A new species of the spider genus Wirada (Araneae, Theridiidae) from Mexico, with taxonomic notes on the genus and a key to the species
Author
Campuzano, Emmanuel F.
Author
Ibarra-Núñez, Guillermo
text
Zootaxa
2018
2018-08-09
4457
3
495
500
journal article
29059
10.11646/zootaxa.4457.3.13
7714f26f-36c1-42b0-8c0e-411215a89453
1175-5326
1457864
BBA4B95A-E83B-4A91-9948-7FB12A742E16
Wirada mexicana
new species
(
Figs 1–22
)
Type
material
.
Holotype
male
:
MEXICO
:
Chiapas
:
Municipio de Motozintla
,
Cerro Boquerón
(
15°13’55.1’’ N
,
92°18’21.6’’W
,
2332 m
),
April 29, 2015
, on understory of tropical mountain cloud forest, beating tray, E. Campuzano, E. Chamé, L. Gallegos,
S. Moreno
& G.
Sánchez
(ECOTAAR-9010)
.
Allotype
female
:
Same
data, except
March 25, 2015
, searching,
E. Campuzano
,
L. Gallegos
, H.
Montaño
& S.
Moreno
(ECOTAAR-9009)
.
Paratypes
:
1 ♂
, same data as holotype, except searching (
AMNH
)
;
1 ♂
, same data except
February 25, 2015
, netting,
E. Campuzano
,
H.
Montaño
& S.
Moreno
(
CAS
)
.
1 ♂
,
La Sepultura Biosphere Reserve
,
Municipio de Villacorzo
,
Cerro Bola
(
16°08’20.7’’ N
,
93°36’36.4’’ W
,
1769 m
),
August 3, 2016
, on understory of tropical mountain cloud forest, netting, E. Campuzano, H.
Montaño
,
S. Moreno
& E.
Chamé
(ECOTAAR-9015)
.
1 ♂
, same data, except beating (ECOTAAR-9016)
.
1 ♂
,
Tacaná
volcano
Biosphere Reserve
,
Municipio de Unión Juárez
,
Talquián
(
15°05’38’’ N
,
92°06’06’’ W
,
2044 m
),
March 5, 2009
, on understory of disturbed tropical mountain cloud forest, searching, J. Maya, G. Ibarra, J. A. López &
E. Senties
(ECOTAAR-6476)
.
1 ♂
,
San
Luis Potosí
:
Municipio de Xilitla
,
Las Pozas
(
21°23’50’’ N
,
98°59’38’’ W
,
600 m
),
June 10–15, 2012
, on understory of tropical wet forest fragment, beating tray,
Aracnolab
leg (
CNAN
)
.
Etymology
. The specific epithet refers to the country of origin.
Diagnosis.
Males of this species differ from other
Wirada
species by having a straight embolus (
Figs 7–9, 11–13
), all other species have a coiled embolus (
Levi 1963
, figs 14, 19, 20;
Levi 1967
fig. 30;
Lise
et al
. 2009
figs 6, 8, 29, 32). They differ also because the tip of the prolateral projection of the median apophysis is truncated and does not surpass the distal border of the cymbium (
Figs 7–9
), whereas in all other species the prolateral projection of the median apophysis is tapered and surpass the distal border of the cymbium (
Levi 1963
, figs 14, 19, 20;
Levi 1967
, fig 31;
Lise
et al
. 2009
, figs 6, 7, 29, 30,31). The female differs from the species with known females by the copulatory openings separated from labium of epigynum by about two times their diameter (at level of the anterior border of the spermathecae,
Figs 19–21
), the other species have the copulatory openings separated from labium of epigynum by one times their diameter or less (
Levi 1963
, figs 16, 22;
Lise
et al
. 2009
, figs 24, 42). In
W. mexicana
n. sp.
the copulatory ducts are short and laterally directed to enter the spermathecae at their anterior border (
Fig. 20
), while in the other species the copulatory ducts are longer and located between the two spermathecae (
Levi 1963
, figs 15, 21;
Lise
et al
. 2009
, figs 18, 38).
Description.
Male
holotype
.
Color
: carapace, labium, endites, sternum and chelicerae red-fulvous, concolorous (
Figs 10, 14–15
). Dorsal opisthosomal scutum chestnut, with the sigilla surrounded by darker circular spots, four centrals bigger than laterals (
Fig. 10
). Ventral scutum as carapace (
Figs 14–15
). Lateral areas light brown, with the sigilla fulvous (
Fig. 14
). Spinnerets and ring around them fulvous (
Fig. 15
). Legs fulvous darker on the distal segments. Palp light fulvous, with embolus black (
Figs 11–13
).
