First occurrence of the genus Paraleucilla (Calcarea, Porifera) in the Atlantic Ocean: P. m a g n a sp. nov.
Author
Klautau, Michelle
Author
Monteiro, Leandro
Author
Borojevic, Radovan
text
Zootaxa
2004
710
1
8
journal article
10.5281/zenodo.158320
b5ddc14a-dd55-4084-95d5-c202d3daedb8
11755326
158320
D4F1AAF4-D882-4D1B-A4ED-71B158B32FEF
Paraleucilla magna
sp. nov.
INSTITUTIONAL ABBREVIATION — MNRJ (Museu Nacional do Rio de Janeiro,
Brazil
).
TYPE
MATERIAL —
MNRJ
5147 (
holotype
/ alcohol). Praia Vermelha, Rio de Janeiro,
Brazil
. Collected by E. Hajdu (
11 / December / 2001
),
4 to 5 m
depth. ETYMOLOGY — From the Latin
magna
: “large”.
MATERIAL EXAMINED —
MNRJ
3921,
MNRJ
5186 (
paratypes
, Comprida Island, Cagarras Archipelago, collected by G. Muricy and L. Monteiro,
6 to 12 m
depth);
MNRJ
3814,
MNRJ
3830,
MNRJ
5163,
MNRJ
5165,
MNRJ
5181,
MNRJ
5368,
MNRJ
5510,
MNRJ
5577,
MNRJ
5577,
MNRJ
5580 (Palmas Island, Cagarras Archipelago, collected by E. Hajdu, G. Muricy and L. Monteiro,
6 to 20 m
depth);
MNRJ
3873 (Laje das Cagarras, Cagarras Archipelago, collected by L. Monteiro,
6 to 12 m
depth);
MNRJ
7427;
MNRJ
7430;
MNRJ
7469 (Praia dos Anjos, Arraial do Cabo, collected by G. Muricy,
2 to 8 m
depth);
MNRJ
5831,
MNRJ
5844 (Alcatrazes Archipelago, collected by U. Pinheiro and M. Carvalho,
16 m
depth).
KNOWN
DISTRIBUTION — Praia Vermelha, Urca, Cagarras Archipelago, Arraial do Cabo (Rio de Janeiro State); Alcatrazes Archipelago (São Paulo State) —
Brazil
.
TYPE
LOCALITY — Praia Vermelha, Rio de Janeiro,
Brazil
.
FIGURE 2.
External morphology of
Paraleucilla magna
sp. nov.
A — Sponge
in situ
; B — Preserved holotype; C — Detail of osculum and atrial cavity of holotype.
DESCRIPTION —The
holotype
is a massive specimen (more than
12 x 12
x
12 cm
), white in life and in alcohol (
Fig. 2
A and B). The body has folds and oscula are located at the top of apical projections. There is no oscular fringe surrounding them (
Fig. 2
C). Below each osculum there is an atrium to which arrive some few canals. The surface is smooth. The aquiferous system is leuconoid and the choanocyte chambers are spherical, ranging from
56 to
112 m
.
FIGURE 3.
Internal morphology of
Paraleucilla magna
sp. nov.
A — Cross section with disorganized layer; B–H holotype: B — Cross section without disorganized layer; C — Tangential section of cortex (tr — cortical triactines, te — tetractines); D — Cortical triactines; E — Cortical tetractine; F — Subatrial tetractine; G — Subatrial triactine; H — Atrial triactine.
The skeleton is typical of the genus, being inarticulate near the surface (outer region) and without organization below the subatrial skeleton (inner region). The subatrial skeleton is not adjacent to the atrial skeleton, but it is followed by scattered large tetractines and some triactines similar to those of the subatrial skeleton (
Fig. 3
A). If the body wall is thin, the skeleton is only inarticulate (
Fig. 3
B). This condition can be observed in younger specimens or in younger (apical) parts of the sponge.
The cortical skeleton is composed of triactines and tetractines (
Fig. 3
C). Triactines are equiangular or, more frequently, sagittal. The size of the triactines is very variable. They lay tangentially to the surface, giving a smooth appearence to the sponge. The tetractines are large and their basal actines are almost equiangular. The apical actine is longer than the basal ones, and cross the choanosome. It runs parallel to the apical actine of the subatrial tetractines or, less frequently, to the unpaired actine of the triactines. While the apical actine of the cortical tetractines points toward the atrium, the apical actine of the subatrial tetractines and the unpaired actine of the subatrial triactines point to the surface.
The atrial skeleton is composed of sagittal triactines, with the unpaired actine shorter than the paired ones and penetrating the choanosome.
SPICULES. Cortical triactines: These spicules can be equiangular, but they are more frequently sagittal. Their size is very variable, and they lay tangentially to the surface. Actines are conical, with sharp tips (
Fig. 3
D).
