Integrative description of five Pseudechiniscus species (Heterotardigrada Echiniscidae: the suillus-facettalis complex)
Author
Roszkowska, Milena
Department of Bioenergetics, Faculty of Biology, Adam Mickiewicz University, Poznań, Uniwersytetu Poznańskiego 6, 61 - 614 Poznań, Poland. Department of Animal Taxonomy and Ecology, Faculty of Biology, Adam Mickiewicz University, Poznań, Uniwersytetu Poznańskiego 6, 61 - 614 Poznań, Poland
mil.roszkowska@gmail.com
Author
Grobys, Daria
Department of Bioenergetics, Faculty of Biology, Adam Mickiewicz University, Poznań, Uniwersytetu Poznańskiego 6, 61 - 614 Poznań, Poland
Author
Bartylak, Tomasz
Author
Gawlak, Magdalena
The Institute of Plant Protectio-National Research Institute, Wegorka 20, 60 - 318 Poznan, Poland
Author
Kmita, Han- Na
Department of Bioenergetics, Faculty of Biology, Adam Mickiewicz University, Poznań, Uniwersytetu Poznańskiego 6, 61 - 614 Poznań, Poland
Author
Kepel, Andrzej
Polish Society for Nature Conservation " Salamandra ", Stolarska 7 / 3, 60 - 788 Poznan, Poland
Author
Kepel, Marta
Polish Society for Nature Conservation " Salamandra ", Stolarska 7 / 3, 60 - 788 Poznan, Poland
Author
Parnikoza, Ivan
National Antartic Scientific Center of Ukraine, Boulevard Tarasa Shevchenka 16, 01601 Kyiv, Ukraine. Institute of Molecular Biology and Genetics of National Academy of Science of Ukraine, Kyiv, Ukraine
Author
Kaczmarek, Łukasz
Department of Animal Taxonomy and Ecology, Faculty of Biology, Adam Mickiewicz University, Poznań, Uniwersytetu Poznańskiego 6, 61 - 614 Poznań, Poland
text
Zootaxa
2020
2020-04-15
4763
4
451
484
journal article
22886
10.11646/zootaxa.4763.4.1
4ef09580-992d-4f9f-b9d1-ee4c4eef41ad
1175-5334
3762014
urn:lsid:zoobank.org:pub:0DE45665-F3A9-474B-B438-1022FABB6BD1
1.
Pseudechiniscus ehrenbergi
sp. nov.
Roszkowska, Grobys, Bartylak & Kaczmarek
(
Tables 1–2
,
Figs 1–4
)
Pseudechiniscus
sp. 1 (
Grobys
et al.
2020
)
Pseudechiniscus
aff.
suillus
[Ca6]
MONGOLIA
C
2595-V06
(
Cesari
et al.
2020
)
Material examined:
35 animals (
holotype
(female) and
34 paratypes
(
31 females
,
3 males
)) mounted on microscope slides in Hoyer’s medium, 30 animals prepared for SEM and 5 prepared for barcoding.
Description
Animals (measurements and statistics in
Tables 1
and
2
)
Females.
Body (
Figs 1
,
2
) yellow-orange in living specimens (transparent after mounting on slides), black eyes present after mounting on slides. Apart from the head appendages (cirri
interni
and
externi
and spherical cephalic papillae [secondary clavae]), only lateral cirrus
A
present (with finger-like [primary] clavae near the base) (
Fig. 2B
). Cephalic papillae smaller than clavae.
Dorsal plates with small hemispherical granules/upper ends of cuticular pillars (dots in LM) 0.3–0.8 μm in di- ameter, densely (spaces between granules 0.2–1.1 μm) and uniformly distributed and not joined by striae (
Figs 2A
,
3
A–B). Granules/upper ends of cuticular pillars slightly larger in the centre of the plates.
