4.6 Article

How Copepods Can Eat Toxins Without Getting Sick: Gut Bacteria Help Zooplankton to Feed in Cyanobacteria Blooms

期刊

FRONTIERS IN MICROBIOLOGY
卷 11, 期 -, 页码 -

出版社

FRONTIERS MEDIA SA
DOI: 10.3389/fmicb.2020.589816

关键词

nodularin; microcystin; copepods; mlrA gene; biodegradation; hepatotoxins; grazing; growth

资金

  1. Swedish Research Council (Vetenskapsradet)
  2. Swedish Agency for Marine and Water Management
  3. Swedish National Monitoring Programme
  4. Swedish Research Council for Environment, Agricultural Sciences and Spatial Planning (FORMAS)
  5. Stockholm University's strategic marine environmental research program Baltic Ecosystem Adaptive Management (BEAM)

向作者/读者索取更多资源

The study found significant variability in the expression of mlrA genes in copepod guts between summer and winter, with Eurytemora affinis having higher abundance than Acartia bifilosa. The presence of mlrA genes in the copepod microbiome was shown to facilitate nutrient uptake and growth when feeding on phytoplankton mixtures containing nodularin-producing cyanobacteria, providing an adaptation mechanism to cyanobacteria blooms.
Toxin-producing cyanobacteria can be harmful to aquatic biota, although some grazers utilize them with often beneficial effects on their growth and reproduction. It is commonly assumed that gut microbiota facilitates host adaptation to the diet; however, the evidence for adaptation mechanisms is scarce. Here, we investigated the abundance of mlrA genes in the gut of the Baltic copepods Acartia bifilosa and Eurytemora affinis during cyanobacteria bloom season (August) and outside it (February). The mlrA genes are unique to microcystin and nodularin degraders, thus indicating the capacity to break down these toxins by the microbiota. The mlrA genes were expressed in the copepod gut year-round, being >10-fold higher in the summer than in the winter populations. Moreover, they were significantly more abundant in Eurytemora than Acartia. To understand the ecological implications of this variability, we conducted feeding experiments using summer- and winter-collected copepods to examine if/how the mlrA abundance in the microbiota affect: (1) uptake of toxic Nodularia spumigena, (2) uptake of a non-toxic algal food offered in mixtures with N. spumigena, and (3) concomitant growth potential in the copepods. The findings provide empirical evidence that the occurrence of mlrA genes in the copepod microbiome facilitates nutrient uptake and growth when feeding on phytoplankton mixtures containing nodularin-producing cyanobacteria; thus, providing an adaptation mechanism to the cyanobacteria blooms.

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