Desiccation tolerance and possible starvation trade-offs in larvicide resistant and mosquitoes.

Larvicides are widely used for mosquito control, but resistance development complicates efforts. We investigated the interplay between insecticide resistance and environmental stress in , , and . Mosquitoes were selected for resistance to diflubenzuron and subsp. , acclimated at four temperatures, and subjected to desiccation and starvation assays. Desiccation and starvation survival were affected by species, sex, and thermal acclimation, but not by larvicide resistance. Larvicide resistance affected starvation survival in , which also exhibited higher thermal plasticity under both stressors. Females outlived males across all species and conditions. These findings highlight ecological consequences of larvicide resistance, as it does not compromise stress resistance and thermal plasticity, complicating mosquito control amid climate change. Trade-offs between starvation and desiccation in suggests potential mechanistic links between these traits and larvicide mode-of-action. Species-, context- and trait-specific larvicide resistance responses complicates mosquito control efforts.