treatments-xml/data/FB/09/87/FB0987AFFFF0A2196E3648B77D42F82D.xml

<document id="95E72F9041E26B459840AC3985FBEA9D" ID-CLB-Dataset="20568" ID-DOI="10.15553/c2019v741a3" ID-GBIF-Dataset="0a995977-4aa4-46c0-a7d2-53cd3406f719" ID-ISSN="2235-3658" ID-Zenodo-Dep="5724641" IM.materialsCitations_approvedBy="felipe" IM.metadata_approvedBy="felipe" IM.tables_requiresApprovalFor="existingObjects,plazi" IM.taxonomicNames_approvedBy="felipe" checkinTime="1637765024894" checkinUser="carolina" docAuthor="Stauffer, Fred W., Eychenne, Joan, Ortega, Nesly &amp; Balslev, Henrik" docDate="2019" docId="FB0987AFFFF0A2196E3648B77D42F82D" docLanguage="en" docName="Candollea.74.1.15-30.pdf" docOrigin="Candollea 74 (1)" docStyle="DocumentStyle:1E5CC43F38D0DBC531513809D1267F7B.3:Candollea.2015-.journal_article" docStyleId="1E5CC43F38D0DBC531513809D1267F7B" docStyleName="Candollea.2015-.journal_article" docStyleVersion="3" docTitle="Wendlandiella Dammer 1905" docType="treatment" docVersion="6" lastPageNumber="26" masterDocId="0730FFD7FFFBA2126D174C407812FFA2" masterDocTitle="Structural biology and evolution in the monotypic Amazonian palm Wendlandiella (Arecoideae: Chamaedoreeae)" masterLastPageNumber="30" masterPageNumber="15" pageNumber="26" updateTime="1699470055293" updateUser="ExternalLinkService" zenodo-license-document="CC-BY-4.0" zenodo-license-figures="CC-BY-4.0">
<mods:mods id="91F82528C26F3BEC0C346B658789B79F" xmlns:mods="http://www.loc.gov/mods/v3">
<mods:titleInfo id="9F0CF28A60CA747150D7FECE59983EDD">
<mods:title id="C4B805144359B53F25E0F9A388C1A9A3">Structural biology and evolution in the monotypic Amazonian palm Wendlandiella (Arecoideae: Chamaedoreeae)</mods:title>
</mods:titleInfo>
<mods:name id="353D034B736FCC0A04079BDF19E7218B" type="personal">
<mods:role id="5D68DCEA64057986764B2DF9281FE981">
<mods:roleTerm id="5A9AF1E8CB1E0D418D1D2F52C61002A4">Author</mods:roleTerm>
</mods:role>
<mods:namePart id="20F39F4C3C8CB2F8137D79CE6CD4451D">Stauffer, Fred W.</mods:namePart>
<mods:affiliation id="19EBC1DB3D479020508A925BCE700C35">Conservatoire et Jardin botaniques de la Ville de Genève et Laboratoire de systématique végétale et biodiversité de l’Université de Genève, C. P. 71, 1292 Chambésy, Switzerland.</mods:affiliation>
<mods:nameIdentifier id="09CFE811968F3B854A04DB5AB6677424" type="email">fred.stauffer@ville-ge.ch</mods:nameIdentifier>
</mods:name>
<mods:name id="98EFFDEB887AAC29AEBF4328BF17AF7E" type="personal">
<mods:role id="F378366C1BB977D0CA1C563A06CB292B">
<mods:roleTerm id="9143D7E93AAB1CE423E65196BBC2FF49">Author</mods:roleTerm>
</mods:role>
<mods:namePart id="5D10597D6A081E97BA44EF8D4A86E27C">Eychenne, Joan</mods:namePart>
<mods:affiliation id="20FAF143F1BEED6A158C2E0136618C70">AgroParisTech – Montpellier Center, Campus d’Agropolis 648 rue Jean-François Breton BP 44494 34093, Montpellier cedex 5, France.</mods:affiliation>
</mods:name>