Dorsal plates typical for the genus
Pseudechiniscus
(cephalic plate (cp), neck plate (np) scapular plate (scp), median plates (m1, m2, m3), paired segmental plates I and II (s1, s2), pseudosegmental plate (psp), and the caudal plate (cap), see also
Dorsal and ventral plates and sculpture
in
Grobys
et al.
(2020))
well developed. The cp with W-shaped pattern divided into five parts. The scp divided by a transversal fold, forming a long narrow stripe in posterior part of the plate. This narrow stripe often divided by three longitudinal folds resulting in four parts/subplates (
Fig. 2A
). Entire scp divided by median longitudinal fold into two parts (
Fig. 2
A–B, empty arrow). Lateral portions of the scp appear detached from the dorsal plate, forming small plate-like structures separated from the scp by a thin bright stripe (
Fig. 3A
, indented arrowhead). Plates m1 and m2 divided in two portions by transverse fold, plate m3 undivided (
Fig. 2
A–B, filled indented arrowheads). Laterally to the median plates, lateral intersegmental plates (lip) present. On the plates s1 and s2 darker stripes (folds in SEM) visible (
Fig. 2
A–B, filled arrows). The psp divided by a longitudinal fold. Posterior margin of psp straight, i.e. without projections, teeth or spines (
Fig. 2
A–B, empty indented arrowheads). The cap concave with two Y-shaped bifurcated ridges (
Fig. 2B
, filled arrowhead). Ventral cuticle with tiny granulation (formed by dense granules/upper ends of cuticular pillars, 0.1–0.4 μm) forming a unique pattern (
Figs 1
,
2
C–D). Ventral patches of granulation present (granulation 0.5–0.6 μm in diameter, spaces between granules 0.5–1.0 μm) with configuration PG:I-II-III-IV-VI-VIII
g
(
Figs 1
,
2
C–D). The female gonopore with the typical six-petal rosette. (
Fig. 2
C–D, asterisks).
The outer cuticle on legs I–III with round patches of granulation (with larger granules but more sparse in the centre and smaller and denser in peripheral parts), on legs IV with uniform wide stripes of granulation (slightly larger in the centre of these stripes) (
Fig. 3
C–D). Triangular spine on leg I absent, instead a small papilla-like structure present, but very hardly visible under LM (
Figs 2D
,
3C
filled arrowheads). Dentate collar on leg IV absent. A finger-like papillae on leg IV present (
Fig. 3D
, filled arrow). External claws of all legs smooth, internal with spurs directed downwards, identical on legs I–IV (
Fig. 3E
).
Males
(
Figs 1
,
4
). Body slenderer than in females. Dorsal plates and body appendages arranged identically like in females. Head appendages clearly longer than in females (compare
Tables 1
and
2
). Dorsal granules/upper ends of cuticular pillars larger than in females (0.4–1.3 μm in diameter), densely (spaces between granules 0.5–1.3 μm) and uniformly distributed, not joined by striae (
Fig. 4
A–C). Ventral pattern (granules/upper ends of cuticular pil- lars, 0.1–0.4 μm) of different shape than in females (
Figs 1
,
4
D–E). Patches of granulation with configuration PG: I-II-III-IV-VI-VIII
a
(granules/upper ends of cuticular pillars, 0.4–0.7 μm) (
Figs 1
,
4
D–E). The gonopore round and without six-petal rosette and with more distinct PG in anterior and lateral parts (
Fig. 4E
). The leg sculpture similar to females but with larger granulation (
Fig. 4F
). Triangular spine on leg I absent, instead a small papilla-like structure present, but very hardly visible under LM (
Fig. 4F
, filled arrowhead).
Juveniles.
Unknown.
Larvae.
Unknown.
TABLE 1.
Measurements [in µm] and
sp
values of selected morphological structures of females of the type population of
Pseudechiniscus ehrenbergi
sp. nov.
