The phylogenetic relationships of the charismatic poster frogs, Phyllomedusinae (Anura, Hylidae)
Identifieur interne : 004F71 ( Main/Exploration ); précédent : 004F70; suivant : 004F72The phylogenetic relationships of the charismatic poster frogs, Phyllomedusinae (Anura, Hylidae)
Auteurs : Julián Faivovich [États-Unis, Argentine] ; Célio F. B. Haddad [Brésil] ; Délio Baêta [Brésil] ; Karl-Heinz Jungfer [Allemagne] ; Guilherme F. R. Álvares [Brésil] ; Reuber A. Brandão [Brésil] ; Christopher Sheil [États-Unis] ; Lucas S. Barrientos [Colombie] ; César L. Barrio-Amor S [Venezuela] ; Carlos A. G. Cruz [Brésil] ; Ward C. Wheeler [États-Unis]Source :
- Cladistics [ 0748-3007 ] ; 2010-06.
Descripteurs français
English descriptors
- KwdEn :
- Agalychnis, Agalychnis annae, Agalychnis callidryas, Alagoas, Alamillo, Alvares, American museum, Amnh, Amphibia, Amphibian, Annae, Antimicrobial, Anura, Anuran, Araguari, Aspera, Aspera group, Atelopoides, Aust, Ayeaye, Azurea, Bahiana, Bayesian, Behaviour, Bicolor, Bioactive, Bioactive peptides, Biochem, Biol, Bladder, Bokermann, Boliviana, Boulenger, Bra, Brandao, Brasil, Bremer, Buckleyi, Buckleyi group, Burmeisteri, Burmeisteri group, Cadle, Caerulea, Calcarifer, Caldas, Caldas novas, Callidryas, Callidryas group, Camba, Cannatella, Caramaschi, Cement gland, Centralis, Cfbh, Cfbht, Chapada, Character states, Chunb, Clade, Cladistics, Cochranae, Comp, Congonhas, Costa, Costa rica, Craspedopus, Cruziohyla, Cruziohyla calcarifer, Cyclorana, Cytochrome, Dacnicolor, Danieli, Dataset, Distincta, Duellman, Duellmani, Ecuador, Eggless, Eggless capsules, Erspamer, Evaporative water loss, Exemplar, Faivovich, Falconieri erspamer, Farris, Former phyllomedusa buckleyi group, Frog, Funkhouser, Genbank, Genus, Gerais, Goias, Golobo, Granulosa, Grosso, Guimaraes, Guttata, Guyana, Haddad, Hennig, Herpetol, Hist, Homology, Hoogmoed, Hulli, Hylid, Hylidae, Hylinae, Hylomantis, Hypochondrialis, Hypochondrialis group, Iheringii, Independent origins, Internal relationships, Iris, Itacolomi, Jackknife, Jandaia, Janeiro, Jungfer, Junior synonym, Larva, Larval, Larval development, Lemur, Limon, Lipid, Litodryas, Litoria, Lutz, Marginata, Mato, Mato grosso, Mcclanahan, Megacephala, Mina, Minas gerais, Mitochondrial, Mnrj, Moen, Monophyletic, Monophyly, Moreletii, Nacional, Natural history, Neildi, Neotropical, Node, Nordestina, Nova, Nuclear genes, Optimal hypothesis, Optimization, Oral disc, Oreades, Other species, Outgroup, Oviposition, Pachymedusa, Pachymedusa dacnicolor, Palliata, Palpebral, Papua, Paraphyletic, Parsimonious trees, Parsimony, Paulo, Pelodryadinae, Pelodryadines, Peptide, Peptide families, Perdizes, Perinesos, Perinesos group, Pers, Phasmahyla, Phrynomedusa, Phrynomedusa marginata, Phyllomedusa, Phyllomedusa ayeaye, Phyllomedusa azurea, Phyllomedusa bicolor, Phyllomedusa centralis, Phyllomedusa oreades, Phyllomedusa sauvagii, Phyllomedusa tomopterna, Phyllomedusinae, Phyllomedusine, Phyllomedusines, Phylogenetic, Phylogenetic analysis, Phylogenetic hypothesis, Phylogenetic relationships, Physiol, Pimenta, Pombal, Precursor, Prov, Putative, Pyburn, Reproductive, Reproductive biology, Reticulated, Rica, Rito, Rito santo, Riva, Rohdei, Saltator, Sama, Santa teresa, Sauvagii, Sequence divergence, Serra, Several species, Sheil, Shoemaker, Silva, Sister group, Sister taxon, Smns, Species group, Species groups, Spurrelli, Subfamily, Synapomorphies, Synapomorphy, Tadpole, Tarsius, Tarsius group, Taxon, Taxonomic, Taxonomic distribution, Tetraploidea, Tomopterna, Topology, Trinitatis, Type locality, Ubatuba, Unassigned, Unavailable species, Univ, Universidade, Urate, Uricotelism, Vaillanti, Water loss, Webbing, Weygoldt, Wiens, Willi, Willi hennig society, Zool, Zootaxa.
