Polymastiidae and Suberitidae (Porifera: Demospongiae: Hadromerida) of the deep Weddell Sea, Antarctic *
Author
Plotkin, Alexander S.
Author
Janussen, Dorte
text
Zootaxa
2008
1866
95
135
journal article
10.5281/zenodo.183878
810a9086-292c-4ca4-8075-91312cfac96e
11755326
183878
Genus
Tentorium
Schmidt, 1870
Diagnosis (emended from
BouryEsnault 2002
):
Sponges are columnar or globular, protected by a dense cylindrical sheath of longitudinally placed principal spicules which form a solid imperforate layer. The cortical skeleton contains bundles of smaller spicules arranged in a palisade and is limited to the upper surface of the cylinder. Ostia are present on the upper surface. The oscula are at the tops of small papillae located on the upper surface. Spicules are subtylostyles and tylostyles.
Type
species:
Thecophora semisuberites
Schmidt, 1870
(by original designation).
Tentorium papillatum
(
Kirkpatrick, 1908
)
(
Figs. 10–11
)
Synonymy
Suberites caminatus var
. papillatus—
Kirkpatrick 1908
: 20
–21, pl. XV (16), pl. XVI (11–14).
Suberites
papillatus—
Burton 1929
: 445
; 1932: 336.
Suberites
caminatus—
Koltun 1964
(partly): 25, pl. IV (15–18).
Tentorium
caminatus—
Koltun 1976
(partly): 168.
Tentorium papillatum
—
Topsent 1917
: 36
, pl. IV(2); BouryEsnault and van
Beveren, 1982
: 38
–39, pl. V(17–18), figs. 8c, d, e.
Material examined
SMF
10571 (
7 specimens
): PS67/0747.
Description
External morphology.
Sponges are mostly hemispherical or rarely more pillarlike, detached from substrata (figs. 10A, B). Their diameter may reach
16 mm
. Surface is smooth or slightly granulated. From 1 to 4 exhalant papillae and numerous small protuberances are located on the upper surface whereas the lateral surface lacks these structures. The papillae measure
2.5–8 mm
in height and
1.5–2.3 mm
in diameter. They are cylindrical or slightly conical, getting thinner at the summit, where oscula of
0.5–2 mm
in diameter are opened. Ostia are located exclusively at the tips of the small protuberances. The colour of the papillae, protuberances and the surface between them is more or less the same pale beige to whitish. Occasionally slight sediment dust makes the surface more greyish. The cortex is hardly detachable, nearly white in colour, rather dense and resilient in consistency. The choanosome is of similar colour, less dense but not very crumbly.
Skeleton.
The choanosomal skeleton is constituted by the longitudinal tracts of principal spicules (fig. 10C). These tracts, initially measuring 150–220 µm in thickness, rise from the sponge base and branch into 2– 3 thinner tracts, which enter the cortex within the protuberances and diverge into bouquets. The cortical bouquets do not penetrate the surface which is therefore smooth. The cortex, measuring 420–440 µm in thickness, consists of a single palisade of small tylostyles (fig. 10D). This palisade is more or less regular over the whole surface. Within the protuberances it is intermingled with the principal bouquets and split by ostia. The palisade also continues to the lateral cortex, where the tylostyles do not change their polarity, staying perpendicular to the upper surface and tangentially to the lateral one. Skeleton of papillae is constituted by the ascending choanosomal tracts.
Spicules.
Altogether 133 spicules from
2 specimens
were measured. Two size categories are well marked (fig. 11A). The number of measured spicules of each category is given below, separately for each specimen (
n1, n2
).
Principal spicules are styles or subtylostyles with slightly subterminal, oval tyles which are only feebly developed (fig. 11B). They are usually straight, slender and slightly fusiform. Their dimensions are: length 814
1068
1743 µm, tyle diameter 812.918 µm, proximal diameter 512.219 µm, central maximal diameter 1117.222 µm (
n1=30, n2=20
). Small tylostyles are usually straight, rather fusiform, with welldeveloped terminal spherical tyles (fig. 11C). They measure: length 145348671 µm, tyle diameter 612.918, proximal diameter 38.714 µm, central maximal diameter 515.026 µm (
n=30, n2=53
).
Type
locality:
Antarctic
: Pacific sector: to the West of Balleny Islands,
462 m
.
Distribution.
Antarctic
nearcontinent sectors (
Koltun 1964
;
Sarà
et al.
1992
): N 5 including the Western Ross Sea and NN 8–9 including the Weddell Sea (present study as well). Depth:
90–1080 m
(
Koltun 1964
); ca.
1050 m
in the NE Weddell Sea (present study).
SW Atlantic:
South Georgia
(
Koltun 1964
;
Sarà
et al.
1992
).
Southern Indian Ocean: Kerguelen,
177–315 m
(BouryEsnault & van
Beveren 1982
).
FIGURE 10.
Tentorium papillatum
: external morphology and skeleton architecture. A–B–specimens from series SMF 10571. C–histological section of the specimen showed on A, general view. D–the same as C, detail of cortex. Scale bars: A–B 5 mm; C 1 mm; D 0.1 mm.
Remarks
The classification of
Tentorium papillatum
has been a matter of considerable debate. In 1886 Ridley and Dendy established a new species
Suberites caminatus
. A year latter they erected a new species,
S. microstomus
Ridley & Dendy, 1887
, out of one
syntype
of
S. caminatus
.
Kirkpatrick (1908)
established new varieties for the species of Ridley and Dendy,
S. caminatus var. papillatus
differing from the typical morphs by the locality of ostia exclusively on the tops of small surface raisings and
S. microstomus var. stellatus
differing from the typical morphs by the stellate shape of the surface ostial areas and by the thicker and denser cortical tylostyles.
Topsent (1917)
raised the variety
papillatus
to species level and placed it in
Tentorium
, as
T. papillatum
.
Burton (1929)
agreed with validity of this species but kept it in
Suberites
, as
S. papillatus
.
Koltun (1964)
synonymized
S. papillatus
with
S. caminatus
and
S. microstomus
and gave the name of the senior synonym,
S. caminatus
. Llater he transferred
caminatus
to
Tentorium
without any comments (
Koltun 1976
). BouryEsnault and van
Beveren (1982)
advocated the validity of
S. microstomus
and also followed
Topsent (1917)
, maintaining
papillatus
in
Tentorium
.
Herein, we follow Topsent and BouryEsnault & van Beveren considering
papillatum
a valid species of
Tentorium
; its regular radial skeleton and presence of papillae do not correspond with the accepted definition of
Suberites
(see van
Soest 2002
). Furthermore, the location of exhalant papillae and ostia exclusively on the upper surface, the singlelayered cortex and only two tylostyle categories are typical of
Tentorium
. Nevertheless,
T. papillatum
considerably differs from the
type
species,
T. semisuberites
,
and also from the recently described
T. levantinum
Ilan, Gugel, Galil & Janussen,
2003
in lacking a dense, solid, lateral sheath made of principal spicules placed longitudinally. Thus, the taxonomic position of
T. papillatum
remains uncertain.