Corallimorphus niwa, Fautin, Daphne Gail, 2011

Corallimorphus niwa View in CoL new species

(Figures 1A–D, 2, 3, 4)

Material examined. See Table 1 View TABLE 1 .

Form, size, and color. Oral disc more or less circular, flat to strongly domed (Fig. 1A), diameter 30 to 125 mm in those studied; wider than or about the same diameter as pedal disc (Fig. 1B), which is more or less circular and flat or slightly concave. Column very short (10–30 mm), either straight or curved inward, so mid-column is narrower than either oral or pedal disc; typically margin overhangs pedal disc. Limbus may form a ridge as if mesoglea were bunched up by shortening of column or pulling in of pedal disc. Texture of stiff gelatin due to extraordinarily thick, hyaline mesoglea of column and oral disc ( Fig. 2 View FIGURE 2 ); pedal disc so thin that mesenterial insertions can be seen through it (Fig. 1B). Animal 125 mm diameter ( NIWA 34507: the holotype) with column and oral disc mesoglea 5 mm thick, pedal disc mesoglea 2 mm thick.

Immediately after animal is collected, oral disc ectoderm brownish, rust red along mesenterial insertions; longitudinal red lines (presumably along mesenterial insertions) may be present on column. Pigment may be retained in preservation (Fig. 1A), ectoderm may be yellowish (Fig. 1C), or ectoderm may be entirely sloughed off.

Oral disc and tentacles. Mouth central, slit-like (in holotype, mouth 18 mm long). Distal end of actinopharynx exposed, red in animals that retain pigmentation.

Tentacles not contractile, short, most with acrosphere slightly greater in diameter than distal end of tentacle stalk (Fig. 1A) (acrosphere may have detached from tentacles seeming to lack one; fragility of the stalk-acrosphere junction was noted by Fautin et al. 2002). Discal and marginal tentacles about equal in number (holotype has 56 discal, 52 marginal; paratype KUIZ 0 0 321 has 24 discal, 24 marginal; paratype NIWA 14329 has 38 discal, 38 marginal).

FIGURE 1. Specimens of Corallimorphus ; all except D are preserved. A, Oral disc of holotype of Corallimorphus niwa n. sp. ( NIWA 34507), diameter 125 mm. B, Pedal disc of holotype of Corallimorphus niwa n. sp., diameter 100 mm. C, Paratype of Corallimorphus niwa n. sp. (ex NIWA 41750), oral disc 90 x 100 mm. D, Corallimorphus niwa n. sp. in situ. Diameter about 200 mm; location 42.64458333º S, 177.8605833º E; depth 1210 m. E, Corallimorphus profundus Moseley, 1877 ( NIWA 41760). F, Corallimorphus rigidus Moseley, 1877 ( NIWA 34571); diameter 50 mm.

Discal tentacles radially and cyclically arrayed, to about 5 mm long. Most tentacles arise through very broad bump as much as 12 mm diameter, with core of endoderm visible through mesoglea ( Fig. 2 View FIGURE 2 ), giving tentacle the appearance of a nipple. Bumps more prominent in larger individuals, and within an individual along lower-order endocoels (in one individual, bumps of tentacles communicating with primary endocoels 8–10 mm diameter, with secondaries 8 mm, with tertiaries 5 mm). Three or four tentacles connect with each primary endocoel in largest individuals examined (e.g. holotype), highest-order endocoel with only one very small discal tentacle. Bumps diminish in size radially from mouth toward margin, and most peripheral discal tentacles lack bump. Twelve thickenings immediately around mouth ovoid, radially arrayed, lack tentacles (Fig. 1A). Reddish radial lines on oral disc follow mesenterial insertions: 6 pairs extend from each side of mouth (along complete mesenteries, presumably), other lines extend from margin only partway to mouth; surround bumps that form base of tentacles (Fig. 1 A).

Marginal tentacles very short (1–2 mm, each with acrosphere 1–1.5 mm diameter in largest individuals examined; Fig, 1A, B, Fig. 2 View FIGURE 2 ), may lack basal bump. Alternate ones communicate with exocoels and endocoels, the latter more orad than former.

Internal anatomy. Interior poorly preserved in all specimens examined; perhaps thick mesoglea prevents penetration of preservative. Mucusy when cut. Actinopharynx with many deep longitudinal folds; ectoderm, if present, usually reddish-brown. No siphonoglyphs. Because endoderm disintegrated, nature of musculature and pattern of gametogenic mesenteries could not be determined. About 48 pairs of mesenteries, seemingly regularly arrayed. Arrangement and completeness of mesenteries could not be determined. No marginal sphincter muscle ( Fig. 3 View FIGURE 3 ).

Cnidae. Cnidom spirocysts, microbasic b -mastigophores, hoplotelic microbasic p -mastigophores, holotrichs ( Fig. 4 View FIGURE 4 ). For distribution and sizes, see Table 2. This inventory may be incomplete due to poor preservation of the specimens examined. Because ectoderm is very sparse or absent on oral disc and tentacles, measurements are given for the two together. It appears, from the few samples that could be obtained from acrospheres, most of which lack ectoderm or were even entirely missing, that nematocysts of some types are confined to acrospheres. Nematocysts examined in smears of the mucusy material in the coelenteron are assumed to be from mesenterial filaments, but that could not be ascertained; the pear-shaped cnidae I refer to as holotrichs, and that are the only type of nematocyst in the actinopharynx, appeared in some smears of mesenterial filaments.

