Insecticide Resistance and Fitness: The Case of Four Aedes aegypti Populations from Different Brazilian Regions

الملخص EN

Background.

Chemical control is still a major strategy to constrain vector density and mitigate pathogen transmission.

However, insecticide overuse poses a high selective pressure, favouring the spread of resistance alleles in natural populations.

In an insecticide-free environment, a fitness cost is expected in resistant insects when compared to susceptible counterparts.

This study investigates whether insecticide resistance to an organophosphate (temephos) and a pyrethroid (deltamethrin) is associated with fitness traits in four Aedes aegypti wild populations sampled every three months over one year.

Findings.

We measured development time from larvae to adult, female survival, wing length, fecundity, and adult resistance to starvation in field insecticide resistant Ae.

aegypti populations four times over a year.

These results were confronted with resistance levels to temephos and deltamethrin and with potentially related mechanisms, including a kdr mutation in the pyrethroid target site.

No differences in fitness cost were found after contrasting mosquitoes from the same population collected throughout a year, irrespective of differences in insecticide resistance levels.

Additionally, significant differences were not observed among field populations.

However, compared to the reference strain Rockefeller, field females survived significantly less.

Moreover, larval development was equal or slower in three out of four field populations.

In no case differences were evidenced in starvation tolerance, wing length, and fecundity.

Conclusions.

Overall, field resistant mosquitoes seemed to have a slight fitness disadvantage when compared with the Rockefeller susceptible strain which might represent a potential fitness cost of insecticide resistance.

However, after comparing Ae.

aegypti from the same population but sampled at different moments, or from different field populations, mosquito life-history traits varied independently of resistance ratios.

The metabolic deviations necessary to overcome the adverse effects of insecticides may cause an energy trade-off that affects energy allocation and ultimately basic demands of insect biology.

The extent of fitness cost due to insecticide resistance is critical information to delay the evolution of resistance in wild vector populations.