Shifts in the microbiota associated with male mosquitoes (Aedes aegypti) exposed to an obligate gut fungal symbiont (Zancudomyces culisetae)

Male mosquitoes are attracted by the flight sounds of conspecific females. In males only, the antennal flagellum bears a large number of long hairs and is therefore said to be plumose. As early as 1855, it was proposed that this remarkable antennal anatomy served as a sound-receiving structure. In the present study, the sound-induced vibrations of the antennal flagellum in male and female Aedes aegypti were compared, and the functional significance of the flagellar hairs for audition was examined. In both males and females, the antennae are resonantly tuned mechanical systems that move as simple forced damped harmonic oscillators when acoustically stimulated. The best frequency of the female antenna is around 230 Hz; that of the male is around 380 Hz, which corresponds approximately to the fundamental frequency of female flight sounds. The antennal hairs of males are resonantly tuned to frequencies between approximately 2600 and 3100 Hz and are therefore stiffly coupled to, and move together with, the flagellar shaft when stimulated at biologically relevant frequencies around 380 Hz. Because of this stiff coupling, forces acting on the hairs can be transmitted to the shaft and thus to the auditory sensory organ at the base of the flagellum, a process that is proposed to improve acoustic sensitivity. Indeed, the mechanical sensitivity of the male antenna not only exceeds the sensitivity of the female antenna but also those of all other arthropod movement receivers studied so far.

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Suppression of a Field Population of Aedes aegypti in Brazil by Sustained Release of Transgenic Male Mosquitoes

PLoS Neglected Tropical Diseases ◽

10.1371/journal.pntd.0003864 ◽

2015 ◽

Vol 9 (7) ◽

pp. e0003864 ◽

Cited By ~ 251

Author(s):

Danilo O. Carvalho ◽

Andrew R. McKemey ◽

Luiza Garziera ◽

Renaud Lacroix ◽

Christl A. Donnelly ◽

...

Keyword(s):

Aedes Aegypti ◽

Sustained Release ◽

Field Population ◽

Male Mosquitoes ◽

Transgenic Male

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Strong attraction of male mosquitoes (Aedes aegypti) to humans

10.1101/2021.05.24.445527 ◽

2021 ◽

Author(s):

Brogan A Amos ◽

Ary A Hoffmann ◽

Kyran M Staunton ◽

Meng-Jia Lau ◽

Thomas R Burkot ◽

...

Keyword(s):

Aedes Aegypti ◽

Field Experiments ◽

Human Subjects ◽

Strong Attraction ◽

Host Seeking ◽

Specific Trait ◽

Female Specific ◽

Swarming Behavior ◽

Male Mosquito ◽

Male Mosquitoes

Female Aedes aegypti mosquitoes integrate multiple sensory cues to locate human hosts for blood meals. While male mosquitoes do not blood feed, male Ae. aegypti swarm around and land on humans in nature. Basrur et al. (2020) generated male Aedes aegypti lacking the fruitless gene and discovered that they gained strong attraction to humans, similar to female mosquitoes. The authors assume that host-seeking is a female-specific trait, which they confirmed through experiments. However, all experiments were performed under confined laboratory conditions which appear to inhibit swarming behavior. We used semi-field experiments to demonstrate robust attraction of male Ae. aegypti to humans. Human-baited traps captured up to 25% of released males within 15 min, whereas control traps without humans as bait failed to capture males. Rapid attraction to humans was further demonstrated through videography. Males swarmed around and landed on human subjects, with no activity recorded in paired unbaited controls. The absence of female Ae. aegypti in these experiments rules out a hypothesis by Basrur et al. (2020) that males are attracted not to the human, but to host-seeking females near humans. Finally, we confirm the lack of male attraction to humans in small laboratory cages, even when using recently field-collected males. Our direct observations of male mosquito attraction to humans refute a key assumption of Basrur et al. (2020) and raise questions around conditions under which fruitless prevents male host-seeking. Male mosquito attraction to humans is likely to be important for mating success in wild populations and its basis should be further explored.

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Faculty Opinions recommendation of Suppression of a Field Population of Aedes aegypti in Brazil by Sustained Release of Transgenic Male Mosquitoes.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.725610371.793512910 ◽

2016 ◽

Author(s):

Lyle Petersen

Keyword(s):

Aedes Aegypti ◽

Sustained Release ◽

Field Population ◽

Male Mosquitoes ◽

Transgenic Male

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Orientation of the Males of Aedes aegypti (L.) (Diptera: Culicidae) to Sound

The Canadian Entomologist ◽

10.4039/ent94613-6 ◽

1962 ◽

Vol 94 (6) ◽

pp. 613-626 ◽

Cited By ~ 21

Author(s):

G. Wishart ◽

G. R. van Sickle ◽

D. F. Riordan

Keyword(s):

