identifier	taxonID	type	CVterm	format	language	title	description	additionalInformationURL	UsageTerms	rights	Owner	contributor	creator	bibliographicCitation
2A35ED1E0664500F8461A6EFFFC6C926.text	2A35ED1E0664500F8461A6EFFFC6C926.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Edwardsianthus amethystus Izumi & Fujii 2021	<div><p>Edwardsianthus amethystus sp. nov.</p><p>Japanese name: amejisuto-mushimodoki-ginchaku Figs 7I-K, 9</p><p>Material examined.</p><p>Holotype. CMNH-ZG 09763: histological sections, tissues in paraffin, and prepared nematocysts, collected by SCUBA diving on 28 March 2013, in  Oura Bay, Okinawa Island, Okinawa Pref., Japan, 15 m depth, by Takuma Fujii.</p><p>Description.</p><p>External anatomy. Size: preserved specimen ca. 200 mm in whole length, and 7 mm (narrower part)-20 mm (broader part) in width, and&gt; 300 mm in living animal, one of the largest species in edwardsiids (Fig. 9B). Column: worm-like in form, and the distal part swollen to some extent (maybe because of condition during preservation). The column consisting of capitulum, scapus and quite small physa. The distal-most part a short capitulum, without nemathybomes. Scapus with thin and easily stripped periderm, light brown in color, and surface completely smooth, with extremely small nemathybome-like spots (Fig. 9B). Aboral end differentiated with small, rounded physa. Tentacles: 20 in number in two cycles: inner tentacles five and outer 15, slender, pale purple in color with several dark purple spots (Fig. 9A; this color is lost in preserved specimen: Fig. 9B). Inner tentacles ca. 10 mm and outer ones ca. 15-20 mm in length in the living specimen. Mouth: at the center of oral disc, apparently swollen in living animal. Internal anatomy. Mesenterial arrangement: eight perfect mesenteries, all macrocnemes. Four dorsal and ventral directives, and four lateral mesenteries not paired with other macrocnemes, arranged in the normal  Edwardsia pattern. All macrocnemes are present along the whole body length from oral to aboral end and bear distinct retractor and parietal muscles. Twelve tiny microcnemes, without muscles, only confined to distal-most part. Four microcnemes between dorsal directives and dorso-lateral mesenteries, four between dorso-and ventro-lateral mesenteries, and four between ventro-lateral mesenteries and ventral directives. Retractor muscles: at the mid part of column, strongly developed and diffused (Fig. 9E), pennon-like, arranged with 100-150 muscular processes, simple to well branched. Processes near filament short and highly branched, and one process nearest to the body wall extremely well-branched, with ca. 80 secondary and thirdly branched processes (Fig. 9E). Parietal muscles: distinct, rounded shape, consisting of 10-15 simple processes on each side (Fig. 9E). Others: each with one tentacle from each endo- or exocoels. Existence of siphonoglyph unknown because of contracted state of specimen. Tentacular circular muscle indistinct (Fig. 9C), and longitudinal muscle ectodermal, distinct (Fig. 9D). Mesoglea thickest in body wall and actinopharynx, ca. 200  µm in thickness (Fig. 9E), but far thinner in mesenteries, retractor muscles, and tentacles (Fig. 9C, D). Nemathybome-like structures protruding from mesoglea, but without any nematocysts (Fig. 9G). Marginal sphincter muscle and basilar muscle absent. Gametogenic tissue apart from retractor muscles, distinct (Fig. 9F), with matured oocytes. Cnidom. Basitrichs, spirocysts, and microbasic p -mastigophores. There are no nematocysts in nemathybome-like structures. See Fig. 7I-K and Table 5 for sizes and distributions.</p><p>Etymology.</p><p>This species epithet refers to amethyst, a kind of gemstone, and is named after this  species’ dark purple tentacle coloration. Derivation of the Japanese name is the same as that of the Latin species name.</p><p>Remarks.</p><p>The most characteristic feature of this species is the nemathybome-like features without nematocysts. Nemathybomes are pocket-like features on columns of some genera of  Edwardsiidae, and they always contain large nematocysts (Carlgren, 1949;  Brandão et al. 2019). Thus, the structures of  Edwardsianthus amethystus cannot be called nemathybomes because they lack nematocysts. This is the first case of confirmation of this nemathybome-like feature in  Edwardsianthus anemones, and by these  E. amethystus can be easily distinguished from its congeners. We placed this sea anemone in the genus  Edwardsianthus because of the characteristic arrangement of tentacles and mesenteries, but the generic diagnosis has now been modified to "sometimes without" nemathybomes (see the Remarks for the genus).</p><p>Phylogenetic analyses.