Phelliactis yapensis, Li, Yang & Xu, Kuidong, 2016

Li, Yang & Xu, Kuidong, 2016, Paraphelliactis tangi n. sp. and Phelliactis yapensis n. sp., two new deep-sea species of Hormathiidae (Cnidaria: Anthozoa: Actiniaria) from a seamount in the tropical Western Pacific, Zootaxa 4072 (3), pp. 358-372 : 365-369

publication ID

https://doi.org/ 10.11646/zootaxa.4072.3.5

publication LSID

lsid:zoobank.org:pub:8BE57C06-DBD3-40EA-9107-4E6959AD1247

DOI

https://doi.org/10.5281/zenodo.5658347

persistent identifier

https://treatment.plazi.org/id/EB7A87EB-A76A-4C7D-32BF-FB6745D66F26

treatment provided by

Plazi

scientific name

Phelliactis yapensis
status

sp. nov.

Phelliactis yapensis View in CoL n. sp.

( Figs. 1 View FIGURE 1 , 5–7 View FIGURE 5 View FIGURE 6 View FIGURE 7 ; Tables 3 View TABLE 3 , 4) Material examined. Holotype: Y 30039 View Materials , grasped sponge spicules, collected on 15 December 2014 from FX-Dive 16 (137°44.84′E, 8°51.90′N), 855 m, foraminiferal ooze bottom. Paratypes: Y 30040 View Materials , one specimen, collected together with the holotype and attached to sponges; Y 30064 View Materials , one specimen, attached to sponges, collected on 18 December 2014 from FX-Dive 18 (137°48.00′E, 8°53.98′N), 879 m, foraminiferal ooze associated with manganese nodules.

Body and Size. Individuals usually grasping or attached to sponges ( Fig. 5 View FIGURE 5 A, C, D). In preservation, column sub-cylindrical, height 27–104 mm (104 mm in holotype), greatest diameter of pedal disc 18–98 mm (98 mm in holotype), greatest diameter of column 22–78 mm (78 mm in holotype), greatest diameter of oral disc 11–50 mm (50 mm in holotype). Column divisible into scapus and scapulus. Scapus with thin layer of cuticle, and irregularly arranged tubercles in distal column; tubercles hemispherical, diameter of base to 6 mm. Scapulus without cuticle, but with tubercles smaller than those of scapus; tubercles of varying shapes and sizes, irregularly arranged ( Fig. 5 View FIGURE 5 B). Ectoderm of column very thin, mostly stripped off. Mesogloea thick, about 1.5 mm in distal column between tubercles, and about 2.5 mm in margin and proximal column of holotype.

Oral disc and Tentacles. Oral disc red, bilobed and asymmetric in holotype, larger part possesses 90 tentacles and 46 pairs of mesenteries, smaller part possesses 75 tentacles and 37 pairs of mesenteries ( Fig. 5 View FIGURE 5 B–D). Mouth ovoid, elevated in center of oral disc, same color as oral disc. Actinopharynx well developed, length to 33 mm, occupying near 1/3 of column length. Tentacles marginal, smooth, tapered, with mesogloeal thickenings on aboral side ( Fig. 6 View FIGURE 6 A); length to 10 mm, diameter of base to 6 mm in preservation. Tentacles alternately arranged in two cycles, with inner and outer ones subequal. Number 165 in holotype (six of them cut off with margin for histological sections), 82 in paratype Y 30040 View Materials , and 91 in Y 30064 View Materials .

Internal Anatomy. Two elongate, symmetrical siphonoglyphs; each attached to pair of directive mesenteries. Mesenteries not divisible into macrocnemes and microcnemes, arranged in five cycles ( Fig. 6 View FIGURE 6 D). Mesenteries more numerous at limbus than margin: holotype has 176 mesenteries at limbus, 168 at middle column, and 166 at margin; paratype Y 30040 View Materials has 128 mesenteries at limbus and 114 at margin; paratype Y 30064 View Materials has 106 mesenteries at limbus, and 96 at margin. In holotype, mesenteries of first cycle perfect and sterile; those of second cycle rarely with gametogenic tissue, and two pairs of them perfect and sterile; those of third and fourth cycles fertile, with oocytes larger than 180 Μm in diameter; those of fifth cycle incomplete, some fertile, and one excrescent pair ( Fig. 6 View FIGURE 6 D). Mesentery arrangement undeterminable in paratypes as their damage in course of dissection and counting number of mesenteries. Longitudinal retractor muscles diffuse, weak ( Fig. 6 View FIGURE 6 C). No cinclides. Acontia well developed, not coiled, usually one acontium arises from each larger mesentery proximally.

Sphincter mesogloeal, alveolar, and moderately strong ( Fig. 6 View FIGURE 6 B). Longitudinal muscles of tentacles and radial muscles of oral disc ectodermal ( Fig. 6 View FIGURE 6 A, E). Radial muscles of oral disc weaker and mesoglea thicker over endocoels than over exocoels ( Fig. 6 View FIGURE 6 E). Parietobasilar muscles weak ( Fig. 6 View FIGURE 6 C).

Cnidom. Spirocysts, large basitrichs, small basitrichs, microbasic p -mastigophores ( Fig. 7 View FIGURE 7 ). See Table 3 View TABLE 3 for distribution and size.

Distribution and Habitat. Phelliactis yapensis n. sp. has been found only from a seamount near the Yap Trench in the tropical Western Pacific, where the water depth ranged from 855 m to 879 m and the sediment was foraminiferal ooze sometimes associated with manganese nodules. The holotype grasped sponge spicules with pedal disc and the paratypes attached to sponges.

Etymology. Named after the seamount/location (near the Yap Trench) where the species was discovered.

