Acta Herpetologica 11(2): 151-160, 2016

ISSN 1827-9635 (print) © Firenze University Press 
ISSN 1827-9643 (online) www.fupress.com/ah

DOI: 10.13128/Acta_Herpetol-17874

Redescription of Cyrtodactylus fumosus (Müller, 1895) (Reptilia: 
Squamata: Gekkonidae), with a revised identification key to the bent-
toed geckos of Sulawesi

Sven Mecke1,*,§, Lukas Hartmann1,2,§, Felix Mader3, Max Kieckbusch1, Hinrich Kaiser4

1  Department of Animal Evolution and Systematics and Zoological Collection Marburg, Faculty of Biology, Philipps-Universität Mar-
burg, Karl-von-Frisch-Straße 8, 35032 Marburg, Germany. *Corresponding author. E-mail: meckes@staff.uni-marburg.de
2  Current address: Department of Ecology and Evolution, Johann Wolfgang Goethe-Universität – Biologicum, Max-von-Laue-Straße 13, 
60438 Frankfurt am Main, Germany
3 Janusstraße 5, 93051 Regensburg, Germany
4  Department of Biology, Victor Valley College, 18422 Bear Valley Road, Victorville, California 92395, USA; and Department of Verte-
brate Zoology, National Museum of Natural History, Smithsonian Institution, Washington, DC 20013, USA
§ Co-first authors

Submitted on 2016, 27th January; revised on 2016, 16th August; accepted on 2016, 30th August 
Editor: Aaron M. Bauer

Abstract. The binominal Cyrtodactylus fumosus has frequently been used for populations of bent-toed geckos occur-
ring on some Indonesian islands, including Java, Bali, Sulawesi, and Halmahera. Unfortunately, incorrect usage of this 
name for different geographic lineages has resulted in confusion about the true identity of C. fumosus. Examination of 
the type specimen and additional specimens from Rurukan and Mount Masarang, North Sulawesi Province, Indone-
sia, revealed that this population is distinct from other forms heretofore called ‘fumosus’ by a combination of unique 
morphological characters. In order to stabilize the taxonomy of C.  fumosus sensu stricto, and to prevent further 
confusion, we provide a comprehensive redescription of this species, whose distribution we herein restrict to North 
Sulawesi. Cyrtodactylus fumosus is one of the most distinctive species among the six bent-toed geckos recorded from 
Sulawesi, and it differs from Sulawesi congeners by the presence of (1) precloacofemoral scales, including three pore-
bearing scales on each thigh, separated from 10 or 11 pore-bearing scales in the precloacal region by 9-11 interscales 
in males, (2) a precloacal groove in adult males, (3) flat dorsal tubercles in 4-7 irregularly arranged longitudinal rows 
at midbody, and (4) a distinct lateral fold lacking tubercles. We also provide a revised identification key to the bent-
toed gecko species of Sulawesi.

Keywords. Cyrtodactylus fumosus, C.  marmoratus, Lacertilia, bent-toed geckos, reptiles, North Sulawesi, Indonesia, 
morphology.

INTRODUCTION

The bent-toed gecko fauna of Sulawesi consists of 
six species, including Cyrtodactylus batik Iskandar et al., 
2011; C.  fumosus (Müller, 1895); C.  hitchi Riyanto et al., 
2016; C.  jellesmae (Boulenger, 1897); C.  spinosus Linkem 
et al., 2008; and C.  wallacei Hayden et al., 2008. Two of 

these, C.  fumosus and C.  jellesmae have been reported 
from North Sulawesi Province, Indonesia (e.g., Boulenger, 
1897; Koch et al., 2009; Iskandar et al., 2011; Koch, 2012). 
Cyrtodactylus fumosus was described by Müller (1895a) 
based on a single specimen (NMB-REPT 2662; adult 
female), collected by Paul Benedict Sarasin (1856-1929) 
and Karl Friedrich (“Fritz”) Sarasin (1859-1942) in the 



152 Sven Mecke et alii

“Boelawa Mountains” (= Huidu Matabulawa) of north-
ern Sulawesi. Following its original description, C.  fumo-
sus was also reported from localities outside of Sulawesi 
(e.g., De Rooij, 1915; Mertens, 1929, 1934; Manthey and 
Grossmann, 1997; McKay, 2006; Oliver et al., 2009; Das, 
2010; Koch, 2012; De Lisle et al., 2013; Riyanto et al., 
2013, 2015), leading to the perception of a wide distri-
bution and a rather inconsistent or even erroneous defi-
nition of the taxon, since the name became applied to 
bent-toed gecko species not representing C.  fumosus sen-
su stricto (see Hartmann et al., 2016). Boulenger (1897) 
was the only author who provided a detailed, though not 
entirely correct (see Hartmann et al., 2016: footnote 1), 
species account for C.  fumosus sensu stricto, based on 
specimens from North Sulawesi.

The recent identification of new species from the 
Sunda Islands masquerading under the name C.  fumosus 
(Riyanto et al., 2015; Hartmann et al., 2016) and re-exam-
ination of C.  fumosus specimens from North Sulawesi, 
however, show that the taxonomy of C. fumosus is in dis-
array, and this makes it necessary to properly redescribe 
this conspicuous taxon based on a multitude of eidonomic 
characters, some of which have never been provided in 
the literature. Whereas Hartmann et al. (2016) already 
published remarks on the taxonomy of C.  fumosus and 
provided selected comparative morphological data for this 
species, a comprehensive redescription of C.  fumosus is 
necessary to stabilize the taxonomy of a species that has 
experienced prominent use in the literature, but whose 
identity has regularly been misconstrued. This rede-
scription, featured below, can serve as solid basis for the 
delineation and description of additional new species of 
bent-toed geckos currently recognized as C.  fumosus, and 
allows the correction of comparative literature data.

