Taxonomy and natural history of the poorly known Dindigul shieldtail Uropeltis dindigalensis (Beddome, 1877) (Serpentes: Uropeltidae)
Author
Ganesh, S. R.
0000-0002-1947-8093
Chennai Snake Park, Rajbhavan Post, Chennai- 600020, Tamil Nadu, India http: // orcid. org / 0000 - 0002 - 1947 - 8093
Author
Sampaio, Filipa L.
0000-0002-7451-8318
Department of Genetics, Evolution and Environment, University College London, London, WC 1 E 6 BT, UK https: // orcid. org / 0000 - 0002 - 7451 - 8318 & Department of Life Sciences, The Natural History Museum, London SW 7 5 BD, UK
Author
Gower, David J.
Department of Life Sciences, The Natural History Museum, London SW 7 5 BD, UK & Department of Zoology, Central University of Kerala, Kerala, 671320, India
text
Zootaxa
2022
2022-11-15
5209
1
111
126
journal article
188513
10.11646/zootaxa.5209.1.6
656bdfca-bd26-4352-be63-a2d94cca1b55
1175-5326
7322573
36C6DA66-C341-46EA-8FAF-4EA66F0ACEC1
Uropeltis dindigalensis
(
Beddome, 1877
)
(
Figs. 1–8
;
Tables 1–3
; Appendix 2)
Silybura dindigalensis
Beddome, 1877
Silybura dindigalensis
—
Beddome 1886
;
Boulenger 1890
,
1893
;
Sclater 1891
;
Sarasin 1910
;
Wall 1923
Uropeltis dindigalensis
—
Smith 1943
;
Gans 1966
;
Rajendran 1985
;
McDiarmid
et al.
1999
;
Vanak
et al.
2001
;
Sharma 2004
;
Ganesh & Asokan 2010
;
Wallach
et al.
2014
;
Ganesh & Arumugam 2015a
, b, 2016a, b;
Pyron
et al.
2016
Uropeltis
(
Siluboura
)
dindigalensis
—
Mahendra 1984
FIGURE 1.
Map of southern peninsular India, with inset showing type locality of
Uropeltis dindigalensis
(Sirumalai; Eastern Ghats) and nearby hills. The square slightly North of Sirumalai is the town of Dindigul [Dindigal]. The white star in the inset map indicates Thandigudi [Thandikudi], and the white circle indicates Adalur, localities of
U. broughami
, in the Palni [Palani] Hills of the Western Ghats, both at ca. 1,300 m elevation. Small hill ranges of the Eastern Ghats close to Sirumalai abbreviated as follows: Al, Alagarmalai; Ay, Ayyalur; K, Karandhamalai; S, Semmalai.
Lectotype
(here designated).
BMNH 1946.1
.16.3 (formerly 83.1.12.6:
Fig. 2
) from Sirumallays, near Dindigal,
4,500 ft
, collected before 1883 (based on accession date: the “83.1.12” part of the original number indicates
12 January 1883
) and very probably before 1878 (given that the species was described in 1877),
R
.
H. Beddome.
Paralectotypes
.
BMNH 1946.1
.16.2 (formerly 83.1.12.5:
Fig. 3
)
,
BMNH 1946.1
.16.4 (formerly 83.1.12.7:
Fig. 4
) and
MNHN 1895.88
(
Fig. 5
) from
Sirumallays
, near
Dindigal
,
4,500 ft
, before 1883 and very probably before 1878
,
R
.H.
Beddome
.
FIGURE 2.
Lectotype of
Uropeltis dindigalensis
, BMNH
1946.1.16.3 (formerly 83.1.12.6). Scale bars in 1 mm increments.
FIGURE 3.
Paralectotype of
Uropeltis dindigalensis
, BMNH
1946.1.16.2 (formerly 83.1.12.5). Scale bars in 1 mm increments.
Other Material Examined.
BMNH 1946.1
.16.37 (formerly 77.8.10.3),
Sirumallays
, near
Dindigal
(according to mid-20
th
Century catalogue and jar label, but no locality information provided in 1877 accessions register), 1877 or earlier
,
R
.H.
