A new sandstone-dwelling leaf-toed gecko (Gekkonidae: Dixonius hinchangsi) from Khon Kaen Province, northeastern Thailand Author Pauwels, Olivier S. G. 0000-0002-3265-5496 Royal Belgian Institute of Natural Sciences, Rue Vautier 29, B- 1000 Brussels, Belgium osgpauwels@yahoo.fr Author Das, Sunandan 0000-0002-1597-1147 Ecological Genetics Research Unit, Organismal and Evolutionary Biology Research Programme, Faculty of Biological and Environmental Sciences, University of Helsinki, Helsinki 00014, Finland sunandan.das@helsinki.fi Author Kunya, Kirati 0000-0002-7219-6239 Nakhonratchasima Zoo, 111 M. 1, Ratchasima-Pak Tongchai Rd., Chaimongkol, Muang, Nakhon Ratchasima 30000, Thailand kkunya2006@gmail.com Author Sumontha, Montri 0000-0003-4829-7731 Ranong Marine Fisheries Research and Development Center, 157 Chaloem Phrakiat Rd., Paknam, Muang, Ranong 85000, Thailand montri.sumontha@gmail.com Author Donbundit, Nattasuda 0000-0002-3074-9288 Department of Biology, Faculty of Science, Khon Kaen University, Muang, Khon Kaen 40002, Thailand waiinatda@gmail.com Author Pauwels, Thomas P. C. 0009-0003-0038-5799 Department of Biology, Faculty of Science, Khon Kaen University, Muang, Khon Kaen 40002, Thailand thomaspwlsofficial@gmail.com Author Sonet, Gontran 0000-0001-7310-9574 Royal Belgian Institute of Natural Sciences, Rue Vautier 29, B- 1000 Brussels, Belgium gsonet@naturalsciences.be Author Brecko, Jonathan 0000-0002-2969-4566 Royal Belgian Institute of Natural Sciences, Rue Vautier 29, B- 1000 Brussels, Belgium & Royal Museum for Central Africa, Leuvensesteenweg 13,3080 Tervuren, Belgium jbrecko@naturalsciences.be Author Meesook, Worawitoo 0000-0001-6781-3645 Faculty of Science and Technology, Rajamangala University of Technology Srivijaya, 109 M. 2, Tham Yai Subdistrict, Thung Song District, Nakhon Si Thammarat Province 80110, Thailand worawitoo.m@rmutsv.ac.th text Zootaxa 2025 2025-02-11 5584 4 482 504 https://doi.org/10.11646/zootaxa.5584.4.2 journal article 10.11646/zootaxa.5584.4.2 1175-5326 14853591 2EDFA1A2-8713-4E63-A66D-43D021C30542 Dixonius hinchangsi sp. nov. ( Figures 1–9 ) Dixonius siamensis — Sumontha et al . 2017: 568 Dixonius siamensis — Pauwels et al . 2020: 108 Dixonius siamensis — Sumontha & Pauwels 2020: 176 Dixonius siamensis — Pauwels et al . 2021: 538 Holotype . RBINS 2739 (formerly under RBINS 17015 ); adult male from Ban Kaeng Sila (ca. 16°39’42.5”N , 102°36’04.4”E ), W of the border with Nam Phong National Park , Ubolratana District , Khon Kaen Province , northeastern Thailand ; collected by Kirati Kunya in 2000. Paratypes (3). RBINS 2740 (formerly RBINS 17016 ), adult male , and RBINS 2741–2742 (formerly RBINS 17017–17018 ), adult females ; same collector, locality and date as the holotype . Diagnosis. Dixonius hinchangsi sp. nov. can be distinguished from all other congeners by the combination of its maximal known SVL of 50.1 mm ; 12 longitudinal rows of dorsal tubercles; 30 to 34 paravertebral tubercles; 23 to 27 longitudinal rows of ventrals across the abdomen; six to eight precloacal pores in males, no precloacal pores in females; no canthal stripe; strongly barred lips; and a spotted to uniform dorsal pattern in males and females. FIGURE 1. Preserved adult male holotype (RBINS 2739) of Dixonius hinchangsi sp. nov. General dorsal (A) and ventral (B) views. Photos. by J. Venderickx. FIGURE 2. Preserved adult male holotype (RBINS 2739) of Dixonius hinchangsi sp. nov. A. Right profile of the head. B. Dorsal surface of the head. C. Ventral surface the head. D. Cloacal area. Note the eight precloacal pores and the partly everted right hemipenis. Photos. by J. Venderickx. Description of holotype . Adult male ( Figures 1 and 2 ). SVL 47.5 mm . Head relatively long (HL/SVL ratio 0.31), wide (HW/HL ratio 0.64), not markedly depressed (HD/HL ratio 0.46), distinct from neck. Lores and interorbital region weakly inflated. Canthus rostralis relatively prominent. Snout moderately short (SnOrb/HL ratio 0.40), rounded, slightly longer than orbit diameter (OrbD/SnOrb ratio 0.53). Scales on snout and forehead small, hexagonal to rounded, flattened, with smooth or slightly rugose surface. Scales on snout larger than those on occipital region. Orbit of moderate size (OrbD/HL ratio 0.21). Pupil vertical with crenelated margins. Supraciliaries short, without spines. Ear opening