</p><p>The concatenated phylogenetic tree of 12S, 16S, and 18S rDNA (total 2886 bp) is shown in Fig. 10. All  Edwardsianthus specimens formed a clade (indicated in red box) supported by a ML bootstrap value of 79%, but not well supported by BI posterior probability. In this clade,  E. pudicus,  E. carbunculus sp. nov.,  E. sapphirus sp. nov., and  E. amethystus sp. nov. were closely related with high support (ML bootstrap value = 83%; BI posterior probability = 0.98),  Edwardsianthus smaragdus sp. nov. was indicated as their sister group, but was only slightly supported by ML (bootstrap value = 57%) and not supported by the BI method.  Edwardsianthus gilbertensis was nested with the other five species and positioned at the most basal node of this genus.</p><p>In addition, the most basal position of our phylogenetic tree of  Edwardsiidae is taken by  Tempuractis rinkai Izumi, Ise, &amp; Yanagi, 2018. This edwardsiid is the only species of the genus  Tempuractis Izumi, Ise, &amp; Yanagi, 2018. It has a simple morphology compared to other edwardsiid species by showing a smooth body wall without particular structures, like nemathybomes, a simple aboral end without any apparent physa, and simple tentacles without any structures (Izumi et al., 2018). This topology suggests that nemathybomes of  Edwardsiidae were obtained within the family lineage (Fig. 10).</p></div>	https://treatment.plazi.org/id/2A35ED1E0664500F8461A6EFFFC6C926	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Izumi, Takato;Fujii, Takuma	Izumi, Takato, Fujii, Takuma (2021): Gems of the southern Japanese seas - four new species of Edwardsianthus (Anthozoa, Actiniaria, Edwardsiidae) with redescriptions of two species. ZooKeys 1076: 151-182, DOI: http://dx.doi.org/10.3897/zookeys.1076.69025, URL: http://dx.doi.org/10.3897/zookeys.1076.69025
EA704A69959E541C9C0F1550DE68CC12.text	EA704A69959E541C9C0F1550DE68CC12.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Edwardsianthus carbunculus Izumi & Fujii 2021	<div><p>Edwardsianthus carbunculus sp. nov.</p><p>Japanese name: rubi-mushimodoki-ginchaku Figs 3K-O, 5</p><p>Material examined.</p><p>Holotype. CMNH-ZG 05954, histological sections, tissues in paraffin, and prepared nematocysts, collected by SCUBA diving on 10 July 2013,  Nishidomari (in front of Kuroshio Biological Institute), Kochi Pref., Japan, 5 m depth, by Kensuke Yanagi.</p><p>Description.</p><p>External anatomy. Size: preserved specimen ca. 60 mm in whole length, and 10-15 mm in width (but distal side strongly contracted and aboral side torn off during sampling, so body length estimated&gt; 100 mm when living), with cylinder-like form, and the proximal side a little narrower. Column: consisting of capitulum and scapus. The distal-most part of capitulum, transparent and visible scarlet color inside, short, without nemathybomes. Scapus with very thick periderm-like cuticle, dark brown in color in living specimen (Fig. 5B; this color lost in preserved specimen), and with tiny, pale white in color, densely scattered nemathybomes (Fig. 5A). Tentacles: 20 in number in two cycles: inner tentacles five and outer 15, vivid scarlet in color (Fig. 5B), without acrospheres. Inner tentacles short, blunt, ca. 6 mm in length, and outer ones long, slender, with sparse white spots on surface, 15-20 mm in length in the living specimen. Mouth: at the center of oral disc apparently swollen in living animal (Fig. 5B). Internal anatomy. Mesenterial arrangement: eight perfect mesenteries, all macrocnemes. Four dorsal and ventral directives, and four lateral mesenteries not paired with other macrocnemes, arranged in normal  Edwardsia pattern (Fig. 5C, D). All macrocnemes are present along the whole body length from oral to aboral end and bear distinct retractor and parietal muscles. Twelve tiny microcnemes, without muscles, only confined to distal-most part. Four microcnemes between dorsal directives and dorso-lateral mesenteries, four between dorso-and ventro-lateral mesenteries, and four between ventro-lateral mesenteries and ventral directives. Retractor muscles: at the mid part of column, strongly developed and diffused (Fig. 5E), pennon-like, arranged with 60-90 muscular processes, simple or slightly branched, and pinnated in some parts. Some processes nearest to body wall extremely well-branched, into secondary and thirdly branches (Fig. 5E). Parietal muscles: not so well developed, apparently elongated to direction of mesenteries, with ca. 20-30 simple to muscular processes in each side (Fig. 5E). Others: each with one tentacle from each endo- or exocoels. Existence of siphonoglyph unknown because of contracted state of specimen. Tentacular circular muscle indistinct, and longitudinal muscle distinct, ectodermal. Mesoglea thickest in body wall,&gt; 200  μm in thickness in some parts (Fig. 5C, D), and comparatively thick in tentacles and mesenteries (nearby retractor), but thinner in parietal muscles (Fig. 5E). Nemathybomes protruding from mesoglea (Fig. 5G). Marginal sphincter muscle and basilar muscle absent. Gametogenic tissue apart from retractor muscles, distinct, with dense immature testes (Fig. 5F). Cnidom. Basitrichs, spirocysts, and microbasic p -mastigophores. See Fig. 3K-O and Table 4 for sizes and distributions of cnidae.