MATERIALS AND METHODS

Our redescription of Cyrtodactylus fumosus is based on 
the examination of four specimens of that taxon, including the 
holotype (NMB-REPT 2662) and three additional specimens 
(NMB-REPT 2663; BMNH 1895.2.27.7, 1896.12.9.3). For each 
specimen used in the redescription, we recorded data for 31 
eidonomic characters (see Table 1 for definitions and abbrevia-
tions). Of these, 14 were metric and 16 meristic. We also cal-
culated the following ratios: AxialL/SVL, ArmL/SVL, LegL/SVL, 
HeadL/SVL, HeadW/HeadL, SnoutL/HeadL, SnoutL/OrbD, 
and MentalH/MentalW. All measurements were taken to the 
nearest 0.1 mm using digital calipers. Scale counts and obser-
vations of external morphology were made using a dissection 
microscope. Characters occurring bilaterally were measured 
or counted on the right side of specimens, unless stated other-
wise; for femoral pores, interscales, and labial scales, we provide 
counts for both sides of the body (the prefixes “R” and “L” are 

used to distinguish characters counted on the right or left side, 
respectively). In our diagnosis, ranges are followed by means ± 
standard deviations. For descriptions of pattern and coloration 
we apply the terminology of Köhler (2012). Numbers in paren-
theses behind the respective capitalized color name refer to the 
coding therein. The terminology used to distinguish between 
different depressed precloacal areas follows Mecke et al. (2016). 
Drawings are based on photographs of ethanol-preserved speci-
mens and were prepared using the program CorelDraw Graph-
ics Suite X3. Museum abbreviations follow Sabaj Pérez (2014).

RESULTS

Cyrtodactylus fumosus (Müller, 1895) (Figs 1; 2)
Gymnodactylus fumosus Müller, 1895a: 833 (holotype 
NMB-REPT 2662; type locality: “Boelawa Gebirge,” 
Sulawesi, elevation 1200 m)
Gymnodactylus fumosus—Müller, 1895b: 865
Gymnodactylus fumosus—Boulenger, 1897: 204
Gymnodactylus fumosus (part.)—De Rooij, 1915: 16
Gymnodactylus fumosus—Brongersma, 1934: 168 
Gymnodactylus fumosus—Brongersma, 1953: 172
Gymnodactylus fumosus—Kramer, 1979: 160
Cyrtodactylus fumosus (part.)—Manthey and Grossmann, 
1997: 222
Cyrtodactylus fumosus (part.)—Grismer, 2005: 429
Cyrtodactylus fumosus (part.)—Grismer and Leong, 2005: 
588
Cyrtodactylus fumosus (part.)—Biswas, 2007: 19
Cyrtodactylus fumosus (part.)—Hayden et al., 2008: 109
Cyrtodactylus fumosus (part.)—Rösler and Glaw, 2008: 14
Cyrtodactylus fumosus (part.)—Chan and Norhayati, 
2010: 50
Cyrtodactylus fumosus (part.)—Das, 2010: 209
Cyrtodactylus fumosus (part.)—Iskandar et al., 2011: 65
Cyrtodactylus fumosus (part.)—Koch, 2012: 161
Cyrtodactylus fumosus—Hartmann et al., 2016: 556
Cyrtodactylus fumosus (part)—Riyanto et al., 2016: 69
Cyrtodactylus fumosus—Mecke et al., 2016: 356

Holotype: NMB-REPT 2662 (Fig. 1A and Table 2; 
Hartmann et al. 2016: Fig.  5): adult female (SVL = 77.8 
mm) collected by Paul and Fritz Sarasin in 1894; terra 
typica: “Boelawa Gebirge” (= Huidu Matabulawa), cor-
rected to “Bone Mountains” (= Pegunungan Bone, North 
Sulawesi Province, Indonesia) by Boulenger (1897).

Referred specimens: NMB 2663 (Fig. 1B): Mount 
Masarang; BMNH 1895.2.27.7 (Fig. 1C; same specimen 
figured in Boulenger, 1897: Plate VII, Fig. 2), 1896.12.9.3 
(Fig. 1D): Rurukan.

Definition: Cyrtodactylus fumosus is a moderately-
sized bent-toed gecko species (maximum SVL = 78 mm) 



153Redescription of Cyrtodactylus fumosus

that can be readily distinguished from all other conge-
ners occurring in the Greater and Lesser Sunda Islands, 
Sulawesi, and the Maluku Islands by the following combi-
nation of characters: (1) a single series of precloacofemo-
ral scales, including three pore-bearing scales on each 
thigh, separated from 10 or 11 pore-bearing scales in 
the precloacal region by 9-11 interscales in males (Fig. 
2A), (2) a precloacal groove in adult males (Fig. 2A), (3) 
posterior precloacal scales (Fig. 2A), (4) flat and smooth 
(unkeeled) dorsal tubercles in 4-7 irregularly arranged 

longitudinal rows at midbody (Fig. 2B), (5) a distinct lat-
eral fold lacking tubercles, (6) 37-50 longitudinal rows of 
ventral scales at midbody, (7) 17-23 scales under 4th toe, 
and (8) a horizontal slit-like ear opening.

Comparisons: Characters distinguishing Cyrtodactylus 
fumosus from all other species of Cyrtodactylus occur-
ring on the Sunda Islands and Sulawesi were provided 
by Mecke et al. (2016: Table 2). Here, our comparisons 
are limited to Sulawesi taxa, with characters of C.  fumo-
sus provided in parentheses. Cyrtodactylus batik can be 

Table 1. Metric and meristic characters with abbreviations used in this study.

Character Abbreviation Definition

Snout-vent length SVL From tip of snout to cloaca
Axial length AxialL From axilla to groin
Tail length TailL From cloaca to tip of tail
Arm length ArmL From insertion of brachium into body wall to claw of longest finger
Leg length LegL From insertion of thigh into body wall to claw of longest toe
Head length HeadL From tip of snout to articulation of quadrate bone with lower jaw
Head width HeadW Measured at level of ear openings
Head height HeadH Measured at level of ear openings
Snout length SnoutL From tip of snout to anterior margin of orbit
Orbit-Ear distance OrbEarD From posterior margin of orbit to anterior margin of ear opening
Orbital diameter OrbD From anterior to posterior margin of orbit
Ear length EarL From anterior to posterior margin of ear opening
Mental length MentalL Maximum length of mental shield
Mental width MentalW Maximum width of mental shield

Dorsal tubercle rows DTR
Number of longitudinal tubercle rows on dorsum at midbody, counted in one row between 
lateral folds

Paravertebral tubercles PVT
Number of tubercles counted in a longitudinal row between posterior insertion of forelimb 
and anterior insertion of hindlimb

Ventral scales VS Number of ventral scales at midbody, counted in one row between lateral folds
Precloacofemoral scales PFS Number of enlarged precloacofemoral scales, counted along lowest, pore-bearing series
Femoral pores FP Number of femoral pores on enlarged scales on thigh

Interscalesa InterS
Number of enlarged poreless scales between series of pore-bearing precloacal scales and 
series of pore-bearing femoral scales on thigh

Precloacal pores PP Number of precloacal pores situated in precloacal groove
Postcloacal tubercles PCT Number of postcloacal tubercles