roundish, small (EarL/HL ratio 0.05); orbit to ear distance greater than orbit diameter. Rostral 1.43 times wider than high, dorsally divided on a third of its height by a median cleft. Two enlarged supranasals, in contact along their anterior half. Rostral in contact with supralabial I on each side, nostrils and both supranasals. Nostrils rounded, each surrounded by supranasal, rostral, supralabial I and two postnasals. Mental triangular, wider than long. Two pairs of enlarged postmentals, anteriormost approximately three of four times larger than posterior. Each anterior postmental bordered anteriorly by mental, medially by the other anterior postmental, anterolaterally by infralabial I, posterolaterally by the second postmental; the pair collectively bordered posteromedially by a row of three throat scales. Supralabials to mid-orbital position 5/6; enlarged supralabials to angle of jaws 7/8. Infralabials 7/6. Interorbital scales 9. Body slender, elongate (TrunkL/SVL ratio 0.42), without ventrolateral folds. Dorsal scales small, irregular, flattened to conical, distributed among large, strongly keeled tubercles arranged in 12 regular longitudinal rows at midbody. Paravertebral tubercle rows separated by two granular scales, i.e. less than the width of a tubercle. Lower flanks covered with irregularly shaped, smooth to slightly conical scales. Gular region with relatively homogeneous, granular scales. Ventral scales smooth, imbricate, their free posterior margin rounded. Ventrals increasing in size from throat to chest to abdomen. Midbody scale rows across belly to lowest rows of tubercles 24. Eight precloacal pores in a continuous series. Pore-bearing scales smaller than scales of adjacent scale rows. No femoral pores or enlarged femoral scales. FIGURE 3. Preserved adult male paratype (RBINS 2740) of Dixonius hinchangsi sp. nov. General dorsal (A) and ventral (B) views. Photos. by J. Venderickx. Fore- and hind limbs short, slender (FaL/SVL ratio 0.11; TibL/SVL ratio 0.16). Digits slender, dilated distally, all bearing robust, slightly recurved claws. Basal subdigital lamellae narrow, without scansorial surfaces (6-8- 11-10-9 right manus; 8-10-11-13-12 right pes); setae-bearing lamellae restricted to enlarged, distal, ‘‘leaf-like’’ scansors. Scales on palm and sole small, smooth, rounded to oval. Interdigital webbing absent. Relative length of digits: III>II≈IV>V>I (manus), III>IV>V>II>I (pes). Tail length 45.6 mm , of which the last 2.5 mm correspond to the regenerated part of the tail. Supracaudals markedly keeled along the whole original part of the tail. Thirty subcaudals enlarged into transverse plates on the original part of the tail. Coloration in life. Dorsal surface of head brown with small light brown patches on the snout. Supraorbital area slightly bluish. Supralabials and infralabials black with each an irregular, vertical light brown bar. No canthal stripe. Dorsum brown with a few light brown spots forming an interrupted, poorly contrasting, line. Flanks blackish brown with irregular light brown marks. Dorsal surfaces of members blackish brown with scattered lighter and darker spots. Tail blackish brown with poorly contrasted, lighter rings not encircling the tail. Throat, lower flanks and belly gray, darker on the underside of limbs and tail. In preservative the colors strongly fade and become less contrasted ( Figures 1 and 2 ). Cranial osteology. Based on the adult female paratype RBINS 2742. Typical, relatively depressed, gekkonid cranium ( Figure 7 ). The snout complex is formed of: 1) a single premaxilla bearing 10 teeth; 2) paired, elongated nasals with an embayed rostral end and pointed posterolateral end; 3) paired, laminar septomaxillae with hooked posterolateral processes forming the roofing of the vomeronasal organ; and 4) paired laminar vomers completing the ventral encasing of the vomeronasal organ. FIGURE 4. Head of the preserved adult male paratype (RBINS 2740) of Dixonius hinchangsi sp. nov. A. Right profile. B. Dorsal surface. C. Frontal view. D. Ventral surface. Photos. by J. Venderickx. The palatomaxillary arch consists of: 1) paired maxillae with a high, shark fin-shaped facial process with a deep embayment at its anterior base, premaxillary process (itself divided into an anterolateral process and an anteromedial lappet), orbital process and alveolar