Phylogenetic relationships of the Sparidae (Teleostei: Percoidei) and implications for convergent trophic evolution
Identifieur interne : 004332 ( Istex/Corpus ); précédent : 004331; suivant : 004333Phylogenetic relationships of the Sparidae (Teleostei: Percoidei) and implications for convergent trophic evolution
Auteurs : Julia J. DaySource :
- Biological Journal of the Linnean Society [ 0024-4066 ] ; 2002-06.
English descriptors
- KwdEn :
- Acanthopagrus, Adductor, Adductor process, American museum, Amnh, Anterior margin, Anterior process, Anteriorly, Anterodorsal margin, Apophysis, Archosargus, Argyrops, Argyrozona, Articular, Articular process, Basal, Biological journal, Bmnh, Boops, Braincase, Braincase width, Branchiostegal rays, Calamus, Calarnus penna bmnh, Caniniform, Cartilage, Caudal, Caudal skeleton, Centracanthid, Centracanthidae, Centracanthids, Centropomids, Ceratohyal, Character data, Clade, Cladistics, Condyle, Conical, Cphpu2, Data matrix, Decay indices, Dentary, Dentex, Dentex dentex, Dentex dentex bmnh, Dentition, Dilatator operculi, Diplodus, Dorsal, Epibranchial, Ethmoid, Exoccipital, Exoccipital condyles, First epibranchial, Foramen, Fossa, Genus, Gill, Gill arches, Gymnocranius, Haemulids, Hanel, Hanel sturmbauer, Hyoid arch, Hypobranchial, Incisiform, Ingroup, Interrelationship, Jugularis, Lagodon, Lateral, Lateral ethmoids, Lateral margin, Lateral views, Lethrinidae, Lethrinids, Lethrinus, Linnean, Linnean society, Lutjanids, Lutjanus, Mandible, Margin, Marine science, Maxilla, Maxillary, Medial, Medial separation, Molariform, Molariform teeth, Molecular data, Molecular tree, Molecular trees, Monophyletic, Monophyletic sparidae, Monophyly, Morphological, Morphological data, Morphological trees, Morphology, Nasal part, Natural history, Natural history museum, Natural sciences, Nemipteridae, Nemipterids, Nemipterus, Node, Oblada, Occipital crest, Oral jaws, Other sparids, Other sparoid families, Outgroup, Outgroup taxa, Pachymetopon, Pagellus, Pagrus, Palatine, Palatine arch, Palatine sulcus, Parasphenoid, Pars jugularis, Parsimonious trees, Parsimony, Perciformes, Percoid, Percoid fishes, Percoidei, Pharyngeal, Pharyngeal apophysis, Pharyngeal jaws, Phylogenetic, Phylogenetic hypothesis, Phylogenetic relationships, Phylogeny, Pisces, Polysteganus, Porcostoma, Posteriorly, Premaxilla, Premaxillary, Preorbital, Preorbital flange, Primitive percoids, Quadrate, Rakers, Results show, Rhabdosargus, Rosen patterson, Ruiz rejon, Rusi, Sarpa, Sarpa salpa bmnh, Scolopsis, Small process, Smith smith, Sparid, Sparid genera, Sparid phylogeny, Sparid taxa, Sparidae, Sparidae family, Sparoid, Sparoids, Sparus, Spicara, Strict component consensus, Sturmbauer, Subfamilial, Subfamilial classification, Subfamily, Sulcus, Taxon, Taxonomic, Taxonomic revision, Teleostei, Templeton tests, Total length, Trophic, Trophic specialization, Trophic types, Unambiguous synapomorphies, Uncinate process, Urohyal, Usnm, Ventral, Ventral margin, Ventral surface, Ventral views, Vomer, Wilkinson.
