treatments-xml/data/03/A9/87/03A987A17B50AF7666C442D5FECFDB1D.xml

<document id="0D4D9E1FE416D24EA76EA2119D2AC306" ID-CLB-Dataset="290635" ID-DOI="10.11646/zootaxa.5419.2.1" ID-GBIF-Dataset="d4a40af2-a5bf-43ed-95e3-98c1fd6c2942" ID-ISSN="1175-5326" ID-Zenodo-Dep="10792055" ID-ZooBank="88353CBA-6C4D-40E3-8475-B1FCA2C48637" IM.bibliography_approvedBy="valdenar" IM.illustrations_approvedBy="felipe" IM.materialsCitations_approvedBy="valdenar" IM.metadata_approvedBy="felipe" IM.tables_approvedBy="valdenar" IM.taxonomicNames_approvedBy="valdenar" IM.treatmentCitations_approvedBy="felipe" IM.treatments_approvedBy="valdenar" checkinTime="1709795503569" checkinUser="plazi" docAuthor="Holzmann, Maria, Barrenechea-Angeles, Inés, Lim, Swee-Cheng &amp; Pawlowski, Jan" docDate="2024" docId="03A987A17B50AF7666C442D5FECFDB1D" docLanguage="en" docName="zootaxa.5419.2.1.pdf" docOrigin="Zootaxa 5419 (2)" docSource="http://dx.doi.org/10.11646/zootaxa.5419.2.1" docStyle="DocumentStyle:647186512141C8FC8976D5BCC54AEB7D.9:Zootaxa.2013-.journal_article" docStyleId="647186512141C8FC8976D5BCC54AEB7D" docStyleName="Zootaxa.2013-.journal_article" docStyleVersion="9" docTitle="Stereodiktyoma mollis Gooday &amp; Holzmann" docType="treatment" docVersion="7" lastPageNumber="172" masterDocId="FF90FFD97B43AF636653407FFF99D97C" masterDocTitle="New xenophyophores (Foraminifera, Monothalamea) from the eastern Clarion-Clipperton Zone (equatorial Pacific)" masterLastPageNumber="188" masterPageNumber="151" pageNumber="170" updateTime="1716408230761" updateUser="ExternalLinkService" zenodo-license-document="CLOSED">
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<mods:title id="5D792CA0B89B4F6D1D94D86F13D0F9B2">New xenophyophores (Foraminifera, Monothalamea) from the eastern Clarion-Clipperton Zone (equatorial Pacific)</mods:title>
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<mods:namePart id="222D5B6DEA06BF748F22BF8FDD2F1B3B">Holzmann, Maria</mods:namePart>
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<mods:affiliation id="DC61CDF76EFCB4CCA98A4B2BAF7DA1D2">Department of Genetics and Evolution, University of Geneva, Quai Ernest Ansermet 30, 1211 Geneva 4, Geneva, Switzerland.</mods:affiliation>
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<mods:namePart id="D0FDFBB39BC081B8A7C0226D204E6FF4">Barrenechea-Angeles, Inés</mods:namePart>
<mods:affiliation id="55B7516261CBF1C6F4B7D896D0C5B711">Department of Genetics and Evolution, University of Geneva, Quai Ernest Ansermet 30, 1211 Geneva 4, Geneva, Switzerland. &amp; Department of Geosciences, The Arctic University of Norway, Dramsvegen 201, 9037 TromsØ, Norway.</mods:affiliation>
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<mods:namePart id="728B00528FE7DAC663ADB692373D4242">Lim, Swee-Cheng</mods:namePart>
<mods:affiliation id="CB30C1ABABE268A38E8634C2D414A45D">Tropical Marine Science Institute, National University of Singapore, 18 Kent Ridge Road, Singapore 119227, Singapore. &amp; Lee Kong Chian Natural History Museum, National University of Singapore, 2 Conservatory Drive, Singapore 117377</mods:affiliation>
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<mods:namePart id="954EF402C90B918EDEFDD68B8FB37E78">Pawlowski, Jan</mods:namePart>
<mods:affiliation id="6CEF72F0C3452397187568966DDF6959">Institute of Oceanology, Polish Academy of Sciences, 81 - 712 Sopot, Poland. &amp; ID-Gene Ecodiagnostics, Chemin du Pont-du-Centenaire 109, 1228 Plan-les-Ouates, Switzerland.</mods:affiliation>
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<heading id="D0F781DB7B50AF7066C442D5FCECDBB9" bold="true" box="[151,885,682,709]" fontSize="11" level="1" pageId="19" pageNumber="170" reason="1">
<emphasis id="B974EAA57B50AF7066C442D5FCECDBB9" bold="true" box="[151,885,682,709]" pageId="19" pageNumber="170">
<taxonomicName id="4C004D347B50AF7066C442D5FD2CDBB9" ID-CoL="C8F7R" authority="Gooday &amp; Holzmann" authorityName="Gooday &amp; Holzmann" box="[151,693,682,709]" class="Monothalamea" family="Syringamminidae" genus="Stereodiktyoma" higherTaxonomySource="CoL" kingdom="Chromista" pageId="19" pageNumber="170" phylum="Foraminifera" rank="species" species="mollis">
<emphasis id="B974EAA57B50AF7066C442D5FE3ADBB9" bold="true" box="[151,419,682,709]" italics="true" pageId="19" pageNumber="170">Stereodiktyoma mollis</emphasis>
Gooday &amp; Holzmann
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gen. &amp; sp. nov.
