152 lines
13 KiB
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152 lines
13 KiB
XML
<document ID-DOI="10.1093/molbev/msu329" ID-GBIF-Dataset="a364ceb5-1864-42dd-8964-fc452127f62f" ID-PMC="PMC4769323" ID-PubMed="25433366" ID-Zenodo-Dep="3760492" checkinTime="1587548066569" checkinUser="plazi" docAuthor="Foley, Nicole M., Thong, Vu Dinh, Soisook, Pipat, Goodman, Steven M., Armstrong, Kyle N., Jacobs, David S., Puechmaille, Sebastien J. & Teeling, Emma C." docDate="2014" docId="03AC8780FF96FFF684800AE374044EB0" docLanguage="en" docName="moBiolEvol.32.2.313-333.pdf" docOrigin="Molecular Biology and Evolution 32 (2)" docStyle="DocumentStyle{}" docTitle="Rhinonycteridae" docType="treatment" docVersion="6" lastPageNumber="324" masterDocId="FF95FFF8FF9DFFFD84070815756D4A1E" masterDocTitle="How and Why Overcome the Impediments to Resolution: Lessons from rhinolophid and hipposiderid Bats" masterLastPageNumber="333" masterPageNumber="313" pageNumber="324" updateTime="1668135803336" updateUser="ExternalLinkService">
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<mods:mods xmlns:mods="http://www.loc.gov/mods/v3">
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<mods:titleInfo>
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<mods:title>How and Why Overcome the Impediments to Resolution: Lessons from rhinolophid and hipposiderid Bats</mods:title>
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</mods:titleInfo>
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<mods:name type="personal">
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<mods:role>
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<mods:roleTerm>Author</mods:roleTerm>
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</mods:role>
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<mods:namePart>Foley, Nicole M.</mods:namePart>
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<mods:affiliation>School of Biology & Environmental Science, University College Dublin, Belfield, Dublin, Ireland</mods:affiliation>
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</mods:name>
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<mods:name type="personal">
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<mods:role>
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<mods:roleTerm>Author</mods:roleTerm>
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</mods:role>
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<mods:namePart>Thong, Vu Dinh</mods:namePart>
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<mods:affiliation>Institute of Ecology and Biological Resources, Vietnam Academy of Science and Technology, Hanoi, Vietnam</mods:affiliation>
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</mods:name>
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<mods:name type="personal">
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<mods:role>
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<mods:roleTerm>Author</mods:roleTerm>
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</mods:role>
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<mods:namePart>Soisook, Pipat</mods:namePart>
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<mods:affiliation>Princess Maha Chakri Sirindhorn Natural History Museum, Prince of Songkla University, Hat Yai, Songkhla, Thailand</mods:affiliation>
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</mods:name>
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<mods:name type="personal">
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<mods:role>
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<mods:roleTerm>Author</mods:roleTerm>
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</mods:role>
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<mods:namePart>Goodman, Steven M.</mods:namePart>
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<mods:affiliation>Field Museum of Natural History, Chicago, IL, USA</mods:affiliation>
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</mods:name>
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<mods:name type="personal">
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<mods:role>
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<mods:roleTerm>Author</mods:roleTerm>
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</mods:role>
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<mods:namePart>Armstrong, Kyle N.</mods:namePart>
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<mods:affiliation>Australian Centre for Evolutionary Biology & Biodiversity, The University of Adelaide, Adelaide, South Australia, Australia</mods:affiliation>
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</mods:name>
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<mods:name type="personal">
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<mods:role>
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<mods:roleTerm>Author</mods:roleTerm>
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</mods:role>
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<mods:namePart>Jacobs, David S.</mods:namePart>
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<mods:affiliation>Department of Biological Sciences, University of Cape Town, Rondebosch, South Africa</mods:affiliation>
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</mods:name>
