The cercal organ may provide singing tettigoniids a backup sensory system for the detection of eavesdropping bats.
Conspicuous signals, such as the calling songs of tettigoniids, are intended to attract mates but may also unintentionally attract predators. Among them bats that listen to prey-generated sounds constitute a predation pressure for many acoustically communicating insects as well as frogs. As an adapt...
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Public Library of Science (PLoS)
2010-09-01
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| Series: | PLoS ONE |
| Online Access: | https://journals.plos.org/plosone/article/file?id=10.1371/journal.pone.0012698&type=printable |
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| author | Manfred Hartbauer Elisabeth Ofner Viktoria Grossauer Björn M Siemers |
| author_facet | Manfred Hartbauer Elisabeth Ofner Viktoria Grossauer Björn M Siemers |
| author_sort | Manfred Hartbauer |
| collection | DOAJ |
| description | Conspicuous signals, such as the calling songs of tettigoniids, are intended to attract mates but may also unintentionally attract predators. Among them bats that listen to prey-generated sounds constitute a predation pressure for many acoustically communicating insects as well as frogs. As an adaptation to protect against bat predation many insect species evolved auditory sensitivity to bat-emitted echolocation signals. Recently, the European mouse-eared bat species Myotis myotis and M. blythii oxygnathus were found to eavesdrop on calling songs of the tettigoniid Tettigonia cantans. These gleaning bats emit rather faint echolocation signals when approaching prey and singing insects may have difficulty detecting acoustic predator-related signals. The aim of this study was to determine (1) if loud self-generated sound produced by European tettigoniids impairs the detection of pulsed ultrasound and (2) if wind-sensors on the cercal organ function as a sensory backup system for bat detection in tettigoniids. We addressed these questions by combining a behavioral approach to study the response of two European tettigoniid species to pulsed ultrasound, together with an electrophysiological approach to record the activity of wind-sensitive interneurons during real attacks of the European mouse-eared bat species Myotis myotis. Results showed that singing T. cantans males did not respond to sequences of ultrasound pulses, whereas singing T. viridissima did respond with predominantly brief song pauses when ultrasound pulses fell into silent intervals or were coincident with the production of soft hemi-syllables. This result, however, strongly depended on ambient temperature with a lower probability for song interruption observable at 21°C compared to 28°C. Using extracellular recordings, dorsal giant interneurons of tettigoniids were shown to fire regular bursts in response to attacking bats. Between the first response of wind-sensitive interneurons and contact, a mean time lag of 860 ms was found. This time interval corresponds to a bat-to-prey distance of ca. 72 cm. This result demonstrates the efficiency of the cercal system of tettigoniids in detecting attacking bats and suggests this sensory system to be particularly valuable for singing insects that are targeted by eavesdropping bats. |
| format | Article |
| id | doaj-art-e5d178bcc0ff4044ae3dfca2eee87d14 |
| institution | OA Journals |
| issn | 1932-6203 |
| language | English |
| publishDate | 2010-09-01 |
| publisher | Public Library of Science (PLoS) |
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| series | PLoS ONE |
| spelling | doaj-art-e5d178bcc0ff4044ae3dfca2eee87d142025-08-20T02:01:58ZengPublic Library of Science (PLoS)PLoS ONE1932-62032010-09-0159e1269810.1371/journal.pone.0012698The cercal organ may provide singing tettigoniids a backup sensory system for the detection of eavesdropping bats.Manfred HartbauerElisabeth OfnerViktoria GrossauerBjörn M SiemersConspicuous signals, such as the calling songs of tettigoniids, are intended to attract mates but may also unintentionally attract predators. Among them bats that listen to prey-generated sounds constitute a predation pressure for many acoustically communicating insects as well as frogs. As an adaptation to protect against bat predation many insect species evolved auditory sensitivity to bat-emitted echolocation signals. Recently, the European mouse-eared bat species Myotis myotis and M. blythii oxygnathus were found to eavesdrop on calling songs of the tettigoniid Tettigonia cantans. These gleaning bats emit rather faint echolocation signals when approaching prey and singing insects may have difficulty detecting acoustic predator-related signals. The aim of this study was to determine (1) if loud self-generated sound produced by European tettigoniids impairs the detection of pulsed ultrasound and (2) if wind-sensors on the cercal organ function as a sensory backup system for bat detection in tettigoniids. We addressed these questions by combining a behavioral approach to study the response of two European tettigoniid species to pulsed ultrasound, together with an electrophysiological approach to record the activity of wind-sensitive interneurons during real attacks of the European mouse-eared bat species Myotis myotis. Results showed that singing T. cantans males did not respond to sequences of ultrasound pulses, whereas singing T. viridissima did respond with predominantly brief song pauses when ultrasound pulses fell into silent intervals or were coincident with the production of soft hemi-syllables. This result, however, strongly depended on ambient temperature with a lower probability for song interruption observable at 21°C compared to 28°C. Using extracellular recordings, dorsal giant interneurons of tettigoniids were shown to fire regular bursts in response to attacking bats. Between the first response of wind-sensitive interneurons and contact, a mean time lag of 860 ms was found. This time interval corresponds to a bat-to-prey distance of ca. 72 cm. This result demonstrates the efficiency of the cercal system of tettigoniids in detecting attacking bats and suggests this sensory system to be particularly valuable for singing insects that are targeted by eavesdropping bats.https://journals.plos.org/plosone/article/file?id=10.1371/journal.pone.0012698&type=printable |
| spellingShingle | Manfred Hartbauer Elisabeth Ofner Viktoria Grossauer Björn M Siemers The cercal organ may provide singing tettigoniids a backup sensory system for the detection of eavesdropping bats. PLoS ONE |
| title | The cercal organ may provide singing tettigoniids a backup sensory system for the detection of eavesdropping bats. |
| title_full | The cercal organ may provide singing tettigoniids a backup sensory system for the detection of eavesdropping bats. |
| title_fullStr | The cercal organ may provide singing tettigoniids a backup sensory system for the detection of eavesdropping bats. |
| title_full_unstemmed | The cercal organ may provide singing tettigoniids a backup sensory system for the detection of eavesdropping bats. |
| title_short | The cercal organ may provide singing tettigoniids a backup sensory system for the detection of eavesdropping bats. |
| title_sort | cercal organ may provide singing tettigoniids a backup sensory system for the detection of eavesdropping bats |
| url | https://journals.plos.org/plosone/article/file?id=10.1371/journal.pone.0012698&type=printable |
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