</emphasis>
</heading>
</paragraph>
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<subSubSection id="C31A653C7B50AF7066C442B0FE6FDB95" box="[151,502,719,745]" pageId="19" pageNumber="170" type="description">
<paragraph id="8BBF36B77B50AF7066C442B0FE6FDB95" blockId="19.[151,885,682,745]" box="[151,502,719,745]" pageId="19" pageNumber="170">
<figureCitation id="133B2A327B50AF7066C442B0FF70DB95" box="[151,233,719,745]" captionStart="FIGURE 10" captionStartId="20.[151,250,1932,1956]" captionTargetBox="[151,1436,381,1909]" captionTargetId="figure-110@20.[151,1436,381,1909]" captionTargetPageId="20" captionText="FIGURE 10. Stereodikyoma mollis Gooday &amp; Holzmann gen. &amp; sp. nov. A, B, Holotype, RC1623 (BC039); shipboard photographs of intact specimen attached to nodule. C–F, Paratype, RC1697 (BC040). C, D, Shipboard photographs. E, F, Laboratory photographs (Geneva) of the two largest fragments." figureDoi="http://doi.org/10.5281/zenodo.10792083" httpUri="https://zenodo.org/record/10792083/files/figure.png" pageId="19" pageNumber="170">Fig. 10</figureCitation>
, Supplementary 
<figureCitation id="133B2A327B50AF7067F642B0FE6FDB95" box="[421,502,719,745]" captionStart="FIGURE 3" captionStartId="9.[151,250,1888,1912]" captionTargetBox="[151,1436,273,1865]" captionTargetId="figure-56@9.[151,1436,273,1865]" captionTargetPageId="9" captionText="FIGURE 3. Aschemonella tani Gooday &amp; Holzmann sp. nov.; holotype RC1555 (BC036). A, Shipboard photograph showing grouping of structures on nodule summit; numbers 1–3 identify parts illustrated in other photographs. B–F, Laboratory photographs. B, Part 1 from top of nodule. C, Part 2. D, E, Part 3 viewed from different sides. F, Detail of Part 3." figureDoi="http://doi.org/10.5281/zenodo.10792061" httpUri="https://zenodo.org/record/10792061/files/figure.png" pageId="19" pageNumber="170">Fig. S3</figureCitation>
</paragraph>
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<emphasis id="B974EAA57B50AF7066C44369FE93DA4C" bold="true" box="[151,266,790,816]" pageId="19" pageNumber="170">Diagnosis</emphasis>
. As for genus.
</paragraph>
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<subSubSection id="C31A653C7B50AF7066944344FBE2DA29" box="[199,1147,827,853]" pageId="19" pageNumber="170" type="etymology">
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<emphasis id="B974EAA57B50AF7066944344FED1DA29" bold="true" box="[199,328,827,853]" pageId="19" pageNumber="170">Etymology</emphasis>
. Latin 
<taxonomicName id="4C004D347B50AF7067CB4344FE45DA29" box="[408,476,827,853]" class="Monothalamea" genus="Stereodiktyoma" higherTaxonomySource="CoL" kingdom="Chromista" pageId="19" pageNumber="170" phylum="Foraminifera" rank="species" species="mollis">
<emphasis id="B974EAA57B50AF7067CB4344FE45DA29" box="[408,476,827,853]" italics="true" pageId="19" pageNumber="170">mollis</emphasis>
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, meaning soft, a reference to the poorly cemented test wall.
</paragraph>
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<emphasis id="B974EAA57B50AF7066944320FE65DA04" bold="true" box="[199,508,862,889]" pageId="19" pageNumber="170">Type material and locality</emphasis>
. 
