Triphyllozoon microstigmatum Silén, 1954

Triphyllozoon microstigmatum Silén, 1954 View in CoL

( Fig. 40 View FIGURE 40 ; Table 35)

Triphyllozoon microstigmatum Silén, 1954: 26 View in CoL , fig. 11, pl. 2, fig. 8.

Material examined. Holotype by monotypy LUZM 53 , off north of Cottesloe , Western Australia; depth 11–22 m. Leg. Prof. T. Gislén, Australia Expedition 1951–1952, collected 19.2.1952.

Description. Colony erect, rigid, reticulate; holotype specimen 5 cm high and 2.2 × 1.2 cm in diameter ( Fig. 40A View FIGURE 40 ), arched and tubular with the autozooidal openings on the inside; fenestrae oval ( Fig. 40C, J View FIGURE 40 ), 0.65–1.00 × 0.40–0.60 mm, and trabeculae consisting of 2–7 alternating autozooidal series, more commonly 3–5 ( Fig. 40C, H View FIGURE 40 ).

Autozooids rectangular to hexagonal, longer than wide (mean L/ W 1.60), distinct with boundaries marked by raised margins of smooth calcification ( Fig. 40C–E View FIGURE 40 ); frontal shield tubercular, flat to slightly convex, imperforate except for a few sparse, round, elliptical or slit-like pores along the lateral and proximal margins, 12–40 µm in diameter/length ( Fig. 40C–E, H View FIGURE 40 ).

Peristome deep, forming a raised collar around the orifice and a shallow (15–25 µm), narrow (10–15 µm), median U-shaped pseudosinus proximally ( Fig. 40D, F View FIGURE 40 ) that extends as a channel ( Fig. 40I View FIGURE 40 ) towards the operculum on one side of a short and square median process ( Fig. 40E, H View FIGURE 40 ); peristomial avicularium and oral spines absent; secondary orifice subcircular, cormidial, produced by two or three autozooids.

A medium-sized, adventitious, frontal avicularium on almost every zooid (exceptionally two), mainly two types recognizable: type (1) round avicularia (mean L/ W 1.02) with raised, finely denticulate rostrum and semicircular mandible ( Fig. 40E View FIGURE 40 , see white arrows); type (2) parallel-sided elliptical (mean L/ W 1.52) and flat avicularia with semielliptical mandible ( Fig. 40E View FIGURE 40 , see black arrows). Both types of frontal avicularia placed either proximally, in line with the zooidal axis and directed proximally or proximolaterally, or placed laterally at about zooidal mid-length and directed laterally; both types with mandibles as long as the rostra. Rarely, a type (3) larger avicularium, 185 µm long by 80 µm wide, placed on the frontal of zooids adjacent to the fenestrae, with bicuspid rostrum directed distally, and triangular mandible exceeding the length of the rostrum (mandible length 180 µm; rostrum length 125 µm) hooked at the tip ( Fig. 40F, G View FIGURE 40 ). On the dorsal side two types of avicularia: type (4) medium-sized pear-shaped avicularia (mean L/ W 1.73) randomly directed with semielliptical mandible ( Fig. 40L, M View FIGURE 40 ), and type (5) circular avicularia (mean L/ W 1.03) protruding from the edge of fenestrae ( Fig. 40K View FIGURE 40 ). All avicularia with complete crossbar.

Ovicell hyperstomial, prominent; ooecium slightly wider than long (mean L/ W 0.81), tubercular as the frontal shield, with dentate suture highly variable in shape from trifoliate and Y-shaped to bifoliate shaped as a horizontally flipped L ( Fig. 40I View FIGURE 40 ) or with the single lateral lobe down curved ( Fig. 40H View FIGURE 40 ); median suture 70–90 µm long. Labellum short and square.

Dorsal side coarsely granular (granules diameter 10–20 µm), with vertical and oblique vibices (10–15 µm wide), outlining irregularly polygonal sectors, and usually two avicularia as described above per sector at the two opposite corners, commonly adjacent to or protruding from edge of the fenestrae ( Fig. 40J–M View FIGURE 40 ).

Remarks. Silén (1954) identified the dorsal, circular avicularia protruding from the edges of numerous fenestrae ( Fig. 40J View FIGURE 40 , see arrows) as hydroid tube openings. He attributed these structures to Zanclea protecta based on their similarity with those made by this hydroid in other species of Triphyllozoon ( Harmer 1934) . Although, it is wellknown that the bryozoan skeletal material offers protection to these hydroids (e.g. McKinney 2009; Hirose & Hirose 2012), SEM observations of crossbars ( Fig. 40K View FIGURE 40 ) prove that these structures are authentic avicularia.