Dynamics of the echolocation beam during prey pursuit in aerial hawking bats

Autor:	Mads Nedergaard Olsen, Lasse Hjort Jakobsen, Annemarie Surlykke
Rok vydání:	2015
Předmět:	Multidisciplinary biology Acoustics Human echolocation Biological Sciences biology.organism_classification Predation Evolutionary arms race Species Specificity Chiroptera Echolocation Predatory Behavior Rhynchonycteris naso Saccopteryx leptura Echolocation jamming Saccopteryx Animals Saccopteryx bilineata
Zdroj:	Jakobsen, L, Olsen, M N & Surlykke, A 2015, ' Dynamics of the echolocation beam during prey pursuit in aerial hawking bats ', Proceedings of the National Academy of Sciences of the United States of America, vol. 112, no. 26, pp. 8118-23 . https://doi.org/10.1073/pnas.1419943112
ISSN:	1091-6490 0027-8424
DOI:	10.1073/pnas.1419943112
Popis:	In the evolutionary arms race between prey and predator, measures and countermeasures continuously evolve to increase survival on both sides. Bats and moths are prime examples. When exposed to intense ultrasound, eared moths perform dramatic escape behaviors. Vespertilionid and rhinolophid bats broaden their echolocation beam in the final stage of pursuit, presumably as a countermeasure to keep evading moths within their "acoustic field of view." In this study, we investigated if dynamic beam broadening is a general property of echolocation when catching moving prey. We recorded three species of emballonurid bats, Saccopteryx bilineata, Saccopteryx leptura, and Rhynchonycteris naso, catching airborne insects in the field. The study shows that S. bilineata and S. leptura maintain a constant beam shape during the entire prey pursuit, whereas R. naso broadens the beam by lowering the peak call frequency from 100 kHz during search and approach to 67 kHz in the buzz. Surprisingly, both Saccopteryx bats emit calls with very high energy throughout the pursuit, up to 60 times more than R. naso and Myotis daubentonii (a similar sized vespertilionid), providing them with as much, or more, peripheral "vision" than the vespertilionids, but ensonifying objects far ahead suggesting more clutter. Thus, beam broadening is not a fundamental property of the echolocation system. However, based on the results, we hypothesize that increased peripheral detection is crucial to all aerial hawking bats in the final stages of prey pursuit and speculate that beam broadening is a feature characterizing more advanced echolocation.
Databáze:	OpenAIRE
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