- Teeft :
- Acanthopagrus, Adductor, Adductor process, American museum, Amnh, Anterior margin, Anterior process, Anteriorly, Anterodorsal margin, Apophysis, Archosargus, Argyrops, Argyrozona, Articular, Articular process, Basal, Biological journal, Bmnh, Boops, Braincase, Braincase width, Branchiostegal rays, Calamus, Calarnus penna bmnh, Caniniform, Cartilage, Caudal, Caudal skeleton, Centracanthid, Centracanthidae, Centracanthids, Centropomids, Ceratohyal, Character data, Clade, Cladistics, Condyle, Conical, Cphpu2, Data matrix, Decay indices, Dentary, Dentex, Dentex dentex, Dentex dentex bmnh, Dentition, Dilatator operculi, Diplodus, Dorsal, Epibranchial, Ethmoid, Exoccipital, Exoccipital condyles, First epibranchial, Foramen, Fossa, Genus, Gill, Gill arches, Gymnocranius, Haemulids, Hanel, Hanel sturmbauer, Hyoid arch, Hypobranchial, Incisiform, Ingroup, Interrelationship, Jugularis, Lagodon, Lateral, Lateral ethmoids, Lateral margin, Lateral views, Lethrinidae, Lethrinids, Lethrinus, Linnean, Linnean society, Lutjanids, Lutjanus, Mandible, Margin, Marine science, Maxilla, Maxillary, Medial, Medial separation, Molariform, Molariform teeth, Molecular data, Molecular tree, Molecular trees, Monophyletic, Monophyletic sparidae, Monophyly, Morphological, Morphological data, Morphological trees, Morphology, Nasal part, Natural history, Natural history museum, Natural sciences, Nemipteridae, Nemipterids, Nemipterus, Node, Oblada, Occipital crest, Oral jaws, Other sparids, Other sparoid families, Outgroup, Outgroup taxa, Pachymetopon, Pagellus, Pagrus, Palatine, Palatine arch, Palatine sulcus, Parasphenoid, Pars jugularis, Parsimonious trees, Parsimony, Perciformes, Percoid, Percoid fishes, Percoidei, Pharyngeal, Pharyngeal apophysis, Pharyngeal jaws, Phylogenetic, Phylogenetic hypothesis, Phylogenetic relationships, Phylogeny, Pisces, Polysteganus, Porcostoma, Posteriorly, Premaxilla, Premaxillary, Preorbital, Preorbital flange, Primitive percoids, Quadrate, Rakers, Results show, Rhabdosargus, Rosen patterson, Ruiz rejon, Rusi, Sarpa, Sarpa salpa bmnh, Scolopsis, Small process, Smith smith, Sparid, Sparid genera, Sparid phylogeny, Sparid taxa, Sparidae, Sparidae family, Sparoid, Sparoids, Sparus, Spicara, Strict component consensus, Sturmbauer, Subfamilial, Subfamilial classification, Subfamily, Sulcus, Taxon, Taxonomic, Taxonomic revision, Teleostei, Templeton tests, Total length, Trophic, Trophic specialization, Trophic types, Unambiguous synapomorphies, Uncinate process, Urohyal, Usnm, Ventral, Ventral margin, Ventral surface, Ventral views, Vomer, Wilkinson.
Abstract
A phylogenetic analysis of the majority of sparid genera and representatives of the sparoid families Centracanthi‐dae, Lethrinidae and Nemipteridae is presented using 87 predominately osteological characters. The Sparidae constitute a monophyletic grouping, with the inclusion of the centracanthid Spicara smarts, which nests deep within the ingroup. The phylogeny was then used to investigate agreement with the most recent molecular study, taxo‐nomic stability of subfamilial classification and the evolution of feeding strategies. Results show that the incongruence between morphological and molecular data appears largely to be an artifact of errors in rooting. However, there appears to be real and substantial conflict between the molecular tree and the morphological data, which is not attributable to the different positions of the least congruent taxa. The data support the molecular hypothesis that none of the subfamilial classification, based on dentition and trophic specialization, is monophyletic, and should be rejected pending further taxonomic Révision. The phylogeny supports multiple independent origins of trophic types and it is suggested that the evolutionary plasticity of the oral teeth of sparids has been fundamental to the adaptive radiation of this family compared to their closest allies.
