Evolution and mechanics of long jaws in butterflyfishes (Family Chaetodontidae)
Identifieur interne : 008A10 ( Main/Exploration ); précédent : 008A09; suivant : 008A11Evolution and mechanics of long jaws in butterflyfishes (Family Chaetodontidae)
Auteurs : Lara A. Ferry-Graham [États-Unis] ; Peter C. Wainwright [États-Unis] ; C. Darrin Hulsey [États-Unis] ; David R. Bellwood [Australie]Source :
- Journal of Morphology [ 0362-2525 ] ; 2001-05-01.
English descriptors
- KwdEn :
- Acuminatus, Adductor, Adductor arcus palatini, Adductor arcus palatini muscle, Amphichaetodon, Angular excursions, Anterior, Anterior direction, Anterior margin, Anterior motion, Anterior protrusion, Anterior rotation, Anteriorly, Aquarium, Arcus, Avissimus, Bers, Biol, Blum, Bootstrap, Bootstrap support, Brine shrimp, Butterflyfish, Chaetodon, Chaetodon miliaris, Chaetodon xanthurus, Chaetodontidae, Chaetodontops, Character matrix, Character state, Character states, Chel, Chelmon, Chelmon clade, Chelmon rostratus, Chelmonops, Clade, Coradion, Corallochaetodon, Cranial, Cranial anatomy, Cranial elevation, Cranial morphology, Discochaetodon, Dorsal, Dorsal hypohyal, Dorsal margin, Dorsally, Dorsoventrally, Ectopterygoid, Ectopterygoid bones, Endo, Endopterygoid, Epibulus, Epibulus insidiator, Epihyal ceratohyal hyoid, Ethmoid, Ethmopalatoendopterygoid ligament, Falcifer, Family chaetodontidae, Forcipiger, Forcipiger clade, Forcipiger longirostris, Forcipiger species, Functional morphology, Generalized perciform condition, Generic status, Genus, Genus chaetodon, Gonochaetodon, Hemitaurichthys, Heniochus, Heniochus acuminatus, Hyoid, Hyoid apparatus, Hyomandibula, Interopercle, Johnrandallia, Johnrandallia nigrirostris, Kinematic, Kinematic analysis, Lateral, Lateral ethmoid, Lateral processes, Lateral surface, Lauder, Ligament, Linkage models, Long jaws, Longest jaws, Longirostris, Lower jaws, Matrix, Maxilla, Maxilla rotation, Maxillary process, Mechanical diagrams, Medial, Medial surface, Medial view, Metapterygoid, Metapterygoid bones, Mobile suspensorium, Morphology, Motta, Nasal bone, Neurocranium, Nigrirostris, Other species, Other taxa, Palatine, Palatini, Palatoendopterygoid ligament, Parachaetodon, Perciform, Perciformes, Phylogenetic, Phylogeny, Plsd, Posteriorly, Predorsal, Predorsal bones, Premaxilla, Preopercle, Prey item, Prognathodes, Prognathodes falcifer, Protrusion, Quadrate, Rabdophorus, Robust, Rostratus, Scale bars, Shes, Sister taxon, Small amount, Solid lines, Subgenus, Suspensorial, Suspensorial bones, Suspensorial elements, Suspensorium, Symplectic, Taxon, Tetrachaetodon, Tooth rows, Ventral, Ventrally, Vertical vomeropalatine ligament, Video, Vomeropalatine, Vomeropalatine ligament, Westneat, Xanthurus.
