111 lines
11 KiB
XML
111 lines
11 KiB
XML
<document id="951D325A68515650E49FAEDB77510D5B" ID-CLB-Dataset="21274" ID-DOI="10.11646/zootaxa.4803.3.8" ID-GBIF-Dataset="ed5534a5-5b9d-4276-b534-71485fddc10d" ID-ISSN="1175-5326" ID-Zenodo-Dep="3991036" ID-ZooBank="137E5F01-F96B-4468-8BE3-87E894EF0D5E" IM.metadata_approvedBy="felipe" IM.tables_requiresApprovalFor="existingObjects,plazi" IM.taxonomicNames_approvedBy="felipe" checkinTime="1597798246804" checkinUser="felipe" docAuthor="Cubillos, Claudio & Vera, Alejandro" docDate="2020" docId="03BD924A22742046FF4CFA3FFECEF943" docLanguage="en" docName="zootaxa.4803.3.8.pdf.imf" docOrigin="Zootaxa 4803 (3)" docStyle="DocumentStyle:647186512141C8FC8976D5BCC54AEB7D.9:Zootaxa.2013-.journal_article" docStyleId="647186512141C8FC8976D5BCC54AEB7D" docStyleName="Zootaxa.2013-.journal_article" docStyleVersion="9" docTitle="Agathemera grylloidea" docType="treatment" docVersion="5" lastPageNumber="532" masterDocId="FF84EA32227D204FFFDBFFBAFFC1FFA0" masterDocTitle="Comparative morphology of the eggs from the eight species in the genus Agathemera Stål (Insecta: Phasmatodea), through phylogenetic comparative method approach" masterLastPageNumber="543" masterPageNumber="523" pageNumber="532" updateTime="1698844838861" updateUser="ExternalLinkService" zenodo-license-document="CLOSED">
|
|
<mods:mods id="D401C0A83ECAE38BDBABD9D8AFE6EF35" xmlns:mods="http://www.loc.gov/mods/v3">
|
|
<mods:titleInfo id="377846C285C537B3C62BA3F17373C3AF">
|
|
<mods:title id="07E7C0ADC2D4CF491C33FD3172C9EA95">Comparative morphology of the eggs from the eight species in the genus Agathemera Stål (Insecta: Phasmatodea), through phylogenetic comparative method approach</mods:title>
|
|
</mods:titleInfo>
|
|
<mods:name id="709980F7B2EA3DBFDAB4057CE962EE5C" type="personal">
|
|
<mods:role id="FAAEF3BE4D7D79FE90FF67C17402E8A3">
|
|
<mods:roleTerm id="73396CB2EB6E9EF9BA91A77C820BB834">Author</mods:roleTerm>
|
|
</mods:role>
|
|
<mods:namePart id="D3794B52E8CB925322B6DDF9D02149CE">Cubillos, Claudio</mods:namePart>
|
|
<mods:affiliation id="D98E26F721C7737F5B0BEEEDB8426912">Landcare Research, Private Bag 92170, Auckland, New Zealand. & School of Biological Science, The University of Auckland, Private Bag 92019, Auckland, New Zealand.</mods:affiliation>
|
|
</mods:name>
|
|
<mods:name id="BF21A25C9C87EDCEC0ECCE4CE85C0B57" type="personal">
|
|
<mods:role id="E2E0FCAA8A988860294E0B893E08CA4D">
|
|
<mods:roleTerm id="48C174588E2CD6EB0DA778851B0250A8">Author</mods:roleTerm>
|
|
</mods:role>
|
|
<mods:namePart id="8C5F1647D873FEBDFFCA6CF58369CF36">Vera, Alejandro</mods:namePart>
|
|
<mods:affiliation id="4004A1F547B45B843DE4D900BC002D2E">Departamento de Biología, Facultad de Ciencias Básicas, Universidad Metropolitana de Ciencias de la Educación, Chile. alejandro. vera @ umce. cl; https: // orcid. org / 0000 - 0003 - 1029 - 4965</mods:affiliation>
|
|
</mods:name>
|
|
<mods:typeOfResource id="BA1CC1BC24ED2FAC7B0C144CEBE68A8B">text</mods:typeOfResource>
