treatments-xml/data/C1/1C/87/C11C8789FFACFF9CFF6A276FFB86FE3B.xml

<document id="E43856A5192D34B884A36E36CF39C5ED" ID="10.11646/zootaxa.4282.1.5SLASH11473" ID-CLB-Dataset="28746" ID-DOI="10.11646/zootaxa.4282.1.5" ID-GBIF-Dataset="aa29bec9-6ecd-43d2-9e02-865e9f5599dc" ID-ISSN="1175-5326" ID-Zenodo-Dep="818471" ID-ZooBank="049026D4-2D2E-4443-98ED-FD7B4320A976" IM.materialsCitations_approvedBy="felipe" IM.metadata_approvedBy="felipe" IM.taxonomicNames_approvedBy="felipe" checkinTime="1498475308566" checkinUser="plazi" docAuthor="Rosso, Antonietta, Sciuto, Francesco, Sanfilippo, Rossana &amp; Jones, Mary Spencer" docDate="2017" docId="C11C8789FFACFF9CFF6A276FFB86FE3B" docLanguage="en" docName="zootaxa.4282.1.5SLASH11473.pdf" docOrigin="Zootaxa 4282 (1)" docStyle="DocumentStyle:647186512141C8FC8976D5BCC54AEB7D.9:Zootaxa.2013-.journal_article" docStyleId="647186512141C8FC8976D5BCC54AEB7D" docStyleName="Zootaxa.2013-.journal_article" docStyleVersion="9" docTitle="Arbocuspis emanuelae Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones 2017, n. sp." docType="treatment" docVersion="7" lastPageNumber="104" masterDocId="3D25FFF1FFAEFF95FFFD223DFF80FFCE" masterDocTitle="The bryozoan genus Arbocuspis (Cheilostomata, Electridae) from the Indian Ocean, with description of a new species from off southwestern Thailand, Andaman Sea" masterLastPageNumber="110" masterPageNumber="95" pageNumber="97" updateTime="1698449629543" updateUser="ExternalLinkService">
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<mods:title id="A28A3FEC047E306547BC1734921CC3C0">The bryozoan genus Arbocuspis (Cheilostomata, Electridae) from the Indian Ocean, with description of a new species from off southwestern Thailand, Andaman Sea</mods:title>
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<mods:namePart id="655862E7961411E49DCD854F71ABFA29">Rosso, Antonietta</mods:namePart>
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<mods:namePart id="3A8E62E233080547BF10EA941E2AB7D6">Sciuto, Francesco</mods:namePart>
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<mods:namePart id="857F5CD9171ADED8D97EED2A2CE6B1CE">Sanfilippo, Rossana</mods:namePart>
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<mods:namePart id="88E2DD58839D6E7AA671E4FD7414C036">Jones, Mary Spencer</mods:namePart>
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<treatment id="C11C8789FFACFF9CFF6A276FFB86FE3B" ID-DOI="http://doi.org/10.5281/zenodo.6001249" ID-GBIF-Taxon="150729330" ID-Zenodo-Dep="6001249" LSID="urn:lsid:plazi:treatment:C11C8789FFACFF9CFF6A276FFB86FE3B" httpUri="http://treatment.plazi.org/id/C11C8789FFACFF9CFF6A276FFB86FE3B" lastPageId="9" lastPageNumber="104" pageId="2" pageNumber="97">
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<paragraph id="490A369FFFACFF97FF6A276FFE73FAA3" blockId="2.[151,499,1362,1422]" box="[151,499,1362,1389]" pageId="2" pageNumber="97">
<heading id="124281F3FFACFF97FF6A276FFE73FAA3" bold="true" box="[151,499,1362,1389]" fontSize="11" level="1" pageId="2" pageNumber="97" reason="1">
<emphasis id="7BC1EA8DFFACFF97FF6A276FFE73FAA3" bold="true" box="[151,499,1362,1389]" pageId="2" pageNumber="97">
<taxonomicName id="8EB54D1CFFACFF97FF6A276FFE29FAA2" authority="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones, 2017" authorityName="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones" authorityYear="2017" box="[151,425,1362,1388]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="2" pageNumber="97" phylum="Bryozoa" rank="species" species="emanuelae" status="sp. nov.">
<emphasis id="7BC1EA8DFFACFF97FF6A276FFE29FAA2" bold="true" box="[151,425,1362,1388]" italics="true" pageId="2" pageNumber="97">Arbocuspis emanuelae</emphasis>
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<taxonomicNameLabel id="60F257F6FFACFF97FE4D276EFE73FAA3" box="[432,499,1363,1389]" pageId="2" pageNumber="97" rank="species">n. sp.</taxonomicNameLabel>
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<paragraph id="490A369FFFACFF97FF6A2748FE99FA40" blockId="2.[151,499,1362,1422]" box="[151,281,1397,1422]" pageId="2" pageNumber="97">
(
<figureCitation id="D18E2A1AFFACFF97FF622748FE90FA40" box="[159,272,1397,1422]" captionStart-0="FIGURES 2 – 4" captionStart-1="FIGURES 5 – 8" captionStart-2="FIGURES 9 – 13" captionStart-3="FIGURES 14 – 21" captionStartId-0="3.[151,264,1115,1138]" captionStartId-1="4.[151,264,1635,1658]" captionStartId-2="5.[151,264,1484,1507]" captionStartId-3="6.[151,264,1735,1758]" captionTargetBox-0="[151,1436,373,1094]" captionTargetBox-1="[151,1436,193,1614]" captionTargetBox-2="[151,1436,481,1463]" captionTargetBox-3="[221,1355,193,1720]" captionTargetId-0="figure@3.[151,1436,373,1094]" captionTargetId-1="figure@4.[151,1436,193,1614]" captionTargetId-2="figure@5.[151,1436,481,1463]" captionTargetId-3="figure@6.[221,1355,193,1721]" captionTargetPageId-0="3" captionTargetPageId-1="4" captionTargetPageId-2="5" captionTargetPageId-3="6" captionText-0="FIGURES 2 – 4. Arbocuspis emanuelae n. sp. from Station BN 28, Phuket, Thailand, Holotype, PMC. B 20. 28.6.2008 a, colony morphology: 2, one of the largest lobes, whose growth is regulated by the insertion of kenozooids terminal to most zooidal rows (black arrow). New thin lobes start from few zooids (white arrowed); 3, lobe of a ‘ regenerated’ colony with the typical budding pattern leading to the formation of transversal zooidal rows. 4, a colony portion starting from a uniserial chain of zooids showing a trifurcation with formation of a main central lobe, and secondary lateral lobes from single diverging zooids, one possibly abutting (arrowed); Scale bars: 2, 1 mm; 3 – 4, 0.500 mm." captionText-1="FIGURES 5 – 8. Arbocuspis emanuelae n. sp. from Station BN 28, Phuket, Thailand, Paratype PMC. B 20. 28.6.2008 b, zooidal characters: 5, group of zooids from a fan-shaped lobe with the typical budding pattern; 6, close-up of a zooid to show the extensive spinous gymnocyst and the two diagnostic regularly bifurcating spines lateral to the group of aligned pointed spines along the proximal border of the opesium; 7, inclined view to show the length of the gymnocystal spines and the branching spines overarching the opesium. Note the absence of budding loci along the edge of the branch; 8, multiporous septula at the distal-lateral corner of a zooid. Scale bars: 5, 7, 0.200 mm; 6, 0.100 mm; 8, 0.020 mm." captionText-2="FIGURES 9 – 13. Arbocuspis emanuelae n. sp., from Station BN 28, Phuket, Thailand, lateral and reparative budding: 9 – 10, Holotype PMC. B 20. 28.6.2008 a, general view and detail of the formation of a lateral branch from a single marginal zooid. Note the long rectangular kenozooid flanking the first zooid of the new branch (arrowed in Fig. 9); 11 – 13, Paratype, PMC. B 20. 28.6.2008 c, damaged colony portion with reparative budding (arrowed) from exposed lateral walls of broken zooids, opposite and orthogonal to previous colony growth directions, enlarged in 12 and 13, respectively. Scale bars: 9 – 10, 12, 0.200 mm; 11, 0.500 mm; 13, 0.100 mm." captionText-3="FIGURES 14 – 21. Arbocuspis emanuelae n. sp., from Station BN 28, Phuket, Thailand, kenozooids: 14 – 16, Holotype PMC. B 20. 28.6.2008 a, 14 – 15, two branches showing different pattern in the formation of longitudinal rows of kenozoois to regulate branch thickness; 16, close-up of the colony showing aligned kenozooids halting the distal growth of a lobe; except for a single zooid giving rise to a new branch; 17 – 21, Paratype, PMC. B 20. 28.6.2008 c, encounter between branches of a partly damaged colony. Note the irregularly shaped kenozooid (enlarged in Fig. 18), the row of kenozooids (enlarged in Fig. 19), the evidences of reparative calcification; 18, irregularly shaped kenozooid with long caudae (one long and curve, white arrowed) connecting surviving zooids from adjacent sectors locating their septulae. Note iterative intramural budding (black arrowed); 19, large fully developed kenozooids halting the growth of a branch; 20 – 21, general view (20) and enlargement (21) of large lateral (black arrowed) and small frontal kenozoids (white arrowed) elongated on zooidal edges. Scale bars: 14, 16 – 19, 21, 0.200 mm; 15, 20, 0.500 mm." httpUri-0="https://zenodo.org/record/818475/files/figure.png" httpUri-1="https://zenodo.org/record/818477/files/figure.png" httpUri-2="https://zenodo.org/record/818479/files/figure.png" httpUri-3="https://zenodo.org/record/818481/files/figure.png" pageId="2" pageNumber="97">Figs 2–21</figureCitation>
)
</paragraph>
</subSubSection>
<subSubSection id="01AF6514FFACFF97FF6A2780FE1FF960" pageId="2" pageNumber="97" type="materials_examined">
<paragraph id="490A369FFFACFF97FF6A2780FE1FF960" blockId="2.[151,1437,1469,2034]" pageId="2" pageNumber="97">
<materialsCitation id="F9DD3CC2FFACFF97FF6A2780FDFEFA18" ID-GBIF-Occurrence="1950903902" box="[151,638,1469,1494]" location="Material" pageId="2" pageNumber="97" specimenCount="1" typeStatus="holotype">
<emphasis id="7BC1EA8DFFACFF97FF6A2780FE02FA18" bold="true" box="[151,386,1469,1494]" pageId="2" pageNumber="97">
<location id="4C6A6044FFACFF97FF6A2780FF7FFA18" LSID="urn:lsid:plazi:treatment:C11C8789FFACFF9CFF6A276FFB86FE3B:4C6A6044FFACFF97FF6A2780FF7FFA18" box="[151,255,1469,1494]" name="Material" pageId="2" pageNumber="97">Material</location>
examined.
</emphasis>
<typeStatus id="960E883DFFACFF97FE762780FE72FA1B" box="[395,498,1469,1493]" pageId="2" pageNumber="97" type="holotype">
<emphasis id="7BC1EA8DFFACFF97FE762780FE72FA1B" box="[395,498,1469,1493]" italics="true" pageId="2" pageNumber="97">Holotype</emphasis>
</typeStatus>
: PMC.B 20
</materialsCitation>
. 
<materialsCitation id="F9DD3CC2FFACFF97FD762780FE71F98C" ID-GBIF-Occurrence="1950903900" collectingDate="2008-06-28" country="Thailand" county="Andaman Sea" latitude="8.688" location="Gastrochaenolithes" longLatPrecision="1" longitude="89.203384" municipality="Laem Pakarang" pageId="2" pageNumber="97" specimenCount="1" typeStatus="paratype">
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a, the largest colony lobe encrusting the surface of a partly preserved 
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<emphasis id="7BC1EA8DFFACFF97FEF627DCFE65FA37" box="[267,485,1505,1529]" italics="true" pageId="2" pageNumber="97">Gastrochaenolithes</emphasis>
</location>
in a broken sandstone pebble from sample BN 28, collected slightly South of 
<collectingMunicipality id="A96EACE5FFACFF97FAA127DFFE82F9D0" pageId="2" pageNumber="97">Laem Pakarang</collectingMunicipality>
, at 
<geoCoordinate id="2C815058FFACFF97FECC243BFE40F9D3" box="[305,448,1542,1566]" direction="north" orientation="latitude" pageId="2" pageNumber="97" precision="1" value="8.688">8°41.280’ N</geoCoordinate>
and 
<geoCoordinate id="2C815058FFACFF97FE02243BFD1BF9D3" box="[511,667,1542,1566]" direction="east" orientation="longitude" pageId="2" pageNumber="97" precision="1" value="89.203384">89°12.203’ E</geoCoordinate>
, in 14.7 metres, off southwestern 
<collectingCountry id="31A2760FFFACFF97FBCD2438FB16F9D0" box="[1072,1174,1541,1566]" name="Thailand" pageId="2" pageNumber="97">Thailand</collectingCountry>
, in the 
<collectingCounty id="A06B4E13FFACFF97FB092438FA18F9D0" box="[1268,1432,1541,1566]" pageId="2" pageNumber="97">Andaman Sea</collectingCounty>
, Recent. 
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<emphasis id="7BC1EA8DFFACFF97FF092417FEE5F98F" box="[244,357,1578,1601]" italics="true" pageId="2" pageNumber="97">Paratypes</emphasis>
</typeStatus>
: PMC.B 20
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. 
<date id="3D0B105FFFACFF97FE012414FDEFF98C" box="[508,623,1577,1602]" pageId="2" pageNumber="97" value="2008-06-28">28.6.2008</date>
b, smaller colony lobes on the same broken sandstone pebble seemingly belonging to a different colony. PMC.B 20. 
<date id="3D0B105FFFACFF97FD822470FD70F9A8" box="[639,752,1613,1638]" pageId="2" pageNumber="97" value="2008-06-28">28.6.2008</date>
c and PMC.B 20. 
<materialsCitation id="F9DD3CC2FFACFF97FC4B2470FE1FF960" ID-GBIF-Occurrence="1950903764" collectingDate="2008-06-28" country="Thailand" location="Two" municipality="All" pageId="2" pageNumber="97" specimenCount="1" typeStatus="holotype">
<collectingDate id="2D4FE9B7FFACFF97FC4B2470FBAAF9A8" box="[950,1066,1613,1638]" pageId="2" pageNumber="97" value="2008-06-28">
<date id="3D0B105FFFACFF97FC4B2470FBAAF9A8" box="[950,1066,1613,1638]" pageId="2" pageNumber="97" value="2008-06-28">28.6.2008</date>
</collectingDate>
d. 
<location id="4C6A6044FFACFF97FBBC2473FBF2F9AB" LSID="urn:lsid:plazi:treatment:C11C8789FFACFF9CFF6A276FFB86FE3B:4C6A6044FFACFF97FBBC2473FBF2F9AB" box="[1089,1138,1614,1637]" country="Thailand" municipality="All" name="Two" pageId="2" pageNumber="97">Two</location>
further colony portions on a millimetre sized and centimetre sized broken sandstone fragments, respectively. 
<collectingMunicipality id="A96EACE5FFACFF97FBB7244CFBEEF944" box="[1098,1134,1649,1674]" pageId="2" pageNumber="97">All</collectingMunicipality>
specimens from the same sample as the 
<typeStatus id="960E883DFFACFF97FEC824A8FE1BF960" box="[309,411,1685,1710]" pageId="2" pageNumber="97" type="holotype">holotype</typeStatus>
.
</materialsCitation>
</paragraph>
</subSubSection>
<subSubSection id="01AF6514FFACFF97FF3A2484FD71F93B" pageId="2" pageNumber="97" type="etymology">
<paragraph id="490A369FFFACFF97FF3A2484FD71F93B" blockId="2.[151,1437,1469,2034]" pageId="2" pageNumber="97">
<emphasis id="7BC1EA8DFFACFF97FF3A2484FECEF91C" bold="true" box="[199,334,1721,1746]" pageId="2" pageNumber="97">Etymology.</emphasis>
Named after Dr Emanuela Di Martino, whose invaluable studies are contributing to shed light on the origin of bryozoan biodiversity in tropical oceans.