Aedes Aegypti ◽

Sound Source ◽

Second Harmonic ◽

Small Distance ◽

Anopheles Subpictus ◽

Electrophysiological Evidence ◽

The Relationship ◽

Male Mosquitoes ◽

Electrophysiological Methods ◽

Phase Differences

Many authors noted the attraction of the males of several species of mosquitoes to sound (references summarized by Roth, 1948). The frequencies of sound to which the males respond were investigated by Roth (1948) and the frequencies and intensities by Wishart and Riordan (1959). Tischner (1953) applied electrophysiological methods to the reception of sound in the male of Anopheles subpictus Grassi and advanced a theory to explain the ability of the male of this species to orient itself toward the sound source. In his theory he dismissed the use of phase differences between the two receptors because of the relatively small distance between the two antennae and concluded that each is capable of functioning alone by detecting the relationship bemeen the fundamental and the second harmonic in the microplionics produced by the Johnston's organ. He did not demonstrate this by behaviour experiments nor, do we believe, did he produce sufficient electrophysiological evidence. The present paper is a further examination of this subject in the mosquito Aedes aegypti (L.), in an attempt to reconcile the data from electrophysiological experiments with those of behaviour in an explanation of the orientation of male mosquitoes towards sound.

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A functional requirement for sex-determination M/m locus region lncRNA genes in Aedes aegypti female larvae

Scientific Reports ◽

10.1038/s41598-021-90194-7 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Keshava Mysore ◽

Limb K. Hapairai ◽

Ping Li ◽

Joseph B. Roethele ◽

Longhua Sun ◽

...

Keyword(s):

Aedes Aegypti ◽

Sex Determination ◽

Population Control ◽

Control Strategies ◽

Adult Males ◽

Non Coding Rna ◽

Female Specific ◽

Interfering Rna ◽

Long Non Coding Rna ◽

Male Mosquitoes

AbstractAlthough many putative long non-coding RNA (lncRNA) genes have been identified in insect genomes, few of these genes have been functionally validated. A screen for female-specific larvicides that facilitate Aedes aegypti male sex separation uncovered multiple interfering RNAs with target sites in lncRNA genes located in the M/m locus region, including loci within or tightly linked to the sex determination locus. Larval consumption of a Saccharomyces cerevisiae (yeast) strain engineered to express interfering RNA corresponding to lncRNA transcripts resulted in significant female death, yet had no impact on male survival or fitness. Incorporation of the yeast larvicides into mass culturing protocols facilitated scaled production and separation of fit adult males, indicating that yeast larvicides could benefit mosquito population control strategies that rely on mass releases of male mosquitoes. These studies functionally verified a female-specific developmental requirement for M/m locus region lncRNA genes, suggesting that sexually antagonistic lncRNA genes found within this highly repetitive pericentromeric DNA sequence may be contributing to the evolution of A. aegypti sex chromosomes.

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Surveillance of Zika virus in field-caught Aedes aegypti and Aedes albopictus suggests important role of male mosquitoes in viral populations maintenance in Medellín, Colombia

Infection Genetics and Evolution ◽

10.1016/j.meegid.2020.104434 ◽

2020 ◽

Vol 85 ◽

pp. 104434

Author(s):

Arley Calle-Tobón ◽

Juliana Pérez-Pérez ◽

Raul Rojo ◽

Winston Rojas-Montoya ◽

Omar Triana-Chavez ◽

...

Keyword(s):

Aedes Aegypti ◽

Aedes Albopictus ◽

Zika Virus ◽

Male Mosquitoes

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Courtship duet between the female and the male Aedes aegypti queenslandensis (Theobald) (Diptera: Culicidae) under laboratory conditions

Annals of Tropical Research ◽

10.32945/atr4022.2018 ◽

2018 ◽

pp. 15-34 ◽

Cited By ~ 1

Author(s):

Elaisa Mae Jamora ◽

Zaira Isabelle Gines ◽

Claude Ceniza ◽

Rommel Bacabac ◽

Frances Edillo

Keyword(s):

Aedes Aegypti ◽

Pressure Gradient ◽

Fundamental Frequency ◽

Second Generation ◽

Mosquito Control ◽

Upright Position ◽

Wing Beat ◽

Male And Female ◽

Laboratory Conditions ◽

Male Mosquitoes

This study aimed to determine the wing beat frequencies and spherical spreading between the female and the male Aedes aegypti queenslandensis during courtship under laboratory conditions. The field-collected larvae and pupae were reared into adult mosquitoes and were morphologically identified. Male and female individuals were coupled. Second generation of live adult mosquitoes were tethered to a stainless wire in their upright position and flight tones produced by their wings were recorded using pressure-gradient microphones. Results showed that the fundamental wing beat frequencies of male mosquitoes (607-1,037Hz) were higher than those of the female (487-660Hz). The different distances between male and female mosquitoes did not influence their wing beat frequencies (p>0.05). Wing beat frequencies of male mosquitoes differed significantly when paired with the female, in all distances between them (p<0.05), whereas those of females, did not differ (p>0.05). Thus, the male Ae. aegypti queenslandensis adjusted and converged with the female’s flight tone. Convergence was restricted to the fundamental frequency for all distances except at the 19-cm distance between them, where convergence happened in the harmonics. Analysis on the spherical spreading on their wing beat frequencies did not differ significantly (p>0.05) in six locations of the microphones relative to the mosquitoes, thus, mosquitoes’ flight tone moved in a spherical manner and that courtship could happen in different directions. Results are relevant for mosquito control by developing an acoustical device to disrupt their courtship.

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