A new species of Molineus (Nematoda: Molineidae) parasite of Procyon lotor (Mammalia: Carnivora) in Mexico with a taxonomic key for the species of the genus
Author
Mata-López, Rosario
text
Zootaxa
2017
2017-09-15
4320
2
391
400
journal article
32095
10.11646/zootaxa.4320.2.12
e1e69b11-d791-4ae0-abd7-2aa73b31140c
1175-5326
891694
17Ab14E7-Da61-482E-933F-171585E64036
Molineus lotoris
n. sp.
(
Fig. 1
, A–J)
Type
host.
Procyonidae
:
Procyon lotor
L., Raccoon.
Type
locality.
Motozintla,
Chiapas
State,
Mexico
,
15°22’ 00’’N
latitude,
92°15’00’’ W
longitude.
Type specimens.
Holotype, male (CNHE 9238); allotype, female (CNHE 9774); paratypes, 3 females, 1 male (CNHE 9309).
Site of infection.
Stomach.
Prevalence and intensity.
1 of 1 raccoon infected with 11 worms.
Etymology.
The species epithet refers to the specific name of the host.
Description.
Nematodes of medium size, body not coiled. Females greater than males. Prominent and globular cephalic vesicle present, terminating in several transverse striations (
Fig. 1A
). Lips absent; in apical view, 6 externolabial, and 4 cephalic papillae and 2 small amphids present (
Fig. 1B
). Deirids not observed. Cervical groove absent. Excretory pore opening at mid-length of claviform esophagus (
Fig. 1A
). Males with symmetrical caudal bursa
type
2–1–2 (
Fig. 1C
). Females didelphic and amphidelphic (
Fig. 1D
). Cuticle with fine, transverse striations. Synlophe composed of uninterrupted ridges. Number of ridges variable in both sexes and at body regions. Synlophe studied in one male and two females. Cuticular ridges begin immediately after the cephalic vesicle and terminate anterior to the anus or cloaca. Ridges orientated perpendicularly to body surface. At anterior level of females, two lateral ridges of the synlophe run closely, protruding from the rest of the ridges. Number of ridges in males: 11 just posterior to cephalic vesicle (
Fig. 1E
), 17 at mid-body level (
Fig. 1F
), and 24 at posterior end (
Fig. 1G
); in females, number of ridges 19–20 just posterior to cephalic vesicle (
Fig. 1H
), 17–21 at mid-body level (
Fig.
1I
), and 17 at posterior region (
Fig. 1J
).
Male.
Body 2.12 (1.8–2.41 ± 0.30, n=4) length by 0.05 (0.04–0.06 ± 0.005, n=4) maximum width. Cephalic vesicle 0.36 (0.34–0.39 ± 0.02, n=3) long by 0.12 (0.15–0.28 ± 0.1, n=3) wide at anterior end. Distance from anterior end to excretory pore 0.11 (0.10–0.12 ± 0.02, n=4) and to nerve ring 0.12 (0.12–0.14 ± 0.07, n=4). Esophagus 0.13 (0.12–0.16 ± 0.02, n=4) by 0.014 (0.013–0.015 ± 0.001, n=4) in maximum width. The bursa is symmetrical, covered ventrally by minute spine-like structures. The bursal ray pattern is of
type
2–1–2. Rays 2 and 3 separate near base, run separately, and reach bursal margin. Rays 4 diverges at base from other lateral rays, deflected ventral, approximately l/2 length of other lateral rays. Rays 5 and 6 diverge close to base, are parallel, and reach bursal margin. Rays 8 originates approximately 1/3 of distance from base of dorsal ray, directed dorsolaterally, not reaching bursal margin. Dorsal ray thick, divided into 2 long primary branches. Each one of these, in turn, forks again into rays 9 and 10. Rays 10 distinctly bifid. External branch (rays 9) longer, curving ventrally. Spicules complex, base of handle with thickenings; equal in size, 0.10 (0.099–0.115 ± 0.008, n=4) long; blade divided approximately at 1/2 distance from proximal end into external and internal processes. Internal process slender, ending in globular swelling. External process terminating in point. Gubernaculum 0.048 (0.043– 0.052 ± 0.004, n=3) long; crosier-like, curving ventrally, with ventral projection and slight anterior protrusion (
Fig. 1C
). Distal end terminates bluntly.
Female.
