Wing stridulation in a Jurassic katydid (Insecta, Orthoptera) produced low-pitched musical calls to attract females

Behaviors are challenging to reconstruct for extinct species, particularly the nature and origins of acoustic communication. Here we unravel the song of Archaboilus musicus Gu, Engel and Ren sp. nov., a 165 million year old stridulating katydid. From the exceptionally preserved morphology of its str...

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Veröffentlicht in:	Proceedings of the National Academy of Sciences - PNAS 2012-03, Vol.109 (10), p.3868-3873
Hauptverfasser:	Gu, Jun-Jie, Montealegre-Z, Fernando, Robert, Daniel, Engel, Michael S, Qiao, Ge-Xia, Ren, Dong
Format:	Artikel
Sprache:	eng
Schlagworte:	Acoustics amphibians Animal Communication Animal sound production Animals Behavior, Animal Biological Evolution Biological Sciences Biological taxonomies Biomechanical Phenomena Broadband transmission conifers Ecology Evolution extinct species Extinction Female females ferns and fern allies forests Fossils Insect communication Insecta insectivores Insects Male mammals Orthoptera Orthoptera - anatomy & histology Orthoptera - physiology Phylogenetics Phylogeny reptiles Sexual Behavior, Animal Stridulation Tettigoniidae Trees wings Wings, Animal - anatomy & histology
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container_end_page	3873
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container_title	Proceedings of the National Academy of Sciences - PNAS
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creator	Gu, Jun-Jie Montealegre-Z, Fernando Robert, Daniel Engel, Michael S Qiao, Ge-Xia Ren, Dong
description	Behaviors are challenging to reconstruct for extinct species, particularly the nature and origins of acoustic communication. Here we unravel the song of Archaboilus musicus Gu, Engel and Ren sp. nov., a 165 million year old stridulating katydid. From the exceptionally preserved morphology of its stridulatory apparatus in the forewings and phylogenetic comparison with extant species, we reveal that A. musicus radiated pure-tone (musical) songs using a resonant mechanism tuned at a frequency of 6.4 kHz. Contrary to previous scenarios, musical songs were an early innovation, preceding the broad-bandwidth songs of extant katydids. Providing an accurate insight into paleoacoustic ecology, the low-frequency musical song of A. musicus was well-adapted to communication in the lightly cluttered environment of the mid-Jurassic forest produced by coniferous trees and giant ferns, suggesting that reptilian, amphibian, and mammalian insectivores could have also heard A. musicus' song.
doi_str_mv	10.1073/pnas.1118372109
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Here we unravel the song of Archaboilus musicus Gu, Engel and Ren sp. nov., a 165 million year old stridulating katydid. From the exceptionally preserved morphology of its stridulatory apparatus in the forewings and phylogenetic comparison with extant species, we reveal that A. musicus radiated pure-tone (musical) songs using a resonant mechanism tuned at a frequency of 6.4 kHz. Contrary to previous scenarios, musical songs were an early innovation, preceding the broad-bandwidth songs of extant katydids. 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Here we unravel the song of Archaboilus musicus Gu, Engel and Ren sp. nov., a 165 million year old stridulating katydid. From the exceptionally preserved morphology of its stridulatory apparatus in the forewings and phylogenetic comparison with extant species, we reveal that A. musicus radiated pure-tone (musical) songs using a resonant mechanism tuned at a frequency of 6.4 kHz. Contrary to previous scenarios, musical songs were an early innovation, preceding the broad-bandwidth songs of extant katydids. 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Here we unravel the song of Archaboilus musicus Gu, Engel and Ren sp. nov., a 165 million year old stridulating katydid. From the exceptionally preserved morphology of its stridulatory apparatus in the forewings and phylogenetic comparison with extant species, we reveal that A. musicus radiated pure-tone (musical) songs using a resonant mechanism tuned at a frequency of 6.4 kHz. Contrary to previous scenarios, musical songs were an early innovation, preceding the broad-bandwidth songs of extant katydids. Providing an accurate insight into paleoacoustic ecology, the low-frequency musical song of A. musicus was well-adapted to communication in the lightly cluttered environment of the mid-Jurassic forest produced by coniferous trees and giant ferns, suggesting that reptilian, amphibian, and mammalian insectivores could have also heard A. musicus' song.</abstract><cop>United States</cop><pub>National Academy of Sciences</pub><pmid>22315416</pmid><doi>10.1073/pnas.1118372109</doi><tpages>6</tpages><oa>free_for_read</oa></addata></record>
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subjects	Acoustics amphibians Animal Communication Animal sound production Animals Behavior, Animal Biological Evolution Biological Sciences Biological taxonomies Biomechanical Phenomena Broadband transmission conifers Ecology Evolution extinct species Extinction Female females ferns and fern allies forests Fossils Insect communication Insecta insectivores Insects Male mammals Orthoptera Orthoptera - anatomy & histology Orthoptera - physiology Phylogenetics Phylogeny reptiles Sexual Behavior, Animal Stridulation Tettigoniidae Trees wings Wings, Animal - anatomy & histology
title	Wing stridulation in a Jurassic katydid (Insecta, Orthoptera) produced low-pitched musical calls to attract females
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