Pyrethroid resistance is associated with a kdr ‐type mutation ( L1014F ) in the potato tuber moth Tecia solanivora

BACKGROUND The Guatemalan potato tuber moth, Tecia solanivora , has been the most important pest species in Hispanico‐American potato fields since its first record on potatoes in 1956 in Guatemala. This insect pest has been spreading to other parts of the world, including the Canary Islands in Europe. Tuber moth control relies heavily on the use of insecticides, including pyrethroids. Here, we assessed the likelihood of control failures and performed concentration–response bioassays in five Colombian strains of T. solanivora to evaluate their susceptibilities to the pyrethroid permethrin. RESULTS Evidence of control failures was observed in four strains tested, which exhibited moderate resistance levels (i.e. ranging from 5.4‐ to 24.4‐fold). However, no spatial dependence was observed between the permethrin LC 50 values and the geographic distances among the tuber moth strains. In order to evaluate whether permethrin resistance was mediated by potential mutations in the para ‐type sodium channels of T. solanivora , the IIS4–IIS6 region of the para gene was PCR amplified and sequenced from the five strains tested. As demonstrated across a range of different arthropod species that exhibited knockdown resistance ( kdr ), we observed a single point substitution ( L1014F ) at high frequencies in the para gene of all four resistant strains. CONCLUSION This is the first identification of a target‐site‐alteration‐based resistance in the Guatemalan potato tuber moth T. solanivora , which is widespread and exhibits high frequencies among geographically distant strains, indicating that pyrethroids are probably becoming ineffective for the control of this pest species. © 2016 Society of Chemical Industry