163 lines
34 KiB
XML
163 lines
34 KiB
XML
<document id="33477587416A11A9111DFFF4DBF67296" ID-CLB-Dataset="302540" ID-DOI="10.11646/phytotaxa.388.2.1" ID-GBIF-Dataset="9fce5020-5757-449c-beaa-14d8a8820385" ID-ISSN="1179-3163" ID-Zenodo-Dep="13725457" IM.bibliography_approvedBy="felipe" IM.illustrations_approvedBy="felipe" IM.materialsCitations_approvedBy="felipe" IM.metadata_approvedBy="felipe" IM.tables_requiresApprovalFor="GgImagineBatch" IM.taxonomicNames_approvedBy="felipe" IM.treatments_approvedBy="felipe" checkinTime="1725673657052" checkinUser="felipe" docAuthor="Vijver, Bart Van De, Wilfert, Sandra, Houk, Vaclav & John, David M." docDate="2019" docId="03D787F72E55FFABFF69FAA0FACFF7D1" docLanguage="en" docName="phytotaxa.388.2.1.pdf" docOrigin="Phytotaxa 388 (2)" docSource="http://dx.doi.org/10.11646/phytotaxa.388.2.1" docStyle="DocumentStyle:96748F8F1B6C902996E134952A3A36B9.13:Phytotaxa.2014-.journal_article" docStyleId="96748F8F1B6C902996E134952A3A36B9" docStyleName="Phytotaxa.2014-.journal_article" docStyleVersion="13" docTitle="Angusticopula rowlingiana Van de Vijver, Wilfert, D. M. John & Houk 2019, sp. nov." docType="treatment" docVersion="2" lastPageNumber="156" masterDocId="FFEEFF8F2E54FFAAFFE1FFF4FFDCFFCA" masterDocTitle="Angusticopula rowlingiana, a new melosiroid diatom (Bacillariophyta) from Ascension Island (South Atlantic Ocean)" masterLastPageNumber="160" masterPageNumber="155" pageNumber="156" updateTime="1725685481404" updateUser="ExternalLinkService" zenodo-license-figures="UNSPECIFIED" zenodo-license-treatments="UNSPECIFIED">
|
||
<mods:mods id="0759114FBB2F9B0883C348FE5EC6FFA2" xmlns:mods="http://www.loc.gov/mods/v3">
|
||
<mods:titleInfo id="51A1762892DCCA1E49F99D5B601AD3A7">
|
||
<mods:title id="2E9238DD22E4761AA03684484D4AACA2">Angusticopula rowlingiana, a new melosiroid diatom (Bacillariophyta) from Ascension Island (South Atlantic Ocean)</mods:title>
|
||
</mods:titleInfo>
|
||
<mods:name id="3DB20348839A59BB4E9947C592F681F0" type="personal">
|
||
<mods:role id="514B4FE2A4372B57E15A043F385618D2">
|
||
<mods:roleTerm id="A06C5CB5263038EAAA44426578AAC1C3">Author</mods:roleTerm>
|
||
</mods:role>
|
||
<mods:namePart id="1B49428DAFAC319CE960BB984ADAD4B4">Vijver, Bart Van De</mods:namePart>
|
||
<mods:affiliation id="C0271E7C7231C9635D2EBEBB13627970">University of Antwerp, Department of Biology, ECOBE, Universiteitsplein 1, B- 2610 Wilrijk, Antwerpen, Belgium</mods:affiliation>
|
||
</mods:name>
|
||
<mods:name id="9571250F72D00EAB651BE8505108E8B8" type="personal">
|
||
<mods:role id="3B9C47C8B96E9D37D3008629F10799DA">
|
||
<mods:roleTerm id="DFF4CEC2ECF1549282E20C231BA3BFD2">Author</mods:roleTerm>
|
||
</mods:role>
|
||
<mods:namePart id="B782E98C0A69DBD3D248749AB662103D">Wilfert, Sandra</mods:namePart>
|
||
</mods:name>
|
||
<mods:name id="0F9CC39ED58C07871ACD44A58D480DB0" type="personal">
|
||
<mods:role id="6FD01A03590829F865CE314010D9F628">
|
||
<mods:roleTerm id="3F42A9044D8F7138A95C0FEADAC905B7">Author</mods:roleTerm>
|
||
</mods:role>
|
||
<mods:namePart id="DDA40A06869BB99E00C9D26BB799F4A8">Houk, Vaclav</mods:namePart>
|
||
<mods:affiliation id="2667C2DC9454A68F7D80CAC1C77E77A6">Academy of Sciences of the Czech Republic, Institute of Botany, Dukelskaì 135, CZ- 379 82 Trebon, Czech Republic</mods:affiliation>
|
||
</mods:name>
|
||
<mods:name id="E2CC5936A21466D75EFB596865590FB1" type="personal">
|
||
<mods:role id="C5EE3608396544E6BB077580E6A6A6F4">
|
||
<mods:roleTerm id="2BF505F6F990069FE1AE337EF3944EB0">Author</mods:roleTerm>
|
||
</mods:role>
|
||
<mods:namePart id="FBFF0D2E84012BB4126E8C6F2AC3F1E2">John, David M.</mods:namePart>
|
||
<mods:affiliation id="BA7D963ED6204C9E6A9B2CFD0048F755">Department of Life Sciences, Diversity and Informatics Division, Natural History Museum, Cromwell Road, London SW 7 5 BD, UK</mods:affiliation>
|
||
</mods:name>
|
||
<mods:typeOfResource id="10063CCD096937B04F1600BA4BFE9D3B">text</mods:typeOfResource>
|
||
<mods:relatedItem id="C6E7563FFAD4ECE7F5AE835EC7414F91" type="host">
|
||
<mods:titleInfo id="87E223B1AAEA445E1CDC9EFFCE9259D2">
|
||
<mods:title id="6CF9C9DB4009DE9E72B1037817DC1BCE">Phytotaxa</mods:title>
|
||
</mods:titleInfo>
|
||
<mods:part id="D72B44B474B6F91AA61A706FB23358A8">
|
||
<mods:date id="D277ADF4E404E4A19FDE60CC905C4E4C">2019</mods:date>
|
||
<mods:detail id="B9A436D316742694EB00E37E137E02D3" type="pubDate">
|
||
<mods:number id="B985268C69C6C11AE64F32E287B59CC3">2019-01-15</mods:number>
|
||
</mods:detail>
|
||
<mods:detail id="49D0089CEEA2B9BBF363C92F4871AA0C" type="volume">
|
||