Beddome
,
BNHS 3277
,
Kandige Estate
,
Sirumalai Hills, S.P
.
Vijayakumar
.
CAS 244756–763
(
8 specimens
).
All
of these
CAS
specimens except
CAS 244756
are reported in the
CAS
catalogue as from
1,500 m
at Sirumalai, collected 11 May, 1972.
CAS 244756
is reported as from
6,500–7,500 ft
(
1,981–2,286 m
) in or near Kodaikanal, collected
5 November 1972
.
All
CAS
specimens collected by or for
C. Gans
.
FIGURE 4.
Paralectotype of
Uropeltis dindigalensis
, BMNH
1946.1.16.4 (formerly 83.1.12.7). Scale bars in 1 mm increments.
Remarks.
Because we (i) are revisiting the taxonomy of
U. dindigalensis
, (ii) note that a congener
U. broughami
(Beddome, 1878)
with the same reported type locality shares a similar tail shield and colour pattern (
Pyron
et al
. 2016
), and (iii) recognize that there are reported variations in colour pattern among the
syntypes
of
U. dindigalensis
such that they might not all match historical accounts in the literature (see
Pyron
et al
. 2016
), we designate a
lectotype
. As per Article 74.7 of the 4
th
Edition of the International Code of Zoological Nomenclature (
ICZN 1999
), we select BMNH 1946.1.16.3 (formerly 83.1.12.6), an adult female, as the
lectotype
of
Silybura dindigalensis
Beddome, 1877
. We select this specimen as
lectotype
because it is the best-preserved of the BMNH types, the material of which we have been able to examine extensively (Recommendation 74D). The other
three syntypes
hereby become
paralectotypes
(Recommendation 74F).
It is unclear whether any of the CAS specimens (non-types) are the same as those that
Rajendran (1985)
reported collecting in Sirumalai on a single day (
11 May 1972
). However, we consider that as possible because Gans’ Indian uropeltid material was typically obtained with or by Rajendran and family and/or colleagues (Albert Rajendran, pers. comm.), and the CAS specimens fall within the size range of the
19 specimens
reported by
Rajendran (1985
: table 13).
Description of
lectotype
.
An adult female; specimen well-preserved, retaining much of its colour and pattern; forebody mildly thicker than the rest of trunk; head narrower than neck; snout pointed in profile and especially in dorsal view; eyes small compared to ocular scale (ca. one quarter of the length); tail with an incompletely flattened caudal disc (tail shield) bearing matt, multicarinate scales. A relatively large specimen, total length
349 mm
, of which tail length
12.2 mm
(3.5 % of total length). Body subcylindrical, midbody width
10.2 mm
; head (
9.7 mm
long) shorter than tail shield (
11.9 mm
), which is longer than broad (
7.9 mm
). Midbody ventral scales
4.6 mm
wide, approximately 1.4 times wider than scales in adjacent first row of dorsals (
3.2 mm
).
Rostral visible from above, partly separating opposite nasals; part of rostral visible from above slightly longer than its distance from frontal; nostril piercing anteroventral corner of nasal; frontal hexagonal, longer than broad, ocular margins slightly converging posteriorly; parietals large, each longer and wider than frontal. Supralabials 4,4, first the smallest of all head shields, rectangular; second supralabial taller than long, third longer than tall, taller anteriorly, shorter posteriorly; fourth supralabial much the largest. Infralabials 3,3, second the largest, third the smallest. Body scales macroscopically smooth and glossy, imbricate, cycloid; dorsal scale rows: 19: 17: 17 (see Appendix 2 for scale row reductions); ventrals 168; subcaudals 7,6; caudal scales across length of tail shield 6; caudal scales across width of tail shield 4; matt shield scales with 2–5 keels per scale; terminal scute dorsoventrally flattened, with tubercles, low keels and two pointed, posteriorly and slightly upwardly projecting terminal spurs.