|
|
<mods:relatedItem id="0220F45E8231346F540118CE7A7CD7B9" type="host">
|
|
<mods:titleInfo id="E5482B6B83FF8DDC730AA3107F80B9FE">
|
|
<mods:title id="3A86503211421F6C192483B5A083B057">Zootaxa</mods:title>
|
|
</mods:titleInfo>
|
|
<mods:part id="0499974F7EC87E019DDF487E244B70B2">
|
|
<mods:date id="7043C913CC54C44C7A994514D9C7C1C0">2020</mods:date>
|
|
<mods:detail id="A3E96B41F2975F03A103EE4BAD9CA9C9" type="pubDate">
|
|
<mods:number id="F52106EA92BD7E6530186CB76E7BA73C">2020-06-29</mods:number>
|
|
</mods:detail>
|
|
<mods:detail id="600B9B6711503AF015EE45BD4DC8CBE9" type="volume">
|
|
<mods:number id="0B68ADBAC7A7A348D00DFC7B1F380013">4803</mods:number>
|
|
</mods:detail>
|
|
<mods:detail id="3BCD49C38021D9B34736962C377766D2" type="issue">
|
|
<mods:number id="5769B92AE2D51FB4B6C7FFEA0EFCD97B">3</mods:number>
|
|
</mods:detail>
|
|
<mods:extent id="8338A9E5D18F2E8FAB1D6DEC7B8FB3ED" unit="page">
|
|
<mods:start id="F1A9FCAAF33183D865A7EEAD683CB812">523</mods:start>
|
|
<mods:end id="31F879C8D7D359596094969070ABA2E6">543</mods:end>
|
|
</mods:extent>
|
|
</mods:part>
|
|
</mods:relatedItem>
|
|
<mods:classification id="AED13937303CD7D23F3BDAEBAA0C29D3">journal article</mods:classification>
|
|
<mods:identifier id="1203A0C98C8FB48333B6ED9B312E7B44" type="CLB-Dataset">21274</mods:identifier>
|
|
<mods:identifier id="724679D3F746D172C54E2C82CA550999" type="DOI">10.11646/zootaxa.4803.3.8</mods:identifier>
|
|
<mods:identifier id="076DC5C98AD2A8DBEEAD028EFCE95C0E" type="GBIF-Dataset">ed5534a5-5b9d-4276-b534-71485fddc10d</mods:identifier>
|
|
<mods:identifier id="A07AA78DD1804444BDF0EA309A25DD1B" type="ISSN">1175-5326</mods:identifier>
|
|
<mods:identifier id="3E74ED725875401AFC169B618B4B226A" type="Zenodo-Dep">3991036</mods:identifier>
|
|
<mods:identifier id="05F1863E5FE2E4DDE46BD1981910F674" type="ZooBank">137E5F01-F96B-4468-8BE3-87E894EF0D5E</mods:identifier>
|
|
</mods:mods>
|
|
<treatment id="03BD924A22742046FF4CFA3FFECEF943" ID-DOI="http://doi.org/10.5281/zenodo.4329661" ID-GBIF-Taxon="167183977" ID-Zenodo-Dep="4329661" LSID="urn:lsid:plazi:treatment:03BD924A22742046FF4CFA3FFECEF943" httpUri="http://treatment.plazi.org/id/03BD924A22742046FF4CFA3FFECEF943" lastPageNumber="532" pageId="9" pageNumber="532">
|
|
<subSubSection id="C30E70D722742046FF4CFA3FFD25FA3F" box="[151,740,1412,1439]" pageId="9" pageNumber="532" type="nomenclature">
|
|
<paragraph id="8BAB235C22742046FF4CFA3FFE39FA3F" blockId="9.[151,1437,1412,1763]" box="[151,504,1412,1439]" pageId="9" pageNumber="532">
|
|
<heading id="D0E3943022742046FF4CFA3FFE39FA3F" box="[151,504,1412,1439]" level="2" pageId="9" pageNumber="532">
|
|
<taxonomicName id="4C1458DF22742046FF4CFA3FFE39FA3F" ID-CoL="8QQVQ" authority="(Westwood 1859)" baseAuthorityName="Westwood" baseAuthorityYear="1859" box="[151,504,1412,1439]" class="Insecta" family="Agathemeridae" genus="Agathemera" kingdom="Animalia" order="Phasmida" pageId="9" pageNumber="532" phylum="Arthropoda" rank="species" species="grylloidea">
