Edwardsianthus carbunculus, Izumi & Fujii, 2021
publication ID |
https://dx.doi.org/10.3897/zookeys.1076.69025 |
publication LSID |
lsid:zoobank.org:pub:7B4E1271-0B60-4504-80B3-68028E4B1AD6 |
persistent identifier |
https://treatment.plazi.org/id/8AA70F27-89FB-447A-8758-73C0928F8F0E |
taxon LSID |
lsid:zoobank.org:act:8AA70F27-89FB-447A-8758-73C0928F8F0E |
treatment provided by |
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scientific name |
Edwardsianthus carbunculus |
status |
sp. nov. |
Edwardsianthus carbunculus View in CoL sp. nov.
Japanese name: rubi-mushimodoki-ginchaku Figs 3K-O View Figure 3 , 5 View Figure 5
Material examined.
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.
Description.
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> 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 View Figure 5 ; this color lost in preserved specimen), and with tiny, pale white in color, densely scattered nemathybomes (Fig. 5A View Figure 5 ). Tentacles: 20 in number in two cycles: inner tentacles five and outer 15, vivid scarlet in color (Fig. 5B View Figure 5 ), 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 View Figure 5 ). 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 View Figure 5 ). 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 View Figure 5 ), 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 View Figure 5 ). 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 View Figure 5 ). 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,> 200 μm in thickness in some parts (Fig. 5C, D View Figure 5 ), and comparatively thick in tentacles and mesenteries (nearby retractor), but thinner in parietal muscles (Fig. 5E View Figure 5 ). Nemathybomes protruding from mesoglea (Fig. 5G View Figure 5 ). Marginal sphincter muscle and basilar muscle absent. Gametogenic tissue apart from retractor muscles, distinct, with dense immature testes (Fig. 5F View Figure 5 ). Cnidom. Basitrichs, spirocysts, and microbasic p -mastigophores. See Fig. 3K-O View Figure 3 and Table 4 View Table 4 for sizes and distributions of cnidae.
Etymology.
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.
Remarks.
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 View Table 4 ), and from the other three new species by containing only one type of basitrich in its filaments (Tables 4 View Table 4 , 5 View Table 5 ). In the phylogenetic tree (Fig. 10 View Figure 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 View Figure 3 , Table 4 View Table 4 ; compare with the remarks given for the genus Edwardsianthus ).
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 View Figure 1 ; Fautin, 2013). Thus, the locality, Kochi, becomes the northernmost distribution limit of this genus.
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.
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Edwardsioidea |
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