- Teeft :
- Agalychnis, Agalychnis annae, Agalychnis callidryas, Alagoas, Alamillo, Alvares, American museum, Amnh, Amphibia, Amphibian, Annae, Antimicrobial, Anura, Anuran, Araguari, Aspera, Aspera group, Atelopoides, Aust, Ayeaye, Azurea, Bahiana, Bayesian, Behaviour, Bicolor, Bioactive, Bioactive peptides, Biochem, Biol, Bladder, Bokermann, Boliviana, Boulenger, Bra, Brandao, Brasil, Bremer, Buckleyi, Buckleyi group, Burmeisteri, Burmeisteri group, Cadle, Caerulea, Calcarifer, Caldas, Caldas novas, Callidryas, Callidryas group, Camba, Cannatella, Caramaschi, Cement gland, Centralis, Cfbh, Cfbht, Chapada, Character states, Chunb, Clade, Cladistics, Cochranae, Comp, Congonhas, Costa, Costa rica, Craspedopus, Cruziohyla, Cruziohyla calcarifer, Cyclorana, Cytochrome, Dacnicolor, Danieli, Dataset, Distincta, Duellman, Duellmani, Ecuador, Eggless, Eggless capsules, Erspamer, Evaporative water loss, Exemplar, Faivovich, Falconieri erspamer, Farris, Former phyllomedusa buckleyi group, Frog, Funkhouser, Genbank, Genus, Gerais, Goias, Golobo, Granulosa, Grosso, Guimaraes, Guttata, Guyana, Haddad, Hennig, Herpetol, Hist, Homology, Hoogmoed, Hulli, Hylid, Hylidae, Hylinae, Hylomantis, Hypochondrialis, Hypochondrialis group, Iheringii, Independent origins, Internal relationships, Iris, Itacolomi, Jackknife, Jandaia, Janeiro, Jungfer, Junior synonym, Larva, Larval, Larval development, Lemur, Limon, Lipid, Litodryas, Litoria, Lutz, Marginata, Mato, Mato grosso, Mcclanahan, Megacephala, Mina, Minas gerais, Mitochondrial, Mnrj, Moen, Monophyletic, Monophyly, Moreletii, Nacional, Natural history, Neildi, Neotropical, Node, Nordestina, Nova, Nuclear genes, Optimal hypothesis, Optimization, Oral disc, Oreades, Other species, Outgroup, Oviposition, Pachymedusa, Pachymedusa dacnicolor, Palliata, Palpebral, Papua, Paraphyletic, Parsimonious trees, Parsimony, Paulo, Pelodryadinae, Pelodryadines, Peptide, Peptide families, Perdizes, Perinesos, Perinesos group, Pers, Phasmahyla, Phrynomedusa, Phrynomedusa marginata, Phyllomedusa, Phyllomedusa ayeaye, Phyllomedusa azurea, Phyllomedusa bicolor, Phyllomedusa centralis, Phyllomedusa oreades, Phyllomedusa sauvagii, Phyllomedusa tomopterna, Phyllomedusinae, Phyllomedusine, Phyllomedusines, Phylogenetic, Phylogenetic analysis, Phylogenetic hypothesis, Phylogenetic relationships, Physiol, Pimenta, Pombal, Precursor, Prov, Putative, Pyburn, Reproductive, Reproductive biology, Reticulated, Rica, Rito, Rito santo, Riva, Rohdei, Saltator, Sama, Santa teresa, Sauvagii, Sequence divergence, Serra, Several species, Sheil, Shoemaker, Silva, Sister group, Sister taxon, Smns, Species group, Species groups, Spurrelli, Subfamily, Synapomorphies, Synapomorphy, Tadpole, Tarsius, Tarsius group, Taxon, Taxonomic, Taxonomic distribution, Tetraploidea, Tomopterna, Topology, Trinitatis, Type locality, Ubatuba, Unassigned, Unavailable species, Univ, Universidade, Urate, Uricotelism, Vaillanti, Water loss, Webbing, Weygoldt, Wiens, Willi, Willi hennig society, Zool, Zootaxa.
