Scoliodota japonica ( Marenzeller, 1882 )

Scoliodota japonica ( Marenzeller, 1882)

[Japanese name: Ibo-kagi-namako (Iwami and other Japanese form); and Sado-nadeshiko-namako (Sado form)] ( Figs 2–10 View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG View FIG )

Chirodota japonica Marenzeller, 1882: 123–124 View in CoL ; Lampert 1885: 236; Théel 1886: 17, 33, pl. II, fig. 3.

Chirodota japonica von Marenzeller, 1882 View in CoL : Ludwig 1889 -1892 (1891): 358, pl. I, fig. 6.

Toxodora japonica ( Marenzeller, 1882) : Östergren 1898: 118.

Scoliodota japonica ( Marenzeller, 1882) : Ohshima 1913: 259–261, pl. 6. figs. 1–3, textfig. A–D; Ohshima 1914: 479–480.

Trochodota japonica ( Marenzeller, 1882) : Ohshima 1919: 149; Clark 1921: 166; Utinomi 1956: 122, pl. 61. fig. 13; Utinomi 1965: 99, Textfig. 321; Imaoka 1995: 570. Imaoka 2010: 55–56.

Taeniogyrus japonicus ( Marenzeller, 1882) View in CoL : O'Loughlin and VandenSpiegel 2010: 84; Ota et al. 2021: 143, fig. 9. Table 6.

Scoliorhapis dianthus Solis-Marin, Komatsu, Soliman, Uchida, Shimotani & Nozaki, 2014: 323–327 View in CoL , figs 1–3.

Non: Chirodota japonica Marenzeller, 1882 View in CoL : Théel 1886: 17, 33, pl. 2. fig. 3. = Scoliorhapis theelii Heding, 1928: 319–322 View in CoL , fig. 69.

Non: Scoliodota japonica ( Marenzeller, 1882) : Clark 1908: 125, pl. 7. fig. 5. = Scoliorhapis theelii Heding, 1928: 319–322 , fig. 69.

Specimens examined. 4 specimens of Iwami form: WMNH-INV-2017-169 (length 149 mm, width 3.5–7 mm), from 16 m deep of west side the Haneo Point (35°36′16.6″N, 134°20′20.0″E) on Sept. 13, 2017; WMNH-INV- 2017-170 (divided into three parts, length 28+30+ 28 mm, width 3.5–6.5 mm) from 3 m deep of inside the Tajiri Port (35°35′36.8″N, 134°19′03.6″E) on Sept. 15, 2017; WMNH-INV-2017-171 (length 46 mm, width 2.5–3 mm), and -172 (length 26 mm, width 2.5–5 mm), from 16 m deep of outside the Tajiri Port (35°35′48.9″N, 134°19′01.0″E), on Sept. 15, 2017. 13 specimens of Sado form: WMNH-INV-2020-27 (181003b8) (length 104 mm, width 3.7– 5.1 mm), from 2.0 m deep of Mushizaki (38°14'56.0"N 138°30'21.5"E) on Oct. 3, 2018; WMNH-INV-2020-28 (180808) (length 12+? mm, width 2.8 mm, autotomied anterior part only), from 1.0 m deep of Sawane (38°00'03.0"N 138°16'26.0"E) on Aug. 8, 2018; WMNH-INV-2018-78–80 (length 18–29 mm, width 2.0– 2.9 mm), from 1.0 m deep of Sawane on May. 22, 2018; WMNH-INV-2019-319 (length 145 mm, width 3.6–6.3 mm) and WMNH-INV- 2019-324 (length 36 mm, width 3.0– 3.2 mm) from 2.0 m deep of Mushizaki on Oct. 3, 2018; WMNH-INV-2020- 22–26 (length 23–38 mm, width 1.3–2.6 mm), from 1.0 m deep of Sawane on Oct. 26, 2018.