Roszkowska, Grobys, Bartylak & Kaczmarek mounted in Hoyer’s medium (N—number of specimens/structures measured, RANGE refers to the smallest and the largest structure among all measured specimens, SD—standard deviation,?—trait oriented unsuitably for measurement,
sp—
ratio of the length of a given structure to the length of the scapular plate (scp) expressed as a percentage (
sp
= length of structure × 100⁄ length scapular plate (scp)).
|
CHARACTER
|
N
|
RANGE
|
MEAN
|
SD
|
Holotype
|
|
µm
|
sp
|
µm
|
sp
|
µm
|
sp
|
µm
|
sp
|
| Body length |
15 |
140 |
– |
185 |
629
|
–
|
755
|
157 |
669
|
13 |
40
|
172 |
654
|
| Scapular plate length |
15 |
20.3 |
– |
26.6 |
– |
23.5 |
–
|
1.7 |
–
|
26.3 |
–
|
| Head appendages lengths |
|
Cirrus
internus
|
15 |
7.1 |
– |
8.6 |
32.3
|
–
|
37.4
|
8.1 |
34.7
|
0.4 |
1.6
|
8.6 |
32.7
|
| Cephalic papilla |
12 |
3.1 |
– |
4.2 |
12.8
|
–
|
17.1
|
3.4 |
14.5
|
0.3 |
1.2
|
3.5 |
13.3
|
|
Cirrus
externus
|
15 |
9.0 |
– |
11.7 |
39.6
|
–
|
49.6
|
10.4 |
44.3
|
0.7 |
3.1
|
10.8 |
41.1
|
| Clava |
10 |
4.0 |
– |
4.7 |
17.7
|
–
|
20.6
|
4.4 |
19.2
|
0.2 |
0.8
|
? |
?
|
|
Cirrus
A
|
15 |
21.6 |
– |
26.8 |
95.1
|
–
|
112.6
|
24.0 |
102.6
|
1.5 |
4.8
|
25.0 |
95.1
|
|
Cirrus
A
/Body length ratio
|
15 |
14% |
– |
17% |
– |
15% |
–
|
1% |
–
|
15% |
–
|
|
Cirrus
int
/
ext
length ratio
|
15 |
72% |
– |
85% |
– |
79% |
–
|
4% |
–
|
80% |
–
|
| Papillae on leg IV length |
9 |
2.8 |
– |
3.3 |
11.3
|
–
|
13.7
|
3.1 |
12.7
|
0.2 |
0.7
|
3.3 |
12.5
|
| Claw 1 heights |
| Branch |
14 |
6.9 |
– |
8.0 |
28.1
|
–
|
34.1
|
7.4 |
31.4
|
0.3 |
1.7
|
7.4 |
28.1
|
| Spur |
6 |
1.3 |
– |
1.6 |
4.9
|
–
|
6.8
|
1.4 |
5.9
|
0.1 |
0.6
|
1.3 |
4.9
|
| Spur/branch height ratio |
6 |
18% |
– |
22% |
– |
20% |
–
|
2% |
–
|
18% |
–
|
| Claw 2 heights |
| Branch |
15 |
6.4 |
– |
7.6 |
26.6
|
–
|
32.7
|
6.9 |
29.3
|
0.3 |
1.7
|
7.0 |
26.6
|
| Spur |
8 |
1.4 |
– |
1.7 |
5.9
|
–
|
7.4
|
1.6 |
6.6
|
0.1 |
0.4
|
1.7 |
6.5
|
| Spur/branch height ratio |
8 |
21% |
– |
24% |
– |
23% |
–
|
1% |
–
|
24%
–
|
–
|
| Claw 3 heights |
| Branch |
14 |
6.3 |
– |
7.8 |
26.6
|
–
|
34.5
|
6.9 |
29.7
|
0.4 |
2.1
|
7.0 |
26.6
|
| Spur |
5 |
1.3 |
– |
1.5 |
4.9
|
–
|
6.6
|
1.4 |
6.0
|
0.1 |
0.7
|
1.3 |
4.9
|
| Spur/branch height ratio |
5 |
19% |
– |
22% |
– |
20% |
–
|
1% |
–
|
19%
–
|
–
|
| Claw 4 heights |
| Branch |
15 |
7.6 |
– |
8.9 |
32.7
|
–
|
38.8
|
8.3 |
35.5
|
0.5 |
2.0
|
8.6 |
32.7
|
| Spur |
4 |
1.4 |
– |
1.7 |
6.0
|
–
|
7.2
|
1.5 |
6.4
|
0.1 |
0.6
|
? |
?
