A new species of turtle-headed sea Snake (Emydocephalus: Elapidae) endemic to Western Australia
Author
Nankivell, James H.
Author
Goiran, Claire
Author
Hourston, Mathew
Author
Shine, Richard
Author
Rasmussen, Arne R.
Author
Thomson, Vicki A.
Author
Sanders, Kate L.
text
Zootaxa
2020
2020-03-27
4758
1
141
156
journal article
10.11646/zootaxa.4758.1.6
4fc425a1-dbd9-4a6c-8de0-4060ebeae7c4
1175-5326
3730880
87BF808D-B1B4-49D7-ABD8-430022EECBA7
Emydocephalus orarius
sp. nov.
Fig. 5
,
7
A–B
Holotype
.
WAM R165708.
Adult
male collected in
Shark Bay
(
25°15`38”S
,
113°08`19”E
), WA on
10/02/2006
by
G. Parry.
Paratypes
.
WAM R73661 (female),
Pilbara
coast (
20°00`00”S
,
116°40`00”E
)
;
WAM R47852 (male),
Barrow Island
(
20°48`00”S
,
115°24`00”E
)
;
WAM R73651 (male),
Pilbara
coast (
19°26`00”S
,
118°49`00”E
)
;
WAM R73662 (male),
Legendre Island
(
19°30`00”S
,
116°42`00”E
)
;
WAM R174521 (female),
Dampier
(
20°39`00”S
,
116°41`00”E
)
.
Generic Assignment.
Emydocephalus orarius
sp. nov.
can be assigned to the genus
Emydocephalus
by possessing three supralabial scales, the second of which is much larger than the others and occupies most of the border of the mouth.
FIGURE 5.
Holotype of
Emydocephalus orarius
sp. nov.
WAM R165708 dorsal (A); Ventral (B); cephalic scalation (C); and paratype WAM R73661 (D)
Diagnosis.
A large (maximum recorded
116 cm
TL)
Emydocephalus
species that usually differs from its congeners by the possession of two prefrontal scales, first supralabial in contact with preocular scale, enlarged tubercules on ventral scales of adult males, body pattern consisting of 19–21 bands. Genetically diagnosed from all other sequenced
Emydocephalus
by the following ND4 sites: 84(C), 111(A), 177(C), 195(C), 234(C), 261(C), 273(T), 288(C), 294(C), 342(T), 357(C), 396(T), 414(C), 486(G), 510(G), 569(C), 576(C), 609(C), 651(A), 667(G), 669(T).
Comparisons.
Emydocephalus orarius
sp. nov.
can usually be distinguished from
E. ijimae
in having two prefrontal scales (versus usually three or four pre-frontal scales), an elongated first supralabial scale which contacts the pre-ocular and often in colour pattern with a lower and non-overlapping number of bands when they are present (19–21 versus
24–32 in
E. ijimae
). Male
E. orarius
sp. nov.
also have higher mean numbers of ventral scales (144.8 versus
141.7 in
E. ijimae
) and subcaudal scales (32.3 versus
27.8 in
E. ijimae
) and lower mean scale rows around the midbody (17 versus
18.1 in
E. ijimae
) and neck (15 versus
16.1 in
E. ijimae
) (
Table 1
). Mature male
E. orarius
sp. nov.
also possess tubercules on the body whereas in
E. ijimae
these are absent. The two female
E. orarius
sp. nov.
available for study also have a higher number of ventral scales (at least 144 versus less than
142 in
E. ijimae
).
Emydocephalus orarius
sp. nov.
can usually be distinguished
E. annulatus
populations in the Australian region (both Timor Sea and Coral Sea) in having a higher number of ventral scales (mean 144.7 versus
136.9 in
E. annulatus
(
Tables 1
and
2
); usually possessing a distinctively elongated first supralabial scale that contacts the pre-ocular scale (10 out of 11 individuals examined) versus a much smaller first supralabial that does not contact the pre-ocular (4 of 32
E. annulatus
examined did have an enlarged first supralabial contacting the pre-ocular) (
Fig. 6
).
