Exposure of Anopheles gambiae larvae to a sub-lethal dose of an agrochemical mixture induces tolerance to adulticides used in vector control management

Aquat Toxicol. 2022 Jul:248:106181. doi: 10.1016/j.aquatox.2022.106181. Epub 2022 Apr 26.

Abstract

The heavy use of pesticides in agricultural areas often leads to the contamination of nearby mosquito larvae breeding sites. Exposure to complex mixtures of agrochemicals can affect the insecticide sensitivity of mosquito larvae. Our study objective was to determine whether agrochemical residues in Anopheline larval breeding sites can affect the tolerance of adults to commonly used adulticides. We focussed on Fludora® Fusion, a vector control insecticide formulation combining two insecticides (deltamethrin and clothianidin) with different modes of action. An. gambiae larvae were exposed to a sub-lethal dose of a mixture of agrochemical pesticides used in a highly active agricultural area on the Ivory Coast. Comparative bioassays with Fludora Fusion mixture and its two insecticide components (deltamethrin and clothianidin) were carried out between adult mosquitoes exposed or not to the agrochemicals at the larval stage. A transcriptomic analysis using RNA sequencing was then performed on larvae and adults to study the molecular mechanisms underlying the phenotypic changes observed. Bioassays revealed a significantly increased tolerance of adult females to clothianidin (2.5-fold) and Fludora Fusion mixture (2.2-fold) following larval exposure to agrochemicals. Significantly increased tolerance to deltamethrin was not observed suggesting that insecticide exposure affects the adult efficacy of the Fludora Fusion mixture mainly through mechanisms acting on clothianidin. Transcriptomic analysis revealed the potential of agrochemicals to induce various resistance mechanisms including cuticle proteins, detoxification action and altered insecticide sequestration. These results suggest that although the Fludora Fusion mixture is effective for adult vector control, its efficacy may be locally affected by the ecological context. The present study also suggests that, although the complex interactions between the use of agrochemicals and vector control insecticides are difficult to decipher in the field, they still must be considered in the context of insecticide resistance management programmes.

Keywords: Agrochemical pesticides; An. gambiae; Clothianidin; Cuticle resistance; Fludora® Fusion; Metabolic resistance; Transcriptomics.

MeSH terms

  • Agrochemicals / pharmacology
  • Animals
  • Anopheles* / genetics
  • Female
  • Insecticide Resistance / genetics
  • Insecticides* / chemistry
  • Larva
  • Malaria*
  • Mosquito Control / methods
  • Mosquito Vectors
  • Pyrethrins* / chemistry
  • Pyrethrins* / toxicity
  • Water Pollutants, Chemical* / toxicity

Substances

  • Agrochemicals
  • Insecticides
  • Pyrethrins
  • Water Pollutants, Chemical