Dorsum fawn brown overall; tail shield, head and anterior one seventh of body somewhat darker and browner (versus paler and more off-white). Most scales on dorsum pale (off-white), some of which have dark (brown) flecks or speckles; fewer scales on dorsum with larger dark areas (especially towards scale bases) with pale flecks; these darker scales arranged mostly in a series of transverse whorls that fail to continue across the venter; ventral side instead brown with larger pale yellow to off-white irregular and irregularly distributed spots. Darker dorsal whirls zigzagging and approximately one-scale wide, interspersed by generally 1–2 pale scales. Rostral paler and more orange than other head scales; labials, gular and venter, pale yellow, extending posteriorly as irregular, poorly developed stripes along the lateral surface of anterior end of body to approximately 3–4 head lengths behind head. Underside of tail brown with pale yellow marks on pre-anal region, central part of underside of tail, and narrow midline of posterior of ventral surface of tail.
Variation.
Including the
lectotype
, the examined museum specimens comprise
seven females
(
198–353 mm
) and
seven males
(
156–213 mm
), which are clearly sexually dimorphic in numbers of ventrals (161–169 versus 151–158, respectively) and subcaudals (5–7 versus 8–11) (
Tables 1–2
). In addition, females have relatively shorter tails (3.3–3.7 % of TL versus 4.9–6.1 %) with relatively less-elongate tail shields, and typically fewer keeled, matt scales on the shield (22–28 versus 28–31). The sample size is small, but available data suggest that females also attain greater total length. There are invariably four supralabials per side and three infralabials per side except for four infralabials on the left of CAS 244757. In the four BMNH specimens, dorsal scales reduce from 19 rows behind the head to 17 rows by the 26
th
to 39
th
ventral (Appendix 2); most specimens maintain this number of rows to near the vent but with a very minor fluctuation (one side only in BMNH 1946.1.16.2 and 4) or a brief return to 19 rows (BMNH 1946.1.16.32), though in the
lectotype
and on one side of each of BMNH 1946.1.16.2 and 4 there is instead a larger third row scale and smaller fourth row scale between the 53
rd
and 60
th
ventral (see
Sampaio
et al.
2020
for a discussion of similar scale row irregularities in
Rhinophis
spp.
). See below (penultimate paragraph of Distribution section) for a discussion of the morphology of the tail shield of
U. dindigalensis
with respect to the shield types designated by
Smith (1943)
and
Pyron
et al
. (2016)
.
The
MNHN
paralectotype
resembles the other types in having yellow lip margins (
Fig. 5
),
contra
Pyron
et al
. (2016)
. The
BMNH
paralectotypes
are generally slightly darker than the
lectotype
,
with more than half of the scales on the dorsum being more than half brown (versus very few in the
lectotype
). The
BMNH
and
MNHN
paralectotypes
have more clearly apparent (more strongly contrasting) darker zigzag transverse markings on the dorsum, and also have a slightly better developed pale yellow lateral stripe behind the head, which runs along dorsal scale row 4 and the margins of rows 3 and 5 (versus along the junction between rows 3 and
4 in
the
lectotype
).
At least some of
Rajendran’s (1985
: table 13) scalation data reported for
U. dindigalensis
differ substantially from our observation of all specimens known to us. The way the first (anteriormost) ventral scale was identified in that work (
Rajendran 1985
) was not reported, but even allowing for differences in that (see
Gower & Ablett 2006
), it is difficult to reconcile our ventral counts of 151–169 with Rajendran’s counts of 139–164 (with 12 of
19 specimens
reported by Rajendran as having counts of <151), and the much less clearly bimodal (sexually dimorphic) relationship between numbers of ventrals and numbers of subcaudals for Rajendran’s data. Nevertheless, we do not doubt the identity of these topotypical specimens being
U. dindigalensis
. We are satisfied that no other morphologically diagnosable uropeltid species has definitely been recorded in Sirumalai, at least in the higher elevations from where Rajendran collected this lot (
Beddome, 1886
;
Vanak
et al.
2001
;
Ganesh & Arumugam 2016a
;
Pyron
et al.
2016
; this work).