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<mods:name type="personal">
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<mods:role>
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<mods:roleTerm>Author</mods:roleTerm>
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</mods:role>
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<mods:namePart>Puechmaille, Sebastien J.</mods:namePart>
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<mods:affiliation>Zoological Institute and Museum, Greifswald University, Greifswald, Germany</mods:affiliation>
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</mods:name>
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<mods:name type="personal">
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<mods:role>
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<mods:roleTerm>Author</mods:roleTerm>
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</mods:role>
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<mods:namePart>Teeling, Emma C.</mods:namePart>
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</mods:name>
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<mods:typeOfResource>text</mods:typeOfResource>
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<mods:relatedItem type="host">
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<mods:titleInfo>
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<mods:title>Molecular Biology and Evolution</mods:title>
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</mods:titleInfo>
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<mods:part>
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<mods:date>2014</mods:date>
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<mods:detail type="pubDate">
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<mods:number>2014-11-29</mods:number>
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</mods:detail>
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<mods:detail type="volume">
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<mods:number>32</mods:number>
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</mods:detail>
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<mods:detail type="issue">
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<mods:number>2</mods:number>
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</mods:detail>
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<mods:extent unit="page">
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<mods:start>313</mods:start>
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<mods:end>333</mods:end>
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</mods:extent>
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</mods:part>
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</mods:relatedItem>
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<mods:classification>journal article</mods:classification>
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<mods:identifier type="DOI">10.1093/molbev/msu329</mods:identifier>
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<mods:identifier type="GBIF-Dataset">a364ceb5-1864-42dd-8964-fc452127f62f</mods:identifier>
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<mods:identifier type="PMC">PMC4769323</mods:identifier>
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<mods:identifier type="PubMed">25433366</mods:identifier>
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<mods:identifier type="Zenodo-Dep">3760492</mods:identifier>
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</mods:mods>
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<treatment ID-DOI="http://doi.org/10.5281/zenodo.3805283" ID-GBIF-Taxon="163730925" ID-Zenodo-Dep="3805283" LSID="urn:lsid:plazi:treatment:03AC8780FF96FFF684800AE374044EB0" httpUri="http://treatment.plazi.org/id/03AC8780FF96FFF684800AE374044EB0" lastPageNumber="324" pageId="11" pageNumber="324">
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<subSubSection box="[135,298,758,782]" pageId="11" pageNumber="324" type="nomenclature">
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<paragraph blockId="11.[135,762,758,1198]" box="[135,298,758,782]" pageId="11" pageNumber="324">
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<taxonomicName box="[135,298,758,782]" class="Mammalia" family="Rhinonycteridae" higherTaxonomySource="GBIF" kingdom="Metazoa" order="Chiroptera" pageId="11" pageNumber="324" phylum="Chordata" rank="family">
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<emphasis box="[135,298,758,782]" italics="true" pageId="11" pageNumber="324">Rhinonycteridae</emphasis>
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</taxonomicName>
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</paragraph>
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</subSubSection>
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<subSubSection pageId="11" pageNumber="324" type="discussion">
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<paragraph blockId="11.[135,762,758,1198]" pageId="11" pageNumber="324">
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The original description of
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<taxonomicName authorityName="J. E. Gray" authorityYear="1866" box="[411,568,790,814]" class="Mammalia" family="Hipposideridae" kingdom="Animalia" order="Chiroptera" pageId="11" pageNumber="324" phylum="Chordata" rank="subTribe" subTribe="Rhinonycterina">Rhinonycterina</taxonomicName>