<mods:name id="54224C2506D3F193D0323AAF27CECF9F" type="personal">
<mods:role id="23CFA9660F508FD78F2207278919B9A0">
<mods:roleTerm id="D88DFD36699CACCFD12DC3871DB3608F">Author</mods:roleTerm>
</mods:role>
<mods:namePart id="86030EF738C705BE6E6DA41A5CCEBB4C">Ortega, Nesly</mods:namePart>
<mods:affiliation id="4A8EC0FA97A2B1681AC5E363FC4D53A9">University of San Marcos, Lima, Peru.</mods:affiliation>
</mods:name>
<mods:name id="41D7D0E33CAC3E87C0D2E74C0530B8CC" type="personal">
<mods:role id="B3F06903093630D114FECD6EFEE85747">
<mods:roleTerm id="F8B0CC3C363C10C3528B67AF3B51C3C0">Author</mods:roleTerm>
</mods:role>
<mods:namePart id="FD5F3F5CD1D8DD7BAEC9DFB7113A941C">Balslev, Henrik</mods:namePart>
<mods:affiliation id="58DE13F0084D7379B0BCCCE3DFB59A98">Department of Bioscience, Section of Ecoinformatics and Biodiversity, Aarhus University, Ny Munkegade 114 – 116, 8000 Aarhus C, Denmark</mods:affiliation>
</mods:name>
<mods:typeOfResource id="60E56204441365FD45F685CD0898B535">text</mods:typeOfResource>
<mods:relatedItem id="C1048F508865DC601F6FDB7FACEE6B5D" type="host">
<mods:titleInfo id="AA7E3BC38A233FA89B8039F0DA3542BB">
<mods:title id="D2288C70F327E81544745E6703B90B9E">Candollea</mods:title>
</mods:titleInfo>
<mods:part id="17E1174FEC568595B53971D2175E645E">
<mods:date id="E163E35382F9B13888245A3D39A25AA2">2019</mods:date>
<mods:detail id="E85E09C7BE3EF122CDE483F138C0607F" type="pubDate">
<mods:number id="7A3986F641EC7B8F6D0637E41325C2C5">2019-03-28</mods:number>
</mods:detail>
<mods:detail id="EDE6B1862B9830E8B4ACD28481AF6D03" type="volume">
<mods:number id="6292A1226FF3980B5F5BD311525C0F07">74</mods:number>
</mods:detail>
<mods:detail id="B03A863D5E0323213D01C8F78471A6E5" type="issue">
<mods:number id="D159961E1655A6CFBD9099F8832A09D6">1</mods:number>
</mods:detail>
<mods:extent id="F33CB775B479B8829FDB7903908D4570" unit="page">
<mods:start id="C8BD8D2FA1649C231A8C2B0B6DEC9A05">15</mods:start>
<mods:end id="B15ED64E0580848BEF5BE45094225E37">30</mods:end>
</mods:extent>
</mods:part>
</mods:relatedItem>
<mods:classification id="C5175AE9997D2D5FFAEA1DC9D9B152FE">journal article</mods:classification>
<mods:identifier id="DB3FC7A92535404CFDDA3FBA393ACEBE" type="CLB-Dataset">20568</mods:identifier>
<mods:identifier id="3174EA5ED4438AC38E14E3A586F3AD21" type="DOI">10.15553/c2019v741a3</mods:identifier>
<mods:identifier id="6D63BB922804C49B594FBD17482720D3" type="GBIF-Dataset">0a995977-4aa4-46c0-a7d2-53cd3406f719</mods:identifier>
<mods:identifier id="52C68216B72C8B502443EE008BD35B5C" type="ISSN">2235-3658</mods:identifier>
<mods:identifier id="AD16270B1B3540BE3C28A8A197E77EA4" type="Zenodo-Dep">5724641</mods:identifier>
</mods:mods>
<treatment id="FB0987AFFFF0A2196E3648B77D42F82D" ID-DOI="http://doi.org/10.5281/zenodo.6314316" ID-GBIF-Taxon="193421037" ID-Zenodo-Dep="6314316" LSID="urn:lsid:plazi:treatment:FB0987AFFFF0A2196E3648B77D42F82D" httpUri="http://treatment.plazi.org/id/FB0987AFFFF0A2196E3648B77D42F82D" lastPageNumber="26" pageId="11" pageNumber="26">