Ganesh & Arumugam (2016a)
presented ranges for some scale counts and measures for nine uncollected specimens observed in the field. Here (
Table 3
) we present those field-collected data individually and add the ventral counts. The previous report of single rather than paired anal shields and four rather than three infralabials on each side (
Ganesh & Arumugam 2016a
) were in error. Otherwise, the scalation data for the uncollected specimens are within the ranges recorded for the preserved museum specimens, except for female subcaudal counts of 8 rather than 5–7. Small differences in the range of relative tail length for males and females might be caused by minor differences in how tail length and total length were measured by different observers and/or in differences between live and preserved material.
TABLE 1.
Morphometric (in mm) and meristic data for type and BMNH and BNHS referred museum specimens of
Uropeltis dindigalensis
. Blank cells indicate data not recorded. ** denotes lectotype; * paralectotype. L = length, W = width. Width of ventral shields and of scales in the first dorsal scale row (DRS1) were measured at midbody. Scales L and W are the number of keeled, matt scales along the maximum length and maximum width of the tail shield (excluding the terminal scute). % tail L = tail length as a % of total Length; – = data not recorded.
| BMNH 1946.1.16.3** |
BMNH 1946.1.16.2* |
BMNH 1946.1.16.4* |
MNHN 1895.88* |
BMNH 1946.1.16.37 |
BNHS 3277 |
| Sex |
F |
M |
F |
F |
F |
F |
| Total L |
349 |
186 |
230 |
230 |
353 |
198 |
| Tail L |
12.2 |
10.9 |
8.4 |
8.0 |
11.7 |
7.1 |
| % tail L |
3.5 |
5.9 |
3.7 |
3.5 |
3.3 |
3.6 |
| Midbody W |
10.2 |
6.0 |
7.1 |
7.1 |
11.9 |
– |
| Head L |
9.7 |
5.6 |
6.2 |
6.0 |
9.5 |
– |
| Ventral shield W |
4.6 |
2.4 |
2.9 |
2.8 |
4.7 |
– |
| DSR1 W |
3.2 |
1.5 |
1.8 |
1.8 |
3.4 |
– |
| Ventrals |
168 |
157 |
167 |
168 |
167 |
161 |
| Subcaudals (‘fused’) |
7,6 (0) |
11,10 (0) |
6,5 (0) |
6,6 (0) |
6,6 (2) |
6,7 (0) |
| Shield L |
11.9 |
8.5 |
8.4 |
7.4 |
12.8 |
8.1 |
| Shield W |
7.9 |
4.2 |
5.9 |
5.5 |
8.7 |
4.9 |
| Scales L |
6 |
8 |
7 |
6 |
6 |
7 |
| Scales W |
4 |
4 |
4 |
5 |
4 |
4 |
| Shield scales |
25 |
28 |
25 |
22 |
23 |
28 |
TABLE 2.
Morphometric (in mm) and meristic data for CAS referred museum specimens of
Uropeltis dindigalensis
. See caption to Table 1 for information on characters and abbreviations. These specimens are all somewhat dehydrated.
| CAS 244756 |
CAS 244757 |
CAS 244758 |
CAS 244759 |
CAS 244760 |
CAS 244761 |
CAS 244762 |
CAS 244763 |
| Sex |
M |
F |
F |
M |
M |
M |
M |
M |
| Total L |
204 |
236 |
235 |
199 |
211 |
213 |
202 |
156 |
| Tail L |
12.4 |
8.4 |
8.3 |
11.1 |
12 |
11.2 |
9.9 |
9.3 |
| % tail L |
6.1 |
3.6 |
3.5 |
5.6 |
5.7 |
5.3 |
4.9 |
6.0 |
| Midbody W |
6.9 |
6.6 |
7.5 |
5.5 |
6.5 |
7.3 |
7.3 |
4.7 |
| Head L |
5.7 |
5.4 |
6.3 |
5.4 |
5.5 |
5.4 |
5.4 |
4.5 |
| Ventral shield W |
2.8 |
2.7 |
3.2 |
2.4 |
2.4 |
2.7 |
2.7 |
1.8 |
| DSR1 W |
1.6 |
1.7 |
2.2 |
1.4 |
1.6 |
1.5 |
1.6 |
1.2 |
| Ventrals |
158 |
169 |
166 |
153 |
157 |
151 |
152 |
155 |
| Subcaudals (‘fused’) |
9,10 (0) |
7,6 (0) |
6,6 (0) |
9,8 (3) |
10,10 (1) |
11,11 (0) |
11,10 (0) |
11,10 (0) |
| Shield L |
8.6 |
8.4 |
8.0 |
9.4 |
9.7 |
9.1 |
9.1 |
7.2 |
| Shield W |
4.4 |
5.1 |
5.4 |
4.5 |
4.5 |
4.5 |
4.6 |
3.8 |
| Scales L |
8 |
7 |
6 |
9 |
9 |
8 |
8 |
8 |
| Scales W |
4 |
4 |
3 |
4 |
4 |
4 |
4 |
4 |
| Shield scales |
31 |
29 |
22 |
30 |
33 |
30 |
30 |
32 |
TABLE 3.
