AI Article Synopsis
- Pseudo-nitzschia species can bloom in coastal waters and produce the harmful toxin domoic acid (DA), impacting marine life and human health.
- Research showed that increased grazing pressure from zooplankton (e.g., Artemia nauplii) led to a rise in DA production by P. multiseries, with cellular DA content increasing by up to 44% in the presence of grazers.
- The interaction appears to reduce grazing on toxic species, potentially prolonging harmful algal blooms and affecting the structure of aquatic food webs.
Article Abstract
Pseudo-nitzschia species frequently blooms in coastal waters, and some species are able to produce the toxin domoic acid (DA), hereby causing harm to the marine ecosystem and humans. Laboratory studies were conducted to investigate the influence of different levels of grazing pressure on the morphological and chemical response (in terms of cellular DA production) of Pseudo-nitzschia. Subsequently, zooplankton grazer responses to these defenses were examined. The cellular DA content of P. multiseries ranged from 0.11-0.27 pg cell without grazers, and increased up to 44% with the presence of grazers (Artemia nauplii) and with grazer concentration. Grazing also affected the density of P. multiseries chains and average chain length which became ~25% higher and ~8% longer, respectively, than without grazers. These effects could either be caused by size-dependent grazing or by grazer-cue-induced effects on chain formation. A negative correlation between cellular DA content in P. multiseries and clearance and/or ingestion rates of Artemia nauplii indicate that DA might have a negative effect on the grazing of Artemia nauplii. Such interaction might result in a decrease in grazing pressure on toxic blooming species, like P. multiseries, and hence potentially a prolonged bloom. This indicates that the interaction between toxic diatoms and grazers may have implications on aquatic food web structure and the progression of Pseudo-nitzschia blooms.
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| http://dx.doi.org/10.1016/j.hal.2021.102033 | DOI Listing |
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