</paragraph>
</subSubSection>
<subSubSection id="01AF6514FFACFF90FF3A253CFA0EFE63" lastPageId="5" lastPageNumber="100" pageId="2" pageNumber="97" type="description">
<paragraph id="490A369FFFACFF96FF3A253CFC7CFE8E" blockId="2.[151,1437,1469,2034]" lastBlockId="3.[151,1436,151,320]" lastPageId="3" lastPageNumber="98" pageId="2" pageNumber="97">
<emphasis id="7BC1EA8DFFACFF97FF3A253CFED9F8D4" bold="true" box="[199,345,1793,1818]" pageId="2" pageNumber="97">Description.</emphasis>
Colony small-sized, encrusting, unilaminar, uni– to pauciserial, typically developing as a succession of either fan–shaped lobes or nearly parallel–sided ribbon–like lobes (
<figureCitation id="D18E2A1AFFACFF97FBAB2518FB42F8F0" box="[1110,1218,1829,1854]" captionStart="FIGURES 2 – 4" captionStartId="3.[151,264,1115,1138]" captionTargetBox="[151,1436,373,1094]" captionTargetId="figure@3.[151,1436,373,1094]" captionTargetPageId="3" captionText="FIGURES 2 – 4. Arbocuspis emanuelae n. sp. from Station BN 28, Phuket, Thailand, Holotype, PMC. B 20. 28.6.2008 a, colony morphology: 2, one of the largest lobes, whose growth is regulated by the insertion of kenozooids terminal to most zooidal rows (black arrow). New thin lobes start from few zooids (white arrowed); 3, lobe of a ‘ regenerated’ colony with the typical budding pattern leading to the formation of transversal zooidal rows. 4, a colony portion starting from a uniserial chain of zooids showing a trifurcation with formation of a main central lobe, and secondary lateral lobes from single diverging zooids, one possibly abutting (arrowed); Scale bars: 2, 1 mm; 3 – 4, 0.500 mm." httpUri="https://zenodo.org/record/818475/files/figure.png" pageId="2" pageNumber="97">Figs 2–4</figureCitation>
), which consist of transverse rows of flanked zooids. Lobes often rapidly increase in width at the beginning, because of the particular zooidal budding pattern involving: 1) the usually simultaneous budding of all zooids in a transversal row; 2) the formation of two new zooids distally to each parental one, except for lateral zooids usually budding a single distal zooid plus a kenozooid; 3) the absence of additional budding loci along the lateral walls. Two adjacent zooids in a tranversal row may occasionally produce a new zooid in between them besides two lateral ones (
<figureCitation id="D18E2A1AFFACFF97FB0825E4FABCF83C" box="[1269,1340,2009,2034]" captionStart="FIGURES 2 – 4" captionStartId="3.[151,264,1115,1138]" captionTargetBox="[151,1436,373,1094]" captionTargetId="figure@3.[151,1436,373,1094]" captionTargetPageId="3" captionText="FIGURES 2 – 4. Arbocuspis emanuelae n. sp. from Station BN 28, Phuket, Thailand, Holotype, PMC. B 20. 28.6.2008 a, colony morphology: 2, one of the largest lobes, whose growth is regulated by the insertion of kenozooids terminal to most zooidal rows (black arrow). New thin lobes start from few zooids (white arrowed); 3, lobe of a ‘ regenerated’ colony with the typical budding pattern leading to the formation of transversal zooidal rows. 4, a colony portion starting from a uniserial chain of zooids showing a trifurcation with formation of a main central lobe, and secondary lateral lobes from single diverging zooids, one possibly abutting (arrowed); Scale bars: 2, 1 mm; 3 – 4, 0.500 mm." httpUri="https://zenodo.org/record/818475/files/figure.png" pageId="2" pageNumber="97">Fig. 4</figureCitation>
). In this case two adjacent zooidal buds fuse forming one cystid. Lobes include up to eight zooids in a transversal row. New fans/ribbons are formed: 1) along the sides of previous lobes, originating from the external distal bud of a lateral zooid diverging from the neighbouring zooid in the same transversal row (
<figureCitation id="D18E2A1AFFADFF96FC2F22E2FBC6FF36" box="[978,1094,223,248]" captionStart="FIGURES 9 – 13" captionStartId="5.[151,264,1484,1507]" captionTargetBox="[151,1436,481,1463]" captionTargetId="figure@5.[151,1436,481,1463]" captionTargetPageId="5" captionText="FIGURES 9 – 13. Arbocuspis emanuelae n. sp., from Station BN 28, Phuket, Thailand, lateral and reparative budding: 9 – 10, Holotype PMC. B 20. 28.6.2008 a, general view and detail of the formation of a lateral branch from a single marginal zooid. Note the long rectangular kenozooid flanking the first zooid of the new branch (arrowed in Fig. 9); 11 – 13, Paratype, PMC. B 20. 28.6.2008 c, damaged colony portion with reparative budding (arrowed) from exposed lateral walls of broken zooids, opposite and orthogonal to previous colony growth directions, enlarged in 12 and 13, respectively. Scale bars: 9 – 10, 12, 0.200 mm; 11, 0.500 mm; 13, 0.100 mm." httpUri="https://zenodo.org/record/818479/files/figure.png" pageId="3" pageNumber="98">Figs 9–10</figureCitation>
), and 2) from ‘isolated’ zooids along the distal edge of previous fans (
<figureCitation id="D18E2A1AFFADFF96FDB82339FD0EFED2" box="[581,654,260,285]" captionStart="FIGURES 2 – 4" captionStartId="3.[151,264,1115,1138]" captionTargetBox="[151,1436,373,1094]" captionTargetId="figure@3.[151,1436,373,1094]" captionTargetPageId="3" captionText="FIGURES 2 – 4. Arbocuspis emanuelae n. sp. from Station BN 28, Phuket, Thailand, Holotype, PMC. B 20. 28.6.2008 a, colony morphology: 2, one of the largest lobes, whose growth is regulated by the insertion of kenozooids terminal to most zooidal rows (black arrow). New thin lobes start from few zooids (white arrowed); 3, lobe of a ‘ regenerated’ colony with the typical budding pattern leading to the formation of transversal zooidal rows. 4, a colony portion starting from a uniserial chain of zooids showing a trifurcation with formation of a main central lobe, and secondary lateral lobes from single diverging zooids, one possibly abutting (arrowed); Scale bars: 2, 1 mm; 3 – 4, 0.500 mm." httpUri="https://zenodo.org/record/818475/files/figure.png" pageId="3" pageNumber="98">Figs 2</figureCitation>
, 
<figureCitation id="D18E2A1AFFADFF96FD642339FD36FED3" box="[665,694,260,285]" captionStart="FIGURES 14 – 21" captionStartId="6.[151,264,1735,1758]" captionTargetBox="[221,1355,193,1720]" captionTargetId="figure@6.[221,1355,193,1721]" captionTargetPageId="6" captionText="FIGURES 14 – 21. Arbocuspis emanuelae n. sp., from Station BN 28, Phuket, Thailand, kenozooids: 14 – 16, Holotype PMC. B 20. 28.6.2008 a, 14 – 15, two branches showing different pattern in the formation of longitudinal rows of kenozoois to regulate branch thickness; 16, close-up of the colony showing aligned kenozooids halting the distal growth of a lobe; except for a single zooid giving rise to a new branch; 17 – 21, Paratype, PMC. B 20. 28.6.2008 c, encounter between branches of a partly damaged colony. Note the irregularly shaped kenozooid (enlarged in Fig. 18), the row of kenozooids (enlarged in Fig. 19), the evidences of reparative calcification; 18, irregularly shaped kenozooid with long caudae (one long and curve, white arrowed) connecting surviving zooids from adjacent sectors locating their septulae. Note iterative intramural budding (black arrowed); 19, large fully developed kenozooids halting the growth of a branch; 20 – 21, general view (20) and enlargement (21) of large lateral (black arrowed) and small frontal kenozoids (white arrowed) elongated on zooidal edges. Scale bars: 14, 16 – 19, 21, 0.200 mm; 15, 20, 0.500 mm." httpUri="https://zenodo.org/record/818481/files/figure.png" pageId="3" pageNumber="98">16</figureCitation>
) which stop their growth. Halting of growth along the lobes’ sides and the growing edge can also occur through the development of kenozooids.
</paragraph>
<caption id="1DCA6617FFADFF96FF6A2666FCB2FAC5" httpUri="https://zenodo.org/record/818475/files/figure.png" pageId="3" pageNumber="98" targetBox="[151,1436,373,1094]" targetPageId="3">
<paragraph id="490A369FFFADFF96FF6A2666FCB2FAC5" blockId="3.[151,1436,1115,1291]" pageId="3" pageNumber="98">
<emphasis id="7BC1EA8DFFADFF96FF6A2666FEBAFBBF" bold="true" box="[151,314,1115,1138]" pageId="3" pageNumber="98">FIGURES 2–4.</emphasis>
<taxonomicName id="8EB54D1CFFADFF96FEBD2661FDA6FBBC" authority="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones, 2017" authorityName="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones" authorityYear="2017" box="[320,550,1116,1138]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="3" pageNumber="98" phylum="Bryozoa" rank="species" species="emanuelae" status="sp. nov.">
<emphasis id="7BC1EA8DFFADFF96FEBD2661FDA6FBBC" box="[320,550,1116,1138]" italics="true" pageId="3" pageNumber="98">Arbocuspis emanuelae</emphasis>
</taxonomicName>
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<emphasis id="7BC1EA8DFFADFF96FDD12661FDE4FBBF" bold="true" box="[556,612,1116,1137]" pageId="3" pageNumber="98">n. sp.</emphasis>
</taxonomicNameLabel>
from Station BN 28, Phuket, Thailand, Holotype, PMC.B 20. 28.6.2008a, colony morphology: 
<emphasis id="7BC1EA8DFFADFF96FEE22647FEABFB41" bold="true" box="[287,299,1146,1167]" pageId="3" pageNumber="98">2</emphasis>
, one of the largest lobes, whose growth is regulated by the insertion of kenozooids terminal to most zooidal rows (black arrow). New thin lobes start from few zooids (white arrowed); 
<emphasis id="7BC1EA8DFFADFF96FCAA26A4FCE4FB60" bold="true" box="[855,868,1177,1198]" pageId="3" pageNumber="98">3</emphasis>
, lobe of a ‘regenerated’ colony with the typical budding pattern leading to the formation of transversal zooidal rows. 
<emphasis id="7BC1EA8DFFADFF96FCE02685FCA9FB03" bold="true" box="[797,809,1208,1229]" pageId="3" pageNumber="98">4</emphasis>
, a colony portion starting from a uniserial chain of zooids showing a trifurcation with formation of a main central lobe, and secondary lateral lobes from single diverging zooids, one possibly abutting (arrowed); Scale bars: 2, 1 mm; 3–4, 0.500 mm.
</paragraph>
</caption>
<paragraph id="490A369FFFADFF96FF3A270AFEB0F9CA" blockId="3.[151,1437,1335,2008]" pageId="3" pageNumber="98">
Autozooids slightly calcified, whitish and vitreous, elongate 0.411–0.482; 0.443± 
<quantity id="8E4D9B7AFFADFF96FB9A270AFB5BFA81" box="[1127,1243,1335,1360]" metricMagnitude="-5" metricUnit="m" metricValue="2.5" pageId="3" pageNumber="98" unit="mm" value="0.025">0.025 mm</quantity>
long (n=12) and 0.164–0.276; 0.201± 
<quantity id="8E4D9B7AFFADFF96FE7F2761FE78FABA" box="[386,504,1372,1396]" metricMagnitude="-5" metricUnit="m" metricValue="3.7" pageId="3" pageNumber="98" unit="mm" value="0.037">0.037 mm</quantity>
wide (n=12) (
<figureCitation id="D18E2A1AFFADFF96FD5D2761FC8AFABB" box="[672,778,1372,1397]" captionStart="FIGURES 5 – 8" captionStartId="4.[151,264,1635,1658]" captionTargetBox="[151,1436,193,1614]" captionTargetId="figure@4.[151,1436,193,1614]" captionTargetPageId="4" captionText="FIGURES 5 – 8. Arbocuspis emanuelae n. sp. from Station BN 28, Phuket, Thailand, Paratype PMC. B 20. 28.6.2008 b, zooidal characters: 5, group of zooids from a fan-shaped lobe with the typical budding pattern; 6, close-up of a zooid to show the extensive spinous gymnocyst and the two diagnostic regularly bifurcating spines lateral to the group of aligned pointed spines along the proximal border of the opesium; 7, inclined view to show the length of the gymnocystal spines and the branching spines overarching the opesium. Note the absence of budding loci along the edge of the branch; 8, multiporous septula at the distal-lateral corner of a zooid. Scale bars: 5, 7, 0.200 mm; 6, 0.100 mm; 8, 0.020 mm." httpUri="https://zenodo.org/record/818477/files/figure.png" pageId="3" pageNumber="98">Figs 5–6</figureCitation>
). Terminal oval to pyriform opesia narrowing distally, in correspondence of the operculum, and abruptly widening proximally being 0.179–0.223; 0.197± 
<quantity id="8E4D9B7AFFADFF96FB1127BDFAE1FA59" box="[1260,1377,1408,1432]" metricMagnitude="-5" metricUnit="m" metricValue="1.3" pageId="3" pageNumber="98" unit="mm" value="0.013">0.013 mm</quantity>
long (n=12) and 0.145–0.174; 0.157± 
<quantity id="8E4D9B7AFFADFF96FDEC2799FD09FA72" box="[529,649,1444,1469]" metricMagnitude="-5" metricUnit="m" metricValue="1.0" pageId="3" pageNumber="98" unit="mm" value="0.01">0.010 mm</quantity>
wide (n=12). Zooidal proximal portion is an extensive gymnocyst narrowing proximally and ending into a pointed or bifurcating area(s) deeply wedged in between zooids of the previous row.
</paragraph>
<paragraph id="490A369FFFADFF96FF3A242DFC45F816" blockId="3.[151,1437,1335,2008]" pageId="3" pageNumber="98">
Gymnocyst extended proximally about half of zooidal length, 0.205–0.273; 0.247± 
<quantity id="8E4D9B7AFFADFF96FB872432FB6FF9E9" box="[1146,1263,1551,1576]" metricMagnitude="-5" metricUnit="m" metricValue="2.6" pageId="3" pageNumber="98" unit="mm" value="0.026">0.026 mm</quantity>
long, and only forming a narrow rim lateral to the opesia (ca. 
<quantity id="8E4D9B7AFFADFF96FD412409FCFDF982" box="[700,893,1588,1612]" metricMagnitude="-5" metricUnit="m" metricValue="2.5" metricValueMax="3.0" metricValueMin="2.0" pageId="3" pageNumber="98" unit="mm" value="0.025" valueMax="0.03" valueMin="0.02">0.020–0.030 mm</quantity>
wide, exceptionally more), narrower along the distal border. Gymnocystal surface smooth but occasionally slightly wrinkled by transversal growth marks. Cryptocyst as a narrow shelf on the inner margin of the gymnocyst. Peripheral rim of the opesia locally marked by a faint crenellation. Two large spines are placed close to the proximolateral rim of the opesium, symmetrically arching over the frontal membrane, branching dichotomously and fairly symmetrically four times, forming 16 minute pointed tips when fully developed, tips of these two spines nearly joining/overlapping in the middle (
<figureCitation id="D18E2A1AFFADFF96FA9724DAFF43F8EB" captionStart="FIGURES 5 – 8" captionStartId="4.[151,264,1635,1658]" captionTargetBox="[151,1436,193,1614]" captionTargetId="figure@4.[151,1436,193,1614]" captionTargetPageId="4" captionText="FIGURES 5 – 8. Arbocuspis emanuelae n. sp. from Station BN 28, Phuket, Thailand, Paratype PMC. B 20. 28.6.2008 b, zooidal characters: 5, group of zooids from a fan-shaped lobe with the typical budding pattern; 6, close-up of a zooid to show the extensive spinous gymnocyst and the two diagnostic regularly bifurcating spines lateral to the group of aligned pointed spines along the proximal border of the opesium; 7, inclined view to show the length of the gymnocystal spines and the branching spines overarching the opesium. Note the absence of budding loci along the edge of the branch; 8, multiporous septula at the distal-lateral corner of a zooid. Scale bars: 5, 7, 0.200 mm; 6, 0.100 mm; 8, 0.020 mm." httpUri="https://zenodo.org/record/818477/files/figure.png" pageId="3" pageNumber="98">Figs 5–6</figureCitation>
, 
<figureCitation id="D18E2A1AFFADFF96FF2D2531FE9AF8EB" box="[208,282,1804,1829]" captionStart="FIGURES 14 – 21" captionStartId="6.[151,264,1735,1758]" captionTargetBox="[221,1355,193,1720]" captionTargetId="figure@6.[221,1355,193,1721]" captionTargetPageId="6" captionText="FIGURES 14 – 21. Arbocuspis emanuelae n. sp., from Station BN 28, Phuket, Thailand, kenozooids: 14 – 16, Holotype PMC. B 20. 28.6.2008 a, 14 – 15, two branches showing different pattern in the formation of longitudinal rows of kenozoois to regulate branch thickness; 16, close-up of the colony showing aligned kenozooids halting the distal growth of a lobe; except for a single zooid giving rise to a new branch; 17 – 21, Paratype, PMC. B 20. 28.6.2008 c, encounter between branches of a partly damaged colony. Note the irregularly shaped kenozooid (enlarged in Fig. 18), the row of kenozooids (enlarged in Fig. 19), the evidences of reparative calcification; 18, irregularly shaped kenozooid with long caudae (one long and curve, white arrowed) connecting surviving zooids from adjacent sectors locating their septulae. Note iterative intramural budding (black arrowed); 19, large fully developed kenozooids halting the growth of a branch; 20 – 21, general view (20) and enlargement (21) of large lateral (black arrowed) and small frontal kenozoids (white arrowed) elongated on zooidal edges. Scale bars: 14, 16 – 19, 21, 0.200 mm; 15, 20, 0.500 mm." httpUri="https://zenodo.org/record/818481/files/figure.png" pageId="3" pageNumber="98">14–15</figureCitation>
). Three to four unbranched median spines, up to 
<quantity id="8E4D9B7AFFADFF96FCB72531FB8AF8EA" box="[842,1034,1804,1829]" metricMagnitude="-4" metricUnit="m" metricValue="1.6" metricValueMax="1.7" metricValueMin="1.5" pageId="3" pageNumber="98" unit="mm" value="0.16" valueMax="0.17" valueMin="0.15">0.150–0.170 mm</quantity>
long, sharply pointed, more or less elongate, almost aligned along the proximal border of the opesium. Additional, usually smaller, spines of comparable shape occur on the proximal gymnocyst, consisting of a calcified basal portion continuous with the gymnocyst, and a chitinous pointed ending portion. One of such spines, usually the most developed and possessing a stout conical calcified portion, placed proximally, lateral to the orifice of a proximal zooid so that spines from the two zooids distal to an orifice give the impression of oral spines (
<figureCitation id="D18E2A1AFFADFF96FC8F2582FC37F816" box="[882,951,1983,2008]" captionStart="FIGURES 5 – 8" captionStartId="4.[151,264,1635,1658]" captionTargetBox="[151,1436,193,1614]" captionTargetId="figure@4.[151,1436,193,1614]" captionTargetPageId="4" captionText="FIGURES 5 – 8. Arbocuspis emanuelae n. sp. from Station BN 28, Phuket, Thailand, Paratype PMC. B 20. 28.6.2008 b, zooidal characters: 5, group of zooids from a fan-shaped lobe with the typical budding pattern; 6, close-up of a zooid to show the extensive spinous gymnocyst and the two diagnostic regularly bifurcating spines lateral to the group of aligned pointed spines along the proximal border of the opesium; 7, inclined view to show the length of the gymnocystal spines and the branching spines overarching the opesium. Note the absence of budding loci along the edge of the branch; 8, multiporous septula at the distal-lateral corner of a zooid. Scale bars: 5, 7, 0.200 mm; 6, 0.100 mm; 8, 0.020 mm." httpUri="https://zenodo.org/record/818477/files/figure.png" pageId="3" pageNumber="98">Fig. 6</figureCitation>
).
