Abstract
The physiology and morphology of auditory interneurons of a fly, the parasitoid Therobia leonidei, are described for the first time. 1. The hearing threshold has been determined with summed recordings of the neck connective. Females are most sensitive in a frequency range from 16 to 40 kHz (thresholds: around 45 dB SPL). This broad hearing range matches with the peak frequencies of the song spectra of host bushcricket species. Male flies are 10–20 dB less sensitive than females. 2. The sensory cells of the prosternal tympanal organ of T. leonidei project into the thoracico-abdominal ganglion complex with arborizations in all three thoracic neuromeres. 3. Three types of ascending auditory interneurons were identified by their morphology and response properties. These have arborizations in all three thoracic neuromeres and terminate soma-contralaterally in the brain. At least three other neuron types were also identified according to response properties alone. The neurons show similar spectral tuning but different sensitivities.
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