Worms 2.91 (2.46–3.36 ± 0.31, n=7) long by 0.066 (0.006–0.071 ± 0.003, n=7) in maximum width, at the vulva level, tapering at both ends. Cephalic vesicle 0.043 (0.039–0.047 ± 0.002, n=7) long by 0.034 (0.032– 0.039 ± 0.003, n=7) wide. Distance to nerve ring and excretory pore from anterior end, 0.168 (0.162–0.175 ± 0.004, n=6) and 0.144 (0.143–0.147 ± 0.002, n=5), respectively. Esophagus 0.622 (0.318–0.327 ± 0.003, n=7) long by 0.023 (0.019–0.028 ± 0.002, n=7) in maximum width. Didelphic and amphidelphic; vulva located 0.58 (0.47– 0.66 ± 0.069, n=7) from caudal extremity, in the posterior sixth of the body. Vagina vera 0.023 (0.017–0.026 ± 0.003, n=7) long, vestibule 0.073 (0.065–0.078 ± 0.005, n=7) long. Anterior ovejector 0.12 (0.11–0.12 ± 0.003, n=7) long [vestibule, 0.073 (0.065–0.078 ± 0.005, n=7); infundibulum, 0.018 (0.013–0.21 ± 0.004, n=7); sphincter, 0.023 (0.021–0.028 ± 0.003, n=7)]; posterior ovejector 0.025 (0.021–0.032 ± 0.004, n=7) long [vestibule, 0.073 (0.049–0.084 ± 0.016, n=7); infundibulum, 0.022 (0.019–0.026 ± 0.002, n=7); sphincter, 0.025 (0.021–0.032 ± 0.004, n=7)]. Eggs in anterior uterine branch: 17 (12–25 ± 4.6, n=7); eggs in the posterior uterine branch: 8 (6–10 ± 1.64, n=7); embryonated, elliptical 0.037 (0.030–0.049 ± 0.006, n=10) long by 0.022 (0.019–0.023 ± 0.002, n=10) wide, forming a single row in the uterus. Anus without lips, 0.063 (0.052–0.075 ± 0.009, n=7) from posterior end. Body terminating in a sharp spine 0.008 (0.006–0.013 ± 0.002, n=6) long.
Remarks.
Up to now, 27 species of the genus
Molineus
have been described around the world (Durette-Desset
et al
. 1981;
Platt & Pence 1981
;
Wu & Zhang 1984
;
Durette-Desset & Pesson 1987
; Durette-Desset & Corvione 1988;
Durette-Desset
et al
. 2000a
,
b
,
2001
): 12 from the Neotropical, 3 from the Ethiopian, 5 from the Oriental, 4 from the Palearctic, and 3 from the Nearctic Realms. Most of the 27 species are parasites of Mammalia (
Carnivora
22 species,
Primates
4), and only one species associated with
Squamata
has been collected (
M
.
inexpectatus
Durette-Desset,
Guerrero
& Boyer, 2000
). A mix of morphological traits is diagnostic for
Molineus lotoris
n. sp
.
: 1) presence of a prominent and globular cephalic vesicle; 2) spicules length <0.14 (0.10), with 2 terminal processes and 3) males with 17 synlophe ridges at mid-body region.
The new species described in the present study can be differentiated from 20 of the 27 species contained in the genus by having 2 instead of 3 terminal processes in the spicules. Among species having 3 terminal processes in the spicules,
M. inexpectatus
,
M
.
inglisi
Durette-Desset & Pesson, 1987
,
M. midas
Durette-Desset & Corvione, 1998
,
M. springsmithi
Inglis & Ogden, 1965
and
M. vexillarius
Dunn, 1961
are distinguished from the Mexican species because males of those species have a smaller number of synlophe ridges at mid-body level (14, 10–12, 14, NEW
MOLINEUS
IN
MEXICO
Zootaxa
4320 (2) © 2017 Magnolia Press · 393 11–15, vs 17, respectively) (
Dunn 1961
;
Inglis & Ogden 1965
;
Durette-Desset & Corvione 1998
;
Durette-Desset
et al
. 2000b
); in contrast,
M. patens
(
Dujardin, 1845
)
Petrov, 1928
and
M. genettae
Cameron, 1927
are differentiated from
M. lotoris
because they have a greater number of these structures (40 ridges in both species vs
17 in
the new one) (
Travassos 1937
;
Durette-Desset & Pesson 1987
). Three other species can be separated from the new species described herein, because its spicules are longer than those of
M. lotoris
(0.099–0.115):
M. nasuae
Lent & Freitas, 1938
(0.119–0.184),
M. petrovi
Durette-Desset & Pesson, 1987
(0.154–0.175) and
M. sichuanensis
Wu & Zhang, 1984
(0.132–0.159) (
Petrov 1928
;
Lent & Freitas 1938
;
Wu
et al
. 1984
). The Palearctic distribution of
M. legerae
Durette-Desset & Pesson, 1987
and the Nearctic distribution of
M. mustelae
Schmidt, 1965
as well as the greater body size of males (about twice the size of the Mexican species, i.e., 5.6–7 and 4.2–6 vs 1.8–2.41, respectively) allows distinguishing these 2 species from the new species described herein (
Schmidt 1965
;
Durette-Desset & Pesson 1987
).
