The translocation of chemical insecticides in corn plants could enhance the control of Spodoptera frugiperda, based on their application form. Chlorantraniliprole and cyantraniliprole were applied via seed treatment and foliar spray in corn (VE and V3) to characterize the systemic action of both molecules in leaves that appeared after application. Bioassays with S. frugiperda and chemical quantification in LC-MS/MS confirmed the absorption and upward translocation of chlorantraniliprole and cyantraniliprole by xylem to new leaves. Both insecticides caused the mortality of larvae up to stage V6 (57.5±9.5% for chlorantraniliprole and 40 ±8.1% for cyantraniliprole), indicating the translocation of insecticides into leaves of corn plants when applied via seed treatment. However, the translocation of chlorantraniliprole and cyantraniliprole from sprayed leaves to new leaves was not observed, regardless of the stage of application plus the next first, second and third stages. An increased dosage of cyantraniliprole did not influence on its translocation in plant tissues, however, it influenced on the present amount of active ingredient. The application of chlorantraniliprole and cyantraniliprole in seed treatment is an important alternative for integrated pest management. The absorption and redistribution capacity of chlorantraniliprole and cyantraniliprole throughout the plant confer a prolonged residual action with satisfactory control of S. frugiperda.
Tuta absoluta is one of the most devastating pests of fresh market and processing tomatoes. Native to South America, its detection was confined to that continent until 2006 when it was identified in Spain. It has now spread to almost every continent, threatening countries whose economies rely heavily on tomatoes. This insect causes damage to all developmental stages of its host plant, leading to crop losses as high as 80 to 100%. Although T. absoluta has yet to be found in the U.S. and China, which makes up a large portion of the tomato production in the world, computer models project a high likelihood of invasion. To halt the continued spread of T. absoluta and limit economic loss associated with tomato supply chain, it is necessary to develop accurate and efficient methods to identify T. absoluta and strengthen surveillance programs. Current identification of T. absoluta relies on examination of morphology and assessment of host plant damage, which are difficult to differentiate from that of native tomato pests. To address this need, we sequenced the genomes of T. absoluta and two closely related Gelechiidae, Keiferia lycopersicella, and Phthorimaea operculella, and developed a bioinformatic pipeline to design a panel of 21 SNP markers for species identification. The accuracy of the SNP panel was validated in a multiplex format using the iPLEX chemistry of Agena MassARRAY system. Finally, the new T. absoluta genomic resources we generated can be leveraged to study T. absoluta biology and develop species-specific management strategies. Key Message Surveillance and identification of Tuta absoluta are challenging because it is morphologically similar to closely related species, e.g. Keiferia lycopersicella and Phthorimaea operculella. We generated new genomic sequences for these three species and identified single nucleotide polymorphisms (SNPs) to facilitate species identification. We validated a multiplex genotyping panel of 21 SNPs using the iPLEX MassARRAY platform and confirmed its accuracy for species identification. We generated new molecular tools and genome resources to aid Tuta absoluta management. leaves, where the larvae will emerge from eggs and begin mining host tissues. Larvae can also enter the stems through the buds, and feed within the tomato fruit, leaving them unmarketable. Its distribution was largely confined to South America until it was first detected in Spain in 2006 (Desneux et al. 2010; Guillemaud et al. 2015). Since then T. absoluta has spread rapidly and is now
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