An Optical Tachometer for Measurement of the Wing-Beat Frequency of Free-Flying Insects

Stationary, tethered Rhodnius prolixus males were stimulated to beat their wings for periods averaging 2–3 h. Wing-beat frequency averaged 70 Hz and was quite variable. Wing-beat amplitude declined as the insects approached exhaustion, but no consistent change was observed in beat frequency. Male R. prolixus assumes a characteristic flight posture and exhibits the typical reflexes and anatomical adaptations observed in other flying insects. The long periods of wing beating under laboratory conditions suggest they may be capable of flights of considerable duration in the wild.

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Changes in the wing-beat frequency of bees and wasps depending on environmental conditions: a study with optical sensors

Apidologie ◽

10.1007/s13592-021-00860-y ◽

2021 ◽

Author(s):

Antonio R. S. Parmezan ◽

Vinicius M. A. Souza ◽

Indrė Žliobaitė ◽

Gustavo E. A. P. A. Batista

Keyword(s):

Optical Sensors ◽

Environmental Conditions ◽

Beat Frequency ◽

Wing Beat ◽

Wing Beat Frequency

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Evolution of the wave: aerodynamic and aposematic functions of butterfly wing motion

Proceedings of The Royal Society B Biological Sciences ◽

10.1098/rspb.2006.0261 ◽

2007 ◽

Vol 274 (1612) ◽

pp. 913-917 ◽

Cited By ~ 16

Author(s):

Robert B Srygley

Keyword(s):

Beat Frequency ◽

Warning Signal ◽

Colour Pattern ◽

Butterfly Species ◽

Wing Beat ◽

Butterfly Wing ◽

Motion Cues ◽

Wing Beat Frequency ◽

Wing Motion ◽

Heliconius Cydno

Many unpalatable butterfly species use coloration to signal their distastefulness to birds, but motion cues may also be crucial to ward off predatory attacks. In previous research, captive passion-vine butterflies Heliconius mimetic in colour pattern were also mimetic in motion. Here, I investigate whether wing motion changes with the flight demands of different behaviours. If birds select for wing motion as a warning signal, aposematic butterflies should maintain wing motion independently of behavioural context. Members of one mimicry group ( Heliconius cydno and Heliconius sapho ) beat their wings more slowly and their wing strokes were more asymmetric than their sister-species ( Heliconius melpomene and Heliconius erato , respectively), which were members of another mimicry group having a quick and steady wing motion. Within mimicry groups, wing beat frequency declined as its role in generating lift also declined in different behavioural contexts. In contrast, asymmetry of the stroke was not associated with wing beat frequency or behavioural context—strong indication that birds process and store the Fourier motion energy of butterfly wings. Although direct evidence that birds respond to subtle differences in butterfly wing motion is lacking, birds appear to generalize a motion pattern as much as they encounter members of a mimicry group in different behavioural contexts.

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Photography of Trichoptera in flight

Zoosymposia ◽

10.11646/zoosymposia.5.1.23 ◽

2011 ◽

Vol 5 (1) ◽

pp. 297-318

Author(s):

W. Geoff McIlleron ◽

Ferdinand C. De Moor

Keyword(s):

South Africa ◽

Beat Frequency ◽

Behavioural Ecology ◽

Wing Beat ◽

Paper Briefly ◽

High Quality ◽

Flying Insects ◽

Single Lens ◽

A Site ◽

Selection Of

Whereas photography of insects at rest is used for a wide variety of purposes, including illustrating publications and aiding their identification, photography of insects in flight is more challenging and little practiced. This paper describes a system that uses a digital single-lens-reflex camera combined with commercial-level flashes (with electronic power settings to give very short exposures) and simple electronics in a rig that can be used to capture high quality images of night-flying insects. With such a rig, hundreds of images of free flying Trichoptera have been obtained. Preliminary observations of night-flying Athripsodes bergensis (Leptoceridae) indicate that this system could be used for studying the mechanics of flight, wing beat frequency, aerodynamics, flying speed, aerial activity, and behavioural ecology of night-flying insects in their natural environment. This paper briefly describes the technique as applied at a site on the banks of the Groot River in the southern Cape region of South Africa between October 2008 and April 2009 and presents a selection of the images obtained.

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