Antiparasitic potential of agrochemical fungicides on a non-target aquatic model (Daphnia × Metschnikowia host-parasite system)

• Published in: The Science of the total environment Vol. 833; p. 155296
• Main Authors: Machado, Cláudia, Cuco, Ana P., Cássio, Fernanda, Wolinska, Justyna, Castro, Bruno B.
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 10.08.2022
• Subjects: Antifungals; Aquatic pollution; Crustacean-yeast model; Disease spread; Host-parasite relationship; Non-target fungi; Antifungals; Aquatic pollution; Crustacean-yeast model; Host-parasite relationship; Disease spread; Non-target fungi
• ISSN: 0048-9697; 1879-1026
• DOI: 10.1016/j.scitotenv.2022.155296

Pesticides are a major anthropogenic threat to the biodiversity of freshwater ecosystems, having the potential to affect non-target aquatic organisms and disrupt the processes in which they intervene. Important knowledge gaps have been recognised concerning the ecological effects of synthetic fungicides on non-target symbiotic aquatic fungi and the ecological processes where they intervene. The goal of this work was to assess the influence of three commonly used fungicides (myclobutanil, metalaxyl and cymoxanil), which differ in their mode of action, on a host (the crustacean Daphnia magna) × parasite (the yeast Metschnikowia bicuspidata) experimental model. Using a set of life history experiments, we evaluated the effect of each fungicide on the outcome of this relationship (disease) and on the fitness of both host and parasite. Contrasting results were observed: (i) cymoxanil and metalaxyl were overall innocuous to host and parasite at the tested concentrations, although host reproduction was occasionally reduced in the simultaneous presence of parasite and fungicide; (ii) on the contrary, myclobutanil displayed a clear antifungal effect, decreasing parasite prevalence and alleviating infection signs in the hosts. This antiparasitic effect of myclobutanil was further investigated with a follow-up experiment that manipulated the timing of application of the fungicide, to understand which stage of parasite development was most susceptible: while myclobutanil did not interfere in the early stages of infection, its antifungal activity was clearly observable at a later stage of the disease (by impairing the production of transmission stages of the parasite). More research is needed to understand the broader consequences of this parasite-clearance effect, especially in face of increasing evidence that parasites are ecologically more important than their cryptic nature might suggest. [Display omitted] •Impact of fungicides on aquatic fungi and associated functions has been overlooked.•A Daphnia × parasitic yeast system was used to study effects of three fungicides.•Myclobutanil cleared infection in the hosts and impaired parasite transmission.•Parasite sporulation was the critical stage for antifungal action of myclobutanil.•Azole fungicides may disrupt host-parasite interactions in natural systems.