Abstract
The sustainability of control programs for the Mediterranean fruit fly, Ceratitis capitata, for citrus crops in Spain has been threatened by the development of resistance to malathion and lambda-cyhalothrin in recent years. Spinosad is widely used without apparent loss of efficacy. However, a highly resistant strain, JW-100s, has been obtained after laboratory selection. Spinosad resistance in JW-100s has been associated with different mutant alleles of the α6 subunit of the nicotinic acetylcholine receptor (Ccα6) including an isoform-specific truncation allele, Ccα63aQ68*. Using the GAL4 > UAS system in Drosophila melanogaster to demonstrate expression of this truncated α6 subunit, in a dα6 loss-of-function genetic background, does not rescue susceptibility to spinosad, while the expression of Ccα6 wild-type isoforms does. We have also generated C. capitata isolines from JW-100s homozygous for: (1) the Ccα63aQ68*Δ3b-4 allele, which contains the mutation 3aQ68*, and (2) the Ccα63aQ68*–K352* allele, which contains the mutations 3aQ68* and K352*. Neither of these produce complete Ccα6 transcripts. The frequency of resistant alleles declined when in competition with individuals carrying the wild-type allele. Through extensive testing of both biological and behavioral fitness traits, we identified a reduced ability of Ccα63aQ68*Δ3b-4 males to detect the parapheromone and to mate with females carrying the Ccα63aQ68*–K352* allele in competition experiments. Thus, not only the potential for spontaneous resistant mutations to arise in Ccα6 but also their fitness costs must be considered when planning resistance management strategies for C. capitata.
Highlights
The Mediterranean fruit fly Ceratitis capitata (Wiedemann) (Diptera: Tephritidae) is one of the main pests for citrus and other fruit trees
In order to study the contribution that the different Ccα6 alleles make to spinosad resistance/susceptibility, it is important that they be compared in an identical genetic background
When we checked the sequence of both the Genomic DNA (gDNA) and the complementary DNA (cDNA) of isoline Q68*–K352*, we found that all exons were present and transcribed
Summary
The Mediterranean fruit fly (medfly) Ceratitis capitata (Wiedemann) (Diptera: Tephritidae) is one of the main pests for citrus and other fruit trees. While the sterile insect technique is being implemented in some area-wide integrated pest management programs, C. capitata control still relies heavily on the use of insecticides (Reddy and Rashmi 2016). Spinosad and lambda-cyhalothrin in bait sprays and deltamethrin in mass trapping and lure and kill devices (Navarro-Llopis et al 2015) have been the most widely used insecticides for medfly control in citrus crops (MAPA 2019). Spanish field populations of C. capitata have developed resistance to malathion (Magaña et al 2007, 2008) and lambda-cyhalothrin (Arouri et al 2015) due to the intensive use of these products. In a situation where the repertoire of effective insecticides is becoming very limited, it is essential to ensure their efficacy and sustainability by implementing proper management strategies
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