Modulation of cyclic CO2 release in response to endogenous changes of metabolism during pupal development of Zophobas rugipes (Coleoptera: Tenebrionidae)

Understanding the mechanisms of gas exchange regulation in insects currently is a hot topic of insect physiology. Endogenous variation of metabolism during pupal development offers a great opportunity to study the regulation of respiratory patterns in insects. Here we show that metabolic rates during pupal development of the tenebrionid beetle Zophobas rugipes reveal a typical U-shaped curve and that, with the exception of 9-day-old pupae, the time between two bursts of CO₂ (interburst phase) was the only parameter of cyclic CO₂ gas exchange patterns that was adjusted to changing metabolic rates. The volume of CO₂ released in a burst was kept constant, suggesting a regulation for accumulation and release of a fixed amount of CO₂ throughout pupal development. We detected a variety of discontinuous and cyclic gas exchange patterns, which were not correlated with any periods of pupal development, suggesting a high among individual variability. An occasional occurrence of continuous CO₂ release patterns at low metabolic rates was very likely caused by single defective non-occluding spiracles.