Gas exchange patterns for a small, stored-grain insect pest, Tribolium castaneum

Insects breathe using one or a combination of three gas exchange patterns; continuous, cyclic and discontinuous, which vary in their rates of exchange of oxygen, carbon dioxide and water. In general, there is a trade-off between lowering gas exchange using discontinuous exchange that limits water loss at the cost of lower metabolic rate. These patterns and hypotheses for the evolution of discontinuous exchange have been examined for relatively large insects (>20 mg) over relatively short periods (<4 h), but smaller insects and longer time periods have yet to be examined. We measured gas exchange patterns and metabolic rates for adults of a small insect pest of grain, the red flour beetle, Tribolium castaneum (Coleoptera: Tenebrionidae), using flow-through respirometry in dry air for 48 h. All adults survived the desiccating measurement period; initially they used continuous gas exchange, then after 24 h switched to cyclic gas exchange with a 27% decrease in metabolic rate, and then after 48 h switched to discontinuous gas exchange with increased interburst duration and further decrease in metabolic rate. The successful use of the Qubit, a lower cost and so more common gas analyser, to measure respiration in the very small T. castaneum, may prompt more flow-through respirometry studies of small insects. Running such studies over long durations may help to better understand the evolution of respiration physiology and thus suggest new methods of pest management.

Automated summary

Insects use different gas exchange patterns for respiration, including continuous, cyclic, and discontinuous exchange. There is a trade-off between lower gas exchange rate and limited water loss in discontinuous exchange. This study examined gas exchange patterns and metabolic rates in the red flour beetle over a 48-hour period, finding that the beetles initially used continuous exchange, then switched to cyclic exchange with decreased metabolic rate, and finally shifted to discontinuous exchange with further decreased metabolic rate.