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was recognized by later studies and was expanded to include
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<taxonomicName authorityName="Dobson" authorityYear="1871" box="[611,710,823,847]" class="Mammalia" family="Hipposideridae" genus="Triaenops" kingdom="Animalia" order="Chiroptera" pageId="11" pageNumber="324" phylum="Chordata" rank="genus">
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<emphasis box="[611,710,823,847]" italics="true" pageId="11" pageNumber="324">Triaenops</emphasis>
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</taxonomicName>
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and
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<taxonomicName authorityName="Thomas" authorityYear="1901" box="[135,212,854,878]" class="Mammalia" family="Hipposideridae" genus="Cloeotis" kingdom="Animalia" order="Chiroptera" pageId="11" pageNumber="324" phylum="Chordata" rank="genus">
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<emphasis box="[135,212,854,878]" italics="true" pageId="11" pageNumber="324">Cloeotis</emphasis>
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</taxonomicName>
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as these taxa fitted the original description for the
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<taxonomicName authorityName="J. E. Gray" authorityYear="1866" box="[135,292,886,910]" class="Mammalia" family="Hipposideridae" kingdom="Animalia" order="Chiroptera" pageId="11" pageNumber="324" phylum="Chordata" rank="subTribe" subTribe="Rhinonycterina">Rhinonycterina</taxonomicName>
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based primarily on noseleaf morphology (
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<bibRefCitation author="Hill J." journalOrPublisher="Bonn Zool Beitr." pageId="11" pageNumber="324" pagination="165 - 186" part="33" refId="ref16494" refString="Hill J. 1982. A review of the leaf-nosed bats Rhinonycteris, Cloeotis and Triaenops (Chiroptera: Hipposideridae). Bonn Zool Beitr. 33: 165 - 186." title="A review of the leaf-nosed bats Rhinonycteris, Cloeotis and Triaenops (Chiroptera: Hipposideridae)" type="journal article" year="1982">Hill 1982</bibRefCitation>
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). The association of these genera is also supported by our molecular data, which show that
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<taxonomicName authorityName="Dobson" authorityYear="1871" box="[530,630,950,974]" class="Mammalia" family="Hipposideridae" genus="Triaenops" kingdom="Animalia" order="Chiroptera" pageId="11" pageNumber="324" phylum="Chordata" rank="genus">
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<emphasis box="[530,630,950,974]" italics="true" pageId="11" pageNumber="324">Triaenops</emphasis>
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</taxonomicName>
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and
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<taxonomicName authorityName="Thomas" authorityYear="1901" box="[685,762,950,974]" class="Mammalia" family="Hipposideridae" genus="Cloeotis" kingdom="Animalia" order="Chiroptera" pageId="11" pageNumber="324" phylum="Chordata" rank="genus">
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<emphasis box="[685,762,950,974]" italics="true" pageId="11" pageNumber="324">Cloeotis</emphasis>
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</taxonomicName>
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are sister taxa (
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<figureCitation box="[290,339,982,1006]" captionStart="FIG" captionStartId="5.[135,146,855,875]" captionTargetBox="[153,1433,124,830]" captionTargetId="figure@5.[152,1434,123,831]" captionTargetPageId="5" captionText="FIG. 2. Phylogram inferred from Bayesian Analysis in BEAST on the exon+intron-outliers removed data set,10,420 bp comprising 12 nuclear exons and 7 nuclear introns, under a fully partitioned model. Nodal support for the exon+intron-outliers removed data set is summarized on the tree for all four analyses—RaxML, BEAST, MrBayes, and PhyloBayes. All numeric support values are shown as percentages and refer to each analysis in the order listed above. Black squares denote highly supported nodes all of which received support 4 99 BSS or 0.99 PP across all four analyses. A “-” indicates that this relationship was not supported by the analysis. See Systematic Summary for full description of the newly elevated family Rhinonycteridae. Frontal views of nose leaves of representatives of the major clades are shown as follows: Rhinolophidae—Rhinolophus pearsoni and Hipposideridae—Hipposideros spp. (photo credit—Sebastien J. Puechmaille) and Rhinonycteridae—Triaenops (photo credit—Paul Webala)." figureDoi="http://doi.org/10.5281/zenodo.3760496" httpUri="https://zenodo.org/record/3760496/files/figure.png" pageId="11" pageNumber="324">fig. 2</figureCitation>
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) and, furthermore, form a monophyletic group with
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<taxonomicName authorityName="J. E. Gray" authorityYear="1847" box="[262,391,1014,1038]" class="Mammalia" family="Hipposideridae" genus="Rhinonicteris" kingdom="Animalia" order="Chiroptera" pageId="11" pageNumber="324" phylum="Chordata" rank="genus">
