Publication details

Wing buzzing as a mechanism for generating vibrational signals in psyllids (Hemiptera: Psylloidea)

Authors

POLAJNAR Jernej KVINIKADZE Elizaveta HARLEY Adam W MALENOVSKÝ Igor

Year of publication 2024
Type Article in Periodical
Magazine / Source Insect Science
MU Faculty or unit

Faculty of Science

Citation
Web https://doi.org/10.1111/1744-7917.13322
Doi http://dx.doi.org/10.1111/1744-7917.13322
Keywords Cacopsylla pyrisuga; high-speed video recording; jumping plant lice; sexual communication; substrate-borne vibrational signals; vibrational communication
Description Psyllids, or jumping plant lice (Hemiptera: Sternorrhyncha: Psylloidea), are a group of small phytophagous insects that include some important pests of crops worldwide. Sexual communication of psyllids occurs via vibrations transmitted through host plants, which play an important role in mate recognition and localization. The signals are species-specific and can be used to aid in psyllid taxonomy and pest control. Several hypotheses have been proposed for the mechanism that generates these vibrations, of which stridulation, that is, friction between parts of the forewing and thorax, has received the most attention. We have investigated vibrational communication in the European pear psyllid species Cacopsylla pyrisuga (Foerster, 1848) using laser vibrometry and high-speed video recording, to directly observe the movements associated with signal production. We describe for the first time the basic characteristics of the signals and signal emission of this species. Based on observations and analysis of the video recordings using a point-tracking algorithm, and their comparison with laser vibrometer recordings, we argue that males of C. pyrisuga produce the vibrations primarily by wing buzzing, that is, tremulation that does not involve friction between the wings and thorax. Comparing observed signal properties with previously published data, we predict that wing buzzing is the main mechanism of signal production in all vibrating psyllids.

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