</p><p>Etymology.</p><p>The species epithet refers to ruby, a kind of gemstone, and is named so after the scarlet, vivid red, color of its tentacles. Derivation of the Japanese name is the same as that of the Latin species name.</p><p>Remarks.</p><p>This species can be distinguished from  Edwardsianthus not only by the scarlet tentacles, the most characteristic feature of this species, and their arrangement, but also by the  species’ cnidom:  E. carbunculus can be distinguished from  E. gilbertensis and  E. pudicus by having two types of basitrichs in its nemathybomes (Table 4), and from the other three new species by containing only one type of basitrich in its filaments (Tables 4, 5). In the phylogenetic tree (Fig. 10),  E. carbunculus sp. nov. is closely related to  E. pudicus, but there are differences in their morphology as described above and in the separation of their localities:  E. pudicus inhabits tropical and subtropical waters while  E. carbunculus were only lives in temperate seas. Therefore, we concluded that this sea anemone is a new species. The genus  Edwardsianthus is also traditionally characterized by nemathybomes containing only one type of nematocysts, but this definition needs revision because this species has two types of nematocysts in nemathybomes (Fig. 3M, Table 4; compare with the remarks given for the genus  Edwardsianthus).</p><p>To complete the description of this species, it is necessary to collect and examine specimens with complete proximal ends. However, this species was collected only once from the type locality, and no additional field observations are known, even despite the presence of its characteristic red tentacles. This species is the only  Edwardsianthus species inhabiting the temperate zone: the other  Edwardsianthus species live in tropical or subtropical zones (Fig. 1; Fautin, 2013). Thus, the locality, Kochi, becomes the northernmost distribution limit of this genus.</p></div>	https://treatment.plazi.org/id/EA704A69959E541C9C0F1550DE68CC12	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Izumi, Takato;Fujii, Takuma	Izumi, Takato, Fujii, Takuma (2021): Gems of the southern Japanese seas - four new species of Edwardsianthus (Anthozoa, Actiniaria, Edwardsiidae) with redescriptions of two species. ZooKeys 1076: 151-182, DOI: http://dx.doi.org/10.3897/zookeys.1076.69025, URL: http://dx.doi.org/10.3897/zookeys.1076.69025
5B726EEA8CCF56B8B680BA201207CCF6.text	5B726EEA8CCF56B8B680BA201207CCF6.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Edwardsianthus England 1987	<div><p>Genus  Edwardsianthus England, 1987</p><p>Diagnosis</p><p>(revised from the diagnosis given by England, 1987). Body divisible into physa, scapus, and capitulum. physa short, without nemathybomes or cuticle. Scapus long, generally with nemathybomes but sometimes without, sunk in mesoglea; cuticle present. Tentacles usually 20, inequal number at inner and outer cycle: five-eight inner and 12-15 outer. Siphonoglyph weak or absent, ventral. Mesenteries eight macrocnemes and six pairs of microcnemes, minute and restricted to distal part of column. Microcnemes never paired with macrocnemes. Gametogenic tissue, filaments, and parietal and retractor muscles on macrocnemes only. Parietals well developed; retractors strong-diffuse to restricted-reniform. Cnidom: spirocysts, basitrichs, microbasic p -mastigophores.</p><p>Type species.</p><p>Edwardsia pudica Klunzinger, 1877 (currently recognized as  Edwardsianthus pudicus (Klunzinger, 1877); the genus name is masculine). Type locality is Egypt, Red Sea.</p><p>Derivation of Japanese name.</p><p>This name is constructed from nanyo (south sea), mushimodoki-ginchaku (worm-like sea anemone).</p><p>Remarks.</p><p>Since England (1987) established this genus, no new species were described in addition to the two that were already known. This study revises the diagnosis of the genus for the first time in the 30 years since its original description, including new evidence for four new species.</p><p>In the present study, sea anemones resembling  Edwardsianthus were collected from several Japanese localities (Fig. 1). According to our analyses, these edwardsiids were shown to belong to the same phylogenetic clade as  E. pudicus and  E. gilbertensis (Fig. 10) and also shared the same mesenterial arrangement, i.e., lacking four microcnemes on the first mesenterial cycle. Therefore, these new species fit well with the definition of  Edwardsianthus given by England (1987). Thus, we have placed these four new species within  Edwardsianthus as  Edwardsianthus carbunculus sp. nov.,  E. sapphirus sp. nov.,  E. smaragdus sp. nov., and  E. amethystus sp. nov..