Description of
holotype
. Adult male, snout to vent length (SVL)
60.4 cm
. Tail length
12.6 cm
. In an excellent state of preservation. Body moderately slender, increasingly laterally compressed posteriorly. Head approximately the same width as the neck, short and rounded both from above and in profile. Rostral scale is small, five-sided, with a slight projection pointing anterio-ventrally. Scale sensilla present all over head and particularly numerous on snout. Nasal scales large and symmetrical, with valvular nostrils on the posterior edge of the nasal scales orientated dorsally. Two prefrontals each penetrating shallowly between frontal and supraocular. Frontal rounded, penetrating shallowly between prefrontals. Two parietals, each large and symmetrical. One preocular and two postoculars on each side. Three supralabials on each side. First supralabial contacts nasal and preocular excluding the second supralabial from touching the nasal, second supralabial is larger than other supralabials and contacts the preocular, eye, postocular and lower anterior temporal scale. Three anterior temporals on right side due to fragmentation of the upper, two anterior temporals on the left side. Mental scale small and triangular. Four infralabials on each side. First two infralabials barely contacting the margin of the mouth, while the third infralabial is enlarged and occupies most of the border of the mouth. Two pairs of sublinguals, well developed and broadly in contact with each other, anterior pair of sublinguals in contact with first, second and third infralabials, posterior pair of sublinguals only in contact with the third supralabial.
Body scales large and imbricate, 15 rows near the neck, 17 at midbody and 15 anterior to the vent. Posterior dorsal scales are enlarged from just anterior to the vent until the tip of the tail. Ventrals broad, three to four times the width of adjacent body scales with a slight median keel, numbering 145 excluding the anal plate. Paddle-shaped tail is long (21% of total length) with a highly enlarged terminal scale, with nine scale rows around the mid-tail, 36 subcaudal scales.. Posterior tip of heart and anterior tip of liver are at ventral scale number 44, 30.3 % of the total ventral count.
Colouration in preservative
. Head dark brown, with cream markings along the posterior edge of the prefrontal scales and around the postocular and temporal scales. A single thin cream ring encircles the posterior edge of the head. Ground colour is dark brown with 21
white bands. White bands are usually separated by at least one dark scale on the dorsal surface and are usually offset from each other. Dark centres to white scales on the dorsal three or four scales. Dark brown bands are immaculate. Five offset white bands on the tail. Ventral surface entirely dark brown.
In life.
Colour pattern similar but dark brown regions were black resulting in higher contrast pattern.
Variation in
Emydocephalus orarius
sp. nov.
The following description refers to all seven
Emydocephalus orarius
sp. nov.
specimens examined (
5 males
,
2 females
) including the
holotype
and all
paratypes
.
External morphological characters
. One preocular and two postoculars in all seven specimens. Three supralabials in 7/7. Only the first supralabial in contact with nasal (6/7), first and second supralabials in contact with the nasal (1/7). First and second supralabials in contact with the preocular (6/7), only the second supralabial in contact with nasal in one specimen. Only the second supralabial in contact with the eye (7/7). Two anterior temporals on each side except in the
holotype
, which has three on the right side. Infralabials 3/3 (left/right) in five specimens, 3/
2 in
one specimen and 4/
4 in
the
holotype
. Two pairs of large well-developed sublinguals in all specimens. Anterior pair of sublinguals in contact with only the first infralabial in three specimens, the first and second in one specimen and the first three infralabials in one specimen. Posterior pair of sublinguals in contact with first and second infralabials in three specimens, the first, second and third infralabials in contact in one specimen and only the second infralabial in contact in one specimen. Fifteen scale rows on the neck (7/7), 17 scale rows near midbody (7/7) and 15 scale rows ten ventral anterior to the vent (7/7). Nine scale rows around the tail (6/7), eight scale rows around the tail in one specimen. Ventrals 144–146, enlarged and three to four the size of adjacent body scales in all specimens. Subcaudals
31–36 in
male specimens, unknown in females as neither specimen has a complete tail. Mean SVL in males
69.1 cm
(49.5–85.0 cm, N=5), mean tail length
12.2 cm
(
9–13.8 cm
, N=4). SVL of the two females are
85.5 cm
and
87 cm
. Numerous specimens released following capture in research trawls from the Pilbara coast were in excess of
110 cm
total length with a maximum of
116 cm
(DPIRD, unpublished data), combined data is presented in results.
FIGURE 6.
Typical cephalic scalation in
Emydocephalus annulatus
(upper) and
Emydocephalus orarius
sp. nov.
(lower)
Internal morphological characters.
In males posterior tip of heart between ventral scale numbers 42–44, %VSheart 29.2%–30.3%, anterior tip of liver at ventral scale 44, heart-liver gap 0–2. In the only female measured posterior tip of heart at ventral scale 47, %VS-heart 32.4 %, liver at anterior tip of liver at ventral scale
48 in
female, %VS-liver 33.1 % in female, heart-liver gap of 1.
Colouration.