shelf bearing 35–36 teeth; 2) paired, laminar, edentulous palatines with an anterolateral and an anteromedial process; 3) paired, edentulous, trifurcate pterygoid comprised of ectopterygoid, palatine and quadrate processes; and 4) paired, crescentic ectopterygoids. The dermatocranial roofing and circumorbital bones consist of: 1) single, elongated frontal with dorsal lamina that widens markedly at the caudal end and orbital laminae merging along the ventral midline; 2) paired parietal with a posteromedial process; 3) paired, crescentic prefrontals; 4) paired, Y-shaped postorbitofrontal; and 5) paired, rudimentary jugals. The chondrocranial braincase and otic region bones consist of: 1) single supraoccipital housing the posterior semicircular canal; 2) paired prootics with a prominent alar process, crista prootica laterally extended into a spina prootica and forming the housing of the anterior and horizontal semicircular canal; 3) paired otoccipitals bearing the fenestra ovalis, a pronounced paroccipital process and housing cochlea, horizontal and posterior semicircular canals; 4) single parabasisphenoid with the sella turcica and a pair of elongated basipterygoid processes; and 5) single basisphenoid forming the occipital condyle with contribution from the otoccipitals. FIGURE 5. Preserved adult female paratype (RBINS 2741) of Dixonius hinchangsi sp. nov. General dorsal (A) and ventral (B) views. Photos. by J. Venderickx. FIGURE 6. General dorsal view of the preserved adult female paratype (RBINS 2742) of Dixonius hinchangsi sp. nov. Photo. by J. Venderickx. FIGURE 7. Cranium of the adult female paratype RBINS 2742 of Dixonius hinchangsi sp. nov. in dorsal (A), lateral (B) and ventral (C) views. Scans and plate by S. Das and J. Brecko. FIGURE 8. Dorsal (A) and ventral (B) views of a live adult female individual (not preserved) of Dixonius hinchangsi sp. nov. at the type-locality. Tail original. Skin of dorsum damaged during capture. Photo. by K. Kunya. The suspensorial elements and palatoquadrate arch element include: 1) paired, curved, slender squamosals; 2) paired quadrates with a cephalic condyle, central column, tympanic crest (with a concavity along its posterior surface) and bicipital mandibular condyle; and 3) paired, rod-like epipterygoids. The mandible consists of: 1) paired compound bones which themselves are a complex of articular, prearticular and surangular, with a retroarticular process and an adductor fossa; 2) paired coronoids with a triangular apex; 3) paired splenials; and 4) paired, elongated dentary with 35 teeth. External morphological variation. Morphometric and meristic characters of the type series are provided in Table 1 . Morphological characters of the paratypes agree in most respects with the holotype . In RBINS 2740 , each anterior postmental is bordered anteriorly by the mental, medially by the other anterior postmental, anterolaterally by infralabial I, posterolaterally by the second postmental and a small scale in contact with infralabials I and II (left), or by the second postmental only (right); the pair collectively bordered posteromedially by three throat scales of unequal sizes ( Figure 4 ). In RBINS 2740 , 7-9 - 10-10 -9 lamellae on right manus, 6-9-12-14-11 on right pes (numbers of lamellae not noted for the two other paratypes , except for 4 th toe, see Table 1 ). Relative length of digits of RBINS 2740 : III>II≈IV>V>I (manus), IV>III>V>II>I (pes) (not noted for the two other paratypes ). More than 43 widened subcaudals in RBINS 2740 (tail original, but tip missing; Figure 3 ). The male paratype RBINS 2740 shows a continuous series of six pores. Similarly to all other species of Dixonius , there are no femoral pores in both sexes, and precloacal pores are absent in females ( Figures 5 and 8 ). The dorsal pattern and color do not seem to show a sexual dimorphism. None of the types has a complete, original tail, so TailL/SVL ratio could not be established. None of the types was photographed alive, but Figures 8 and 9 show live, uncollected, adults from the type locality. The female shown on Figure 8 has an original tail on which ten light rings, not encircling the tail, are regularly disposed. TABLE 1. Meristic and morphometric (in mm) data for the type series of Dixonius hinchangsi sp. nov. Paired meristic characters are given left/right.