</paragraph>
<caption id="1DCA6617FFAAFF91FF6A245EFB84F8DC" httpUri="https://zenodo.org/record/818477/files/figure.png" pageId="4" pageNumber="99" targetBox="[151,1436,193,1614]" targetPageId="4">
<paragraph id="490A369FFFAAFF91FF6A245EFB84F8DC" blockId="4.[151,1436,1635,1810]" pageId="4" pageNumber="99">
<emphasis id="7BC1EA8DFFAAFF91FF6A245EFEBAF9B6" bold="true" box="[151,314,1635,1658]" pageId="4" pageNumber="99">FIGURES 5–8.</emphasis>
<taxonomicName id="8EB54D1CFFAAFF91FEBD245EFDA7F9B7" authority="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones, 2017" authorityName="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones" authorityYear="2017" box="[320,551,1635,1657]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="4" pageNumber="99" phylum="Bryozoa" rank="species" species="emanuelae" status="sp. nov.">
<emphasis id="7BC1EA8DFFAAFF91FEBD245EFDA7F9B7" box="[320,551,1635,1657]" italics="true" pageId="4" pageNumber="99">Arbocuspis emanuelae</emphasis>
</taxonomicName>
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<emphasis id="7BC1EA8DFFAAFF91FDD02459FDE6F9B7" bold="true" box="[557,614,1636,1657]" pageId="4" pageNumber="99">n. sp.</emphasis>
</taxonomicNameLabel>
from Station BN 28, Phuket, Thailand, Paratype PMC.B 20. 28.6.2008b, zooidal characters: 
<emphasis id="7BC1EA8DFFAAFF91FEF024BFFE9AF959" bold="true" box="[269,282,1666,1687]" pageId="4" pageNumber="99">5</emphasis>
, group of zooids from a fan-shaped lobe with the typical budding pattern; 
<emphasis id="7BC1EA8DFFAAFF91FBCF24BFFBBFF959" bold="true" box="[1074,1087,1666,1687]" pageId="4" pageNumber="99">6</emphasis>
, close-up of a zooid to show the extensive spinous gymnocyst and the two diagnostic regularly bifurcating spines lateral to the group of aligned pointed spines along the proximal border of the opesium; 
<emphasis id="7BC1EA8DFFAAFF91FDAB2482FDE2F91A" bold="true" box="[598,610,1727,1748]" pageId="4" pageNumber="99">7</emphasis>
, inclined view to show the length of the gymnocystal spines and the branching spines overarching the opesium. Note the absence of budding loci along the edge of the branch; 
<emphasis id="7BC1EA8DFFAAFF91FB8A24E3FB04F93D" bold="true" box="[1143,1156,1758,1779]" pageId="4" pageNumber="99">8</emphasis>
, multiporous septula at the distal-lateral corner of a zooid. Scale bars: 5, 7, 0.200 mm; 6, 0.100 mm; 8, 0.020 mm.
</paragraph>
</caption>
<paragraph id="490A369FFFAAFF90FF3A2502FA0EFE63" blockId="4.[151,1437,1855,2024]" lastBlockId="5.[151,1437,151,429]" lastPageId="5" lastPageNumber="100" pageId="4" pageNumber="99">
Kenozooids either (i) smaller than autozooids, with a slender subtriangular to elongated trapezoidal morphology narrowing proximally, or (ii) equal size and shape as autozooids, nearly completely consisting of an extended gymnocyst marked by heavy transversal wrinkles often corresponding to minute bulges along the edges, bearing two–four scattered pointed spines, mostly on the proximal portion (
<figureCitation id="D18E2A1AFFAAFF91FC232596FBB5F80A" box="[990,1077,1963,1988]" captionStart="FIGURES 9 – 13" captionStartId="5.[151,264,1484,1507]" captionTargetBox="[151,1436,481,1463]" captionTargetId="figure@5.[151,1436,481,1463]" captionTargetPageId="5" captionText="FIGURES 9 – 13. Arbocuspis emanuelae n. sp., from Station BN 28, Phuket, Thailand, lateral and reparative budding: 9 – 10, Holotype PMC. B 20. 28.6.2008 a, general view and detail of the formation of a lateral branch from a single marginal zooid. Note the long rectangular kenozooid flanking the first zooid of the new branch (arrowed in Fig. 9); 11 – 13, Paratype, PMC. B 20. 28.6.2008 c, damaged colony portion with reparative budding (arrowed) from exposed lateral walls of broken zooids, opposite and orthogonal to previous colony growth directions, enlarged in 12 and 13, respectively. Scale bars: 9 – 10, 12, 0.200 mm; 11, 0.500 mm; 13, 0.100 mm." httpUri="https://zenodo.org/record/818479/files/figure.png" pageId="4" pageNumber="99">Figs 10</figureCitation>
, 
<figureCitation id="D18E2A1AFFAAFF91FBBD2596FB0AF80A" box="[1088,1162,1963,1988]" captionStart="FIGURES 14 – 21" captionStartId="6.[151,264,1735,1758]" captionTargetBox="[221,1355,193,1720]" captionTargetId="figure@6.[221,1355,193,1721]" captionTargetPageId="6" captionText="FIGURES 14 – 21. Arbocuspis emanuelae n. sp., from Station BN 28, Phuket, Thailand, kenozooids: 14 – 16, Holotype PMC. B 20. 28.6.2008 a, 14 – 15, two branches showing different pattern in the formation of longitudinal rows of kenozoois to regulate branch thickness; 16, close-up of the colony showing aligned kenozooids halting the distal growth of a lobe; except for a single zooid giving rise to a new branch; 17 – 21, Paratype, PMC. B 20. 28.6.2008 c, encounter between branches of a partly damaged colony. Note the irregularly shaped kenozooid (enlarged in Fig. 18), the row of kenozooids (enlarged in Fig. 19), the evidences of reparative calcification; 18, irregularly shaped kenozooid with long caudae (one long and curve, white arrowed) connecting surviving zooids from adjacent sectors locating their septulae. Note iterative intramural budding (black arrowed); 19, large fully developed kenozooids halting the growth of a branch; 20 – 21, general view (20) and enlargement (21) of large lateral (black arrowed) and small frontal kenozoids (white arrowed) elongated on zooidal edges. Scale bars: 14, 16 – 19, 21, 0.200 mm; 15, 20, 0.500 mm." httpUri="https://zenodo.org/record/818481/files/figure.png" pageId="4" pageNumber="99">14–16</figureCitation>
). Opesium usually distal to subterminal, transversally oval to rounded, covered by a membrane. Closure plate (when present) faintly granular, centrally sinking, marked by nearly concentric calcification rings and ending in a central subcircular to oval fenestra. Triangular to rectangular elongated kenozooids are typically budded at distal–lateral corner(s) of zooids located along the lobes’ sides marking the end of longitudinal rows of zooids (
<figureCitation id="D18E2A1AFFABFF90FB5222E2FAB8FF36" box="[1199,1336,223,248]" captionStart="FIGURES 14 – 21" captionStartId="6.[151,264,1735,1758]" captionTargetBox="[221,1355,193,1720]" captionTargetId="figure@6.[221,1355,193,1721]" captionTargetPageId="6" captionText="FIGURES 14 – 21. Arbocuspis emanuelae n. sp., from Station BN 28, Phuket, Thailand, kenozooids: 14 – 16, Holotype PMC. B 20. 28.6.2008 a, 14 – 15, two branches showing different pattern in the formation of longitudinal rows of kenozoois to regulate branch thickness; 16, close-up of the colony showing aligned kenozooids halting the distal growth of a lobe; except for a single zooid giving rise to a new branch; 17 – 21, Paratype, PMC. B 20. 28.6.2008 c, encounter between branches of a partly damaged colony. Note the irregularly shaped kenozooid (enlarged in Fig. 18), the row of kenozooids (enlarged in Fig. 19), the evidences of reparative calcification; 18, irregularly shaped kenozooid with long caudae (one long and curve, white arrowed) connecting surviving zooids from adjacent sectors locating their septulae. Note iterative intramural budding (black arrowed); 19, large fully developed kenozooids halting the growth of a branch; 20 – 21, general view (20) and enlargement (21) of large lateral (black arrowed) and small frontal kenozoids (white arrowed) elongated on zooidal edges. Scale bars: 14, 16 – 19, 21, 0.200 mm; 15, 20, 0.500 mm." httpUri="https://zenodo.org/record/818481/files/figure.png" pageId="5" pageNumber="100">Figs 14–15</figureCitation>
). Larger kenozooids are formed distally to some or all the zooids in a transversal row at the end of lobes (
<figureCitation id="D18E2A1AFFABFF90FAF82339FAD0FED2" box="[1285,1360,260,285]" captionStart="FIGURES 2 – 4" captionStartId="3.[151,264,1115,1138]" captionTargetBox="[151,1436,373,1094]" captionTargetId="figure@3.[151,1436,373,1094]" captionTargetPageId="3" captionText="FIGURES 2 – 4. Arbocuspis emanuelae n. sp. from Station BN 28, Phuket, Thailand, Holotype, PMC. B 20. 28.6.2008 a, colony morphology: 2, one of the largest lobes, whose growth is regulated by the insertion of kenozooids terminal to most zooidal rows (black arrow). New thin lobes start from few zooids (white arrowed); 3, lobe of a ‘ regenerated’ colony with the typical budding pattern leading to the formation of transversal zooidal rows. 4, a colony portion starting from a uniserial chain of zooids showing a trifurcation with formation of a main central lobe, and secondary lateral lobes from single diverging zooids, one possibly abutting (arrowed); Scale bars: 2, 1 mm; 3 – 4, 0.500 mm." httpUri="https://zenodo.org/record/818475/files/figure.png" pageId="5" pageNumber="100">Figs 2</figureCitation>
, black arrow; 16 bottom left). In damaged colonies small and roundish, to irregularly shaped kenozooids sometimes with long cauda–like projection and nearly central opesia occur (
<figureCitation id="D18E2A1AFFABFF90FCC02371FC41FEAA" box="[829,961,332,357]" captionStart="FIGURES 14 – 21" captionStartId="6.[151,264,1735,1758]" captionTargetBox="[221,1355,193,1720]" captionTargetId="figure@6.[221,1355,193,1721]" captionTargetPageId="6" captionText="FIGURES 14 – 21. Arbocuspis emanuelae n. sp., from Station BN 28, Phuket, Thailand, kenozooids: 14 – 16, Holotype PMC. B 20. 28.6.2008 a, 14 – 15, two branches showing different pattern in the formation of longitudinal rows of kenozoois to regulate branch thickness; 16, close-up of the colony showing aligned kenozooids halting the distal growth of a lobe; except for a single zooid giving rise to a new branch; 17 – 21, Paratype, PMC. B 20. 28.6.2008 c, encounter between branches of a partly damaged colony. Note the irregularly shaped kenozooid (enlarged in Fig. 18), the row of kenozooids (enlarged in Fig. 19), the evidences of reparative calcification; 18, irregularly shaped kenozooid with long caudae (one long and curve, white arrowed) connecting surviving zooids from adjacent sectors locating their septulae. Note iterative intramural budding (black arrowed); 19, large fully developed kenozooids halting the growth of a branch; 20 – 21, general view (20) and enlargement (21) of large lateral (black arrowed) and small frontal kenozoids (white arrowed) elongated on zooidal edges. Scale bars: 14, 16 – 19, 21, 0.200 mm; 15, 20, 0.500 mm." httpUri="https://zenodo.org/record/818481/files/figure.png" pageId="5" pageNumber="100">Figs 17, 20</figureCitation>
). More rare small swollen kenozooids are budded frontally, aligned along vertical walls of contiguous zooids. Multiporous septula are present in the laterodistal corners of transversal zooidal walls, and presumably along their lateral walls. Ancestrula was not observed.
</paragraph>
</subSubSection>
<caption id="1DCA6617FFABFF90FF6A27F1FE1FF9B2" httpUri="https://zenodo.org/record/818479/files/figure.png" pageId="5" pageNumber="100" targetBox="[151,1436,481,1463]" targetPageId="5">
<paragraph id="490A369FFFABFF90FF6A27F1FE1FF9B2" blockId="5.[151,1437,1484,1660]" pageId="5" pageNumber="100">
<emphasis id="7BC1EA8DFFABFF90FF6A27F1FEC9FA2C" bold="true" box="[151,329,1484,1507]" pageId="5" pageNumber="100">FIGURES 9–13.</emphasis>
<taxonomicName id="8EB54D1CFFABFF90FEAD27F0FDB8FA2D" authority="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones, 2017" authorityName="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones" authorityYear="2017" box="[336,568,1485,1507]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="5" pageNumber="100" phylum="Bryozoa" rank="species" species="emanuelae" status="sp. nov.">
<emphasis id="7BC1EA8DFFABFF90FEAD27F0FDB8FA2D" box="[336,568,1485,1507]" italics="true" pageId="5" pageNumber="100">Arbocuspis emanuelae</emphasis>
</taxonomicName>
<taxonomicNameLabel id="60F257F6FFABFF90FDC227F0FDFAFA2C" box="[575,634,1485,1506]" pageId="5" pageNumber="100" rank="species">
<emphasis id="7BC1EA8DFFABFF90FDC227F0FDFAFA2C" bold="true" box="[575,634,1485,1506]" pageId="5" pageNumber="100">n. sp.</emphasis>
</taxonomicNameLabel>
, from Station BN 28, Phuket, Thailand, lateral and reparative budding: 
<emphasis id="7BC1EA8DFFABFF90FA9E27F0FA15FA2C" bold="true" box="[1379,1429,1485,1507]" pageId="5" pageNumber="100">9–10</emphasis>
, Holotype PMC.B 20. 28.6.2008a, general view and detail of the formation of a lateral branch from a single marginal zooid. Note the long rectangular kenozooid flanking the first zooid of the new branch (arrowed in Fig. 9); 
<emphasis id="7BC1EA8DFFABFF90FB862437FB39F9D1" bold="true" box="[1147,1209,1546,1568]" pageId="5" pageNumber="100">11–13</emphasis>
, Paratype, PMC.B 20. 28.6.2008c, damaged colony portion with reparative budding (arrowed) from exposed lateral walls of broken zooids, opposite and orthogonal to previous colony growth directions, enlarged in 12 and 13, respectively. Scale bars: 9–10, 12, 0.200 mm; 11, 0.500 mm; 13, 0.100 mm.