Subdigital lamellae under 4th toe LT4
Number of subdigital scales under 4th toe, counted from first enlarged scale (lamellae) on 
lower side of toe to scale proximal to apical scale

Supralabial scales 1 SupraLab1
Number of labial scales of upper jaw, beginning with first enlarged scale bordering rostral 
shield, ending with last enlarged scale bordering labial angle

Supralabial scales 2 SupraLab2
Number of labial scales of upper jaw, beginning with first enlarged scale bordering rostral 
shield, ending with enlarged scale below anterior margin of eye

Infralabial scales InfraLab
Number of labial scales of lower jaw, beginning with first scale bordering mental shield, 
ending with last enlarged scale bordering labial angle

Internasal scales InterNas Number of scales between rostronasals, bordering rostral
Supraciliar scales SC Number of enlarged scales extending from anterior-ventral to posterior-dorsal edge of orbit
Interorbital scales IOS Number of scales counted in a row between the medial edges of orbits across head 
Gular scales GulS Number of gular scales bordering pair of first postmentals

a Rösler et al. (2007); Hartmann et al. (2016); and Mecke et al. (2016) referred to interscales as “infrascales.”



154 Sven Mecke et alii

distinguished from C.  fumosus by a larger size of adults 
with a maximum SVL of 115 mm (78 mm); the absence 
of PFS (PFS present); the absence of PP and FP in both 
sexes (PP and FP present in males); the absence of a pre-
cloacal depression in both sexes (precloacal groove pre-
sent in males); 23-26 slightly keeled DTR (4-7 unkeeled 
DTR); the presence of tubercles on the lateral skin fold 
(tubercles on lateral skin fold absent); 24-27 LT4 (17-23 
LT4); and the presence of transversely enlarged subcaudal 
scales in a single row (enlarged, paired median subcau-
dals) (Iskandar et al., 2011; Riyanto et al., 2016). Cyrto-
dactylus hitchi can be distinguished from C.  fumosus 
by the absence of PFS (PFS present); the absence of PP 
and FP in both sexes (PP and FP present in males); the 
absence of a precloacal depression in both sexes (pre-
cloacal groove present in males); the presence of 18-20 
keeled DTR (4-7 unkeeled DTR); the presence of tuber-
cles on the lateral skin fold (tubercles on lateral skin fold 

absent); and the presence of transversely enlarged sub-
caudal scales in a single row (enlarged paired median 
subcaudals) (Riyanto et al., 2016). Cyrtodactylus jellesmae 
can be distinguished from C.  fumosus by the absence 
of PFS (PFS present); the absence of PP and FP in both 
sexes (PP and FP present in males); the absence of a pre-
cloacal depression in both sexes (precloacal groove pre-
sent in males); the presence of 13-22 raised DTR (4-7 flat 
DTR); the presence of tubercles on the lateral skin fold 
(tubercles on lateral skin fold absent); and the absence of 
enlarged subcaudal scales (enlarged paired median sub-
caudals present) (Boulenger, 1897; Mecke et al., 2016, 
pers. obs.). Cyrtodactylus spinosus can be distinguished 
from C.  fumosus by the absence of a continuous series 
of enlarged precloacal and femoral scales (PFS present); 
by widely spaced femoral scales (femoral scales juxta-
posed); the presence of a shallow precloacal pit in males 
(deep precloacal groove in males); the presence of lateral 
and caudal spines (spines absent); and the presence of a 
prehensile tail (tail not prehensile) (Linkem et al., 2008; 
Harvey et al., 2016). Cyrtodactylus wallacei can be distin-
guished from C.  fumosus by a larger size of adults, reach-
ing a maximum SVL of 114 mm (78 mm); the absence 
of PFS (PFS present); the absence of PP and FP in both 
sexes (PP and FP present in males); the absence of a pre-

Fig. 1. Dorsal views of the known specimens of Cyrtodactylus 
fumosus: (A) NMB-REPT 2662 (holotype, adult female); (B) NMB-
REPT 2663 (subadult male); (C) BMNH 1895.2.27.7 (adult female); 
(D) BMNH 1896.12.9.3 (adult male). Photographs by Sven Mecke. 
BMNH 1895.2.27.7 is also figured (in dorsal view) in Boulenger 
(1897: Plate VII, Fig. 2).

Fig. 2. Diagnostic characters of Cyrtodactylus fumosus. (A) Pre-
cloacofemoral region (with pore-bearing precloacal scales and 
groove shaded in grey) of a male specimen (BMNH 1896.12.9.3), 
showing precloacal and femoral pores. Scale bar equals 2 mm (B) 
Dorsum, showing tubercles (holotype NMB-REPT 2662). Scale bar 
equals 2 mm. (C) Ventral side of anterior part of head (holotype 
NMB-REPT 2662). Scale bar equals 1 mm. Drawings prepared by 
Felix Mader based on photographs by Sven Mecke.



155Redescription of Cyrtodactylus fumosus

cloacal depression in both sexes (precloacal groove pre-
sent in males); and the presence of 23-25 slightly keeled, 
trihedral DTR (4-7 unkeeled and flat DTR) (Hayden et 
al., 2008).

Description of the holotype. General habitus, metrics, 
and ratios: Adult female; SVL = 77.8 mm; AxialL = 35.2 
mm; TailL (broken, only tail stump present) = 8.7 mm; 
ArmL = 35.7 mm; LegL = 43.9 mm; HeadL = 21.3 mm; 
HeadW = 14.2 mm; HeadH = 9.2 mm; SnoutL = 8.8 
mm; OrbEarD = 6.6 mm; OrbD = 5.2 mm; EarL = 1.2 

mm; head rather short (HeadL/SVL = 0.27) and wide 
(HeadW/HeadL = 0.67), clearly depressed between eyes, 
distinct from neck; snout rather elongate (SnoutL/HeadL 
= 0.41), longer than OrbD (SnoutL/OrbD = 1.69), can-
thus rostralis distinct; fore- and hindlimbs of moderate 
size (ArmL/SVL = 0.46; LegL/SVL = 0.56), without web-
bing between digits; relative length of fingers = IV > III > 
V > II > I; relative length of toes = IV > III > V > II > I; 
lateral skin fold distinct, lacking tubercles.

Scalation: Dorsal scales granulate, interspersed with 
slightly enlarged, flat, roundish and irregularly arranged 
dorsal tubercles (Fig. 2B), 5 DTR; 13 PVT; tubercles on 
occiput, neck, and hindlimbs similar in shape to those on 
dorsum (no tubercles present on the forelimbs).

