Impact of micropollutants on the life-history traits of the mosquito Aedes aegypti: On the relevance of transgenerational studies

Impact of micropollutants on the life-history traits of the mosquito Aedes aegypti: On the relevance of transgenerational studies

Hazard assessment of chemical contaminants often relies on short term or partial life-cycle ecotoxicological tests, while the impact of low dose throughout the entire life cycle of species across multiple generations has been neglected. This study aimed at identifying the individual and population-l...

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Bibliographic Details
Published in:Environmental pollution (1987) Vol. 220; no. Pt A; pp. 242 - 254
Main Authors: Prud'homme, Sophie M., Chaumot, Arnaud, Cassar, Eva, David, Jean-Philippe, Reynaud, Stéphane
Format: Journal Article
Language:English
Published: England Elsevier Ltd 01-01-2017
Elsevier
Subjects:
Aedes - drug effects
Aedes - physiology
Aedes aegypti
Animals
Bacillus
Benzhydryl Compounds
Benzo(a)pyrene - toxicity
Benzo[a]pyrene
Bisphenol A
Ecotoxicology
Environmental Monitoring
Environmental Pollutants - toxicity
Environmental Sciences
Ibuprofen
Insecticides - toxicity
Larva - drug effects
Life Cycle Stages - drug effects
Multigenerational exposure
Phenols
Population dynamics
Bisphenol A
Benzo[a]pyrene
Population dynamics
Ibuprofen
Multigenerational exposure
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Summary:Hazard assessment of chemical contaminants often relies on short term or partial life-cycle ecotoxicological tests, while the impact of low dose throughout the entire life cycle of species across multiple generations has been neglected. This study aimed at identifying the individual and population-level consequences of chronic water contamination by environmental concentrations of three organic micropollutants, ibuprofen, bisphenol A and benzo[a]pyrene, on Aedes aegypti mosquito populations in experimental conditions. Life-history assays spanning the full life-cycle of exposed individuals and their progeny associated with population dynamics modelling evidenced life-history traits alterations in unexposed progenies of individuals chronically exposed to 1 μg/L ibuprofen or 0.6 μg/L benzo[a]pyrene. The progeny of individuals exposed to ibuprofen showed an accelerated development while the progeny of individuals exposed to benzo[a]pyrene showed a developmental acceleration associated with an increase in mortality rate during development. These life-history changes due to pollutants exposure resulted in relatively shallow increase of Ae. aegypti asymptotic population growth rate. Multigenerational exposure for six generations revealed an evolution of population response to ibuprofen and benzo[a]pyrene across generations, leading to a loss of previously identified transgenerational effects and to the emergence of a tolerance to the bioinsecticide Bacillus turingiensis israelensis (Bti). This study shed light on the short and long term impact of environmentally relevant doses of ibuprofen and benzo[a]pyrene on Ae. aegypti life-history traits and insecticide tolerance, raising unprecedented perspectives about the influence of surface water pollution on vector-control strategies. Overall, our approach highlights the importance of considering the entire life cycle of organisms, and the necessity to assess the transgenerational effects of pollutants in ecotoxicological studies for ecological risk assessment. Finally, this multi-generational study gives new insight about the influence of surface water pollution on microevolutionary processes. [Display omitted] •Aedes aegypti populations were exposed to environmental concentrations of micropollutants.•Ibuprofen and benzo[a]pyrene induce transgenerational changes of life-history traits.•These effects evolve after six successive generations of exposure.•Surface water pollution may affect microevolutive processes.•Ecotoxicological risk assessment should include extensive study of transgenerational impacts. Environmental concentrations of ibuprofen and benzo[a]pyrene elicit transgenerational alterations of life-history traits in Aedes aegypti populations. These effects evolve after 6 generations continuous exposure.
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ISSN:0269-7491
1873-6424
DOI:10.1016/j.envpol.2016.09.056