First Record of the Marine File Snake Acrochordus granulatus (Squamata: Acrochordidae) from Japan Based on the Specimen of the Third Higher School
Author
Takata, Kento
Graduate School of Human and Environmental Studies, Kyoto University, Sakyo, Kyoto 606 - 8501, Japan E-mail: k. takata 013 @ gmail. com & Corresponding author
k.takata013@gmail.com
Author
Shen, Yanpeng
Graduate School of Human and Environmental Studies, Kyoto University, Sakyo, Kyoto 606 - 8501, Japan E-mail: k. takata 013 @ gmail. com
k.takata013@gmail.com
Author
Nishikawa, Kanto
Graduate School of Human and Environmental Studies, Kyoto University, Sakyo, Kyoto 606 - 8501, Japan E-mail: k. takata 013 @ gmail. com & Graduate School of Global Environmental Studies, Kyoto University, Sakyo, Kyoto 606 - 8501, Japan
k.takata013@gmail.com
Author
Motokawa, Masaharu
The Kyoto University Museum, Kyoto University, Sakyo, Kyoto 606 - 8501, Japan
text
Species Diversity
2023
2023-01-01
28
1
1
4
http://dx.doi.org/10.12782/specdiv.28.1
journal article
10.12782/specdiv.28.1
2189-7301
7522788
Acrochordus granulatus
(
Schneider, 1799
)
[English name: Marine File Snake; Japanese name: Hime-yasuri-hebi] (
Figs 1–3
;
Table 1
)
Materials examined.
Third Higher School
collection at
KUM
(No.
3250
of
Biological Laboratory
,
Yoshida College
,
Kyoto
University
), collected from
Amamioshima Island
, Kagoshima Prefecture,
Japan
in
June 1938
. Formalin-preserved specimens. Collector: unknown; preparing specimen: Niki Biological Institute.
Description.
Table 1
shows the measurement.
Measurements shown in
Table 1
. Total length,
571 mm
; tail length,
68 mm
. Head short and rounded, with same width as neck; eyes small; nostrils tubular (
Fig. 2
). Skin of both body and venter with folds; no enlarged scales on venter; entire body covered with fine scales of about same size (
Fig. 3
); 156 mid-body scales; 10 scales eye–eye; 5 scales eye–lip on each side; 5/6 (left/right) scales naris–eye; 14 supralabial scales on each side; 18 infralabial scales on each side. Multiple tumors on body surface. Head dark brown with pale yellow spots (
Fig. 2
); body to tail alternating blackish-brown and pale yellow bands; dark brown bands longer at dorsal midline than toward venter (
Fig. 3
).
Table 1. Each measurement and counts of specimens of
Acrochordus granulatus
. Left and right counts are shown as left/right.
| This study |
Sanders et al. (2010)
|
| Total length (mm) |
571 |
— |
| Tail length (mm) |
68 |
— |
| Mid-body scale |
156 |
123–159 |
| Scale eye–eye |
10 |
10–15 |
| Scale eye–lip |
5/5 |
5–7 |
| Scale naris–eye |
5/6 |
5–7 |
| Supralabial scales |
14/14 |
14–22 |
| Infralabial scales |
18/18 |
12–28 |
Fig. 1. Specimen labels and condition of
Acrochordus granulatus
, Third Higher
School collection No. 3250 at KUM. (a) Original label; (b) specimen condition and the latest label (No. 3520).
Fig. 2. Enlarged view of the head of
Acrochordus granulatus
, Third Higher
School collection No. 3250 at KUM. (a) Lateral, (b) dorsal, and (c) ventral.
Distribution.
Acrochordus granulatus
is distributed in northern
Australia
(
Cogger 2014
), continental coastal areas from the Indian Peninsula to the Malay Peninsula and Indochina Peninsula (
Cox et al. 1998
;
Nguyen et al. 2009
;
Murthy 2010
), Hainan Island (
Huang 1963
), the Sunda Islands (
de Rooij 1917
;
Stuebing et al. 2014
) and the
Philippine Islands
(
Dunson and Minton 1978
;
Bernstein and Bautista 2020
).
Remarks.
This specimen agrees well with the morphological characteristics of
A. granulatus
described by
Sanders et al. (2010)
(
Table 1
). It was identified as “Sea snake” (including
Laticauda
) and as
H. annandalei
in the past. However, the sea snakes including
H. annandalei
are usually characterized by a flat tail and a head covered with relatively large scales (
Stuebing et al. 2014
), which do not correspond to the characteristics of the specimen. This misidentification may be due to the absence of occurrence records of file snakes in
Japan
, and also their similarity to sea snakes in both body coloration and habitat.
Acrochordus granulatus
is known to have ecologically adapted to shallow water habitats such as mangrove areas (
Lillywhite 2020
), while they were reported to be captured as far as
10 km
from the coast (
Voris and Glodek 1980
). It is quite possible that the natural dispersal by the Kuroshio Current carried this species to Amamioshima Island. The nearest habitat of this species from
Japan
is the
Philippine Islands
or Hainan Island (
Huang 1963
;
Dunson and Minton 1978
;
Bernstein and Bautista 2020
). However, since there is only one record from Hainan Island (
Huang 1963
;
Shi et al. 2011
), it is more likely that this individual came from a larger and more stable population in the
Philippines
. In addition, since many typhoons in June track toward
Japan
after approaching the
Philippines
(
Japan
Metrological Agency 2022
), it is possible that a typhoon carried this specimen from the
Philippines
to Amamioshima Island. On the other hand,
A. javanicus
, a closely related species of
A. granulatus
, has been reported to have been accidentally transported to
Japan
by hiding in wood from
Indonesia
(
Kagei and Shogaki 1977
), so we could not rule out the possibility that this individual was artificially transported to
Japan
. In either case, there are no solid records of
A. granulatus
in
Japan
from 1938 to the present. Thus, it is highly likely that
A. granulatus
is very rare in
Japan
, and it would be difficult to establish a stable population in the archipelago.