<subSubSection id="3BBA6532FFF0A2196E3648B77CE6FAAC" box="[801,1268,1270,1295]" pageId="11" pageNumber="26" type="nomenclature">
<paragraph id="731F36B9FFF0A2196E3648B77CE6FAAC" blockId="11.[801,1268,1270,1295]" box="[801,1268,1270,1295]" pageId="11" pageNumber="26">
<heading id="285781D5FFF0A2196E3648B77CE6FAAC" box="[801,1268,1270,1295]" fontSize="10" level="2" pageId="11" pageNumber="26" reason="2">
<emphasis id="41D4EAABFFF0A2196E3648B77CE6FAAC" bold="true" box="[801,1268,1270,1295]" italics="true" pageId="11" pageNumber="26">
Dioecy in 
<taxonomicName id="B4A04D3AFFF0A2196E9048B67C08FAAC" ID-CoL="8W4P8" authorityName="Dammer" authorityYear="1905" box="[903,1050,1270,1294]" class="Liliopsida" family="Arecaceae" genus="Wendlandiella" kingdom="Plantae" order="Arecales" pageId="11" pageNumber="26" phylum="Tracheophyta" rank="genus">Wendlandiella</taxonomicName>
and palms in general
</emphasis>
</heading>
</paragraph>
</subSubSection>
<subSubSection id="3BBA6532FFF0A2196E3649577D42F82D" pageId="11" pageNumber="26" type="discussion">
<paragraph id="731F36B9FFF0A2196E3649577D42F82D" blockId="11.[801,1452,1303,1935]" pageId="11" pageNumber="26">
Dioecy occurs in nearly half of the angiosperm families (
<bibRefCitation id="17314B48FFF0A2196E3C49777BEAFAED" author="VAMOSI" box="[811,1016,1335,1359]" etAl="et al." firstAuthor="VAMOSI" pageId="11" pageNumber="26" pagination="1006 - 1018" refId="ref10232" refString="VAMOSI, J. C., S. P. OTTO &amp; S. C. H. BARRETT (2003). Phylogenetic analysis of the ecological correlates of dioecy in angiosperms. J. Evol. Biol. 16: 1006 - 1018." type="journal article" year="2003">VAMOSI et al., 2003</bibRefCitation>
; 
<bibRefCitation id="17314B48FFF0A219691549777C8BFAED" author="RENNER" box="[1026,1177,1335,1359]" firstAuthor="RENNER" pageId="11" pageNumber="26" pagination="1588 - 1596" refId="ref9670" refString="RENNER, S. S. (2014). The relative and absolute frequencies of angiosperm sexual systems: dioecy, monoecy, gynoedioecy, and an update online database. Amer. J. Bot. 101: 1588 - 1596." type="journal article" year="2014">RENNER, 2014</bibRefCitation>
) and dioecy is found in all palm subfamilies except the monotypic 
<taxonomicName id="B4A04D3AFFF0A21969D549177D38FACD" box="[1218,1322,1367,1391]" class="Liliopsida" family="Arecaceae" kingdom="Plantae" order="Arecales" pageId="11" pageNumber="26" phylum="Tracheophyta" rank="subFamily" subFamily="Nypoideae">
<emphasis id="41D4EAABFFF0A21969D549177D38FACD" box="[1218,1322,1367,1391]" italics="true" pageId="11" pageNumber="26">Nypoideae</emphasis>
</taxonomicName>
(