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Description. In the Iwami form, living body color deep red, with tentacles white, and color gradually fades during preservation ( Fig. 2A–E View FIG ). Living body color of small specimens paler than that of large specimens. Mouth and anus terminal. Numerous “hook papillae” present in inter-radius of both dorsal and ventral body skin, through anterior to posterior, low hemisphere form (preserved and living specimens). Color of papillae surfaces (preserved and living specimens) deeper than adjacent body skin. Wheel-papillae absent. Body color of living state white semitransparent to whitish pink in Sado form, with numerous pale-red minute spots with tentacles white ( Fig. 7 View FIG ).

Ten tentacles, stout, with about 10–20 digits ( Fig. 2G View FIG , 7 View FIG , Table 3 View TABLE 3 ); distal digit pair largest. Sensory cups absent. Large retractor muscles or ligaments combined calcareous ring with longitudinal muscles ( Fig.2F View FIG ). Calcareous ring inclined toward ventral side, composed of five radial and five inter-radial plates ( Fig. 4A View FIG ), these all thick, with complicated three-dimensional structure ( Fig. 5 View FIG ). All plates have a posterior depression, which shaped approximately rectangular in ventral side and triangular in dorsal side. Trapezoid anterior projection with central notch in RI, and low triangle anterior projection in IR5, no perforation present. Other eight plates have an anterior projection on near dorsal end. Polian vesicle single, in RI. Stone canal single, very long and sometimes coiled, with wide madreporite, in IR5 ( Fig. 2H View FIG ). Intestine has no loop, situated along IR 5 in anterior to middle body, however posterior end of intestine about a one fifth of total length adhered to body wall in four radii exclusive of RI. Reproductive tubules on both sides of anterior dorsal mesentery, in clusters, branched. One band of crowded ciliated funnels situated on left dorsolateral inter-radius IR3, along left ventrolateral longitudinal muscle RII, along entire length of body. Additionally, one sparse row of ciliated funnels situated in the right side of dorsal mesentery IR5 present in middle part of the body. Funnels short (approximately 0.15 mm long), without stalk ( Fig. 2I View FIG ).

In the Iwami form, body wall containing wheel and sigmoid-hook ossicles in two small specimens, but wheel ossicles quite sparse or lacking in two large specimens ( Figs. 3 View FIG , 6 View FIG , Table 4 View TABLE 4 ). Wheel ossicles scattered sparsely in anterior to posterior body surface on both radii and inter-radii. Wheel ossicles rounded-hexagonal with six spokes, diameter 46–59 µm. Inner margin of rim parallel to outer margin. Teeth triangular, 9–12 per section, with no discontinuities in tooth series. Spokes 18–22% as broad as diameter of wheel ossicle. Wheel ossicles scattered sparsely in anterior half, lacking in posterior half. Body wall containing sigmoid-hook ossicles in all of Sado form specimens, wheel ossicles completely lacking in adult specimens ( Figs 8 View FIG ; 9B–E View FIG , Table 4 View TABLE 4 ). Body wall also containing wheel ossicles in smallest three specimens, scattering sparsely in anterior to posterior body surface on both radii and inter-radii. Wheel ossicles rounded-hexagonal with six spokes, diameter 53–63 µm ( Figs 9F; 9G View FIG , Table 4 View TABLE 4 ). Inner margin of the rim shows slight depression at each corner, however, no discontinuities in tooth series there. Teeth triangle-shaped, 8–11 per radiant, spokes broad, their breadth amounting to 24–29% of wheel ossicle diameter.

Sigmoid-hook ossicles thick and large, arranged in circles as “hook papillae,” absent along center of longitudinal muscles. Each papilla contains up to 13 hooks in anterior to middle of body, however hooks lie scattered independently from papillae in posterior body. Sigmoid-hooks without spinelets; open loop strongly wound ( Figs. 6–9 View FIG View FIG View FIG View FIG ). Length up to approximately 120 µm (in Iwami) and 110 µm (in Sado), large in large specimens, small in small specimens ( Table 4 View TABLE 4 ), and significantly larger in posterior than in anterior, in both sides in three specimens (Kruskal-Wallis test, P s <0.05) (with exception of one small specimen: WMNH-INV-2017-171) ( Table 4 View TABLE 4 ). Tentacles lack ossicles.

