Chemical and Morphological Constitutive Defensive Traits of Cyanobacteria Have Different Effects on the Grazing of a Small Tropical Cladoceran

Chemical and Morphological Constitutive Defensive Traits of Cyanobacteria Have Different Effects on the Grazing of a Small Tropical Cladoceran

Antipredator defenses of bloom-forming cyanobacteria species maximize their fitness but can reduce carbon and energy transfer efficiency to higher trophic levels, making them a key regulator of plankton communities in eutrophic waters. We investigated the grazing responses of the tropical cladoceran...

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Main Authors: Luciana Machado Rangel, Marcella Coelho Berjante Mesquita, Shara Rosa de Barros, Vinicius Neres-Lima, Michael Ribas Celano, Mauro Cesar Palmeira Vilar, Sandra Maria Feliciano de Oliveira e Azevedo, Marcelo Manzi Marinho
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Toxins
Subjects:
cyanotoxin
harmful algal bloom
<i>Microcystis</i>
<i>Moina</i>
predator defense
<i>Planktothrix</i>
Online Access:https://www.mdpi.com/2072-6651/17/7/343
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Summary:Antipredator defenses of bloom-forming cyanobacteria species maximize their fitness but can reduce carbon and energy transfer efficiency to higher trophic levels, making them a key regulator of plankton communities in eutrophic waters. We investigated the grazing responses of the tropical cladoceran <i>Moina micrura</i> to different strains of the cyanobacteria <i>Microcystis aeruginosa</i> and <i>Planktothrix isothrix</i>, using a good food source (green algae <i>Mono</i>-<i>raphidium capricornutum</i>) as a control. Both <i>Microcystis</i> strains grow as unicellular and are microcystins producers; however, this cyanotoxin was not detected on the filamentous <i>Planktothrix</i> strains. <i>M. micrura</i> ingested all cyanobacteria at reduced rates compared to single diets with <i>Monoraphidium</i>. In mixed diets, food type had a significant effect on grazing responses, which differed interspecifically. <i>Planktothrix</i> was more grazed than <i>Microcystis</i> strains. Feeding selectivity on <i>Monoraphidium</i> was negatively affected by the increase of cyanobacteria in the diet. We observed varied responses across treatments, ranging from feeding inhibition to different degrees of tolerance toward cyanobacteria, particularly in non-microcystin-producing species. We also highlight the selectivity of small tropical cladocerans, a pattern that is not yet well documented. These findings emphasize that studies incorporating phyto- and zooplankton with a history of coexistence can provide more meaningful insights into natural ecosystem dynamics.
ISSN:2072-6651

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