|
| Spur/branch height ratio |
4 |
17% |
– |
19% |
–
|
18% |
–
|
1% |
– |
– |
– |
PG
PG
PG
PG
PG
PG
PG
PG
.
suillus
(
Ehrenberg, 1853
)
Pse. ehrenbergi
sp. nov.
Pse. ehrenbergi
sp. nov.
Pse. dastychi
sp. nov.
female female male female
Pse. angelusalas
sp. nov.
Pse. lacyformis
sp. nov.
Pse. indistinctus
sp. nov.
female female female
FIGURE 1.
A schematic illustration of ventral patterns of
Pse. suillus
and all described
Pseudechiniscus
species presented in this study. PG I–VIII—patches of granulation I–VIII.
DNA sequences
We obtained good quality sequences for the applied molecular markers:
-
COI
sequence (GenBank:
MN528470
), 686 bp long;
- ITS-2
sequence (GenBank:
MN537866
), 405 bp long.
Etymology.
We dedicate this species to the distinguished German zoologist Christian Gottfried Ehrenberg, who described
Pse. suillus
, the first species in the genus
Pseudechiniscus
.
Type
locality.
45°53’10’’N
,
10°50’11’’E
,
140 m
asl:
Italy
, Trentino Province, Riva del Garda, on the way to the Bastion, moss from dead wood,
07.07.2016
, coll. Daria Grobys and Hanna Kmita.
Type
depositories.
Holotype
: slide
IT40/7
and
25 paratypes
(slides: IT40/*, where the asterisk can be substituted by any of the following numbers: 3, 7, 9, 3/S, 4/S, 5/S, 6/S, 7/S) are deposited at the Department of Animal Taxonomy and Ecology, Institute of Environmental Biology, Adam Mickiewicz University in Poznań, Uniwersytetu Poznańskiego 6, 61-614 Poznań,
Poland
;
16 paratypes
(slide IT40/10) are deposited at the collection of Binda and Pilato, Museum of the Department of Animal Biology ‘Marcello La Greca’, University of Catania,
Italy
.
FIGURE 2.
Pseudechiniscus ehrenbergi
sp. nov.
, female
—
A–B—dorsal image of the entire animal; empty arrow indicates a median longitudinal fold dividing scapular plate (scp) into two parts, filled indented arrowheads indicate transverse folds dividing plates m1 and m2 in two portions, filled arrows indicate stripes (folds) on plates s1 and s2, empty indented arrowhead indicates straight pseudosegmental plate (psp), filled arrowhead indicates Y-shaped bifurcated ridges on caudal plate (cap) (holotype, PCM and paratype, SEM respectively); C–D—characteristic pattern on the ventral side of the body; asterisks indicate female gonopore, filled arrowheads indicate papilla-like structures on leg I (paratypes, PCM and SEM, respectively). Scale bars in micrometres [μm].
Morphological differential diagnosis*
*only measurements of adult females are used in differential diagnosis
Pseudechiniscus ehrenbergi
sp. nov.
differs specifically from:
1.
Pse. angelusalas
sp. nov.
,
known only from
Madagascar
(the present study), by: a small papilla-like structure on leg I present, different ventral pattern (
Figs 1
,
2
C–D for
Pse. ehrenbergi
sp. nov.
vs
Figs 1
,
7B
for
Pse. angelusalas
sp. nov.
), different position of PG VIII (PG VIII placed around gonopore in
Pse. ehrenbergi
sp. nov.
vs
PG VIII placed only above gonopore in
Pse. angelusalas
sp. nov.