Holotype, RBINS 2739	Paratype, RBINS 2740	Paratype, RBINS 2741	Paratype, RBINS 2742
Sex	Male	Male	Female	Female
SVL	47.5	47.6	46.4	50.1
TailL	45.6 (last 2.5 regenerated)	>46.2 (original but tip missing)	>45.7 (original but tip missing)	45.8 (last 32.9 regenerated)
TrunkL	20.0	22.7	16.4	22.1
TailW	5.5	5.7	3.8	4.5
BW	11.0	11.0	8.7	11.1
HL	14.9	14.5	13.5	14.3
HW	9.5	9.2	8.4	8.3
HD	6.8	7.0	6.3	6.3
EarL	0.8	0.4	0.9	0.9
TibL	7.7	7.6	7.8	7.9
FaL	5.4	6.4	5.4	5.9
OrbD	3.2	3.1	3.2	3.1
NosOrb	4.5	4.2	3.5	4.0
SnOrb	6.0	5.8	5.2	5.1
OrbEar	4.3	4.5	3.8	3.7
InterN	1.6	1.8	1.6	1.6
InterOrb	4.1	4.8	3.6	3.8
RosW	2.0	2.4	2.0	2.3
RosH	1.4	1.6	1.2	1.3
MenL	1.8	1.9	1.7	1.7
MenW	2.5	2.5	2.3	2.4
Ven	24	27	23	25
DTR	12	12	12	12
PV	34	30	34	30
PV’	21	25	22	22
SubLT4	13	14	15	13
InterOrbS	9	8	8	9
SL	7/8	9/8	8/7	8/6
SLMOrb	5/6	6/6	6/5	6/6
IL	7/6	6/6	7/7	6/6
PrePo	8	6	0	0
FemPo	0/0	0/0	0/0	0/0

FIGURE 9. Live adult individual (not preserved) of Dixonius hinchangsi sp. nov. at the type-locality. Tail partly regenerated. Photo. by K. Kunya. Molecular analyses. The sequence obtained here for the paratype RBINS 2742 included the complete NADH dehydrogenase subunit 2 (ND2) gene of 1041 bp and was based on an average sequencing depth of 1230. It contained no stop codons. From the 37 ND2 sequences labelled as Dixonius already available in GenBank, we excluded HQ646374 , which showed a similarity ≥99.7% with records from Heteronotia binoei (Gray) , EU054298 , which originates from the same specimen than KP979732 ), and EU054297 , which was responsible for 37 singletons (unevenly distributed in the sequence) out of the 139 singletons in the alignment of the ingroup) ( Table 2 ). Proportions of nucleotide substitutions between species ranged from 3.11 to 18.92%. Dixonius hinchangsi sp. nov. showed divergences ranging from 7.40 to 18.11% compared to all other Dixonius species ( Table 3 ). These interspecific distances were all larger than the intraspecific distances measured for species sequenced for more than one specimen (0–0.99%). The maximum likelihood phylogenetic tree was based on an alignment of 1041 bp. The best-fit substitution models determined by IQ-TREE were TVM+F+G4, TPM3u+F+G4 and TVM+F+I+G4 for the partitions corresponding to the codon positions 1, 2 and 3, respectively. In this tree Dixonius hinchangsi sp. nov. belongs to the clade comprising D. cf. siamensis (VU023), D. cf. siamensis (AUP-01724) and D. sp. from Thailand , and D. lao Nguyen, Sitthivong, Ngo, Luu, Nguyen, Le & Ziegler, 2020 and D. muangfuangensis Luu, Nguyen, Le, Grismer, Ha, Sitthivong, Hoang & Grismer, 2023 from Laos ( Figure 10 ). In Table 2 and Figure 10 , MT468896 , EU054299 and KP979732 , originally labelled in GenBank as Dixonius siamensis , were relabelled as D. cf. siamensis , because