</paragraph>
</caption>
<subSubSection id="01AF6514FFABFF9CFF3A2494FE35FE62" lastPageId="9" lastPageNumber="104" pageId="5" pageNumber="100" type="discussion">
<paragraph id="490A369FFFABFF92FF3A2494FABFFE8E" blockId="5.[151,1436,1705,2018]" lastBlockId="7.[151,1437,151,896]" lastPageId="7" lastPageNumber="102" pageId="5" pageNumber="100">
<emphasis id="7BC1EA8DFFABFF90FF3A2494FEBBF90C" bold="true" box="[199,315,1705,1730]" pageId="5" pageNumber="100">Remarks.</emphasis>
<taxonomicName id="8EB54D1CFFABFF90FEB62494FDD1F90F" authority="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones, 2017" authorityName="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones" authorityYear="2017" box="[331,593,1705,1729]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="5" pageNumber="100" phylum="Bryozoa" rank="species" species="emanuelae" status="sp. nov.">
<emphasis id="7BC1EA8DFFABFF90FEB62494FDD1F90F" box="[331,593,1705,1729]" italics="true" pageId="5" pageNumber="100">Arbocuspis emanuelae</emphasis>
</taxonomicName>
<taxonomicNameLabel id="60F257F6FFABFF90FD9F2497FD27F90F" box="[610,679,1706,1729]" pageId="5" pageNumber="100" rank="species">n. sp.</taxonomicNameLabel>
resembles 
<taxonomicName id="8EB54D1CFFABFF90FCCB2494FB60F90F" authority="Hincks, 1881" authorityName="Hincks" authorityYear="1881" box="[822,1248,1705,1730]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="5" pageNumber="100" phylum="Bryozoa" rank="species" species="bicornis">
<emphasis id="7BC1EA8DFFABFF90FCCB2494FBA0F90F" box="[822,1056,1705,1729]" italics="true" pageId="5" pageNumber="100">Arbocuspis bicornis</emphasis>
(
<bibRefCitation id="2D244B6EFFABFF90FBCA2494FB58F90F" author="Hincks" box="[1079,1240,1705,1730]" pageId="5" pageNumber="100" refString="Hincks, T. H. (1881) Contributions towards a general history of the marine Polyzoa. IV. Foreign Membraniporina (second series). Annals and Magazine of Natural History, 5 (7), 147 - 161." type="journal article" year="1881">Hincks, 1881</bibRefCitation>
)
</taxonomicName>
in having two bifurcating spines arching on the opesium. Nevertheless, specimens from Thailand strongly differ from the type material of 
<taxonomicName id="8EB54D1CFFABFF90FEEA24CCFE11F8C7" authorityName="Hincks" authorityYear="1881" box="[279,401,1777,1801]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="5" pageNumber="100" phylum="Bryozoa" rank="species" species="bicornis">
<emphasis id="7BC1EA8DFFABFF90FEEA24CCFE11F8C7" box="[279,401,1777,1801]" italics="true" pageId="5" pageNumber="100">A. bicornis</emphasis>
</taxonomicName>
from Ceylon (
<figureCitation id="D18E2A1AFFABFF90FDC924CCFD37F8C4" box="[564,695,1777,1802]" captionStart="FIGURES 22 – 25" captionStartId="7.[151,264,1886,1909]" captionTargetBox="[151,1435,941,1865]" captionTargetId="figure@7.[151,1435,941,1865]" captionTargetPageId="7" captionText="FIGURES 22 – 25. Arbocuspis bicornis (Hincks, 1881), type material from Ceylon, NHMUK 1899.5. 1.691, photos: msj 0 5422, 0 5423, 0 5424, and 0 5425, courtesy of the Natural History Museum of London. 22, A colony encrusting an algal frond. 23, Detail of the same colony showing zooids with prominent proximal gymnocystal spines located between the two paired lateral poorly branched spines. 24 – 25, Details of 22, at different scales to show young zooids from the colony margin with lightly calcified gymnocyst and spines, and narrow, coarsely beaded cryptocyst. Scale bars: 22, 0.200 mm; 23, 24, 25, 0.100 mm. 12)." httpUri="https://zenodo.org/record/818483/files/figure.png" pageId="5" pageNumber="100">Figs 22–25</figureCitation>
), and from the specimens of possibly the same species collected in Alagoas, northeastern Brazil, and figured by 
<bibRefCitation id="2D244B6EFFABFF90FD6D2529FCDEF8E3" author="Vieira" box="[656,862,1812,1837]" pageId="5" pageNumber="100" refString="Vieira, L. M., Almeida, A. C. S. &amp; Winston, J. E. (2016) Taxonomy of intertidal cheilostome Bryozoa of Maceio, northeastern Brazil. Part 1: Suborders Inovicellina, Malacostegina and Thalamoporellina. Zootaxa, 4097 (1), 59 - 83. https: // doi. org / 10.11646 / zootaxa. 4097.1.3" type="journal article" year="2016">
Vieira 
<emphasis id="7BC1EA8DFFABFF90FD26252BFC94F8E3" box="[731,788,1813,1837]" italics="true" pageId="5" pageNumber="100">et al.</emphasis>
(2016
</bibRefCitation>
, their 
<figureCitation id="D18E2A1AFFABFF90FC592529FBA1F8E3" box="[932,1057,1812,1837]" captionStart="FIGURES 26 – 35" captionStartId="11.[151,264,1668,1691]" captionTargetBox="[294,1284,193,1648]" captionTargetId="figure@11.[294,1284,193,1648]" captionTargetPageId="11" captionText="FIGURES 26 – 35. Arbocuspis multicornis (Hincks, 1881), PMC. Rosso Australia Collection, H. B. 73 a: 26, stellate colony consisting of four lobes diverging from a damaged ancestrula. Note as the top-right branch grows in opposite direction (enlarged in 27) from a bud along a previous lobe; 28 – 29, group of zooids from the same colony seen from the above (28) and inclined (29) to show the bending of the three branching spines originating proximally to the edge of the opesium and the length of the gymnocystal spines frontally projecting from both lateral sides of the opercula; 30 – 32, large fan-shaped lobe of a second colony in which only few zooids near the growing edge have three spines (30) whereas large plagues of aged zooids (enlarged in 31 and 32) show four or five branched spines forming a nearly continuous, paisley designed, roof over the frontal membrane; 33, close-up of the lateral edge of a colony branch, showing an abutting zooid only consisting of an incomplete gymnocystal portion distally closed by a membrane. Note some budding loci along marginal zooidal walls; 34 – 3 5, general view (34) and detail (35) of the sole observed giant ancestrula from a third colony, including a very extensive bulging flat sac bordered by an unknown number of spines, from which two zooids originate, smaller than the subsequent ones. Scale bars: 22, 1 mm; 23, 0.100 mm; 24 – 25, 28, 30, 33, 0.200 mm; 26 – 27, 32, 0.500 mm; 29, 31, 34 - 35, 0.100 mm." httpUri="https://zenodo.org/record/818485/files/figure.png" pageId="5" pageNumber="100">Figs 26-27</figureCitation>
). 
<taxonomicName id="8EB54D1CFFABFF90FBC82528FA96F8E3" authorityName="Hincks" authorityYear="1881" box="[1077,1302,1813,1837]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="5" pageNumber="100" phylum="Bryozoa" rank="species" species="bicornis">
<emphasis id="7BC1EA8DFFABFF90FBC82528FA96F8E3" box="[1077,1302,1813,1837]" italics="true" pageId="5" pageNumber="100">Arbocuspis bicornis</emphasis>
</taxonomicName>
possesses a constant single conspicuous and stout central spine, raising from the very prominent proximal gymnocyst, and located in between the two lateral branched ones. Lateral spines are aligned with the central one in 
<emphasis id="7BC1EA8DFFABFF90FAEA2560FA1CF8BB" box="[1303,1436,1885,1909]" italics="true" pageId="5" pageNumber="100">
<taxonomicName id="8EB54D1CFFABFF90FAEA2560FA18F8BB" authorityName="Hincks" authorityYear="1881" box="[1303,1432,1885,1909]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="5" pageNumber="100" phylum="Bryozoa" rank="species" species="bicornis">A. bicornis</taxonomicName>
,
</emphasis>
whereas they are inserted in a slightly distal position in relation to the group of three-to-four central spines in 
<taxonomicName id="8EB54D1CFFABFF90FA7925BCFE90F873" authority="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones, 2017" authorityName="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones" authorityYear="2017" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="5" pageNumber="100" phylum="Bryozoa" rank="species" species="emanuelae" status="sp. nov.">
<emphasis id="7BC1EA8DFFABFF90FA7925BCFE90F873" italics="true" pageId="5" pageNumber="100">A. emanuelae</emphasis>
</taxonomicName>
<taxonomicNameLabel id="60F257F6FFABFF90FEEA259BFED4F873" box="[279,340,1958,1981]" pageId="5" pageNumber="100" rank="species">n. sp.</taxonomicNameLabel>
This species also lacks an evident cryptocyst and only slight crenulations have been occasionally observed on the opesial rim. In contrast, a thin cryptocyst is present, with one/two rows of coarse granulations in the type material of 
<taxonomicName id="8EB54D1CFFA9FF92FE8622A5FE77FF7E" authorityName="Hincks" authorityYear="1881" box="[379,503,152,176]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="7" pageNumber="102" phylum="Bryozoa" rank="species" species="bicornis">
<emphasis id="7BC1EA8DFFA9FF92FE8622A5FE77FF7E" box="[379,503,152,176]" italics="true" pageId="7" pageNumber="102">A. bicornis</emphasis>
</taxonomicName>
(
<figureCitation id="D18E2A1AFFA9FF92FDFB22AAFD09FF7E" box="[518,649,151,176]" captionStart="FIGURES 22 – 25" captionStartId="7.[151,264,1886,1909]" captionTargetBox="[151,1435,941,1865]" captionTargetId="figure@7.[151,1435,941,1865]" captionTargetPageId="7" captionText="FIGURES 22 – 25. Arbocuspis bicornis (Hincks, 1881), type material from Ceylon, NHMUK 1899.5. 1.691, photos: msj 0 5422, 0 5423, 0 5424, and 0 5425, courtesy of the Natural History Museum of London. 22, A colony encrusting an algal frond. 23, Detail of the same colony showing zooids with prominent proximal gymnocystal spines located between the two paired lateral poorly branched spines. 24 – 25, Details of 22, at different scales to show young zooids from the colony margin with lightly calcified gymnocyst and spines, and narrow, coarsely beaded cryptocyst. Scale bars: 22, 0.200 mm; 23, 24, 25, 0.100 mm. 12)." httpUri="https://zenodo.org/record/818483/files/figure.png" pageId="7" pageNumber="102">Figs 24–25</figureCitation>
), although it seems to be lacking in specimens from Brazil figured by 
<bibRefCitation id="2D244B6EFFA9FF92FF6A2281FEE3FF1B" author="Vieira" box="[151,355,188,213]" pageId="7" pageNumber="102" refString="Vieira, L. M., Almeida, A. C. S. &amp; Winston, J. E. (2016) Taxonomy of intertidal cheilostome Bryozoa of Maceio, northeastern Brazil. Part 1: Suborders Inovicellina, Malacostegina and Thalamoporellina. Zootaxa, 4097 (1), 59 - 83. https: // doi. org / 10.11646 / zootaxa. 4097.1.3" type="journal article" year="2016">
Vieira 
<emphasis id="7BC1EA8DFFA9FF92FF1C2280FE99FF1A" box="[225,281,188,212]" italics="true" pageId="7" pageNumber="102">et al.</emphasis>
(2016
</bibRefCitation>
, their 
<figureCitation id="D18E2A1AFFA9FF92FE5A2281FE73FF1A" box="[423,499,188,213]" captionStart="FIGURES 26 – 35" captionStartId="11.[151,264,1668,1691]" captionTargetBox="[294,1284,193,1648]" captionTargetId="figure@11.[294,1284,193,1648]" captionTargetPageId="11" captionText="FIGURES 26 – 35. Arbocuspis multicornis (Hincks, 1881), PMC. Rosso Australia Collection, H. B. 73 a: 26, stellate colony consisting of four lobes diverging from a damaged ancestrula. Note as the top-right branch grows in opposite direction (enlarged in 27) from a bud along a previous lobe; 28 – 29, group of zooids from the same colony seen from the above (28) and inclined (29) to show the bending of the three branching spines originating proximally to the edge of the opesium and the length of the gymnocystal spines frontally projecting from both lateral sides of the opercula; 30 – 32, large fan-shaped lobe of a second colony in which only few zooids near the growing edge have three spines (30) whereas large plagues of aged zooids (enlarged in 31 and 32) show four or five branched spines forming a nearly continuous, paisley designed, roof over the frontal membrane; 33, close-up of the lateral edge of a colony branch, showing an abutting zooid only consisting of an incomplete gymnocystal portion distally closed by a membrane. Note some budding loci along marginal zooidal walls; 34 – 3 5, general view (34) and detail (35) of the sole observed giant ancestrula from a third colony, including a very extensive bulging flat sac bordered by an unknown number of spines, from which two zooids originate, smaller than the subsequent ones. Scale bars: 22, 1 mm; 23, 0.100 mm; 24 – 25, 28, 30, 33, 0.200 mm; 26 – 27, 32, 0.500 mm; 29, 31, 34 - 35, 0.100 mm." httpUri="https://zenodo.org/record/818485/files/figure.png" pageId="7" pageNumber="102">Fig 27</figureCitation>
). Further differences include the sizes of the opesia and, above all, of the zooids that are sensibly smaller in 
<taxonomicName id="8EB54D1CFFA9FF92FE4F22DDFDB3FF36" authorityName="Hincks" authorityYear="1881" box="[434,563,224,248]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="7" pageNumber="102" phylum="Bryozoa" rank="species" species="bicornis">
<emphasis id="7BC1EA8DFFA9FF92FE4F22DDFDB3FF36" box="[434,563,224,248]" italics="true" pageId="7" pageNumber="102">A. bicornis</emphasis>
</taxonomicName>
, which has opesia 0.157–0.179; 0.163± 
<quantity id="8E4D9B7AFFA9FF92FBF322E2FB07FF39" box="[1038,1159,223,248]" metricMagnitude="-6" metricUnit="m" metricValue="4.0" pageId="7" pageNumber="102" unit="mm" value="0.004">0.004 mm</quantity>
long and 0.133–0.169; 0.152± 
<quantity id="8E4D9B7AFFA9FF92FF182339FED9FED2" box="[229,345,260,285]" metricMagnitude="-5" metricUnit="m" metricValue="1.2" pageId="7" pageNumber="102" unit="mm" value="0.012">0.012 mm</quantity>
wide, and zooids 0.315–0.351; 0.329± 
<quantity id="8E4D9B7AFFA9FF92FCEF2339FC06FED2" box="[786,902,260,284]" metricMagnitude="-6" metricUnit="m" metricValue="4.0" pageId="7" pageNumber="102" unit="mm" value="0.004">0.004 mm</quantity>
long and 0.139–0.188; 0.139± 
<quantity id="8E4D9B7AFFA9FF92FB1E2339FAD7FED2" box="[1251,1367,260,284]" metricMagnitude="-5" metricUnit="m" metricValue="1.4" pageId="7" pageNumber="102" unit="mm" value="0.014">0.014 mm</quantity>
wide. Just slightly larger measurements are given by 
<bibRefCitation id="2D244B6EFFA9FF92FD58231AFCFAFE8E" box="[677,890,295,320]" pageId="7" pageNumber="102" refString="Vieira, L. M., Almeida, A. C. S. &amp; Winston, J. E. (2016) Taxonomy of intertidal cheilostome Bryozoa of Maceio, northeastern Brazil. Part 1: Suborders Inovicellina, Malacostegina and Thalamoporellina. Zootaxa, 4097 (1), 59 - 83. https: // doi. org / 10.11646 / zootaxa. 4097.1.3" type="journal article">
Vieira 
<emphasis id="7BC1EA8DFFA9FF92FD0D2314FCA8FE8E" box="[752,808,296,320]" italics="true" pageId="7" pageNumber="102">et al.</emphasis>
(2016)
</bibRefCitation>
for specimens from northeastern Brazil.