</p><p>England (1987) also stated that the genus  Edwardsianthus has only one type of basitrich in the nemathybomes. However,  Edwardsianthus carbunculus sp. nov.,  Edwardsianthus sapphirus sp. nov., and  Edwardsianthus smaragdus sp. nov. have two types of basitrichs in their nemathybomes, and  Edwardsianthus amethystus has no nemathybomes at all. Consequently, we have now added a new character to the diagnosis of this genus: an inequal number of inner and outer tentacles. Species of this genus have a peculiar tentacular arrangement as "5 inner and 15 outer" or "8 inner and 12 outer". The tentacular arrangement is useful to distinguish  Edwardsianthus from the genus  Edwardsia de Quatrefages, 1842 of the same family, as  Edwardsia species have equal numbers of tentacles in their inner and outer cycles (Carlgren, 1949; Izumi &amp; Fujita, 2019).</p></div>	https://treatment.plazi.org/id/5B726EEA8CCF56B8B680BA201207CCF6	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Izumi, Takato;Fujii, Takuma	Izumi, Takato, Fujii, Takuma (2021): Gems of the southern Japanese seas - four new species of Edwardsianthus (Anthozoa, Actiniaria, Edwardsiidae) with redescriptions of two species. ZooKeys 1076: 151-182, DOI: http://dx.doi.org/10.3897/zookeys.1076.69025, URL: http://dx.doi.org/10.3897/zookeys.1076.69025
3736F24343895DFFBA57229A0452E87E.text	3736F24343895DFFBA57229A0452E87E.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Edwardsianthus gilbertensis Carlgren 1931	<div><p>Edwardsianthus gilbertensis Carlgren, 1931</p><p>Japanese name: minami-mushimodoki-ginchaku: Uchida &amp; Soyama, 2001 Figs 3F-J, 4</p><p>Edwardsia gilbertensis Carlgren, 1931: 10-12, figs 7-9.</p><p>Edwardsianthus gilbertensis: England, 1987: 218, 231, fig. 10; Uchida and Soyama, 2001: 49.</p><p>Material examined.</p><p>CMNH-ZG 06527: dissected specimen, histological sections, tissues in paraffin, and prepared nematocysts, collected by wading on 7 June 2013 from the intertidal zone of Kabira Bay, Ishigaki Island, Okinawa Pref., Japan, by  Kensuke Yanagi; NSMT-Co 1701: dissected specimens (2 individuals), collected by hand during wading on 26 March 2015 from the intertidal zone of  Funaura Bay,  Iriomote Island, Okinawa Pref., Japan, by  Takato Izumi; NSMT-Co 1781: dissected or whole specimens (3 individuals), collected by wading on 17 March 2015 from the intertidal zone of  Yonaha Bay,  Miyako Island, Okinawa Pref., Japan, by  Takato Izumi; NSMT-Co 1782: histological sections, tissues in paraffin, and prepared nematocysts, collected by wading on 19 March 2014 from the intertidal zone of  Kataburu Beach,  Yonaguni Island, Okinawa Pref., Japan, by  Takato Izumi; NSMT-Co 1783: histological sections, tissues in paraffin, and prepared nematocysts, collected by wading on 23 March 2015 from the intertidal zone of  Kataburu Beach,  Yonaguni Island, Okinawa Pref., Japan, by  Takato Izumi; NSMT-Co 1784-NSMT-Co 1789: whole or dissected specimens, collected by wading on 17 March 2016 from the intertidal zone of  Kataburu Beach,  Yonaguni Island, Okinawa Pref., Japan, by  Takato Izumi; NSMT-Co 1790: dissected specimens (3 individuals), collected by wading on 24 March 2015 from the intertidal zone of  Higawa Bay,  Yonaguni Island, Okinawa Pref., Japan, by  Takato Izumi; NSMT-Co 1791: histological sections, tissues in paraffin, collected by wading on 23 September 2014 from the intertidal zone of  Senaga Island, Okinawa Pref., Japan, by  Takato Izumi; NSMT-Co 1792: histological sections, tissues in paraffin, collected by wading on 21 September 2014 from the intertidal zone of  Yagaji Island, Okinawa Pref., Japan, by  Takato Izumi; NSMT-Co 1793: histological sections, tissues in paraffin, collected by hand during snorkeling on 9 November 2015 from  Shio-michi,  Kikai Island, Kagoshima Pref., Japan, 1 m depth, by Takato Izumi  .</p><p>Description.</p><p>External anatomy. Size: preserved specimens ca. 20-60 mm in whole length, and 2.5-3.5 mm in width, with worm-like form, and equal width along whole body. Column: consisting of capitulum, scapus, and physa. The distal-most part capitulum, translucent or opaque gray in color in living specimens, short, without nemathybomes. Scapus with thick periderm-like cuticle, brownish orange in color, both in living and preserved specimens, and with tiny, pale white in color, more or less in 8 rows nemathybomes. Aboral end apparent physa (Fig. 4A). Tentacles: 20 in number in two cycles; inner tentacles four or five and outer 10-15, opaque whitish gray in color in living animals (Fig. 4B; this color is lost in preserved specimen), without acrospheres. Inner tentacles slender, ca. 1 mm in length, and outer ones long, slender, short, with sparse white spots on surface, 2-3 mm in length. Mouth: at the center of oral disc, a little swollen. Internal anatomy. Mesenterial arrangement: eight perfect mesenteries, all macrocnemes. Four dorsal and ventral directives, and four lateral mesenteries not paired with other macrocnemes, (Fig. 4E). All macrocnemes are present along the whole body length from oral to aboral end, and