Abstract
The leaf or monkey frogs of the hylid subfamily Phyllomedusinae are a unique group of charismatic anurans. We present a molecular phylogenetic analysis that includes 45 of the 60 species of phyllomedusines using up to 12 genes and intervening tRNAs. The aims were to gain a better understanding of the phylogenetic position of Phrynomedusa, test the monophyly and explore the relationships among several putative lineages (Hylomantis, the H. buckleyi Group, Phasmahyla, the four species groups of Phyllomedusa, and the species of Phyllomedusa that remain unassigned to any group), and to examine the implications of our phylogeny for the evolution of several characters in phyllomedusines. The analyses resulted in a well‐supported phylogenetic hypothesis that provides a historical framework for a discussion of the evolution of characters associated with reproductive biology, gliding behaviour, the physiology of waterproofing, and bioactive peptides. Implications include an earlier origin for eggless capsules than for leaf‐folding behaviour during amplexus, two independent origins of gliding, and an earlier origin of reduction in evaporative water loss than uricotelism, which is a result that originally was predicted on the basis of physiology alone. Furthermore, our results support the prediction that bioactive peptides from different peptide families are to be expected in all species of Phyllomedusinae. Hylomantis (as recently redefined) is shown to be paraphyletic and the synonymy of Agalychnis is revised to remedy this problem by including both Hylomantis and Pachymedusa. © The Willi Hennig Society 2009.
Url:
DOI: 10.1111/j.1096-0031.2009.00287.x
Affiliations:
- Allemagne, Argentine, Brésil, Colombie, Venezuela, États-Unis
- Ohio, État de New York, État de Rio de Janeiro, État de São Paulo
- São Paulo
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Haddad</name><affiliation wicri:level="3"><country xml:lang="fr">Brésil</country><wicri:regionArea>Departamento de Zoologia, I.B., Universidade Estadual Paulista, Rio Claro, CEP 13506‐900, São Paulo</wicri:regionArea><placeName><settlement type="city">São Paulo</settlement><region type="state">État de São Paulo</region></placeName></affiliation></author><author><name sortKey="Baeta, Delio" sort="Baeta, Delio" uniqKey="Baeta D" first="Délio" last="Baêta">Délio Baêta</name><affiliation wicri:level="2"><country xml:lang="fr">Brésil</country><wicri:regionArea>Setor de Herpetologia, Departamento de Vertebrados, Museu Nacional, Universidade Federal do Rio de Janeiro, Quinta da Boa Vista, s/n°, São Cristóvão, CEP 20940‐040, Rio de Janeiro, RJ</wicri:regionArea><placeName><region type="state">État de Rio de Janeiro</region></placeName></affiliation></author><author><name sortKey="Jungfer, Karl Einz" sort="Jungfer, Karl Einz" uniqKey="Jungfer K" first="Karl-Heinz" last="Jungfer">Karl-Heinz Jungfer</name><affiliation wicri:level="1"><country xml:lang="fr">Allemagne</country><wicri:regionArea>Panoramastr. 14, 74405 Gaildorf</wicri:regionArea><wicri:noRegion>74405 Gaildorf</wicri:noRegion><wicri:noRegion>74405 Gaildorf</wicri:noRegion></affiliation></author><author><name sortKey="Alvares, Guilherme F R" sort="Alvares, Guilherme F R" uniqKey="Alvares G" first="Guilherme F. 