<bibRefCitation id="17314B48FFF0A219682F49177B8FFA2D" author="ASMUSSEN, C. B. &amp; J. DRANSFIELD &amp; V. DEICKMANN &amp; A. S. BARFOD &amp; J. C. PINTAUD &amp; W. J. BAKER" journalOrPublisher="Bot. J. Linn. Soc." pageId="11" pageNumber="26" pagination="15 - 38" part="151" refId="ref8159" refString="ASMUSSEN, C. B., J. DRANSFIELD, V. DEICKMANN, A. S. BARFOD, J. C. PINTAUD &amp; W. J. BAKER (2006). A new subfamily classification of the palm family (Arecaceae): evidence from plastid DNA phylogeny. Bot. J. Linn. Soc. 151: 15 - 38." title="A new subfamily classification of the palm family (Arecaceae): evidence from plastid DNA phylogeny" type="journal article" year="2006">ASMUSSEN et al., 2006</bibRefCitation>
; 
<bibRefCitation id="17314B48FFF0A2196EBE49377CA9FA2D" author="DRANSFIELD" box="[937,1211,1399,1423]" etAl="et al." firstAuthor="DRANSFIELD" pageId="11" pageNumber="26" refId="ref8817" refString="DRANSFIELD, J., N. W. UHL, C. B. ASMUSSEN, W. J. BAKER, M. M. HARLEY &amp; C. E. LEWIS (2008). Genera Palmarum: the evolution and classification of palms. Kew Publishing." type="book" year="2008">DRANSFIELD et al., 2008</bibRefCitation>
). Based on parsimony and maximum likelihood optimizations, 
<bibRefCitation id="17314B48FFF0A21969C149D77DB9FA0D" author="NADOT" box="[1238,1451,1431,1455]" etAl="et al." firstAuthor="NADOT" pageId="11" pageNumber="26" pagination="376 - 388" refId="ref9433" refString="NADOT, S., E. ALAPETITE, W. J. BAKER, J. W. TREGEAR &amp; A. BARFOD (2016). The palm family (Arecaceae): a microcosm of sexual system evolution. Bot. J. Linn. Soc. 182: 376 - 388." type="journal article" year="2016">NADOT et al. (2016)</bibRefCitation>
hypothesized that dioecy evolved directly from monoecy in 
<taxonomicName id="B4A04D3AFFF0A2196E3649977B9FFA4D" authorityName="Burnett" authorityYear="1835" box="[801,909,1495,1519]" class="Liliopsida" family="Arecaceae" kingdom="Plantae" order="Arecales" pageId="11" pageNumber="26" phylum="Tracheophyta" rank="subFamily" subFamily="Arecoideae">
<emphasis id="41D4EAABFFF0A2196E3649977B9FFA4D" box="[801,909,1495,1519]" italics="true" pageId="11" pageNumber="26">Arecoideae</emphasis>
</taxonomicName>
and 
<taxonomicName id="B4A04D3AFFF0A2196ED349977C5AFA4D" box="[964,1096,1495,1519]" class="Liliopsida" family="Arecaceae" kingdom="Plantae" order="Arecales" pageId="11" pageNumber="26" phylum="Tracheophyta" rank="subFamily" subFamily="Calamoideae">
<emphasis id="41D4EAABFFF0A2196ED349977C5AFA4D" box="[964,1096,1495,1519]" italics="true" pageId="11" pageNumber="26">Calamoideae</emphasis>
</taxonomicName>
whereas it evolved from hermaphroditism in 
<emphasis id="41D4EAABFFF0A2196ED249B77C4EF9AD" box="[965,1116,1527,1551]" italics="true" pageId="11" pageNumber="26">
<taxonomicName id="B4A04D3AFFF0A2196ED249B77C4AF9AD" authorityName="Burnett" authorityYear="1835" box="[965,1112,1527,1551]" class="Liliopsida" family="Arecaceae" kingdom="Plantae" order="Arecales" pageId="11" pageNumber="26" phylum="Tracheophyta" rank="subFamily" subFamily="Coryphoideae">Coryphoideae</taxonomicName>
.