Url:
DOI: 10.1111/j.1095-8312.2002.tb02088.x
Links to Exploration step
ISTEX:877A5149C20DE2CD9C60954FEB13250A31F0F864Le document en format XML
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Day</name><affiliation><mods:affiliation>Department of Biology, University College London, Gower Street, London, WC1 6BT and Department of Palaeontology, The Natural History Museum, Cromwell Road, London, SW7 5BD, UK</mods:affiliation></affiliation></author></analytic><monogr></monogr><series><title level="j" type="main">Biological Journal of the Linnean Society</title><title level="j" type="alt">BIOLOGICAL JOURNAL LINNEAN SOCIETY</title><idno type="ISSN">0024-4066</idno><idno type="eISSN">1095-8312</idno><imprint><biblScope unit="vol">76</biblScope><biblScope unit="issue">2</biblScope><biblScope unit="page" from="269">269</biblScope><biblScope unit="page" to="301">301</biblScope><biblScope unit="page-count">33</biblScope><publisher>Blackwell Publishing Ltd</publisher><pubPlace>Oxford, UK</pubPlace><date type="published" when="2002-06">2002-06</date></imprint><idno type="ISSN">0024-4066</idno></series></biblStruct></sourceDesc><seriesStmt><idno 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data</term><term>Clade</term><term>Cladistics</term><term>Condyle</term><term>Conical</term><term>Cphpu2</term><term>Data matrix</term><term>Decay indices</term><term>Dentary</term><term>Dentex</term><term>Dentex dentex</term><term>Dentex dentex bmnh</term><term>Dentition</term><term>Dilatator operculi</term><term>Diplodus</term><term>Dorsal</term><term>Epibranchial</term><term>Ethmoid</term><term>Exoccipital</term><term>Exoccipital condyles</term><term>First epibranchial</term><term>Foramen</term><term>Fossa</term><term>Genus</term><term>Gill</term><term>Gill arches</term><term>Gymnocranius</term><term>Haemulids</term><term>Hanel</term><term>Hanel sturmbauer</term><term>Hyoid arch</term><term>Hypobranchial</term><term>Incisiform</term><term>Ingroup</term><term>Interrelationship</term><term>Jugularis</term><term>Lagodon</term><term>Lateral</term><term>Lateral ethmoids</term><term>Lateral margin</term><term>Lateral views</term><term>Lethrinidae</term><term>Lethrinids</term><term>Lethrinus</term><term>Linnean</term><term>Linnean society</term><term>Lutjanids</term><term>Lutjanus</term><term>Mandible</term><term>Margin</term><term>Marine science</term><term>Maxilla</term><term>Maxillary</term><term>Medial</term><term>Medial separation</term><term>Molariform</term><term>Molariform teeth</term><term>Molecular data</term><term>Molecular tree</term><term>Molecular trees</term><term>Monophyletic</term><term>Monophyletic sparidae</term><term>Monophyly</term><term>Morphological</term><term>Morphological data</term><term>Morphological trees</term><term>Morphology</term><term>Nasal part</term><term>Natural history</term><term>Natural history museum</term><term>Natural sciences</term><term>Nemipteridae</term><term>Nemipterids</term><term>Nemipterus</term><term>Node</term><term>Oblada</term><term>Occipital crest</term><term>Oral jaws</term><term>Other sparids</term><term>Other sparoid families</term><term>Outgroup</term><term>Outgroup taxa</term><term>Pachymetopon</term><term>Pagellus</term><term>Pagrus</term><term>Palatine</term><term>Palatine arch</term><term>Palatine sulcus</term><term>Parasphenoid</term><term>Pars jugularis</term><term>Parsimonious trees</term><term>Parsimony</term><term>Perciformes</term><term>Percoid</term><term>Percoid fishes</term><term>Percoidei</term><term>Pharyngeal</term><term>Pharyngeal apophysis</term><term>Pharyngeal jaws</term><term>Phylogenetic</term><term>Phylogenetic hypothesis</term><term>Phylogenetic relationships</term><term>Phylogeny</term><term>Pisces</term><term>Polysteganus</term><term>Porcostoma</term><term>Posteriorly</term><term>Premaxilla</term><term>Premaxillary</term><term>Preorbital</term><term>Preorbital flange</term><term>Primitive percoids</term><term>Quadrate</term><term>Rakers</term><term>Results