- Teeft :
- Acuminatus, Adductor, Adductor arcus palatini, Adductor arcus palatini muscle, Amphichaetodon, Angular excursions, Anterior, Anterior direction, Anterior margin, Anterior motion, Anterior protrusion, Anterior rotation, Anteriorly, Aquarium, Arcus, Avissimus, Bers, Biol, Blum, Bootstrap, Bootstrap support, Brine shrimp, Butterflyfish, Chaetodon, Chaetodon miliaris, Chaetodon xanthurus, Chaetodontidae, Chaetodontops, Character matrix, Character state, Character states, Chel, Chelmon, Chelmon clade, Chelmon rostratus, Chelmonops, Clade, Coradion, Corallochaetodon, Cranial, Cranial anatomy, Cranial elevation, Cranial morphology, Discochaetodon, Dorsal, Dorsal hypohyal, Dorsal margin, Dorsally, Dorsoventrally, Ectopterygoid, Ectopterygoid bones, Endo, Endopterygoid, Epibulus, Epibulus insidiator, Epihyal ceratohyal hyoid, Ethmoid, Ethmopalatoendopterygoid ligament, Falcifer, Family chaetodontidae, Forcipiger, Forcipiger clade, Forcipiger longirostris, Forcipiger species, Functional morphology, Generalized perciform condition, Generic status, Genus, Genus chaetodon, Gonochaetodon, Hemitaurichthys, Heniochus, Heniochus acuminatus, Hyoid, Hyoid apparatus, Hyomandibula, Interopercle, Johnrandallia, Johnrandallia nigrirostris, Kinematic, Kinematic analysis, Lateral, Lateral ethmoid, Lateral processes, Lateral surface, Lauder, Ligament, Linkage models, Long jaws, Longest jaws, Longirostris, Lower jaws, Matrix, Maxilla, Maxilla rotation, Maxillary process, Mechanical diagrams, Medial, Medial surface, Medial view, Metapterygoid, Metapterygoid bones, Mobile suspensorium, Morphology, Motta, Nasal bone, Neurocranium, Nigrirostris, Other species, Other taxa, Palatine, Palatini, Palatoendopterygoid ligament, Parachaetodon, Perciform, Perciformes, Phylogenetic, Phylogeny, Plsd, Posteriorly, Predorsal, Predorsal bones, Premaxilla, Preopercle, Prey item, Prognathodes, Prognathodes falcifer, Protrusion, Quadrate, Rabdophorus, Robust, Rostratus, Scale bars, Shes, Sister taxon, Small amount, Solid lines, Subgenus, Suspensorial, Suspensorial bones, Suspensorial elements, Suspensorium, Symplectic, Taxon, Tetrachaetodon, Tooth rows, Ventral, Ventrally, Vertical vomeropalatine ligament, Video, Vomeropalatine, Vomeropalatine ligament, Westneat, Xanthurus.
Abstract
We analyzed the functional morphology and evolution of the long jaws found in several butterflyfishes. We used a conservative reanalysis of an existing morphological dataset to generate a phylogeny that guided our selection of seven short‐ and long‐jawed taxa in which to investigate the functional anatomy of the head and jaws: Chaetodon xanthurus, Prognathodes falcifer (formerly Chaetodon falcifer), Chelmon rostratus, Heniochus acuminatus, Johnrandallia nigrirostris, Forcipiger flavissimus, and F. longirostris. We used manipulations of fresh, preserved, and cleared and stained specimens to develop mechanical diagrams of how the jaws might be protruded or depressed. Species differed based on the number of joints within the suspensorium. We used high‐speed video analysis of five of the seven species (C. xanthurus, Chel. rostratus, H. acuminatus, F. flavissimus, and F. longirostris) to test our predictions based on the mechanical diagrams: two suspensorial joints should facilitate purely anteriorly directed protrusion of the lower jaw, one joint should allow less anterior protrusion and result in more depression of the lower jaw, and no joints in the suspensorium should constrain the lower jaw to simple ventral rotation around the jaw joint, as seen in generalized perciform fishes. We found that the longest‐jawed species, F. longirostris, was able to protrude its jaws in a predominantly anterior direction and further than any other species. This was achieved with little input from cranial elevation, the principal input for other known lower jaw protruders, and is hypothesized to be facilitated by separate modifications to the sternohyoideus mechanism and to the adductor arcus palatini muscle. In F. longirostris the adductor arcus palatini muscle has fibers oriented anteroposteriorly rather than medial‐laterally, as seen in most other perciforms and in the other butterflyfish studied. These fibers are oriented such that they could rotate the ventral portion of the quadrate anteriorly, thus projecting the lower jaw anteriorly. The intermediate species lack modification of the adductor arcus palatini and do not protrude their jaws as far (in the case of F. flavissimus) or in a purely anterior fashion (in the case of Chel. rostratus). The short‐jawed species both exhibit only ventral rotation of the lower jaw, despite the fact that H. acuminatus is closely related to Forcipiger. J. Morphol. 248:120–143, 2001. © 2001 Wiley‐Liss, Inc.
