Anopheles gambiae larvae's ability to grow and emerge in water containing lethal concentrations of clothianidin, acetamiprid, or imidacloprid is consistent with cross-resistance to neonicotinoids

For decades, various agrochemicals have been successfully repurposed for mosquito control. However, preexisting resistance caused in larval and adult populations by unintentional pesticide exposure or other cross-resistance mechanisms poses a challenge to the efficacy of this strategy. A better unde...

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Bibliographic Details
Published in:Parasites & vectors 2024-03, Vol.17 (1), p.98-12, Article 98
Main Authors: Ambadiang, Marilene, Fouet, Caroline, Ashu, Fred, Bouaka, Calmes, Penlap-Beng, Véronique, Kamdem, Colince
Format: Article
Language:English
Subjects:
Agriculture
Agrochemicals
Animals
Anopheles
Anopheles coluzzii
Anopheles gambiae
Aquatic habitats
Aquatic insects
Cameroon - epidemiology
Chlorfenapyr
Control
Corrosion resistance
Cross-resistance
Culicidae
Deltamethrin
Effectiveness
Enzymes
Growth
Guanidines
Imidacloprid
Insect control
Insecticide Resistance
Insecticides
Insecticides - pharmacology
Insects
Instars
Larva
Larvae
Lethal limits
Malaria
Metabolism
Methods
Mortality
Mosquito Vectors
Mosquitoes
Neonicotinoid insecticides
Neonicotinoids
Neonicotinoids - pharmacology
Nitriles
Nitro Compounds
Pesticide residues
Pesticides
Physiological aspects
Populations
Prevention
Public health
Pyrethrins
Pyrethroids
Resistance mechanisms
Risk factors
Sibling species
Sublethal effects
Suburban areas
Survival
Thiazoles
Urbanization
Vector control
Water
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Summary:For decades, various agrochemicals have been successfully repurposed for mosquito control. However, preexisting resistance caused in larval and adult populations by unintentional pesticide exposure or other cross-resistance mechanisms poses a challenge to the efficacy of this strategy. A better understanding of larval adaptation to the lethal and sublethal effects of residual pesticides in aquatic habitats would provide vital information for assessing the efficacy of repurposed agrochemicals against mosquitoes. We reared field-collected mosquito larvae in water containing a concentration of agrochemical causing 100% mortality in susceptible mosquitoes after 24 h (lethal concentration). Using this experimental setup, we tested the effect of lethal concentrations of a pyrrole (chlorfenapyr, 0.10 mg/l), a pyrethroid (deltamethrin, 1.5 mg/l), and three neonicotinoids including imidacloprid (0.075 mg/l), acetamiprid (0.15 mg/l), and clothianidin (0.035 mg/l) on mortality rates, growth, and survival in third-instar larvae of the two sibling species Anopheles gambiae and Anopheles coluzzii collected from Yaoundé, Cameroon. We found that An. gambiae and An. coluzzii larvae were susceptible to chlorfenapyr and were killed within 24 h by a nominal concentration of 0.10 mg/l. Consistent with strong resistance, deltamethrin induced low mortality in both species. Lethal concentrations of acetamiprid, imidacloprid, and clothianidin strongly inhibited survival, growth, and emergence in An. coluzzii larvae. By contrast, depending on the active ingredient and the population tested, 5-60% of immature stages of An. gambiae were able to grow and emerge in water containing a lethal concentration of neonicotinoids, suggesting cross-resistance to this class of insecticides. These findings corroborate susceptibility profiles observed in adults and suggest that unintentional pesticide exposure or other cross-resistance processes could contribute to the development of resistance to neonicotinoids in some Anopheles populations.
ISSN:1756-3305
1756-3305
DOI:10.1186/s13071-024-06188-7