A new species of Caecilia Linnaeus, 1758 (Amphibia: Gymnophiona: Caeciliidae) from the Pacific lowlands of Colombia, with comments on the status of C. tenuissima Taylor, 1973
Author
Fernández-Roldán, Juan David
0000-0002-6358-1610
Laboratorio de Anfibios, Instituto de Ciencias Naturales, Universidad Nacional de Colombia, Bogotá D. C., Colombia. jdlynch @ unal. edu. co; https: // orcid. org / 0000 - 0002 - 6358 - 1610
jdlynch@unal.edu.co
Author
Lynch, John D.
0000-0002-6358-1610
Laboratorio de Anfibios, Instituto de Ciencias Naturales, Universidad Nacional de Colombia, Bogotá D. C., Colombia. jdlynch @ unal. edu. co; https: // orcid. org / 0000 - 0002 - 6358 - 1610
jdlynch@unal.edu.co
text
Zootaxa
2023
2023-04-20
5270
2
194
206
http://dx.doi.org/10.11646/zootaxa.5270.2.2
journal article
276854
10.11646/zootaxa.5270.2.2
0d832810-eced-4417-be9b-050b8b1c6065
1175-5326
7850592
8CDE156F-86BC-4EF8-B812-C51C70A431DA
Caecilia wilkinsoni
sp. nov.
Figs. 1–6
;
Table 1
.
Caecilia tenuissima
Taylor, 1973
:
Lynch (2000: 329)
{
urn:lsid:zoobank.org:pub:
8CDE156F-86BC-4EF8-B812-C51C70A431DA
}
Holotype
.
ICN 58477, an adult male collected by
Gladys Cárdenas-Arévalo
and Rafael Ángel Moreno Arias at
Quebrada El Hojal
,
Consejo Comunitario Unión del Río Rosario
, vereda
La Chorrera
, Tumaco,
Nariño
,
Colombia
,
6 April 2006
.
1° 45’ 52’’ N
,
78° 45’ 56’’ W
,
14 m
.
a.s.l. (
Figs. 1–3
).
Paratype
.
UVC 7686, an adult female obtained by Liliana Peláez at Estero San Antonio, corregimiento
Flor de la Brisa
, vereda Robles, municipio
El Charco
,
Nariño
,
Colombia
,
8 October 1984
.
2° 26’ 48.1’’ N
,
78° 11’ 44.5’’ W
,
10 m
.
a.s.l. (
Figs. 4–6
)
.
Distribution.
Currently
Caecilia wilkinsoni
sp. nov.
is known only from the
holotype
and
paratype
localities of southwestern
Colombia
in the Pacific lowlands of the Litoral Pacífico, in Tumaco, and from Estero San Carlos, El Charco,
Nariño
, between
10–
14 m
.a.s.l.
FIGURE 1.
Holotype of
Caecilia wilkinsoni
sp. nov.
(ICN 58477) in approximately A) ventral and B) dorsal views. Scale bar equals 10 mm.
FIGURE 2.
Head, collars and anterior of body of the holotype of
Caecilia wilkinsoni
sp. nov.
(ICN 58477) in A) right lateral, B) dorsal, and C) ventral views. Scale bar equals 5 mm.
Diagnosis.
Caecilia wilkinsoni
sp. nov.
differs from
C
.
atelolepis
,
C. attenuata
Taylor, 1968
,
C. caribea
,
C. corpulenta
Taylor, 1968
,
C. crassisquama
Taylor, 1968
,
C. degenerata
,
C. guntheri
,
C. inca
Taylor, 1973
,
C
.
macrodonta
,
C. occidentalis
,
C. orientalis
,
C. pachynema
(Günther, 1859)
,
C. pulchraserrana
, and
C. subdermalis
in having (vs lacking) secondary grooves.
Caecilia wilkinsoni
sp. nov.
differs from congeners that have secondary annular grooves as follows.
Caecilia disossea
Taylor, 1968
(216–262 primary grooves and 16–34 secondary grooves) is the only member of the genus that has more primary and fewer secondary grooves than
C. wilkinsoni
sp. nov.
(190–195 primary grooves and 51– 71 secondary grooves).
Caecilia aprix
also has more primary grooves (234) but an overlapping secondary groove count (58) with the new species.