Url:
DOI: 10.1002/jmor.1024
Affiliations:
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Ferry-Graham</name><affiliation wicri:level="2"><country>États-Unis</country><placeName><region type="state">Californie</region></placeName><wicri:cityArea>Section of Evolution and Ecology, University of California, Davis</wicri:cityArea></affiliation><affiliation wicri:level="1"><country wicri:rule="url">États-Unis</country></affiliation><affiliation wicri:level="2"><country xml:lang="fr">États-Unis</country><placeName><region type="state">Californie</region></placeName><wicri:cityArea>Correspondence address: Section of Evolution and Ecology, University of California, Davis</wicri:cityArea></affiliation></author><author><name sortKey="Wainwright, Peter C" sort="Wainwright, Peter C" uniqKey="Wainwright P" first="Peter C." last="Wainwright">Peter C. Wainwright</name><affiliation wicri:level="2"><country>États-Unis</country><placeName><region type="state">Californie</region></placeName><wicri:cityArea>Section of Evolution and Ecology, University of California, Davis</wicri:cityArea></affiliation></author><author><name sortKey="Hulsey, C Darrin" sort="Hulsey, C Darrin" uniqKey="Hulsey C" first="C. Darrin" last="Hulsey">C. Darrin Hulsey</name><affiliation wicri:level="2"><country>États-Unis</country><placeName><region type="state">Californie</region></placeName><wicri:cityArea>Section of Evolution and Ecology, University of California, Davis</wicri:cityArea></affiliation></author><author><name sortKey="Bellwood, David R" sort="Bellwood, David R" uniqKey="Bellwood D" first="David R." last="Bellwood">David R. Bellwood</name><affiliation wicri:level="1"><country xml:lang="fr">Australie</country><wicri:regionArea>Department of Marine Biology, James Cook University, Townsville, Queensland</wicri:regionArea><wicri:noRegion>Queensland</wicri:noRegion></affiliation></author></analytic><monogr></monogr><series><title level="j" type="main">Journal of Morphology</title><title level="j" type="alt">JOURNAL OF MORPHOLOGY</title><idno type="ISSN">0362-2525</idno><idno type="eISSN">1097-4687</idno><imprint><biblScope unit="vol">248</biblScope><biblScope unit="issue">2</biblScope><biblScope unit="page" from="120">120</biblScope><biblScope unit="page" to="143">143</biblScope><biblScope unit="page-count">24</biblScope><publisher>John Wiley & Sons, Inc.</publisher><pubPlace>New York</pubPlace><date type="published" when="2001-05-01">2001-05-01</date></imprint><idno type="ISSN">0362-2525</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">0362-2525</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Acuminatus</term><term>Adductor</term><term>Adductor arcus palatini</term><term>Adductor arcus palatini muscle</term><term>Amphichaetodon</term><term>Angular excursions</term><term>Anterior</term><term>Anterior direction</term><term>Anterior margin</term><term>Anterior motion</term><term>Anterior protrusion</term><term>Anterior rotation</term><term>Anteriorly</term><term>Aquarium</term><term>Arcus</term><term>Avissimus</term><term>Bers</term><term>Biol</term><term>Blum</term><term>Bootstrap</term><term>Bootstrap support</term><term>Brine shrimp</term><term>Butterflyfish</term><term>Chaetodon</term><term>Chaetodon miliaris</term><term>Chaetodon xanthurus</term><term>Chaetodontidae</term><term>Chaetodontops</term><term>Character matrix</term><term>Character state</term><term>Character states</term><term>Chel</term><term>Chelmon</term><term>Chelmon clade</term><term>Chelmon rostratus</term><term>Chelmonops</term><term>Clade</term><term>Coradion</term><term>Corallochaetodon</term><term>Cranial</term><term>Cranial