Differences in male Aedes aegypti and Aedes albopictus hearing systems facilitate recognition of conspecific female flight tones

“…Furthermore, male (but not female) mosquitoes can demonstrate large amplitude, seemingly mono-frequent flagellar oscillations referred to as self-sustained oscillations (SSOs). SSOs entrain only to pure tones close to female WBFs 9 , suggesting that SSOs in males play a key role in the acoustic processing of female flight tones.Investigating this acoustic processing is made more complicated by differences in the peak sensitivity of electrical responses recorded from the axon bundle of male JO neurons (referred to as electrical tuning) to the aforementioned mechanical tuning of the flagellum 32,33 . This mismatch has led researchers to suggest that male JO neurons respond most sensitively not to female flight tones, but to non-linear phantom tones resulting from interactions between male and female WBFs, referred to as distortion products (DPs) 9,22,27 .…”

“…Investigating this acoustic processing is made more complicated by differences in the peak sensitivity of electrical responses recorded from the axon bundle of male JO neurons (referred to as electrical tuning) to the aforementioned mechanical tuning of the flagellum 32,33 . This mismatch has led researchers to suggest that male JO neurons respond most sensitively not to female flight tones, but to non-linear phantom tones resulting from interactions between male and female WBFs, referred to as distortion products (DPs) 9,22,27 .…”

Sexually dimorphic auditory representation inAedes aegyptibrains

“…Furthermore, male (but not female) mosquitoes can demonstrate large amplitude, seemingly mono-frequent flagellar oscillations referred to as self-sustained oscillations (SSOs). SSOs entrain only to pure tones close to female WBFs 9 , suggesting that SSOs in males play a key role in the acoustic processing of female flight tones.Investigating this acoustic processing is made more complicated by differences in the peak sensitivity of electrical responses recorded from the axon bundle of male JO neurons (referred to as electrical tuning) to the aforementioned mechanical tuning of the flagellum 32,33 . This mismatch has led researchers to suggest that male JO neurons respond most sensitively not to female flight tones, but to non-linear phantom tones resulting from interactions between male and female WBFs, referred to as distortion products (DPs) 9,22,27 .…”

“…Investigating this acoustic processing is made more complicated by differences in the peak sensitivity of electrical responses recorded from the axon bundle of male JO neurons (referred to as electrical tuning) to the aforementioned mechanical tuning of the flagellum 32,33 . This mismatch has led researchers to suggest that male JO neurons respond most sensitively not to female flight tones, but to non-linear phantom tones resulting from interactions between male and female WBFs, referred to as distortion products (DPs) 9,22,27 .…”

Sexually dimorphic auditory representation inAedes aegyptibrains

MACSFeD—a database of mosquito acoustic communication and swarming features