Diplopodospongia teliformis, Sim-Smith, Carina & Kelly, Michelle, 2011

Sim-Smith, Carina & Kelly, Michelle, 2011, Two new genera in the family Podospongiidae (Demospongiae: Poecilosclerida) with eight new Western Pacific species, Zootaxa 2976, pp. 32-54 : 47-48

publication ID

https://doi.org/ 10.5281/zenodo.200731

DOI

https://doi.org/10.5281/zenodo.6194143

persistent identifier

https://treatment.plazi.org/id/F11287F0-1A10-C227-0BB6-172F9578FD16

treatment provided by

Plazi

scientific name

Diplopodospongia teliformis
status

gen. nov.

Diplopodospongia teliformis View in CoL gen. nov. sp. nov.

( Fig. 1 View FIGURE 1 F, 2D, 5E–K)

Material examined. Holotype ― NIWA 35005, RV Sonne Stn SO191-2/87, Hikurangi Channel, Gisborne, 40.053° S, 177.735° E, 1106 m, 12 Feb 2007. Paratypes ― NIWA 32070, 32056, RV Sonne Stn SO191-2/87, Hikurangi Channel, Gisborne, 40.053° S, 177.735° E, 1106 m, 12 Feb 2007; NIWA 52976, NIWA Stn TAN0616/79, Wairarapa/Opouawe Bank, Cook Strait, 41.783° S, 175.400° E, 1040–1053 m, 13 Nov 2006.

Type location. Hikurangi Channel, Gisborne.

Distribution. SE North Island, from Gisborne to Cook Strait.

Description. Thinly encrusting sponge growing on rock ( Fig. 1 View FIGURE 1 F). Surface smooth to the touch, texture leathery, ectosome wrinkled. No visible oscules. Colour in ethanol tan.

Skeleton. The ectosome consists of a dense layer of diplospinorhabds. The choanosomal skeleton consists of thick tracts of oxeas that rise vertically from the base of the sponge and radiate into brushes of spicules near the ectosome. Spinorhabds are moderately densely scattered throughout the choanosome ( Fig. 2 View FIGURE 2 D).

Megascleres ( Fig. 5 View FIGURE 5 E, Table 3)― Anisoxeas, straight, centrally thickened, polytylote; 357 (338–389) x 8 (6–9) µm.

Microscleres ( Fig. 5 View FIGURE 5 F–K, Table 3)― Diplospinorhabd I ( Fig. 5 View FIGURE 5 F–H), generally symmetrical with a smooth forked spine at either end of the shaft. A whorl of four smooth, forked spines is located near each end of the shaft, separated by a very short shaft length. The immature spinorhabd is a straight, slender version of the mature spinorhabd ( Fig. 5 View FIGURE 5 H); 29 (26–36) µm long x 21 (19–26) µm wide. Diplospinorhabd II ( Fig. 5 View FIGURE 5 I–K, Table 3)―Asymmetrical, elongate, torpedo-shaped spicules that have several smooth spines at either end of the shaft, and are less abundant than diplospinorhabd I. A number of smooth, forked spicules may also protrude from the centre of the shaft; 42 (36–48) µm long with a shaft width of 9 (7–11) µm.

Substrate, depth range, and ecology. Encrusting in small patches on boulders between 1040 and 1106 m.

Etymology. Named for the shape of the diplospinorhabds, which take the shape of a missile in this species ( teliformis , from telum = Latin for missile).

Remarks. The key difference between Diplopodospongia teliformis gen. nov. sp. nov., D. rara gen. nov. sp. nov., and D. macquariensis gen. nov. sp. nov. is the presence of two categories of microscleres in D. teliformis gen. nov. sp. nov., one of which is missile-shaped ( Fig. 5 View FIGURE 5 I–K). Both categories of diplospinorhabds have a characteristic single bifurcate apical and basal spine. The megascleres are centrally thickened, polytylote, and quite uniform, especially compared to D. rara gen. nov. sp. nov., and they are shorter than those of D. macquariensis gen. nov. sp. nov., and longer than those of D. rara gen. nov. sp. nov. . This is the deepest species, found deeper than 1100 m within the Hikurangi Channel.

NIWA

National Institute of Water and Atmospheric Research

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