Habitat. Three lines of evidence indicate the animals probably live unattached on soft sediment. An in-situ photograph (Fig. 1D) of what is almost certainly Corallimorphus niwa n. sp., based on length and distribution of capitate tentacles, was taken in an area of muddy soft sediment. The pedal discs of all individuals examined were unattached, and showed no evidence of having been attached to anything; specimens of some other species of Corallimorphus ( Fautin 1984; below) had pebbles attached to the pedal disc. The low discoidal form of the animal is hydrodynamically favorable for an unattached polyp; it is similar to that of the sea anemone Liponema , which lives unattached on soft sediments ( Dunn & Bakus 1977).

Type locality. Northern edge of Chatham Rise (42.5390– 42.5433 º S, 178.3382– 178.3400º E), at 1404–1414 m.

Geographic and bathymetric distribution. Corallimorphus niwa n. sp. is known only from immediately around New Zealand ( Fig. 5 View FIGURE 5 ), at depths of about 900 to 1700 m.

Etymology. The specific name niwa honors the New Zealand National Institute of Water and Atmospheric Research. It should be considered an arbitrary combination of letters. The gender of Corallimorphus is masculine.

Differential diagnosis. Corallimorphus niwa n. sp. differs from all species known in the genus by having an approximately equal number of discal and marginal tentacles. The five species of the genus currently considered valid ( Fautin 2010) fall into two groups: those of the rigidus group (consisting of C. rigidus , C. denhartogi , and C. ingens ) have about twice as many marginal as discal tentacles, and those of the profundus group (consisting of C. profundus and C. pilatus ) have about four times twice as many marginal as discal tentacles ( Fautin et al. 2002).

The bumps of mesoglea, most of which form the base of discal tentacles in C. niwa n. sp., are unknown among corallimorpharians, and the pigmentation is likewise unique, although its absence in other species may be an artifact of preservation (it is absent in some poorly-preserved specimens of C. niwa n. sp.).

Knowledge of nematocysts of deep-sea corallimorpharians is incomplete because typically the condition of specimens is poor ( Fautin 1984). However, there are consistent differences with those of the two species that occur in the same part of the world as C. niwa n. sp. Data for C. profundus are from Grebelny (1975, in which the species is referred to as C. antarcticus ), Fautin (1984), and Riemann-Zürneck and Iken (2003): the tentacles have hoplotelic microbasic p -mastigophores and microbasic b -mastigophores longer than those recorded from C. niwa n. sp., and in the mesenterial filaments, the smaller holotrichs of C. niwa are shorter. Compared with C. rigidus , data for which are given by Fautin (1984), the holotrichs in the actinopharynx and the microbasic b -mastigophores in the mesenterial filaments of C. niwa are shorter.

Oral disc/tentacles

spirocysts A (28.4) 29.3 – 63.7 x 3.7 – 6.4 N = 53 n = 4/4 microbasic b -mastigophores B 13.7 – 24.5 x 3.9 – 5.9 N = 22 n = 3/4 hoplotelic microbasic p -mastigophores* C (22.5) 26.4 – 35.3 (36.2) x 5.9 – 12.7 N = 34 n = 3/4 hoplotelic microbasic p -mastigophores** D 52.9 – 81.3 (88.0) x 3.7 – 4.4 (5.4) N = 23 n = 1/4 hoplotelic microbasic p -mastigophores*** E?

Actinopharynx

holotrichs D (44.0) 46.0 – 69.5 x 9.8 – 16.1 (17.1) N = 53 n = 5/5

Mesenterial filaments (??)

microbasic b -mastigophores B 14.7 – 19.6 (21.5) x 3.9 – 5.9 N = 18 n = 3 /5 hoplotelic microbasic p -mastigophores* D (41.1) 44.0– 68.8 x (4.1) 4.9 – 8.0 N = 50 n = 5/5 holotrichs F 46.0 – 67.5 x 9.3 – 14.7 N = 6 n = 3/5 holotrichs* G (76.3) 81.2 – 109.6 x (14.7) 16.1 – 22.5 N = 50 n = 5/5

* Larger in larger animals

**Nematocysts of this type seem restricted to acrospheres.

***Nematocysts of this type seem restricted to acrospheres. Because some capsules exceed 200 µm in length, they were broken or twisted, so a photograph of the entire nematocyst could not be obtained; the basal end is pointed.

Material examined. See Table 3.

Morphology. Color yellowish. Diameters of those examined: oral disc 20–50 mm, pedal disc 20–40 mm. Column length to ~ 25 mm. Mouth a slit; lipless. The cylindrical animal brings to mind a jester’s cap, with large acrospheres on the largest of the floppy marginal tentacles (Fig. 1E; figure 1 in Fautin 1984). Tentacles of rare individuals with alternately dark and light rings along length (Fig. 1E). Endocoelic marginal tentacles may be as long as a third oral disc radius (about column length); those of lower orders longer than those of higher orders. Exocoelic marginal tentacles shortest of all, of rather uniform length. The sparse discal tentacles at most half as long as the longest marginal tentacles. Discal tentacles communicating with primary endocoels arrayed in an approximate circle not far from mouth; those communicating with secondary endocoels arrayed in an approximate circle about halfway between mouth and margin. If more than 12 discal tentacles, those communicating with tertiary endocoels near margin. Ideally the ratio of marginal to discal tentacles 4:1, but I ( Fautin 1984) found it varied from 3.1 to 4.7:1; in NIWA specimens examined, the ratio was 2.7–4.3:1.

Mesenterial insertions visible through oral and pedal disc as dark lines (Fig. 1E).

Some animals attached to small black stones.

Cnidae. Those few that I was able to measure from NIWA specimens agreed with what is known for the species ( Fautin 1984).

Geographic range. This species has a nearly cosmopolitan distribution ( Fig. 5 View FIGURE 5 ), but it was previously known only to 60º S. The depths at which these specimens were taken are within the known range of the species.