Colour pattern highly variable but appears to consist of two broad geographic variants. (1) a band- ed form from Shark Bay and (2) a form with indistinct bands and often heavy spotting from the Pilbara coast. Animals from Shark Bay usually have 19–22 highly contrasting black and white bands on the body, although sometimes these do not meet on the dorsal surface, instead forming off-centre bars. Relative width of the bands is variable, with black bands broader in some specimens and white bands broader in others. Black spotting is sometimes present in the white bands on only the dorsal surface, white spotting in the black bands is usually absent. The head ranges from almost entirely white to cream to black with a white bar across the pre-frontal scales. Animals from the Pilbara coast usually have indistinct white bands on a black or dark brown body. Scales in the white bands usually have a black centre, which in some highly contrasting animals forms a densely speckled pattern. Some animals are largely black with only a trace of white bars on the side, but no completely melanistic specimens were recorded. The Pilbara coast animals usually have a black head with white or cream mottling, but it is highly variable among individuals.
Distribution
. The new species is endemic to coastal
Western Australia
, with specimens from Shark Bay, Exmouth Gulf, Pilbara coast and Broome but not from the intervenening Ningaloo Reef..
TABLE 1.
Morphological data for male
Emydocephalus
.
Significance of differences between mean values was tested between
E. orarius
sp. nov.
and each remaining
Emydocephalus
population as identified with molecular methods using a two-tailed Students t-test. Characters which differ significantly from
E. orarius
sp. nov.
are labelled in
bold
.
|
Characters
|
Emydocephalus orarius
|
Emydocephalus ijimae
|
Emydocephalus
|
Emydocephalus
|
|
sp. nov.
|
annulatus
(CS)
|
annulatus (Timor Sea)
|
| N=5 |
N=34 |
N=16 |
N=35 |
| SR-neck |
15 (15, SD=0) |
16.09
|
15.13 |
14.89 |
|
(15–17, SD=0.67)
|
(15–16, SD=0.34) |
(13–15, SD=0.4) |
| P<0.001 |
P=0.43 |
P=0.5 |
| SR-body |
17 (17, SD=0) |
18.12
|
16.94 |
16.63 |
|
(16–19, SD=0.91)
|
(16–17, SD=0.25) |
(15–17, SD=0.77) |
| P=0.01 |
P=0.59 |
P=0.24 |
| SR-ant. vent |
15 (15, SD=0) |
14.85 |
15 |
14 |
| (14–15, SD=0.36 |
(14–16, SD=0.41) |
(13–16, SD=1.05) |
| P=0.37 |
P=1 |
P=0.176 |
| Body bands |
20 (19–21, SD=1.15) |
28.22
|
25
|
23 |
|
(25–32, SD=2.08)
|
(25, SD=0)
|
(19–30, SD=0.70) |
| P <0.001 |
P <0.005 |
P=0.11 |
| Tail bands |
4.5 (3–5, SD=1) |
6.56 (5–8, SD=0.7)
|
5 (5, SD=0) |
5 (4–6, SD=0.7) |
| P <0.001 |
P=0.54 |
P=0.32 |
| Ventrals |
144.8 |
141.68
|
139.69
|
137
|
| (144–146, SD=0.84) |
(138–148, SD=2.28)
|
(135–146, SD=2.94)
|
(130–144, SD=3.24)
|
| P <0.005 |
P <0.005 |
P <0.001 |
| Subcaudals |
32.25 |
27.77
|
31.13 |
29.71
|
| (31–35, SD=1.89) |
(25.34, SD=1.76)
|
(29–33, SD=1.09) |
(26–32, SD=1.31)
|
| P <0.001 |
P=0.13 |
P <0.01 |
| %VS-Heart |
29.73 |
31.39
|
30.98 |
29.65 |
| (29.17–30.3, SD=0.8) |
(29.50–33.33, SD=0.91)
|
(29.08–32.87, SD=1.18) |
(26.62–31.58, SD=1.31) |
| P=0.02 |
P=0.18 |
P=0.73 |
| %VS-Liver |
30.45 |
32.53
|
31.57 |
30.07 |
| (30.35–30.56, SD=0.15) |
(30.22–34.39, SD=1.00)
|
(29.79–33.57, SD=1.11) |
(26.62–32.64, SD=1.34) |
| P <0.01 |
P=0.18 |
P=0.69 |
Etymology.
The species epithet ‘orarius’ (Latin, ‘coastal’) refers to the coastal Western Australian distribution of the new species. Other species of
Emydocephalus
are found on coral reefs, typically on clear oceanic reefs some distance away from coastlines of major landmasses.
Natural History.
No diet records are reported for
Emydocephalus orarius
sp. nov.
but it likely feeds exclusively on fish eggs like other members of the genus. Habitat preferences are poorly known but it appears to inhabit soft-bottomed sea floors as the majority of specimens are known from trawls over these substrates. Animals from the Pilbara coast have mostly been caught in waters
40–60 m
deep, while those from Shark Bay have been caught in water <
20 m
deep (DPIRD, unpublished data). Specimens have mostly been collected during the day, indicating that
E. orarius
sp. nov.
is diurnal like its congeners.