</paragraph>
<caption id="1DCA6617FFA8FF93FF6A24FAFED0F83C" httpUri="https://zenodo.org/record/818481/files/figure.png" pageId="6" pageNumber="101" targetBox="[221,1355,193,1720]" targetPageId="6">
<paragraph id="490A369FFFA8FF93FF6A24FAFED0F83C" blockId="6.[151,1436,1735,2034]" pageId="6" pageNumber="101">
<emphasis id="7BC1EA8DFFA8FF93FF6A24FAFED4F913" bold="true" box="[151,340,1735,1758]" pageId="6" pageNumber="101">FIGURES 14–21.</emphasis>
<taxonomicName id="8EB54D1CFFA8FF93FEA724F5FDC0F910" authority="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones, 2017" authorityName="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones" authorityYear="2017" box="[346,576,1736,1758]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="6" pageNumber="101" phylum="Bryozoa" rank="species" species="emanuelae" status="sp. nov.">
<emphasis id="7BC1EA8DFFA8FF93FEA724F5FDC0F910" box="[346,576,1736,1758]" italics="true" pageId="6" pageNumber="101">Arbocuspis emanuelae</emphasis>
</taxonomicName>
<taxonomicNameLabel id="60F257F6FFA8FF93FDBA24F5FD00F913" box="[583,640,1736,1757]" pageId="6" pageNumber="101" rank="species">
<emphasis id="7BC1EA8DFFA8FF93FDBA24F5FD00F913" bold="true" box="[583,640,1736,1757]" pageId="6" pageNumber="101">n. sp.</emphasis>
</taxonomicNameLabel>
, from Station BN 28, Phuket, Thailand, kenozooids: 
<emphasis id="7BC1EA8DFFA8FF93FB6324F5FB5DF913" bold="true" box="[1182,1245,1736,1758]" pageId="6" pageNumber="101">14–16</emphasis>
, Holotype PMC.B 20. 28.6.2008a, 
<emphasis id="7BC1EA8DFFA8FF93FEC124DAFEFBF932" bold="true" box="[316,379,1767,1789]" pageId="6" pageNumber="101">14–15</emphasis>
, two branches showing different pattern in the formation of longitudinal rows of kenozoois to regulate branch thickness; 
<emphasis id="7BC1EA8DFFA8FF93FEB0253BFEE6F8D5" bold="true" box="[333,358,1798,1819]" pageId="6" pageNumber="101">16</emphasis>
, close-up of the colony showing aligned kenozooids halting the distal growth of a lobe; except for a single zooid giving rise to a new branch; 
<emphasis id="7BC1EA8DFFA8FF93FE012519FDC2F8F7" bold="true" box="[508,578,1828,1849]" pageId="6" pageNumber="101">17–21,</emphasis>
Paratype, PMC.B 20. 28.6.2008c, encounter between branches of a partly damaged colony. Note the irregularly shaped kenozooid (enlarged in Fig. 18
<emphasis id="7BC1EA8DFFA8FF93FCC4257FFCC1F897" bold="true" box="[825,833,1858,1881]" pageId="6" pageNumber="101">)</emphasis>
, the row of kenozooids (enlarged in Fig. 19), the evidences of reparative calcification; 
<emphasis id="7BC1EA8DFFA8FF93FE57255FFE43F8B9" bold="true" box="[426,451,1890,1911]" pageId="6" pageNumber="101">18</emphasis>
, irregularly shaped kenozooid with long caudae (one long and curve, white arrowed) connecting surviving zooids from adjacent sectors locating their septulae. Note iterative intramural budding (black arrowed); 
<emphasis id="7BC1EA8DFFA8FF93FABC25BDFADAF85B" bold="true" box="[1345,1370,1920,1941]" pageId="6" pageNumber="101">19</emphasis>
, large fully developed kenozooids halting the growth of a branch; 
<emphasis id="7BC1EA8DFFA8FF93FCF025A2FCCCF87A" bold="true" box="[781,844,1951,1973]" pageId="6" pageNumber="101">20–21</emphasis>
, general view (
<emphasis id="7BC1EA8DFFA8FF93FC0F25A2FB8BF87A" bold="true" box="[1010,1035,1951,1972]" pageId="6" pageNumber="101">20</emphasis>
) and enlargement (
<emphasis id="7BC1EA8DFFA8FF93FB2525A2FB71F87A" bold="true" box="[1240,1265,1951,1972]" pageId="6" pageNumber="101">21</emphasis>
) of large lateral (black arrowed) and small frontal kenozoids (white arrowed) elongated on zooidal edges. Scale bars: 14, 16–19, 21, 0.200 mm; 15, 20, 0.500 mm.
</paragraph>
</caption>
<paragraph id="490A369FFFA9FF92FF3A2371FB15FD66" blockId="7.[151,1437,151,896]" pageId="7" pageNumber="102">
Lateral branched spines show a somewhat less regularly symmetrical branching pattern in 
<taxonomicName id="8EB54D1CFFA9FF92FB2A2371FAD5FEAA" authorityName="Hincks" authorityYear="1881" box="[1239,1365,332,356]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="7" pageNumber="102" phylum="Bryozoa" rank="species" species="bicornis">
<emphasis id="7BC1EA8DFFA9FF92FB2A2371FAD5FEAA" box="[1239,1365,332,356]" italics="true" pageId="7" pageNumber="102">A. bicornis</emphasis>
</taxonomicName>
and a different number of branching tips when fully developed. Less than eight tips per spine are present in 
<taxonomicName id="8EB54D1CFFA9FF92FADD234DFA1CFE46" authorityName="Hincks" authorityYear="1881" box="[1312,1436,368,392]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="7" pageNumber="102" phylum="Bryozoa" rank="species" species="bicornis">
<emphasis id="7BC1EA8DFFA9FF92FADD234DFA1CFE46" box="[1312,1436,368,392]" italics="true" pageId="7" pageNumber="102">A. bicornis</emphasis>
</taxonomicName>
(although sometimes more than 10 after Vieira, personal communication, 
<date id="3D0B105FFFA9FF92FC1923A9FBD6FE63" box="[996,1110,404,429]" pageId="7" pageNumber="102" value="2016-07-25">25.7.2016</date>
) while 16 pointed spine tips are usually present in 
<taxonomicName id="8EB54D1CFFA9FF92FE6C2385FDAAFE1E" authority="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones, 2017" authorityName="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones" authorityYear="2017" box="[401,554,440,464]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="7" pageNumber="102" phylum="Bryozoa" rank="species" species="emanuelae" status="sp. nov.">
<emphasis id="7BC1EA8DFFA9FF92FE6C2385FDAAFE1E" box="[401,554,440,464]" italics="true" pageId="7" pageNumber="102">A. emanuelae</emphasis>
</taxonomicName>
<taxonomicNameLabel id="60F257F6FFA9FF92FDCE2385FDF0FE01" box="[563,624,440,463]" pageId="7" pageNumber="102" rank="species">n. sp.</taxonomicNameLabel>
Nevertheless, further observations on a larger number of colonies from different habitats are needed to confidently describe and use this character for discriminating the two species. The development of spines can show a high plasticity in the same species between populations living on different substrata, and/or in environments with distinctive hydrodynamics and other a-biotic parameters, or even in the same colony in relation to micro-environmental changes or predation pressure. This has been documented for other selected electrid bryozoans, such as 
<taxonomicName id="8EB54D1CFFA9FF92FDC82051FC1FFD4B" authority="Linnaeus, 1767" authorityName="Linnaeus" authorityYear="1767" box="[565,927,620,645]" class="Gymnolaemata" family="Electridae" genus="Electra" kingdom="Animalia" order="Cheilostomatida" pageId="7" pageNumber="102" phylum="Bryozoa" rank="species" species="pilosa">
<emphasis id="7BC1EA8DFFA9FF92FDC82051FD55FD4A" box="[565,725,620,644]" italics="true" pageId="7" pageNumber="102">Electra pilosa</emphasis>
(Linnaeus, 1767)
</taxonomicName>
(
<bibRefCitation id="2D244B6EFFA9FF92FC522051FBF8FD4A" author="Bayer" box="[943,1144,620,644]" pageId="7" pageNumber="102" refString="Bayer, M. M., Todd, C. D., Hoyle, J. E. &amp; Wilson, J. F. B. (1997) Wave-related abrasion induces formation of extended spines in a marine bryozoan. Proceedings of the Royal Society B, Biological Sciences, 264, 1605 - 1611. https: // doi. org / 10.1098 / rspb. 1997.0224" type="journal article" year="1997">
Bayer 
<emphasis id="7BC1EA8DFFA9FF92FC012050FBB7FD4A" box="[1020,1079,620,644]" italics="true" pageId="7" pageNumber="102">et al.</emphasis>
1997
</bibRefCitation>
) and 
<taxonomicName id="8EB54D1CFFA9FF92FB472051FEBFFD66" authority="Hincks, 1880" authorityName="Hincks" authorityYear="1880" class="Gymnolaemata" family="Electridae" genus="Arbopercula" kingdom="Animalia" order="Cheilostomatida" pageId="7" pageNumber="102" phylum="Bryozoa" rank="species" species="tenella">
<emphasis id="7BC1EA8DFFA9FF92FB472051FA1CFD4A" box="[1210,1436,620,644]" italics="true" pageId="7" pageNumber="102">Arbopercula tenella</emphasis>
(Hincks, 1880)
</taxonomicName>
from the Mediterranean Sea (
<bibRefCitation id="2D244B6EFFA9FF92FD7320ADFCAAFD66" author="Rosso" box="[654,810,656,680]" pageId="7" pageNumber="102" refString="Rosso, A. (1994 a) Segnalazione di Electra tenella (Hincks) (Bryozoa) lungo il versante sud-orientale della Sicilia. Bollettino Accademia Gioenia di Scienze Naturali di Catania, 27 (346), 241 - - 251." type="journal article" year="1994" yearSuffix="a">Rosso, 1994a</bibRefCitation>
; Rosso in Tessalou 
<emphasis id="7BC1EA8DFFA9FF92FBFB20ACFBBEFD66" box="[1030,1086,656,680]" italics="true" pageId="7" pageNumber="102">et al.</emphasis>
, 2012).
</paragraph>
<paragraph id="490A369FFFA9FF92FF3A2088FBEDFCB1" blockId="7.[151,1437,151,896]" pageId="7" pageNumber="102">
Two branching spines arising from the proximal opesial edge are also present on the specimen from Saint Francis Island, South Australia collected by Jan Watson, figured by 
<bibRefCitation id="2D244B6EFFA9FF92FC5820EAFBB7FD3E" author="Bock" box="[933,1079,727,752]" pageId="7" pageNumber="102" refString="Bock, P. E. (2016) The Bryozoa Home Page. Available from: http: // bryozoa. net / (accessed 6 May 2016)" type="journal article" year="2016">Bock (2016)</bibRefCitation>
, and considered as close to the variety “ 
<taxonomicName id="8EB54D1CFFA9FF92FF0520C1FEF7FCDA" authorityName="Bock" authorityYear="2016" box="[248,375,764,788]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="7" pageNumber="102" phylum="Bryozoa" rank="species" species="multicornis">
<emphasis id="7BC1EA8DFFA9FF92FF0520C1FEF7FCDA" box="[248,375,764,788]" italics="true" pageId="7" pageNumber="102">multicornis</emphasis>
</taxonomicName>
”, although exhibiting some differences. This specimen is clearly distinct from both 
<taxonomicName id="8EB54D1CFFA9FF92FADC20C1FA1CFCDA" authorityName="Hincks" authorityYear="1881" box="[1313,1436,764,788]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="7" pageNumber="102" phylum="Bryozoa" rank="species" species="bicornis">
<emphasis id="7BC1EA8DFFA9FF92FADC20C1FA1CFCDA" box="[1313,1436,764,788]" italics="true" pageId="7" pageNumber="102">A. bicornis</emphasis>
</taxonomicName>
and the present species for the completely different branching pattern of the spines, which are sinuous and asymmetrically bifurcated; the longitudinally elongated opesium, and the dimensions of all gymnocystal spines. Finally, a single stout but simple pointed spine can occur in between the branched ones.
</paragraph>
<caption id="1DCA6617FFA9FF92FF6A2563FA17F83C" httpUri="https://zenodo.org/record/818483/files/figure.png" pageId="7" pageNumber="102" targetBox="[151,1435,941,1865]" targetPageId="7">
<paragraph id="490A369FFFA9FF92FF6A2563FA17F83C" blockId="7.[151,1436,1886,2034]" pageId="7" pageNumber="102">
<emphasis id="7BC1EA8DFFA9FF92FF6A2563FED3F8BA" bold="true" box="[151,339,1886,1909]" pageId="7" pageNumber="102">FIGURES 22–25.</emphasis>
<taxonomicName id="8EB54D1CFFA9FF92FEA42562FD43F8BB" authority="Hincks, 1881" authorityName="Hincks" authorityYear="1881" box="[345,707,1887,1909]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="7" pageNumber="102" phylum="Bryozoa" rank="species" species="bicornis">
<emphasis id="7BC1EA8DFFA9FF92FEA42562FDA3F8BB" box="[345,547,1887,1909]" italics="true" pageId="7" pageNumber="102">Arbocuspis bicornis</emphasis>
(Hincks, 1881)
</taxonomicName>
, type material from Ceylon, NHMUK 1899.5.1.691, photos: msj 0 5422, 0 5423, 0 5424, and 0 5425, courtesy of the Natural History Museum of London. 
<emphasis id="7BC1EA8DFFA9FF92FC242543FC72F85D" bold="true" box="[985,1010,1918,1939]" pageId="7" pageNumber="102">22</emphasis>
, A colony encrusting an algal frond. 
<emphasis id="7BC1EA8DFFA9FF92FA812543FA15F85D" bold="true" box="[1404,1429,1918,1939]" pageId="7" pageNumber="102">23</emphasis>
, Detail of the same colony showing zooids with prominent proximal gymnocystal spines located between the two paired lateral poorly branched spines. 
<emphasis id="7BC1EA8DFFA9FF92FE682586FE54F81E" bold="true" box="[405,468,1979,2001]" pageId="7" pageNumber="102">24–25</emphasis>
, Details of 22, at different scales to show young zooids from the colony margin with lightly calcified gymnocyst and spines, and narrow, coarsely beaded cryptocyst. Scale bars: 22, 0.200 mm; 23, 24, 25, 0.100 mm.12).