<mods:number id="AFB0F6B71F27B905795545BA4EE5F12E">388</mods:number>
|
||
</mods:detail>
|
||
<mods:detail id="24AB93EAE1AB89263BDE73EF40DEC6FB" type="issue">
|
||
<mods:number id="4A93DF69A33D4CB239B62A54B2CDEACE">2</mods:number>
|
||
</mods:detail>
|
||
<mods:extent id="2B827EFB75CF81E9FF63850133E79A35" unit="page">
|
||
<mods:start id="232B820E05FA4A371DC93447E78FE461">155</mods:start>
|
||
<mods:end id="B4F8E7D2ECCAF8DC3E2B3588E38244E5">160</mods:end>
|
||
</mods:extent>
|
||
</mods:part>
|
||
</mods:relatedItem>
|
||
<mods:location id="80C563FC5A179ED01F7A5171466E3489">
|
||
<mods:url id="3E26F6F8543B2563A30D2818FEF5AE3A">http://dx.doi.org/10.11646/phytotaxa.388.2.1</mods:url>
|
||
</mods:location>
|
||
<mods:classification id="E494EFBCD2428C3BF13368B587359D6F">journal article</mods:classification>
|
||
<mods:identifier id="ECE6D685C5D70A99A8330FE96D65CA78" type="CLB-Dataset">302540</mods:identifier>
|
||
<mods:identifier id="E6EF911CC28D2709FAA42CD95E1F2093" type="DOI">10.11646/phytotaxa.388.2.1</mods:identifier>
|
||
<mods:identifier id="743CCA85505553FC9C3CBA90895D18C7" type="GBIF-Dataset">9fce5020-5757-449c-beaa-14d8a8820385</mods:identifier>
|
||
<mods:identifier id="172A49221F2442D95E759065A748ABD1" type="ISSN">1179-3163</mods:identifier>
|
||
<mods:identifier id="2BE967B2422EEA8868B74958965F6CB2" type="Zenodo-Dep">13725457</mods:identifier>
|
||
</mods:mods>
|
||
<treatment id="03D787F72E55FFABFF69FAA0FACFF7D1" ID-DOI="http://doi.org/10.5281/zenodo.13725455" ID-Zenodo-Dep="13725455" LSID="urn:lsid:plazi:treatment:03D787F72E55FFABFF69FAA0FACFF7D1" httpUri="http://treatment.plazi.org/id/03D787F72E55FFABFF69FAA0FACFF7D1" lastPageNumber="156" pageId="1" pageNumber="156">
|
||
<subSubSection id="C364656A2E55FFABFF69FAA0FB43F931" pageId="1" pageNumber="156" type="nomenclature">
|
||
<paragraph id="8BC136E12E55FFABFF69FAA0FB78FAA5" blockId="1.[136,1188,1364,1391]" box="[136,1188,1364,1391]" pageId="1" pageNumber="156">
|
||
<heading id="D089818D2E55FFABFF69FAA0FB78FAA5" box="[136,1188,1364,1391]" fontSize="11" level="2" pageId="1" pageNumber="156" reason="3">
|
||
<emphasis id="B90AEAF32E55FFABFF69FAA0FBC6FAA4" bold="true" box="[136,1050,1364,1391]" pageId="1" pageNumber="156">
|
||
<taxonomicName id="4C7E4D622E55FFABFF69FAA0FC61FAA5" authority="Van de Vijver, Wilfert, D.M.John & Houk" authorityName="Van de Vijver, Wilfert, D. M. John & Houk" authorityYear="2019" box="[136,957,1364,1391]" class="Bacillariophyceae" family="Melosiraceae" genus="Angusticopula" higherTaxonomySource="GBIF" kingdom="Chromista" order="Melosirales" pageId="1" pageNumber="156" phylum="Ochrophyta" rank="species" species="rowlingiana" status="sp. nov.">
|
||
<emphasis id="B90AEAF32E55FFABFF69FAA0FE1FFAA5" bold="true" box="[136,451,1364,1391]" italics="true" pageId="1" pageNumber="156">Angusticopula rowlingiana</emphasis>
|
||
Van de Vijver, Wilfert, D.M.John & Houk
|
||
</taxonomicName>
|
||
<emphasis id="B90AEAF32E55FFABFC25FAA0FBC6FAA4" bold="true" box="[964,1050,1364,1390]" italics="true" pageId="1" pageNumber="156">
|
||
<taxonomicNameLabel id="A23957882E55FFABFC25FAA0FBC6FAA4" box="[964,1050,1364,1390]" pageId="1" pageNumber="156" rank="species">sp. nov.</taxonomicNameLabel>
|
||
</emphasis>
|
||
</emphasis>
|
||
(
|
||
<figureCitation id="13452A642E55FFABFBCBFAA2FB47FAA5" box="[1066,1179,1366,1391]" captionStart-0="FIGURES 1–12" captionStart-1="FIGURES 13–18" captionStartId-0="2.[136,243,1191,1212]" captionStartId-1="3.[136,243,1712,1733]" captionTargetBox-0="[151,1436,190,1166]" captionTargetBox-1="[216,1371,190,1687]" captionTargetId-0="figure-17@2.[151,1436,190,1166]" captionTargetId-1="figure-16@3.[215,1371,190,1687]" captionTargetPageId-0="2" captionTargetPageId-1="3" captionText-0="FIGURES 1–12. Angusticopula rowlingiana Van de Vijver, Wilfert, D.M.John & Houk sp. nov. Light microscope pictures taken from the holotype population (sample from Bamboo) from Green Mountain, Ascension Island. Figs 1–3 LM photographs of several frustules and valves in girdle and valve face view showing numerous discoid plastids. Figs 4–7 LM photographs of frustules in girdle view. Figs 6 & 7 show the presence of internal valves. Figs 8–12 LM photographs in valve face view. Scale bar represents 10 μm." captionText-1="FIGURES 13–18. Angusticopula rowlingiana Van de Vijver, Wilfert, D.M.John & Houk sp. nov. Scanning electron microscope pictures taken from the holotype population (sample from Bamboo) from Green Mountain, Ascension Island. Fig. 13 External (mantle) view of one valve together with an internal valve; several narrow copulae