Characterisation of an Iberian population of Rhyssocolpus iuventutis Andrássy, 1971 (Dorylaimida: Nordiidae), with a revised taxonomy of the genus
Author
Peña-Santiago, Reyes
Author
Guerrero, Pablo
Author
Liébanas, Gracia
Author
García, María del Carmen
Author
Palomeque, Teresa
Author
Lorite, Pedro
text
Nematology
2015
2014-11-13
17
2
139
153
http://dx.doi.org/10.1163/15685411-00002857
journal article
289046
10.1163/15685411-00002857
210d15b2-259d-41ec-971e-bdd0d8bd2113
10698082
Taxonomy of the genus
Rhyssocolpus
EVIDENCE
DERIVED
FROM
MORPHOLOGICAL
COMPARATIVE
ANALYSIS
When describing
Enchodelus morgensis
Loof, 1988
, Loof compared and discussed several diagnostic characters of the genera
Enchodelus
and
Rhyssocolpus
, concluding that the latter was identical to the former, and transferred most
Rhyssocolpus
species
to
Enchodelus
. Nevertheless, Loof’s actions were not followed by other authors (Jairajpuri & Ahmad, 1992;
Andrássy, 2009
).
Loof (1988)
noted that two relevant features, namely the odontostyle length and the nature of the cuticle in the vulval area, were different in both genera, but considered that these differences had “no more than specific value”. The conical-tailed members of
Enchodelus
,
i.e.
, those comparable to
Rhyssocolpus
species
, were recently separated from rounded-tailed forms by
Andrássy (2009
,
2011
), who grouped them under the (resurrected) genus
Heterodorus
– until then a junior synonym of
Enchodelus
– and retained the rounded-tailed species under the (true) genus
Enchodelus
. Consequently,
Rhyssocolpus
is herein compared with
Heterodorus
.
Three features might be relevant to separate
Rhyssocolpus
from
Heterodorus
using a morphological approach: odontostyle length, uterus morphology, and the presence/absence of cuticular irregularities around the vulval area.
Rhyssocolpus
representatives have a comparatively small odontostyle, up to 13
µ
m long, often only up to 10
µ
m long and always shorter than the lip region diam., whereas
Heterodorus
species
have a larger odontostyle, never less than 10
µ
m long and very often easily surpassing this value (reaching up to 70
µ
m), and almost always longer than, only very exceptionally equal to (never shorter than), the lip region diam. The uterus is bipartite in both genera, but the distal part close to the sphincter bears some differentiation (refractive granules in its lumen, hyaline cells surrounding it,
etc.
) in many members of
Heterodorus
such as
H. arcuatus
(
Thorne, 1939
)
Andrássy, 2009
,
H. brevidentatus
,
H. geraldi
(Winiszweska, 1987)
Andrássy, 2009
,
H. magnificus
Altherr, 1952
(the type species),
H. morgensis
,
H. porosus
Guerrero, Liébanas & Peña-Santiago, 2007
and
H. veletensis
Guerrero, Liébanas & Peña-Santiago, 2007
, which have recently been studied in some detail (
cf.
,
Guerrero & Peña-Santiago, 2007
;
Guerrero
et al.
, 2007
). This type of uterine differentiation has not been reported in
Rhyssocolpus
forms. The presence of very strong cuticular irregularities in the vulval area is a remarkably common feature of
Rhyssocolpus
species
and has not been described with comparable development in
Heterodorus
forms, although it is known to occur in isolated species of several genera such as
Eudorylaimus
and
Mesodorylaimus
Andrássy, 1959
. In conclusion, from a morphological perspective,
Heterodorus
and
Rhyssocolpus
show relevant differences that allow their differentiation into two groups.