Morphometric (in mm) and meristic data for uncollected specimens of
Uropeltis dindigalensis
reported by
Ganesh & Arumugam (2016a)
. See caption to Table 1 for information on characters and abbreviations. * = specimen too damaged to record data; – = data not recorded.
| i |
ii |
iii |
iv |
v |
vi |
vii |
viii |
ix |
| Condition |
live |
live |
live |
live |
live |
live |
live |
live |
roadkill |
| Sex |
M |
F |
F |
M |
M |
M |
F |
M |
F |
| Total L |
233 |
244 |
239 |
252 |
238 |
267 |
131 |
169 |
240 |
| Tail L |
12.5 |
9.0 |
9.0 |
12.5 |
12.0 |
17.0 |
6.0 |
9.0 |
8.0 |
| % tail L |
5.4 |
3.6 |
3.7 |
4.9 |
5.0 |
6.3 |
4.5 |
5.4 |
3.3 |
| Midbody W |
5.5 |
6.0 |
6.0 |
6.5 |
5.5 |
7.0 |
4.0 |
4.5 |
* |
| Head L |
5.0 |
6.0 |
6.0 |
7.0 |
5.5 |
8.0 |
– |
– |
6.0 |
| Head W |
4.5 |
5.0 |
5.0 |
5.5 |
4.5 |
6.0 |
– |
– |
5.0 |
| Ventrals |
156 |
161 |
165 |
155 |
156 |
155 |
– |
– |
* |
| Subcaudals |
10 |
8 |
8 |
10 |
10 |
10 |
– |
– |
* |
| Shield L |
8 |
7 |
8 |
9 |
8 |
11 |
– |
– |
7 |
| Shield W |
4 |
5 |
5 |
5 |
4 |
6 |
– |
– |
6 |
| Scales L |
8 |
7 |
7 |
9 |
8 |
8 |
7 |
7 |
7 |
| Scales W |
4 |
4 |
3 |
4 |
4 |
4 |
4 |
3 |
4 |
| Shield scales |
30 |
30 |
25 |
33 |
32 |
29 |
26 |
25 |
30 |
FIGURE 5.
Paralectotype of
Uropeltis dindigalensis
, MNHN
1895.88. Scale bars (for upper two images) in 1 mm increments.
Natural-history observations.
Uropeltis dindigalensis
, as most other shieldtails, are probably mostly fossorial—
Rajendran (1985)
reported digging them out from moist manure heaps and from compost near graveyards. This species is probably more active on the surface during the monsoons, when live individuals were found, often on or close to roads. However the studies reported by both
Vanak
et al.
(2001)
and
Ganesh & Arumugam (2015a
, b; 2016a, b) did not include sampling during the dry season (February–April). Surface activity in this species appears to be largely nocturnal or crepuscular because many roadkill specimens were recorded in the early morning (
Ganesh & Arumugam, 2015b
). However, at least on one occasion an adult was observed actively foraging and feeding during broad daylight.