are visible. Fig. 14. External (mantle) view of an internal valve show its typical domed structure and the granules. Note the dense concentration of granules on the lower part of the internal valve (see arrows) and the numerous narrow copulae with fimbriate lower part (black arrows). Fig. 15. External valve face view showing the marginal granules and the very small pores on the valve face. Fig. 16. External detail of the margin of the valve face with a dense number of small, rounded granules and small pores. Fig. 17. Internal view of an entire valve showing the position of the rimoportulae (arrows). Fig. 18. Internal detail of the valve face surface with the rimoportulae (arrows) and small pores. Scale bars represent 10 μm in Figs 13–15 & 17 and 1 μm in Figs 16 & 18." figureDoi-0="http://doi.org/10.5281/zenodo.13725459" figureDoi-1="http://doi.org/10.5281/zenodo.13725461" httpUri-0="https://zenodo.org/record/13725459/files/figure.png" httpUri-1="https://zenodo.org/record/13725461/files/figure.png" pageId="1" pageNumber="156">Figs 1–18</figureCitation>
|
||
)
|
||
</heading>
|
||
</paragraph>
|
||
<paragraph id="8BC136E12E55FFABFF69FA8EFB43F931" blockId="1.[136,1452,1402,2075]" pageId="1" pageNumber="156">
|
||
LM (
|
||
<figureCitation id="13452A642E55FFABFF25FA8EFEE7FA59" box="[196,315,1402,1427]" captionStart="FIGURES 1–12" captionStartId="2.[136,243,1191,1212]" captionTargetBox="[151,1436,190,1166]" captionTargetId="figure-17@2.[151,1436,190,1166]" captionTargetPageId="2" captionText="FIGURES 1–12. Angusticopula rowlingiana Van de Vijver, Wilfert, D.M.John & Houk sp. nov. Light microscope pictures taken from the holotype population (sample from Bamboo) from Green Mountain, Ascension Island. Figs 1–3 LM photographs of several frustules and valves in girdle and valve face view showing numerous discoid plastids. Figs 4–7 LM photographs of frustules in girdle view. Figs 6 & 7 show the presence of internal valves. Figs 8–12 LM photographs in valve face view. Scale bar represents 10 μm." figureDoi="http://doi.org/10.5281/zenodo.13725459" httpUri="https://zenodo.org/record/13725459/files/figure.png" pageId="1" pageNumber="156">Figs 1–12</figureCitation>
|
||
): Frustules cylindrical to short barrel-shaped. Cells always solitary, chains, even short ones, never observed. Numerous discoid plastids present. Valve diameter (n=50): 11.0–15.0 μm, valve height 5.5–6.5 μm. Valves dome-shaped with a relatively low mantle and rounded, flat valve face. Internal valves occasionally present. SEM (
|
||
<figureCitation id="13452A642E55FFABFF71FA12FECFFA35" box="[144,275,1510,1535]" captionStart="FIGURES 13–18" captionStartId="3.[136,243,1712,1733]" captionTargetBox="[216,1371,190,1687]" captionTargetId="figure-16@3.[215,1371,190,1687]" captionTargetPageId="3" captionText="FIGURES 13–18. Angusticopula rowlingiana Van de Vijver, Wilfert, D.M.John & Houk sp. nov. Scanning electron microscope pictures taken from the holotype population (sample from Bamboo) from Green Mountain, Ascension Island. Fig. 13 External (mantle) view of one valve together with an internal valve; several narrow copulae are visible. Fig. 14. External (mantle) view of an internal valve show its typical domed structure and the granules. Note the dense concentration of granules on the lower part of the internal valve (see arrows) and the numerous narrow copulae with fimbriate lower part (black arrows). Fig. 15. External valve face view showing the marginal granules and the very small pores on the valve face. Fig. 16. External detail of the margin of the valve face with a dense number of small, rounded granules and small pores. Fig. 17. Internal view of an entire valve showing the position of the rimoportulae (arrows). Fig. 18. Internal detail of the valve face surface with the rimoportulae (arrows) and small pores. Scale bars represent 10 μm in Figs 13–15 & 17 and 1 μm in Figs 16 & 18." figureDoi="http://doi.org/10.5281/zenodo.13725461" httpUri="https://zenodo.org/record/13725461/files/figure.png" pageId="1" pageNumber="156">Figs 13–18</figureCitation>
|
||
): Valves clearly flat with a low mantle (
|
||