Thirty-eight VS, distinctly larger than those on dor-
sum, juxtaposed; a single series of 46 poreless PFS; 
enlarged posterior precloacal scales present, arranged in a 
chevron-like shape consisting of five series of scales (from 
anterior to posterior: 10/ 8/ 7/ 6/ 2 scales); 2 flat PCT; 
number of lamellae under fingers: I 12, II 16, III 16, IV 
18, V 16; number of lamellae under toes: I 13, II 15, III 
17, IV 17, V 16.

Rostral shield rectangular, 2.2 times as wide as high, 
partly divided by a median, vertical furrow, in contact 
with 1st SupraLab, 2 rostro-nasals and a single InterNas; 
naris surrounded by rostral, 1st SupraLab, a single rostro-
nasal, and three post-nasals; R12 L12 SupraLab1, R6 L5 
SupraLab2, separated from orbit by three rows of small 
granular scales; R9 L11 InfraLab; cephalic scales small, 
rounded, granulate and juxtaposed; tubercles on occiput 
and neck flat and unkeeled; 40 SC; 46 IOS; mental tri-
angular, wider than long (MentalW/MentalL = 1.7); one 
pair of enlarged 1st postmentals, enlarged 2nd postmen-
tals absent (Fig. 2C); pair of 1st postmentals bordered 
by mental, 1st InfraLab, and 9 GulS (Fig. 2C); scales on 
throat minute and rounded.

Coloration: Natural color and pattern altered due 
to preservation. Ground color of dorsum Cinnamon-
Drab (50); head darker than dorsum, Burnt Umber (48) 
in color, with indistinct Warm Sepia (40) stripe running 
from posterior border of orbits along neck, forming a col-
lar at level of posterior margin of forelimbs; labial scales 
Buff (5), stippled with darker color, with stipples most 
concentrated at edges of some scales; dorsum with irregu-
lar, faint Dark Drab (45) blotches, not arranged in distinct 
pairs, most visible on vertebral region between forelimbs 
and on mid-dorsum; ground color of dorsal surface of 
limbs similar to ground color of dorsum; limbs with dif-
fuse Dark Drab (45) markings; venter, throat and lower 
surface of limbs uniformly Smoke Grey (266), heavily dot-
ted; color of dorsal and ventral surfaces of tail stump simi-
lar to dorsal and ventral ground color, respectively.

Table 2. Metric (in mm) and meristic data for the known speci-
mens of Cyrtodactylus fumosus. Abbreviations are defined in Table 
1. Characters occurring bilaterally were measured or counted 
on the right side of specimens, unless stated otherwise; for femo-
ral pores, interscales, and labial scales we provide counts for both 
sides of the body (the prefixes “R” and “L” are used to distinguish 
characters counted on the right and left side, respectively). n/a = 
not applicable. Our metric data of BMNH 1895.2.27.7, the only 
known specimen with an original tail (TailL = 67.1), well agree with 
the measurements listed by Boulenger (1897), who also provided 
a drawing of a specimen (Plate VII, Fig. 2) identifiable as BMNH 
1895.2.27.7.

NMB-REPT
2662

(holotype)

NMB-REPT
2663

BMNH
1895.2.27.7

BMNH
1896.12.9.3

Sex Female Male Female Male
SVL 77.8 56.6 60.7 77.5
AxialL 35.2 22.2 28.3 31.4
ArmL 35.7 22.1 24.9 32.9
LegL 43.9 29.6 32.9 42.0
HeadL 21.3 15.7 16.8 20.4
HeadW 14.2 10.6 11.9 14.5
HeadH 9.2 7.0 6.7 9.5
SnoutL 8.8 6.9 7.7 9.4
OrbEarD 6.6 4.1 4.3 6.3
OrbD 5.2 3.6 4.0 4.1
EarL 1.2 1.2 2.0 2.3
DTR 5 7 4 6
PVT 13 16 14 18
VS 38 37 47 50
PFS 46 45 46 39
FP 0 R3 L3 0 R3 L3
InterS n/a R10 L9 n/a R10 L11
PP 0 11 0 10
LT4 (proximal) 7 8 10 9 (L)
LT4 (distal) 10 11 13 12 (L)
LT4 17 19 23 21 (L)
SupraLab1 R12 L12 R13 L13 R11 L12 R11 L12
SupraLab2 R6 L5 R6 L6 R6 L6 R6 L6
InfraLab R9 L11 R10 L10 R11 L10 R8 L8
GulS 9 8 7 8



156 Sven Mecke et alii

Intraspecific variation: Our assessment of the varia-
tion is based on the holotype and three additional speci-
mens from North Sulawesi (one adult and one subadult 
male, one adult female) unless stated otherwise. Measure-
ments (in mm) are listed as range followed by mean ± 
standard deviation provided in parentheses: SVL = 56.6-
77.8 (68.2 ± 11.1); AxialL = 22.2-35.2 (29.3 ± 5.5); TailL 
(original tail) = 67.1 (n = 1); ArmL = 22.1-35.7 (28.9 ± 
6.4); LegL = 29.6-43.9 (37.1 ± 6.9); HeadL = 15.7-21.3 
(18.6 ± 2.7); HeadW = 10.6-14.5 (12.8 ± 1.9); HeadH = 
6.7-9.5 (8.1 ± 1.5); SnoutL = 6.9-9.4 (8.2 ± 1.1); OrbEarD 
= 4.1-6.6 (5.3 ± 1.3); OrbD = 3.6-5.2 (4.2 ± 0.7); EarL = 
1.2-2.3 (1.7 ± 0.6). Ratios: AxialL/SVL = 0.39-0.47 (0.43 
± 0.03); ArmL/SVL = 0.39-0.46 (0.42 ± 0.03); LegL/SVL 
= 0.52-0.56 (0.54 ± 0.02); HeadL/SVL = 0.27-0.28 (0.27 ± 
0.01); HeadW/HeadL = 0.67-0.71 (0.69 ± 0.02); SnoutL/
HeadL = 0.41-0.46 (0.44 ± 0.02); SnoutL/OrbD = 1.69-
2.29 (1.96 ± 0.25); RostralW/RostralH = 1.53-2.18 (1.91 ± 
0.28); MentalW/MentalL = 1.29-1.83 (1.64 ± 0.24).

