Behavioral and Antennal Responses of Tribolium confusum to Varronia globosa Essential Oil and Its Main Constituents: Perspective for Their Use as Repellent.

Essential oils of aromatic plants represent an alternative to classical pest control with synthetic chemicals. They are especially promising for the alternative control of stored product pest insects. Here, we tested behavioral and electrophysiological responses of the stored product pest Tribolium confusum, to the essential oil of a Brazilian indigenous plant, Varronia globosa, collected in the Caatinga ecosystem. We analyzed the essential oil by GC-MS, tested the effects of the entire oil and its major components on the behavior of individual beetles in a four-way olfactometer, and investigated responses to these stimuli in electroantennogram recordings (EAG). We could identify 25 constituents in the essential oil of V. globosa, with anethole, caryophyllene and spathulenole as main components. The oil and its main component anethole had repellent effects already at low doses, whereas caryophyllene had only a repellent effect at a high dose. In addition, the essential oil abolished the attractive effect of the T. confusum aggregation pheromone. EAG recordings revealed dose-dependent responses to the individual components and increasing responses to the blend and even more to the entire oil. Our study reveals the potential of anethole and the essential oil of V. globosa in the management of stored product pests.

Alarm Pheromone Responses Depend on Genotype, but Not on the Presence of Facultative Endosymbionts in the Pea Aphid Acyrthosiphon pisum.

Aphids use an alarm pheromone, E-ß farnesene (EBF), to warn conspecifics of potential danger. The antennal sensitivity and behavioural escape responses to EBF can be influenced by different factors. In the pea aphid, Acyrthosiphon pisum, different biotypes are adapted to different legume species, and within each biotype, different genotypes exist, which can carry or not Hamiltonella defensa, a bacterial symbiont that can confer protection against natural enemies. We investigate here the influence of the aphid genotype and symbiotic status on the escape behaviour using a four-way olfactometer and antennal sensitivity for EBF using electroantennograms (EAGs). Whereas the investigated three genotypes from two biotypes showed significantly different escape and locomotor behaviours in the presence of certain EBF doses, the infection with H. defensa did not significantly modify the escape behaviour and only marginally influenced the locomotor behaviour at high doses of EBF. Dose-response curves of EAG amplitudes after stimulation with EBF differed significantly between aphid genotypes in correlation with behavioural differences, whereas antennal sensitivity to EBF did not change significantly as a function of the symbiotic status. The protective symbiont H. defensa does thus not modify the olfactory sensitivity to the alarm pheromone. How EBF sensitivity is modified between genotypes or biotypes remains to be investigated.

Locomotor response of diamondback moth (Plutella xylostella) populations to a neurotoxic insecticide under laboratory conditions / Resposta locomotora de populações de traça-das-crucíferas (Plutella xylostella) a inseticida neurotóxico em condição de laboratório

ABSTRACT: The present study aimed to evaluate changes in the locomotor activity of diamondback moth (Plutella xylostella) populations exposed to surfaces treated with the insecticide chlorantraniliprole under laboratory conditions. Diamondback moth populations from municipalities incorrectly using the insecticide [Camocim de São Félix, PE (CSF); Sairé, PE (SR); and Lajedo, PE (LJ)] and two laboratory populations from Recife, PE (RCF), and Viçosa, MG (VÇS) were exposed to dry insecticide residues in increasing concentrations. The following behavioral parameters of the populations were analyzed: walking time (WT), mean walking speed (MWS), and rest time (RT). Regarding RT, the SR and CSF populations demonstrated a behavior of irritability and increased WT with increased exposure concentration. The RCF population presented a contrasting response. The MWS values in the SR and CSF populations showed a decreasing trend with increased exposure concentration. The LJ and RCF populations showed no changes in terms of MWS. The RT values in the SR population decreased with increased insecticide concentration. In general, the SR and CSF populations presented a behavioral pattern different from that of laboratory populations. The changes in locomotor activity observed may result in lower control efficacy of the insecticide due to repellency or escape of insects. Regarding the effect of insecticide concentrations used in the populations, a defined pattern was not observed, and the effect alternated between an increase, a decrease, and an undefined pattern for the variables studied.

RESUMO: O presente estudo teve por objetivo averiguar, em condições de laboratório, alterações na atividade locomotora de populações de traça-das-crucíferas, expostas a superfícies tratadas com o inseticida clorantraniliprole. Populações de Plutella xylostella provenientes dos municípios com uso inadequado de inseticida: Camocim de São Félix-PE (CSF), Sairé-PE (SR), Lajedo-PE (LJ) e duas populações de laboratório: Recife-PE (RCF) e Viçosa-MG (VÇS) foram expostas a resíduos secos do inseticida, em concentrações crescentes. Estas populações tiveram os seguintes parâmetros comportamentais analisados: Tempo de caminhamento (TC), Velocidade Média de caminhamento (VMC) e Tempo de Repouso (TR). Com relação ao TC, as populações de SR e CSF demonstraram comportamento de irritabilidade, aumentando o tempo de caminhamento com o aumento da concentração de exposição. A população de RCF apresentou resposta contrária. Em relação ao parâmetro VMC, as populações de SR e CSF apresentaram tendência de redução nos valores com o aumento da concentração de exposição. As populações de LJ e RCF não apresentaram mudanças deste comportamento. Para a variável TR, a população de SR apresentou redução nesses valores, com o aumento da concentração do inseticida. De forma geral, as populações de SR e CSF apresentaram um padrão de comportamento diferente das populações de laboratório. Estas alterações na atividade locomotora podem resultar numa menor eficácia de controle do inseticida devido à irritabilidade ou fuga. Quanto ao efeito das concentrações usadas do inseticida entre populações, de forma geral, não foi possível observar um padrão definido, tendo este efeito alternado entre aumento, redução e padrão não definido para as variáveis estudadas.