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Cruz</name><affiliation wicri:level="2"><country xml:lang="fr">Brésil</country><wicri:regionArea>Setor de Herpetologia, Departamento de Vertebrados, Museu Nacional, Universidade Federal do Rio de Janeiro, Quinta da Boa Vista, s/n°, São Cristóvão, CEP 20940‐040, Rio de Janeiro, RJ</wicri:regionArea><placeName><region type="state">État de Rio de Janeiro</region></placeName></affiliation></author><author><name sortKey="Wheeler, Ward C" sort="Wheeler, Ward C" uniqKey="Wheeler W" first="Ward C." last="Wheeler">Ward C. Wheeler</name><affiliation wicri:level="2"><country xml:lang="fr">États-Unis</country><wicri:regionArea>Division of Invertebrate Zoology, American Museum of Natural History, Central Park West at 79th St, New York, NY 10024</wicri:regionArea><placeName><region type="state">État de New York</region></placeName></affiliation></author></analytic><monogr></monogr><series><title level="j" type="main">Cladistics</title><title level="j" type="alt">CLADISTICS</title><idno type="ISSN">0748-3007</idno><idno type="eISSN">1096-0031</idno><imprint><biblScope unit="vol">26</biblScope><biblScope unit="issue">3</biblScope><biblScope unit="page" from="227">227</biblScope><biblScope unit="page" to="261">261</biblScope><biblScope unit="page-count">35</biblScope><publisher>Blackwell Publishing Ltd</publisher><pubPlace>Oxford, UK</pubPlace><date type="published" when="2010-06">2010-06</date></imprint><idno type="ISSN">0748-3007</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">0748-3007</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Agalychnis</term><term>Agalychnis annae</term><term>Agalychnis callidryas</term><term>Alagoas</term><term>Alamillo</term><term>Alvares</term><term>American museum</term><term>Amnh</term><term>Amphibia</term><term>Amphibian</term><term>Annae</term><term>Antimicrobial</term><term>Anura</term><term>Anuran</term><term>Araguari</term><term>Aspera</term><term>Aspera group</term><term>Atelopoides</term><term>Aust</term><term>Ayeaye</term><term>Azurea</term><term>Bahiana</term><term>Bayesian</term><term>Behaviour</term><term>Bicolor</term><term>Bioactive</term><term>Bioactive peptides</term><term>Biochem</term><term>Biol</term><term>Bladder</term><term>Bokermann</term><term>Boliviana</term><term>Boulenger</term><term>Bra</term><term>Brandao</term><term>Brasil</term><term>Bremer</term><term>Buckleyi</term><term>Buckleyi group</term><term>Burmeisteri</term><term>Burmeisteri group</term><term>Cadle</term><term>Caerulea</term><term>Calcarifer</term><term>Caldas</term><term>Caldas novas</term><term>Callidryas</term><term>Callidryas group</term><term>Camba</term><term>Cannatella</term><term>Caramaschi</term><term>Cement gland</term><term>Centralis</term><term>Cfbh</term><term>Cfbht</term><term>Chapada</term><term>Character states</term><term>Chunb</term><term>Clade</term><term>Cladistics</term><term>Cochranae</term><term>Comp</term><term>Congonhas</term><term>Costa</term><term>Costa rica</term><term>Craspedopus</term><term>Cruziohyla</term><term>Cruziohyla calcarifer</term><term>Cyclorana</term><term>Cytochrome</term><term>Dacnicolor</term><term>Danieli</term><term>Dataset</term><term>Distincta</term><term>Duellman</term><term>Duellmani</term><term>Ecuador</term><term>Eggless</term><term>Eggless capsules</term><term>Erspamer</term><term>Evaporative water loss</term><term>Exemplar</term><term>Faivovich</term><term>Falconieri erspamer</term><term>Farris</term><term>Former phyllomedusa buckleyi