Habitus:
Total length 1.55. Carapace 0.61 long, 0.52 width, with chitinous setiferous bridges arranged longitudinally in the middle and diagonally on lateral areas (
Figs 2, 10
). Carapace with prosomal stridulatory ridges on its posterior border (
Fig. 6
). Ocular area with a few simple setae (
Fig. 2
). Eye sizes and interdistances: AME 0.06, ALE 0.046, PME 0.052, PLE 0.052, AME-AME 0.017, AME-ALE 0.009, PME-PME 0.06, PME-PLE 0.017. AER and PER almost straight (
Figs 2, 14–15
). Clypeus 0.20 high. Cheliceral promargin with a bicuspid tooth. Endites 0.21 long, 0.13 width. Labium 0.06 long, 0.17 width. Sternum 0.33 long, 0.39 width, convex, with chitinous setiferous bridges, intercoxal sclerites present, posterior edge nearly straight, extended beyond of coxae IV, about half as wide as anterior border (
Fig. 15
). Opisthosoma 0.94 long, 0.85 width, circular in dorsal view. Dorsal scutum microsculptured with backward directed setae (
Fig. 3
) and twelve conspicuous circular sigilla, four at central area and eight around these (
Figs 3, 10
). Ventral scutum surrounding pedicel and covering epigastrium with chitinous setiferous bridges, book lung plates visible (
Figs 1, 14–15
); stridulatory nubbins at pedicel base (
Fig. 4
); spinnerets surrounded by four sclerotized plates, anterior and posterior bigger than laterals, forming a ring (
Fig. 14–15
). Membranous area between ventral and dorsal scuta with sputtered oval sigilla and sclerotized setal bases (
Fig. 14
).
Legs measurements
: Femora I 0.45, II 0.43, III 0.37, IV 0.44. Patella I 0.17, II 0.17, III 0.15, IV 0.19. Tibiae I 0.27, II 0.26, III 0.24, IV 0.28. Metatarsi I 0.25, II 0.23, III 0.22, IV 0.24. Tarsi I 0.26, II 0.26, III 0.23, IV 0.28.
Palp
: Tibia goblet-shaped (
Figs. 8, 12
), cymbium oval, convex (
Fig. 9, 13
); tegulum convex occupying the proximal two thirds of bulb (
Figs. 7–9
); theridioid tegular apophysis embedded in the tegulum, spreading to less of distal half (between tibia and median apophysis) (
Figs. 8, 12
). Median apophysis distal to tegulum, transverse, u-shaped, partially encircling the embolus base to reach the cymbial hook dorso-ectal to embolus base (
Figs 5, 7–8
); tip of prolateral process of median apophysis truncated, not surpassing the cymbium distal border, lightly sclerotized (
Figs 7, 12
); retrolateral process of median apophysis inconspicuous, crest-shaped, hyaline (
Figs 8, 12
). Embolus straight and cylindrical, its length about three and a half times as wide at its base, its tip opening oblique, partially hyaline and with a small orifice near its tip (
Figs 5, 7–9, 11–13
).
FIGURES 1–15.
Wirada mexicana
n. sp.
,
male. 1, Opisthosoma, lateral-ventral. 2, Prosoma, dorsal. 3, Opisthosoma, dorsal. 4, Opisthosoma, stridulatory nubbins and pedicel. 5, Left palpus, apical. 6, Prosoma, stridulatory ridges. 7–9, Left palpus, prolateral, ventral and retrolateral. 10, Habitus, dorsal. 11–13, Left palpus, prolateral, ventral and retrolateral. 14–15, Habitus, lateral and ventral.
Female
allotype
.
Color
: as
holotype
, except dorsal scutum, pallid yellowish with chestnut spots on sigilla (
Figs 16–17
).
Habitus:
Total length 1.62. Carapace 0.64 long, 0.52 width, with chitinous setiferous bridges arranged as
holotype
. Ocular area with few simple setae (
Fig. 16
). Eye sizes and interdistances: AME 0.07, ALE: 0.043, PME 0.052, PLE 0.052, AME-AME 0.013, AME-ALE 0.009, PME-PME 0.06, PME-PLE 0.023. AER and PER almost straight (
Figs 16–17
). Clypeus 0.11 high. Cheliceral promargin with a bicuspid tooth. Endites 0.20 long, 0.12 wide. Labium 0.08 long, 0.16 width. Sternum 0.31 long, 0.41 width, shape and texture as
holotype
(
Fig. 18
). Opisthosoma 0.98 long, 0.98 width, shape and structure as
holotype
(
Fig. 16
). Sclerotized ring of spinnerets as
holotype
, except anterior plate narrower. Dorsal scutum with fourteen conspicuous circular sigilla, four at central area and ten around these (
Fig. 16
). Ventral scutum divided in four plates (
Figs 17–18
), one dorsal to pedicel, covered with chitinous setiferous bridges (
Fig. 17
), tree others on the epigastrium, one surrounding the epigynal plate and two laterals encircling the book lungs plates (
Figs 17–18
).
Legs measurements
: Femur I 0.51, II 0.46, III 0.37, IV 0.45. Patella I 0.17, II 0.17, III 0.17, IV 0.17. Tibia I 0.27, II 0.24, III 0.21, IV 0.33. Metatarsi I 0.21, II 0.15, III 0.17, IV 0.23. Tarsi I 0.29, II 0.19, III 0.23, IV 0.29. Epigynum with a sclerotized labium projected ventrally from posterior border of atrium (
Figs 17–21
). Copulatory openings separated from labium of epigynum by about two times their diameter, separated by a septum that has a rear transverse bar (
Figs 19, 21
). Copulatory ducts short, laterally directed, forming a short arc before enter the spermathecae at their anterior border and slightly anterior to fertilization ducts insertions.
