Tardigrades from northwestern Patagonia (Neuquén Province, Argentina) with the description of three new species
Author
Rossi, Gustavo
Author
Claps, Maria
Author
Ardohain, Diego
text
Zootaxa
2009
2095
21
36
journal article
10.5281/zenodo.187610
8eba3231-5de0-43d1-a9ee-8521599f568f
1175-5326
187610
Macrobiotus neuquensis
sp. nov.
Figs. 1–2
Material examined:
The
holotype
and the
paratypes
are from moss samples on soil and rock collected in Hua Hum, Junín de los Andes, at
ca
.
700 m
asl (
40°07’S
71°39’ W
), and from mosses on soil and lichen on a tree near Rucachoroi Lake, Aluminé, at
ca
.
900 m
asl (
39°12’ S
,
70°55’ W
), collected in December, 2004.
Type
repository:
The
holotype
(slide N° Nq. 6.6) is preserved at the Museum of La Plata (La Plata University). The
paratypes
are preserved in the collection of G. Rossi and M. C. Claps.
Specific diagnosis:
Macrobiotus
with an oral-cavity armature of the
harmsworthi
type
, three macroplacoids, and one microplacoid; with eye spots, cuticle smooth, legs without granulation, claws of the
hufelandi
type
, lunules smooth on all legs, the presence of a cuticular bar on the first three pairs of legs, and a refractile zone. These structures are less visible on the fourth pair of legs. The eggs have conical processes with reticular sculpture, all of them in contact with each other. The chorion is invisible.
FIGURE 1.
Macrobiotus neuquensis
sp. nov.
A, habitus; B, buccopharyngeal apparatus.
Description of the
holotype
:
The body length is 503.4 µm. The body (
Fig. 1
A) is transparent (white) with eyes in anterior position (
Fig. 2
A). The cuticle is smooth, without pores or pearls. The mouth is anterior and surrounded by a ring of 10 peribuccal lamellae. The oral-cavity armature is of the
harmsworthi
type
. The teeth of the anterior band—or first band according to the
Michalczyk and Kaczmarek (2003)
terminology—are smaller, within the anterior border, and are in contact with the lamellae. The posterior band of teeth in the shape of a crown (second band) consists of conical teeth with granules in the posterior portion. The transverse ridges (third band) are small, while the laterals have a smooth margin. The buccal tube is 52 µm long and 10 µm wide (
pt
= 19.2) (
Figs. 1
B, 2A). Stylet supports are inserted on the buccal tube at 38 µm (
pt
= 73). The pharyngeal bulb is oval with distinct, triangular apophyses, three macroplacoids, and a microplacoid. The first macroplacoid is wider in the middle section, its length being 9.3 µm (
pt
= 17.8); the second, more pyramidal, is 8.2 µm long (
pt
= 15.7); the third is 10.2 µm long (
pt
= 19.6) and with a structurally different constriction in its terminal part. The microplacoid is 6 µm long (
pt
= 11.5) and separate from the third macroplacoid. The macroplacoid row is 28 µm long (
pt
= 53.8;
Figs. 1
B, 2A). The claws are of the
hufelandi
type
, having primary branches with distinct accessory points (
Fig. 2
B). The lunules are smooth on all legs (
Fig. 2
C). Between the lunules and the refractile zone of the first three pairs of legs there is a cuticular bar (
Fig. 2
B), only visible under phase contrast or by DIC and not detected on the fourth pair of legs. On the first pair of legs, the primary branch has a basal portion and measures 12 µm (
pt =
23.0), while the secondary branch is 10.5 µm long (
pt =
20.1). On the second pair of legs, the primary and secondary branches are 12 (
pt =
23.0) and 10 µm (
pt =
19.2), respectively. On the third and fourth pair of legs, these branches measure 11 (
pt =
21.1) and 8 µm (
pt =
15.3) and 11 (
pt =
21.12) and 9 µm (
pt =
17.3), respectively.
The eggs, laid freely, are spherical and contain conical processes having a truncated apex (
Fig. 2
D). The processes, 9–12 around the circumference, have a 10–25 µm diameter at their base (
Fig. 2
F). The surface of the processes contains dense and uniform reticular sculpture with isodiametric meshes (
Fig. 2
E). The bases of the processes are in contact, and the union with the shell is by either connecting cords or a continuation of the sculpture itself, for this reason the shell is not visible (
Fig. 2
F). The processes are 7–15 µm height. We found one egg with an embryo (
Table 2
), thus allowing us to confirm that the eggs are without a doubt from
M. neuquensis
sp. nov.
(
Fig. 2
D).
FIGURE 2.
Macrobiotus neuquensis
sp. nov.
A, buccopharyngeal apparatus; B, detail of claws showing cuticular bars; C, detail of claws showing lunules and accessory points; D, egg with embryo; E, detail of egg processes; F, detail of egg sculpture, showing the bases of the processes in contact.
TABLE 2.
Measurements [in µm] and
pt
values of selected morphological structures of the holotype and mean values of other measured specimens (n = 23) of
Macrobiotus neuquensis
sp. nov
.