group</term><term>Frog</term><term>Funkhouser</term><term>Genbank</term><term>Genus</term><term>Gerais</term><term>Goias</term><term>Golobo</term><term>Granulosa</term><term>Grosso</term><term>Guimaraes</term><term>Guttata</term><term>Guyana</term><term>Haddad</term><term>Hennig</term><term>Herpetol</term><term>Hist</term><term>Homology</term><term>Hoogmoed</term><term>Hulli</term><term>Hylid</term><term>Hylidae</term><term>Hylinae</term><term>Hylomantis</term><term>Hypochondrialis</term><term>Hypochondrialis group</term><term>Iheringii</term><term>Independent origins</term><term>Internal relationships</term><term>Iris</term><term>Itacolomi</term><term>Jackknife</term><term>Jandaia</term><term>Janeiro</term><term>Jungfer</term><term>Junior synonym</term><term>Larva</term><term>Larval</term><term>Larval development</term><term>Lemur</term><term>Limon</term><term>Lipid</term><term>Litodryas</term><term>Litoria</term><term>Lutz</term><term>Marginata</term><term>Mato</term><term>Mato grosso</term><term>Mcclanahan</term><term>Megacephala</term><term>Mina</term><term>Minas gerais</term><term>Mitochondrial</term><term>Mnrj</term><term>Moen</term><term>Monophyletic</term><term>Monophyly</term><term>Moreletii</term><term>Nacional</term><term>Natural history</term><term>Neildi</term><term>Neotropical</term><term>Node</term><term>Nordestina</term><term>Nova</term><term>Nuclear genes</term><term>Optimal hypothesis</term><term>Optimization</term><term>Oral disc</term><term>Oreades</term><term>Other species</term><term>Outgroup</term><term>Oviposition</term><term>Pachymedusa</term><term>Pachymedusa dacnicolor</term><term>Palliata</term><term>Palpebral</term><term>Papua</term><term>Paraphyletic</term><term>Parsimonious trees</term><term>Parsimony</term><term>Paulo</term><term>Pelodryadinae</term><term>Pelodryadines</term><term>Peptide</term><term>Peptide families</term><term>Perdizes</term><term>Perinesos</term><term>Perinesos group</term><term>Pers</term><term>Phasmahyla</term><term>Phrynomedusa</term><term>Phrynomedusa marginata</term><term>Phyllomedusa</term><term>Phyllomedusa ayeaye</term><term>Phyllomedusa azurea</term><term>Phyllomedusa bicolor</term><term>Phyllomedusa centralis</term><term>Phyllomedusa oreades</term><term>Phyllomedusa sauvagii</term><term>Phyllomedusa tomopterna</term><term>Phyllomedusinae</term><term>Phyllomedusine</term><term>Phyllomedusines</term><term>Phylogenetic</term><term>Phylogenetic analysis</term><term>Phylogenetic hypothesis</term><term>Phylogenetic relationships</term><term>Physiol</term><term>Pimenta</term><term>Pombal</term><term>Precursor</term><term>Prov</term><term>Putative</term><term>Pyburn</term><term>Reproductive</term><term>Reproductive biology</term><term>Reticulated</term><term>Rica</term><term>Rito</term><term>Rito santo</term><term>Riva</term><term>Rohdei</term><term>Saltator</term><term>Sama</term><term>Santa teresa</term><term>Sauvagii</term><term>Sequence divergence</term><term>Serra</term><term>Several species</term><term>Sheil</term><term>Shoemaker</term><term>Silva</term><term>Sister group</term><term>Sister taxon</term><term>Smns</term><term>Species group</term><term>Species groups</term><term>Spurrelli</term><term>Subfamily</term><term>Synapomorphies</term><term>Synapomorphy</term><term>Tadpole</term><term>Tarsius</term><term>Tarsius group</term><term>Taxon</term><term>Taxonomic</term><term>Taxonomic distribution</term><term>Tetraploidea</term><term>Tomopterna</term><term>Topology</term><term>Trinitatis</term><term>Type locality</term><term>Ubatuba</term><term>Unassigned</term><term>Unavailable