Juxtacribrilina tumida, Dick & Grischenko & Gordon & Ostrovsky, 2021

Juxtacribrilina tumida n. sp.

( Fig. 12 View FIGURE 12 ; Table 5)

urn:lsid:zoobank.org:act:CEF34BD6-BE69-40A7-99E0-CE1B69F860D2

Diagnosis. Non-ovicellate zooids with 7–14 costae, 2 or 3 oral spines (predominantly 3), lateral pair long, stout, with enlarged bases. Costae inflated, elliptical in transverse section, separated by relatively deep intercostal grooves; suboral pair often thicker than rest; intercostal lacunae moderately large, 5–7 in transverse series. Most zooids in basal layer with 1 or 2 frontal pore chambers on proximal gymnocyst. Ovicellate zooids not observed in basal layer. Frontally budded dwarf ovicellate zooids with 4 costae. Ooecium in dwarf zooids cap-like, kenozooidal, bearing single large, circular pseudopore in midline.

Etymology. The specific name derives from the Latin adjective tumidus (swollen), referring to the swollen appearance of the costae.

Material examined. Holotype: YPM-IZ-106557, on SEM stub, Eider Island, Narrow Strait, Kodiak, Alaska (57.88560°N, 152.40095°W), collected by M.H. Dick, December 1982, lower rocky intertidal. Similar material of uncertain identity: ZIRAS 01/50737, Ptichy Island, 11 km northwest of Cape Raduzhnyy, western Kamchatka Peninsula, Sea of Okhotsk (57.16361°N, 156.56194°E), collected by A. V. Grischenko, 6 September 1992, colony detached from inner surface of Mya truncata shell, Balanus zone, middle to lower rocky intertidal, on SEM stub. NHM 2006.2.27.51, Akkeshi Bay, Hokkaido, Japan, small, non-ovicellate colony, collected by A. V. Grischenko and M.H. Dick, rocky intertidal, June–July 2004. YPM-IZ-106558, on SEM stub, Higgins Point, Ketchikan, Alaska (55.455183°N, 131.834305°W), collected by M.H. Dick, 9 September 2003, rocky intertidal.

Measurements. See Table 5.

Description (holotype). Colony ( Fig. 12A View FIGURE 12 ) 5 x 2 mm in size; encrusting, multiserial, unilaminar except for frontally budded dwarf zooids. Zooids ( Fig. 12B View FIGURE 12 ) closely appressed, delineated by deep groove; oval, long-oval, or spindle-shaped in outline. Gymnocyst negligible except as narrow zone proximally, bearing one or two frontal pore chambers on most zooids; frontal pore chambers occasionally also occurring on lateral gymnocyst. Frontal shield highly convex, with 7–14 relatively thick, tumid costae; intercostal lacunae moderately large, circular or irregular, 5–7 in transverse series; each costa with lumen pseudopore at or close to tip. Suboral pair of costae usually stouter than rest, sometimes elevated in midline or curving fronto-distally to form raised suboral projection. Secondary orifice approximately semicircular, broader than long, with rounded corners. Non-ovicellate zooids with 2–3 articulated oral spines; disto-lateral pair tall, thick, cylindrical, arising from enlarged bases ( Fig. 12B View FIGURE 12 ), with or without smaller, single, tapering spine between them. No ovicellate zooids observed in basal layer.

Dwarf zooids ( Fig. 12C, D View FIGURE 12 ) with 4 costae, including thickened suboral pair. Proximal border of ooecial complex concave, formed by pair of thickened, tapering, modified latero-oral spines meeting at midline, each with small lumen pseudopore near tip. Ooecium reduced, cap-like, kenozooidal, terminal, with single, large pseudopore in center ( Fig. 12C, D View FIGURE 12 ). No marginal dwarf zooids observed. No ancestrula observed.

