Abstract
Sensory modalities typically are important for both sexes, although sex-specific functional adaptations may occur frequently. This is true for hearing as well. Consequently, distinct behavioural functions were identified for the different insect hearing systems. Here we describe a first case, where a trait of an evolutionary novelty and a highly specialized hearing organ is adaptive in only one sex. The main function of hearing of the parasitoid fly Emblemasoma auditrix is to locate the host, males of the cicada species Okanagana rimosa, by their calling song. This task is performed by female flies, which deposit larvae into the host. We show that male E. auditrix possess a hearing sense as well. The morphology of the tympanal organ of male E. auditrix is rather similar to the female ear, which is 8% broader than the male ear. In both sexes the physiological hearing threshold is tuned to 5 kHz. Behavioural tests show that males are able to orient towards the host calling song, although phonotaxis often is incomplete. However, despite extensive observations in the field and substantial knowledge of the biology of E. auditrix, no potentially adaptive function of the male auditory sense has been identified. This unique hearing system might represent an intralocus sexual conflict, as the complex sense organ and the behavioural relevant neuronal network is adaptive for only one sex. The correlated evolution of the sense organ in both sexes might impose substantial constraints on the sensory properties of the ear. Similar constraints, although hidden, might also apply to other sensory systems in which behavioural functions differ between sexes.
Highlights
Adaptive phenotypes are a result of evolutionary processes underlying natural selection, genetic drift and sexual selection
Females and males phenotypically differ in many traits, which are regulated by sex-biased genes [3,4]. This bias may lead to intralocus sexual conflicts (IASC), when a trait in one sex affects the phenotypic optimum in the other sex [5]
In insects hearing evolved several times independently [6,7,8,9] driven by three basic selection forces: intraspecific communication, predator avoidance and host finding
Summary
Adaptive phenotypes are a result of evolutionary processes underlying natural selection, genetic drift and sexual selection. Females and males phenotypically differ in many traits, which are regulated by sex-biased genes [3,4]. We investigate a complex sense organ, the ear of flies, in respect to sexual differences and adaptive functions. Hearing organs may serve more than one function: for example, crickets use a low frequency band for intraspecific communication and a high frequency band for predator avoidance [10]. Dimorphic ears have been described in parasitoid fly species (Ormiini, Tachinidae) [13,14,15,16]. These flies are parasitoids of nocturnally calling Orthoptera. In Ormiini, the male hearing organ is believed to function for predator ( = bat) avoidance
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