</paragraph>
</caption>
<paragraph id="490A369FFFA6FF9DFF3A22AAFC70FE1E" blockId="8.[151,1437,151,2011]" pageId="8" pageNumber="103">
The pattern of contemporaneous budding of paired distal zooids is reminiscent of that described for the inception of the erect phase of 
<taxonomicName id="8EB54D1CFFA6FF9DFE122281FDE2FF1A" authorityName="Osburn" authorityYear="1940" box="[495,610,188,212]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="ramosa">
<emphasis id="7BC1EA8DFFA6FF9DFE122281FDE2FF1A" box="[495,610,188,212]" italics="true" pageId="8" pageNumber="103">A. ramosa</emphasis>
</taxonomicName>
by 
<bibRefCitation id="2D244B6EFFA6FF9DFD762281FCAFFF1A" author="Osburn" box="[651,815,188,213]" pageId="8" pageNumber="103" refString="Osburn, R. C. (1940) Bryozoa of Porto Rico with a resume of West Indian Bryozoan fauna. Scientific Survey of Porto Rico and the Firgin Islands, 16, 321 - 486." type="journal article" year="1940">Osburn (1940)</bibRefCitation>
and 
<bibRefCitation id="2D244B6EFFA6FF9DFC982281FBBDFF1B" box="[869,1085,188,213]" pageId="8" pageNumber="103" refString="Vieira, L. M., Almeida, A. C. S. &amp; Winston, J. E. (2016) Taxonomy of intertidal cheilostome Bryozoa of Maceio, northeastern Brazil. Part 1: Suborders Inovicellina, Malacostegina and Thalamoporellina. Zootaxa, 4097 (1), 59 - 83. https: // doi. org / 10.11646 / zootaxa. 4097.1.3" type="journal article">
Vieira 
<emphasis id="7BC1EA8DFFA6FF9DFC4D2280FC69FF1A" box="[944,1001,188,212]" italics="true" pageId="8" pageNumber="103">et al.</emphasis>
(2016)
</bibRefCitation>
. It favours the rapid increase in width of colony lobes that 
<taxonomicName id="8EB54D1CFFA6FF9DFE3922DDFDDCFF36" authority="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones, 2017" authorityName="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones" authorityYear="2017" box="[452,604,224,248]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="emanuelae" status="sp. nov.">
<emphasis id="7BC1EA8DFFA6FF9DFE3922DDFDDCFF36" box="[452,604,224,248]" italics="true" pageId="8" pageNumber="103">A. emanuelae</emphasis>
</taxonomicName>
<taxonomicNameLabel id="60F257F6FFA6FF9DFD9922DDFD20FF39" box="[612,672,224,247]" pageId="8" pageNumber="103" rank="species">n. sp.</taxonomicNameLabel>
shares with 
<taxonomicName id="8EB54D1CFFA6FF9DFCD322DDFB81FF36" authorityName="Hincks" authorityYear="1881" box="[814,1025,224,248]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="bellula">
<emphasis id="7BC1EA8DFFA6FF9DFCD322DDFB81FF36" box="[814,1025,224,248]" italics="true" pageId="8" pageNumber="103">Arbocuspis bellula</emphasis>
</taxonomicName>
and 
<taxonomicName id="8EB54D1CFFA6FF9DFBC522DDFB33FF36" authorityName="Hincks" authorityYear="1881" box="[1080,1203,224,248]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="bicornis">
<emphasis id="7BC1EA8DFFA6FF9DFBC522DDFB33FF36" box="[1080,1203,224,248]" italics="true" pageId="8" pageNumber="103">A. bicornis</emphasis>
</taxonomicName>
(see 
<figureCitation id="D18E2A1AFFA6FF9DFB1222E2FABFFF36" box="[1263,1343,223,248]" captionStart="FIGURES 22 – 25" captionStartId="7.[151,264,1886,1909]" captionTargetBox="[151,1435,941,1865]" captionTargetId="figure@7.[151,1435,941,1865]" captionTargetPageId="7" captionText="FIGURES 22 – 25. Arbocuspis bicornis (Hincks, 1881), type material from Ceylon, NHMUK 1899.5. 1.691, photos: msj 0 5422, 0 5423, 0 5424, and 0 5425, courtesy of the Natural History Museum of London. 22, A colony encrusting an algal frond. 23, Detail of the same colony showing zooids with prominent proximal gymnocystal spines located between the two paired lateral poorly branched spines. 24 – 25, Details of 22, at different scales to show young zooids from the colony margin with lightly calcified gymnocyst and spines, and narrow, coarsely beaded cryptocyst. Scale bars: 22, 0.200 mm; 23, 24, 25, 0.100 mm. 12)." httpUri="https://zenodo.org/record/818483/files/figure.png" pageId="8" pageNumber="103">Fig. 22</figureCitation>
and fig. 26 of 
<bibRefCitation id="2D244B6EFFA6FF9DFF212339FE2FFED3" author="Vieira" box="[220,431,260,285]" pageId="8" pageNumber="103" refString="Vieira, L. M., Almeida, A. C. S. &amp; Winston, J. E. (2016) Taxonomy of intertidal cheilostome Bryozoa of Maceio, northeastern Brazil. Part 1: Suborders Inovicellina, Malacostegina and Thalamoporellina. Zootaxa, 4097 (1), 59 - 83. https: // doi. org / 10.11646 / zootaxa. 4097.1.3" type="journal article" year="2016">
Vieira 
<emphasis id="7BC1EA8DFFA6FF9DFED52338FEE2FED2" box="[296,354,260,284]" italics="true" pageId="8" pageNumber="103">et al.</emphasis>
, 2016
</bibRefCitation>
). These two species also tend to have zooids arranged in transversal rows, although less markedly than 
<taxonomicName id="8EB54D1CFFA6FF9DFEBB2315FE63FE8E" authority="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones, 2017" authorityName="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones" authorityYear="2017" box="[326,483,296,320]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="emanuelae" status="sp. nov.">
<emphasis id="7BC1EA8DFFA6FF9DFEBB2315FE63FE8E" box="[326,483,296,320]" italics="true" pageId="8" pageNumber="103">A. emanuelae</emphasis>
</taxonomicName>
<taxonomicNameLabel id="60F257F6FFA6FF9DFE102315FDADFEF1" box="[493,557,296,319]" pageId="8" pageNumber="103" rank="species">n. sp.</taxonomicNameLabel>
A budding pattern comparable to that observed in the first stages of lobes development in 
<taxonomicName id="8EB54D1CFFA6FF9DFEB02371FE67FEAA" authority="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones, 2017" authorityName="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones" authorityYear="2017" box="[333,487,332,356]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="emanuelae" status="sp. nov.">
<emphasis id="7BC1EA8DFFA6FF9DFEB02371FE67FEAA" box="[333,487,332,356]" italics="true" pageId="8" pageNumber="103">A. emanuelae</emphasis>
</taxonomicName>
<taxonomicNameLabel id="60F257F6FFA6FF9DFE122370FDADFEAA" box="[495,557,333,356]" pageId="8" pageNumber="103" rank="species">n. sp.</taxonomicNameLabel>
and leading to the arrangement of zooids in nearly transversal rows has been also figured for another representative of the family 
<taxonomicName id="8EB54D1CFFA6FF9DFD1D2352FCD4FE46" authorityName="d'Orbigny" authorityYear="1851" box="[736,852,367,392]" class="Gymnolaemata" family="Electridae" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="family">Electridae</taxonomicName>
, i.e. 
<taxonomicName id="8EB54D1CFFA6FF9DFC75234DFA1CFE46" authority="Landsborough, 1852" authorityName="Landsborough" authorityYear="1852" box="[904,1436,367,392]" class="Gymnolaemata" family="Electridae" genus="Aspidelectra" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="melolontha">
<emphasis id="7BC1EA8DFFA6FF9DFC75234DFB1BFE46" box="[904,1179,368,392]" italics="true" pageId="8" pageNumber="103">Aspidelectra melolontha</emphasis>
(
<bibRefCitation id="2D244B6EFFA6FF9DFB542352FA14FE46" author="Landsborough" box="[1193,1428,367,392]" pageId="8" pageNumber="103" refString="Landsborough, D. (1852) A popular history of British zoophytes, or corallines. Reeve and Co., London, 404 pp." type="book" year="1852">Landsborough, 1852</bibRefCitation>
)
</taxonomicName>
from the British Isles and the North Sea (
<bibRefCitation id="2D244B6EFFA6FF9DFD9C23A9FC05FE62" author="Hayward" box="[609,901,404,429]" pageId="8" pageNumber="103" refString="Hayward, P. J. &amp; Ryland, J. S. (1998) Cheilostomatous Bryozoa, Part 1. Aeteoidea - Cribrilinoidea. In: Barnes, R. S. K. &amp; Crothers, J. H. (Eds.), Synopses of the British Fauna, New Series, Shrewsbury: Field Studies Council. No. 10, pp. 1 - 366." type="book chapter" year="1998">Hayward &amp; Ryland, 1998</bibRefCitation>
; 
<bibRefCitation id="2D244B6EFFA6FF9DFC6C23A8FBD9FE62" author="De" box="[913,1113,404,429]" pageId="8" pageNumber="103" refString="De Blawue, H. (2009) Mosdiertjes van de Zuidelijke bocht van de Noordzee. Determinatiewerk Foor Belgie en Netherland. Uitgegeven door het Vlaams Instituut voor de Zee, Oostende, 445 pp." type="book" year="2009">De Blawue, 2009</bibRefCitation>
). This latter species seems to have longitudinal zooidal rows even less connected than 
<taxonomicName id="8EB54D1CFFA6FF9DFCE92385FC2CFE1E" authority="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones, 2017" authorityName="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones" authorityYear="2017" box="[788,940,440,464]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="emanuelae" status="sp. nov.">
<emphasis id="7BC1EA8DFFA6FF9DFCE92385FC2CFE1E" box="[788,940,440,464]" italics="true" pageId="8" pageNumber="103">A. emanuelae</emphasis>
</taxonomicName>
<taxonomicNameLabel id="60F257F6FFA6FF9DFC492385FC70FE1E" box="[948,1008,440,464]" pageId="8" pageNumber="103" rank="species">n. sp.</taxonomicNameLabel>
</paragraph>
<paragraph id="490A369FFFA6FF9DFF3A23E1FBBBFA98" blockId="8.[151,1437,151,2011]" pageId="8" pageNumber="103">
A remarkable character of 
<taxonomicName id="8EB54D1CFFA6FF9DFDFF23E1FD1DFE3A" authority="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones, 2017" authorityName="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones" authorityYear="2017" box="[514,669,476,500]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="emanuelae" status="sp. nov.">
<emphasis id="7BC1EA8DFFA6FF9DFDFF23E1FD1DFE3A" box="[514,669,476,500]" italics="true" pageId="8" pageNumber="103">A. emanuelae</emphasis>
</taxonomicName>
<taxonomicNameLabel id="60F257F6FFA6FF9DFD5523E0FD68FE3A" box="[680,744,477,500]" pageId="8" pageNumber="103" rank="species">n. sp.</taxonomicNameLabel>
is the presence of kenozooids, which have been so far not described in any of the species presently assigned to 
<taxonomicName id="8EB54D1CFFA6FF9DFCF5203DFC06FDD6" authorityName="Nikulina" authorityYear="2010" box="[776,902,512,536]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="genus">
<emphasis id="7BC1EA8DFFA6FF9DFCF5203DFC06FDD6" box="[776,902,512,536]" italics="true" pageId="8" pageNumber="103">Arbocuspis</emphasis>
</taxonomicName>
. Indeed, kenozooids are known from isolated species belonging to other genera within the family 
<taxonomicName id="8EB54D1CFFA6FF9DFD052019FCEDFDF3" authorityName="d'Orbigny" authorityYear="1851" box="[760,877,548,573]" class="Gymnolaemata" family="Electridae" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="family">Electridae</taxonomicName>
, as is the case with the Lower Miocene 
<taxonomicName id="8EB54D1CFFA6FF9DFAB42019FD96FDAE" authority="Nikulina &amp; Taylor, 2010" authorityName="Nikulina &amp; Taylor" authorityYear="2010" class="Gymnolaemata" family="Electridae" genus="Electra" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="triaurata">
<emphasis id="7BC1EA8DFFA6FF9DFAB42019FF7CFD91" italics="true" pageId="8" pageNumber="103">Electra triaurata</emphasis>
<bibRefCitation id="2D244B6EFFA6FF9DFEFE207AFD96FDAE" author="Nikulina" box="[259,534,583,608]" pageId="8" pageNumber="103" refString="Nikulina, E. A. &amp; Taylor, P. D. (2010) Two new species of Electra (Bryozoa, Cheilostomata) from the Miocene of the Aquitaine Basin, France. Geobios, 43, 219 - 224." type="journal article" year="2010">Nikulina &amp; Taylor, 2010</bibRefCitation>
</taxonomicName>
from 
<collectingCountry id="31A2760FFFA6FF9DFDA72075FD29FD91" box="[602,681,584,607]" name="France" pageId="8" pageNumber="103">France</collectingCountry>
, as well as the Recent 
<taxonomicName id="8EB54D1CFFA6FF9DFC582075FAEDFDAE" authority="Nikulina, 2006" authorityName="Nikulina" authorityYear="2006" box="[933,1389,583,608]" class="Gymnolaemata" family="Electridae" genus="Einhornia" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="korobokkura">
<emphasis id="7BC1EA8DFFA6FF9DFC582075FB2BFDAE" box="[933,1195,584,608]" italics="true" pageId="8" pageNumber="103">Einhornia korobokkura</emphasis>
(
<bibRefCitation id="2D244B6EFFA6FF9DFB47207AFAE5FDAE" author="Nikulina" box="[1210,1381,583,608]" pageId="8" pageNumber="103" refString="Nikulina, E. A. (2006) Electra korobokkura sp. n., a new species of cheilostome bryozoan from the Pacific coast of Hokkaido, Japan. Invertebrate Zoology, 3 (1), 23 - 31. Avaliable from: https: // www. academia. edu / 15033618 / (Accessed 22 Jun. 2017)" type="journal article" year="2006">Nikulina, 2006</bibRefCitation>
)
</taxonomicName>
and 
<taxonomicName id="8EB54D1CFFA6FF9DFF6A2051FD34FD4A" authority="Banta &amp; Crosby, 1994" authorityName="Banta &amp; Crosby" authorityYear="1994" box="[151,692,620,645]" class="Gymnolaemata" family="Electridae" genus="Einhornia" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="venturaensis">
<emphasis id="7BC1EA8DFFA6FF9DFF6A2051FE1DFD4A" box="[151,413,620,644]" italics="true" pageId="8" pageNumber="103">Einhornia venturaensis</emphasis>
(
<bibRefCitation id="2D244B6EFFA6FF9DFE502051FD2CFD4A" author="Banta" box="[429,684,620,645]" pageId="8" pageNumber="103" refString="Banta, W. C. &amp; Crosby, M. M. (1994) Electra venturaensis, a new species (Bryozoa: Cheilostomata: Membraniporidae) from southern California. Proceedings of the Biological Society of Washington, 107 (3), 544 - 547. Avaliable from: http: // www. biodiversitylibrary. org / part / 49064 # / summary (Accessed 22 Jun. 2017)" type="journal article" year="1994">Banta &amp; Crosby, 1994</bibRefCitation>
)
</taxonomicName>
from 
<collectingCountry id="31A2760FFFA6FF9DFD072050FCBAFD4A" box="[762,826,621,644]" name="Japan" pageId="8" pageNumber="103">Japan</collectingCountry>
and 
<collectingRegion id="8B71F87DFFA6FF9DFC8F2051FC64FD4B" box="[882,996,620,645]" country="United States of America" name="California" pageId="8" pageNumber="103">California</collectingRegion>
(
<collectingCountry id="31A2760FFFA6FF9DFC0E2051FBB0FD4A" box="[1011,1072,620,644]" name="United States of America" pageId="8" pageNumber="103">USA</collectingCountry>
), respectively. Kenozooids in 
<taxonomicName id="8EB54D1CFFA6FF9DFA792050FF7CFD69" authorityName="Nikulina &amp; Taylor" authorityYear="2010" class="Gymnolaemata" family="Electridae" genus="Electra" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="triaurata">
<emphasis id="7BC1EA8DFFA6FF9DFA792050FF7CFD69" italics="true" pageId="8" pageNumber="103">E. triaurata</emphasis>
</taxonomicName>
seem to serve as connections between zooids of contiguous uniserial branches (fig. 1B in 
<bibRefCitation id="2D244B6EFFA6FF9DFAE720B2FEA9FD02" author="Nikulina" pageId="8" pageNumber="103" refString="Nikulina, E. A. &amp; Taylor, P. D. (2010) Two new species of Electra (Bryozoa, Cheilostomata) from the Miocene of the Aquitaine Basin, France. Geobios, 43, 219 - 224." type="journal article" year="2010">Nikulina &amp; Taylor, 2010</bibRefCitation>
), as happens in other uniserial species belonging to electrid genera such as 
<taxonomicName id="8EB54D1CFFA6FF9DFB872088FA1CFD03" authority="d'Orbigny, 1852" authorityName="d'Orbigny" authorityYear="1852" box="[1146,1436,692,717]" class="Gymnolaemata" family="Electridae" genus="Pyripora" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="genus">
<emphasis id="7BC1EA8DFFA6FF9DFB872088FB5FFD02" box="[1146,1247,693,716]" italics="true" pageId="8" pageNumber="103">Pyripora</emphasis>
d'Orbigny, 1852
</taxonomicName>
