Journal
TOXINS
Volume 13, Issue 6, Pages -Publisher
MDPI
DOI: 10.3390/toxins13060406
Keywords
infochemicals; cyanotoxins; phytoplankton; saxitoxins; phenotypic plasticity
Categories
Funding
- National Council for Scientific and Technological Development-CNPq [306174/2018-9]
- Carlos Chagas Filho Foundation for the Support of Science in Rio de Janeiro Development-FAPERJ [E-26/203.032/2015]
- CNPq scholarships
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Cyanobacteria can exhibit induced chemical defenses in response to grazers, increasing toxin production while decreasing growth. This trade-off between toxin production and growth highlights the adaptive strategies of cyanobacteria in aquatic environments.
Cyanobacteria stand out among phytoplankton when they form massive blooms and produce toxins. Because cyanotoxin genes date to the origin of metazoans, the hypothesis that cyanotoxins function as a defense against herbivory is still debated. Although their primary cellular function might vary, these metabolites could have evolved as an anti-predator response. Here we evaluated the physiological and molecular responses of a saxitoxin-producing Raphidiopsis raciborskii to infochemicals released by the grazer Daphnia gessneri. Induced chemical defenses were evidenced in R. raciborskii as a significant increase in the transcription level of sxt genes, followed by an increase in saxitoxin content when exposed to predator cues. Moreover, cyanobacterial growth decreased, and no significant effects on photosynthesis or morphology were observed. Overall, the induced defense response was accompanied by a trade-off between toxin production and growth. These results shed light on the mechanisms underlying zooplankton-cyanobacteria interactions in aquatic food webs. The widespread occurrence of the cyanobacterium R. raciborskii in freshwater bodies has been attributed to its phenotypic plasticity. Assessing the potential of this species to thrive over interaction filters such as zooplankton grazing pressure can enhance our understanding of its adaptive success.
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