Scale counts are listed as range followed by mean ± 
standard deviation provided in parentheses: DTR = 4-7 
(5.75 ± 1.3); PVT = 13-18 (15.25 ± 2.2); VS = 37-50 (43 ± 
6.5); PFS = 39-46 (44 ± 3.4), only a single series present; 
enlarged posterior precloacal scales consisting of 5 or 6 
series; PCT = 2-3, flat in shape; LT4 = 17-23 (19 ± 2.8); 
SupraLab1 = 11-13 on right side of head and 12-13 on left 
side of head; InfraLab = 8-11 on right side of head and 
8-11 on left side of head; SC = 32-40 (33.5 ± 4.4); IOS = 
45-49 (47.3 ± 2.1); GulS = 7-9.

Furthermore, all specimens possess a distinct lateral 
skin fold lacking tubercles and a horizontal, slit-like ear 
opening. A distinctive row of 5 or 6 tubercles on the dor-
sal surface of the upper leg is present in three specimens 
(absent in the holotype). Specimens with unregenerated 
tails possess two strongly enlarged median subcaudal 
rows. Unlike female specimens, male specimens of Cyr-
todactylus fumosus (n = 2) possess three pore-bearing 
scales on each thigh, separated from 10 or 11 pore-bear-
ing precloacal scales by 9-11 InterS. A distinct precloa-
cal groove is fully developed in adult males (n = 1) only. 
Data of measurements and scale counts for the main 
characters of the holotype and additional specimens used 
for the diagnosis are provided in Table 2.

Ground color of dorsal surface of body, head, and 
tail varies considerably between the specimens available 
to us and appears to depend on the respective preserva-
tion method. Hence, ground color of dorsal surface var-
ies from Cinnamon (255) over Cinnamon-Drab (50) to 
Drab (19), with the specimens housed in NMB being 
darker than the ones housed in BMNH; dorsum with 4-7, 
sometimes indistinct, Warm Sepia (40) blotches; original 
tail (n = 1) with six Warm Sepia (40) blotches; regener-

ated tail of one specimen (BMNH 1896.12.9.3) possesses 
three indistinct, partially interrupted, Warm Sepia (40) 
lines, running from base to tip of tail; dorsal surface of 
limbs and head with diffuse Warm Sepia (40) or Dark 
Drab (45) markings; venter, lower surface of limbs, and 
throat uniformly Pale Buff (1) or Smoke Grey (266 and 
267). See Fig. 1 for coloration and pattern of preserved 
specimens.

Distribution and natural history: Although the name 
Cyrtodactylus fumosus has frequently been applied to 
bent-toed gecko populations from Java, Bali, Halmahera, 
and the entire island of Sulawesi (e.g., De Rooij, 1915; 
Grismer, 2005; Das, 2010; De Lisle et al., 2013; Riyanto 
and Mumpini, 2013; Riyanto et al., 2015), C.  fumosus 
sensu stricto is only known from the four specimens 
featured herein, all of which were collected in North 
Sulawesi (Müller, 1895a, b; Boulenger, 1897; see Fig. 3). 
The occurrence of C.  fumosus on Lembeh Island, off 
the coast of northern Sulawesi (Grismer, 2005: Appen-
dix 1, Grimser and Leong, 2005: Appendix  1), appears 
to be based on misidentified specimens, since the data 
(including key characters for diagnosis) provided by 
Grismser (2005: Table 2) and Grismer and Leong (2005: 
Table 2) do not match those of C.  fumosus sensu stric-
to as reported herein. Moreover, the data provided by 
Grismer (2005) and Grismer and Leong (2005: Table 2) 
seem to be partly based on the erroneous description of 
C.  fumosus provided by De Rooij (1915) (see Hartmann 
et al., 2016).

According to the data provided by Müller (1895a, 
b), specimens of Cyrtodactylus fumosus sensu stricto 
were collected at elevations 1200-1260 m, in a terrain 
that is, based on satellite images (Google Earth, viewed 
on 24 January 2016), covered with montane rainfor-
est. Although there are only limited data available on 
the natural history of C.  fumosus, we believe the spe-
cies to be restricted to montane rainforest habitats in 
North Sulawesi. The distribution of C.  fumosus, as cur-
rently known, overlaps with the range of C.  jellesmae, the 
only other species of Cyrtodactylus known from North 
Sulawesi. Figure 3 shows the distribution of the six bent-
toed geckos currently known from Sulawesi.

Remarks on the identity of Cyrtodactylus fumosus 
from Java: Hartmann et al. (2016) discussed the status 
of Cyrtodactylus fumosus populations outside of Sulawe-
si and came to the conclusion that these records were 
based on erroneous data provided in the literature (e.g., 
De Rooij, 1915) and/or misidentified specimens. Recent-
ly, Riyanto et al. (2015) applied the name C.  fumosus to 
populations of bent-toed geckos from Java, which are une-
quivocally identifiable as belonging to the C.  marmoratus 
(Gray, 1831) complex. These authors largely based their 



157Redescription of Cyrtodactylus fumosus

assumption on De Rooij (1915), who mainly distinguished 
between C.  fumosus and C.  marmoratus by a continuous 
or discontinuous pore series, respectively. However, De 
Rooij (1915) largely based her definition of C.  fumosus on 
Boulenger (1897), who erroneously reported this species 
to have a continuous pore series, and her personal exami-
nation of specimens housed in the collections of BMNH 
and SMF, which are conspecific with C.  halmahericus 
(Mertens, 1929) (see Hartmann et al., 2016: Footnote 1). 
Cyrtodactylus halmahericus, unlike C. fumosus, possesses a 
continuous pore series in males (a redescription of C.  hal-
mahericus is currently underway).

Whereas the lectotype of C.  marmoratus (RMNH.
RENA 2710a.1; adult male), all other adult male paralec-
totypes housed in RMNH (RMNH.RENA 2710a.2-a.5, 
2710.1-2), and several other adult male specimens we 
have examined personally, possess a continuous series 
of pores (precloacofemoral pores), this character may 
vary ontogenetically (Brongersma, 1953, pers. obs.), 
between sexes (Rösler et al.; 2007, Mecke et al., 2016), 
and between C.  marmoratus sensu stricto and morpho-
logically similar species masquerading under this name. 

Cyrtodactylus fumosus can be easily distinguished from 
C.  marmoratus as currently defined by the following 
characters: (1) a discontinuous series of precloacal (10 or 
11) and femoral pores (three on each thigh) in males, (2) 
the absence of pores in females, (3) the presence of pos-
terior precloacal scales, (4) the presence of widely scat-
tered, roundish, flat, and smooth dorsal tubercles in 4-7 
rows at midbody (11-19 in the type series of C.  marmo-
ratus at RMNH), (5) 14-18 paravertebral tubercles (22-29 
in in the type series of C.  marmoratus at RMNH), and 
enlarged paired median subcaudals (enlarged subcaudals 
absent in C. marmoratus).