they originate from areas distant from the type locality and likely represent two other species ( Pauwels et al. 2024 ); and HM997153 , identified in GenBank as D. melanostictus was changed to D. cf. melanostictus because its geographical origin within Thailand is unknown. FIGURE 10. Phylogenetic tree inferred for the Dixonius specimens analysed here in, based on 1041 base pairs of the NADH dehydrogenase subunit 2 (ND2) gene using the maximum likelihood method with 1000 ultrafast bootstrap replicates (bootstrap support values>95 given on the branches). TABLE 2. Identifications and descriptions of sequences used for DNA analyses of Dixonius spp.

Species name	Voucher ID	Location	GenBank ID
D. aaronbaueri	ZFMK 87274	Nui Chua NP, Ninh Thuan Province, Vietnam	HM997152
D. cf. melanostictus	VU 022	Captive, Thailand	HM997153
D. cf. siamensis	LSUHC 7328	Phnom Aural, Purset Province, Cambodia	EU054299
D. cf. siamensis	LSUHC 7378	Phnom Aural, Purset Province, Cambodia	KP979732
D. cf. siamensis (AUP-01724)	AUP-01724	Thong Pha Phum, Kanchanaburi Province, Thailand	MT468896
D. cf. siamensis (VU023)	VU 023	Captive, Thailand	KX379195
D. cf. vietnamensis	ZFMK 87273	Nui Chua, Ninh Thuan Province, Vietnam	KX379201
D. fulbrighti	VNUF R.2022.81	Duc Co District, Gia Lai Province, Vietnam	OR327037
D. fulbrighti	VNUF R.2022.82	Duc Co District, Gia Lai Province, Vietnam	OR327038
D. fulbrighti	VNUF R.2022.84	Duc Co District, Gia Lai Province, Vietnam	OR327039
D. gialaiensis	VNUF R.2020.22	Chu Se District, Gia Lai Province, Vietnam	OQ819041
D. gialaiensis	VNUF R.2020.33	Chu Se District, Gia Lai Province, Vietnam	OQ819042

......continued on the next page TABLE 2 (Continued)

Species name	Voucher ID	Location	GenBank ID
D. hinchangsi sp. nov.	RBINS 2742	Hin Chang Si, Khon Kaen Province, Thailand	PQ869195
D. lao	VNUF R.2016.2	Khammouane Province, Laos	MT024681
D. lao	IEBR A.2019.6	Khammouane Province, Laos	MT024682
D. lao	IEBR A.2019.5	Khammouane Province, Laos	MT024683
D. minhlei	ZFMK 97745	Vinh Cuu, Dong Nai Province, Vietnam	KX379194
D. muangfuangensis	VNUF R.2020.42	Muangfuang District, Vientiane Province, Laos	OQ818586
D. muangfuangensis	VNUF R.2020.52	Muangfuang District, Vientiane Province, Laos	OQ818587
D. somchanhae	VNUF R.2020.1	Nasaithong District, Vientiane Capital, Laos	MW605165
D. somchanhae	VNUF R.2020.2	Nasaithong District, Vientiane Capital, Laos	MW605166
D. somchanhae	VNUF R.2020.3	Nasaithong District, Vientiane Capital, Laos	MW605167
D. somchanhae	VNUF R.2020.54	Vientiane Capital, Laos	OQ818588
D. somchanhae	VNUF R.2020.55	Vientiane Capital, Laos	OQ818589
D. somchanhae	VNUF R.2020.56	Vientiane Capital, Laos	OQ818590
D. somchanhae	VNUF R.2020.59	Vientiane Capital, Laos	OQ818591
D. sp.	LSUHC 9466	Sai Yok, Kanchanaburi Province, Thailand	KX379196
