Microbial symbionts play an important role in the survival of
multicellular organisms. Specifically, bacteria found in the gut are important
for host nutrition, immune functions and behaviour. While gut microbiomes have been studied in terrestrial
animals and economically valuable marine species, less attention has been paid
to ecologically valuable marine species and our understanding of fish gut
microbiomes is limited.
Most studies of fish microbiomes involve sampling faeces or simultaneously
sampling the entire gastrointestinal track. These methods cannot discriminate between autochthonous and
allochthonous microbes or assess spatial distribution; as diet has a strong
influence on gut microbiomes and compartmentalisation has been seen in
terrestrial species, these sampling methods are only telling us part of the
story. Nielson et al. (2017) aimed to
gather data on the gut microbiome of Siganus
fuscescens (an ecologically important species in coastal ecosystems), while
sampling in a way that allowed these factors to be considered.
The intestinal tract of four individuals were removed and separated into
the midgut and hindgut; DNA was then extracted from the gut content and wall of
these two sections separately. The V4 region of the 16S rRNA gene was then
amplified using PCR; the OTUs produced were used to assess alpha- and beta-
diversity of the bacterial community as well as taxa present. Species richness
and species diversity (measures of alpha-diversity) were found to vary between
individuals and were higher in the gut wall than the gut content. The authors
suggest that the large variation between individuals is due to the variable
diet of this species, a hypothesis supported by the larger individual variation seen in midgut content than other
gut locations. Beta-diversity assessments showed that the midgut and
hindgut contain different bacterial communities as do the gut wall and gut
lumen. The taxa present also changed
between gut locations, which was suggested to be a result of whether the taxa are
autochthonous or allochthonous and the environment in each gut location. For
example, the Synechococcaceae family
was only found in the midgut content, suggesting it is an autochthonous member
of the microbiome, either from their diet or being ingested from the environment,
while the enrichment of Desulfovibrio
and Clostridium in the hindgut implies
an anoxic, sulfate rich environment, indicating compartmentalisation due to
host/environmental factors.
While the method used in this paper highlights the importance of spatial
distribution of microbiome species along the gastrointestinal tract as well as
the contribution of microorganisms obtained from the environment, there are limitations. A sample size
of four individuals makes interpretations difficult; for example, species
diversity of one individual was very different to the others, however with only
four samples it is difficult to know how unusual this is. Such a small sample
size also reduces statistical power, so some observed trends could not be
supported statistically. There were also slight differences in sample
collection which the authors suggest may have affected results. While the
method used in this paper does allow greater insights into fish microbiomes, it
is perhaps not such a widely-used method due to ethical considerations and
difficulty in standardising sample collection; the use of faeces could be less
invasive, allowing a larger sample size, and the use of whole gut analysis could
make sample collection easier, especially in smaller species.
Reviewed Article:
Nielsen, S., Walburn, J. W., Vergés, A.,
Thomas, T., & Egan, S. (2017). Microbiome patterns across the
gastrointestinal tract of the rabbitfish Siganus fuscescens. PeerJ, 5,
e3317.
Hi Georgia,
ReplyDeleteA very informative post!
I was just wondering what the diet of Signs fuscescens was? Did they mention it?
Also, can you please explain what autochthonous and allochthonous microbes are?
Thanks,
Ankitha
Hi Ankitha,
DeleteSiganus fuscescens were collected by spearfishing so they were not fed a particular diet before the gut microbiome was assessed but wild S. fuscescens feed on algae, including the epilithic algal matrix and adult macrophytes, which contain distinct mixes of organic matter, filamentous algae, detritus and sand. It is also possible that S. fuscescens is an opportunistic omnivore (feeding occasionally on invertebrates) as it is known that some closely related species feed in this way. It is suggested that this naturally variable diet could be a reason for the high variability between microbiomes of different individuals.
Autochthonous microbes are microbes that are true members of the S. fuscescens microbiome whereas allochthonous microbes are transient (temporary) members of the microbiome.
I hope this helps, if you need any further information let me know!
Georgia
Hi Georgia,
DeleteThank you for taking the time to explain things. Makes it a lot clearer.
It sure is interesting how the organism has different diets. Wonder if the type of diet would alter the results in any way.
It has indeed.
Thanks again,
Ankitha
Hi Georgia,
ReplyDeleteThank you for this post!
I really liked the fact that authors related the bacteria group with the environment it was found in. It still makes me wonder how strong the effect of the diet on the bacterial diversity and distribution. An interesting study would be to imply the same method with different diets and see if the bacterial diversity after the long period of time. However I agree that the ethical part might be a constrain here.
Hi Anastasia,
DeleteI also found that particularly interesting about this paper. I think the method used in this paper has allowed some understanding of the effect of diet, more so than looking at the gut microbiome as a whole as the differentiation between where species were found in the gut gave an indication of whether the bacterial species were transient and thus potentially from the environment or diet. However, I agree that there could be further experiments to fully understand the effect of diet on the gut microbiome.
The authors state that diet is ‘arguably one of the strongest influences on gut microbiotia’ and they also compare the variability of the gut microbiome in individuals of Siganus fuscescens to Salmo salar. S. fuscescens showed greater variability between individuals than S. salar which the authors suggest could be due to the differences between herbivores and omnivores as well as due to the defined diet of captive S. salar compared to the natural and more variable diet of S. fuscescens. They suggest that future research should look into not only the effect of diet but also the relative contribution of diet-associated microorganisms to the gut microbiome.
Best,
Georgia
Hi Georgia,
DeleteThank you for your reply!
Interesting conclusions, make sense as well, considering that natural diet is much more variable. I agree, diet probably has a very significant effect on the microbiome. Looking at diet-associated organisms would be a very nice step for future research.
Anastasiia
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