Colony performance and immunocompetence of a social insect, Bombus terrestris, in poor and variable environments

Abstract

1. Feeding and defence against parasites are among the major simultaneous requirements for survival and successful reproduction of any animal, including colonies of social insects. Harsh environments may therefore not only negatively affect overall success, but force animals to allocate resources in different ways, for example, to reduce immune defence under adverse conditions while maintaining growth rate. 2. This study examines how colony growth, reproduction and immune defence of the bumble bee, Bombus terrestris, varies with environmental condition. In particular, the manner in which limited or unpredictable food availability affects the number and size of workers and sexuals produced, the timing of reproduction, and the level of encapsulation of a novel antigen was tested. A new experimental paradigm was applied by splitting colonies into two halves while ensuring integrity by regular swaps of the residing queen. 3. The results show that limited food availability, as expected, led to fewer and smaller workers and sexuals. Unpredictable food availability, in contrast, was associated with higher numbers of workers and heavier sexuals. Also, reproductive success was highest under unpredictable conditions, due to an increased rate of collection of resources. 4. The timing of reproduction did not vary among treatments. Contrary to expectation, also immunocompetence did not vary among treatments.