(minimum and maximum refers to the smallest and the largest structure found among all measured specimens; SD, standard deviation).
| Body length |
Holotype 503.4 |
Mean 437.5 |
S. D. 92.2 |
Minimum 285.0 |
Maximum 570.4 |
Embryonaded egg |
| Buccal tube length |
52.0 |
50.2 |
10.6 |
37.1 |
69.4 |
32.0 |
| Buccal tube width pt |
10.0 19.2 |
9.5 19.3 |
1.7 3.2 |
7 15.1 |
12.4 26.7 |
4.8 15.5 |
| Stylet supports insertion |
38.0 |
38.5 |
8.0 |
28.7 |
52.0 |
25.0 |
| pt Entire placoid row |
73.0 34.0 |
76.8 32.2 |
2.1 8.2 |
73.1 22.3 |
79.5 44.8 |
78.1 15.5 |
| pt |
65.3 |
64.0 |
4.1 |
57.6 |
70.2 |
50.0 |
| Macroplacoid row pt |
28.0 53.8 |
25.1 49.7 |
6.8 3.8 |
16.8 44.7 |
34.7 56.0 |
12.2 39.4 |
| Macroplacoid 1 |
9.3 |
8.0 |
1.9 |
4.9 |
10.4 |
3.3 |
| pt Macroplacoid 2 |
17.8 8.2 |
15.9 6.5 |
2.0 1.6 |
13.2 4.9 |
19.1 9.1 |
10.6 3.0 |
| pt |
15.7 |
13.1 |
1.7 |
10.4 |
15.8 |
9.7 |
| Macroplacoid 3 pt |
10.2 19.6 |
8.5 17.2 |
1.8 1.8 |
5.9 15.0 |
11.1 20.4 |
3.3 10.6 |
| Microplacoid |
6.0 |
4.9 |
1.5 |
2.7 |
7.4 |
1.8 |
| pt Claw 1 primary branch |
11.5 12.0 |
9.8 13. |
1.8 4.4 |
7.0 8.5 |
11.5 19.8 |
5.8 |
| pt |
23 |
27.8 |
3.2 |
21.2 |
29.8 |
| Claw 1 secondary branch pt |
10.5 20.1 |
10.9 20.0 |
3.5 3.1 |
6.0 16.2 |
17.3 24.9 |
| Claw 2 primary branch |
12.0 |
13.7 |
5.0 |
8.0 |
22.3 |
| pt Claw 2 secondary branch |
23.0 10.0 |
25.0 10.9 |
4.1 3.6 |
21.2 6.5 |
32.1 17.3 |
| pt |
19.2 |
20.1 |
2.8 |
17.3 |
24.9 |
| Claw 3 primary branch pt |
11.0 21.1 |
13.6 24.4 |
4.8 3.6 |
8.0 20.5 |
19.8 29.8 |
| Claw 3 secondary branch |
8.0 |
11.2 |
3.8 |
7.0 |
17.3 |
| pt Claw 4 primary branch |
15.3 11.0 |
20.6 15.1 |
3.1 5.0 |
15.4 9.0 |
24.9 24.8 |
| pt |
21.1 |
32.0 |
13.2 |
21.2 |
67.1 |
| Claw 4 secondary branch pt |
9.0 17.3 |
11.6 21.1 |
3.8 3.1 |
7.0 17.3 |
17.3 26.1 |
| Pharyngeal bulb length |
65.2 |
65.7 |
4.3 |
62.0 |
69.4 |
| Pharyngeal bulb width |
52.8 |
53.1 |
1.3 |
52.0 |
54.5 |
Etymology:
The name
neuquensis
refers to the province that includes the
locus typicus
of this new species.
Differential diagnosis:
Macrobiotus neuquensis
sp. nov.
belongs to the
harmsworthi
group, whose species exhibit the following characteristics in common: three macroplacoids in the form of an arch, a microplacoid in the pharyngeal bulb, plus a cuticle without pores. The presence of the cuticular bar and a refractile zone in the legs along with the eggs having conical processes in contact with one another are the principal characteristics differentiating
M. neuquensis
sp. nov.
from the other species of the group.
This new species is similar to
Macrobiotus chieregoi
Maucci & Durante 1980
, but differs from the latter by having eyes and a wider buccal tube. In addition, the processes of the eggs of
M. neuquensis
sp. nov.
are shorter than those of
M. chieregoi
.
Macrobiotus neuquensis
sp. nov.
differs from
Macrobiotus krynauwi
Dastych & Harris
1995
in having a smooth cuticle without pearls, a longer and wider buccal tube, bigger macroplacoids, and smaller claws.
Macrobiotus neuquensis
sp. nov.
also differs from
Macrobiotus blocki
Dastych 1984
and
Macrobiotus ovostriatus
Pilato & Patané 1998
with respect to the characteristics of the eggs (
Table 3
).
Macrobiotus neuquensis
sp. nov.
is furthermore unlike
Macrobiotus reinhardti
Michalczyk & Kaczmarek
2003
in having a shorter third macroplacoid, a wider buccal tube, and longer processes on the eggs, among other morphological features.
Remarks:
Measurements and
pt
values of selected morphological structures for all specimens are presented in
Table 2
.
TABLE 3.
Egg characteristics of
Macrobiotus neuquensis
sp. nov.
compared with those mentioned for similar species.
M. neuquensis
M. coronatus
M. harmsworthi
M. simulans
M. blocki
M. ovostriatus
M. krynauwi
sp. nov.
Diameter 87–94 42–55 69–84 43–82 70–90 64–70 98–115 without
processes