Cortical tetractines: They are aproximately equiangular. The apical actine is longer than the others, centripetally directed, and it crosses the choanosome, being restricted to the outer layer in regions where the sponge body is thick but reaching nearly the atrium in the thin regions. Actines are straight or sometimes undulated with conical tips (
Fig. 3
E).
Subatrial tetractines and triactines: Differently from the cortical tetractines, the apical actine of the subatrial tetractines is shorter than the basal ones. The unpaired actine crosses the choanosome to the surface and it is shorter than the paired actines. The best way to differentiate this spicule from the cortical tetractines is by the shape of the paired actines (
Fig 3
F). The triactines are similar to them, but the shape of the paired actines is more similar to that of the cortical tetractines (
Fig 3
G). The unpaired actine also points to the surface, but it is frequently longer than the paired actines. Actines are slightly undulated, conical and sharp at the tips. These spicules are the same that compose the inner region.
Atrial triactines: These spicules are sagittal and have the unpaired actine shorter than the paired ones. Actines are conical, sharp, and frequently strongly undulated (
Fig. 3
H).
The micrometry of the
holotype
is presented in
Table 1
, and the micrometry of a
paratype
(MNRJ 3921) is presented in
Table 2
.
ECOLOGY —
P. magna
sp. nov.
is the most abundant calcareous sponge in Rio de Janeiro State. The specimens are always attached to hard substrate, even when it is found on sand area. They live in photophylous and shaded environments, and were found from 0.5 to 20 meters depth. It seems to be resistant to pollution, having been found in clean waters but also in areas under strong influence of anthropic activities.
TABLE 1
: Measurements of the spicules of the holotype (MNRJ 5147).
Length (m) Width (m)
Spicule Actines min mean max mean n
Cortical triactines Paired 168.0 292.8 71.2 408.0 24.0 4.8 30 Unpaired 176.0 289.6 75.2 424.0 24.0 5.6 30 Cortical tetractines Basal 224.0 434.4 89.6 568.0 34.4 7.2 30 Apical 184.0 468.8 104.0 640.0 31.2 5.6 30 Subatrial tetractines Paired 200.0 394.4 87.2 576.0 33.6 5.6 30 Unpaired 208.0 338.4 63.2 456.0 31.2 5.6 30 Subatrial triactines Paired 144.0 266.4 76.8 440.0 24.0 7.2 25 Unpaired 248.0 358.4 66.4 496.0 25.6 6.4 25 Atrial triactines Paired actines 240.0 371.2 53.6 456.0 22.4 4.0 30 Unpaired actines 80.0 164.0 48.8 328.0 21.6 3.2 30 Length (m) Width (m)
TABLE 2
: Measurements of the spicules of a paratype (MNRJ 3921).
Spicule Actines min mean max mean n
Cortical triactines Paired 130.0 254.7 63.2 385.0 15.8 2.8 30
Unpaired 135.0 216.7 63.6 390.0 15.0 2.7 30 Cortical tetractines Basal 230.0 396.7 92.1 620.0 33.2 6.6 30 Apical 330.0 524.0 124.6 800.0 34.7 7.2 30 Subatrial tetractines Paired 290.0 381.3 57.8 500.0 32.0 4.8 30 Unpaired 200.0 300.7 62.9 420.0 31.3 5.2 30 Subatrial triactines Paired 210.0 297.1 93.0 450.0 22.1 6.8 30 Unpaired 180.0 330.0 114.8 600.0 22.2 6.9 30 Atrial triactines Paired 175.0 281.8 50.8 400.0 15.3 2.4 30 Unpaired 65.0 94.7 20.6 140.0 14.8 2.3 30 This species has a strong seasonality, being more abundant in summer and disappearing during autumn, to reappear as small individuals in winter. Several organisms were found associated to this species, such as: crustaceans, echinoderms and polychaetes. Starfishes of the species
Echinaster brasiliensis
(Müller & Troschel)
were seen eating specimens of this species.
REMARKS — Of the 5 recognized species of
Paraleucilla
, only
P. c u c u m i s
, the
type
species of the genus, could be mistaken for our species. The known distribution of
P. cucumis
is
Australia
(Gulf of
Saint Vincent
and Bass Strait) and
Sri Lanka
(Palk Strait) (
Burton 1963
). It is the only described
Paraleucilla
with triactines composing the atrial skeleton, all the other species having tetractines.
P. magna
sp. nov.
, however, can be easily differentiated from
P. c u c u m i s
by the form of the body, the absence of giant diactines at the surface, and by the presence of tetractines instead of just triactines in the cortical skeleton.
Until now the distribution of the genus
Paraleucilla
was restricted to the Indian Ocean and the Red Sea.
Paraleucilla magna
sp. nov
.
extends the distribution of the genus to the Atlantic Ocean. This species was first seen in
Brazil
(Rio de Janeiro) in the beginning of nineties, and since then it became the most abundant calcareous sponge, being in some places even the dominant sponge.