Movement and sound generation by the toadfish swimbladder
Although sound-producing (sonic) muscles attached to fish swimbladders are the fastest known vertebrate muscles, the functional requirement for such extreme speed has never been addressed. We measured movement of the swimbladder caused by sonic muscle stimulation in the oyster toadfish Opsanus tau a...
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Veröffentlicht in: | Journal of Comparative Physiology 2001-06, Vol.187 (5), p.371-379 |
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creator | Fine, M L Malloy, K L King, C B Mitchell, S L Cameron, T M |
description | Although sound-producing (sonic) muscles attached to fish swimbladders are the fastest known vertebrate muscles, the functional requirement for such extreme speed has never been addressed. We measured movement of the swimbladder caused by sonic muscle stimulation in the oyster toadfish Opsanus tau and related it to major features of the sound waveform. The movement pattern is complex and produces sound inefficiently because the sides and bottom of the bladder move in opposite in and out directions, and both movement and sound decay rapidly. Sound amplitude is related to speed of swimbladder movement, and slow movements do not produce perceptible sound. Peak sound amplitude overlaps fundamental frequencies of the male's mating call because of muscle mechanics and not the natural frequency of the bladder. These findings suggest that rapid muscle speed evolved to generate sound from an inefficient highly damped system. |
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We measured movement of the swimbladder caused by sonic muscle stimulation in the oyster toadfish Opsanus tau and related it to major features of the sound waveform. The movement pattern is complex and produces sound inefficiently because the sides and bottom of the bladder move in opposite in and out directions, and both movement and sound decay rapidly. Sound amplitude is related to speed of swimbladder movement, and slow movements do not produce perceptible sound. Peak sound amplitude overlaps fundamental frequencies of the male's mating call because of muscle mechanics and not the natural frequency of the bladder. These findings suggest that rapid muscle speed evolved to generate sound from an inefficient highly damped system.</description><identifier>ISSN: 0340-7594</identifier><identifier>EISSN: 1432-1351</identifier><identifier>DOI: 10.1007/s003590100209</identifier><identifier>PMID: 11529481</identifier><language>eng</language><publisher>Germany: Springer Nature B.V</publisher><subject>Action Potentials - physiology ; Air Sacs - physiology ; Animals ; Batrachoidiformes - physiology ; Bladder ; Decay rate ; Electric Stimulation ; Electromyography ; Marine ; Mating ; Movement - physiology ; Muscle Fibers, Fast-Twitch - physiology ; Muscles ; Muscles - cytology ; Muscles - physiology ; Opsanus tau ; Sound ; Sound generation ; Urinary bladder ; Vocalization, Animal - physiology</subject><ispartof>Journal of Comparative Physiology, 2001-06, Vol.187 (5), p.371-379</ispartof><rights>Journal of Comparative Physiology A is a copyright of Springer, (2001). 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These findings suggest that rapid muscle speed evolved to generate sound from an inefficient highly damped system.