It is obvious that the male specimen (MZB.Lace 
12903) identified as Cyrtodactylus fumosus by Riyanto 
et al. (2015) and depicted in their Fig. 4B is not con-
specific with C.  fumosus, because it possesses a continu-
ous pore series and lacks posterior precloacal scales. The 
precloacofemoral region of that specimen rather matches 
that of C.  marmoratus sensu stricto (see Hartmann et al., 
2016: Fig. 3H, Mecke et al., 2016: Fig. 1A). Since Riyanto 
et al. (2015) failed to properly identify C.  fumosus and 
C.  marmoratus, their comparative Table 3 should not be 
used for the identification of these taxa. The example well 
demonstrates the importance of examining relevant type 
specimens before taxonomic decisions are made.

DISCUSSION

The phylogenetic affinities of Cyrtodactylus fumo-
sus remain unclear. The presence of pores, a precloa-
cal depression in males, and posterior precloacal scales 
are shared with other species of Cyrtodactylus from the 
region, e.g., C.  halmahericus (Halmahera) and C.  klaka-
hensis Hartmann et al., 2016 (eastern Java), with which 
it may be closely allied1. By contrast, C. fumosus might 
represent an offshoot of an exclusive clade containing 
Sulawesi bent-toed geckos only.

Results of studies on Sulawesi amphibians and rep-
tiles suggest that this island is herpetogeographically 
complex, supporting taxa of both Sundaic and Australo-
papuan affinities (Koch, 2011, 2012), including endem-
ics (e.g., How and Kitchener, 1997; Whitten et al., 2001; 
Koch, 2011, 2012).

The restriction of Cyrtodactylus fumosus to Sulawesi 
underscores that this island holds a significant amount 

1 Cyrtodactylus petani Riyanto et al., 2015 also shares with 
C.  fumosus the presence of pores and posterior precloacal scales. 
Riyanto et al. (2015) provided inconsistent data on whether a preclo-
acal groove is present in male specimens of C.  petani. However, male 
C.  petani lack a precloacal groove or pit (Awal Riyanto, in litt.; Mecke 
et al., 2016).

Fig. 3. Map of Sulawesi showing the distribution of the six species 
of Cyrtodactylus currently recognized from this island: Cyrtodacty-
lus batik (inverted black triangle), C.  fumosus (black star), C.  hitchi 
(black circle), C. jellesmae (white circle), C. spinosus (black triangle), 
and C.  wallacei (black diamond). Records are based on specimens 
listed in the appendices and data provided in Hayden et al. (2008), 
Linkem et al. (2008), Iskandar et al. (2011), Wanger et al., (2011), 
Koch (2012), Riyanto et al., (2016). A white circle with a black dot 
represents a photo-voucher for C. jellesmae available to us. Base 
map modified from Wikipedia © Sadalmelik / Wikimedia Com-
mons / CC-BY-SA-3.0 by Max Kieckbusch.



158 Sven Mecke et alii

of endemism. The species is apparently only found in the 
mountains of North Sulawesi Province, and such a lim-
ited range exemplifies that isolated geographic features in 
this region (e.g., mountain ranges) may be the key locales 
for such endemism. According to Koch (2012: Table 11) 
more than 20 amphibians and reptiles (including candi-
date species) are endemic to northern Sulawesi. Most of 
these appear to be endemic to offshore islands, but we 
hypothesize that the North Sulawesi mountain ranges 
may harbor a higher number of endemic herpetofaunal 
taxa than generally assumed as well.

We disagree with Iskandar et al. (2011), who con-
sidered that the Sulawesi herpetofauna is impoverished 
compared to other regions in Southeast Asia, largely 
due to natural factors alone. The high rate at which new 
amphibian and reptile species are being discovered on 
Sulawesi contradicts this hypothesis, and the relatively 
low diversity may simply reflect the limited amount of 
fieldwork conducted there to date. Since 2000, 16 rep-
tile species have been described from Sulawesi (e.g., 
Tropidophorus baconi Hikida et al., 2003; Calamaria 
butonensis Howard and Gillespie, 2007; Rabdion grovesi 
Amarasinghe et al., 2015), a number that equals ~15% 
of the reptiles known from this island. The number of 
described species of Cyrtodactylus in Sulawesi alone 
increased by 200% during the last decade. Prelimi-
nary examination of preserved bent-toed geckos from 
Sulawesi in museum collections suggests that at least 
one undescribed species of bent-toed gecko is present 
on the island. Photographic images of specimens in 
life available to us indicate that a further three species 
of Cyrtodactylus from Sulawesi are yet to be described. 
Therefore we agree with e.g., Linkem et al. (2008), and 
Koch (2011, 2012), who considered the herpetological 
diversity of Sulawesi to be underestimated.

KEY TO THE SPECIES OF THE GENUS  
CYRTODACTYLUS OF SULAWESI

This key is applicable to identify adult bent-toed 
geckos based on non-sexually dimorphic characteristics, 
although characters present in males only may accom-
pany a choice.
1a Long spines on lateral fold and lateral portion of tail 

present; tail prehensile C. spinosus
1b Long spines on lateral fold and lateral portion of tail 

absent; tail not prehensile 2
2a Enlarged precloacofemoral scales present in both sex-

es, bearing a total number of 16 or 17 pores in males, 
10 or 11 of which are precloacal pores and 3 of which 
are femoral pores; pore-bearing scales separated by 

9-11 enlarged interscales; precloacal groove present in 
males; no tubercles on lateral fold C. fumosus

2b Enlarged precloacofemoral scales; pores; precloacal 
groove; and tubercles on lateral fold absent 3

3a Enlarged median subcaudals absent C. jellesmae
3b Enlarged median subcaudals present 4
4a Enlarged subcaudals in multiple rows C. wallacei
4b Enlarged subcaudals in a single row for most of the 

tail’s length 5
5a 24-27 lamellae under 4th toe; SVL in adults 103-113 

mm C. batik
5b 18-21 lamellae under 4th toe; SVL in adults 62-79 

mm C. hitchi

ACKNOWLEDGEMENTS

The authors thank Denis Vallan and Urs Wüest 
(NMB), Patrick Campbell (BMNH), Esther Dondorp 
(RMNH), Raffael Ernst and Markus Auer (MTKD), 
Christopher J. Raxworthy, David A. Kizirian, David A. 
Dickey, and Lauren Vonnahme (AMNH), Joseph Mar-
tinez and José Rosado (MCZ), and Gunther Köhler and 
Linda Acker (SMF), for allowing examination of mate-
rial in their care. We also thank Ka Schuster (Philipps-
Universität Marburg, Germany) for reading and com-
menting on a draft of this publication, and Olivier S.G. 
Pauwels (RBINS) and Lee L. Grismer (LSUHC) for their 
helpful reviews, which greatly improved this publication. 
This study was supported by an AMNH collection study 
grant to SM.