bear distinct retractor and parietal muscles. Approximately seven to twelve tiny microcnemes, without muscles, only confined to distal-most part. Four microcnemes between dorsal directives and dorso-lateral mesenteries, four between dorso-and ventro-lateral mesenteries, and four between ventro-lateral mesenteries and ventral directives. Retractor muscles: at the mid part of column, distinct and diffused (Fig. 4E, F), pennon-like, consist of ca. 15-35 simple or slightly branched muscular processes (Fig. 4F). Parietal muscles: distinctly developed, leaf-like shape elongated along mesenteries, with ca. ten simple or slightly branched muscular processes in each side (Fig. 4F). Others: each with one tentacle from each endo- or exocoel. Actinopharynx short, limited in uppermost part (Fig. 4C), without siphonoglyph. Tentacular circular muscle indistinct, and longitudinal muscle distinct, ectodermal. Mesoglea thickest in body wall (Fig. 4E), and comparatively thick in tentacles (Fig. 4C), but thinner in mesenteries and parietal muscles (Fig. 4F). Nemathybomes protruding from mesoglea (Fig. 4D). Marginal sphincter muscle and basilar muscle absent. Gametogenic tissue not attached to retractor muscles, distinct, but no mature gametocyte. Zooxanthellae sparsely distributed on endoderm of mesenteries (Fig. 4F). Cnidom. Basitrichs, spirocysts, and microbasic p -mastigophores. See Fig. 3F-J and Table 4 for sizes and distributions of cnidae.</p><p>Remarks.</p><p>Edwardsia gilbertensis was originally described from the Gilbert Islands, Kiribati (Carlgren, 1931), and there have been several reports from other localities in the tropical/subtropical zone in the Pacific (Fautin, 2013). However, there were no records of  E. gilbertensis from Japan except for a fieldguide (Uchida &amp; Soyama, 2001), which reported this species from Kabira Bay, Ishigaki Island. In this research we discovered many individuals of  E. gilbertensis living not only in the intertidal zone of Kabira Bay in Ishigaki Island (Fig. 4B), but also across a broad area of the Nansei Islands, from Kikai Island, Amami Islands (Kagoshima Pref.) to Yonaguni Island, Yaeyama Islands (Okinawa Pref.). The morphological features of these specimens almost completely correspond to the original description of Carlgren (1931): 6.5 cm in length and 0.2 cm in width in fixed specimens; 16-20 tentacles; nemathybomes more or less in rows; 20-30 muscular processes on retractors. The cnidom of our specimen also agrees well with the original description, especially concerning the point that there is only one type of cnidae, "31-41  × (2)2.5(3)  µ” in size (Carlgren, 1931) in the nemathybomes. Thus, it is confirmed that  Edwardsianthus gilbertensis is widely distributed in the southern islands of Japan including Ishigaki Island.</p></div>	https://treatment.plazi.org/id/3736F24343895DFFBA57229A0452E87E	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Izumi, Takato;Fujii, Takuma	Izumi, Takato, Fujii, Takuma (2021): Gems of the southern Japanese seas - four new species of Edwardsianthus (Anthozoa, Actiniaria, Edwardsiidae) with redescriptions of two species. ZooKeys 1076: 151-182, DOI: http://dx.doi.org/10.3897/zookeys.1076.69025, URL: http://dx.doi.org/10.3897/zookeys.1076.69025
11CE36E72E175D6AA1F958A3E40FC11F.text	11CE36E72E175D6AA1F958A3E40FC11F.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Edwardsianthus pudicus (Klunzinger 1877)	<div><p>Edwardsianthus pudicus (Klunzinger, 1877)</p><p>New Japanese name: nanyo-mushimodoki-ginchaku Figs 2, 3A-E</p><p>Edwardsia pudica Klunzinger, 1877: 80-81, pl. 6, fig. 3; Carlgren, 1931: 18-20, figs 16, 17.</p><p>Edwardsiella pudica Andres, 1883: 309.</p><p>Edwardsia adenensis Faurot, 1895: 121, pl. 6, fig. 5, pl. 7, fig. 6.</p><p>Edwardsia bocki Carlgren, 1931: 7-9, figs 5, 6.</p><p>Edwardsia stephensoni Carlgren, 1950: 128-129, figs 1, 2.</p><p>Edwardsianthus pudica: England, 1987: 224-229, fig. 10.</p><p>Material examined.</p><p>NSMT-Co 1702: histological sections, dissected tissues, and prepared nematocysts, collected by SCUBA diving on 7 November 2015 off  Kurasaki seashore, Amami-Oshima Island, Kagoshima, Japan, at ca. 20 m depth, by Takuma Fujii  .</p><p>Description.