Comparative materials. NMW-1192 of NHMW, syntype (length 12 mm, width 2.5 mm), Naturhistorisches Museum Wien, collected by Dr. Körbl in 1875–1876, from east side of Eno-shima, Japan ( Marenzeller 1882). The specimen was sent to Drasch and was subsequently labelled as “Drasch 1877”. It was dissected by Marenzeller, and fastened to a glass plate. In the report of Jangoux and De Ridder (1990), this specimen was also listed with the catalog number 11592. According to Marenzeller (1882), the original specimen was 3.5 mm in breadth, and estimated to be more than 40 mm in length. However, the syntype is now much smaller than what was previously reported, probably because it dried up in the past. Today the syntype is hard and fragile, internal organs could not be observed, and ossicles appear to have corroded away.

Observation of the specimens of Scoliorhapis dianthus . Recently, Solis-Marin et al. (2014) described Scoliorhapis dianthus from the shallow water of Sawane, Sado Island, where the Sado form of T. japonicus examined in this study were also collected. In that study, however, the presence of “hook-papilla” and wheel ossicles were not thoroughly discussed. Therefore, in this study, we conducted a detailed comparison of the body ossicles between the two Sado animals. A new and more detailed photograph of the body ossicles of the originally preserved paratype ( Solis-Marin et al. 2014) is shown in Figure 10 View FIG .

The result of the morphological observation of the paratype specimen of Scoliorhapis dianthus (sensu Solis- Marin et al., 2014) is as follows: Body color of preservation material is whitish pink, no “hook papillae” present. The density of the sigmoid-hooks in the skin are uneven, and there was no wheel ossicle present ( Fig. 10 View FIG ). However, the lengths of sigmoid-hook ossicles are 100–120 µm (in Solis-Marin et al. 2014), or 85–115 µm ( Fig. 10 View FIG ), which are close to those in Iwami form (53–117µm) and Sado form (45–107µm) of S. japonica ( Table 4 View TABLE 4 ). Scoliorhapis dianthus also has retractor organ ( Solis-Marin et al. 2014). Because there was no other taeniogyriid species collected from Sawane during our very frequent surveys (more than 10 times), we consider S. dianthus as a malformation or seriously damaged specimens of S. japonica .

Remarks. Although the color of animals from Sado differ from the original description and from the Iwami form specimens, other morphological features of their internal organs and ossicles in agreement, including the presence of “hook papillae”, of wheel ossicles in juveniles, and lack tentacle ossicles ( Ohshima 1913; 1914). Our present observation confirms the morphological characters for ossicles and external body features provided by Marenzeller (1882) and Ohshima (1913, 1914), with an exception of the presence of retractor organ. However, our detailed analyses elucidate the arrangements of the ciliated funnels, the general appearance of the complete body, and shape of the calcareous ring, for which sufficient information was not previously available. In the present materials, the tentacles of specimens fixed without anesthesia were retracted ( Fig. 2C, E View FIG ). Therefore, we inferred that this species had retractable tentacles. This detailed, novel information could be useful for the identification of this species, including for future studies aiming at the revision of genus Taeniogyrus .

Distribution. This species has only been recorded in Japan from sandy sediment in middle Japan ( Marenzeller 1882; Ohshima 1913, 1914); subtidal zone of 3–4 m deep in sandy sediment, Seto Inland Sea in western Japan ( Imaoka 2010); west coast of Kyushu Island, Japan ( Murakami 1905; Ohshima 1919; Utinomi 1956, 1965); and shallow waters of the Sea of Japan in western and northern Japan (present study).