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Interindividual variation among Culex pipiens larvae in terms of thermal response

This study aims to determine the phenological characteristics of thermal responses in the larvae of a Culex pipiens complex field population at the individual level under the influence of thermal regime of its habitat. The analysis is based on a structured population model quantifying the thermal re...

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Bibliographic Details
Published in:Medical and veterinary entomology 2024-06, Vol.38 (2), p.205-215
Main Authors: Sakaci, Zafer, Talay, Sengul, Erguler, Kamil, Korkmaz, Adil, Sirin, Deniz, Er, Aylin, Alten, Bulent, Kar, Sirri
Format: Article
Language:English
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Summary:This study aims to determine the phenological characteristics of thermal responses in the larvae of a Culex pipiens complex field population at the individual level under the influence of thermal regime of its habitat. The analysis is based on a structured population model quantifying the thermal responses of development time and survival under variable conditions and characterising the variety between the larvae (interindividual variety). During the study performed in Turkish Thrace on a monthly basis between May 2021 and June 2022, a total of 3744 larvae were reared as peer larval cohorts and 2330 larvae as siblings in artificial containers to be fully exposed to the natural thermal condition that was recorded hourly. The development process of larvae was monitored daily from egg to adult. As a result, a total of 4788 adult mosquitoes emerged, with a development period ranging from 8 to 52 days in the females and 7 to 50 days in the males, and the survival rate was found to range from 0% to 100%. Both parameters varied by month and individuals, and the variations manifested itself, particularly in the colder periods. The results indicate that the variation between the individuals in terms of thermal response in the larvae of C. pipiens, along with the thermal acclimation ability, appears to be fate determinant in resisting fluctuating thermal regimes, surviving in concurrent climate change and adapting to new conditions with modifications in the seasonal phenology, such as maintaining reproductive dynamics throughout the winter thanks to global warming. Culex pipiens larvae of the natural population can survive under extreme thermal conditions of nature, and the thermal acclimation has a special role in the possessing of this achievement. The larvae display obvious interindividual variation in terms of development time and viability among the larvae, which manifests itself particularly in the colder months, when the demanding thermal regime prevails. The abilities of variety induction and thermal acclimation appear to be fate determinant for the species in surviving concurrent climate change.
ISSN:0269-283X
1365-2915
1365-2915
DOI:10.1111/mve.12709