anatomy</term><term>Cranial elevation</term><term>Cranial morphology</term><term>Discochaetodon</term><term>Dorsal</term><term>Dorsal hypohyal</term><term>Dorsal margin</term><term>Dorsally</term><term>Dorsoventrally</term><term>Ectopterygoid</term><term>Ectopterygoid bones</term><term>Endo</term><term>Endopterygoid</term><term>Epibulus</term><term>Epibulus insidiator</term><term>Epihyal ceratohyal hyoid</term><term>Ethmoid</term><term>Ethmopalatoendopterygoid ligament</term><term>Falcifer</term><term>Family chaetodontidae</term><term>Forcipiger</term><term>Forcipiger clade</term><term>Forcipiger longirostris</term><term>Forcipiger species</term><term>Functional morphology</term><term>Generalized perciform condition</term><term>Generic status</term><term>Genus</term><term>Genus chaetodon</term><term>Gonochaetodon</term><term>Hemitaurichthys</term><term>Heniochus</term><term>Heniochus acuminatus</term><term>Hyoid</term><term>Hyoid apparatus</term><term>Hyomandibula</term><term>Interopercle</term><term>Johnrandallia</term><term>Johnrandallia nigrirostris</term><term>Kinematic</term><term>Kinematic analysis</term><term>Lateral</term><term>Lateral ethmoid</term><term>Lateral processes</term><term>Lateral surface</term><term>Lauder</term><term>Ligament</term><term>Linkage models</term><term>Long jaws</term><term>Longest jaws</term><term>Longirostris</term><term>Lower jaws</term><term>Matrix</term><term>Maxilla</term><term>Maxilla rotation</term><term>Maxillary process</term><term>Mechanical diagrams</term><term>Medial</term><term>Medial surface</term><term>Medial view</term><term>Metapterygoid</term><term>Metapterygoid bones</term><term>Mobile suspensorium</term><term>Morphology</term><term>Motta</term><term>Nasal bone</term><term>Neurocranium</term><term>Nigrirostris</term><term>Other species</term><term>Other taxa</term><term>Palatine</term><term>Palatini</term><term>Palatoendopterygoid ligament</term><term>Parachaetodon</term><term>Perciform</term><term>Perciformes</term><term>Phylogenetic</term><term>Phylogeny</term><term>Plsd</term><term>Posteriorly</term><term>Predorsal</term><term>Predorsal bones</term><term>Premaxilla</term><term>Preopercle</term><term>Prey item</term><term>Prognathodes</term><term>Prognathodes falcifer</term><term>Protrusion</term><term>Quadrate</term><term>Rabdophorus</term><term>Robust</term><term>Rostratus</term><term>Scale bars</term><term>Shes</term><term>Sister taxon</term><term>Small amount</term><term>Solid lines</term><term>Subgenus</term><term>Suspensorial</term><term>Suspensorial bones</term><term>Suspensorial elements</term><term>Suspensorium</term><term>Symplectic</term><term>Taxon</term><term>Tetrachaetodon</term><term>Tooth rows</term><term>Ventral</term><term>Ventrally</term><term>Vertical vomeropalatine ligament</term><term>Video</term><term>Vomeropalatine</term><term>Vomeropalatine ligament</term><term>Westneat</term><term>Xanthurus</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Acuminatus</term><term>Adductor</term><term>Adductor arcus palatini</term><term>Adductor arcus palatini muscle</term><term>Amphichaetodon</term><term>Angular excursions</term><term>Anterior</term><term>Anterior direction</term><term>Anterior margin</term><term>Anterior motion</term><term>Anterior protrusion</term><term>Anterior rotation</term><term>Anteriorly</term><term>Aquarium</term><term>Arcus</term><term>Avissimus</term><term>Bers</term><term>Biol</term><term>Blum</term><term>Bootstrap</term><term>Bootstrap support</term><term>Brine