Abstract
The socially parasitic ant genus Myrmoxenus varies strongly in fundamental life history traits, such as queen-worker ratio, the timing of sexual production, and mating behavior. Myrmoxenus queens generally take over nests of Temnothorax ants, kill the resident queen by throttling, and force the workers to take care of the social parasite’s brood. Young queens of M. ravouxi and other species produce large numbers of workers, which during “slave-raids” pillage host pupae from neighboring Temnothorax colonies to increase the workforce in their own nests. Other species, such as M. corsicus, have lost caste polyphenism and rear only male and female sexual offspring. Using sequences of the genes CO I / CO II and wingless we reconstruct the phylogeny of Myrmoxenus and document that the worker caste was lost convergently at least three times. Furthermore, mating in the nest and inbreeding obviously also evolved in parallel from ancestors whose sexuals presumably mated during nuptial flights. Myrmoxenus might thus provide a suitable model to investigate caste differentiation and the plasticity of mating behavior in Hymenoptera.
Highlights
The enormous ecological success of ants, bees, and wasps is based on their efficient division of labor among the two female castes [1, 2]
Within Myrmoxenus, GC content of CO I / CO II ranged from 28.8% (M. bernardi) to 30.3% (M. birgitae), with a median of 29.6%, that of wingless from 63.1 (M. tamarae) to 63.9% (M. gordiagini), with a median of 63.7%
M. stumperi and M. bernardi are well-separated from the other lineages
Summary
The enormous ecological success of ants, bees, and wasps is based on their efficient division of labor among the two female castes [1, 2]. Reproductive queens and non-reproductive workers are well adapted to their respective tasks and they often differ strikingly in size and morphology, with ant queens often being much larger and more long-lived than their workers. Though recent studies have revealed a more or less pronounced influence of genotype on caste differentiation, whether a female larva grows into a worker or a queen is typically controlled by the environment [3], making caste diphenism one of the most conspicuous and abundant cases of phenotypic plasticity. The ancestral pattern of queen-worker diphenism has evolved additional, more or less complex modifications. In leaf-cutting ants, Atta, worker-destined larvae may develop into different worker morphs, which behaviorally specialize in leaf-cutting, leaf transportation, defense, or fungus processing etc. Queens with reduced wings and PLOS ONE | DOI:10.1371/journal.pone.0131023 July 29, 2015
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