Remarks. Juxtacribrilina tumida n. sp. differs from J. annulata in the same ways as do J. ezoensis n. sp., J. pushkini n. sp., and J. dobrovolskii n. sp. (see above). It differs from the latter three species in having fewer costae (average, 10.1, Table 5; range of averages for the latter three, 12.8–17.1, Tables 2–4); fewer intercostal lacunae in transverse series (average, 6.3; range of averages for the other three, 7.1–8.6); the suboral pair of costae markedly thicker than the rest ( Fig. 12B View FIGURE 12 ); and the disto-lateral pair of oral spines thick, with large bases evident in bleached material ( Fig. 12B View FIGURE 12 ). The dwarf zooidal ooecium in J. tumida n. sp. has a single, relatively large, circular pseudopore in the center ( Fig. 12C, D View FIGURE 12 ), whereas those in J. ezoensis n. sp. ( Fig. 6C View FIGURE 6 ) and J. pushkini n. sp. ( Fig. 10A View FIGURE 10 ) typically have two smaller, transversely arranged pseudopores, and that in J. dobrovolskii n. sp. ( Fig. 11D View FIGURE 11 ) has a single slitlike, oval, or ramifying pseudopore.

A single intertidal specimen from Akkeshi Bay, northern Japan ( Fig. 13A View FIGURE 13 ; Table 5) shows non-ovicellate zooids very similar to J. tumida n. sp. and could be this species, although the identification is tentative because no ovicellate zooids were present. A single intertidal specimen from Ptichy Island, Sea of Okhotsk ( Fig. 13B View FIGURE 13 ; Table 5), likewise showed non-ovicellate zooids similar to those in J. tumida n. sp., with relatively few costae and intercostal lacunae, a similar complement of oral spines, and enlarged bases of the disto-lateral oral spines, but differed in having flatter, less tumid costae and markedly larger zooid size. As the Ptichy specimen lacked ovicellate zooids, its identity likewise remained ambiguous.

Specimen YPM-IZ-106558 from Ketchikan ( Fig. 13C–F View FIGURE 13 ) is unusual in showing a band two generations wide of zooids (both ovicellate and non-ovicellate) similar in morphology to J. tumida n. sp. in having fewer costae and fewer, larger intercostal lacunae ( Table 5), and in the somewhat enlarged bases of the disto-lateral oral spines. This zone, however, gives rise to a marginal zone of zooids having the more numerous costae and smaller, more numerous intercostal lacunae characteristic of J. pushkini n. sp. ( Fig. 13D View FIGURE 13 ). The costae in the J. tumida -like zooids in specimen YPM-IZ-106558 are not as inflated as in J. tumida n. sp. In addition, the ooecia in frontal dwarfs are intermediate between the single-pseudopore condition in J. tumida n. sp. and that in J. pushkini n. sp.; in Fig. 13F View FIGURE 13 , one ooecium has a single large pseudopore, three have two smaller pseudopores transversely arranged but closer together than is typical for J. pushkini n. sp., and two have a dumbbell-shaped opening resulting from the incomplete separation of two close pseudopores. The costal shields in dwarf zooids in YPM-IZ-106558 are flatter and composed of four costae, as in J. tumida n. sp.; those in J. pushkini n. sp. typically have five or six costae.

The nature of the J. tumida -like band in the Ketchikan specimen is not clear. This specimen is not clearly either J. tumida n. sp. or J. pushkini n. sp.; none of the many other specimens from Ketchikan identified as J. pushkini n. sp. showed the mixed zooid types. It is noteworthy that another Juxtacribrilina species , J. mutabilis , shows distinct, alternative zooid types, with individual colonies containing one to three of the types ( Ito et al. 2015; Dick et al. 2020), intermingled or occurring in separate zones. One explanation for Ketchikan specimen YPM-IZ-106558 is that it represents a distinct species showing alternative zooid types. Another possibility is that hybridization has occurred between J. tumida n. sp. and J. pushkini n. sp. at Ketchikan, although no J. tumida n. sp. colonies were detected there. Without more material from across the North Pacific, we cannot resolve this issue.

Occurrence. We found J. tumida n. sp. only at Kodiak, although specimens of ambiguous identity from other localities (Ptichy Island, Akkeshi, Ketchikan), if confirmed, would indicate a broader, amphi-Pacific distribution.