|
|
<emphasis id="B960FF4E22742046FF4CFA3FFEE8FA3F" box="[151,297,1413,1439]" italics="true" pageId="9" pageNumber="532">A. grylloidea</emphasis>
|
|
(Westwood 1859)
|
|
</taxonomicName>
|
|
</heading>
|
|
</paragraph>
|
|
<paragraph id="8BAB235C22742046FE24FA3FFD25FA3F" blockId="9.[151,1437,1412,1763]" box="[511,740,1413,1439]" pageId="9" pageNumber="532">
|
|
(n=37) (
|
|
<figureCitation id="132F3FD922742046FD81FA3FFD61FA3F" box="[602,672,1413,1439]" captionStart="FIGURE 6" captionStartId="10.[151,250,1214,1239]" captionTargetBox="[325,1243,258,1139]" captionTargetId="figure@10.[300,1291,237,1188]" captionTargetPageId="10" captionText="FIGURE 6. External morphology of the eggs from clade 2 and their respective operculum. a1-c1, dorsal view; a2-c2 operculum. The order of the eggs and operculum from right to left is A. grylloidea, A. elegans, A. mesoauriculae (escale = 1mm)." figureDoi="http://doi.org/10.5281/zenodo.3991048" httpUri="https://zenodo.org/record/3991048/files/figure.png" pageId="9" pageNumber="532">Fig. 6</figureCitation>
|
|
: a1,2)
|
|
</paragraph>
|
|
</subSubSection>
|
|
<subSubSection id="C30E70D722742046FF1CFA13FECEF943" pageId="9" pageNumber="532" type="description">
|
|
<paragraph id="8BAB235C22742046FF1CFA13FACCF9D7" blockId="9.[151,1437,1412,1763]" pageId="9" pageNumber="532">
|
|
The egg elongation expressed as the height/length ratio is 60 ± 5% and the lateral flattening as the width/height ratio is 85 ± 4%. The general shape of the egg is ovoid (68%) (
|
|
<superScript id="7C618E1422742046FCADFA77FC4BFA7A" attach="none" box="[886,906,1484,1511]" fontSize="6" pageId="9" pageNumber="532">11</superScript>
|
|
) or ellipsoidal with the anterior pole flattened (32%) (
|
|
<superScript id="7C618E1422742046FF34FA4BFEC2FA5E" attach="none" box="[239,259,1520,1547]" fontSize="6" pageId="9" pageNumber="532">11</superScript>
|
|
). The capsule is brown (
|
|
<superScript id="7C618E1422742046FDC0FA4BFDF3FA5E" attach="none" box="[539,562,1520,1547]" fontSize="6" pageId="9" pageNumber="532">20</superScript>
|
|
) and rugose (
|
|
<superScript id="7C618E1422742046FD14FA4BFD24FA5E" attach="none" box="[719,741,1520,1547]" fontSize="6" pageId="9" pageNumber="532">32</superScript>
|
|
).The micropylar plate is acuminate shaped (68%) (
|
|
<superScript id="7C618E1422742046FAF1FA4BFA80FA5E" attach="none" box="[1322,1345,1520,1547]" fontSize="6" pageId="9" pageNumber="532">41</superScript>
|
|
) or lanceolate (32%) (
|
|
<superScript id="7C618E1422742046FE9DF9AFFE9CF982" attach="none" box="[326,349,1556,1583]" fontSize="6" pageId="9" pageNumber="532">40</superScript>
|
|
), rugose (
|
|
<superScript id="7C618E1422742046FE09F9AEFE29F982" attach="none" box="[466,488,1556,1583]" fontSize="6" pageId="9" pageNumber="532">52</superScript>
|
|
),with edges above the plane of the capsule (
|
|