Rajendran (1985)
reported collecting
19 specimens
of
Uropeltis dindigalensis
in 1972 from Sirumalai at
1,500 m
, although the highest peak of Sirumalai is at an elevation of
1,390 m
. Rajendran found specimens in plantain cultivations, an abandoned graveyard, under rotting leaves, on the edge of manure, and in rubbish (“dump”) heaps. He adds that the soil hardness measured with a penetrometer read 0.5–1.5 (units unspecified), the temperature was 22–23°C, and that the soil and leaf litter fauna at these digging sites included centipedes, millipedes, termites, earthworms, and the elapid snake
Calliophis nigrescens
.
Rajendran (1985)
also reported anecdotal information from farmers that small, possibly newborn
U. dindigalensis
are observed during June.
A total of 13
U. dindigalensis
were observed during monsoon (June to September) and post-monsoon (October to December) surveys undertaken between
May 2014
and
January
2015
in Sirumalai, as reported by
Ganesh & Arumugam (2015a
, b; 2016a, b). These surveys comprised 500 hours of visual encounter and time-constrained searching. No dedicated digging was deployed because the study was focused on all herpetofaunal species. Eight live
U. dindigalensis
were observed, the other five individuals being roadkills, 8.6% of all roadkill herpetofauna encountered during these surveys (
Ganesh & Arumugam 2015b
). The following natural history observations were made by one of us (SRG) during the surveys reported by
Ganesh & Arumugam (2015a
, b; 2016a, b).
On
20
th
May 2014
, an adult (
Fig. 6D
) was sighted under a fallen log in disturbed forest, at 11:20 h in Gowmari Amman Koil (10.236˚N, 78.011˚E;
1,130 m
elevation). On
21
st
May 2014
, a male and female (
Fig. 6B
) were found next to each other under a log in a coffee plantation adjoining wet forests, at 10:30 h in Agasthyapuram (10.222˚N, 77.978˚E;
1,215 m
). The male (10 pairs of subcaudals) was darker and smaller (total length
207 mm
) than the female (
250 mm
; 7 pairs of subcaudals); the male’s hemipenes were slightly visible when first examined. On
25
th
May 2014
, the smallest recorded individual (TL
130 mm
) was encountered (
Fig. 6C
), found under a rock in a bean and areca nut plantation, at 13:00 h in Kannadiparai (10.180˚N, 78.007˚E;
1,170 m
). On
27
th
May 2014
, an adult (
Fig. 6A
) was sighted under a fallen log in a matrix of secondary forest and coffee plantation, at 09:10 h near Namasthe Estate (10.181˚N, 77.969˚E;
970 m
).
On
12
th
June 2014
, an individual in ecdysis was found under a flowerpot in a fruit orchard, at 10:10 h in Siluvamalai (10.250˚N, 77.987˚E;
1320 m
). Pieces of its cast-off slough were visible as it was shedding. Portions of forebody skin had already shed and sloughing was occurring on posterior parts of the body when sighted (
Fig. 6E
). On
24
th
June 2014
, a presumably adult (not small) individual was sighted under a rock near a stream inside a matrix of moist deciduous forests and bean and bitter-gourd plantation at 13:10 h in Karuppusamy Koil (10.159˚N, 77.996˚E;
1,210 m
).
On
18
th
December 2014
, a freshly dead, roadkill specimen was found at 8:30 h near Sirumalai View point (10.257˚N, 77.998˚E;
1,060 m
). It had parts of an earthworm’s body inside its gut (
Fig. 6F
). On the same day, two much more squashed roadkills were sighted near the same site, at 09:15 h and 12:30 h. On
22
nd
December 2014
, a roadkill was sighted on a tar road bordering a temple pilgrimage site at 09:00 h near Vellimalayan Koil (10.240˚N, 77.994˚E;
1,180 m
).
