Details

Autor(en) / Beteiligte

• Rodriguez-Vivas, R.I.
• Trees, A.J.
• Rosado-Aguilar, J.A.
• Villegas-Perez, S.L.
• Hodgkinson, J.E.

Titel

Evolution of acaricide resistance: Phenotypic and genotypic changes in field populations of Rhipicephalus (Boophilus) microplus in response to pyrethroid selection pressure

Ist Teil von

• International journal for parasitology, 2011-07, Vol.41 (8), p.895-903

Ort / Verlag

Kidlington: Elsevier Ltd

Erscheinungsjahr

2011

Quelle

MEDLINE

Beschreibungen/Notizen

• [Display omitted] ► There are few studies on tick field populations of evolution of pheno- and genotypic resistance to chemicals. ► Pheno- and genotypic markers of resistance increased on farms treated with cypermethrin. ► Markers of resistance remained unchanged on farms treated with amitraz for 2years. ► Pyrethroid resistance is acquired much faster than it is lost. ► Rotation with other chemicals may result in stepwise acquisition of resistance. There have been few, if any, studies of arthropod field populations quantifying the kinetics of evolution of phenotypic and genotypic resistance to chemicals in response to the presence or absence of selection pressure. A prospective intervention study was undertaken over 2years in Mexico to measure changes in resistance phenotype and genotype in the presence or absence of pyrethroid selection pressure on field populations of Rhipicephalus (Boophilus) microplus ticks on 11 farms with varying degrees of pyrethroid resistance. The resistance phenotype was evaluated by bioassay in a larval packet test expressed as the resistance factor (RF) derived from probit analysis of dose mortality regressions, and resistance genotype by an allele-specific PCR (AS-PCR) to determine the frequency of a sodium channel mutation (F1550I) associated with pyrethroid resistance. To validate the AS-PCR, a Pyrosequencing™ method was developed to detect the F1550I mutation. There was good concordance with the genotypes identified by both Pyrosequencing™ and AS-PCR (Kappa: 0.85). On five farms cypermethrin (CY) was exclusively used at intervals and on six farms amitraz was used. On two of the five CY-treated farms, the experiment was prematurely terminated due to unacceptably high levels of tick resistance. For all five farms, after 8–24months of continued selection pressure with CY, the RF had increased 2–125-fold. The frequency of the resistance allele increased on all five farms from a starting range of 5–46% to a range of 66–95% after 8–24months. On six farms treated with amitraz neither the RF nor the frequency of the resistance allele changed. A clear correlation between the phenotype and genotype was found in three of four treated farms confirming that the F1550I mutation is a major cause of synthetic pyrethroid resistance in Mexico. These results show that the pyrethroid resistance trait is stable (> 2years) and that resistance is acquired much faster than it is lost. Hence, alternation of pyrethroid acaricide with other chemicals is likely to lead to the stepwise acquisition of synthetic pyrethroid resistance but not additional prolongation of its efficacious lifespan.