Molineus europeaus
Zunker, 1929
and
M. torulosus
(
Molin, 1861
)
have a larger size of body (8.5 and 7.9–9.7, respectively) and spicules (0.145 and 0.172–0.180, respectively), than
M. lotoris
(1.8–2.41 and 0.099– 0.115, respectively). In addition,
M. europaeus
is distributed in the Palearctic Realm, while
M. lotoris
is a Neotropical species, and
M
.
torulosus
parasitizes
primates
and the new species carnivores (
Zunker 1929
; Durette- Desset
et al
. 2001).
FIGURE 1.
Molineus lotoris
n. sp
.
, parasite of
Procyon lotor
from Mexico. A: male, anterior end; B: male, frontal view; C: male, bursa; D: female, posterior region; E: male, synlophe at anterior body level; F: male, synlophe at mid-body level; G: male, synlophe at posterior body level; H: female, synlophe at anterior body level; I: female, synlophe at mid-body level; J: female, synlophe at posterior body level; scale bars 0.05 mm.
Molineus major
Cameron, 1936
,
Molineus pardalis
Cameron, 1936
and
M. planicipitis
(
Cameron, 1928
)
Travassos, 1937
differ from
M
.
lotoris
n. sp
.
by having the dorsal lobe separated from lateral lobes while in the new species, the dorsal lobe is merged with the contour of the bursa. In addition, the size of body of
M
.
major
(5–5.5) and
M. planicipitis
(4.3) is greater than that of
M
.
lotoris
n. sp
.
(1.8–2.41) and spicules and gubernaculum of
M. pardalis
are smaller (0.075 and 0.037) than in the new species (0.10 and 0.048, respectively) (
Cameron 1936
;
Travassos, 1937
). Finally, the body of males and females of
M. barbaris
Cameron, 1936
(3.4 and 4.1),
M. cati
Durette-Desset, Boomker & Malan, 2000
(5.1 and 5.7), and
M. samueli
Platt & Pence, 1981
(8–11.8 and 12.1– 13.6), is larger than the body of both sexes of
M. lotoris
(1.8–2.41 and 2.6–3, respectively), and the rays 9 are shorter than the dorsal ray in
M. barbaris
and
M. cati
instead of larger as in the new species (
Cameron 1936
;
Durette-Desset
et al
. 2000a
). In addition,
M. samueli
differs from
M. lotoris
by having 52 vs 17 synlophe ridges at mid-body level, respectively (
Platt & Pence 1981
).
The remaining 7 species have 2 terminal processes in the spicules as in
M. lotoris
n. sp.
; nonetheless, the length of body and the size of spicules are greater in males of
M. brachyurus
Costa & Freitas, 1967
(5.8–6.9 and 0.205–0.217) and
M. cynictis
Leroux, 1933
(5.5 and 0.184) than in the new species (1.8–2.41 and 0.099–0.115); in addition, the dorsal lobe of
M. lotoris
n. sp
.
is merged with the lateral lobes, while it is distinct in the 2 former species (
Leroux 1933
;
Costa & Freitas 1967
).
Molineus barbatus
Chandler, 1942
can be separated from the Mexican species because the body size of males is almost twice that of
M. lotoris
(4.3–4.7 vs 1.8–2.41, respectively); further, males of
M. barbatus
have 24–28 ridges in the synlophe (
Chandler 1942
) and males of the new species have
17 in
mid-body region. The presence of a globular cephalic vesicle in the new species enables differentiation from
M. asiaticus
Tubangui & Masilugnan, 1937
,
M
.
felineus
Cameron, 1923
and
M. paraensis
Travassos, 1937
, which have a cylindrical cephalic vesicle. In addition, these 3 species have the dorsal lobe distinct from lateral lobes (
Travassos 1937
;
Tubangui & Masilugnan 1937
) and the latter 2 possess a smaller number of ridges in the synlophe than
M. lotoris
n. sp
.
(12–14 and 14, vs 17, respectively). Spicules of the new species are complex, with the internal process slender, ending in a globular swelling, while in
M. asiaticus
the spicules terminate in 2 needlelike processes (
Tubangui & Masilugnan 1937
).
Molineus lotoris
n. sp
.
most closely resembles
M. elegans
(
Travassos, 1921
)
, particularly because both species have a globular cephalic vesicle. However,
M. elegans
has a cervical groove (absent in the new species), the body of males as well as spicule length are slightly greater in
M. elegans
(2.9–3.5 and 0.120–0.134 vs 1.8–2.41 and 0.099–0.115, respectively) and their bursa is trilobed (instead of having lobes merged as in
M. lotoris
). In addition, number of synlophe ridges in
M. elegans
is smaller than in
M. lotoris
(12 vs 17, respectively) (see
Travassos 1937
).