Acute toxicity and etho-toxicity of three insecticides used for mosquito control on amphibian tadpoles

LAJMANOVICH, R.C.; MAGLIANESE, M.; ATTADEMO, A.M.; JUNGES, C.M.; PELTZER, P.M.

WATER AIR AND SOIL POLLUTION

SPRINGER

Lugar: Berlin; Año: 2017 vol. 228

0049-6979

Among the measures used to manage mosquito populations and prevent human diseases, the application of pesticides is the global strategy mostly employed. To investigate the lethal and sublethal effects of insecticides used to control mosquitoes on amphibians (Rhinella arenarum, R. fernandezae, and Physalaemus albonotatus), tadpoles were exposed to commercial formulations of temephos (Abate®), Bti (Introban®), and permethrin (Depe®). Their acute toxicity in terms of median lethal concentration (LC50) and no-and lowest?observed-effect concentrations (NOEC and LOEC, respectively) was evaluated. To assess the sublethal effects on behavioral endpoints, tadpoles were exposed to the NOEC-24 h value of each insecticide. After that, tadpoles were recorded and video streaming data were processed by Smart® software. Based on LC50, permethrin was the most toxic insecticide, followed by temephos, and Bti. Also, intraspecific and interspecific susceptibility of tadpoles to insecticides were observed. Regarding behavior, the exposure of R. arenarum to the three insecticides had a significant effect on all behavioral endpoints. Two of the three swimming parameters evaluated for R. fernandezae were affected by permethrin; and in the end, only one behavioral pattern was altered in P. albonotatus after exposure to temephos. These results showed that tadpoles? species were affected differently depending on the chemical properties of the pesticide and on a dose-response effect of the insecticides. Overall, our study suggests that further research is needed to quantify the potential damage of pyrethroid insecticides used for mosquito control on non-target aquatic organisms, mainly due to etho-toxic effects.