(AR, personal observations) and also to other families, such as the calloporid 
<taxonomicName id="8EB54D1CFFA6FF9DFBDF20E5FEB5FCDA" authority="Rosso &amp; Taylor, 2002" authorityName="Rosso &amp; Taylor" authorityYear="2002" class="Gymnolaemata" family="Calloporidae" genus="Pyriporoides" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="bathyalis">
<emphasis id="7BC1EA8DFFA6FF9DFBDF20E5FAA3FD3E" box="[1058,1315,728,752]" italics="true" pageId="8" pageNumber="103">Pyriporoides bathyalis</emphasis>
(
<bibRefCitation id="2D244B6EFFA6FF9DFAC820E5FEADFCDA" author="Rosso" pageId="8" pageNumber="103" refString="Rosso, A. &amp; Taylor, P. D. (2002) A new anascan cheilostome Bryozoan from Iceland deep waters and its uniserial colony growth pattern. Sarsia, 87, 35 - 46." type="journal article" year="2002">Rosso &amp; Taylor, 2002</bibRefCitation>
)
</taxonomicName>
(see fig. 3A in 
<bibRefCitation id="2D244B6EFFA6FF9DFDF820C0FC94FCDA" author="Rosso" box="[517,788,764,789]" pageId="8" pageNumber="103" refString="Rosso, A. &amp; Taylor, P. D. (2002) A new anascan cheilostome Bryozoan from Iceland deep waters and its uniserial colony growth pattern. Sarsia, 87, 35 - 46." type="journal article" year="2002">Rosso &amp; Taylor, 2002</bibRefCitation>
). In 
<taxonomicName id="8EB54D1CFFA6FF9DFCAF20C0FB86FCDA" authorityName="Nikulina" authorityYear="2006" box="[850,1030,764,788]" class="Gymnolaemata" family="Electridae" genus="Einhornia" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="korobokkura">
<emphasis id="7BC1EA8DFFA6FF9DFCAF20C0FB86FCDA" box="[850,1030,764,788]" italics="true" pageId="8" pageNumber="103">E. korobokkura</emphasis>
</taxonomicName>
, kenozooids simply replace some autozooids in linear chains (see figs 
<quantity id="8E4D9B7AFFA6FF9DFDCF211DFDF9FCF6" box="[562,633,799,824]" metricMagnitude="-2" metricUnit="m" metricValue="3.81" metricValueMax="5.08" metricValueMin="2.54" pageId="8" pageNumber="103" unit="in" value="1.5" valueMax="2.0" valueMin="1.0">1–2 in</quantity>
<bibRefCitation id="2D244B6EFFA6FF9DFD7C2122FCAEFCF6" author="Nikulina" box="[641,814,799,824]" pageId="8" pageNumber="103" refString="Nikulina, E. A. (2006) Electra korobokkura sp. n., a new species of cheilostome bryozoan from the Pacific coast of Hokkaido, Japan. Invertebrate Zoology, 3 (1), 23 - 31. Avaliable from: https: // www. academia. edu / 15033618 / (Accessed 22 Jun. 2017)" type="journal article" year="2006">Nikulina, 2006</bibRefCitation>
). In 
<emphasis id="7BC1EA8DFFA6FF9DFC9D211CFB94FCF9" box="[864,1044,800,824]" italics="true" pageId="8" pageNumber="103">
<taxonomicName id="8EB54D1CFFA6FF9DFC9D211CFB90FCF9" authorityName="Banta &amp; Crosby" authorityYear="1994" box="[864,1040,800,824]" class="Gymnolaemata" family="Electridae" genus="Einhornia" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="venturaensis">E. venturaensis</taxonomicName>
,
</emphasis>
they are small and elevated on the colony surface along the zooidal margins (figs 
<quantity id="8E4D9B7AFFA6FF9DFD592179FD6BFC93" box="[676,747,836,861]" metricMagnitude="-2" metricUnit="m" metricValue="5.08" metricValueMax="7.62" metricValueMin="2.54" pageId="8" pageNumber="103" unit="in" value="2.0" valueMax="3.0" valueMin="1.0">1–3 in</quantity>
<bibRefCitation id="2D244B6EFFA6FF9DFD0C2178FC6FFC92" author="Banta" box="[753,1007,836,861]" pageId="8" pageNumber="103" refString="Banta, W. C. &amp; Crosby, M. M. (1994) Electra venturaensis, a new species (Bryozoa: Cheilostomata: Membraniporidae) from southern California. Proceedings of the Biological Society of Washington, 107 (3), 544 - 547. Avaliable from: http: // www. biodiversitylibrary. org / part / 49064 # / summary (Accessed 22 Jun. 2017)" type="journal article" year="1994">Banta &amp; Crosby, 1994</bibRefCitation>
), where they can eventually enlarge to form ‘pseudoancestrular autozooids’ that give rise to subcolonies partly overgrowing the previous colony layer. Kenozooids of 
<taxonomicName id="8EB54D1CFFA6FF9DFEBC21B1FE59FC6A" authority="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones, 2017" authorityName="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones" authorityYear="2017" box="[321,473,908,932]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="emanuelae" status="sp. nov.">
<emphasis id="7BC1EA8DFFA6FF9DFEBC21B1FE59FC6A" box="[321,473,908,932]" italics="true" pageId="8" pageNumber="103">A. emanuelae</emphasis>
</taxonomicName>
<taxonomicNameLabel id="60F257F6FFA6FF9DFE1D21B0FD9CFC6A" box="[480,540,909,932]" pageId="8" pageNumber="103" rank="species">n. sp.</taxonomicNameLabel>
seem to be particularly effective in regulating the colony morphology bounding the lateral sides of lobes (
<figureCitation id="D18E2A1AFFA6FF9DFE482190FDB5FC08" box="[437,565,941,966]" captionStart="FIGURES 14 – 21" captionStartId="6.[151,264,1735,1758]" captionTargetBox="[221,1355,193,1720]" captionTargetId="figure@6.[221,1355,193,1721]" captionTargetPageId="6" captionText="FIGURES 14 – 21. Arbocuspis emanuelae n. sp., from Station BN 28, Phuket, Thailand, kenozooids: 14 – 16, Holotype PMC. B 20. 28.6.2008 a, 14 – 15, two branches showing different pattern in the formation of longitudinal rows of kenozoois to regulate branch thickness; 16, close-up of the colony showing aligned kenozooids halting the distal growth of a lobe; except for a single zooid giving rise to a new branch; 17 – 21, Paratype, PMC. B 20. 28.6.2008 c, encounter between branches of a partly damaged colony. Note the irregularly shaped kenozooid (enlarged in Fig. 18), the row of kenozooids (enlarged in Fig. 19), the evidences of reparative calcification; 18, irregularly shaped kenozooid with long caudae (one long and curve, white arrowed) connecting surviving zooids from adjacent sectors locating their septulae. Note iterative intramural budding (black arrowed); 19, large fully developed kenozooids halting the growth of a branch; 20 – 21, general view (20) and enlargement (21) of large lateral (black arrowed) and small frontal kenozoids (white arrowed) elongated on zooidal edges. Scale bars: 14, 16 – 19, 21, 0.200 mm; 15, 20, 0.500 mm." httpUri="https://zenodo.org/record/818481/files/figure.png" pageId="8" pageNumber="103">Figs 14–15</figureCitation>
) and halting their distal growth (
<figureCitation id="D18E2A1AFFA6FF9DFC582190FC6EFC08" box="[933,1006,941,966]" captionStart="FIGURES 2 – 4" captionStartId="3.[151,264,1115,1138]" captionTargetBox="[151,1436,373,1094]" captionTargetId="figure@3.[151,1436,373,1094]" captionTargetPageId="3" captionText="FIGURES 2 – 4. Arbocuspis emanuelae n. sp. from Station BN 28, Phuket, Thailand, Holotype, PMC. B 20. 28.6.2008 a, colony morphology: 2, one of the largest lobes, whose growth is regulated by the insertion of kenozooids terminal to most zooidal rows (black arrow). New thin lobes start from few zooids (white arrowed); 3, lobe of a ‘ regenerated’ colony with the typical budding pattern leading to the formation of transversal zooidal rows. 4, a colony portion starting from a uniserial chain of zooids showing a trifurcation with formation of a main central lobe, and secondary lateral lobes from single diverging zooids, one possibly abutting (arrowed); Scale bars: 2, 1 mm; 3 – 4, 0.500 mm." httpUri="https://zenodo.org/record/818475/files/figure.png" pageId="8" pageNumber="103">Figs 2</figureCitation>
, 
<figureCitation id="D18E2A1AFFA6FF9DFC072190FB98FC08" box="[1018,1048,941,966]" captionStart="FIGURES 14 – 21" captionStartId="6.[151,264,1735,1758]" captionTargetBox="[221,1355,193,1720]" captionTargetId="figure@6.[221,1355,193,1721]" captionTargetPageId="6" captionText="FIGURES 14 – 21. Arbocuspis emanuelae n. sp., from Station BN 28, Phuket, Thailand, kenozooids: 14 – 16, Holotype PMC. B 20. 28.6.2008 a, 14 – 15, two branches showing different pattern in the formation of longitudinal rows of kenozoois to regulate branch thickness; 16, close-up of the colony showing aligned kenozooids halting the distal growth of a lobe; except for a single zooid giving rise to a new branch; 17 – 21, Paratype, PMC. B 20. 28.6.2008 c, encounter between branches of a partly damaged colony. Note the irregularly shaped kenozooid (enlarged in Fig. 18), the row of kenozooids (enlarged in Fig. 19), the evidences of reparative calcification; 18, irregularly shaped kenozooid with long caudae (one long and curve, white arrowed) connecting surviving zooids from adjacent sectors locating their septulae. Note iterative intramural budding (black arrowed); 19, large fully developed kenozooids halting the growth of a branch; 20 – 21, general view (20) and enlargement (21) of large lateral (black arrowed) and small frontal kenozoids (white arrowed) elongated on zooidal edges. Scale bars: 14, 16 – 19, 21, 0.200 mm; 15, 20, 0.500 mm." httpUri="https://zenodo.org/record/818481/files/figure.png" pageId="8" pageNumber="103">16</figureCitation>
), also in order to avoid encounters and overgrowths of portions of the same colony (
<figureCitation id="D18E2A1AFFA6FF9DFD3821F3FCC8FC29" box="[709,840,974,999]" captionStart="FIGURES 14 – 21" captionStartId="6.[151,264,1735,1758]" captionTargetBox="[221,1355,193,1720]" captionTargetId="figure@6.[221,1355,193,1721]" captionTargetPageId="6" captionText="FIGURES 14 – 21. Arbocuspis emanuelae n. sp., from Station BN 28, Phuket, Thailand, kenozooids: 14 – 16, Holotype PMC. B 20. 28.6.2008 a, 14 – 15, two branches showing different pattern in the formation of longitudinal rows of kenozoois to regulate branch thickness; 16, close-up of the colony showing aligned kenozooids halting the distal growth of a lobe; except for a single zooid giving rise to a new branch; 17 – 21, Paratype, PMC. B 20. 28.6.2008 c, encounter between branches of a partly damaged colony. Note the irregularly shaped kenozooid (enlarged in Fig. 18), the row of kenozooids (enlarged in Fig. 19), the evidences of reparative calcification; 18, irregularly shaped kenozooid with long caudae (one long and curve, white arrowed) connecting surviving zooids from adjacent sectors locating their septulae. Note iterative intramural budding (black arrowed); 19, large fully developed kenozooids halting the growth of a branch; 20 – 21, general view (20) and enlargement (21) of large lateral (black arrowed) and small frontal kenozoids (white arrowed) elongated on zooidal edges. Scale bars: 14, 16 – 19, 21, 0.200 mm; 15, 20, 0.500 mm." httpUri="https://zenodo.org/record/818481/files/figure.png" pageId="8" pageNumber="103">Figs 17, 19</figureCitation>
). Indeed, the localised production of kenozooids has been considered relevant in enhancing colony growth flexibility favoring changes in growth direction by 
<bibRefCitation id="2D244B6EFFA6FF9DFF6A262CFE63FBE4" author="McKinney" box="[151,483,1041,1066]" pageId="8" pageNumber="103" refString="McKinney, F. K. &amp; Jackson, J. B. C. (1989) Bryozoan Evolution. Studies in Paleobiology. Unwin Hyman, Boston, 238 pp." type="book" year="1989">McKinney &amp; Jackson (1989)</bibRefCitation>
. Kenozooids may be common features in bounding colony branches in species with erect growth morphologies, such as in flustriids (see 
<bibRefCitation id="2D244B6EFFA6FF9DFD00260EFC16FB85" author="Rosso" box="[765,918,1074,1099]" pageId="8" pageNumber="103" refString="Rosso, A. (1994 b) Bryozoa of the First Italian Oceanographic Antarctic Expedition (Terra Nova Bay, Ross Sea). I: Flustridae Smitt, 1867, Journal of Natural History, 28 (3), 695 - 713." type="journal article" year="1994" yearSuffix="b">Rosso 1994b</bibRefCitation>
). Nevertheless, they usually reinforce branch edges contributing to level the margins with their small sizes, and are often associated with the insertion of new rows and increasing branch width (see 
<bibRefCitation id="2D244B6EFFA6FF9DFD932648FC00FB40" author="Bader" box="[622,896,1141,1166]" pageId="8" pageNumber="103" refString="Bader, B. &amp; Schafer, P. (2004) Skeletal morphogenesis and growth check lines in the Antarctic bryozoan Melicerita obliqua. Journal of Natural History, 38, 2901 - 2922." type="journal article" year="2004">Bader &amp; Schäfer, 2004</bibRefCitation>
for 
<taxonomicName id="8EB54D1CFFA6FF9DFC472648FABCFB40" authority="Milne Edwards, 1836" authorityName="Milne Edwards" authorityYear="1836" box="[954,1340,1141,1166]" class="Gymnolaemata" family="Cellariidae" genus="Melicerita" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="genus">
<emphasis id="7BC1EA8DFFA6FF9DFC472648FBAFFB43" box="[954,1071,1141,1165]" italics="true" pageId="8" pageNumber="103">Melicerita</emphasis>
Milne 
<bibRefCitation id="2D244B6EFFA6FF9DFB762648FABCFB40" author="Edwards" box="[1163,1340,1141,1166]" pageId="8" pageNumber="103" refString="Milne-Edwards, H. (1836) Note sur un nouveau genre de Polypiers fossiles, de la famille des Eschares, nomme Melicerite. Annales des Sciences naturelles, Zoologie &amp; Biologie animale, 2, 6, 345 - 347." type="journal article" year="1836">Edwards, 1836</bibRefCitation>
</taxonomicName>
). In the encrusting colonies of 
<taxonomicName id="8EB54D1CFFA6FF9DFE6E26AAFDABFB60" authority="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones, 2017" authorityName="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones" authorityYear="2017" box="[403,555,1174,1198]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="emanuelae" status="sp. nov.">
<emphasis id="7BC1EA8DFFA6FF9DFE6E26AAFDABFB60" box="[403,555,1174,1198]" italics="true" pageId="8" pageNumber="103">A. emanuelae</emphasis>
</taxonomicName>
<taxonomicNameLabel id="60F257F6FFA6FF9DFDCC26AAFDEEFB60" box="[561,622,1175,1198]" pageId="8" pageNumber="103" rank="species">n. sp.</taxonomicNameLabel>
, kenozooids seem to perform opposite functions reducing or maintaining roughly unchanged the branch width. A protective function could be claimed for these kenozooids, which laterally bound colony portions located in slightly depressed, relatively better protected surfaces, possibly to avoid the expansion of the colony on more exposed surfaces. Comparable protective or defensive functions can be suggested for further species where kenozooids along colony margins have been observed, such as for the encrusting multizooidal species 
<taxonomicName id="8EB54D1CFFA6FF9DFE7E2703FD6CFA98" authority="Busk, 1856" authorityName="Busk" authorityYear="1856" box="[387,748,1341,1366]" class="Gymnolaemata" family="Calloporidae" genus="Megapora" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="ringens">
<emphasis id="7BC1EA8DFFA6FF9DFE7E2703FDD3FA9B" box="[387,595,1342,1365]" italics="true" pageId="8" pageNumber="103">Megapora ringens</emphasis>
(
<bibRefCitation id="2D244B6EFFA6FF9DFD9F2700FD63FA98" author="Busk" box="[610,739,1341,1366]" pageId="8" pageNumber="103" refString="Busk, G. (1856) Polyzoa collected by Mr M' Andrew on the coast of Norway and Finmark in 1856. Annals and Magazine of Natural History, Series 2, 18, 32 ‾ 36." type="journal article" year="1856">Busk, 1856</bibRefCitation>
)
</taxonomicName>
(
<bibRefCitation id="2D244B6EFFA6FF9DFD072700FBB0FA98" author="Di" box="[762,1072,1341,1366]" pageId="8" pageNumber="103" refString="Di Martino, E. &amp; Taylor, P. D. (2012) Pyrisinellidae, a new family of anascan cheilostome bryozoans. Zootaxa, 3534, 1 - 20." type="journal article" year="2012">Di Martino &amp; Taylor, 2012</bibRefCitation>
).