Remarks. Phelliactis yapensis n. sp. matches well with the definition of Phelliactis Simon, 1892 in Carlgren (1949). It differs from all congeners by the combination of body size, column structure, the arrangement of mesenteries and tentacles, and the size of cnidae (Table 4). Phelliactis yapensis n. sp. possesses characteristic, very large basitrichs of mesenterial filaments ( Fig. 7 View FIGURE 7 J; Table 3 View TABLE 3 ), a basitrich type not observed in the known species of Phelliactis . Among the 20 Phelliactis species recognized by Fautin (2013), only three were described by Wassilieff (1908) from the eastern sea area of Japan in the Western Pacific: Ph. crassa , Ph. japonica , and Ph. magna (Table 4). Phelliactis yapensis n. sp. is the first species found from the tropical Western Pacific Ocean ( Fig. 1 View FIGURE 1 ). It differs from the three known species by the distinct scapulus above the scapus (vs. no clear differentiation between the scapus and capitulum) ( Stephenson 1918, 1920). In addition, Ph. yapensis n. sp. differs from Ph. crassa by its larger body size (up to 104 mm high and 98 mm wide vs. 50 mm high and 25 mm wide); from Ph. japonica by the stronger sphincter (vs. weak); and from Ph. magna by the strongly asymmetric oral disc (vs. slightly asymmetric), stronger sphincter (vs. weak), fewer tentacles (maximum 165 in 2 cycles vs. 192 in 6 cycles), and the higher number of perfect mesenteries (8 pairs vs. 6 pairs and 2 unpaired).

According to Riemann-Zürneck (1973), the species of Phelliactis can be classified into three groups. Phelliactis yapensis n. sp. has six pairs of perfect mesenteries in the first cycle and two additional pairs in the second cycle, and thus belongs to the Phelliactis hertwigi group - together with its ten congeners Ph. algoaensis Carlgren, 1928 ; Ph. capensis Carlgren, 1938 ; Ph. capricornis Riemann-Zürneck, 1973 ; Ph. coccinea ( Stephenson, 1918) ; Ph. hertwigii Simon, 1892 ; Ph. incerta Carlgren, 1934 ; Ph. magna (Wassilieff, 1908) ; Ph. pelophila Riemann-Zürneck, 1973 ; Ph. pulchra ( Stephenson, 1918) ; and Ph. siberutiensis Carlgren, 1928 (Table 4). By contrast, the seven species of Phelliactis that have only six pairs of perfect mesenteries belong to the Phelliactis robusta group: Ph. callicyclus Riemann-Zürneck, 1973 ; Ph. carlgreni Doumenc, 1975 ; Ph. crassa (Wassilieff, 1908) ; Ph. hydrothermala Sanamyan & Sanamyan, 2007 ; Ph. japonica (Wassilieff, 1908) ; Ph. robusta Carlgren, 1928 ; and Ph. somaliensis Carlgren, 1928 . The remaining three species have 12 pairs of perfect mesenteries: Ph. americana Widersten, 1976 ; Ph. gigantea ( Carlgren, 1941) ; and Ph. lophohelia Riemann-Zürneck, 1973 (Table 4; and references therein). Our holotype has also an excrescent pair of mesenteries in the fifth mesentery cycle. Such a pattern is likely a minor irregularity in the arrangement of mesenteries. Similar case was also observed in Ph. americana Widersten, 1976 .

TABLE 4. Cοmparisοn οf Phelliactis yapensis n. sp. with knοwn species οf Phelliactis Simοn, 1892. −, Data nοt available.

TABLE 3. Distribution and size of the cnidae of Phelliactis yapensis n. sp. Letters after each type cnida refer to Fig. 7. N is the proportion of examined individuals with a particular type of cnida; n is the number of cnidae measured. The small number of cnidae from the middle column is probably the result of devoid of ectoderm. Large basitrichs (J) were present only in the large specimen (the holotype).

Tissue Cnida type N n Range, in µm
Tentacle Robust spirocysts (A) 3/3 62 30.0–71.0 × 3.7–8.0
Gracile spirocysts (B) 3/3 46 (20.0) 24.5–52.0 ×2.5–4.0
Basitrichs (C) 3/3 48 (31.0) 34.0–56.0 × 2.8–4.0
Basitrichs (D) 2/3 36 (9.0) 14.0–24.0 × 1.0–2.0
Middle column Basitrichs (E) 3/3 6 15.0–23.0 × 3.0
Basitrichs (F) 3/3 14 (8.5) 14.0–23.5 × 1.0–2.0
Actinopharynx Basitrichs (G) 3/3 67 30.0–48.0 × (2.0) 2.7–4.0
Basitrichs (H) 3/3 46 15.0–25.0 × 1.5–2.0
Microbasic p -mastigophores (I) 3/3 64 31.0–50.0 × 4.0–5.5
Mesenterial filament Basitrichs (J) 1/3 31 (56.5) 76.0–85.0 × (3.9) 7.0–8.2
Basitrichs (K) 3/3 61 (34.0) 41.0–54.0 (58.5) × 2.9–4.0
Basitrichs (L) 3/3 36 (11.0) 14.5–25.0 × 1.5–2.0
Microbasic p -mastigophores (M) 3/3 66 31.0–42.0 × 3.7–5.0
Acontia Basitrichs (N) 3/3 116 (31.0) 34.0–58.0 × 3.0–4.0
Basitrichs (O) 3/3 34 17.0–30.0 × 2.0

Kingdom

Animalia

Phylum

Cnidaria

Class

Anthozoa

Order

Actiniaria

Family

Hormathiidae

Genus

Phelliactis

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