<figureCitation id="13452A642E55FFABFD2BFA12FCC1FA35" box="[714,797,1510,1535]" captionStart="FIGURES 13–18" captionStartId="3.[136,243,1712,1733]" captionTargetBox="[216,1371,190,1687]" captionTargetId="figure-16@3.[215,1371,190,1687]" captionTargetPageId="3" captionText="FIGURES 13–18. Angusticopula rowlingiana Van de Vijver, Wilfert, D.M.John & Houk sp. nov. Scanning electron microscope pictures taken from the holotype population (sample from Bamboo) from Green Mountain, Ascension Island. Fig. 13 External (mantle) view of one valve together with an internal valve; several narrow copulae are visible. Fig. 14. External (mantle) view of an internal valve show its typical domed structure and the granules. Note the dense concentration of granules on the lower part of the internal valve (see arrows) and the numerous narrow copulae with fimbriate lower part (black arrows). Fig. 15. External valve face view showing the marginal granules and the very small pores on the valve face. Fig. 16. External detail of the margin of the valve face with a dense number of small, rounded granules and small pores. Fig. 17. Internal view of an entire valve showing the position of the rimoportulae (arrows). Fig. 18. Internal detail of the valve face surface with the rimoportulae (arrows) and small pores. Scale bars represent 10 μm in Figs 13–15 & 17 and 1 μm in Figs 16 & 18." figureDoi="http://doi.org/10.5281/zenodo.13725461" httpUri="https://zenodo.org/record/13725461/files/figure.png" pageId="1" pageNumber="156">Fig. 13</figureCitation>
|
||
). Spines absent (
|
||
<figureCitation id="13452A642E55FFABFC39FA12FBF6FA35" box="[984,1066,1510,1535]" captionStart="FIGURES 13–18" captionStartId="3.[136,243,1712,1733]" captionTargetBox="[216,1371,190,1687]" captionTargetId="figure-16@3.[215,1371,190,1687]" captionTargetPageId="3" captionText="FIGURES 13–18. Angusticopula rowlingiana Van de Vijver, Wilfert, D.M.John & Houk sp. nov. Scanning electron microscope pictures taken from the holotype population (sample from Bamboo) from Green Mountain, Ascension Island. Fig. 13 External (mantle) view of one valve together with an internal valve; several narrow copulae are visible. Fig. 14. External (mantle) view of an internal valve show its typical domed structure and the granules. Note the dense concentration of granules on the lower part of the internal valve (see arrows) and the numerous narrow copulae with fimbriate lower part (black arrows). Fig. 15. External valve face view showing the marginal granules and the very small pores on the valve face. Fig. 16. External detail of the margin of the valve face with a dense number of small, rounded granules and small pores. Fig. 17. Internal view of an entire valve showing the position of the rimoportulae (arrows). Fig. 18. Internal detail of the valve face surface with the rimoportulae (arrows) and small pores. Scale bars represent 10 μm in Figs 13–15 & 17 and 1 μm in Figs 16 & 18." figureDoi="http://doi.org/10.5281/zenodo.13725461" httpUri="https://zenodo.org/record/13725461/files/figure.png" pageId="1" pageNumber="156">Fig. 15</figureCitation>
|
||
). Valves perforated by an irregular pattern of very small, rounded areolae, never arranged into a regular striation pattern (
|
||
<figureCitation id="13452A642E55FFABFB93F9FEFB14F9E9" box="[1138,1224,1546,1571]" captionStart="FIGURES 13–18" captionStartId="3.[136,243,1712,1733]" captionTargetBox="[216,1371,190,1687]" captionTargetId="figure-16@3.[215,1371,190,1687]" captionTargetPageId="3" captionText="FIGURES 13–18. Angusticopula rowlingiana Van de Vijver, Wilfert, D.M.John & Houk sp. nov. Scanning electron microscope pictures taken from the holotype population (sample from Bamboo) from Green Mountain, Ascension Island. Fig. 13 External (mantle) view of one valve together with an internal valve; several narrow copulae are visible. Fig. 14. External (mantle) view of an internal valve show its typical domed structure and the granules. Note the dense concentration of granules on the lower part of the internal valve (see arrows) and the numerous narrow copulae with fimbriate lower part (black arrows). Fig. 15. External valve face view showing the marginal granules and the very small pores on the valve face. Fig. 16. External detail of the margin of the valve face with a dense number of small, rounded granules and small pores. Fig. 17. Internal view of an entire valve showing the position of the rimoportulae (arrows). Fig. 18. Internal detail of the valve face surface with the rimoportulae (arrows) and small pores. Scale bars represent 10 μm in Figs 13–15 & 17 and 1 μm in Figs 16 & 18." figureDoi="http://doi.org/10.5281/zenodo.13725461" httpUri="https://zenodo.org/record/13725461/files/figure.png" pageId="1" pageNumber="156">Fig. 16</figureCitation>
|
||
). Valve face/mantle junction covered with small, rounded granules surrounding the entire valve margin (
|
||
