Masking of an auditory behaviour reveals how male mosquitoes use distortion to detect females

Simo˜es, PMV and Ingham, R and Gibson, G and Russell, Ian (2021) Masking of an auditory behaviour reveals how male mosquitoes use distortion to detect females. [Data Collection]

Project Description

The mating behaviour of many mosquito species is mediated essentially by sound: males follow and mate with a female mid-flight by detecting and tracking the whine of her flight-tones. The stereotypical rapid frequency modulation (RFM) male behaviour, initiated in response to the detection of the female’s flight-tones, has provided a means of investigating these auditory mechanisms while males are free-flying. Mosquitoes hear with their antennae, which vibrate to near-field acoustic excitation. The antennae generate nonlinear vibrations (distortion products, DPs) at frequencies that are equal to the difference between the two simultaneously presented tones, e.g. the male and female flight-tones, which are detected by mechanoreceptors in the auditory Johnston’s organ (JO) at the base of the antenna. Recent studies indicated the male mosquito’s JO is tuned not to the female flight-tone, but to the frequency difference between the male and female flight-tones. To test the hypothesis that mosquitoes detect this frequency difference, Culex quinquefasciatus males were presented simultaneously with a female flight-tone and a masking tone, which should suppress the male’s RFM response to sound. The free-flight behavioural and in vivo electrophysiological experiments revealed that acoustic masking suppresses the RFM response to the female’s flight-tones by attenuating the DPs generated in the nonlinear vibration of the antennae. These findings provide direct evidence in support of the hypothesis that male mosquitoes detect females when both are in flight through difference tones generated in the vibrations of their antennae owing to the interaction between their own flight-tones and those of a female.

Uncontrolled Keywords: insect hearing, Johnston’s organ, Culex quinquefasciatus, distortion products, acoustic behaviour, rapid frequency modulation
Subjects: C Biological sciences > C900 Others in Biological Sciences
C Biological sciences > C990 Biological sciences not elsewhere classified
Departments: School of Applied Sciences
Depositing User: Ian Russell
Date Deposited: 25 Feb 2021 14:42
Last Modified: 23 Jun 2021 11:39
Researchers (inc. External):
Temporal coverage:
FromTo
1 February 201331 January 2015

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