“Singing on the Wing” as a Mechanism for Species Recognition in the Malarial Mosquito Anopheles gambiae
Anopheles gambiae, responsible for the majority of malaria deaths annually, is a complex of seven species and several chromosomal/molecular forms. The complexity of malaria epidemiology and control is due in part to An. gambiae's remarkable genetic plasticity, enabling its adaptation to a range...
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| Veröffentlicht in: | Current biology 2010-01, Vol.20 (2), p.131-136 |
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| creator | Pennetier, Cédric Warren, Ben Dabiré, K. Roch Russell, Ian J. Gibson, Gabriella |
| description | Anopheles gambiae, responsible for the majority of malaria deaths annually, is a complex of seven species and several chromosomal/molecular forms. The complexity of malaria epidemiology and control is due in part to
An. gambiae's remarkable genetic plasticity, enabling its adaptation to a range of human-influenced habitats. This leads to rapid ecological speciation when reproductive isolation mechanisms develop
[1–6]. Although reproductive isolation is essential for speciation, little is known about how it occurs in sympatric populations of incipient species
[2]. We show that in such a population of “M” and “S” molecular forms, a novel mechanism of sexual recognition (male-female flight-tone matching
[7–9]) also confers the capability of mate recognition, an essential precursor to assortative mating; frequency matching occurs more consistently in same-form pairs than in mixed-form pairs (p = 0.001). Furthermore, the key to frequency matching is “difference tones” produced in the nonlinear vibrations of the antenna by the combined flight tones of a pair of mosquitoes and detected by the Johnston's organ. By altering their wing-beat frequencies to minimize these difference tones, mosquitoes can match flight-tone harmonic frequencies above their auditory range. This is the first description of close-range mating interactions in incipient
An.
gambiae species. |
| doi_str_mv | 10.1016/j.cub.2009.11.040 |
| format | Article |
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An. gambiae's remarkable genetic plasticity, enabling its adaptation to a range of human-influenced habitats. This leads to rapid ecological speciation when reproductive isolation mechanisms develop
[1–6]. Although reproductive isolation is essential for speciation, little is known about how it occurs in sympatric populations of incipient species
[2]. We show that in such a population of “M” and “S” molecular forms, a novel mechanism of sexual recognition (male-female flight-tone matching
[7–9]) also confers the capability of mate recognition, an essential precursor to assortative mating; frequency matching occurs more consistently in same-form pairs than in mixed-form pairs (p = 0.001). Furthermore, the key to frequency matching is “difference tones” produced in the nonlinear vibrations of the antenna by the combined flight tones of a pair of mosquitoes and detected by the Johnston's organ. By altering their wing-beat frequencies to minimize these difference tones, mosquitoes can match flight-tone harmonic frequencies above their auditory range. This is the first description of close-range mating interactions in incipient
An.
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An. gambiae's remarkable genetic plasticity, enabling its adaptation to a range of human-influenced habitats. This leads to rapid ecological speciation when reproductive isolation mechanisms develop
[1–6]. Although reproductive isolation is essential for speciation, little is known about how it occurs in sympatric populations of incipient species
[2]. We show that in such a population of “M” and “S” molecular forms, a novel mechanism of sexual recognition (male-female flight-tone matching
[7–9]) also confers the capability of mate recognition, an essential precursor to assortative mating; frequency matching occurs more consistently in same-form pairs than in mixed-form pairs (p = 0.001). Furthermore, the key to frequency matching is “difference tones” produced in the nonlinear vibrations of the antenna by the combined flight tones of a pair of mosquitoes and detected by the Johnston's organ. By altering their wing-beat frequencies to minimize these difference tones, mosquitoes can match flight-tone harmonic frequencies above their auditory range. This is the first description of close-range mating interactions in incipient
An.
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An. gambiae's remarkable genetic plasticity, enabling its adaptation to a range of human-influenced habitats. This leads to rapid ecological speciation when reproductive isolation mechanisms develop
[1–6]. Although reproductive isolation is essential for speciation, little is known about how it occurs in sympatric populations of incipient species
[2]. We show that in such a population of “M” and “S” molecular forms, a novel mechanism of sexual recognition (male-female flight-tone matching
[7–9]) also confers the capability of mate recognition, an essential precursor to assortative mating; frequency matching occurs more consistently in same-form pairs than in mixed-form pairs (p = 0.001). Furthermore, the key to frequency matching is “difference tones” produced in the nonlinear vibrations of the antenna by the combined flight tones of a pair of mosquitoes and detected by the Johnston's organ. By altering their wing-beat frequencies to minimize these difference tones, mosquitoes can match flight-tone harmonic frequencies above their auditory range. This is the first description of close-range mating interactions in incipient
An.
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| source | MEDLINE; Cell Press Free Archives; ScienceDirect Journals (5 years ago - present); EZB-FREE-00999 freely available EZB journals |
| subjects | Animal biology Animal Communication Animals Anopheles - physiology Anopheles gambiae EVO_ECOL Female Hearing Invertebrate Zoology Life Sciences Male Sexual Behavior, Animal Species Specificity |
| title | “Singing on the Wing” as a Mechanism for Species Recognition in the Malarial Mosquito Anopheles gambiae |
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