EVIDENCE
DERIVED
FROM
MOLECULAR
ANALYSIS
The results obtained from partial 18S rDNA analysis (
Fig. 5
), including new sequences of four species (see Material and methods section), show that representatives of the
Nordiidae
are split into three major subgroups with variable clade support. The first group consists of sequences of
Pungentus
Thorne & Swanger, 1936
plus one sequence of
Californidorus
Robbins & Weiner, 1978
. The second includes sequences of
Enchodelus
as well as several sequences of four non-nordiid genera:
Prodorylaimus
Andrássy, 1959
in
Dorylaimidae
de Man, 1876
, and
Crassolabium
Yeates, 1967
,
Eudorylaimus
and
Epidorylaimus
Andrássy, 1986
in
Qudsianematidae
. The third group is formed by sequences of the members of
Heterodorus
and
Rhyssocolpus
, along with other species from the
Qudsianematidae
and
Nordiidae
(see above). These results generally agree with those published by
Holterman
et al.
(2008)
and
Pedram
et al.
(2011)
, and confirm that the
Nordiidae
is not a natural (monophyletic) taxon and that the relationships between dorylaimid families are still far from being well established. The evolutionary relationships between the members of the third clade are not well resolved in the tree and hence serious uncertainties persist concerning the systematics of its members, especially due to the inclusion of the qudsianematid taxa and because the sequences of
Heterodorus
species
do not group together. Thus, as yet there is insufficient molecular evidence to elucidate the nature of the relationship between
Heterodorus
and
Rhyssocolpus
(
cf.
,
Pedram
et al.
, 2011
), although it is relevant that the two sequences of
Rhyssocolpus
are the closest to each other within the clade.
INTEGRATIVE
APPROACH
Both morphological and molecular (with currently available data) evidence support the conclusion that
Rhyssocolpus
species
form a natural group. On the one hand, the morphological differences between
Rhyssocolpus
and
Heterodorus
are small but certainly significant, and can be interpreted under a cladistic approach. The very short and attenuate odontostyle along with the presence of strong cuticular irregularities at vulval level are considered apomorphic conditions of their respective characters, and synapomorphies which define the
Rhyssocolpus
pattern. The differentiations observed in the distal part of the uterus in members of
Heterodorus
are equally regarded as an apomorphic state characterising the
Heterodorus
pattern. On the other hand, in spite of available molecular data not satisfactorily defining the evolutionary relationships of
Rhyssocolpus
and
Heterodorus
, the two available
Rhyssocolpus
sequences lie close together in the tree. Thus, contrary to
Loof’s (1988)
opinion, and following the opinions of other authors (Jairajpuri & Ahmad, 1992;
Vinciguerra, 2006
;
Andrássy, 2009
),
Enchodelus
,
Heterodorus
and
Rhyssocolpus
are considered as valid genera, with
Heterodorus
and
Rhyssocolpus
probably sharing a common recent ancestor and being distinctly separated from
Enchodelus
. A revised taxonomic characterisation of
Rhyssocolpus
therefore follows.
Genus
Rhyssocolpus
Andrássy, 1971
DIAGNOSIS
(
EMENDED
)
Nordiidae
. Small- to medium-sized nematodes, 0.70- 1.98 mm long. Cuticle dorylaimoid. Lip region continuous or offset by depression, exceptionally by constriction. Odontostyle small and attenuate, never longer and usually shorter than lip region diam., with narrow lumen and minute aperture. Guiding ring double. Odontophore rod-like. Pharynx dorylaimoid, with gradual enlargement and pharyngeal expansion occupying up to two-fifths (27- 40%) of total neck length; S
1
N (AS) very reduced. Female genital system didelphic-amphidelphic, uterus bipartite,
pars refringens vaginae
present, vulval aperture a transverse or longitudinal slit. Strong cuticular irregularities (wrinkles, folds,
etc.
, and occasionally flaps) present near vulval area. Caudal region conical, regularly curved ventrad in both sexes. Spicules dorylaimoid, 37-60
µ
m long. Male ventromedian supplements 2-11, spaced, with hiatus.
REMARKS
Rhyssocolpus
is a rather homogeneous dorylaimid taxon from a morphological perspective, its species being separated by means of small and subtle differences (see below). It seems to be a genuine representative of the Holarctic nematode fauna and is widely spread in Eurasia and North America (see geographical distribution in
Table 2
).
