Integração das estratégias de controle químico e biológico para a conservação e liberação dos ácaros predadores Neoseiulus californicus (McGregor) e Phytoseiulus macropilis (Banks) (Acari: Phytoseiidae) em programas de manejo do ácaro rajado Tetranychus urticae Koch (Acari: Tetranychidae) / Integration of chemical and biological control strategies for preserving and releasing Neoseiulus californicus (McGregor) and Phytoseiulus macropilis (Banks) (Acari: Phytoseiidae) in Tetranychus urticae Koch (Acari: Tetranychidae) management programs

Marcelo Poletti

The exploitation of predaceous mites to manage phytophagous mites in agricultural production systems can be affected by the use of pesticides for controlling other pests and diseases. The use of pesticides that are compatible with predaceous mites or pesticide-resistant strains can promote the conservation of these natural enemies. Another strategy to be exploited can be the release of single or combined species of predaceous mites with distinct feeding habitat and behavior. Within this context, this research was conducted in order to collect data to integrate the chemical and biological control strategies to preserving and releasing the predaceous mites Neoseiulus californicus (McGregor) and Phytoseiulus macropilis (Banks) for managing twospotted spider mite Tetranychus urticae Koch in agricultural production systems, such as ornamental plants and vegetable crops. Initially, studies were conducted to select pesticides that are compatible with N. californicus and P. macropilis as well as to evaluate the feasibility of combined releases of predaceous mites for managing T. urticae. The compatibility of some acaricide-insecticides, fungicides and insecticides with N. californicus and P. macropilis was evaluated at recommended rates for ornamental and vegetable crops. The effect of these pesticides on mortality of immature and adult stages and on the instantaneous growth rate (ri) of both species was evaluated. The baseline susceptibility to deltamethrin was characterized for immature and adult stages of N. californicus and P. macropilis. Then, monitoring the susceptibility to deltamethrin was conducted in field populations of P. macropilis. Besides the lethal effect of the neonicotinoids acetamiprid, imidacloprid and thiamethoxam on N. californicus and P. macropilis, functional responses of both mites on treated T. urticae eggs were also evaluated. The differential toxicity of abamectin and spiromesifen was evaluated to both predaceous mites and T. urticae. And finally, the feasibility of single or combined releases of N. californicus and P. macropilis was evaluated under laboratory and greenhouse conditions. Among the group of pesticides tested, the fungicides caused the least impact on predaceous mites. Higher compatibility of tested pesticides was observed with N. californicus than with P. macropilis. The immature and adult stages of N. californicus were approximately 3,600 and 3,000-fold more tolerant to deltamethrin than those of P. macropilis. However, high variability in the susceptibility to this insecticide was detected among P. macropilis populations, with resistance ratios of up to 3,500-fold. Although neonicotinoids showed low toxicity and little effect on instantaneous growth rate of N. californicus and P. macropilis, these insecticides can affect the functional response of these predaceous mites on treated T. urticae eggs. Abamectin and spiromesifen were highly toxic to T. urticae. High toxicity of abamectin was also detected to both species of predaceous mites; however, spiromesifen was compatible with N. californicus. Combined releases of N. californicus and P. macropilis were more effective than single species releases, only in situations with high predator:prey ratios (equal or greater than 1:20).

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