and in mediating host immune functions, host development and even influencing host behavior (Collins & Bercik, 2009; Hansen et al, 2012; Greenhalgh et al, 2016). Recent studies have highlighted the diversity and role of gut microbiomes in terrestrial animals, with a particular focus on humans (see reviews by Hacquard et al, 2015; Colston & Jackson, 2016; Greenhalgh et al, 2016). Relatively little is known about the gut microbiota of marine vertebrates, with most studies focusing on species of economic value (Colston & Jackson, 2016).
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