Animals such as social insects that live in colonies can recognize intruders from other colonies of the same or different species using colony-specific odors. Such colony odors usually have both a genetic and an environmental origin. When within-colony relatedness is high (i.e., one or very few reproductive queens), colonies comprise genetically distinct entities, and recognition based on genetic cues is reliable. However, when nests contain multiple queens and colonies comprise multiple nests (polydomy), the use of purely genetically determined recognition labels may become impractical. This is due to high within-colony genetic heterogeneity and low between-colony genetic heterogeneity. This may favor the use of environmentally determined recognition labels. However, because nests within polydomous colonies may differ in their microenvironment, the use of environmental labels may also be impractical unless they are actively mixed among the nests. Using a laboratory experiment, we found that both isolation per se and diet composition influenced the cuticular chemical profiles in workers of Formica aquilonia. In addition, the level of aggression increased when both the proportions of dietary ingredients and the availability of food were altered. This suggests that increased aggression was mediated by changes in the chemical profile and that environmental cues can mediate recognition between colonies. These results also suggest that the underlying recognition cues are mutable in response to extrinsic factors such as the amount and the composition of food.
Several studies of social insects have shown that epicuticular hydrocarbons are involved in recognition. The hypothesis is that the animals can use differences in chemical composition to acquire information about conspecific status (sex, colony, reproductive status or caste recognition).In this study, we searched for differences between the epicuticular profiles of alpha and beta co-foundresses in Polistes dominulus (Christ) colonies from three separate localities. Our aim was to identify specific compounds or sets of compounds which could be general indexes of foundress rank position in an associative foundation.We found quantitative and qualitative differences in the epicuticular profile among the three populations. The compounds that differentiate between alpha foundresses and their subordinates in the two neighbouring localities were not the same as in the third population. However, in all localities the alpha foundresses of each associative foundation presented a higher proportion of heavy compounds than their respective subordinates. Chemical differences related to rank position may be a fertility signal and are probably caused by physiological and behavioural characteristics, although it is not yet certain if they are actually used by the wasps.
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