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(
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Lee 
<collectingCounty id="62DE4E3B7B50AF7064894320FB8ADA05" box="[730,1043,863,889]" pageId="19" pageNumber="170">Kong Chian Natural History</collectingCounty>
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Museum, 
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, reg. no. ZR 
<emphasis id="B974EAA57B50AF7063D04320FA05DA05" box="[1411,1436,863,889]" italics="true" pageId="19" pageNumber="170">C.</emphasis>
<collectionCode id="ED11AE727B50AF7066C443FCFF4BDAE1" box="[151,210,899,925]" country="Finland" httpUri="http://biocol.org/urn:lsid:biocol.org:col:12841" lsid="urn:lsid:biocol.org:col:12841" name="Forssa Museum of Natural History" pageId="19" pageNumber="170" type="Herbarium">FOR</collectionCode>
.0003, preserved in 10% formalin) was collected in box core BC039 (specimen 
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); OMS license area, 
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, 
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; 
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water depth. The specimen is in the form of numerous small fragments
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.
</paragraph>
<paragraph id="8BBF36B77B50AF70669443B4FDD7DD2D" blockId="19.[151,1437,790,2041]" pageId="19" pageNumber="170">
<materialsCitation id="3B683CEA7B50AF70669443B4FDD3DD2D" ID-GBIF-Occurrence="4537181307" collectionCode="FOR" country="Singapore" county="Kong Chian Natural History Museum" elevation="4174" latitude="12.343722" location="The" longLatPrecision="1" longitude="-117.48072" municipality="Lee Kong Chian Natural History" pageId="19" pageNumber="170" specimenCode="RC1697" specimenCount="1" typeStatus="paratype">
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<typeStatus id="54BB88157B50AF7066AE43B4FEC4DA99" box="[253,349,971,997]" pageId="19" pageNumber="170" type="paratype">paratype</typeStatus>
(
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Lee 
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Museum, 
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, reg. no. ZR 
<emphasis id="B974EAA57B50AF70622343B4FB10DA99" box="[1136,1161,971,997]" italics="true" pageId="19" pageNumber="170">C.</emphasis>
<collectionCode id="ED11AE727B50AF7062DA43B4FB5ADA99" box="[1161,1219,971,997]" country="Finland" httpUri="http://biocol.org/urn:lsid:biocol.org:col:12841" lsid="urn:lsid:biocol.org:col:12841" name="Forssa Museum of Natural History" pageId="19" pageNumber="170" type="Herbarium">FOR</collectionCode>
.0002, preserved in 10% formalin) was collected in box core BC040 (specimen 
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); OMS license area, 
<geoCoordinate id="EE3450707B50AF7062DA4390FAAADD75" box="[1161,1331,1007,1033]" degrees="12" direction="north" minutes="20" orientation="latitude" pageId="19" pageNumber="170" precision="1" seconds="37.4" value="12.343722">12° 20' 37.4&quot;N</geoCoordinate>
, 
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; 
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water depth. The specimen is in the form of numerous small fragments, some of which were used for genetics (sequenced isolate 21433)
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.
</paragraph>
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<emphasis id="B974EAA57B50AF7066944425FEC8DD08" bold="true" box="[199,337,1114,1140]" pageId="19" pageNumber="170">Description</emphasis>
. Shipboard photographs. The 
<typeStatus id="54BB88157B50AF7064FB4424FC93DD09" box="[680,778,1115,1141]" pageId="19" pageNumber="170" type="holotype">holotype</typeStatus>
was intact when photographed (
<figureCitation id="133B2A327B50AF7062294424FA9DDD09" box="[1146,1284,1115,1141]" captionStart="FIGURE 10" captionStartId="20.[151,250,1932,1956]" captionTargetBox="[151,1436,381,1909]" captionTargetId="figure-110@20.[151,1436,381,1909]" captionTargetPageId="20" captionText="FIGURE 10. Stereodikyoma mollis Gooday &amp; Holzmann gen. &amp; sp. nov. A, B, Holotype, RC1623 (BC039); shipboard photographs of intact specimen attached to nodule. C–F, Paratype, RC1697 (BC040). C, D, Shipboard photographs. E, F, Laboratory photographs (Geneva) of the two largest fragments." figureDoi="http://doi.org/10.5281/zenodo.10792083" httpUri="https://zenodo.org/record/10792083/files/figure.png" pageId="19" pageNumber="170">Fig. 10A, B</figureCitation>
). It was pale, brownish tan in colour and attached to a nodule. The base of the test extended for about 
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in one direction across the nodule surface, less in other directions. The width at the base, including these encrusting parts, was about 
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. The maximum height was almost 
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, of which about 
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was elevated above the surface of the nodule. This upper part was narrower (width ~ 
<quantity id="4CF89B527B50AF70641D4494FD0FDC79" box="[590,662,1259,1285]" metricMagnitude="-1" metricUnit="m" metricValue="1.4" pageId="19" pageNumber="170" unit="cm" value="14.0">14 cm</quantity>
) than the base. The attached part of the test comprised bars that had mainly coalesced to form plates interrupted by open spaces, although retaining some identity in places. It had an uneven margin with short, projecting finger-like or lobate processes. The upper elevated section formed a three-dimensional framework that consisted mainly of bars, 0.7–1.0 mm wide, around open spaces.