On
29
th
December 2014
, a
250 mm
long individual (
Fig. 6G
) was observed feeding on a roadkill earthworm at 10:45 h in VSN Estate, Pazhapannai (10.184˚N, 77.994˚E;
1,090 m
). The dead earthworm was approximately as long as the snake, was fresh and limp and probably not long dead. At 10:48 h the snake approached the dead earthworm from the side of the road, where the habitat was fruit orchards and disturbed moist deciduous forest. At 10:49, the snake’s snout was in contact with the earthworm, which it tongue-flicked five times. At 10:50–10:51, the snake bit the earthworm at one end of its body and started feeding. The snake swallowed approximately 40% of the earthworm in 14 minutes. At 11:03 the snake started to break the earthworm’s body midway by biting and shaking its head to either side repeatedly. The snake finished feeding at this point and by 11:05 h slowly moved away from the middle of the tar road back to the roadside vegetation. A part of the worm remained uneaten on the road. On
30
th
December 2014
, a heavily squashed roadkill
U. dindigalensis
was sighted on a tar road passing through coffee estates at 08:55 h near JMA Gardens (10.251˚N, 77.991˚E;
1,150 m
).
FIGURE 6.
Photographs of live and roadkill specimens of
Uropeltis dindigalensis
taken in the field in 2014.
The large (
353 mm
TL) female specimen BMNH 1946.1.16.37 is gravid, as could be seen from a longitudinal ventral incision into the coelom. The microCT scan data show six foetuses in the posterior half of the body (
Fig. 7
). This matches closely
Rajendran’s (1985: 70)
report of five to seven foetuses in three dissected specimens. In BMNH 1946.1.16.37, the foetuses are all loosely coiled, three with their heads pointed anteriorly, three posteriorly.
FIGURE 7.
Volume reconstruction of high-resolution x-ray computed tomography data for gravid female
Uropeltis dindigalensis
specimen BMNH 1946.1.16.37.
Distribution.
The
type
specimens of
Uropeltis dindigalensis
were reportedly (
Beddome 1877
) collected between ca.
1,200
–1,500
m
elevation at Sirumalai (ca. 10.17–10.28˚N, 77.94–78.10˚E), in the southernmost part of the Eastern Ghats. This hill range is now known to also harbour other endemic reptiles, such as the recently described rock gecko
Hemidactylus sirumalaiensis
(
Khandekar
et al.
2020
)
. As far as we are aware, all other
U. dindigalensis
museum specimens and records are from the same small hill range (
Beddome 1877
;
Rajendran 1985
;
Vanak
et al.
2001
;
Ganesh & Asokan 2010
;
Ganesh & Arumugam 2015a
, b; 2016a, b), except for CAS 244756 from Kodaikanal, according to catalogue data that we consider questionable. The individuals reported by
Ganesh & Arumugam (2015a
, b; 2016a, b) were found between
970–1,320 m
elevation. Local people and Forest Department staff reported to one of us (SRG) in 2014 that the species has been sighted in Sirumalai at elevations as low as
650–
700 m
. If confirmed, this might open the possibility of
U. dindigalensis
occurring in some nearby, lower elevation ranges such as Ayyalur (10.42˚N, 78.21˚E;
950 m
elevation), Karandhamalai (10.31˚N, 78.20˚E;
920 m
), Semmalai (10.58˚N, 77.20˚E;
1,000 m
) and Alagarmalai (10.12˚N, 78.23˚E;
790 m
) hills (
Fig. 1
).
Ganesh
et al.
(2008)
and
Chandramouli & Ganesh (2010
; also
Ganesh
et al
. 2014b
) listed
U. dindigalensis
and
U.
cf.
dindigalensis
, respectively, as part of the fauna of the High Wavy Mountains (Meghamalai), of the Western Ghats, highlands that are approximately
65 km
southwest of the
type
locality of
U. dindigalensis
. These reports were based on four animals, none of which were collected, but one of which was photographed in life (
Chandramouli & Ganesh 2010
: fig. 16;
Ganesh
et al.
2014b
: fig. 6a) and two dead animals that were examined for scalation. Upon further consideration, the colour pattern, possession of a rostral scale that separates the nasals, a tail shield most similar to
Smith’s (1943)
Group III strongly that this is not
U. dindigalensis
. Instead, these specimens are much more similar to
U. pulneyensis
(Beddome, 1863)
(except for their higher ventral count of approximately 190) or
U. grandis
(Beddome, 1867)
(except for their lower ventral count and 17 versus 19 dorsal scale rows at midbody). These specimens are currently better considered as
U.
cf.
pulneyensis
. There is no evidence that
U. dindigalensis
occurs in Meghamalai.