Variation.
Males (n = 12): total length 1.1–1.3; carapace length 0.61–0.68; carapace width 0.52–0.6; abdomen length 0.9–1.05; abdomen width 0.75–0.91; femur IV 0.41–0.5; patella I 0.17–0.2; IV 0.18–0.23; tibia I 0.22–0.33; IV 0.28–0.35. Live specimens have chestnut color in both sexes. In preserved specimens color is degraded from chestnut to fulvous or yellowish.
Additional material examined.
1♂
,
MEXICO
:
Chiapas
:
El Triunfo Biosphere Reserve
, core area I,
Municipio de Mapastepec
(
15°39’48.4’’ N
,
92°48’18’’ W
,
2082 m
),
March 18, 2014
, on understory of tropical mountain cloud forest, netting,
E. Campuzano
,
J. Gómez
, H.
Montaño
& G.
Angulo
(ECOTAAR-9007)
.
1♂
, La Sepultura Biosphere Reserve, Muncipio de Villacorzo,
Cerro Bola
(
16°08’20.7’’ N
,
93°36’36.4’’ W
,
1769 m
),
March 30, 2016
; on understory of tropical mountain cloud forest, searching,
E. Campuzano
,
H.
Montaño
, S.
Moreno
& E.
Chamé
(ECOTAAR-9012)
.
1♂
, same data except
April 26, 2016
(ECOTAAR-9013)
.
1♂
, same data except
August 3, 2016
(ECOTAAR-9017)
.
1♂
, same data except
July 5, 2016
, beating tray (ECOTAAR-9014).
Distribution.
Mexico
:
Chiapas
and
San Luis Potosí
(
Fig. 22
).
Natural history and habitat.
Most of the studied specimens were collected on the understory of cloud forests from southern
Mexico
at elevations higher than
1700 m
. However, the most northern record is from a tropical wet forest fragment at
600 m
(
Fig. 22
), showing that the distribution range of this species likely comprises a greater number of habitats (and elevations) than here reported. A similar distribution pattern was observed in
W. punctata
(
Levi 1963
)
. Nevertheless, the species of
Wirada
are rare in the sense they are not easily found. Concerning the biology,
Figure 21
shows the CO obstructed by organic material, and
Figure 5
shows what could be solidified seminal fluid inside the embolus tip, suggesting the ability to produce a mating plug, as in other theridiid species (
Knoflach 2004
).
Taxonomic notes.
Levi & Levi (1962)
and
Levi (1963)
referred as “radix” and “medium apophysis” what we homologize respectively to median apophysis and theridioid tegular apophysis (both following
Agnarsson 2004
).
Levi and Levi (1962)
noted for
Wirada
“Palp with paracymbial hook functional”, and “…the large triangular sclerite that fits into the paracymbial hook is the radix. It would be the only genus in which the radix fits against the paracymbial hook.” We followed the criteria and terminology of
Agnarsson
et al
. (2007)
: “the median apophysis (MA) is often concealed in back of the bulb in the unexpanded palp, forms part of the uniquely theridiid BC[bulb-cymbium]-lock mechanism…” and “The TTA may be embedded within the T but is never fused to it.” Our images show clearly that the MA is interacting with the Chk to lock the bulb in the palp, and part of it is in the back of the bulb (
Figs 5, 7–8
), and also it is clearly visible that the TTA is embedded within the T for each species in this genus.
Wirada mexicana
n. sp.
shows notable differences on the genital structures regarding its South American congeners and is the first North American genus record. Therefore, we hypothesize that
Wirada mexicana
n. sp.
could correspond to a different subgenus. Such idea also could be supported by the seeming absence of the genus in Central America. However, it is not clear if the current geographic distribution of the species in the genus is a consequence of a vicariant distribution, or a deficiency of sampling the suitable habitats, as suggested by
Lise
et al
. (2009)
. Additionally, the morphology of the palps of
W. tijuca
and
W. araucaria
differs only in minor details, and both species were found in
Brazil
(near the Atlantic coast). Since some
Wirada
species have a broad distributional range, it is possible that
W. araucaria
could be a junior synonym of
W. tijuca
, but verify this requires to compare the respective
types
.
Agnarsson (2004)
suggested the possible inclusion of
Wirada
in the subfamily
Pholcommatinae
based in the synapomorphies of this group. Nevertheless,
Wirada
lacks most of these synapomorphies, sharing only cymbial hook on ectal margin, and embolus base shifted ectally and partially hidden by cymbium. Thus, with the information to date, it is no clear to which theridiid group belongs
Wirada
. It will be necessary to collect more specimens in both subcontinents and to redescribe some species to improve the knowledge of this genus.