RESUMEN
BACKGROUND: Most studies on efficacy of fungal pathogens and predatory mites against Tetranychus urticae have been done on individual species in the laboratory. We evaluated fungi and predatory mites separately and together against glasshouse populations of T. urticae on chrysanthemum plants. First, effectiveness of the fungal pathogens Beauveria bassiana (Bb88) and Metarhizium anisopliae (Ma129) was compared; then, effectiveness of the predatory mites Phytoseiulus persimilis and Neoseiulus californicus. Based on the results, N. californicus and isolate Ma129 were selected and evaluated in combination. In all experiments, treatment effects were assessed for eggs and motile stages of T. urticae. RESULTS: The first experiment showed no significant effect of either fungal isolate on T. urticae populations, except on plants initially infested with 20 mites, where more eggs were found in the control compared to the fungal treatments. In the second experiment, both predatory mites were equally effective at reducing T. urticae populations compared with the control, regardless of initial T. urticae population density. The last experiment demonstrated that populations of T. urticae were reduced most when M. anisopliae (Ma129) and N. californicus were applied together, compared with the control and when each natural enemy was applied separately. CONCLUSIONS: Metarhizium anisopliae (Ma129) and B. bassiana (Bb88) isolates did not have a significant effect on reducing T. urticae populations. Both predatory mites reduced T. urticae populations, regardless of T. urticae density. Combined application of M. anisopliae (Ma129) and N. californicus were more effective against T. urticae than the control or when each agent was applied separately. © 2024 Society of Chemical Industry.
RESUMEN
BACKGROUND: The high natural resistance of the fall armyworm (FAW) to entomopathogenic fungi and the speed at which it develops resistance to chemical insecticides make it difficult to control in several crops where it is a key pest. The aim of the study was to improve mortality by combining a 50% lethal concentration of chlorpyrifos ethyl or spinosad with the entomopathogenic fungus Beauveria bassiana (Bb88) or Metarhizium anisopliae (ETL). RESULTS: Three main results were obtained. (i) Both insecticides improved the performance of the fungus when the insecticide and fungus were applied simultaneously and when spinosad preceded fungi. In control larvae treated with fungi, <1% of larvae showed fungal sporulation, but under simultaneous application of the fungus with chlorpyrifos or spinosad, 31 and 47% did so, with 68 and 93% of cadavers showing sporulation, respectively. (ii) Synergistic mortality was observed when Bb88 and spinosad were applied simultaneously, which resulted in 34% more dead larvae than the spinosad control (44%). Finally, (iii) antagonism occurred when Bb88 was applied before chlorpyrifos, when Bb88 and chlorpyrifos were applied simultaneously, and when ETL was applied before chlorpyrifos, which reduced larval mortality by 27, 31 and 19%, respectively. CONCLUSION: The synergistic mortality and improved fungal performance observed here support the hypothesis that combinations of low insecticide doses and entomopathogenic fungi can enhance integrated pest management programs and reduce the environmental impact of insecticides. Antagonism shows that some particular combinations and application sequences may produce disadvantages in pest control. © 2018 Society of Chemical Industry.
RESUMEN
The insecticidal properties of foliage´s powder of Peumus boldus Molina against adults and immature S. zeamais were evaluated. The highest toxicity in contact and fumigant activity was reached by concentrations upper to 1.25 percent showing mortality over to 90 percent. The treatments with high mortality showed a lower adult insect emergence (F1) and grain weight loss too. In immature S. zeamais control lower F1 was observed in highest concentrations of powder. The storage of powder under refrigerated conditions not prevents the insecticidal properties lost. All evaluated concentrations exhibited repellent activity against S. zeamais adults. The powder of P. boldus does not affect the grain germination. We concluded that powder of P. boldus has promissory perspectives to stored products pests control.
Se evaluaron las propiedades insecticidas del polvo de follaje de Peumus boldus Molina para el control de adultos y estados inmaduros de S. zeamais. La mayor toxicidad por contacto y fumigación se obtuvo con las concentraciones iguales o mayores a 1,25 por ciento registrando una mortalidad superior a 90 por ciento. Los tratamientos con mayor mortalidad mostraron también una baja emergencia de insectos adultos (F1) y menor pérdida de peso del grano. En el control de estados inmaduros la menor F1 se observó en las concentraciones más altas de polvo. El almacenamiento del polvo en refrigeración no impidió la pérdida en el tiempo de las propiedades insecticidas. Todas las concentraciones evaluadas mostraron efecto repelente contra adultos de S. zeamais. El polvo de P. boldus no afectó significativamente la germinación de los granos. Se concluye que el polvo de P. boldus tiene perspectivas auspiciosas para el control de plagas de los productos almacenados.
Asunto(s)
Gorgojos , Insecticidas/farmacología , Peumus/química , Monimiaceae/química , Control de Plagas , PolvosRESUMEN
Se determinó la susceptibilidad a los insecticidas acetamiprid, cipermetrina, imidacloprid, pymetrozina y thiamethoxam en dos poblaciones de mosquita blanca, Bemisia tabaci (Gennadius), Biotipo B, colectadas en los estados de Baja California y Sinaloa, México. En relación a una población susceptible, a nivel de 50 por ciento de mortalidad, la proporción de resistencia (RR50) más elevada se presentó en la población de Sinaloa a cipermetrina (17,2x), pymetrozine (26,9x) e imidacloprid (42,8x). Sin embargo, a 95 por ciento de mortalidad, las dos poblaciones fueron susceptibles a los insecticidas evaluados.