</p><p>External anatomy. Size: ca. 120-200 mm in whole length, and ca. 12-15 mm in width in living specimen, and ca. 80-130 mm in length and ca. 8-10 mm in width in preserved specimen (Fig. 2A). Column: cylinder-like form, and the proximal part narrower to some extent; consisting of capitulum, scapus, and physa. The distal-most part capitulum, translucent and visible magenta mesenteries within, short, without nemathybomes. Scapus with very thick and easily removed periderm-like cuticle, dark gray color in living and preserved animals, and with tiny, pale white in color, densely scattered nemathybomes (Fig. 2A). Tentacles: 20 in number in two cycles, inner tentacle 8 and outer 12, magenta pink or purple in color with brown obscure patches in living animals (Fig. 2B; these colors are lost in preserved specimen), without acrospheres. Inner tentacles short, slender, ca. 5-6 mm in length, and outer ones long and slender, 10-14 mm in length in preserved. Mouth: at the center of oral disc, apparently swollen, showing white color in live specimens. Internal anatomy. Mesenterial arrangement: eight perfect mesenteries, all macrocnemes. Four dorsal and ventral directives, and four lateral mesenteries not paired with other macrocnemes. All macrocnemes present along whole length of the body from oral to aboral end and bearing distinct retractor and parietal muscles. Twelve tiny microcnemes, without muscles, confined only in distal-most part. Four microcnemes between dorsal directives and dorso-lateral mesenteries, four between dorso-and ventro-lateral mesenteries, and four between ventro-lateral mesenteries and ventral directives. Retractor muscles: at the mid part of column, strongly developed and diffused (Fig. 2F), pennon-like, arranged with ca. 100 muscular processes. Processes except some basal ones simple or slightly branched, and pinnate in some parts. Some processes nearest to body wall extremely well-branched, with secondary and tertiary branches (Fig. 2F; England, 1981: fig. 10). Parietal muscles: developed, comparatively distinct, egg-shaped, elongated along mesenteries, with ca. 15-20 simple or slightly branched muscular processes on each side (Fig. 2E). Others: existence of siphonoglyph unknown because of the contracted state of the specimen. Each with one tentacle from each endo- or exocoels. Tentacular circular muscle indistinct (Fig. 2C), and longitudinal muscle distinct, ectodermal (Fig. 2D). Mesoglea thickest in body wall,&gt; 200  μm in thickness in some parts, and comparatively thick in physa and mesenteries, but thinner in parietal muscles and tentacles (Fig. 2C-E). Nemathybomes sunk into mesoglea. Marginal sphincter muscle and basilar muscle absent (Fig. 2G). Gametogenic tissue not attached to retractor muscles, distinct, but no mature gametocytes observed in our specimen (Fig. 2F). Cnidom. Basitrichs, spirocysts, and microbasic p -mastigophores. See Fig. 3A-E and Table 4 for sizes and distributions of cnidae on this study.</p><p>Derivation of Japanese name.</p><p>see the derivation of genus name.</p><p>Remarks.</p><p>This specimen from Amami Oshima Island resembled the features of  Edwardsianthus pudicus as stated by England (1987); he redescribed this species as  Edwardsianthus pudica (Klunzinger, 1877), but the appropriate name is  Edwardsianthus pudicus following nomenclatural rules (ICZN 31.2 and 34.2; Ride et al., 1999), as in WoRMS (Daly &amp; Fautin, 2021). England (1987) redescribed  E. pudicus in detail and designated this species as the type of  Edwardsianthus England, 1987. England (1987) mentioned that  E. pudicus had a large body, reaching 200 mm in length and 15 mm in width, a thick walled scapus with easily stripped periderm, scattered small nemathybomes, long slender tapered tentacles, swelled mouth, extremely developed and diffused retractor muscles composed of 70-90 muscular processes, well-developed parietal muscle with 20-30 simple or slightly branched processes, and dioecious gametogenic tissue. These features almost completely correspond to the specimen obtained in this study. The tentacles being translucent purple or magenta-pink in color (England, 1987) were also similar to the tentacles and capitulum of our specimen. Moreover,  E. pudicus inhabits a broad area of the Indo-Pacific region (Fautin, 2013; Daly &amp; Fautin, 2021), so it is not unexpected to find this species in Japanese waters.</p></div>	https://treatment.plazi.org/id/11CE36E72E175D6AA1F958A3E40FC11F	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Izumi, Takato;Fujii, Takuma	Izumi, Takato, Fujii, Takuma (2021): Gems of the southern Japanese seas - four new species of Edwardsianthus (Anthozoa, Actiniaria, Edwardsiidae) with redescriptions of two species. ZooKeys 1076: 151-182, DOI: http://dx.doi.org/10.3897/zookeys.1076.69025, URL: http://dx.doi.org/10.3897/zookeys.1076.69025
D4431F22BDB7546DA6FC73888125A467.text	D4431F22BDB7546DA6FC73888125A467.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Edwardsianthus sapphirus Izumi & Fujii 2021	<div><p>Edwardsianthus sapphirus sp. nov.</p><p>Japanese name: safaia-mushimodoki-ginchaku Figs 6, 7A-D</p><p>Material examined.</p><p>Holotype. CMNH-ZG 09761: histological sections, tissues in paraffin, and prepared nematocysts, collected by SCUBA diving on 24 June 2012, in  Oura Bay, Okinawa Island, Okinawa Pref., Japan, 10 m depth, by Takuma Fujii.</p><p>Description.