TYPE
SPECIES
R. vulvostriatus
(
Stefański, 1924
)
Andrássy, 1971
=
Dorylaimus vulvostriatus
Stefański, 1924
=
Eudorylaimus vulvostriatus
(
Stefański, 1924
) Andrássy, 1959
=
Enchodelus vulvostriatus
(
Stefański, 1924
)
Loof, 1988
=
Dorylaimus gracilis apud
Micoletzky (1925)
nec
de Man (1884) [syn. by
Andrássy (1971)
]
OTHER
SPECIES
R. aquilonius
Andrássy, 2003
R. arcticus
Ebsary, 1984
=
Enchodelus ebsaryi
Loof, 1988
R. fluviatilis
Gagarin, 1985
R. iuventutis
Andrássy, 1971
=
Enchodelus iuventutis
(
Andrássy, 1971
)
Loof, 1988
R. microdorus
(
Schiemer, 1965
)
Andrássy, 1971
=
Enchodelus microdorus
Schiemer, 1965
R. repis
(
Brzeski, 1992
)
Vinciguerra, 2006
=
Enchodelus repis
Brzeski, 1992
R. vinciguerrae
Pedram, Pourjam, Robbins, Ye & Peña-Santiago, 2011
SPECIES
TRANSFERRED
TO
,
OR
RETAINED
UNDER
,
OTHER
GENERA
R. alleni
(
Brzeski, 1962
) Andrássy, 1986
, retained under
Eudorylaimus
=
Eudorylaimus alleni
Brzeski, 1962
R. brasiliensis
(
Meyl, 1956
) Andrássy, 1986
, transferred to
Eudorylaimus
(see below)
=
Dorylaimus brasiliensis
Meyl, 1956
=
Prodorylaimus brasiliensis
(
Meyl, 1956
) Andrássy, 1959
R. paradoxus
(
Loof, 1975
) Andrássy, 1986
, retained under
Eudorylaimus
=
Eudorylaimus paradoxus
Loof, 1975
NOTES
ON
SOME
SPECIES
Rhyssocolpus alleni
:
Loof (1988)
suggested that this species “probably... does not belong to the
Enchodelus
complex either”, and several of its diagnostic features support its retention under
Eudorylaimus
: large size (body length 2.5-2.7 mm, see
Brzeski (1962)
and
Loof (1971))
, odontostyle 21-23
µ
m long, pharyngeal expansion occupying about one-half of total neck length, and absence of strong cuticular irregularities in the vulval area.
Table2.
Compendium of morphometrics of species belonging to
Rhyssocolpus
Andrássy, 1971
. All measurements are in
µ
m except for L (mm).
| Species |
n/sex |
L |
a |
b |
c |
c′ |
V |
LRD |
Odont. |
Neck |
Ph.exp. |
Tail |
Spicule |
Ve.sup. |
Distrib. |
Ref. |
|
aquilonius
|
5♀♀ ♂ |
1.23-1.40 1.50 |
21-24 27 |
4.6-4.9 5.5 |
27-32 35 |
1.3-1.5 1.2 |
52-54 – |
12-13 – |
7-9 – |
265-285 – |
32-38% – |
40-48 44 |
– 52 |
– 11 |
Alaska |
1 |
|
arcticus
|
25♀♀ 22♂♂ |
1.4-2.2 1.7-2.0 |
28-37 36-43 |
5.9-7.9 6.0-7.0 |
31-37 29-37 |
1.3-1.6 1.1-1.6 |
46-52 – |
11-13 – |
8-12 – |
283∗ 268∗ |
90-128 – |
50∗ 59∗ |
– 50-58 |
– 7-11 |
Canada |
2 |
|
fluviatilis
|
3♀♀ |
1.49-1.62 |
22-24 |
4.9-6.7 |
29-33 |
1.4-1.5 |
50-51 |
41 579 |
11-13 |