show</term><term>Rhabdosargus</term><term>Rosen patterson</term><term>Ruiz rejon</term><term>Rusi</term><term>Sarpa</term><term>Sarpa salpa bmnh</term><term>Scolopsis</term><term>Small process</term><term>Smith smith</term><term>Sparid</term><term>Sparid genera</term><term>Sparid phylogeny</term><term>Sparid taxa</term><term>Sparidae</term><term>Sparidae family</term><term>Sparoid</term><term>Sparoids</term><term>Sparus</term><term>Spicara</term><term>Strict component consensus</term><term>Sturmbauer</term><term>Subfamilial</term><term>Subfamilial classification</term><term>Subfamily</term><term>Sulcus</term><term>Taxon</term><term>Taxonomic</term><term>Taxonomic revision</term><term>Teleostei</term><term>Templeton tests</term><term>Total length</term><term>Trophic</term><term>Trophic specialization</term><term>Trophic types</term><term>Unambiguous synapomorphies</term><term>Uncinate process</term><term>Urohyal</term><term>Usnm</term><term>Ventral</term><term>Ventral margin</term><term>Ventral surface</term><term>Ventral views</term><term>Vomer</term><term>Wilkinson</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Acanthopagrus</term><term>Adductor</term><term>Adductor process</term><term>American museum</term><term>Amnh</term><term>Anterior margin</term><term>Anterior process</term><term>Anteriorly</term><term>Anterodorsal margin</term><term>Apophysis</term><term>Archosargus</term><term>Argyrops</term><term>Argyrozona</term><term>Articular</term><term>Articular process</term><term>Basal</term><term>Biological journal</term><term>Bmnh</term><term>Boops</term><term>Braincase</term><term>Braincase width</term><term>Branchiostegal rays</term><term>Calamus</term><term>Calarnus penna bmnh</term><term>Caniniform</term><term>Cartilage</term><term>Caudal</term><term>Caudal skeleton</term><term>Centracanthid</term><term>Centracanthidae</term><term>Centracanthids</term><term>Centropomids</term><term>Ceratohyal</term><term>Character data</term><term>Clade</term><term>Cladistics</term><term>Condyle</term><term>Conical</term><term>Cphpu2</term><term>Data matrix</term><term>Decay indices</term><term>Dentary</term><term>Dentex</term><term>Dentex dentex</term><term>Dentex dentex bmnh</term><term>Dentition</term><term>Dilatator operculi</term><term>Diplodus</term><term>Dorsal</term><term>Epibranchial</term><term>Ethmoid</term><term>Exoccipital</term><term>Exoccipital condyles</term><term>First epibranchial</term><term>Foramen</term><term>Fossa</term><term>Genus</term><term>Gill</term><term>Gill arches</term><term>Gymnocranius</term><term>Haemulids</term><term>Hanel</term><term>Hanel sturmbauer</term><term>Hyoid arch</term><term>Hypobranchial</term><term>Incisiform</term><term>Ingroup</term><term>Interrelationship</term><term>Jugularis</term><term>Lagodon</term><term>Lateral</term><term>Lateral ethmoids</term><term>Lateral margin</term><term>Lateral views</term><term>Lethrinidae</term><term>Lethrinids</term><term>Lethrinus</term><term>Linnean</term><term>Linnean society</term><term>Lutjanids</term><term>Lutjanus</term><term>Mandible</term><term>Margin</term><term>Marine science</term><term>Maxilla</term><term>Maxillary</term><term>Medial</term><term>Medial separation</term><term>Molariform</term><term>Molariform teeth</term><term>Molecular data</term><term>Molecular tree</term><term>Molecular trees</term><term>Monophyletic</term><term>Monophyletic sparidae</term><term>Monophyly</term><term>Morphological</term><term>Morphological data</term><term>Morphological trees</term><term>Morphology</term><term>Nasal part</term><term>Natural history</term><term>Natural history museum</term><term>Natural sciences</term><term>Nemipteridae</term><term>Nemipterids</term><term>Nemipterus</term><term>Node</term><term>Oblada</term><term>Occipital crest</term><term>Oral jaws</term><term>Other sparids</term><term>Other sparoid families</term><term>Outgroup</term><term>Outgroup