), lower
sp
of cephalic papillae (
12.8–17.1
in
Pse. ehrenbergi
sp. nov.
vs
18.3–20.8
in
Pse. angelusalas
sp. nov.
), lower
sp
of clavae (
17.7–20.6
in
Pse. ehrenbergi
sp. nov.
vs
22.4–25.7
in
Pse. angelusalas
sp. nov.
), lower
sp
of cirrus
A
(
95.1–112.6
in
Pse. ehrenbergi
sp. nov.
vs
129.2–152.2
in
Pse. angelusalas
sp. nov.
), lower cirrus
A
/body length ratio (14–17% in
Pse. suillus
vs
19–22% in
Pse. angelusalas
sp. nov.
), higher cirri
interni
/
externi
length ratio (72–85% in
Pse. ehrenbergi
sp. nov.
vs
66–71% in
Pse. angelusalas
sp. nov.
), longer papillae on leg IV (2.8–3.3 μm in
Pse. ehrenbergi
sp. nov.
vs
2.0–2.4 μm in
Pse. angelusalas
sp. nov.
) and longer claws (see
Tables 1
and
4
).
2.
Pse. beasleyi,
known only from
China
(
Li
et al.
2007
), by: scp not divided in anterior part (scp divided into four parts in
Pse. beasleyi
), smaller granules of dorsal sculpture (0.3–0.8 μm in
Pse. ehrenbergi
sp. nov.
vs
up to 1.6 μm in
Pse. beasleyi
), shorter cirri
interni
and
externi
(7.1–8.6 and 9.0–11.7 μm respectively in
Pse. ehrenbergi
sp. nov.
vs
10.4–15.7 and 13.1–18.3 μm respectively in
Pse. beasleyi
), different claw lengths arrangement (shortest claws II and III, and longest claws IV in
Pse. ehrenbergi
sp. nov.
vs
shortest claws I and II, and longest claws III and IV in
Pse. beasleyi
) and shorter claws (see
Table
1
in this paper and
Table
2
in
Li
et al.
2007
).
3.
Pse. chengi,
known only from
China
(
Xue
et al.
2017
), by: a small papilla-like structure on leg I present, plates m1 and m2 divided in two portions by transverse fold (unndivided in
Pse. chengi
), shorter claws I–III and lower
sp
of claws I–II (see
Table 1
herein and
Table
2
in
Xue
et al.
2017
).
4.
Pse. clavatus
,
known only from
Spain
(
Mihelčič 1955
), by: different shape of clavae (finger-like in
Pse. ehrenbergi
sp. nov.
vs
club-shaped in
Pse. clavatus
) and normally developed cephalic papillae (reduced in
Pse. clavatus
).
FIGURE 3.
Pseudechiniscus ehrenbergi
sp. nov.
, female
—
A—lateral, small plate-like structure separated from the scapular plate (scp) (paratype, PCM); B—focus on dorsal paired plates with visible upper ends of cuticular pillars (holotype, PCM); C—granulation on leg I, arrowhead indicates papilla-like structure (paratype, PCM); D—granulation and papillae (arrow) on leg IV (paratype, PCM); E—claws of leg I (PCM, paratype). Scale bars in micrometres [μm].
FIGURE 4.
Pseudechiniscus ehrenbergi
sp. nov.
, male
—
A–B—dorsal image of the entire animal; (paratypes, PCM and SEM respectively); C—focus on dorsal paired plates with visible upper ends of cuticular pillars (paratype, PCM); D—focus on characteristic pattern on the ventral side of the body (paratype, PCM); E—characteristic pattern on the ventral side of the body (paratype, PCM); F—granulation on leg I, arrowhead indicates papilla-like structure (paratype, PCM). Scale bars in micrometres [μm].
5.
Pse. dastychi
sp. nov.
,
known only from
Antarctica
(
Dastych 1984
and present study), by: a small papilla-like structure on leg I present, different ventral pattern (
Figs 1
,
2
C–D for
Pse. ehrenbergi
sp. nov.
vs
Figs 1
,
5
C–D for
Pse. dastychi
sp. nov.