D. taoi	ZFMK 96680	Phu Quy Island, Binh Thuan Province, Vietnam	KP979733
D. taoi	CAS 257300	Phu Quy Island, Binh Thuan Province, Vietnam	KP979734
D. taoi	IEBR A.2014.26	Phu Quy Island, Binh Thuan Province, Vietnam	KP979735
D. taoi	IEBR A.2014.27	Phu Quy Island, Binh Thuan Province, Vietnam	KP979736
D. vietnamensis	ZFMK 97747	Nha Trang, Khánh Hòa Province, Vietnam	KX379197
D. vietnamensis	IEBR R.2016.3	Nha Trang, Khánh Hòa Province, Vietnam	KX379198
D. vietnamensis	VNMN R.2016.3	Nha Trang, Khánh Hòa Province, Vietnam	KX379199
D. vietnamensis	VNMV R.2016.4	Nha Trang, Khánh Hòa Province, Vietnam	KX379200
Heteronotia spelea (outgroup)	WAM R.157719	Newman, Australia	HQ840102

TABLE 3. Average uncorrected p-distances (%) between DNA sequences of the NADH dehydrogenase subunit 2 (ND2) gene from different Dixonius species (lower triangle) and within Dixonius species for which more than one sequence was available (diagonal).

Species name
D. aaronbaueri	1 n/c
D. cf. melanostictus	2 16.73	n/c
D. cf. siamensis	3 18.36	13.51	0.29
D. cf. siamensis AUP-01724	4 18.02	11.96	12.69	n/c
D. cf. siamensis VU 023	5 18.37	13.04	14.93	3.867 n/c
D. cf. vietnamensis	6 18.31	13.01	12.32	11.35 12.43	n/c
D. fulbrighti	7 17.69	12.79	11.89	12.58 14.15	12.9	0.88
D. gialaiensis	8 17.46	13.28	12.14	12.57 14.32	13.22	3.43	0.11
D. hinchangsi sp. nov.	9 18.11	12.92	12.97	7.397 8.978	11.24	12.15	12.79	n/c
D. lao	10 18.63	12.38	13.33	8.133 9.484	11.6	13.05	12.39	7.813	0.38
D. minhlei	11 17.56	14.09	12.64	13.38 15.33	13.92	3.611	3.645	13.38	13.45 n/c
D. muangfuangensis	12 18.1	11.75	12.71	8.321 7.992	12.41	12.76	13.07	8.759	3.114 13.14	n/c
D. somchanhae	13 18.92	12.1	10.05	12.59 13.45	12.77	11.14	11.5	12.67	13.29 12.37	12.87	0.78
D. sp. LSUHC 9466	14 18.52	13.3	13.8	3.199 6.342	12.12	13.11	13.56	7.407	8.698 13.97	10.43	13.45	n/c
D. taoi	15 17.85	13	12.83	12.03 13.54	7.738	13.8	13.28	12.2	11.99 13.73	11.65	13.81	11.87 0.99
D. vietnamensis	16 18.91	13.18	12.49	11.94 13.61	2.625	13.15	13.5	11.62	12.16 14.19	12.77	12.93	12.05 7.005 0.11

FIGURE 11. Map showing the positions of the type-localities of the currently recognized Dixonius species inhabiting Thailand. Map by W. Sodob. Distribution and natural history. The type series was found active at night on sandstone in a cultivated area along the 4014 Rural Road in the Ubolratana District of Khon Kaen Province , Isan Region on the Khorat Plateau, northeastern Thailand ( Figure 11 ). We also observed numerous individuals within Nam Phong National Park, at Hin Chang Si View Point in Ban Fang District ( 16°39’17.2”N 102°36’33.0”E and surroundings, see Figures 12 and 13 ). The two locations where the new species was found, at less than two km from each other, are characterized by a sandstone substrate ( Singtuen et al. 2022 ), with