taxa</term><term>Pachymetopon</term><term>Pagellus</term><term>Pagrus</term><term>Palatine</term><term>Palatine arch</term><term>Palatine sulcus</term><term>Parasphenoid</term><term>Pars jugularis</term><term>Parsimonious trees</term><term>Parsimony</term><term>Perciformes</term><term>Percoid</term><term>Percoid fishes</term><term>Percoidei</term><term>Pharyngeal</term><term>Pharyngeal apophysis</term><term>Pharyngeal jaws</term><term>Phylogenetic</term><term>Phylogenetic hypothesis</term><term>Phylogenetic relationships</term><term>Phylogeny</term><term>Pisces</term><term>Polysteganus</term><term>Porcostoma</term><term>Posteriorly</term><term>Premaxilla</term><term>Premaxillary</term><term>Preorbital</term><term>Preorbital flange</term><term>Primitive percoids</term><term>Quadrate</term><term>Rakers</term><term>Results show</term><term>Rhabdosargus</term><term>Rosen patterson</term><term>Ruiz rejon</term><term>Rusi</term><term>Sarpa</term><term>Sarpa salpa bmnh</term><term>Scolopsis</term><term>Small process</term><term>Smith smith</term><term>Sparid</term><term>Sparid genera</term><term>Sparid phylogeny</term><term>Sparid taxa</term><term>Sparidae</term><term>Sparidae family</term><term>Sparoid</term><term>Sparoids</term><term>Sparus</term><term>Spicara</term><term>Strict component consensus</term><term>Sturmbauer</term><term>Subfamilial</term><term>Subfamilial classification</term><term>Subfamily</term><term>Sulcus</term><term>Taxon</term><term>Taxonomic</term><term>Taxonomic revision</term><term>Teleostei</term><term>Templeton tests</term><term>Total length</term><term>Trophic</term><term>Trophic specialization</term><term>Trophic types</term><term>Unambiguous synapomorphies</term><term>Uncinate process</term><term>Urohyal</term><term>Usnm</term><term>Ventral</term><term>Ventral margin</term><term>Ventral surface</term><term>Ventral views</term><term>Vomer</term><term>Wilkinson</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">A phylogenetic analysis of the majority of sparid genera and representatives of the sparoid families Centracanthi‐dae, Lethrinidae and Nemipteridae is presented using 87 predominately osteological characters. The Sparidae constitute a monophyletic grouping, with the inclusion of the centracanthid Spicara smarts, which nests deep within the ingroup. The phylogeny was then used to investigate agreement with the most recent molecular study, taxo‐nomic stability of subfamilial classification and the evolution of feeding strategies. Results show that the incongruence between morphological and molecular data appears largely to be an artifact of errors in rooting. However, there appears to be real and substantial conflict between the molecular tree and the morphological data, which is not attributable to the different positions of the least congruent taxa. The data support the molecular hypothesis that none of the subfamilial classification, based on dentition and trophic specialization, is monophyletic, and should be rejected pending further taxonomic Révision. The phylogeny supports multiple independent origins of trophic types and it is suggested that the evolutionary plasticity of the oral teeth of sparids has been fundamental to the adaptive radiation of this family compared to their closest allies.</div></front></TEI><istex><corpusName>wiley</corpusName><keywords><teeft><json:string>bmnh</json:string><json:string>sparid</json:string><json:string>taxon</json:string><json:string>node</json:string><json:string>dentex</json:string><json:string>amnh</json:string><json:string>diplodus</json:string><json:string>linnean society</json:string><json:string>linnean</json:string><json:string>calamus</json:string><json:string>dorsal</json:string><json:string>sparidae</json:string><json:string>phylogeny</json:string><json:string>biological 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The Sparidae constitute a monophyletic grouping, with the inclusion of the centracanthid Spicara smarts, which nests deep within the ingroup. The phylogeny