species</term><term>Univ</term><term>Universidade</term><term>Urate</term><term>Uricotelism</term><term>Vaillanti</term><term>Water loss</term><term>Webbing</term><term>Weygoldt</term><term>Wiens</term><term>Willi</term><term>Willi hennig society</term><term>Zool</term><term>Zootaxa</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Agalychnis</term><term>Agalychnis annae</term><term>Agalychnis callidryas</term><term>Alagoas</term><term>Alamillo</term><term>Alvares</term><term>American museum</term><term>Amnh</term><term>Amphibia</term><term>Amphibian</term><term>Annae</term><term>Antimicrobial</term><term>Anura</term><term>Anuran</term><term>Araguari</term><term>Aspera</term><term>Aspera group</term><term>Atelopoides</term><term>Aust</term><term>Ayeaye</term><term>Azurea</term><term>Bahiana</term><term>Bayesian</term><term>Behaviour</term><term>Bicolor</term><term>Bioactive</term><term>Bioactive peptides</term><term>Biochem</term><term>Biol</term><term>Bladder</term><term>Bokermann</term><term>Boliviana</term><term>Boulenger</term><term>Bra</term><term>Brandao</term><term>Brasil</term><term>Bremer</term><term>Buckleyi</term><term>Buckleyi group</term><term>Burmeisteri</term><term>Burmeisteri group</term><term>Cadle</term><term>Caerulea</term><term>Calcarifer</term><term>Caldas</term><term>Caldas novas</term><term>Callidryas</term><term>Callidryas group</term><term>Camba</term><term>Cannatella</term><term>Caramaschi</term><term>Cement gland</term><term>Centralis</term><term>Cfbh</term><term>Cfbht</term><term>Chapada</term><term>Character states</term><term>Chunb</term><term>Clade</term><term>Cladistics</term><term>Cochranae</term><term>Comp</term><term>Congonhas</term><term>Costa</term><term>Costa rica</term><term>Craspedopus</term><term>Cruziohyla</term><term>Cruziohyla calcarifer</term><term>Cyclorana</term><term>Cytochrome</term><term>Dacnicolor</term><term>Danieli</term><term>Dataset</term><term>Distincta</term><term>Duellman</term><term>Duellmani</term><term>Ecuador</term><term>Eggless</term><term>Eggless capsules</term><term>Erspamer</term><term>Evaporative water loss</term><term>Exemplar</term><term>Faivovich</term><term>Falconieri erspamer</term><term>Farris</term><term>Former phyllomedusa buckleyi group</term><term>Frog</term><term>Funkhouser</term><term>Genbank</term><term>Genus</term><term>Gerais</term><term>Goias</term><term>Golobo</term><term>Granulosa</term><term>Grosso</term><term>Guimaraes</term><term>Guttata</term><term>Guyana</term><term>Haddad</term><term>Hennig</term><term>Herpetol</term><term>Hist</term><term>Homology</term><term>Hoogmoed</term><term>Hulli</term><term>Hylid</term><term>Hylidae</term><term>Hylinae</term><term>Hylomantis</term><term>Hypochondrialis</term><term>Hypochondrialis group</term><term>Iheringii</term><term>Independent origins</term><term>Internal relationships</term><term>Iris</term><term>Itacolomi</term><term>Jackknife</term><term>Jandaia</term><term>Janeiro</term><term>Jungfer</term><term>Junior synonym</term><term>Larva</term><term>Larval</term><term>Larval development</term><term>Lemur</term><term>Limon</term><term>Lipid</term><term>Litodryas</term><term>Litoria</term><term>Lutz</term><term>Marginata</term><term>Mato</term><term>Mato grosso</term><term>Mcclanahan</term><term>Megacephala</term><term>Mina</term><term>Minas gerais</term><term>Mitochondrial</term><term>Mnrj</term><term>Moen</term><term>Monophyletic</term><term>Monophyly</term><term>Moreletii</term><term>Nacional</term><term>Natural