Sexual selection typically shapes the traits of individuals capable of reproduction. However, in social species, it may also affect the behaviour of non‐reproductive individuals if this increases their inclusive fitness. We examined the potential role of workers during mating in the polyandrous ant Cataglyphis cursor. In this species, mating takes place on the ground near the nest entrance, and workers chase away foreign males trying to mate with young queens (gynes). We investigated the effects of worker aggression on male mating attempts by placing three or four males in the presence of one foreign gyne and 20 of her nestmate workers and contrasted this with a second group of 3–4 males in the presence of another gyne without nestmate workers (n = 8 paired replicates). Workers strongly attacked males (more than 20 aggressions per minute), although this did not affect the total number of mating attempts by the 3–4 males or the skew in the number of mating attempts among these males. However, there was an interaction between worker aggression and relative male weight, as relatively heavy males attempted to mate more often than lighter males in the absence of worker whereas the reverse occurred in the presence of workers. Our study is the first to experimentally test the potential role of non‐reproductive individuals in sexual selection. It shows that workers could potentially change male mating success by disfavouring heavier males.
Social insects are well known for their extremely rich chemical communication, yet their sex pheromones remain poorly studied. In the thermophilic and thelytokous ant, Cataglyphis cursor, we analyzed the cuticular hydrocarbon profiles and Dufour's gland contents of queens of different age and reproductive status (sexually immature gynes, sexually mature gynes, mated and egg-laying queens) and of workers. Random forest classification analyses showed that the four groups of individuals were well separated for both chemical sources, except mature gynes that clustered with queens for cuticular hydrocarbons and with immature gynes for Dufour's gland secretions. Analyses carried out with two groups of females only allowed identification of candidate chemicals for queen signal and for sexual attractant. In particular, gynes produced more undecane in the Dufour's gland. This chemical is both the sex pheromone and the alarm pheromone of the ant Formica lugubris. It may therefore act as sex pheromone in C. cursor, and/or be involved in the restoration of monogyny that occurs rapidly following colony fission. Indeed, new colonies often start with several gynes and all but one are rapidly culled by workers, and this process likely involves chemical signals between gynes and workers. These findings open novel opportunities for experimental studies of inclusive mate choice and queen choice in C. cursor.
Workers in social insects perform different roles, and the environment they experience differs markedly according to the tasks performed. Life history theory predicts that individuals should adapt investment in immune defences according to their cost relative to the risk of pathogen infection. Workers, which forage outside the nest, face harsher environmental conditions with increased risk of injury and infection. We then might expect higher immune defences in foragers than in intra-nidal workers which remain in the relative sanctity of the nest. However, task partitioning in social insects is often age-based, and foragers are usually the oldest individuals. Hence if immune defences degenerate with age, foragers could have lower immune defences than intra-nidal workers. In this study, we examined the difference in immune defences as assessed by the level of phenoloxidase activity (PO) between intra-nidal workers and foragers in the ant Cataglyphis cursor. In three out of four colonies tested, foragers and intra-nidal workers did not differ in their level of PO. In the final colony, the level of workers PO overall was higher than in the other three colonies, and foragers displayed a lower level of PO than intranidal workers. These results may suggest that, when a sustained colonial PO activity is necessary, foragers may be less able than intra-nidal workers to activate their PO. Our results are discussed in the light of previous studies that underline the diversity of PO activity patterns in social insects. The variation observed among studies and even colonies clearly emphasizes the plasticity of immune parameters.
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