Is bigger really bigger? Differential responses to temperature in measures of body size of the mosquito, Aedes albopictus

When confronted with variation in temperature, most ectotherms conform to a growth rule that “hotter is smaller”. This phenomenon can have important implications on population dynamics, interactions with other species, and adaptation to new environments for arthropods. However, the impact of other environmental factors and genetics may affect that general rule. Furthermore, most studies measure a single body part, and do not examine how temperature and other factors alter the allometric relationship between measurements of growth. In this study, we test the hypothesis that temperature and nutrition, while strongly affecting growth, do not change the allometric relationship between body mass and wing length in the mosquito Aedes albopictus. We tested this hypothesis by growing larval mosquitoes from two populations at five temperatures with three food levels. Contrary to our hypothesis, we find that temperature has a profound effect on allometry, with higher temperatures resulting in mosquitoes with shorter wings and greater body mass, and that the effects of temperature are dependent upon available food and population origin. We therefore reject our hypothesis and propose several testable mechanisms that will provide greater insight into the relationship between temperature, food, and measures of growth.

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► We propose a hypothesis of allometry across temperature and nutrients.
► The allometric relationship between wing length and mass depends on temperature.
► Cooler conditions resulted in longer wings per body mass.
► Warmer conditions results in shorter wings per body mass.
► The adaptive significance of our finding awaits further experimentation.