history</term><term>Neildi</term><term>Neotropical</term><term>Node</term><term>Nordestina</term><term>Nova</term><term>Nuclear genes</term><term>Optimal hypothesis</term><term>Optimization</term><term>Oral disc</term><term>Oreades</term><term>Other species</term><term>Outgroup</term><term>Oviposition</term><term>Pachymedusa</term><term>Pachymedusa dacnicolor</term><term>Palliata</term><term>Palpebral</term><term>Papua</term><term>Paraphyletic</term><term>Parsimonious trees</term><term>Parsimony</term><term>Paulo</term><term>Pelodryadinae</term><term>Pelodryadines</term><term>Peptide</term><term>Peptide families</term><term>Perdizes</term><term>Perinesos</term><term>Perinesos group</term><term>Pers</term><term>Phasmahyla</term><term>Phrynomedusa</term><term>Phrynomedusa marginata</term><term>Phyllomedusa</term><term>Phyllomedusa ayeaye</term><term>Phyllomedusa azurea</term><term>Phyllomedusa bicolor</term><term>Phyllomedusa centralis</term><term>Phyllomedusa oreades</term><term>Phyllomedusa sauvagii</term><term>Phyllomedusa tomopterna</term><term>Phyllomedusinae</term><term>Phyllomedusine</term><term>Phyllomedusines</term><term>Phylogenetic</term><term>Phylogenetic analysis</term><term>Phylogenetic hypothesis</term><term>Phylogenetic relationships</term><term>Physiol</term><term>Pimenta</term><term>Pombal</term><term>Precursor</term><term>Prov</term><term>Putative</term><term>Pyburn</term><term>Reproductive</term><term>Reproductive biology</term><term>Reticulated</term><term>Rica</term><term>Rito</term><term>Rito santo</term><term>Riva</term><term>Rohdei</term><term>Saltator</term><term>Sama</term><term>Santa teresa</term><term>Sauvagii</term><term>Sequence divergence</term><term>Serra</term><term>Several species</term><term>Sheil</term><term>Shoemaker</term><term>Silva</term><term>Sister group</term><term>Sister taxon</term><term>Smns</term><term>Species group</term><term>Species groups</term><term>Spurrelli</term><term>Subfamily</term><term>Synapomorphies</term><term>Synapomorphy</term><term>Tadpole</term><term>Tarsius</term><term>Tarsius group</term><term>Taxon</term><term>Taxonomic</term><term>Taxonomic distribution</term><term>Tetraploidea</term><term>Tomopterna</term><term>Topology</term><term>Trinitatis</term><term>Type locality</term><term>Ubatuba</term><term>Unassigned</term><term>Unavailable species</term><term>Univ</term><term>Universidade</term><term>Urate</term><term>Uricotelism</term><term>Vaillanti</term><term>Water loss</term><term>Webbing</term><term>Weygoldt</term><term>Wiens</term><term>Willi</term><term>Willi hennig society</term><term>Zool</term><term>Zootaxa</term></keywords><keywords scheme="Wicri" type="geographic" xml:lang="fr"><term>Brésil</term><term>Équateur</term><term>Guyana</term></keywords></textClass></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">The leaf or monkey frogs of the hylid subfamily Phyllomedusinae are a unique group of charismatic anurans. We present a molecular phylogenetic analysis that includes 45 of the 60 species of phyllomedusines using up to 12 genes and intervening tRNAs. The aims were to gain a better understanding of the phylogenetic position of Phrynomedusa, test the monophyly and explore the relationships among several putative lineages (Hylomantis, the H. buckleyi Group, Phasmahyla, the four species groups of Phyllomedusa, and the species of Phyllomedusa that remain unassigned to any group), and to examine the implications of