was then used to investigate agreement with the most recent molecular study, taxo‐nomic stability of subfamilial classification and the evolution of feeding strategies. Results show that the incongruence between morphological and molecular data appears largely to be an artifact of errors in rooting. However, there appears to be real and substantial conflict between the molecular tree and the morphological data, which is not attributable to the different positions of the least congruent taxa. The data support the molecular hypothesis that none of the subfamilial classification, based on dentition and trophic specialization, is monophyletic, and should be rejected pending further taxonomic Révision. The phylogeny supports multiple independent origins of trophic types and it is suggested that the evolutionary plasticity of the oral teeth of sparids has been fundamental to the adaptive radiation of this family compared to their closest allies.</abstract><qualityIndicators><refBibsNative>true</refBibsNative><abstractWordCount>187</abstractWordCount><abstractCharCount>1318</abstractCharCount><keywordCount>8</keywordCount><score>9.244</score><pdfWordCount>15836</pdfWordCount><pdfCharCount>100995</pdfCharCount><pdfVersion>1.3</pdfVersion><pdfPageCount>33</pdfPageCount><pdfPageSize>595.919 x 793.919 pts</pdfPageSize></qualityIndicators><title>Phylogenetic relationships of the Sparidae (Teleostei: Percoidei) and implications for convergent trophic evolution</title><genre><json:string>article</json:string></genre><host><title>Biological Journal of the Linnean Society</title><language><json:string>unknown</json:string></language><doi><json:string>10.1111/(ISSN)1095-8312</json:string></doi><issn><json:string>0024-4066</json:string></issn><eissn><json:string>1095-8312</json:string></eissn><publisherId><json:string>BIJ</json:string></publisherId><volume>76</volume><issue>2</issue><pages><first>269</first><last>301</last><total>33</total></pages><genre><json:string>journal</json:string></genre></host><namedEntities><unitex><date><json:string>2958</json:string><json:string>2002</json:string><json:string>16s</json:string><json:string>2860</json:string></date><geogName></geogName><orgName><json:string>BT and Department of Palaeontology, The Natural History Museum, Cromwell Road, London</json:string><json:string>UK Received</json:string></orgName><orgName_funder></orgName_funder><orgName_provider></orgName_provider><persName><json:string>Van Dyke</json:string><json:string>J.Haemuloidea</json:string><json:string>J. 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(1976)</json:string><json:string>Eschymeyer, 1998</json:string><json:string>1980, 1984</json:string><json:string>Faith & Cranston, 1991</json:string><json:string>Patterson, 1993</json:string><json:string>Johnson, 1980</json:string><json:string>1844, 1845, 1846</json:string><json:string>Bonaparte, 1831</json:string><json:string>Day, 2000</json:string><json:string>Bianchi, 1984</json:string><json:string>Nelson, 1994</json:string><json:string>Jordan & Fesler, 1893</json:string><json:string>Wilkinson, 2001</json:string><json:string>Smith & Smith, 1986</json:string><json:string>Helfman et al., 1997</json:string><json:string>Erikson & Wikstrom, 1996</json:string><json:string>Basagila, 1991</json:string><json:string>Swofford, 1998</json:string><json:string>Akazaki, 1962</json:string><json:string>Hanel & Sturmbauer, 2000</json:string><json:string>Templeton, 1983</json:string><json:string>Smith, 1938</json:string><json:string>Bauchot et al., 1981</json:string><json:string>Bauchot & Hureau, 1986</json:string><json:string>Rosen & Patterson, 1990</json:string><json:string>Thorley & Page, 2000</json:string><json:string>Estabrook et al. 