shrimp</term><term>Butterflyfish</term><term>Chaetodon</term><term>Chaetodon miliaris</term><term>Chaetodon xanthurus</term><term>Chaetodontidae</term><term>Chaetodontops</term><term>Character matrix</term><term>Character state</term><term>Character states</term><term>Chel</term><term>Chelmon</term><term>Chelmon clade</term><term>Chelmon rostratus</term><term>Chelmonops</term><term>Clade</term><term>Coradion</term><term>Corallochaetodon</term><term>Cranial</term><term>Cranial anatomy</term><term>Cranial elevation</term><term>Cranial morphology</term><term>Discochaetodon</term><term>Dorsal</term><term>Dorsal hypohyal</term><term>Dorsal margin</term><term>Dorsally</term><term>Dorsoventrally</term><term>Ectopterygoid</term><term>Ectopterygoid bones</term><term>Endo</term><term>Endopterygoid</term><term>Epibulus</term><term>Epibulus insidiator</term><term>Epihyal ceratohyal hyoid</term><term>Ethmoid</term><term>Ethmopalatoendopterygoid ligament</term><term>Falcifer</term><term>Family chaetodontidae</term><term>Forcipiger</term><term>Forcipiger clade</term><term>Forcipiger longirostris</term><term>Forcipiger species</term><term>Functional morphology</term><term>Generalized perciform condition</term><term>Generic status</term><term>Genus</term><term>Genus chaetodon</term><term>Gonochaetodon</term><term>Hemitaurichthys</term><term>Heniochus</term><term>Heniochus acuminatus</term><term>Hyoid</term><term>Hyoid apparatus</term><term>Hyomandibula</term><term>Interopercle</term><term>Johnrandallia</term><term>Johnrandallia nigrirostris</term><term>Kinematic</term><term>Kinematic analysis</term><term>Lateral</term><term>Lateral ethmoid</term><term>Lateral processes</term><term>Lateral surface</term><term>Lauder</term><term>Ligament</term><term>Linkage models</term><term>Long jaws</term><term>Longest jaws</term><term>Longirostris</term><term>Lower jaws</term><term>Matrix</term><term>Maxilla</term><term>Maxilla rotation</term><term>Maxillary process</term><term>Mechanical diagrams</term><term>Medial</term><term>Medial surface</term><term>Medial view</term><term>Metapterygoid</term><term>Metapterygoid bones</term><term>Mobile suspensorium</term><term>Morphology</term><term>Motta</term><term>Nasal bone</term><term>Neurocranium</term><term>Nigrirostris</term><term>Other species</term><term>Other taxa</term><term>Palatine</term><term>Palatini</term><term>Palatoendopterygoid ligament</term><term>Parachaetodon</term><term>Perciform</term><term>Perciformes</term><term>Phylogenetic</term><term>Phylogeny</term><term>Plsd</term><term>Posteriorly</term><term>Predorsal</term><term>Predorsal bones</term><term>Premaxilla</term><term>Preopercle</term><term>Prey item</term><term>Prognathodes</term><term>Prognathodes falcifer</term><term>Protrusion</term><term>Quadrate</term><term>Rabdophorus</term><term>Robust</term><term>Rostratus</term><term>Scale bars</term><term>Shes</term><term>Sister taxon</term><term>Small amount</term><term>Solid lines</term><term>Subgenus</term><term>Suspensorial</term><term>Suspensorial bones</term><term>Suspensorial elements</term><term>Suspensorium</term><term>Symplectic</term><term>Taxon</term><term>Tetrachaetodon</term><term>Tooth rows</term><term>Ventral</term><term>Ventrally</term><term>Vertical vomeropalatine ligament</term><term>Video</term><term>Vomeropalatine</term><term>Vomeropalatine ligament</term><term>Westneat</term><term>Xanthurus</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">We analyzed the functional morphology and evolution of the long jaws found in several butterflyfishes. We used a conservative