242-304∗ |
35-40% |
46-56∗ |
– |
– |
Russia |
3 |
|
iuventutis
|
31♀♀ |
1.42-1.65 |
27-32 |
5.7-6.6 |
43-55 |
1.0-1.1 |
47-51 |
12-13 |
9-10 |
232-250∗ |
30-33 |
31-35 |
– |
– |
Hungary |
4 |
| 20♂♂ |
1.30-1.45 |
30-34 |
5.6-6.8 |
42-50 |
1.0 |
– |
– |
– |
– |
– |
– |
50-54 |
5-7 |
| 31♀♀ 11♂♂ |
1.41-1.66 1.31-1.59 |
21-28 24-30 |
4.8-6.2 4.9-5.9 |
30-44 28-35 |
1.0-1.5 1.2-1.4 |
45-51 – |
11-13 11-13 |
8-10 9-10 |
246-307 248-279 |
70-79 67-79 |
35-52 41-50 |
– 54-60 |
– 6-8 |
Spain |
5 |
|
microdorus
|
2♂♂ 2♀♀ |
0.95, 0.92 0.91-0.92 |
25, 24 21-23 |
4.6, 4.3 4.5 |
22, 24 21-23 |
– |
– 51-53 |
11-12∗ 10.5∗ |
7-8 7.5 |
207, 214 202-205∗ |
30% 30-35% |
43, 38∗ 36∗ |
36 – |
6 – |
Austria Italy |
6 7 |
| ♂ |
0.69 |
23 |
3.4 |
19 |
– |
– |
– |
– |
203∗ |
– |
– |
– |
5 |
|
repis
|
25♀♀ 15♂♂ |
0.81-1.12 0.85-1.07 |
20-29 24-29 |
4.0-5.1 4.2-4.9 |
20-27 19-25 |
1.5-2.2 1.5-1.7 |
50-57 – |
10-11 – |
7-9 7-9 |
196-236 197-229 |
27-35% – |
31-51 38-46 |
– 37-41 |
– 2-6 |
Korea |
8 |
|
vinciguerrae
|
11♀♀ 8♂♂ |
1.04-1.37 1.13-1.35 |
21-29 25-33 |
4.6-5.3 4.7-5.6 |
26-34 24-28 |
1.4-1.9 1.5-1.7 |
48-55 – |
11-13 11-12 |
8-10 9-10 |
227-265 232-275 |
31-35% – |
35-50 44-55 |
– 43-51 |
– 6-8 |
Iran |
9 |
|
vulvostriatus
|
17♀♀ |
1.37-1.68 |
17-23 |
5.0-6.7 |
21-38 |
– |
50 |
14∗ |
12∗ |
248∗ |
33% |
37 |
Poland |
10, 11 |
| 15♂♂ |
1.40-1.83 |
19-29 |
5.5-6.0 |
32-36 |
– |
– |
– |
– |
279∗ |
– |
– |
– |
8-11 |
| 4♀♀ |
1.71-1.98 |
22-33 |
5.7-6.9 |
33-41 |
– |
47-51 |
– |
– |
– |
– |
– |
– |
? |
12 |
| 3♂♂ |
1.74-1.88 |
32-34 |
5.4-6.6 |
35-46 |
– |
– |
– |
– |
– |
– |
– |
– |
7 |
| ♀ 5♀♀ |
2.40 1.43-1.62 |
31 23-25 |
5.5 6.0-7.2 |
50 39-55 |
– – |
53 48-52 |
– – |
– – |
– – |
– – |
– – |
– – |
– – |
Switzerland Italy |
13 14 |
| 206♂♂ 4♀♀ |
1.19-1.87 1.25-1.44 |
20-31 25-27 |
5.1-8.1 4.7-5.5 |
30-53 43-45 |
– – |
53-54 |
– – |
– – |
– – |
– – |
– – |
– – |
– – |
Denmark |
4 |
| 3♂♂ |
1.33-1.48 |
27-28 |
5.4-7.2 |
44-50 |
– |
12-14 |
9 |
– |
– |
– |
58-60 |
9-12 |
| ♀ |
1.40 |
26 |
5.9 |
49 |
– |
50 |
– |
– |
237∗ |
– |
– |
– |
– |
Italy |
15 |
Abbreviations: LRD = lip region diam.; Odont. = odontostyle; Ph.exp. = pharyngeal expansion; Ve.sup = ventral supplements; Distrib. = geographical distribution. References: 1:
Andrássy (2003)
; 2:
Ebsary (1984)
; 3:
Gagarin (1985)
; 4:
Andrássy (1971)
; 5: Present paper; 6:
Schiemer (1965)
; 7:
Vinciguerra & De Francisci (1973)
; 8:
Brzeski (1992)
; 9:
Pedram
et al.