our phylogeny for the evolution of several characters in phyllomedusines. The analyses resulted in a well‐supported phylogenetic hypothesis that provides a historical framework for a discussion of the evolution of characters associated with reproductive biology, gliding behaviour, the physiology of waterproofing, and bioactive peptides. Implications include an earlier origin for eggless capsules than for leaf‐folding behaviour during amplexus, two independent origins of gliding, and an earlier origin of reduction in evaporative water loss than uricotelism, which is a result that originally was predicted on the basis of physiology alone. Furthermore, our results support the prediction that bioactive peptides from different peptide families are to be expected in all species of Phyllomedusinae. Hylomantis (as recently redefined) is shown to be paraphyletic and the synonymy of Agalychnis is revised to remedy this problem by including both Hylomantis and Pachymedusa. © The Willi Hennig Society 2009.</div></front></TEI><affiliations><list><country><li>Allemagne</li><li>Argentine</li><li>Brésil</li><li>Colombie</li><li>Venezuela</li><li>États-Unis</li></country><region><li>Ohio</li><li>État de New York</li><li>État de Rio de Janeiro</li><li>État de São Paulo</li></region><settlement><li>São Paulo</li></settlement></list><tree><country name="États-Unis"><region name="État de New York"><name sortKey="Faivovich, Julian" sort="Faivovich, Julian" uniqKey="Faivovich J" first="Julián" last="Faivovich">Julián Faivovich</name></region><name sortKey="Sheil, Christopher" sort="Sheil, Christopher" uniqKey="Sheil C" first="Christopher" last="Sheil">Christopher Sheil</name><name sortKey="Wheeler, Ward C" sort="Wheeler, Ward C" uniqKey="Wheeler W" first="Ward C." last="Wheeler">Ward C. Wheeler</name></country><country name="Argentine"><noRegion><name sortKey="Faivovich, Julian" sort="Faivovich, Julian" uniqKey="Faivovich J" first="Julián" last="Faivovich">Julián Faivovich</name></noRegion></country><country name="Brésil"><region name="État de São Paulo"><name sortKey="Haddad, Celio F B" sort="Haddad, Celio F B" uniqKey="Haddad C" first="Célio F. B." last="Haddad">Célio F. B. Haddad</name></region><name sortKey="Alvares, Guilherme F R" sort="Alvares, Guilherme F R" uniqKey="Alvares G" first="Guilherme F. R." last="Álvares">Guilherme F. R. Álvares</name><name sortKey="Baeta, Delio" sort="Baeta, Delio" uniqKey="Baeta D" first="Délio" last="Baêta">Délio Baêta</name><name sortKey="Brandao, Reuber A" sort="Brandao, Reuber A" uniqKey="Brandao R" first="Reuber A." last="Brandão">Reuber A. Brandão</name><name sortKey="Cruz, Carlos A G" sort="Cruz, Carlos A G" uniqKey="Cruz C" first="Carlos A. G." last="Cruz">Carlos A. G. Cruz</name></country><country name="Allemagne"><noRegion><name sortKey="Jungfer, Karl Einz" sort="Jungfer, Karl Einz" uniqKey="Jungfer K" first="Karl-Heinz" last="Jungfer">Karl-Heinz Jungfer</name></noRegion></country><country name="Colombie"><noRegion><name sortKey="Barrientos, Lucas S" sort="Barrientos, Lucas S" uniqKey="Barrientos L" first="Lucas S." last="Barrientos">Lucas S. Barrientos</name></noRegion></country><country name="Venezuela"><noRegion><name sortKey="Barrio Mor S, Cesar L" sort="Barrio Mor S, Cesar L" uniqKey="Barrio Mor S C" first="César L." last="Barrio-Amor S">César L. Barrio-Amor S</name></noRegion></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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