Caecilia bokermanni
(180–192 primary grooves and 15–21 secondary grooves),
C. gracilis
Shaw, 1802
(183–204 primary grooves and 11–21 secondary grooves),
C. occidentalis
(186–221 primary grooves and 0–15 secondary grooves), and
C. thompsoni
(187–240 primary grooves and 26–42 secondary grooves) have overlapping counts of primary grooves and fewer secondary grooves than the new species.
Caecilia wilkinsoni
sp. nov.
has more primary annular grooves than
C
.
abitaguae
Dunn, 1942
(137–148 primary grooves and 0–5 secondary grooves),
C. albiventris
Daudin, 1803
(144–147 primary grooves and 45–53 secondary grooves),
C. antioquiaensis
(171 primary grooves and 4 secondary grooves),
C. armata
Dunn, 1942
(186 primary grooves and 92 secondary grooves),
C. dunni
Hershkovitz, 1938
(124 primary grooves and 67 secondary grooves),
C
.
epicrionopsoides
(139–163 primary grooves, 21–40 secondary grooves),
C. flavopunctata
Roze & Solano, 1963
(155 primary grooves and 27 secondary grooves),
C. guntheri
(111–132 primary grooves and 0–10 secondary grooves),
C. isthmica
(131–147 primary grooves and 12–21 secondary grooves),
C. leucocephala
(118–142 primary grooves and 17–45 secondary grooves),
C. mertensi
Taylor, 1973
(142 primary grooves and 48 secondary grooves),
C. museugoeldi
Maciel & Hoogmoed, 2018
(152 primary grooves and 26 secondary grooves),
C. nigricans
(157– 189 primary grooves and 32–62 secondary grooves),
C. perdita
(139–152 primary grooves and 64–83 secondary grooves),
C. subnigricans
(151–161 primary grooves and 17–31 secondary grooves),
C. subterminalis
Taylor, 1968
(170 primary grooves and 16 secondary grooves),
C. tentaculata
(122–137 primary grooves and 30–42 secondary grooves), and
C. volcani
Taylor, 1969
(112–124 primary grooves and 14–32 secondary grooves).
FIGURE 3.
Terminus, vent, and posterior end of body of the holotype of
Caecilia wilkinsoni
sp. nov.
(ICN 58477) in A) dorsal, B) left lateral, and C) ventral views. Scale bar equals 5 mm.
Caecilia nigricans
(159–195 primary grooves, 27–65 secondary grooves, length in width 32.6–80.4 times)— another species from the Pacific lowlands and Cordillera Occidental of
Colombia
—has overlapping counts of primary and secondary grooves, and attenuation index values with
C. wilkinsoni
sp. nov.
(190–195 primary grooves, 51–71 secondary grooves, length in width 65.6–74.7 times), but
C. nigricans
has a terminal shield or ‘’cap’’ at the posterior end of the body that is barely interrupted dorsoventrally by the last few grooves of the body vs an entirely segmented terminal portion of the body in the new species, meaning that only the small disk and vent are free of grooves in
C. wilkinsoni
sp. nov.
(
Figs. 3
,
6
). Dermal scales obtained at the posterior end of the body of
Caecilia nigricans
are subcircular vs subrectangular in
C. wilkinsoni
sp. nov.
Moreover, in life,
Caecilia nigricans
is mostly blue but
C. wilkinsoni
sp. nov.
is mostly black.
The new species is readily differentiated from
C. tenuissima
by having many more secondary grooves (51–71 vs 9). In addition, the new species has a head that is narrower than its mid-body width (vs noticeably wider than the body in
C. tenuissima
Taylor, 1973: 221
, fig. 32); though in our experience a head much wider than mid-body is a rare condition within the genus, and the
holotype
of
C. tenuissima
appears to be somewhat desiccated from available photographs, suggesting this condition might be artefactual. Another difference between the species might be that in
C. tenuissima
the eye is not visible externally, while in
C. wilkinsoni
sp. nov.
the eye is visible through translucent epidermis. There are no transverse grooves on the collars of
C. tenuissima
according to the original description (
Taylor, 1973
) but
C. wilkinsoni
sp. nov.
has well-defined transverse grooves present on both collars. Squamation also differs between these two species, in that
C. tenuissima
has dermal scales only towards the terminus while
C. wilkinsoni
sp. nov.
has dermal scales throughout its body.
FIGURE 4.
General body view of the paratype of
Caecilia wilkinsoni
sp. nov.
(UVC 7686) in approximately A) dorsal, and B) ventral views. Scale bar equals 10 mm.
FIGURE 5.
