Cauloramphus cryptoarmatus, Grischenko & Dick & Mawatari, 2007
publication ID |
https://doi.org/ 10.1080/00222930701391773 |
persistent identifier |
https://treatment.plazi.org/id/877A7251-CC54-DE16-FEA8-2276D3D81EBB |
treatment provided by |
Felipe |
scientific name |
Cauloramphus cryptoarmatus |
status |
sp. nov. |
Cauloramphus cryptoarmatus View in CoL new species
( Figure 9 View Figure 9 )? Cauloramphus spiniferus [sic]: Liu et al. 2001, p 458, Plate 20, Figures 2–4 View Figure 2 View Figure 3 View Figure 4 .
Diagnosis
Zooids closely appressed; gymnocyst negligible; cryptocyst strongly developed, widest proximally, entirely and uniformly coarsely granulate; 8–10 spines, generally short, not meeting in opesial midline, including two to four straight orificial and four to six thin, curved opesial spines; avicularia commonly paired, originating between orificial and opesial spines, approximately lateral to proximal orificial border, with short, thin pedicel abruptly expanding into curved chamber; non-pedunculate avicularia can arise from pore chambers at colony margin, sometimes in abundance.
Etymology
The species name is from the Greek kruptos (hidden) and Latin armatus (armed), referring to the occurrence of small marginal avicularia, which are unusual for the genus.
Material examined
Holotype: ANC, colony on rock (NHM 2006.2.27.14). Paratypes: ANC, colony on rock (NHM 2006.2.27.13); ANC, colony on rock (NHM 2006.2.27.31). Additional material: 80 specimens.
Description
Colony unilaminar, encrusting, coherent, irregularly circular in outline, up to 2.2 cm across; light yellow, greyish, or whitish when alive. Zooids ( Figure 9A–F View Figure 9 ) very variable in form: oval, irregularly hexagonal, pyriform, tapering, or irregular; 0.52–0.73 mm long (0.60¡ 0.06 mm), 0.30–0.40 mm wide (0.35¡ 0.03 mm); closely appressed, separated by shallow groove with fine, undulating suture. Mural rim cryptocystal ( Figure 9B, D, E View Figure 9 ); wide, rounded, tumid, entirely covered with uniform, coarse granules; relatively narrow and steep distally, widening laterally, widest proximally; opesiae well separated. Gymnocyst greatly reduced, negligible. Opesia ( Figure 9B, D, E View Figure 9 ) irregularly oval, often with straight proximal margin, widest in middle or more proximally, 0.32–0.40 mm long (0.37¡ 0.02 mm), 0.17–0.27 mm wide (0.20¡ 0.02 mm), occupying 60–75% of zooidal length. Mural rim with 8–10 spines ( Figure 9C, E View Figure 9 ), including three or four hollow, straight, vertically orientated orificial spines, arranged in a semicircle around distal curvature of orifice, that are slightly longer, thicker, and blunter than the rest; and four to six short, thin, acuminate spines curving over opesia. Pedunculate avicularia ( Figure 9E View Figure 9 ) originate from distolateral gymnocyst between orificial and opesial spines, approximately in line with proximal edge of orifice; longer than distal spines, with comparatively short, thin peduncle abruptly expanding into curved chamber; orientated vertically or angling over opesia, with rostral side facing proximolaterally; mandible narrow, elongate-triangular; avicularia commonly paired, sometimes single; rarely zooids lack them altogether. Where colonies of C. cryptoarmatus encounter other bryozoan species, zooids at the colony margin can produce numerous (up to nine) small, closely set additional avicularia ( Figure 9B View Figure 9 ), each developing from a pore chamber along the free distal and distolateral walls; these avicularia non-pedunculate, chamber slightly elevated; mandible triangular, with sharp tip. Embryos brooded endozooidally; fertile zooids have a small kenozooidal ooecium ( Figure 9D View Figure 9 ) comprising the mural rim distal to the orifice. Six pore chambers in each lateral wall and two or three in distal wall. Ancestrula ( Figure 9F View Figure 9 ) tatiform, oval, 0.28 mm long, 0.20 mm wide, with large, oval opesia, 0.19 mm long by 0.13 mm wide, with 12 short, hollow spines. Ancestrula ( Figure 9F View Figure 9 ) buds triplet of small zooids distally and distolaterally; eventually surrounded by seven zooids.
Remarks
Cauloramphus cryptoarmatus View in CoL resembles eastern-Pacific C. variegatus ( Hincks, 1881) View in CoL and C. tortilis Dick et al., 2005 View in CoL and Korean C. korensis Seo, 2001 View in CoL in having closely appressed zooids with a broad, cryptocystal mural rim uniformly covered with coarse granules. However, in C. variegatus View in CoL , the bases of the spines are yellowish brown to black in colour ( Dick and Ross 1988), and their number, shape, and arrangement are different: there are three pairs of blunt, cylindrical distal spines and two to six much finer, acuminate proximal spines curved over the opesia, with the tips often converging near the midline. Cauloramphus tortilis View in CoL has more and longer spines (9–15 heavy, elongate spines, with strong bases conspicuous after bleaching), and the pedunculate avicularia are as long as the longest spines, with a peduncle that is twisted around the spine near which it originates. Cauloramphus korensis View in CoL is similar in having a coarsely granulated cryptocyst widest proximally ( Seo 2001). However, C. korensis View in CoL has dark spines that are brown or violet in colour, fewer total spines (five to nine) and fewer orificial spines (one to three), and the proximalmost opesial spines originating close to the edge of the opesia (see Seo 2001, Figure 1A View Figure 1 ) rather than at the zooidal margin. Furthermore, the pedunculate avicularium of C. korensis View in CoL is quite curved in the rostral direction, whereas that of C. cryptoarmatus View in CoL is fusiform. Finally, the kenozooidal ooecium of C. korensis View in CoL is larger and more conspicuous than that of C. cryptoarmatus View in CoL . The non-pedunculate marginal avicularia observed in some colonies of C. cryptoarmatus View in CoL have not been reported in the other species just mentioned.
Distribution
Cauloramphus cryptoarmatus is presently known only from Akkeshi Bay.
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.
Kingdom |
|
Phylum |
|
Class |
|
Order |
|
Family |
|
Genus |
Cauloramphus cryptoarmatus
Grischenko, Andrei V., Dick, Matthew H. & Mawatari, Shunsuke F. 2007 |
Cauloramphus cryptoarmatus
Grischenko & Dick & Mawatari 2007 |
C. cryptoarmatus
Grischenko & Dick & Mawatari 2007 |
C. cryptoarmatus
Grischenko & Dick & Mawatari 2007 |
C. cryptoarmatus
Grischenko & Dick & Mawatari 2007 |
C. tortilis
Dick 2005 |
C. korensis
Seo 2001 |
Cauloramphus korensis
Seo 2001 |
C. korensis
Seo 2001 |
C. korensis
Seo 2001 |
C. korensis
Seo 2001 |