A reverse temperature‐size rule associated with a negative relationship between larval development time and pupal weight in a tropical population of Ostrinia furnacalis

Abstract

AbstractEmpirical studies demonstrate a negative relationship between body size and temperature [i.e. the temperature‐size rule (TSR)] and a positive relationship between body size and development time (a trade‐off). However, many exceptions are also reported. The present study tests the two relationships in a tropical population of the Asian corn borer Ostrinia furnacalis under a wide range of temperatures from 18 to 31 °C. The results show that larval time is decreased significantly and pupal weight is increased significantly with an increasing rearing temperature, exhibiting the reverse‐TSR. Growth rate is positively correlated with temperature. The relationships between body size and development time among individuals show a negative slope (i.e. pupal weight tends to decrease with increases in development time). Females are significantly larger than males at all temperatures, showing a female‐biased sex size dimorphism. It is also found that development time and pupal weight vary greatly among individuals, particularly at lower temperatures. The results of the present study demonstrate a reverse‐TSR associated with a negative relationship between larval development time and pupal weight in a tropical population of O. furnacalis.