Simple ears - flexible behavior: Information processing in the moth auditory pathway
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https://hdl.handle.net/10037/8973Date
2015-03Type
Journal articleTidsskriftartikkel
Peer reviewed
Abstract
Abstract Lepidoptera evolved tympanic ears in response to echolocating bats. Comparative studies have shown that moth ears
evolved many times independently from chordotonal organs. With only 1 to 4 receptor cells, they are one of the simplest hearing
organs. The small number of receptors does not imply simplicity, neither in behavior nor in the neural circuit. Behaviorally, the
response to ultrasound is far from being a simple reflex. Moths’ escape behavior is modulated by a variety of cues, especially
pheromones, which can alter the auditory response. Neurally the receptor cell(s) diverges onto many interneurons, enabling parallel
processing and feature extraction. Ascending interneurons and sound-sensitive brain neurons innervate a neuropil in the
ventrolateral protocerebrum. Further, recent electrophysiological data provides the first glimpses into how the acoustic response
is modulated as well as how ultrasound influences the other senses. So far, the auditory pathway has been studied in noctuids.
The findings agree well with common computational principles found in other insects. However, moth ears also show unique
mechanical and neural adaptation. Here, we first describe the variety of moths’ auditory behavior, especially the co-option of ultrasonic
signals for intraspecific communication. Second, we describe the current knowledge of the neural pathway gained from
noctuid moths. Finally, we argue that Galleriinae which show negative and positive phonotaxis, are an interesting model species
for future electrophysiological studies of the auditory pathway and multimodal sensory integration, and so are ideally suited for
the study of the evolution of behavioral mechanisms given a few receptors [Current Zoology 61 (2): 292–302, 2015].
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