</emphasis>
According to 
<bibRefCitation id="17314B48FFF0A219681549B37B7AF98D" author="CASTANO, F. &amp; F. W. STAUFFER &amp; X. MARQUINEZ &amp; M. CREVECOEUR &amp; M. COLLIN &amp; J. C. PINTAUD &amp; J. TREGEAR" journalOrPublisher="Ann. Bot. (Oxford)" pageId="11" pageNumber="26" pagination="1483 - 1495" part="114" refId="ref8449" refString="CASTANO, F., F. W. STAUFFER, X. MARQUINEZ, M. CREVECOEUR, M. COLLIN, J. C. PINTAUD &amp; J. TREGEAR (2014). Floral structure and development in the monoecious palm Gaussia attenuata (Arecaceae; Arecoideae). Ann. Bot. (Oxford) 114: 1483 - 1495." title="Floral structure and development in the monoecious palm Gaussia attenuata (Arecaceae; Arecoideae)" type="journal article" year="2014">CASTAÑO et al. (2014)</bibRefCitation>
the fact that all 107 genera of the palm subfamily 
<taxonomicName id="B4A04D3AFFF0A2196E364A777B9BF9ED" authorityName="Burnett" authorityYear="1835" box="[801,905,1591,1615]" class="Liliopsida" family="Arecaceae" kingdom="Plantae" order="Arecales" pageId="11" pageNumber="26" phylum="Tracheophyta" rank="subFamily" subFamily="Arecoideae">
<emphasis id="41D4EAABFFF0A2196E364A777B9BF9ED" box="[801,905,1591,1615]" italics="true" pageId="11" pageNumber="26">Arecoideae</emphasis>
</taxonomicName>
are monoecious, with the exception of 
<taxonomicName id="B4A04D3AFFF0A21968344A777DB9F9ED" box="[1315,1451,1591,1615]" class="Liliopsida" family="Arecaceae" genus="Chamaedorea" kingdom="Plantae" order="Arecales" pageId="11" pageNumber="26" phylum="Tracheophyta" rank="genus">
<emphasis id="41D4EAABFFF0A21968344A777DB9F9ED" box="[1315,1451,1591,1615]" italics="true" pageId="11" pageNumber="26">Chamaedorea</emphasis>
</taxonomicName>
and 
<emphasis id="41D4EAABFFF0A2196E594A177BF3F9CD" box="[846,993,1623,1647]" italics="true" pageId="11" pageNumber="26">
<taxonomicName id="B4A04D3AFFF0A2196E594A177BCFF9CD" authorityName="Dammer" authorityYear="1905" box="[846,989,1623,1647]" class="Liliopsida" family="Arecaceae" genus="Wendlandiella" kingdom="Plantae" order="Arecales" pageId="11" pageNumber="26" phylum="Tracheophyta" rank="genus">Wendlandiella</taxonomicName>
,
</emphasis>
suggests strongly that the common ancestor of this group was also monoecious. Thus, the two genera could be used as an interesting model to test the different evolutionary pathways proposed by DORKEN &amp; BARRET (2003) for the origin of dioecy in Angiosperms (gynodioecy vs monoecyparadioecy). Our study contributes to a better understanding of the reproductive structures in 
<emphasis id="41D4EAABFFF0A21969AE4B577D73F88D" box="[1209,1377,1815,1839]" italics="true" pageId="11" pageNumber="26">
<taxonomicName id="B4A04D3AFFF0A21969AE4B577D4FF88D" authorityName="Drude" authorityYear="1877" box="[1209,1373,1815,1839]" class="Liliopsida" family="Arecaceae" kingdom="Plantae" order="Arecales" pageId="11" pageNumber="26" phylum="Tracheophyta" rank="tribe" tribe="Chamaedoreeae">Chamaedoreeae</taxonomicName>
,
</emphasis>
which is fundamental for further ontogenetic studies and molecular histological approaches exploring underlying sexual differentiation processes responsible for dioecy in the group.
</paragraph>
</subSubSection>
</treatment>
</document>