<figureCitation id="13452A642E55FFABFBCEF9DAFB6CF98D" box="[1071,1200,1582,1607]" captionStart="FIGURES 13–18" captionStartId="3.[136,243,1712,1733]" captionTargetBox="[216,1371,190,1687]" captionTargetId="figure-16@3.[215,1371,190,1687]" captionTargetPageId="3" captionText="FIGURES 13–18. Angusticopula rowlingiana Van de Vijver, Wilfert, D.M.John & Houk sp. nov. Scanning electron microscope pictures taken from the holotype population (sample from Bamboo) from Green Mountain, Ascension Island. Fig. 13 External (mantle) view of one valve together with an internal valve; several narrow copulae are visible. Fig. 14. External (mantle) view of an internal valve show its typical domed structure and the granules. Note the dense concentration of granules on the lower part of the internal valve (see arrows) and the numerous narrow copulae with fimbriate lower part (black arrows). Fig. 15. External valve face view showing the marginal granules and the very small pores on the valve face. Fig. 16. External detail of the margin of the valve face with a dense number of small, rounded granules and small pores. Fig. 17. Internal view of an entire valve showing the position of the rimoportulae (arrows). Fig. 18. Internal detail of the valve face surface with the rimoportulae (arrows) and small pores. Scale bars represent 10 μm in Figs 13–15 & 17 and 1 μm in Figs 16 & 18." figureDoi="http://doi.org/10.5281/zenodo.13725461" httpUri="https://zenodo.org/record/13725461/files/figure.png" pageId="1" pageNumber="156">Figs 15, 16</figureCitation>
|
||
). Cingulum composed of a large number of narrow, open, unperforated ligulate copulae (
|
||
<figureCitation id="13452A642E55FFABFC9BF9A6FC22F9A1" box="[890,1022,1618,1643]" captionStart="FIGURES 13–18" captionStartId="3.[136,243,1712,1733]" captionTargetBox="[216,1371,190,1687]" captionTargetId="figure-16@3.[215,1371,190,1687]" captionTargetPageId="3" captionText="FIGURES 13–18. Angusticopula rowlingiana Van de Vijver, Wilfert, D.M.John & Houk sp. nov. Scanning electron microscope pictures taken from the holotype population (sample from Bamboo) from Green Mountain, Ascension Island. Fig. 13 External (mantle) view of one valve together with an internal valve; several narrow copulae are visible. Fig. 14. External (mantle) view of an internal valve show its typical domed structure and the granules. Note the dense concentration of granules on the lower part of the internal valve (see arrows) and the numerous narrow copulae with fimbriate lower part (black arrows). Fig. 15. External valve face view showing the marginal granules and the very small pores on the valve face. Fig. 16. External detail of the margin of the valve face with a dense number of small, rounded granules and small pores. Fig. 17. Internal view of an entire valve showing the position of the rimoportulae (arrows). Fig. 18. Internal detail of the valve face surface with the rimoportulae (arrows) and small pores. Scale bars represent 10 μm in Figs 13–15 & 17 and 1 μm in Figs 16 & 18." figureDoi="http://doi.org/10.5281/zenodo.13725461" httpUri="https://zenodo.org/record/13725461/files/figure.png" pageId="1" pageNumber="156">Figs 13–14</figureCitation>
|
||
). Copulae fimbriate on the lower part (
|
||
<figureCitation id="13452A642E55FFABFF71F982FF39F945" box="[144,229,1654,1679]" captionStart="FIGURES 13–18" captionStartId="3.[136,243,1712,1733]" captionTargetBox="[216,1371,190,1687]" captionTargetId="figure-16@3.[215,1371,190,1687]" captionTargetPageId="3" captionText="FIGURES 13–18. Angusticopula rowlingiana Van de Vijver, Wilfert, D.M.John & Houk sp. nov. Scanning electron microscope pictures taken from the holotype population (sample from Bamboo) from Green Mountain, Ascension Island. Fig. 13 External (mantle) view of one valve together with an internal valve; several narrow copulae are visible. Fig. 14. External (mantle) view of an internal valve show its typical domed structure and the granules. Note the dense concentration of granules on the lower part of the internal valve (see arrows) and the numerous narrow copulae with fimbriate lower part (black arrows). Fig. 15. External valve face view showing the marginal granules and the very small pores on the valve face. Fig. 16. External detail of the margin of the valve face with a dense number of small, rounded granules and small pores. Fig. 17. Internal view of an entire valve showing the position of the rimoportulae (arrows). Fig. 18. Internal detail of the valve face surface with the rimoportulae (arrows) and small pores. Scale bars represent 10 μm in Figs 13–15 & 17 and 1 μm in Figs 16 & 18." figureDoi="http://doi.org/10.5281/zenodo.13725461" httpUri="https://zenodo.org/record/13725461/files/figure.png" pageId="1" pageNumber="156">Fig. 14</figureCitation>