which it seems associated. On the same rocks we (KK, ND and TPCP) observed Gehyra lacerata (Taylor) , Gekko gecko (Linnaeus) and numerous Hemidactylus frenatus Duméril & Bibron and H. platyurus (Schneider) ( Gekkonidae ) in strict syntopy, and we encountered Calotes versicolor (Daudin) ( Agamidae ), Eutropis longicaudata (Hallowell) and E. multifasciata (Kuhl) , Lygosoma koratense Smith , Scincella melanosticta (Boulenger) ( Scincidae ), Ahaetulla nasuta (Lacepède) , Coelognathus radiatus (Boie) , Lycodon capucinus Boie and L. laoensis Günther , Oligodon fasciolatus (Günther) ( Colubridae ), Naja siamensis Laurenti and Ophiophagus hannah (Cantor) ( Elapidae ) in the immediate surroundings. Some aspects of the vegetation at Hin Chang Si were described by Thummawongsa et al . (2014) . Etymology. The specific epithet refers to Hin Chang Si (“Elephant-Rubbing Rock”), a remarkably beautiful sandstone formation ( Figure 12 ) in Ban Fang District within Nam Phong National Park, where the new species is common. It is a noun in apposition, invariable. FIGURE 12. Habitat of Dixonius hinchangsi sp. nov. at Hin Chang Si, Khon Kaen Province, northeastern Thailand. Photo. by T. P. C. Pauwels. We suggest the following common names: จิ้งจกดินหินช้างสี ( Djing-djok din Hin Chang Si , Thai), Hin Chang Si leaf-toed gecko (English) , and Dixonius de Hin Chang Si (French) . Comparison to other species. The main diagnostic morphological and chromatical characters of Dixonius species are presented in Table 4 . Dixonius hinchangsi sp. nov. is readily distinguished from the southern Vietnamese D. aaronbaueri Ngo & Ziegler, 2009 by its distinctly higher SVL (50.1 versus 38.6 mm ), distinctly higher Ven (24–27 versus 18 or 19), slightly higher DTR (12 versus 11), distinctly lower PV (30–34 versus 45–50) and lower PV’ (21–25 versus 29–32), higher PrePo (6–8 versus 5), its lack ( versus presence) of a marked canthal stripe, and the lack ( versus possession) of an orange tail; from the western Thai D. chotjuckdikuli Donbundit, Sumontha, Suthanthangjai, Suthanthangjai & Pauwels, 2024 by a distinctly higher Ven (24–27 versus 16 or 18), distinctly lower DTR (12 versus 16 or 18), strongly barred ( versus not barred) lips, absence ( versus presence) of a marked canthal stripe, a uniform or spotted ( versus blotched) dorsal pattern, and the lack ( versus possession) of an orange tail; from the southern Thai D. dulayaphitakorum Sumontha & Pauwels, 2020 by a higher Ven (24–27 versus 22) and a much lower DTR (12 versus 22). TABLE 4. Comparison of selected diagnostic characters of spotted and blotched Dixonius spp. Ba = banded; Bl = blotched; Sp = spotted; St = striped; U = uniform. NA = not available. Bolded values are diagnostic differences from Dixonius hinchangsi sp. nov .