REFERENCES

Amarasinghe, A.A.T., Vogel, G., McGuire, J.A., Sidik, I., 
Supriatna, J., Ineich, I. (2015): Description of a sec-
ond species of the genus Rabdion Duméril, Bibron 
& Duméril, 1854 (Colubridae: Calamariinae) from 
Sulawesi, Indonesia. Herpetologica 71: 234-239.

Biswas, S. (2007): Assignment of currently misplaced 
Cnemaspis gordongekkoi Das, 1993 (Reptilia: Gekko-
nidae) to Cyrtodactylus Gray, 1827. Russ. J. Herpetol. 
14: 15-20.

Boulenger, G.A. (1897): A catalogue of the reptiles and 
batrachians of Celebes with special reference to the 
collections made by Drs P. & F. Sarasin in 1893-1896. 
Proc. Roy. Soc. Lond. B. Bio. 1897, 193-237.

Brongersma, L.D. (1934): Contributions to Indo-Australi-
an Herpetology. Zool. Meded. 17: 161-251.

Brongersma, L.D. (1953): Gymnodactylus marmoratus. 
Proc. Koninkl. Ned. Akad. Wetensch. 62: 172-175.



159Redescription of Cyrtodactylus fumosus

Chan, K.O., Norhayati, A. (2010): A new insular species 
of Cyrtodactylus (Squamata: Gekkonidae) from north-
eastern Peninsular Malaysia. Zootaxa 2389: 47-56.

Das, I. (2010): A Field Guide to the Reptiles of South-east 
Asia. New Holland Publisher, London, United King-
dom.

Gray, J.E. (1831): A Synopsis of the Species of Class 
Reptilia. In: The Animal Kingdom arranged in Con-
formity with its Organisation by the Baron Cuvier 
with additional Descriptions of all the Species hith-
er named, and of many before noticed, pp. 481-591. 
Griffith, E., Pidgeon, E., Eds, V Whittaker, Treacher 
and Co., London.

Grismer, L. (2005): New species of bent-toed gecko (Cyr-
todactylus, Gray 1827) from Pulau Aur, Johor, West 
Malaysia. J. Herpetol. 39: 424-432.

Grismer, L., Leong, T.M. (2005): New species of Cyrto-
dactylus (Squamata: Gekkonidae) from Southern Pen-
insular Malaysia. J. Herpetol. 39: 584-591.

Hartmann, L., Mecke, S., Kieckbusch, M., Mader, F., 
Kaiser, H. (2016): A new species of bent-toed gecko, 
genus Cyrtodactylus Gray, 1827 (Reptilia: Squamata: 
Gekkonidae), from Jawa Timur Province, Java, Indo-
nesia, with remarks on the taxonomic history of C. 
fumosus (Müller, 1895). Zootaxa 4067: 552-568.

Harvey, M.B., O’Connell, K.A., Wostl, E., Riyanto, A., 
Kurniawan, N., Smith, E.N., Grismer, L.L. (2016): 
Redescription Cyrtodactylus lateralis (Werner) (Squa-
mata: Gekkonidae) and phylogeny of the prehensile-
tailed Cyrtodactylus. Zootaxa 4107: 517-540.

Hayden, C.J., Brown, R.M., Gillespie, G., Setiadi, M.I., 
Linkem, C.W., Iskandar D.T., Umilaela, Bickford, D.P., 
Riyanto, A., Mumpuni, McGuire, J.A. (2008): A new 
species of bent-toed gecko Cyrtodactylus Gray, 1827, 
(Squamata: Gekkonidae) from the island of Sulawesi, 
Indonesia. Herpetologica 64: 109-120.

Hikida, T., Riyanto, A., Ota, H. (2003): A new water 
skink of the genus Tropidophorus (Lacertilia: Scin-
cidae) from Sulawesi, Indonesia. Curr. Herpetol. 22: 
29-36.

How, R.A., Kitchener, D.J. (1997): Biogeography of Indo-
nesian Snakes. J. Biogeogr. 24: 725-735.

Howard, S.D., Gillespie, G.R. (2007): Two new Calamaria 
(Serpentes) species from Sulawesi, Indonesia. J. Her-
petol. 41: 237-242.

Iskandar, D.T., Rachmansah, A., Umilaela (2011): A new 
bent-toed gecko of the genus Cyrtodactylus Gray, 1827 
(Reptilia, Gekkonidae) from Mount Tompotika, east-
ern peninsula of Sulawesi, Indonesia. Zootaxa 2838: 
65-78.

Kluge, A.G. (1985): Notes on gekko nomenclature (Sau-
ria: Gekkonidae). Zool. Meded. 59: 95-100.

Koch, A. (2011): The Amphibians and Reptiles of Sulawe-
si: Underestimated Diversity in a Dynamic Environ-
ment. In: Biodiversity Hotspots, pp. 383-404. Zachos, 
F.E. & Habel, J.C., Eds, Springer-Verlag, Heidelberg.

Koch, A. (2012): Discovery, Diversity and Distribution of 
the Amphibians and Reptiles of Sulawesi and its off-
shore Islands. Chimaira, Frankfurt am Main.

Koch, A., Arida, E., Riyanto, A., Böhme, W. (2009): 
Islands between the realms: A revised checklist of the 
herpetofauna of the Talaud Archipelago, Indonesia, 
with a discussion about its biogeographic affinities. 
Bonn. zool. Beitr. 56: 107-129.

Köhler, G. (2012): Color Catalogue for Field Biologists. 
Herpeton, Offenbach.

Kramer, E. (1979): Typenkatalog der Echsen im Naturhis-
torischen Museum Basel (BM). Stand 1978. Rev. Sui-
sse Zool. 86: 159-166.

Linkem, C.W., McGuire, J.A., Hayden, C.J., Setiadi, I.M., 
Bickford, D.P., Brown, R.M. (2008): A new species of 
bent-toed gecko (Gekkonidae: Cyrtodactylus) from 
Sulawesi Island, Eastern Indonesia. Herpetologica 64: 
224-234.