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E‐mail: jday00@esc.cam.ac.uk or jjd@nhm.ac.uk</description><role><roleTerm type="text">author</roleTerm></role></name><typeOfResource>text</typeOfResource><genre type="article" displayLabel="article" authority="ISTEX" authorityURI="https://content-type.data.istex.fr" valueURI="https://content-type.data.istex.fr/ark:/67375/XTP-6N5SZHKN-D">article</genre><originInfo><publisher>Blackwell Publishing Ltd</publisher><place><placeTerm type="text">Oxford, UK</placeTerm></place><dateIssued encoding="w3cdtf">2002-06</dateIssued><edition>Received 8 October 2002; accepted for publication 1 March 2002</edition><copyrightDate encoding="w3cdtf">2002</copyrightDate></originInfo><language><languageTerm type="code" authority="rfc3066">en</languageTerm><languageTerm type="code" authority="iso639-2b">eng</languageTerm></language><physicalDescription><extent unit="references">83</extent><extent unit="linksCrossRef">2</extent></physicalDescription><abstract lang="en">A phylogenetic analysis of the majority of sparid genera and representatives of the sparoid families Centracanthi‐dae, Lethrinidae and Nemipteridae is presented using 87 predominately osteological characters. The Sparidae constitute a monophyletic grouping, with the inclusion of the centracanthid Spicara smarts, which nests deep within the ingroup. The phylogeny was then used to investigate agreement with the most recent molecular study, taxo‐nomic stability of subfamilial classification and the evolution of feeding strategies. Results show that the incongruence between morphological and molecular data appears largely to be an artifact of errors in rooting. However, there appears to be real and substantial conflict between the molecular tree and the morphological data, which is not attributable to the different positions of the least congruent taxa. The data support the molecular hypothesis that none of the subfamilial classification, based on dentition and trophic specialization, is monophyletic, and should be rejected pending further taxonomic Révision. The phylogeny supports multiple independent origins of trophic types and it is suggested that the evolutionary plasticity of the oral teeth of sparids has been fundamental to the adaptive radiation of this family compared to their closest allies.</abstract><subject lang="en"><genre>keywords</genre><topic>Centracanthidae</topic><topic>homoplasy</topic><topic>Lethrinidae</topic><topic>molecular</topic><topic>morphology</topic><topic>Nemipteridae</topic><topic>parsimony</topic><topic>Sparoidea.</topic></subject><relatedItem type="host"><titleInfo><title>Biological Journal of the Linnean Society</title></titleInfo><genre type="journal" authority="ISTEX" authorityURI="https://publication-type.data.istex.fr" valueURI="https://publication-type.data.istex.fr/ark:/67375/JMC-0GLKJH51-B">journal</genre><identifier type="ISSN">0024-4066</identifier><identifier type="eISSN">1095-8312</identifier><identifier type="DOI">10.1111/(ISSN)1095-8312</identifier><identifier type="PublisherID">BIJ</identifier><part><date>2002</date><detail type="volume"><caption>vol.</caption><number>76</number></detail><detail type="issue"><caption>no.</caption><number>2</number></detail><extent unit="pages"><start>269</start><end>301</end><total>33</total></extent></part></relatedItem><identifier type="istex">877A5149C20DE2CD9C60954FEB13250A31F0F864</identifier><identifier type="ark">ark:/67375/WNG-J8RKX7B6-T</identifier><identifier type="DOI">10.1111/j.1095-8312.2002.tb02088.x</identifier><identifier type="ArticleID">BIJ269</identifier><recordInfo><recordContentSource authority="ISTEX" authorityURI="https://loaded-corpus.data.istex.fr" valueURI="https://loaded-corpus.data.istex.fr/ark:/67375/XBH-L0C46X92-X">wiley</recordContentSource><recordOrigin>Blackwell Publishing Ltd</recordOrigin></recordInfo></mods><json:item><extension>json</extension><original>false</original><mimetype>application/json</mimetype><uri>https://api.istex.fr/document/877A5149C20DE2CD9C60954FEB13250A31F0F864/metadata/json</uri></json:item></metadata><serie></serie></istex></record>Pour manipuler ce document sous Unix (Dilib)
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