</p><p>External anatomy. Size: preserved specimen ca. 150 mm in whole length, and 20 mm (narrower part)-35 mm (broader part) in width, and&gt; 300 mm in living animal. Column: cylinder-like form, and the proximal part swollen to some extent in preserved specimen. The column consisting of capitulum, scapus and quite small physa. The distal-most part of the capitulum transparently blue, short, without nemathybomes. Scapus with thin and easily stripped periderm, brown in color, and with quite numerous, tiny, pale white in color, scattered nemathybomes (Fig. 6B). Nemathybomes. Aboral end differentiated small, tapered physa. Tentacles: 20 in number in two cycles: inner tentacles 5 and outer 15, metallic greenish blue in color with no pattern in living specimen (Fig. 6A; this color lost in preserved specimen), slender, without acrospheres. Inner tentacles ca. 10 mm and outer ones 15-25 mm in length in the living specimen. Mouth: at the center of oral disc, apparently swollen in living animal (Fig. 6A). Internal anatomy. Mesenterial arrangement: eight perfect mesenteries, all macrocnemes. Four dorsal and ventral directives, and four lateral mesenteries not paired with other macrocnemes, arranged in normal  Edwardsia pattern (Fig. 6C). All macrocnemes are present along the whole body length from oral to aboral end and bear distinct retractor and parietal muscles. Twelve tiny microcnemes, without muscles, only confined to distal-most part. Four microcnemes between dorsal directives and dorso-lateral mesenteries, four between dorso-and ventro-lateral mesenteries, and four between ventro-lateral mesenteries and ventral directives. Retractor muscles: at the mid part of column, strongly developed and diffused (Fig. 6E), pennon-like, arranged with 120-150 muscular processes, simple or slightly branched. One process nearest to body wall extremely well-branched, with&gt; 100 secondary and thirdly branched processes (Fig. 6E). Parietal muscles: distinct, developed peculiarly: consisted of ca. 20-30 processes in each side, and only one of them extremely developed, branched into secondary 15-25 processes, and expanded broadly. Thus, parietals in entirety appearing in a characteristic shape like the club symbol of cards (Fig. 6D). Others: each with one tentacle from each endo- or exocoels. Existence of siphonoglyph unknown because of contracted state of specimen. Tentacular circular muscle endodermal, indistinct (Fig. 6G), and longitudinal muscle ectodermal, distinct, and sometimes pinnated (Fig. 6H). Mesoglea thickest in body wall, sometimes reaching 1 mm in thickness (Fig. 6C), but thinner in mesenteries, parietal muscle, and tentacles (Fig. 6E-H). Nemathybomes protruding from mesoglea. Marginal sphincter muscle and basilar muscle absent. Gametogenic tissue apart from retractor muscles, distinct (Fig. 6C, F), with matured oocytes. Cnidom. Basitrichs, spirocysts, microbasic p -mastigophores. See Fig. 7A-D and Table 5 for sizes and distribution.</p><p>Etymology.</p><p>The species epithet refers to a sapphire, a gemstone, and is named so after the brilliant metallic blue color of the  species’ tentacles. Derivation of the Japanese name is the same as that of the Latin species name.</p><p>Remarks.</p><p>This species is one of the largest species of its family. It is not only characterized by its gigantic body size, and bluish metallic tentacle coloration, but also by the strange club-like shape of its parietal muscles. Congeneric species have parietal muscles with simple or slightly branched processes, and there are no confirmed cases of parietal muscles with such secondary branched muscular processes in other species. Thus, the shape of parietal muscle of this species is very conspicuous within its genus, allowing  E. sapphirus to be distinguished easily from its congeners.</p><p>There have been several observations of the metallic blue tentacles resembling this species reported during SCUBA diving in Amami Oshima by Takuma Fujii and some other divers (Atetsu Bay and some other places). However, it was too difficult to dig out such large edwardsiid sea anemones that are buried deeply in the substrate, as they usually retract their whole bodies quickly into the substrate. Therefore, we think that the difficulty in collecting multiple specimens is the most serious issue that needs to be overcome in order to make additional progress in the study of edwardsiids.</p></div>	https://treatment.plazi.org/id/D4431F22BDB7546DA6FC73888125A467	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Izumi, Takato;Fujii, Takuma	Izumi, Takato, Fujii, Takuma (2021): Gems of the southern Japanese seas - four new species of Edwardsianthus (Anthozoa, Actiniaria, Edwardsiidae) with redescriptions of two species. ZooKeys 1076: 151-182, DOI: http://dx.doi.org/10.3897/zookeys.1076.69025, URL: http://dx.doi.org/10.3897/zookeys.1076.69025