Head, collars, and anterior of body of the paratype of
Caecilia wilkinsoni
sp. nov.
(UVC 7686) in A) right lateral, B) ventral, and C) dorsal views. Scale bar equals 5 mm.
FIGURE 6.
Terminus, vent, and posterior of body of the paratype of
Caecilia wilkinsoni
sp. nov.
(UVC 7686) in A) right lateral, B) ventral, and C) dorsal views. Scale bar equals 5 mm.
FIGURE 7.
General view of the holotype of
Caecilia tenuissima
(USNM 12353). The body has been fragmented into three pieces and the head is missing. Photograph by Jenna L. Welch at Smithsonian Institution.
Caecilia wilkinsoni
sp. nov.
(190–195 primary grooves, 51–71 secondary grooves, length in width 65.6–74.7 times) is superficially similar to
C. thompsoni
(187–240 primary grooves, 26–42 secondary grooves, length in width 62–100 times), an endemic species of the
Magdalena
Valley of
Colombia
and the adjacent Cordilleras Central and Oriental, as well as the largest caecilian in the World, achieving a notable total length of
1767 mm
(
Arredondo-Salgar, 2007
). However, the new species has more secondary annular grooves than
C. thompsoni
(51–71 vs 26–42) and has small, flattened (not protruding) narial plugs on the tongue (vs protruding narial plugs in
C. thompsoni
).
Description of the
holotype
.
General condition of the specimen is good given that the individual was found dead, though it has two dorsal flesh wounds; one between primary grooves 116–121 and another between primary grooves 157–168. A ventral longitudinal incision was made between primary grooves 166–188 to search for sexual organs, and a few dermal pockets towards the terminus were opened to search for dermal scales. An adult male with a total body length of
590 mm
and a mid-body width of
7.9 mm
, length divided by width 74.7 times. Head (
7.7 mm
) slightly narrower than body. In lateral view, top of head slightly vaulted (not straight), upper margins of the mouth very slightly concave, lower margins of the mouth straight. Snout blunt in dorsal view, rounded in ventral view, but generally pointed (bullet-like) in profile, it extends beyond the mouth by
2 mm
. Nostrils oval and broadening posteriorly, visible in dorsal view but not visible in ventral view, closer to tentacular opening than to eye, distance between nostril and tentacular opening
1.6 mm
, distance between eye and nostril
4.5 mm
, distance between nostrils
2.8 mm
. Eyes small,
0.5 mm
in diameter, covered by translucent epidermis and clearly visible in dorsal and lateral view but not visible in ventral view. Eye lies closer to the commissure of the mouth (
4.2 mm
) than to the nostril (
4.5 mm
). Distance between eyes 5.0 mm, less than distance from tip of snout to eye level (
5.5 mm
). Tentacular opening circular in outline, elevated above the skin, positioned below and posterior to the nostril, closer to margin of the mouth than to the nostril, barely visible in dorsal view. Collars well defined, the first is smaller than the second and bears a short groove dorsally, the second collar bears two incomplete grooves dorsally and dorsolaterally. The first and second nuchal grooves are complete, but the third nuchal groove incomplete dorsally and ventrally. Body width is even from collars (
8.1 mm
) to mid-body, where it then begins to taper, reaching a minimum body width of
6.5 mm
at the fourth fifth of the total body length, before becoming abruptly stouter (
8.1 mm
) at the terminus, i.e. equivalent in width to the collars.
FIGURE 8.
Geographic distribution of
Caecilia tenuissima
(red square) and
C. wilkinsoni
sp. nov.
(yellow circles).
TABLE 1
. Measurements and meristic data for the holotype (ICN 58477) and paratype (UVC 7686) of
Caecilia wilkinsoni
sp. nov.