|
||
, black arrows). Internal valves dome-shaped (
|
||
<figureCitation id="13452A642E55FFABFD18F982FCA3F945" box="[761,895,1654,1679]" captionStart="FIGURES 13–18" captionStartId="3.[136,243,1712,1733]" captionTargetBox="[216,1371,190,1687]" captionTargetId="figure-16@3.[215,1371,190,1687]" captionTargetPageId="3" captionText="FIGURES 13–18. Angusticopula rowlingiana Van de Vijver, Wilfert, D.M.John & Houk sp. nov. Scanning electron microscope pictures taken from the holotype population (sample from Bamboo) from Green Mountain, Ascension Island. Fig. 13 External (mantle) view of one valve together with an internal valve; several narrow copulae are visible. Fig. 14. External (mantle) view of an internal valve show its typical domed structure and the granules. Note the dense concentration of granules on the lower part of the internal valve (see arrows) and the numerous narrow copulae with fimbriate lower part (black arrows). Fig. 15. External valve face view showing the marginal granules and the very small pores on the valve face. Fig. 16. External detail of the margin of the valve face with a dense number of small, rounded granules and small pores. Fig. 17. Internal view of an entire valve showing the position of the rimoportulae (arrows). Fig. 18. Internal detail of the valve face surface with the rimoportulae (arrows) and small pores. Scale bars represent 10 μm in Figs 13–15 & 17 and 1 μm in Figs 16 & 18." figureDoi="http://doi.org/10.5281/zenodo.13725461" httpUri="https://zenodo.org/record/13725461/files/figure.png" pageId="1" pageNumber="156">Figs 13, 14</figureCitation>
|
||
), perforated by a regular pattern of small pores. Small granules covering the internal valves with a higher concentration of conical granules in the lower part of the internal valves (
|
||
<figureCitation id="13452A642E55FFABFEDFF94AFE4DF91D" box="[318,401,1726,1751]" captionStart="FIGURES 13–18" captionStartId="3.[136,243,1712,1733]" captionTargetBox="[216,1371,190,1687]" captionTargetId="figure-16@3.[215,1371,190,1687]" captionTargetPageId="3" captionText="FIGURES 13–18. Angusticopula rowlingiana Van de Vijver, Wilfert, D.M.John & Houk sp. nov. Scanning electron microscope pictures taken from the holotype population (sample from Bamboo) from Green Mountain, Ascension Island. Fig. 13 External (mantle) view of one valve together with an internal valve; several narrow copulae are visible. Fig. 14. External (mantle) view of an internal valve show its typical domed structure and the granules. Note the dense concentration of granules on the lower part of the internal valve (see arrows) and the numerous narrow copulae with fimbriate lower part (black arrows). Fig. 15. External valve face view showing the marginal granules and the very small pores on the valve face. Fig. 16. External detail of the margin of the valve face with a dense number of small, rounded granules and small pores. Fig. 17. Internal view of an entire valve showing the position of the rimoportulae (arrows). Fig. 18. Internal detail of the valve face surface with the rimoportulae (arrows) and small pores. Scale bars represent 10 μm in Figs 13–15 & 17 and 1 μm in Figs 16 & 18." figureDoi="http://doi.org/10.5281/zenodo.13725461" httpUri="https://zenodo.org/record/13725461/files/figure.png" pageId="1" pageNumber="156">Fig. 14</figureCitation>
|
||
, white arrows). Internally, irregular ring of rather large rimoportulae present near the mantle edge (
|
||
<figureCitation id="13452A642E55FFABFF2DF916FEC3F931" box="[204,287,1762,1787]" captionStart="FIGURES 13–18" captionStartId="3.[136,243,1712,1733]" captionTargetBox="[216,1371,190,1687]" captionTargetId="figure-16@3.[215,1371,190,1687]" captionTargetPageId="3" captionText="FIGURES 13–18. Angusticopula rowlingiana Van de Vijver, Wilfert, D.M.John & Houk sp. nov. Scanning electron microscope pictures taken from the holotype population (sample from Bamboo) from Green Mountain, Ascension Island. Fig. 13 External (mantle) view of one valve together with an internal valve; several narrow copulae are visible. Fig. 14. External (mantle) view of an internal valve show its typical domed structure and the granules. Note the dense concentration of granules on the lower part of the internal valve (see arrows) and the numerous narrow copulae with fimbriate lower part (black arrows). Fig. 15. External valve face view showing the marginal granules and the very small pores on the valve face. Fig. 16. External detail of the margin of the valve face with a dense number of small, rounded granules and small pores. Fig. 17. Internal view of an entire valve showing the position of the rimoportulae (arrows). Fig. 18. Internal detail of the valve face surface with the rimoportulae (arrows) and small pores. Scale bars represent 10 μm in Figs 13–15 & 17 and 1 μm in Figs 16 & 18." figureDoi="http://doi.org/10.5281/zenodo.13725461" httpUri="https://zenodo.org/record/13725461/files/figure.png" pageId="1" pageNumber="156">Fig. 17</figureCitation>