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<emphasis box="[262,391,1014,1038]" italics="true" pageId="11" pageNumber="324">Rhinonicteris</emphasis>
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</taxonomicName>
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. The data also support the recent separation of
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<taxonomicName authorityName="Dobson" authorityYear="1871" box="[281,381,1046,1070]" class="Mammalia" family="Hipposideridae" genus="Triaenops" kingdom="Animalia" order="Chiroptera" pageId="11" pageNumber="324" phylum="Chordata" rank="genus">
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<emphasis box="[281,381,1046,1070]" italics="true" pageId="11" pageNumber="324">Triaenops</emphasis>
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</taxonomicName>
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and
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<taxonomicName authorityName="Benda and Vallo" authorityYear="2009" box="[439,580,1046,1070]" class="Mammalia" family="Hipposideridae" genus="Paratriaenops" kingdom="Animalia" order="Chiroptera" pageId="11" pageNumber="324" phylum="Chordata" rank="genus">
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<emphasis box="[439,580,1046,1070]" italics="true" pageId="11" pageNumber="324">Paratriaenops</emphasis>
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</taxonomicName>
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but do not support the monophyly of the recently erected Tribe
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<taxonomicName authority="(Benda and Vallo 2009)" baseAuthorityName="Benda and Vallo" baseAuthorityYear="2009" class="Mammalia" family="Hipposideridae" kingdom="Animalia" order="Chiroptera" pageId="11" pageNumber="324" phylum="Chordata" rank="tribe" tribe="Triaenopini">
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Triaenopini (
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<bibRefCitation author="Benda P & Vallo P." box="[143,394,1110,1134]" journalOrPublisher="Folia Zool." pageId="11" pageNumber="324" pagination="1 - 45" part="58" refId="ref15377" refString="Benda P, Vallo P. 2009. Taxonomic revision of the genus Triaenops (Chiroptera: Hipposideridae) with description of a new species from southern Arabia and definitions of a new genus and tribe. Folia Zool. 58: 1 - 45." title="Taxonomic revision of the genus Triaenops (Chiroptera: Hipposideridae) with description of a new species from southern Arabia and definitions of a new genus and tribe" type="journal article" year="2009">Benda and Vallo 2009</bibRefCitation>
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)
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</taxonomicName>
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. Strong support was found for
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<taxonomicName authorityName="Benda and Vallo" authorityYear="2009" box="[135,276,1142,1166]" class="Mammalia" family="Hipposideridae" genus="Paratriaenops" kingdom="Animalia" order="Chiroptera" pageId="11" pageNumber="324" phylum="Chordata" rank="genus">
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<emphasis box="[135,276,1142,1166]" italics="true" pageId="11" pageNumber="324">Paratriaenops</emphasis>
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</taxonomicName>
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as the basal clade of the extant crown group rhinonycterids (
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<figureCitation box="[299,349,1174,1198]" captionStart="FIG" captionStartId="5.[135,146,855,875]" captionTargetBox="[153,1433,124,830]" captionTargetId="figure@5.[152,1434,123,831]" captionTargetPageId="5" captionText="FIG. 2. Phylogram inferred from Bayesian Analysis in BEAST on the exon+intron-outliers removed data set,10,420 bp comprising 12 nuclear exons and 7 nuclear introns, under a fully partitioned model. Nodal support for the exon+intron-outliers removed data set is summarized on the tree for all four analyses—RaxML, BEAST, MrBayes, and PhyloBayes. All numeric support values are shown as percentages and refer to each analysis in the order listed above. Black squares denote highly supported nodes all of which received support 4 99 BSS or 0.99 PP across all four analyses. A “-” indicates that this relationship was not supported by the analysis. See Systematic Summary for full description of the newly elevated family Rhinonycteridae. Frontal views of nose leaves of representatives of the major clades are shown as follows: Rhinolophidae—Rhinolophus pearsoni and Hipposideridae—Hipposideros spp. (photo credit—Sebastien J. Puechmaille) and Rhinonycteridae—Triaenops (photo credit—Paul Webala)." figureDoi="http://doi.org/10.5281/zenodo.3760496" httpUri="https://zenodo.org/record/3760496/files/figure.png" pageId="11" pageNumber="324">fig. 2</figureCitation>
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).
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</paragraph>
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</subSubSection>
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</treatment>
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</document> |