|
Characters/Specimens
|
ICN 58477 |
UVC 7686 |
| Total length (mm) |
590 |
650 |
| Width at mid-body (mm) |
7.9 |
9.9 |
| Length/width (times) |
74.7 |
65.6 |
| Snout projection (mm) |
2 |
2.3 |
| Snout tip-eye level (mm) |
5.5 |
5.2 |
| Distance between the eyes (mm) |
5.0 |
5.2 |
| Eye-mouth’s commissure distance (mm) |
4.2 |
3.8 |
| Eye-nostril distance (mm) |
4.5 |
3.8 |
| Eye-tentacular opening (mm) |
4.1 |
3.9 |
| Nostril-tentacular opening (mm) |
1.6 |
1.6 |
| Distance between the nostrils (mm) |
2.8 |
2.8 |
| Anteriormost scale found at groove no. |
1 |
1 |
| Primary grooves |
195 |
190 |
| Secondary grooves |
71 |
51 |
| Complete primaries towards terminus |
10 |
12 |
| Complete secondaries towards terminus |
7 |
6 |
| Grooves interrupted by vent |
5 |
7 |
| Anterior denticulations on vent |
6 |
5 |
| Posterior denticulations on vent |
7 |
5 |
| Premaxillary-maxillary teeth |
7–1–8 |
6–6 |
| Vomeropalatine teeth |
10–1–8 |
6–7 |
| Dentary teeth |
8–8 |
7–8 |
| Inner mandibular teeth |
2–2 |
2–2 |
Primary grooves 195, only the last 10 prior to the vent completely encircle the body; secondary grooves 71, all on posterior half of body, the last 7 prior to the vent completely encircle the body. No terminal shield. Vent very small, and transverse, bordered by 6 denticulations anteriorly and 7 posteriorly, no anal glands in region surrounding vent. Dermal scales present as far anteriorly as the first primary groove, small (
0.7 mm
wide by
0.4 mm
long), and oval; those closest to the terminus are very large (
2.3 mm
wide by
2.1 mm
long), subrectangular, thicker and broader at the margin of inception with the dermal pocket. No trace of subdermal scales within the connective tissue of the skin.
All teeth monocuspid, pointed and slightly recurved, mandibular teeth considerably larger and more recurved than maxillary teeth. Four dental series are present: the premaxillary-maxillary series has 7-1-8 teeth, posterior ones notably smaller; the vomeropalatine series has 10-1-8 teeth, decreasing in overall size posteriorly; the dentary series has 8-8 teeth, very large, recurved, decreasing in overall size posteriorly, and show signs of tooth replacement; the inner mandibular series has 2-2 teeth, small, pointed, slightly oblique, and partially concealed by the gums. Choanae circular,
1.5 mm
apart, diameter of each choana is
0.7 mm
. Small, flattened, black-ish narial plugs present on the tongue, these are darker in contrast to the generally whitish color of the mouth. Coloration in life does not differ much from coloration in preservative. Main body coloration according to the field notes by the collectors of the
holotype
is dark purple on the dorsal surfaces, gradually becoming slightly olive on the ventral surfaces. Only the nostrils, tentacular openings, lips and vent have a contrasting pale cream color. Dermal scales are gray. No median ventral stripe.
Variation.
In profile, the snout of the
holotype
is blunt but that of the
paratype
is rounded. The eye lies closer to the commissure of the mouth than to the nostril in the
holotype
, but equidistant between the commissure of the mouth and the nostril in the
paratype
. The vent is situated flush inside the surrounding disc in the
holotype
but situated in a slight depression (concave) in the
paratype
; the anterior margin of the vent of the
paratype
has two very small anal glands, unlike the
holotype
; the width of the disc surrounding the vent is smaller in the
holotype
but larger in the
paratype
. The
paratype
differs from the
holotype
by having 5 denticulations on the anterior and posterior margins of the vent vs 6 anterior denticulations and 7 posterior denticulations in the
holotype
. The attenuation index values indicate that the
holotype
is slenderer than the
paratype
(74.7 vs 65.6:
Table 1
). The gums of the
paratype
are very thick and conceal most of the teeth on all four dental series, with only their protruding ‘tips’ being noticeable; this condition is not present in the
holotype
. The choanae are circular in the
holotype
but subcircular in the
paratype
. Moreover, indications of teeth replacement in the form of dark, asterisk-like markings adjacent to emerging teeth were detected on the gums of the
holotype
but not the
paratype
. Lastly, it appears to us that the
paratype
has dried out at least once in the past 39 years and this made us chose the ICN specimen as the
holotype
.
Etymology.
This species is named after Dr. Mark Wilkinson, Merit Researcher at the Natural History Museum in London,
U.K.
, in recognition of his life-long dedication to the study of
Gymnophiona
. His numerous, highquality caecilian studies have provided a path for all aspiring ‘gymnophionologists’ to follow.
Natural history.
Unknown, although the field notes associated with the
holotype
indicate that this individual was found dead along a road at 12:00 hours in the surroundings of a stream. The
paratype
was found alive approximately
50 cm
below the surface.