), different ventral PG configuration (PG:I-II-III-IV-VI-VIII
g
in
Pse. ehrenbergi
sp. nov.
vs
PG:I-II-III-IV-V-VI-VII-VIII
a
in
Pse. dastychi
sp. nov.
), dorsal granules not joined by striae, narrower scp (20.3–26.6 μm in
Pse. ehrenbergi
sp. nov.
vs
27.5–33.0 μm in
Pse. dastychi
sp. nov.
), shorter cirri
interni
(7.1–8.6 μm in
Pse. ehrenbergi
sp. nov.
vs
10.4–12.7 μm in
Pse. dastychi
sp. nov.
), shorter cirri
externi
(9.0–11.7 μm [
sp=39.6–49.6
] in
Pse. ehrenbergi
sp. nov.
vs
15.9–19.1 μm [
sp=54.7–61.4
] in
Pse. dastychi
sp. nov.
), shorter cirri
A
(21.6–26.8 μm [
sp=95.1–112.6
] in
Pse. ehrenbergi
sp. nov.
vs
40.0–45.0 μm [
sp=135.2–149.1
] in
Pse. dastychi
sp. nov.
), lower cirrus
A
/body length ratio (14–17% in
Pse. ehrenbergi
sp. nov.
vs
22–26% in
Pse. dastychi
sp. nov.
)
, higher cirri
interni/externi
length ratio (72–85% in
Pse. ehrenbergi
sp. nov.
vs
62–69% in
Pse. dastychi
sp. nov.
) and shorter claws (see
Tables 1
and
3
).
6.
Pse. facettalis
,
known from distant localities throughout the world (
McInnes 1994
). Based on present study, an inaccurate description of this species makes it impossible to differentiate this taxon from
Pse. ehrenbergi
sp. nov.
. See also
Morphological differential diagnosis
of
Pse. suillus
and Discussion in the paper
Grobys
et al.
(2020)
.
7.
Pse. indistinctus
sp. nov.
,
known only from
Norway
(present study), by: a small papilla-like structure on leg I present, different ventral pattern (
Figs 1
,
2
C–D for
Pse. ehrenbergi
sp. nov.
vs
Figs 1
,
13
C–D for
Pse. indistinctus
sp. nov.
), different ventral PG configuration (PG:I-II-III-IV-VI-VIII
g
in
Pse. ehrenbergi
sp. nov.
vs
PG: I-II-III-IV-V-VI-VIII
a
in
Pse. indistinctus
sp. nov.
), granules on cap similar in size to other dorsal plates (granules visibly larger on cap in comparison with other dorsal plates in
Pse. indistinctus
sp. nov.
), lower
sp
of cirri
externi
(
39.6–49.6
in
Pse. ehrenbergi
sp. nov.
vs
54.3–59.3
in
Pse. indistinctus
sp. nov.
), shorter cirri
A
(21.6–26.8 μm [
sp=95.1–112.6
] in
Pse. ehrenbergi
sp. nov.
vs
27.6–34.2 μm [
sp=123.0–144.9
] in
Pse. indistinctus
sp. nov.
), lower cirrus
A
/body length ratio (14–17% in
Pse. ehrenbergi
sp. nov.
vs
18–22% in
Pse. indistinctus
sp. nov.
)
, higher cirri
interni/externi
length ratio (72–85% in
Pse. ehrenbergi
sp. nov.
vs
62–70% in
Pse. indistinctus
sp. nov.
) and lower spur/branch length ratio of all claws (17–24% in
Pse. ehrenbergi
sp. nov.
vs
28–34% in
Pse. indistinctus
sp. nov.
).
8.
Pse. juanitae
,
known from
Austria
,
Brazil
(
type
locality),
Italy
and Galapagos Islands (
McInnes 1994
). Based on present study, an inaccurate description of this species makes it impossible to differentiate this taxon from
Pse. ehrenbergi
sp. nov.