</paragraph>
<paragraph id="8BBF36B77B50AF7066944504FED1DFC9" blockId="19.[151,1437,790,2041]" pageId="19" pageNumber="170">
The 
<typeStatus id="54BB88157B50AF7066A94504FEC3DCE9" box="[250,346,1403,1429]" pageId="19" pageNumber="170" type="paratype">paratype</typeStatus>
was also originally attached to a nodule but broke into two fairly large fragments when removed (
<figureCitation id="133B2A327B50AF7066CC45E0FEB0DCC5" box="[159,297,1439,1465]" captionStart="FIGURE 10" captionStartId="20.[151,250,1932,1956]" captionTargetBox="[151,1436,381,1909]" captionTargetId="figure-110@20.[151,1436,381,1909]" captionTargetPageId="20" captionText="FIGURE 10. Stereodikyoma mollis Gooday &amp; Holzmann gen. &amp; sp. nov. A, B, Holotype, RC1623 (BC039); shipboard photographs of intact specimen attached to nodule. C–F, Paratype, RC1697 (BC040). C, D, Shipboard photographs. E, F, Laboratory photographs (Geneva) of the two largest fragments." figureDoi="http://doi.org/10.5281/zenodo.10792083" httpUri="https://zenodo.org/record/10792083/files/figure.png" pageId="19" pageNumber="170">Fig. 10C, D</figureCitation>
). One fragment measured 11.2 by 
<quantity id="4CF89B527B50AF7064F845E0FC9CDCC5" box="[683,773,1439,1465]" metricMagnitude="-1" metricUnit="m" metricValue="1.09" pageId="19" pageNumber="170" unit="cm" value="10.9">10.9 cm</quantity>
and had a subrectangular outline. The other measured 11.8 by 
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and had a semicircular outline; the flattened part may have been the base of the specimen. Both fragments comprised a three-dimensional framework of branches, each ~ 
<quantity id="4CF89B527B50AF70651E4599FC68DF7D" box="[845,1009,1510,1537]" metricMagnitude="-4" metricUnit="m" metricValue="7.3" metricValueMax="9.2" metricValueMin="5.4" pageId="19" pageNumber="170" unit="mm" value="0.73" valueMax="0.92" valueMin="0.54">0.54–0.92 mm</quantity>
in diameter. A photograph of a nodule from the same box core (BC040) showed the remains of an encrusting xenophyophore that probably represents the same species (Supplementary 
<figureCitation id="133B2A327B50AF7067B94650FDCBDF35" box="[490,594,1583,1609]" captionStart="FIGURE 3" captionStartId="9.[151,250,1888,1912]" captionTargetBox="[151,1436,273,1865]" captionTargetId="figure-56@9.[151,1436,273,1865]" captionTargetPageId="9" captionText="FIGURE 3. Aschemonella tani Gooday &amp; Holzmann sp. nov.; holotype RC1555 (BC036). A, Shipboard photograph showing grouping of structures on nodule summit; numbers 1–3 identify parts illustrated in other photographs. B–F, Laboratory photographs. B, Part 1 from top of nodule. C, Part 2. D, E, Part 3 viewed from different sides. F, Detail of Part 3." figureDoi="http://doi.org/10.5281/zenodo.10792061" httpUri="https://zenodo.org/record/10792061/files/figure.png" pageId="19" pageNumber="170">Fig. S3A</figureCitation>
). It formed a mat-like structure covering an area measuring at least 17.5 by 
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. In places the surface was fairly smooth, but elsewhere it was uneven and appeared to comprise coalescing tubes, a few of which stood up for a short distance from the general surface. It was possibly the basal part of an upstanding test.