<superScript id="7C618E1422742046FC3DF9AFFC3CF982" attach="none" box="[998,1021,1556,1583]" fontSize="6" pageId="9" pageNumber="532">60</superScript>
|
|
),brown colored (
|
|
<superScript id="7C618E1422742046FB19F9AFFB18F982" attach="none" box="[1218,1241,1556,1583]" fontSize="6" pageId="9" pageNumber="532">70</superScript>
|
|
) and the internal micropylar plate is closed (
|
|
<superScript id="7C618E1422742046FE0BF983FE27F9E6" attach="none" box="[464,486,1592,1619]" fontSize="6" pageId="9" pageNumber="532">81</superScript>
|
|
). Opercular angle is -16 ± 0.5°. The operculum has an orbicular shape (
|
|
<superScript id="7C618E1422742046FAFEF983FAFAF9E6" attach="none" box="[1317,1339,1592,1619]" fontSize="6" pageId="9" pageNumber="532">90</superScript>
|
|
), brown color (
|
|
<superScript id="7C618E1422742046FF3BF9E7FEC4F9CA" attach="none" box="[224,261,1628,1655]" fontSize="6" pageId="9" pageNumber="532">100</superScript>
|
|
) and its texture is highly rugose and distributed uniformly along the opercular surface (
|
|
<superScript id="7C618E1422742046FB01F9E7FB3DF9CA" attach="none" box="[1242,1276,1628,1655]" fontSize="6" pageId="9" pageNumber="532">111</superScript>
|
|
).
|
|
</paragraph>
|
|
<paragraph id="8BAB235C22742046FF1CF93BFECEF943" blockId="9.[151,1437,1412,1763]" pageId="9" pageNumber="532">
|
|
Ultrastructure (
|
|
<figureCitation id="132F3FD922742046FEA8F93BFE78F93B" box="[371,441,1665,1691]" captionStart="FIGURE 8" captionStartId="13.[151,250,1808,1833]" captionTargetBox="[151,1436,181,1780]" captionTargetId="figure@13.[151,1436,181,1783]" captionTargetPageId="13" captionText="FIGURE 8. Ultrastructure surface of the micropylar plate of the eggs from clade 2 and their respective operculum. A1-C1, micropylar plate ultrastructure; A2-C2 ultrastructure surface of the operculum. The order of the micropylar plates and operculum from top to botom is A. grylloidea, A. elegans, A. mesoauriculae." figureDoi="http://doi.org/10.5281/zenodo.3991054" httpUri="https://zenodo.org/record/3991054/files/figure.png" pageId="9" pageNumber="532">Fig. 8</figureCitation>
|
|
: a1,2): The capsule ultrastructure surface is rugose (
|
|
<superScript id="7C618E1422742046FBDDF93BFBEAF92E" attach="none" box="[1030,1067,1664,1691]" fontSize="6" pageId="9" pageNumber="532">123</superScript>
|
|
), as well as the micropylar plate ultrastructure surface (
|
|
<superScript id="7C618E1422742046FE4DF91FFE7BF912" attach="none" box="[406,442,1700,1727]" fontSize="6" pageId="9" pageNumber="532">131</superScript>
|
|
). The micropylar cup has a veil (
|
|
<superScript id="7C618E1422742046FCE8F91FFC99F912" attach="none" box="[819,856,1700,1727]" fontSize="6" pageId="9" pageNumber="532">141</superScript>
|
|
). The ultrastructure surface of the operculum is rugose (
|
|
<superScript id="7C618E1422742046FF01F972FF3EF976" attach="none" box="[218,255,1736,1763]" fontSize="6" pageId="9" pageNumber="532">153</superScript>
|
|
).
|
|
</paragraph>
|
|
</subSubSection>
|
|
</treatment>
|
|
</document> |