E7110EE880295AC792592D11B062ADC0.text	E7110EE880295AC792592D11B062ADC0.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Edwardsianthus smaragdus Izumi & Fujii 2021	<div><p>Edwardsianthus smaragdus sp. nov.</p><p>Japanese name: emerarudo-mushimodoki-emeginchaku Figs 7E-H, 8</p><p>Material examined.</p><p>Holotype. CMNH-ZG 09762: histological sections, tissues in paraffin, and prepared nematocysts, collected by SCUBA diving on 31 January 2016, off  Shirahama seashore, Amami-Oshima Island, Kagoshima, Japan, 15 m depth, by Daisuke Uyeno.</p><p>Description.</p><p>External anatomy. Size: preserved specimen ca. 70 mm in whole length, and ca. 15 mm in width, and ca. 100 mm in living specimen. Column: cylinder-like in form, and the middle part swollen to some extent (Fig. 8A, B). The column consisting of capitulum, scapus and quite small physa. The distal-most part of the capitulum whitish transparent in living animals, short, without nemathybomes. Scapus with thick periderm, brownish black in color, and with protruding scattered tiny, dingy grey color nemathybomes in the living specimen (Fig. 8A). Aboral end differentiated small, tapered physa. Tentacles: 20 in number in two cycles: inner tentacles five and outer 15, brilliant green in color and pale purple at the tips, no pattern, comparatively slender, without acrospheres. Inner tentacles ca. 7 mm and outer ones ca. 10-15 mm in length in the living specimen. Mouth: at the center of oral disc, slightly swollen both in living and preserved specimen. Internal anatomy. Mesenterial arrangement: eight perfect mesenteries, all macrocnemes. Four dorsal and ventral directives, and four lateral mesenteries not paired with other macrocnemes, arranged in normal  Edwardsia pattern (Fig. 8F). All macrocnemes are present along the whole body length from oral to aboral end and bear distinct retractor and parietal muscles. Twelve tiny microcnemes, without muscles, only confined to distal-most part. Four microcnemes between dorsal directives and dorso-lateral mesenteries, four between dorso-and ventro-lateral mesenteries, and four between ventro-lateral mesenteries and ventral directives. Each tentacle exo- or endocoelic. Retractor muscles: at the mid part of column, weakly developed but distinct, diffused (Fig. 8C), pennon-like, arranged with 50-60 muscular processes, simple or slightly branched. One process nearest to body wall well-branched (Fig. 8C). Parietal muscles indistinct, elongated in direction of mesenteries, consisted of short and slightly branched processes, sparsely, &lt;ten on each side (Fig. 8C). Others: each with one tentacle from each endo- or exocoels. Existence of siphonoglyph unknown because of contracted state of specimen. Tentacular circular muscle endodermal, distinct, and longitudinal muscle ectodermal, both distinct. Mesoglea thickest in body wall and actinopharynx, maximum 400  µm in thickness (Fig. 8F), but far thinner in parietal muscle and tentacles (Fig. 8C-E), and thinnest, &lt;10  µm, in mesenteries. Nemathybomes protruding from mesoglea (Fig. 8H). Marginal sphincter muscle and basilar muscle absent. Gametogenic tissue apart from retractor muscles, distinct (Fig. 8G), with matured oocytes. Cnidom. Basitrichs, spirocysts, microbasic p -mastigophores. See Fig. 7E-H and Table 5 for sizes and distribution.</p><p>Etymology.</p><p>This species epithet refers to an emerald, a gemstone, and is named so after the bright green coloration of its tentacles. Derivation of the Japanese name is the same as that of the Latin species name.</p><p>Remarks.</p><p>Edwardsianthus species usually have strongly developed and diffused retractor and parietal muscles (Figs 2F, 4F, 5E, 6E, 9E), but those of  Edwardsianthus smaragdus form an exception by their less distinct development (Fig. 8F). This character is clear in addition to its brilliant light green tentacles. Concerning the cnidom,  E. smaragdus can be distinguished from  E. pudicus and  E. gilbertensis by containing two types of basitrichs in its nemathybomes, and from the other three new species of  Edwardsianthus by having microbasic p -mastigophores in its actinopharynx (Tables 4, 5).</p><p>In the phylogenetic tree (Fig. 10; Suppl. material 1 Fig. S1),  E. smaragdus sp. nov. has a far longer branch than the other species, and therefore its phylogenetic position is not stable; the ML bootstrap value was 57, which is comparatively low, and not supported by BI posterior probability; Fig. 10). Nevertheless, it is most probable that  E. smaragdus n. sp. belongs to this genus (ML bootstrap value was 79) despite the BI posterior probability not being well-supported. Considering that the morphology of this species corresponds completely with the diagnosis of  Edwardsianthus, this species is classified as  E. smaragdus .</p></div>	https://treatment.plazi.org/id/E7110EE880295AC792592D11B062ADC0	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Izumi, Takato;Fujii, Takuma	Izumi, Takato, Fujii, Takuma (2021): Gems of the southern Japanese seas - four new species of Edwardsianthus (Anthozoa, Actiniaria, Edwardsiidae) with redescriptions of two species. ZooKeys 1076: 151-182, DOI: http://dx.doi.org/10.3897/zookeys.1076.69025, URL: http://dx.doi.org/10.3897/zookeys.1076.69025