. See also
Morphological differential diagnosis
of
Pse. suillus
and Discussion in the paper
Grobys
et al.
(2020)
.
9.
Pse. lacyformis
sp. nov.
,
known only from
Norway
(the present study), by: a small papilla-like structure on leg I present, different ventral pattern (
Figs 1
,
2
C–D for
Pse. ehrenbergi
sp. nov.
vs
Figs 1
,
10B
for
Pse. lacyformis
sp. nov.
), different position of PG VIII (PG VIII placed around gonopore in
Pse. ehrenbergi
sp. nov.
vs
PG VIII placed above gonopore in
Pse. lacyformis
sp. nov.
), shorter cirri
interni
(7.1–8.6 μm [
sp=32.3–37.4
] in
Pse. suillus
vs
10.6–14.0 μm [
sp=48.4–53.9
] in
Pse. lacyformis
sp. nov.
), shorter cirri
externi
(9.0–11.7 μm [
sp=39.6–49.6
] in
Pse. suillus
vs
14.1–19.4 μm [
sp=66.5–77.8
] in
Pse. lacyformis
sp. nov.
), shorter clavae (4.0–4.7 μm [
sp=17.7– 20.6
] in
Pse. ehrenbergi
sp. nov.
vs
5.1–6.4 μm [
sp=23.4–26.8
] in
Pse. lacyformis
sp. nov.
), lower
sp
of cirrus
A
(
95.1–112.6
in
Pse. ehrenbergi
sp. nov.
vs
114.1–142.5
in
Pse. lacyformis
sp. nov.
) and lower
sp
of papillae on leg IV (
11.3–13.7
in
Pse. ehrenbergi
sp. nov.
vs
14.7–17.2
in
Pse. lacyformis
sp. nov.
).
TABLE 2.
Measurements [in µm] and
sp
values of selected morphological structures of males of
Pseudechiniscus ehrenbergi
sp. nov.
Roszkowska, Grobys, Bartylak & Kaczmarek and
Pse. angelusalas
sp. nov.
Roszkowska, Grobys, Bartylak & Kaczmarek mounted in Hoyer’s medium (
sp—
ratio of the length of a given structure to the length of the scapular plate (scp) expressed as a percentage (
sp
= length of structure × 100⁄ length scapular plate (scp)).
|
CHARACTER
|
Pse. ehrenbergi
sp. nov.
µm
sp
|
Pse. angelusalas
sp. nov.
µm
sp
|
| Body length |
156–178 |
722–793
|
168 |
697
|
| Scapular plate length |
20.9–23.2 |
–
|
24.1 |
–
|
| Head appendages lengths |
|
Cirrus
internus
|
13.4–14.2 |
61.2–64.1
|
9.5 |
39.4
|
| Cephalic papilla |
5.0–5.4 |
23.3–23.9
|
4.9 |
20.3
|
|
Cirrus
externus
|
22.5–24.0 |
103.4–107.7
|
13.8 |
57.3
|
| Clava |
5.0–5.6 |
23.1–26.8
|
4.1 |
17.0
|
|
Cirrus
A
|
37.2–41.1 |
165.8–196.7
|
27.5 |
114.1
|
|
Cirrus
A
/Body length ratio
|
22%–25% |
–
|
16% |
–
|
|
Cirrus
int
/
ext
length ratio
|
59%–60% |
–
|
69% |
–
|
| Papillae on leg IV length |
3.2–4.1 |
15.3–17.7
|
3.9 |
16.2
|
| Claw 1 heights |
| Branch |
9.5–9.9 |
42.6–45.5
|
6.9 |
28.6
|
| Spur |
2.3–2.5 |
9.9–12.0
|
1.8 |
7.5
|
| Spur/branch height ratio |
23%–26% |
–
|
26% |
–
|
| Claw 2 heights |
| Branch |
9.6–9.9 |
42.6–45.9
|
6.4 |
26.6
|
| Spur |
2.2–2.3 |
9.9–10.5
|
1.5 |
6.2
|
| Spur/branch height ratio |
23%–23% |
–
|
23% |
–
|
| Claw 3 heights |
| Branch |
9.6–10.1 |
43.5–44.4
|
6.4 |
26.6
|
| Spur |
2.1–2.3 |
9.9–10.0
|
1.5 |
6.2
|
| Spur/branch height ratio |
23%–23% |
–
|
23% |
–
|
| Claw 4 heights |
| Branch |
10.9–11.5 |
49.5–53.6
|
7.6 |
31.5
|
| Spur |
2.3–2.5 |
10.6–10.8
|
1.7 |
7.1
|
| Spur/branch height ratio |
21%–22% |
–
|
22% |
– |
10.