|
||
, arrows). Internal valve surface perforated by numerous small areolae (
|
||
<figureCitation id="13452A642E55FFABFBDFF916FB4EF931" box="[1086,1170,1762,1787]" captionStart="FIGURES 13–18" captionStartId="3.[136,243,1712,1733]" captionTargetBox="[216,1371,190,1687]" captionTargetId="figure-16@3.[215,1371,190,1687]" captionTargetPageId="3" captionText="FIGURES 13–18. Angusticopula rowlingiana Van de Vijver, Wilfert, D.M.John & Houk sp. nov. Scanning electron microscope pictures taken from the holotype population (sample from Bamboo) from Green Mountain, Ascension Island. Fig. 13 External (mantle) view of one valve together with an internal valve; several narrow copulae are visible. Fig. 14. External (mantle) view of an internal valve show its typical domed structure and the granules. Note the dense concentration of granules on the lower part of the internal valve (see arrows) and the numerous narrow copulae with fimbriate lower part (black arrows). Fig. 15. External valve face view showing the marginal granules and the very small pores on the valve face. Fig. 16. External detail of the margin of the valve face with a dense number of small, rounded granules and small pores. Fig. 17. Internal view of an entire valve showing the position of the rimoportulae (arrows). Fig. 18. Internal detail of the valve face surface with the rimoportulae (arrows) and small pores. Scale bars represent 10 μm in Figs 13–15 & 17 and 1 μm in Figs 16 & 18." figureDoi="http://doi.org/10.5281/zenodo.13725461" httpUri="https://zenodo.org/record/13725461/files/figure.png" pageId="1" pageNumber="156">Fig. 18</figureCitation>
|
||
).
|
||
</paragraph>
|
||
</subSubSection>
|
||
<subSubSection id="C364656A2E55FFABFF5CF8F2FF25F8AD" pageId="1" pageNumber="156" type="materials_examined">
|
||
<paragraph id="8BC136E12E55FFABFF5CF8F2FF25F8AD" blockId="1.[136,1452,1402,2075]" pageId="1" pageNumber="156">
|
||
<emphasis id="B90AEAF32E55FFABFF5CF8F2FF24F8D5" bold="true" box="[189,248,1798,1823]" pageId="1" pageNumber="156">Type</emphasis>
|
||
:—
|
||
<collectingCountry id="F36976712E55FFABFEF8F8F2FE3AF8D5" box="[281,486,1798,1823]" name="Ascension Island" pageId="1" pageNumber="156">Ascension Island</collectingCountry>
|
||
, Atlantic Ocean, Sample Bamboo (
|
||
<geoCoordinate id="EE4A50262E55FFABFC76F8F2FB91F8D5" box="[919,1101,1798,1823]" degrees="14" direction="west" minutes="20" orientation="longitude" pageId="1" pageNumber="156" precision="1" seconds="51.53" value="-14.347647">14°20’51.53”W</geoCoordinate>
|
||
/
|
||
<geoCoordinate id="EE4A50262E55FFABFBB7F8F2FB02F8D5" box="[1110,1246,1798,1823]" degrees="7" direction="south" minutes="57" orientation="latitude" pageId="1" pageNumber="156" precision="1" seconds="6.48" value="-7.9518">7°57’6.48”S</geoCoordinate>
|
||
) (leg. S. Pressel & J. Duckett, April/
|
||
<date id="FFC010212E55FFABFE8EF8DEFE39F889" box="[367,485,1834,1859]" pageId="1" pageNumber="156" value="2014-05">May 2014</date>
|
||
) (
|
||
<typeStatus id="54C588432E55FFABFE1FF8DEFDBEF889" box="[510,610,1834,1859]" pageId="1" pageNumber="156" type="holotype">holotype</typeStatus>
|
||
<collectionCode id="ED6FAE242E55FFABFD8AF8DEFD44F889" box="[619,664,1834,1859]" country="Brazil" name="Embrapa Agrobiology Diazothrophic Microbial Culture Collection" pageId="1" pageNumber="156">BR</collectionCode>
|
||
!, slide no. 4539,
|
||
<typeStatus id="54C588432E55FFABFCBEF8DEFC6CF889" box="[863,944,1834,1859]" pageId="1" pageNumber="156" type="isotype">isotype</typeStatus>
|
||
<collectionCode id="ED6FAE242E55FFABFC58F8DEFC33F889" box="[953,1007,1834,1859]" country="India" httpUri="http://biocol.org/urn:lsid:biocol.org:col:15781" lsid="urn:lsid:biocol.org:col:15781" name="Institute of Himalayan Bioresource Technology" pageId="1" pageNumber="156" type="Herbarium">PLP</collectionCode>
|
||
! slide no. 354, University of Antwerp,
|
||
<collectingCountry id="F36976712E55FFABFF69F8BAFF32F8AD" box="[136,238,1870,1895]" name="Belgium" pageId="1" pageNumber="156">Belgium</collectingCountry>
|
||
).