Lisle, H.F. de, Nazarov, R.A., Raw, L.R.G., Grathwohl, J. 
(2013): Gekkota. Catalog of recent Species. Private 
printing.

Manthey, U., Grossmann, W. (1997): Amphibien & Rep-
tilien Südostasiens. Natur und Tier-Verlag, Münster.

McKay, J.L. (2006): A Field Guide to the Amphibians and 
Reptiles of Bali. Krieger Publishing Company, Malabar.

Mecke, S., Kieckbusch, M., Hartmann, L., Kaiser, H. 
(2016): Historical considerations and comments on 
the type series of Cyrtodactylus marmoratus Gray, 
1831, with an updated comparative table of the 
bent-toed geckos of the Sunda Islands and Sulawesi. 
Zootaxa.

Mertens, R. (1929): Zwei neue Haftzeher aus dem Indo-
Australischen Archipel (Rept.). Senckenbergiana 11: 
237-241.

Mertens, R. (1934): Die Amphibien und Reptilien der 
Deutschen Limnologischen Sunda-Expedition. Suppl.-
Bd. 12: Tropische Binnengewässer, Bd. 4: Arch. Hyd-
robiol. 12: 677-701.

Müller, F. (1895a): Reptilien und Amphibien aus Celebes, 
(I. Bericht). Verh. Naturforsch. Ges. Basel 10: 825-
843.

Müller, F. (1895b): Reptilien und Amphibien aus Celebes, 
(II. Bericht). Verh. Naturforsch. Ges. Basel 10: 862-
869.

Oliver, P., Edgar, P., Mumpuni, Iskandar, D.T., Lilley, R. 
(2009): A new species of bent-toed gecko (Cyrtodac-
tylus: Gekkonidae) from Seram Island, Indonesia. 
Zootaxa 2115: 47-55.



160 Sven Mecke et alii

Riyanto, A., Mumpini (2013): Herpetofauna di Taman 
Nasional Bali Barat. Prosiding Seminar Nasional 
Biologi-IPA (conference paper), Surabaya, Indonesia: 
1-17.

Riyanto, A., Grismer, L.L., Wood, Jr., P.L. (2015): The 
fourth bent-toed gecko of the genus Cyrtodacty-
lus (Squamata: Gekkonidae) from Java, Indonesia. 
Zootaxa 4059: 351-363.

Riyanto, S., Kurniati, H., Engilis, Jr., A. (2016): A new 
bent-toed gecko (Squamata: Gekkonidae) from the 
Mekkonga Mountains, south east Sulawesi, Indonesia. 
Zootaxa 4109: 59-72.

Rooij, N., de (1915): The Reptiles of the Indo-Australian 
Archipelago. Vol. I.: Lacertilia, Chelonia, Emydosau-
ria. E. J. Brill, Leiden.

Rösler, H., Richards, S.J., Günther, R. (2007): Remarks 
on morphology and taxonomy of geckos of the genus 
Cyrtodactylus Gray, 1827, occurring east of Wallacea, 
with descriptions of two new species (Reptilia: Sauria: 
Gekkonidae). Salamandra 43: 193-230.

Rösler, H., Glaw, F. (2008): A new species of Cyrtodacty-
lus Gray, 1827 (Squamata: Gekkonidae) from Malay-
sia, including a literature survey of mensural and 
meristic data in the genus. Zootaxa 1729: 8-22.

Sabaj Pérez, M.H. (Ed.) (2014): Standard symbolic codes 
for institutional resource collections in herpetology 
and ichthyology: An Online Reference. Version 5.0 
(22 September 2014). American Society of Ichthy-
ologists and Herpetologists, Washington, D.C., USA. 
Available from http://www.asih.org/ (Accessed: 14 
January 2016).

Wanger, T.C., Motzke, I., Saleh, S., Iskandar, D.T. (2011): 
The amphibians and reptiles of the Lore Lindu Natio-
na Park area. Central Sulawesi, Indonesia. Salamandra 
47: 17-29.

Whitten, T., Henderson, G.S., Mustafa, M. (2001): Ecol-
ogy of Sulawesi. Periplus Editions, Singapore.

APPENDIX

Specimens examined for diagnosis and comparison

Cyrtodactylus fumosus.—Indonesia: North Sulawesi Prov-
ince: Bone Mountains (Pegunungan Bone, 1200 m a.s.l.): NMB 
2662 (holotype); Mount Masarang: NMB 2663; Rurukan: 
BMNH 1895.2.27.7, 1896.12.9.3.

Cyrtodactylus halmahericus.—Indonesia: North Maluku 
Province: North Halmahera: MCZ Herp R-19279, SMF 8230 
(paratype); Central Halmahera: Oba (Payahe): SMF 8232 (para-
type); Soah Konorah (Soakonora): SMF 8233 (holotype).

Cyrtodactylus jellesmae.—Indonesia: Central Sulawesi 
Province: Malakosa, Kuala Navusu: AMNH R142969-73; Tolai, 
Sungai River: AMNH R142974; North Sulawesi Province: Kema: 
NMB-REPT 2659 (paralectotype); Buol: NMB-REPT 2660 (lec-
totype); Mount Masarang: NMB-REPT 2661 (paralectotype); 
Pulau Biaro: MCZ 171466; South Sulawesi Province: Lowah 
(Muara Loa): MCZ 25337.

Cyrtodactylus klakahensis.—Indonesia: Jawa Timur Prov-
ince: Lumajang, Klakah: SMF 22476 (holotype); SMF 22477-79 
(paratypes).

Cyrtodactylus marmoratus.—Indonesia: Java: RMNH.RENA 
2710.1-8 (paralectotypes), RMNH.RENA 2710a.1 (lectotype), 
RMNH.RENA 2710a.2-6 (paralectotypes), MTKD 8903-05, 
SMF 8218; West Java: RMNH.RENA 9847, ZMA.RENA 15387 
(three specimens); Jawa Barat Province: Garoet (Garut Regency): 
RMNH.RENA 9846 (three specimens), RMNH.RENA 10114 
(two specimens), Kamodjang (Kawah Kamojang): RMNH.RENA 
9849; Jawa Tengah Province: “Goewa Djatidjadjar Jdjoe Bagelen” 
(= Gua Jatijajar, Kebumen); Karangpucung: SMF 92361; Jawa 
Timur Province: Malang: RMNH.RENA 9848 (two specimens).

Cyrtodactylus petani.—Indonesia: Jawa Timur Province: 
Toelong Agoeng (Tulungagung Regency): ZMA.RENA 11353.


	Acta Herpetologica
	Vol. 11, n. 2 - December 2016
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