</paragraph>
<paragraph id="8BBF36B77B50AF70669446C0FCABDECD" blockId="19.[151,1437,790,2041]" pageId="19" pageNumber="170">
Preserved material. Both specimens were very fragile. The 
<typeStatus id="54BB88157B50AF7065C846C0FB99DFA5" box="[923,1024,1727,1753]" pageId="19" pageNumber="170" type="holotype">holotype</typeStatus>
, preserved in formalin, arrived in 
<collectingRegion id="49C4F8557B50AF7066C4469CFEB5DF81" box="[151,300,1763,1789]" country="United Kingdom" name="Southampton" pageId="19" pageNumber="170">Southampton</collectingRegion>
as small fragments, the largest a few milliimetres in size (Supplementary 
<figureCitation id="133B2A327B50AF7062DB469CFA88DF81" box="[1160,1297,1763,1789]" captionStart="FIGURE 3" captionStartId="9.[151,250,1888,1912]" captionTargetBox="[151,1436,273,1865]" captionTargetId="figure-56@9.[151,1436,273,1865]" captionTargetPageId="9" captionText="FIGURE 3. Aschemonella tani Gooday &amp; Holzmann sp. nov.; holotype RC1555 (BC036). A, Shipboard photograph showing grouping of structures on nodule summit; numbers 1–3 identify parts illustrated in other photographs. B–F, Laboratory photographs. B, Part 1 from top of nodule. C, Part 2. D, E, Part 3 viewed from different sides. F, Detail of Part 3." figureDoi="http://doi.org/10.5281/zenodo.10792061" httpUri="https://zenodo.org/record/10792061/files/figure.png" pageId="19" pageNumber="170">Fig. S3C–F</figureCitation>
). Fragments of the 
<typeStatus id="54BB88157B50AF7066B74778FEDEDE5D" box="[228,327,1799,1825]" pageId="19" pageNumber="170" type="paratype">paratype</typeStatus>
, preserved in RNAlater, were initially sent to 
<collectingRegion id="49C4F8557B50AF70650C4778FC2CDE5D" box="[863,949,1799,1825]" country="Switzerland" name="Geneve" pageId="19" pageNumber="170">Geneva</collectingRegion>
and included two larger pieces (
<figureCitation id="133B2A327B50AF7063624778FF30DE39" captionStart="FIGURE 10" captionStartId="20.[151,250,1932,1956]" captionTargetBox="[151,1436,381,1909]" captionTargetId="figure-110@20.[151,1436,381,1909]" captionTargetPageId="20" captionText="FIGURE 10. Stereodikyoma mollis Gooday &amp; Holzmann gen. &amp; sp. nov. A, B, Holotype, RC1623 (BC039); shipboard photographs of intact specimen attached to nodule. C–F, Paratype, RC1697 (BC040). C, D, Shipboard photographs. E, F, Laboratory photographs (Geneva) of the two largest fragments." figureDoi="http://doi.org/10.5281/zenodo.10792083" httpUri="https://zenodo.org/record/10792083/files/figure.png" pageId="19" pageNumber="170">Fig. 10E, F</figureCitation>
), around 6.0 and 
<quantity id="4CF89B527B50AF7067D24754FE45DE39" box="[385,476,1835,1861]" metricMagnitude="-3" metricUnit="m" metricValue="8.7" pageId="19" pageNumber="170" unit="mm" value="8.7">8.7 mm</quantity>
maximum dimension. Further disintegration occurred during onward transport to 
<collectingRegion id="49C4F8557B50AF7066C44730FEA9DE15" box="[151,304,1871,1897]" country="United Kingdom" name="Southampton" pageId="19" pageNumber="170">Southampton</collectingRegion>
. Most of the surviving fragments are basically cylindrical, although sometimes coalescing to form more plate-like structures (Supplementary 
<figureCitation id="133B2A327B50AF70642B470CFD7BDEF1" box="[632,738,1907,1933]" captionStart="FIGURE 3" captionStartId="9.[151,250,1888,1912]" captionTargetBox="[151,1436,273,1865]" captionTargetId="figure-56@9.[151,1436,273,1865]" captionTargetPageId="9" captionText="FIGURE 3. Aschemonella tani Gooday &amp; Holzmann sp. nov.; holotype RC1555 (BC036). A, Shipboard photograph showing grouping of structures on nodule summit; numbers 1–3 identify parts illustrated in other photographs. B–F, Laboratory photographs. B, Part 1 from top of nodule. C, Part 2. D, E, Part 3 viewed from different sides. F, Detail of Part 3." figureDoi="http://doi.org/10.5281/zenodo.10792061" httpUri="https://zenodo.org/record/10792061/files/figure.png" pageId="19" pageNumber="170">Fig. S3D</figureCitation>
). This tendency for the tubes to coalesce is also evident in the shipboard photographs of the intact 
<typeStatus id="54BB88157B50AF70647847E8FD14DECD" box="[555,653,1943,1969]" pageId="19" pageNumber="170" type="holotype">holotype</typeStatus>
(
<figureCitation id="133B2A327B50AF7064CF47E8FCBDDECD" box="[668,804,1943,1969]" captionStart="FIGURE 10" captionStartId="20.[151,250,1932,1956]" captionTargetBox="[151,1436,381,1909]" captionTargetId="figure-110@20.[151,1436,381,1909]" captionTargetPageId="20" captionText="FIGURE 10. Stereodikyoma mollis Gooday &amp; Holzmann gen. &amp; sp. nov. A, B, Holotype, RC1623 (BC039); shipboard photographs of intact specimen attached to nodule. C–F, Paratype, RC1697 (BC040). C, D, Shipboard photographs. E, F, Laboratory photographs (Geneva) of the two largest fragments." figureDoi="http://doi.org/10.5281/zenodo.10792083" httpUri="https://zenodo.org/record/10792083/files/figure.png" pageId="19" pageNumber="170">Fig. 10A, B</figureCitation>
).