No other uropeltid species were found at Sirumalai during the surveys reported by
Rajendran (1985)
,
Vanak
et al.
(2001)
and
Ganesh & Arumugam (2015a
,b; 2016a,b).
Uropeltis broughami
was described on the basis of an unspecified number of specimens from “Sirumullay hills (Madura district),
5500 feet
elevation”, but the lack of variation reported for ventral and subcaudal scales is consistent with there being a single
type
. There have been no subsequent reports of
U. broughami
from Sirumalai. All reported non-type specimens of
U. broughami
,
and the
type
and only reported specimens of its junior synonym
Silybura levingii
Beddome, 1878
, are instead from the Palni (= Palani) Hills (e.g.,
Roux 1928
;
Smith 1943
;
Pyron
et al.
2016
), which are part of the nearby (ca.
20 km
) Western Ghats, separated by low-lying (<
300 m
asl) plains from the edge of Sirumalai in the Eastern Ghats:
Fig. 1
). We note that
one specimen
in the London collection (BMNH 1914.1.26.4) that generally agrees with the
types
of
U. broughami
and
S. levingii
is, according to the accessions register, from Seaforth, in the Nilgiris, which we consider very surprising.
Uropeltis dindigalensis
and
U. broughami
are readily distinguished, the former has 17 dorsal scale rows at midbody (versus 19), substantially fewer ventral scales (<
170 in
females and <
158 in
males versus>195 and>185, respectively), and a shorter rostral (relative to the rostral–frontal gap) and less pointed head in dorsal view. In addition, there are colour pattern differences: the dorsum of preserved specimens of
U. dindigalensis
is dominated by pale, off-white scales with flecks of brown, while in
U. broughami
dorsal scales are more typically brown with darker and paler markings; the darker approximately zigzag lines on the dorsum of
U. broughami
differ from those in
U. dindigalensis
in typically (especially posteriorly) having also whitish, sometimes ocellus-like dots;
U. dindigalensis
has a fairly short and narrow lateral yellowish stripe behind the head, whereas in
U. broughami
this is often a series of disconnected and taller blotches that continue further along the body posteriorly (see
Boulenger’s 1893
drawings of the two species, reproduced here in
Fig. 8
).
Smith (1943)
distinguished between a larger, flat or concave upper (posterodorsal, matt and keeled) tail shield surface in
U. broughami
versus a smaller, “feebly convex” and “never quite flat” shield surface in
U. dindigalensis
(Smith’s
Type
II versus
Type
I shield, respectively). The shield is very slightly flatter in the specimens of
U. broughami
we have examined than in
U. dindigalensis
,
but we agree with the alternative views presented by
Boulenger (1890
,
1893
) and
Pyron
et al
. (2016)
that the tail shields in the two species are rather similar. However, we observe that the upper surfaces of the tail shields of both
U. broughami
and
U. dindigalensis
are less flat (longitudinally) than
Boulenger (1890
,
1893
) reports but flatter than
Pyron
et al
. (2016)
report, being somewhat intermediate between Pyron
et al
.’s illustrated
Types
4 and 5 (their figs. 3D and E, respectively).
Although the description of
U. broughami
was published in 1878, the
holotype
was not accessioned into the London (BMNH) collection until
12 January 1883
, along with other uropeltids collected by R.H. Beddome. The accession register entry is accompanied by a handwritten note, presumably by Beddome, that lists the number of specimens of each taxon and some locality information. On the handwritten note, the information for the single
U. broughami
specimen is “Cumbum Hills, Madura” rather than Sirumallay (as in Beddome 1878), and the accession register repeats “Cumbum hills”, which indicates possible confusion in the precise locality for this specimen. A probable case of mixed up distribution involving the Western Ghats (Travancore) and the Eastern Ghats (Sirumalai) exists for at least one other reptile species, also of Beddome’s collecting―the scincid lizard
Ristella guentheri
Boulenger, 1887
(see remarks in
Ganesh & Arumugam 2016a
). Thus, we suggest it is also possible that the
holotype
(as for all other reports) of
U. broughami
is from the Western Ghats rather than Sirumalai.