reanalysis of an existing morphological dataset to generate a phylogeny that guided our selection of seven short‐ and long‐jawed taxa in which to investigate the functional anatomy of the head and jaws: Chaetodon xanthurus, Prognathodes falcifer (formerly Chaetodon falcifer), Chelmon rostratus, Heniochus acuminatus, Johnrandallia nigrirostris, Forcipiger flavissimus, and F. longirostris. We used manipulations of fresh, preserved, and cleared and stained specimens to develop mechanical diagrams of how the jaws might be protruded or depressed. Species differed based on the number of joints within the suspensorium. We used high‐speed video analysis of five of the seven species (C. xanthurus, Chel. rostratus, H. acuminatus, F. flavissimus, and F. longirostris) to test our predictions based on the mechanical diagrams: two suspensorial joints should facilitate purely anteriorly directed protrusion of the lower jaw, one joint should allow less anterior protrusion and result in more depression of the lower jaw, and no joints in the suspensorium should constrain the lower jaw to simple ventral rotation around the jaw joint, as seen in generalized perciform fishes. We found that the longest‐jawed species, F. longirostris, was able to protrude its jaws in a predominantly anterior direction and further than any other species. This was achieved with little input from cranial elevation, the principal input for other known lower jaw protruders, and is hypothesized to be facilitated by separate modifications to the sternohyoideus mechanism and to the adductor arcus palatini muscle. In F. longirostris the adductor arcus palatini muscle has fibers oriented anteroposteriorly rather than medial‐laterally, as seen in most other perciforms and in the other butterflyfish studied. These fibers are oriented such that they could rotate the ventral portion of the quadrate anteriorly, thus projecting the lower jaw anteriorly. The intermediate species lack modification of the adductor arcus palatini and do not protrude their jaws as far (in the case of F. flavissimus) or in a purely anterior fashion (in the case of Chel. rostratus). The short‐jawed species both exhibit only ventral rotation of the lower jaw, despite the fact that H. acuminatus is closely related to Forcipiger. J. Morphol. 248:120–143, 2001. © 2001 Wiley‐Liss, Inc.</div></front></TEI><affiliations><list><country><li>Australie</li><li>États-Unis</li></country><region><li>Californie</li></region></list><tree><country name="États-Unis"><region name="Californie"><name sortKey="Ferry Raham, Lara A" sort="Ferry Raham, Lara A" uniqKey="Ferry Raham L" first="Lara A." last="Ferry-Graham">Lara A. Ferry-Graham</name></region><name sortKey="Ferry Raham, Lara A" sort="Ferry Raham, Lara A" uniqKey="Ferry Raham L" first="Lara A." last="Ferry-Graham">Lara A. Ferry-Graham</name><name sortKey="Ferry Raham, Lara A" sort="Ferry Raham, Lara A" uniqKey="Ferry Raham L" first="Lara A." last="Ferry-Graham">Lara A. Ferry-Graham</name><name sortKey="Hulsey, C Darrin" sort="Hulsey, C Darrin" uniqKey="Hulsey C" first="C. Darrin" last="Hulsey">C. Darrin Hulsey</name><name sortKey="Wainwright, Peter C" sort="Wainwright, Peter C" uniqKey="Wainwright P" first="Peter C." last="Wainwright">Peter C. Wainwright</name></country><country name="Australie"><noRegion><name sortKey="Bellwood, David R" sort="Bellwood, David R" uniqKey="Bellwood D" first="David R." last="Bellwood">David R. Bellwood</name></noRegion></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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