(2011)
; 10:
Stefański (1924)
; 11:
Thorne & Swanger (1936)
; 12:
Micoletzky (1925)
; 13:
Altherr (1952)
; 14:
Zullini (1970)
; 15:
Zullini (1971)
.
∗
Values calculated from other measurements and/or illustrations.
Rhyssocolpus arcticus
and
R. iuventutis
: the separation of these two species is problematic. The presence and absence, respectively, of vulval flaps is the only relevant morphological difference, whereas the ranges of their morphometrics widely overlap.
Rhyssocolpus brasiliensis
: the true identity of this species remains obscure, but the available information suggests that it is not compatible with the
Rhyssocolpus
pattern: odontostyle longer (1.3 times) than lip region diam. and comparatively stronger, pharyngeal expansion occupying
ca
45% of total neck length, and 13- 14 contiguous ventromedian supplements. It is provisionally transferred to
Eudorylaimus
as
E. brasiliensis
(
Meyl, 1956
)
comb. n.
Rhyssocolpus microdorus
and
R. repis
: the separation of these two species is also problematic. The absence and presence, respectively, of vulval flaps is the only relevant morphological difference, whereas the ranges of their morphometrics widely overlap.
Rhyssocolpus fluviatilis
: the original description of this species is not very detailed and some doubts persist as to the identity as the lip region is distinctly angular and offset by a constriction (see Gagarin’s
Figure 3.3
) and the odontostyle is as long as the lip region diam. – two features that do not fit the pattern of the genus. Nevertheless, other characters (attenuate odontostyle, guiding ring double and the presence of coarse cuticle irregularities in the vulval area) support its classification under this genus.
Rhyssocolpus paradoxus
:
as Loof (1988)
pointed out, this species does not fit either the
Enchodelus
pattern, or the
Rhyssocolpus
pattern because of its larger general size (body length 2.37-3.13 mm), odontostyle 28-35
µ
m long, pharyngeal expansion occupying more than two-fifths of total neck length, absence of strong cuticle irregularities near the vulval area, and higher number (22- 27) of contiguous ventromedian supplements.
Key to species
1 Lip region distinctly angular and offset by constriction; male unknown............................
fluviatilis
Lip region rounded or weakly angular and continuous or offset by depression; male known............... 2
2 Smaller general size, body length up to 1.1 mm long, spicules up to 41
µ
m long.........................3
Larger general size, body length over 1.0 mm long, spicules 43
µ
m long or more...................... 4
3 Vulval flaps absent......................
microdorus
Vulval flaps present...........................
repis
4 Vulval flaps present.............................. 5
Vulval flaps absent............................... 6
5 Tail longer (
c′
= 1.3-1.6), strongly curved ventrad, hook-like; most posterior ventromedian supplement anterior to anterior end of spicules, far from adcloacal pair and close to second-most posterior ventromedian supplement................................
arcticus
Tail shorter, about as long as anal body diam., weakly curved ventrad, not hook-like; most posterior ventromedian supplement anterior to anterior end of spicules, mid-way between adcloacal pair and second-most posterior ventromedian supplement.........
vulvostriatus
6 Male bearing 11 ventromedian supplements..................................................
aquilonius
Male bearing 5-8 ventromedian supplements........ 7
7 Larger general size, body 1.31-1.66 mm long; vulva transverse; spicules 54-60
µ
m long.........
iuventutis
Smaller general size, body 1.04-1.37 mm long; vulva longitudinal; spicules 43-51
µ
m long....
vinciguerrae