Pse. megacephalus
,
known only from
Austria
(
type
locality) and
Turkey
(
McInnes 1994
), by: different shape of cephalic papillae (spherical in
Pse. ehrenbergi
sp. nov.
vs
mushroom-like in
Pse. megacephalus
), absence of papilliform projection between external buccal cirri and cirri
A
.
11.
Pse. suillus
,
known only from
Italy
and
Portugal
(
Grobys
et al.
2020
), by: different ventral pattern (
Figs 1
,
2
C–D for
Pse. ehrenbergi
sp. nov.
vs
Figs 1
herein and 4C–D in
Grobys
et al
. (2020)
for
Pse. suillus
), well developed ventral patches of granulation, shorter cirri
interni
(7.1–8.6 μm [
sp=32.3–37.4
] in
Pse. ehrenbergi
sp. nov.
vs
8.7–11.1 μm [
sp=44.0–49.6
] in
Pse. suillus
), lower
sp
of cephalic papillae (
12.8–17.1
in
Pse. ehrenbergi
sp. nov.
vs
19.1–24.3
in
Pse. suillus
), shorter cirri
externi
(9.0–11.7 μm [
sp=39.6–49.6
] in
Pse. ehrenbergi
sp. nov.
vs
12.0–16.8 μm [
sp= 62.1–75.0
] in
Pse. suillus
) lower
sp
of clavae (
17.7–20.6
in
Pse. ehrenbergi
sp. nov.
vs
20.9–26.8
in
Pse. suillus
), shorter cirrus
A
(21.6–26.8 μm [
sp=95.1–112.6
] in
Pse. ehrenbergi
sp. nov.
vs
28.4–34.4 μm [
sp=134.9–156.9
] in
Pse. suillus
) and lower
sp
of papillae on leg IV (
11.3–13.7
in
Pse. ehrenbergi
sp. nov.
vs
14.7–18.4
in
Pse. suillus
).
12.
Pse. xiai
,
known only from
China
(
Wang
et al.
2018
), by: different ventral pattern (
Figs 1
,
2
C–D for
Pse. ehrenbergi
sp. nov.
vs
Figs 1B, F
and
2E
in
Wang
et al
. 2018
for
Pse. xiai
) and higher cirrus
A
/body length ratio (17–21% in
Pse. ehrenbergi
sp. nov.
vs
13–16% in
Pse. xiai
).
Genotypic differential diagnosis
The ranges of genetic distances between
Pse. ehrenbergi
sp. nov.
and species of the genus
Pseudechiniscus
, for which DNA sequences are available in GenBank, are as follows:
COI
: 0.4–29.3% (22.4% on average), with the most similar being
Pse.
aff.
suillus
(
MK804906
,
Cesari
et al.
2020
) and the least similar being
Pseudechiniscus
sp. (
KJ857008
, Velasco-Castrillón
et. al.
2015 (described in Gen- Bank as
Echiniscus
sp.); for more details see Discussion section in
Grobys
et al.
2020
).
ITS-2: 7.7–35.5% (25.1% on average), with the most similar being
Pse. dastychi
sp. nov.
(
MN537865
, present study) and the least similar being
Pse. lacyformis
sp. nov.
(
MN537868
, present study).