</paragraph>
<paragraph id="8BBF36B77B50AF77669447C4FDFFD819" blockId="19.[151,1437,790,2041]" lastBlockId="20.[151,1436,151,357]" lastPageId="20" lastPageNumber="171" pageId="19" pageNumber="170">
The test wall has a very thin (no more than ~5 µm) basal layer composed of small but discernible transparent, pale yellowish grains. This is overlain by a much thicker (typically 130 to 260 µm) layer of soft, very fine-grained and easily disaggregated, sediment-like material (Supplementary 
<figureCitation id="133B2A327B57AF77652B40E8FB9BD9CD" box="[888,1026,151,177]" captionStart="FIGURE 3" captionStartId="9.[151,250,1888,1912]" captionTargetBox="[151,1436,273,1865]" captionTargetId="figure-56@9.[151,1436,273,1865]" captionTargetPageId="9" captionText="FIGURE 3. Aschemonella tani Gooday &amp; Holzmann sp. nov.; holotype RC1555 (BC036). A, Shipboard photograph showing grouping of structures on nodule summit; numbers 1–3 identify parts illustrated in other photographs. B–F, Laboratory photographs. B, Part 1 from top of nodule. C, Part 2. D, E, Part 3 viewed from different sides. F, Detail of Part 3." figureDoi="http://doi.org/10.5281/zenodo.10792061" httpUri="https://zenodo.org/record/10792061/files/figure.png" pageId="20" pageNumber="171">Fig. S3C–D</figureCitation>
). The branches are tubular and there are no internal xenophyae, much of the internal space being occupied by a stercomare branch, typically 100 to 200 µm diameter (Supplementary 
<figureCitation id="133B2A327B57AF7767B240A0FDDAD985" box="[481,579,223,249]" captionStart="FIGURE 3" captionStartId="9.[151,250,1888,1912]" captionTargetBox="[151,1436,273,1865]" captionTargetId="figure-56@9.[151,1436,273,1865]" captionTargetPageId="9" captionText="FIGURE 3. Aschemonella tani Gooday &amp; Holzmann sp. nov.; holotype RC1555 (BC036). A, Shipboard photograph showing grouping of structures on nodule summit; numbers 1–3 identify parts illustrated in other photographs. B–F, Laboratory photographs. B, Part 1 from top of nodule. C, Part 2. D, E, Part 3 viewed from different sides. F, Detail of Part 3." figureDoi="http://doi.org/10.5281/zenodo.10792061" httpUri="https://zenodo.org/record/10792061/files/figure.png" pageId="20" pageNumber="171">Fig. S3F</figureCitation>
). Several branches often emerge from plate-like fragments or are visible along their broken edges. A narrow granellare strand is sometimes seen running parallel to the stercomare (Supplementary 
<figureCitation id="133B2A327B57AF7766C44158FF64D83D" box="[151,253,295,321]" captionStart="FIGURE 3" captionStartId="9.[151,250,1888,1912]" captionTargetBox="[151,1436,273,1865]" captionTargetId="figure-56@9.[151,1436,273,1865]" captionTargetPageId="9" captionText="FIGURE 3. Aschemonella tani Gooday &amp; Holzmann sp. nov.; holotype RC1555 (BC036). A, Shipboard photograph showing grouping of structures on nodule summit; numbers 1–3 identify parts illustrated in other photographs. B–F, Laboratory photographs. B, Part 1 from top of nodule. C, Part 2. D, E, Part 3 viewed from different sides. F, Detail of Part 3." figureDoi="http://doi.org/10.5281/zenodo.10792061" httpUri="https://zenodo.org/record/10792061/files/figure.png" pageId="20" pageNumber="171">Fig. S3B</figureCitation>
). The granellare is pale yellowish, usually 30 to 50 µm diameter, and branches together with the stercomare where the tubular test elements bifurcate.