</paragraph>
<paragraph id="490A369FFFA6FF9DFF3A2762FE28F8CD" blockId="8.[151,1437,151,2011]" pageId="8" pageNumber="103">
In addition, isolated kenozoids larger than the marginal ones have been seen in 
<taxonomicName id="8EB54D1CFFA6FF9DFB972762FA85FAB8" authority="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones, 2017" authorityName="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones" authorityYear="2017" box="[1130,1285,1374,1398]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="emanuelae" status="sp. nov.">
<emphasis id="7BC1EA8DFFA6FF9DFB972762FA85FAB8" box="[1130,1285,1374,1398]" italics="true" pageId="8" pageNumber="103">A. emanuelae</emphasis>
</taxonomicName>
<taxonomicNameLabel id="60F257F6FFA6FF9DFAED2762FACFFAB8" box="[1296,1359,1375,1398]" pageId="8" pageNumber="103" rank="species">n. sp.</taxonomicNameLabel>
These kenozooids replace autozooids or simply fill space in between them. Isolated or clustered kenozooids often covering large areas have been observed in some multiserial species, such as species of the microporiid genera 
<taxonomicName id="8EB54D1CFFA6FF9DFF6A27F6FE39FA2D" authority="Lamouroux, 1816" authorityName="Lamouroux" authorityYear="1816" box="[151,441,1482,1507]" class="Gymnolaemata" family="Microporidae" genus="Mollia" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="genus">
<emphasis id="7BC1EA8DFFA6FF9DFF6A27F6FF62FA2D" box="[151,226,1483,1507]" italics="true" pageId="8" pageNumber="103">Mollia</emphasis>
<bibRefCitation id="2D244B6EFFA6FF9DFF1127F6FE39FA2D" author="Lamouroux" box="[236,441,1482,1507]" pageId="8" pageNumber="103" refString="Lamouroux, J. V. F. (1816) Histoire des polypiers Coralligenes Flexibles, vulgairement nommes Zoophytes. F. Poisson, Caen, 559 pp." type="book" year="1816">Lamouroux, 1816</bibRefCitation>
</taxonomicName>
and 
<taxonomicName id="8EB54D1CFFA6FF9DFE0A27F6FC92FA2D" authority="Jullien, 1888" authorityName="Jullien" authorityYear="1888" box="[503,786,1482,1507]" class="Gymnolaemata" family="Antroporidae" genus="Rosseliana" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="genus">
<emphasis id="7BC1EA8DFFA6FF9DFE0A27F6FDF2FA2D" box="[503,626,1483,1507]" italics="true" pageId="8" pageNumber="103">Rosseliana</emphasis>
Jullien, 1888
</taxonomicName>
(AR, personal observations, and figures in 
<bibRefCitation id="2D244B6EFFA6FF9DFAE827F7FED8F9C9" author="Hayward" pageId="8" pageNumber="103" refString="Hayward, P. J. &amp; McKinney, F. K. (2002) Northern Adriatic Bryozoa from the vicinity of Rovinj, Croatia. Bulletin of the American Museum of Natural History, 270, 1 - 139." type="journal article" year="2002">Hayward &amp; McKinney, 2002</bibRefCitation>
, their 
<figureCitation id="D18E2A1AFFA6FF9DFE5F27D3FE73F9C9" box="[418,499,1518,1543]" captionStart="FIGURES 9 – 13" captionStartId="5.[151,264,1484,1507]" captionTargetBox="[151,1436,481,1463]" captionTargetId="figure@5.[151,1436,481,1463]" captionTargetPageId="5" captionText="FIGURES 9 – 13. Arbocuspis emanuelae n. sp., from Station BN 28, Phuket, Thailand, lateral and reparative budding: 9 – 10, Holotype PMC. B 20. 28.6.2008 a, general view and detail of the formation of a lateral branch from a single marginal zooid. Note the long rectangular kenozooid flanking the first zooid of the new branch (arrowed in Fig. 9); 11 – 13, Paratype, PMC. B 20. 28.6.2008 c, damaged colony portion with reparative budding (arrowed) from exposed lateral walls of broken zooids, opposite and orthogonal to previous colony growth directions, enlarged in 12 and 13, respectively. Scale bars: 9 – 10, 12, 0.200 mm; 11, 0.500 mm; 13, 0.100 mm." httpUri="https://zenodo.org/record/818479/files/figure.png" pageId="8" pageNumber="103">Fig. 13</figureCitation>
E; 
<bibRefCitation id="2D244B6EFFA6FF9DFDE827D3FC88F9C9" author="Chimenz" box="[533,776,1518,1543]" pageId="8" pageNumber="103" refString="Chimenz Gusso, C., Nicoletti, L. &amp; Bondanese, C. (2014) Briozoi. Biologia Marina Mediterranea, 20 (Supplement 1), 1 - 336." type="journal article" year="2014">
Chimenz 
<emphasis id="7BC1EA8DFFA6FF9DFD7E27D2FD45F9C8" box="[643,709,1518,1542]" italics="true" pageId="8" pageNumber="103">et al.,</emphasis>
2014
</bibRefCitation>
, their Fig. 43e, inter alias). In broken or damaged colony portions, some kenozooids may serve as connections between surviving zooids, and their curving caudae appear to locate zooidal connecting septulae (
<figureCitation id="D18E2A1AFFA6FF9DFDD6240BFD2EF981" box="[555,686,1590,1615]" captionStart="FIGURES 14 – 21" captionStartId="6.[151,264,1735,1758]" captionTargetBox="[221,1355,193,1720]" captionTargetId="figure@6.[221,1355,193,1721]" captionTargetPageId="6" captionText="FIGURES 14 – 21. Arbocuspis emanuelae n. sp., from Station BN 28, Phuket, Thailand, kenozooids: 14 – 16, Holotype PMC. B 20. 28.6.2008 a, 14 – 15, two branches showing different pattern in the formation of longitudinal rows of kenozoois to regulate branch thickness; 16, close-up of the colony showing aligned kenozooids halting the distal growth of a lobe; except for a single zooid giving rise to a new branch; 17 – 21, Paratype, PMC. B 20. 28.6.2008 c, encounter between branches of a partly damaged colony. Note the irregularly shaped kenozooid (enlarged in Fig. 18), the row of kenozooids (enlarged in Fig. 19), the evidences of reparative calcification; 18, irregularly shaped kenozooid with long caudae (one long and curve, white arrowed) connecting surviving zooids from adjacent sectors locating their septulae. Note iterative intramural budding (black arrowed); 19, large fully developed kenozooids halting the growth of a branch; 20 – 21, general view (20) and enlargement (21) of large lateral (black arrowed) and small frontal kenozoids (white arrowed) elongated on zooidal edges. Scale bars: 14, 16 – 19, 21, 0.200 mm; 15, 20, 0.500 mm." httpUri="https://zenodo.org/record/818481/files/figure.png" pageId="8" pageNumber="103">Figs 17–18</figureCitation>
), as in 
<taxonomicName id="8EB54D1CFFA6FF9DFCFD240AFC03F980" authorityName="Rosso &amp; Taylor" authorityYear="2002" box="[768,899,1590,1614]" class="Gymnolaemata" family="Calloporidae" genus="Pyriporoides" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="bathyalis">
<emphasis id="7BC1EA8DFFA6FF9DFCFD240AFC03F980" box="[768,899,1590,1614]" italics="true" pageId="8" pageNumber="103">P. bathyalis</emphasis>
</taxonomicName>
(see 
<bibRefCitation id="2D244B6EFFA6FF9DFC3D240AFB3EF981" author="Rosso" box="[960,1214,1590,1615]" pageId="8" pageNumber="103" refString="Rosso, A. &amp; Taylor, P. D. (2002) A new anascan cheilostome Bryozoan from Iceland deep waters and its uniserial colony growth pattern. Sarsia, 87, 35 - 46." type="journal article" year="2002">Rosso &amp; Taylor, 2002</bibRefCitation>
). Last but not least, some small kenozooids, which lay over zooidal marginal walls, strongly resemble kenozooids described by 
<bibRefCitation id="2D244B6EFFA6FF9DFAA62466FEDEF959" author="Banta" pageId="8" pageNumber="103" refString="Banta, W. C. &amp; Crosby, M. M. (1994) Electra venturaensis, a new species (Bryozoa: Cheilostomata: Membraniporidae) from southern California. Proceedings of the Biological Society of Washington, 107 (3), 544 - 547. Avaliable from: http: // www. biodiversitylibrary. org / part / 49064 # / summary (Accessed 22 Jun. 2017)" type="journal article" year="1994">Banta &amp; Crosby (1994)</bibRefCitation>
for 
<taxonomicName id="8EB54D1CFFA6FF9DFE692442FDB5F958" box="[404,565,1663,1686]" class="Gymnolaemata" family="Electridae" genus="Einhornia" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="venturensis">
<emphasis id="7BC1EA8DFFA6FF9DFE692442FDB5F958" box="[404,565,1663,1686]" italics="true" pageId="8" pageNumber="103">E. venturensis</emphasis>
</taxonomicName>
. In 
<taxonomicName id="8EB54D1CFFA6FF9DFD942442FC86F958" authority="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones, 2017" authorityName="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones" authorityYear="2017" box="[617,774,1662,1686]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="emanuelae" status="sp. nov.">
<emphasis id="7BC1EA8DFFA6FF9DFD942442FC86F958" box="[617,774,1662,1686]" italics="true" pageId="8" pageNumber="103">A. emanuelae</emphasis>
</taxonomicName>
<taxonomicNameLabel id="60F257F6FFA6FF9DFCED2442FCD2F958" box="[784,850,1663,1686]" pageId="8" pageNumber="103" rank="species">n. sp.</taxonomicNameLabel>
, however, these kenozooids never produced zooid regenerations and subcolonies as observed in 
<taxonomicName id="8EB54D1CFFA6FF9DFD4A249EFCDAF974" box="[695,858,1699,1722]" class="Gymnolaemata" family="Electridae" genus="Einhornia" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="venturensis">
<emphasis id="7BC1EA8DFFA6FF9DFD4A249EFCDAF974" box="[695,858,1699,1722]" italics="true" pageId="8" pageNumber="103">A. venturensis</emphasis>
</taxonomicName>
. Finally, 
<taxonomicName id="8EB54D1CFFA6FF9DFC32249EFBECF975" authority="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones, 2017" authorityName="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones" authorityYear="2017" box="[975,1132,1699,1723]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="emanuelae" status="sp. nov.">
<emphasis id="7BC1EA8DFFA6FF9DFC32249EFBECF975" box="[975,1132,1699,1723]" italics="true" pageId="8" pageNumber="103">A. emanuelae</emphasis>
</taxonomicName>
<taxonomicNameLabel id="60F257F6FFA6FF9DFB84249EFB3AF974" box="[1145,1210,1699,1722]" pageId="8" pageNumber="103" rank="species">n. sp.</taxonomicNameLabel>
has kenozooids of different sizes, shapes and presumed functions, as those present in other cheilostomes including species and genera of the family 
<taxonomicName id="8EB54D1CFFA6FF9DFED324D7FE23F8CD" authorityName="d'Orbigny" authorityYear="1851" box="[302,419,1770,1795]" class="Gymnolaemata" family="Electridae" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="family">Electridae</taxonomicName>
.
</paragraph>
<paragraph id="490A369FFFA6FF9DFF3A2533FA1CF814" blockId="8.[151,1437,151,2011]" pageId="8" pageNumber="103">
The occurrence in a single species of the genus 
<taxonomicName id="8EB54D1CFFA6FF9DFCF92533FC02F8E8" authorityName="Nikulina" authorityYear="2010" box="[772,898,1806,1830]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="genus">
<emphasis id="7BC1EA8DFFA6FF9DFCF92533FC02F8E8" box="[772,898,1806,1830]" italics="true" pageId="8" pageNumber="103">Arbocuspis</emphasis>
</taxonomicName>
(which otherwise has a series of very simple characters, including the mono-to-pauciserial colony growth, and the exclusively terminal budding pattern) of this wide array of kenozooidal polymorphism could be interpreted as a sign of particular adaptation for the environment that 
<taxonomicName id="8EB54D1CFFA6FF9DFF322546FEEEF85D" authority="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones, 2017" authorityName="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones" authorityYear="2017" box="[207,366,1915,1939]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="8" pageNumber="103" phylum="Bryozoa" rank="species" species="emanuelae" status="sp. nov.">
<emphasis id="7BC1EA8DFFA6FF9DFF322546FEEEF85D" box="[207,366,1915,1939]" italics="true" pageId="8" pageNumber="103">A. emanuelae</emphasis>
</taxonomicName>
<taxonomicNameLabel id="60F257F6FFA6FF9DFE812546FE40F85C" box="[380,448,1915,1938]" pageId="8" pageNumber="103" rank="species">n. sp.</taxonomicNameLabel>
colonises. Shallow water sandy bottoms in the Khao Lak area stand in complex hydrodynamic conditions and are subject to recurrent high energy events which cause a constant motion and reorientation of small pebbles on the bottom, leading to a consequent abrasion of lithobionts (
<bibRefCitation id="2D244B6EFFA6FF9DFB1D25FFFA1CF814" author="Sanfilippo" box="[1248,1436,1986,2011]" pageId="8" pageNumber="103" refString="Sanfilippo, R., Rosso, A., Basso, D., Violanti, D., Di Geronimo, I., Di Geronimo, R., Benzoni, F. &amp; Robba E. (2011) Cobble colonization pattern from a tsunami - affected coastal area (SW Thailand, Andaman Sea). Facies, 57 (1), 1 - 13. https: // doi. org / 10.1007 / s 10347 - 010 - 0226 - 0" type="journal article" year="2011">
Sanfilippo 
<emphasis id="7BC1EA8DFFA6FF9DFA9D25FEFA15F815" box="[1376,1429,1987,2011]" italics="true" pageId="8" pageNumber="103">et al</emphasis>
.
</bibRefCitation>
</paragraph>
<paragraph id="490A369FFFA7FF9CFF6A22A5FE35FE62" blockId="9.[151,1437,151,501]" pageId="9" pageNumber="104">
2011). Escaping morphologies and the ability to develop colonies in depressed (sheltered) surfaces seem to be functional for surviving in such environments. We suggest that 
<taxonomicName id="8EB54D1CFFA7FF9CFC892281FB8FFF1A" authority="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones, 2017" authorityName="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones" authorityYear="2017" box="[884,1039,188,212]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="9" pageNumber="104" phylum="Bryozoa" rank="species" species="emanuelae" status="sp. nov.">
<emphasis id="7BC1EA8DFFA7FF9CFC892281FB8FFF1A" box="[884,1039,188,212]" italics="true" pageId="9" pageNumber="104">A. emanuelae</emphasis>
</taxonomicName>
<taxonomicNameLabel id="60F257F6FFA7FF9CFBE42280FBD7FF1A" box="[1049,1111,189,212]" pageId="9" pageNumber="104" rank="species">n. sp.</taxonomicNameLabel>
explores this niche locating cavities (
<emphasis id="7BC1EA8DFFA7FF9CFF0322DDFE58FF36" box="[254,472,224,248]" italics="true" pageId="9" pageNumber="104">Gastrochaenolithes</emphasis>
) and confining branches in depressed areas through the development of kenozooids. The species also showed ability to repair damaged zooids and to regenerate zooids through intramural budding, as well as to isolate non functional zooids with closure plates and to reconnect separated colony portions through the insertion of caudate kenozooids. Besides, the pattern of production of new lobes from single zooids along the growing margins of previous lobes, points to the ability of 
<taxonomicName id="8EB54D1CFFA7FF9CFCDE234DFC3AFE46" authority="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones, 2017" authorityName="Rosso &amp; Sciuto &amp; Sanfilippo &amp; Jones" authorityYear="2017" box="[803,954,368,392]" class="Gymnolaemata" family="Electridae" genus="Arbocuspis" kingdom="Animalia" order="Cheilostomatida" pageId="9" pageNumber="104" phylum="Bryozoa" rank="species" species="emanuelae" status="sp. nov.">
<emphasis id="7BC1EA8DFFA7FF9CFCDE234DFC3AFE46" box="[803,954,368,392]" italics="true" pageId="9" pageNumber="104">A. emanuelae</emphasis>
</taxonomicName>
<taxonomicNameLabel id="60F257F6FFA7FF9CFC3C234DFC7CFE49" box="[961,1020,368,391]" pageId="9" pageNumber="104" rank="species">n. sp.</taxonomicNameLabel>
to generate multiphase colonies after possible breakage events.
</paragraph>
</subSubSection>
<subSubSection id="01AF6514FFA7FF9CFF3A238AFB86FE3B" pageId="9" pageNumber="104" type="distribution">
<paragraph id="490A369FFFA7FF9CFF3A238AFB86FE3B" blockId="9.[151,1437,151,501]" pageId="9" pageNumber="104">
<emphasis id="7BC1EA8DFFA7FF9CFF3A238AFEE0FE1E" bold="true" box="[199,352,439,464]" pageId="9" pageNumber="104">Distribution.</emphasis>
This species is presently known exclusively from the Andaman Sea (
<figureCitation id="D18E2A1AFFA7FF9CFB85238AFB3AFE1E" box="[1144,1210,439,464]" captionStart="FIGURE 1" captionStartId="1.[151,250,1663,1685]" captionTargetBox="[151,1436,953,1639]" captionTargetId="figure@1.[151,1436,953,1639]" captionTargetPageId="1" captionText="FIGURE 1. Map showing the spatial distribution of all species presently attributed to Arbocuspis Nikulina, 2010. The position of Equator and Tropics is indicated. Open circles, Arbocuspis bellula (Hincks, 1881); Open circles with lateral black dot, Arbocuspis bellula (Hincks, 1881) sensu lato; Diamonds, Arbocuspis bicornis (Hincks, 1881); Solid circles, Arbocuspis multicornis (Hincks, 1881); Triangles, Arbocuspis ramosa (Osburn, 1940); Star, Arbocuspis emanuelae n. sp.; Inverted triangle Arbocuspis sp. cf. A. multicornis sensu Bock (2016) [1, Hincks (1881)], [2, Haswell (1881)], [3, Hastings (1930)], [4, Marcus (1937; 1941)], [5, Osburn (1940)], [6, Lagaaij (1963)], [7, Winston (1982)], [8, Cook (1985)], [9, Hayward &amp; Ryland (1995)]; [10, Gordon et al. (2007)], [11, Gordon 2016], [12, Vieira et al. (2016)], [13, Bock (2016)], and [14, this study]." httpUri="https://zenodo.org/record/818473/files/figure.png" pageId="9" pageNumber="104">Fig. 1</figureCitation>
), from where it has been reported thriving on pebbles in coarse-grained bottoms, at shallow depth.
</paragraph>
</subSubSection>
</treatment>
</document>