|
||
</paragraph>
|
||
</subSubSection>
|
||
<subSubSection id="C364656A2E55FFABFF5CF886FB7CF865" pageId="1" pageNumber="156" type="etymology">
|
||
<paragraph id="8BC136E12E55FFABFF5CF886FB7CF865" blockId="1.[136,1452,1402,2075]" pageId="1" pageNumber="156">
|
||
<emphasis id="B90AEAF32E55FFABFF5CF886FEE2F841" bold="true" box="[189,318,1906,1931]" pageId="1" pageNumber="156">Etymology</emphasis>
|
||
:—The species is named after the famous British writer Mrs. J.K. Rowling to honor her for all her efforts to make children read books again, a first step in a possible future career as a scientist.
|
||
</paragraph>
|
||
</subSubSection>
|
||
<subSubSection id="C364656A2E55FFABFF5CF84EFACFF7D1" pageId="1" pageNumber="156" type="biology_ecology">
|
||
<paragraph id="8BC136E12E55FFABFF5CF84EFACFF7D1" blockId="1.[136,1452,1402,2075]" pageId="1" pageNumber="156">
|
||
<emphasis id="B90AEAF32E55FFABFF5CF84EFE0EF819" bold="true" box="[189,466,1978,2003]" pageId="1" pageNumber="156">Ecology & Distribution</emphasis>
|
||
:—
|
||
<taxonomicName id="4C7E4D622E55FFABFE17F84EFCFAF819" authorityName="Van de Vijver, Wilfert, D. M. John & Houk" authorityYear="2019" box="[502,806,1978,2003]" class="Bacillariophyceae" family="Melosiraceae" genus="Angusticopula" higherTaxonomySource="GBIF" kingdom="Chromista" order="Melosirales" pageId="1" pageNumber="156" phylum="Ochrophyta" rank="species" species="rowlingiana">
|
||
<emphasis id="B90AEAF32E55FFABFE17F84EFCFAF819" box="[502,806,1978,2003]" italics="true" pageId="1" pageNumber="156">Angusticopula rowlingiana</emphasis>
|
||
</taxonomicName>
|
||
was extremely dominant in a very wet moss sample taken from a moss ball associated with bamboo roots on Green Mountain. The sample was further characterized by the presence of
|
||
<taxonomicName id="4C7E4D622E55FFABFEEEF7F6FC4FF7D1" authority="Van de Vijver et al. (2018: 231)" authorityName="Van de Vijver" authorityPageNumber="231" authorityYear="2018" box="[271,915,2050,2075]" class="Bacillariophyceae" family="Eunotiaceae" genus="Eunotia" higherTaxonomySource="GBIF" kingdom="Chromista" order="Eunotiales" pageId="1" pageNumber="156" phylum="Ochrophyta" rank="species" species="meridioatlantica">
|
||
<emphasis id="B90AEAF32E55FFABFEEEF7F6FDF6F7D1" box="[271,554,2050,2075]" italics="true" pageId="1" pageNumber="156">Eunotia meridioatlantica</emphasis>
|
||
<bibRefCitation id="EFEF4B102E55FFABFDD1F7F6FC4FF7D1" author="Van de Vijver, B. & Wilfert, S. & John, D. M. & Lange-Bertalot, H." box="[560,915,2050,2075]" pageId="1" pageNumber="156" pagination="229 - 235" refId="ref3983" refString="Van de Vijver, B., Wilfert, S., John, D. M. & Lange-Bertalot, H. (2018) Two new diatom species (Bacillariophyta) from Ascension Island (South Atlantic Ocean). Nova Hedwigia Beihefte 147: 229 - 235. https: // doi. org / 10.1127 / nova-suppl / 2018 / 018" type="journal article" year="2018">
|
||
Van de Vijver
|
||
<emphasis id="B90AEAF32E55FFABFD31F7F6FCD5F7D1" box="[720,777,2050,2075]" italics="true" pageId="1" pageNumber="156">et al.</emphasis>
|
||
(2018: 231)
|
||
</bibRefCitation>
|
||
</taxonomicName>
|
||
and several
|
||
<taxonomicName id="4C7E4D622E55FFABFBC1F7F6FACFF7D1" box="[1056,1299,2050,2075]" class="Bacillariophyceae" family="Diadesmidaceae" genus="Humidophila" kingdom="Chromista" order="Naviculales" pageId="1" pageNumber="156" phylum="Ochrophyta" rank="species" species="undetermined">
|
||
<emphasis id="B90AEAF32E55FFABFBC1F7F6FB68F7D1" box="[1056,1204,2050,2075]" italics="true" pageId="1" pageNumber="156">Humidophila</emphasis>
|
||
species.
|
||
</taxonomicName>
|
||
</paragraph>
|
||
</subSubSection>
|
||
</treatment>
|
||
</document> |