</paragraph>
<caption id="DF7F663F7B57AF7766C447F3FC80DE91" ID-DOI="http://doi.org/10.5281/zenodo.10792083" ID-Zenodo-Dep="10792083" httpUri="https://zenodo.org/record/10792083/files/figure.png" pageId="20" pageNumber="171" startId="20.[151,250,1932,1956]" targetBox="[151,1436,381,1909]" targetPageId="20" targetType="figure">
<paragraph id="8BBF36B77B57AF7766C447F3FC80DE91" blockId="20.[151,1436,1932,2029]" pageId="20" pageNumber="171">
<emphasis id="B974EAA57B57AF7766C447F3FEBDDED9" bold="true" box="[151,292,1932,1957]" pageId="20" pageNumber="171">FIGURE 10.</emphasis>
<emphasis id="B974EAA57B57AF77677C47F2FE5CDED9" box="[303,453,1933,1957]" italics="true" pageId="20" pageNumber="171">Stereodikyoma</emphasis>
<taxonomicName id="4C004D347B57AF77679C47F2FD62DED9" authority="Gooday &amp; Holzmann" authorityName="Gooday &amp; Holzmann" box="[463,763,1933,1957]" class="Monothalamea" genus="Stereodiktyoma" higherTaxonomySource="CoL" kingdom="Chromista" pageId="20" pageNumber="171" phylum="Foraminifera" rank="species" species="mollis">
<emphasis id="B974EAA57B57AF77679C47F2FD94DED9" box="[463,525,1933,1957]" italics="true" pageId="20" pageNumber="171">mollis</emphasis>
Gooday &amp; Holzmann
</taxonomicName>
<emphasis id="B974EAA57B57AF77655547F2FCABDED9" bold="true" box="[774,818,1933,1957]" pageId="20" pageNumber="171">gen.</emphasis>
&amp; 
<emphasis id="B974EAA57B57AF77650847F2FC29DED9" bold="true" box="[859,944,1933,1957]" pageId="20" pageNumber="171">sp. nov.</emphasis>
A, B, Holotype, RC1623 (BC039); shipboard photographs of intact specimen attached to nodule. C–F, Paratype, RC1697 (BC040). C, D, Shipboard photographs. E, F, Laboratory photographs (Geneva) of the two largest fragments.
</paragraph>
</caption>
<paragraph id="8BBF36B77B56AF76669440E8FA89D9A9" blockId="21.[151,1437,150,609]" pageId="21" pageNumber="172">
<emphasis id="B974EAA57B56AF76669440E8FD88D9CD" bold="true" box="[199,529,150,177]" pageId="21" pageNumber="172">Molecular characterisation.</emphasis>
<emphasis id="B974EAA57B56AF76644540E8FC94D9CD" box="[534,781,151,177]" italics="true" pageId="21" pageNumber="172">
Stereodictyoma 
<taxonomicName id="4C004D347B56AF76649A40E8FC94D9CD" box="[713,781,151,177]" class="Monothalamea" genus="Stereodiktyoma" higherTaxonomySource="CoL" kingdom="Chromista" pageId="21" pageNumber="172" phylum="Foraminifera" rank="species" species="mollis">mollis</taxonomicName>
</emphasis>
branches as sister to 
<taxonomicName id="4C004D347B56AF7665A540E8FB7DD9CD" box="[1014,1252,151,177]" class="Monothalamea" family="Psamminidae" genus="Galatheammina" kingdom="Chromista" pageId="21" pageNumber="172" phylum="Foraminifera" rank="species" species="undefined-2">
<emphasis id="B974EAA57B56AF7665A540E8FB33D9CD" box="[1014,1194,151,177]" italics="true" pageId="21" pageNumber="172">Galatheammina</emphasis>
sp. 2
</taxonomicName>
(100%BV). The length of sequenced fragment of 18S gene of 
<taxonomicName id="4C004D347B56AF7664C640C4FD6CD9A9" box="[661,757,187,213]" class="Monothalamea" genus="Stereodiktyoma" higherTaxonomySource="CoL" kingdom="Chromista" pageId="21" pageNumber="172" phylum="Foraminifera" rank="species" species="mollis">
<emphasis id="B974EAA57B56AF7664C640C4FD6CD9A9" box="[661,757,187,213]" italics="true" pageId="21" pageNumber="172">S. mollis</emphasis>
</taxonomicName>
is 1068 nucleotides and the GC content is 30%.