</description><subject>Action Potentials - physiology</subject><subject>Air Sacs - physiology</subject><subject>Animals</subject><subject>Batrachoidiformes - physiology</subject><subject>Bladder</subject><subject>Decay rate</subject><subject>Electric Stimulation</subject><subject>Electromyography</subject><subject>Marine</subject><subject>Mating</subject><subject>Movement - physiology</subject><subject>Muscle Fibers, Fast-Twitch - physiology</subject><subject>Muscles</subject><subject>Muscles - cytology</subject><subject>Muscles - physiology</subject><subject>Opsanus tau</subject><subject>Sound</subject><subject>Sound generation</subject><subject>Urinary bladder</subject><subject>Vocalization, Animal - physiology</subject><issn>0340-7594</issn><issn>1432-1351</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2001</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><sourceid>ABUWG</sourceid><sourceid>AFKRA</sourceid><sourceid>AZQEC</sourceid><sourceid>BENPR</sourceid><sourceid>CCPQU</sourceid><sourceid>DWQXO</sourceid><sourceid>GNUQQ</sourceid><recordid>eNpd0M9LwzAUB_AgipvTo1cpCN6qefnRNUcZ_oKJFz2HtHlxHW0zk1bZf29kA9HL-wEfHo8vIedAr4HS-U2klEtF08yoOiBTEJzlwCUckinlguZzqcSEnMS4pskAg2MyAZBMiRKmRD37T-ywHzLT2yz6MdV37DGYofF9Vm2zYYXZ4I11TVxl8avpqtZYi-GUHDnTRjzb9xl5u797XTzmy5eHp8XtMq85zIe84sikQSVNBUahKVAyrKipBTioC8eMkCAlVRZLZ7hkrrAqbYwK42yBfEaudnc3wX-MGAfdNbHGtjU9-jFqKKHkVMoEL__BtR9Dn37ToEpQXJSSJ5XvVB18jAGd3oSmM2GrgeqfRPWfRJO_2F8dqw7tr95HyL8B8jpvtA</recordid><startdate>20010601</startdate><enddate>20010601</enddate><creator>Fine, M L</creator><creator>Malloy, K L</creator><creator>King, C B</creator><creator>Mitchell, S L</creator><creator>Cameron, T M</creator><general>Springer Nature B.V</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>3V.</scope><scope>7QG</scope><scope>7QR</scope><scope>7SS</scope><scope>7TK</scope><scope>7U7</scope><scope>7X7</scope><scope>7XB</scope><scope>88A</scope><scope>88E</scope><scope>8AO</scope><scope>8FD</scope><scope>8FE</scope><scope>8FH</scope><scope>8FI</scope><scope>8FJ</scope><scope>8FK</scope><scope>ABUWG</scope><scope>AFKRA</scope><scope>AZQEC</scope><scope>BBNVY</scope><scope>BENPR</scope><scope>BHPHI</scope><scope>C1K</scope><scope>CCPQU</scope><scope>DWQXO</scope><scope>FR3</scope><scope>FYUFA</scope><scope>GHDGH</scope><scope>GNUQQ</scope><scope>HCIFZ</scope><scope>K9.</scope><scope>LK8</scope><scope>M0S</scope><scope>M1P</scope><scope>M7P</scope><scope>P64</scope><scope>PQEST</scope><scope>PQQKQ</scope><scope>PQUKI</scope><scope>PRINS</scope><scope>RC3</scope><scope>F1W</scope><scope>H95</scope><scope>L.G</scope></search><sort><creationdate>20010601</creationdate><title>Movement and sound generation by the toadfish swimbladder</title><author>Fine, M L ; Malloy, K L ; King, C B ; Mitchell, S L ; Cameron, T M</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c317t-b3e25ae95ab1a9ea6e52eb0ac41f1c6f2a4515509de8fa352f6d909d204afd6e3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2001</creationdate><topic>Action Potentials - 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We measured movement of the swimbladder caused by sonic muscle stimulation in the oyster toadfish Opsanus tau and related it to major features of the sound waveform. The movement pattern is complex and produces sound inefficiently because the sides and bottom of the bladder move in opposite in and out directions, and both movement and sound decay rapidly. Sound amplitude is related to speed of swimbladder movement, and slow movements do not produce perceptible sound. Peak sound amplitude overlaps fundamental frequencies of the male's mating call because of muscle mechanics and not the natural frequency of the bladder. These findings suggest that rapid muscle speed evolved to generate sound from an inefficient highly damped system.</abstract><cop>Germany</cop><pub>Springer Nature B.V</pub><pmid>11529481</pmid><doi>10.1007/s003590100209</doi><tpages>9</tpages></addata></record> |
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subjects | Action Potentials - physiology Air Sacs - physiology Animals Batrachoidiformes - physiology Bladder Decay rate Electric Stimulation Electromyography Marine Mating Movement - physiology Muscle Fibers, Fast-Twitch - physiology Muscles Muscles - cytology Muscles - physiology Opsanus tau Sound Sound generation Urinary bladder Vocalization, Animal - physiology |
title | Movement and sound generation by the toadfish swimbladder |
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