</paragraph>
</subSubSection>
<subSubSection id="C31A653C7B56AF76669440A0FECFDB1D" pageId="21" pageNumber="172" type="discussion">
<paragraph id="8BBF36B77B56AF76669440A0FB1FD8F5" blockId="21.[151,1437,150,609]" pageId="21" pageNumber="172">
<emphasis id="B974EAA57B56AF76669440A0FEADD985" bold="true" box="[199,308,223,249]" pageId="21" pageNumber="172">Remarks</emphasis>
. There are some morphological differences between the 
<specimenCount id="9D06FD3E7B56AF7665E140A0FBC1D985" box="[946,1112,223,249]" count="2" pageId="21" pageNumber="172" type="generic">two specimens</specimenCount>
of 
<taxonomicName id="4C004D347B56AF76622D40A0FAEFD985" box="[1150,1398,223,249]" class="Monothalamea" genus="Stereodiktyoma" higherTaxonomySource="CoL" kingdom="Chromista" pageId="21" pageNumber="172" phylum="Foraminifera" rank="species" species="mollis">
<emphasis id="B974EAA57B56AF76622D40A0FAEFD985" box="[1150,1398,223,249]" italics="true" pageId="21" pageNumber="172">Stereodiktyoma mollis</emphasis>
</taxonomicName>
. In particular, the 
<typeStatus id="54BB88157B56AF766769417CFE05D861" box="[314,412,259,285]" pageId="21" pageNumber="172" type="holotype">holotype</typeStatus>
from box core included a fairly high proportion of plate-like fragments whereas fragments of the 
<typeStatus id="54BB88157B56AF7666B24158FED8D83D" box="[225,321,295,321]" pageId="21" pageNumber="172" type="paratype">paratype</typeStatus>
were predominantly tubular. This difference is in the small preserved fragments is consistent with the appearance of the more intact specimens in shipboard photographs. However, in other respects, notably the wall structure, they are very similar and hence we consider them to represent the same species.
</paragraph>
<paragraph id="8BBF36B77B56AF76669441ECFECFDB1D" blockId="21.[151,1437,150,609]" pageId="21" pageNumber="172">
DNA sequences obtained from the 
<typeStatus id="54BB88157B56AF76643441ECFD5ED8D1" box="[615,711,403,429]" pageId="21" pageNumber="172" type="paratype">paratype</typeStatus>
reveal a strongly supported relationship (100% BV) between 
<taxonomicName id="4C004D347B56AF7666C441C8FE09D8AD" box="[151,400,439,465]" class="Monothalamea" genus="Stereodiktyoma" higherTaxonomySource="CoL" kingdom="Chromista" pageId="21" pageNumber="172" phylum="Foraminifera" rank="species" species="mollis">
<emphasis id="B974EAA57B56AF7666C441C8FE09D8AD" box="[151,400,439,465]" italics="true" pageId="21" pageNumber="172">Stereodiktyoma mollis</emphasis>
</taxonomicName>
and 
<taxonomicName id="4C004D347B56AF76679B41C8FD20D8AD" box="[456,697,439,465]" class="Monothalamea" family="Psamminidae" genus="Galatheammina" kingdom="Chromista" pageId="21" pageNumber="172" phylum="Foraminifera" rank="species" species="undefined-2">
<emphasis id="B974EAA57B56AF76679B41C8FDE5D8AD" box="[456,636,439,465]" italics="true" pageId="21" pageNumber="172">Galatheammina</emphasis>
sp. 2
</taxonomicName>
of 
<bibRefCitation id="EF914B467B56AF7664B341C8FC40D8AD" author="Gooday, A. J. &amp; Holzmann, M. &amp; Caulle, C. &amp; Goineau, A. &amp; Pearce, R. B. &amp; Voltski, I. &amp; Weber, A. A. - T. &amp; Pawlowski, J." box="[736,985,439,465]" pageId="21" pageNumber="172" pagination="723 - 748" refId="ref21817" refString="Gooday, A. J., Holzmann, M., Caulle, C., Goineau, A., Pearce, R. B., Voltski, I., Weber, A. A. - T. &amp; Pawlowski, J. (2017 c) Five new species and two new genera of xenophyophores (Foraminifera: Rhizaria) from part of the abyssal equatorial Pacific licensed for polymetallic nodule exploration. Zoological Journal of the Linnean Society, 183 (4), 723 - 748. https: // doi. org / 10.1093 / zoolinnean / zlx 093" type="journal article" year="2017">
Gooday 
<emphasis id="B974EAA57B56AF76651341C8FCEBD8AD" box="[832,882,439,465]" italics="true" pageId="21" pageNumber="172">et al</emphasis>
. (2017c)
</bibRefCitation>
, albeit with fairly long branches in both cases. The 
<taxonomicName id="4C004D347B56AF76674441A4FDBFD889" box="[279,550,475,501]" pageId="21" pageNumber="172">
<emphasis id="B974EAA57B56AF76674441A4FE52D889" box="[279,459,475,501]" italics="true" pageId="21" pageNumber="172">Galatheammina</emphasis>
species
</taxonomicName>
is known from a single specimen, possibly a fragment, from the UK-1 area. This forms a flat plate composed of radiolarians in a fine-grained matrix and with radiolarians also occupying the test interior, together with stercomare and granellare. The two species therefore have little in common morphologically.
</paragraph>
</subSubSection>
</treatment>
</document>