Character	D. hinchangsi sp. nov. D. aaronbaueri		D. chotjuckdikuli D. dulayaphitakorum	D. fulbrighti D. gialaiensis D. hangseesom D. kaweesaki D. lao D. mekongensis D. melanostictus D. minhlei D. muangfuangensis D. pawangkhananti D. siamensis D. somchanhae D. taoi D. vietnamensis
Max. SVL	50.1	38.6 45.6 47.8		46.0	47.4	42.1	41.6	55.4	51.2	50.0	47.5	56.7	42.6	50.5	47.1	43.9	42.4
Ven	24–27	18–19 18 (16) 22		22–24	19–21	22–26	24	23–24	22–24	22	20–23	20–21	16	20–25	23–26	21–23	15–21
DTR	12	11	18 (16) 22	16–20	19	12–14	12–13	20–23	16	10–11	14–15	21–23	16	14	19–21	11–12	13–17
PV	30–34	45–50 31–34 33–35 32–39			33–39	NA	NA	40–43	32–34	NA	38–44	45–48	30–32	33–38	35–40	31–42	36
PV’	21–25	29–32 20–26 20–25 22–25			23–25	NA	NA	24–25	20–24	NA	23–26	24–29	18–21	24–25	19–27	18–25	NA
SubLT4	13–15	13–15 15–17 12–15 13–15			13–15	NA	15	15	12–15	15	12–15	15	14–15	14–15	13–15	12–14	12–15
InterOrbS	8–9	8–10 8 (6) 9–10		8–9	7	10	6–7	8–9	8–9	NA	7–10	7	7	10–11	7–8	7–10	8–10
SL	6–9	8–9	7–8 (9) 8	7–9	7–8	8	10–11	8–10	7–9	9	7–9	7–8	7–8	7–8	7–8	7–8	7
SLMOrb	5–6	6–7	6–7 6	6	6	6	7–8	7–8	5–7	7	5–6	6	5–6	5–6	6	5–6	5–6
IL	6–7	6–8	6–7 (8) 7	5–7	6–7	8	6–8	7–8	6–8	7	6–7	6–7	6–7	6–7	5–6	5–7	6–7
PrePo	6–8	5	5–6 6–7	7	7–8	6–8	9–11	8	7	9	7–8	7–8	6	7	5–6	5–6	5–7
Marked canthal stripe	0	1	1 0	1	1	1	1	0	1	1	1	0	1	1	1	1	1
Lips strongly barred	1	1	0 1	0	1	1	1	0	1	0	0	1	1	1	1	1	0
Dorsal pattern	U / Sp	U	Bl Sp	U / Sp	Sp	Ba / Bl	St	U	U / Sp	St	Sp	Sp	Ba / Bl	Sp	Sp Sp / Bl		Sp
Orange tail	N	Y	Y N	N	N	Y	Y	N	N	Y	N	N	Y	N	N	N	N

FIGURE 13. Sandstone microhabitat of Dixonius hinchangsi sp. nov. at its type locality in Khon Kaen Province, northeastern Thailand. Photo. by N. Donbundit. Dixonius hinchangsi sp. nov. can be separated from the central Vietnamese D. fulbrighti Luu, Grismer, Hoang, Murdoch & Grismer, 2023 by a distinctly lower DTR (12 versus 16–20), strongly barred ( versus not barred) lips, and the absence ( versus presence) of a marked canthal stripe; from the central Vietnamese D. gialaiensis Luu, Nguyen, Le, Grismer, Ha, Sitthivong, Hoang & Grismer, 2023 by a higher Ven (24–27 versus 19–21), distinctly lower DTR (12 versus 19), higher InterOrbS (8 or 9 versus 7), and absence ( versus presence) of a marked canthal stripe; from the western Thai D. hangseesom Bauer, Sumontha, Grossmann, Pauwels & Vogel, 2004 by a distinctly higher SVL (50.1 versus 42.1 mm ), lower InterOrbS (8 or 9 versus 10), lower IL (6 or 7 versus 8), absence ( versus presence) of a marked canthal stripe, a uniform or spotted ( versus banded/blotched) dorsal pattern, and the lack ( versus possession) of an orange tail; from the peninsular Thai D. kaweesaki Sumontha, Chomngam, Phanamphon, Pawangkhanant, Viriyapanon, Thanaprayotsak & Pauwels, 2017 by a distinctly higher SVL (50.1 versus 41.6 mm ), higher InterOrbS (8 or 9 versus 6–7), lower SL (6–9 versus 10 or 11), lower SLMOrb (5 th or 6 th versus 7 th or 8 th ), lower PrePo (6–8 versus 9–11), uniform or spotted ( versus striped) dorsal pattern, absence ( versus presence) of a marked canthal stripe, and lack ( versus possession) of an orange tail; from the central Laotian D. lao by a distinctly lower DTR (12 versus 20–23), distinctly lower PV (30–34 versus 40–43), lower SLMOrb (5 th or 6 th versus 7 th or 8 th ), and strongly barred ( versus not barred) lips; from the eastern Thai D. mekongensis Pauwels, Panitvong, Kunya & Sumontha, 2021 by a generally higher Ven (24–27 versus 22–24), a distinctly lower DTR (12 versus 16), and absence ( versus presence) of a marked canthal stripe. Dixonius hinchangsi sp. nov. can be distinguished from the central Thai D. melanostictus by a higher Ven (24–27 versus 22), higher DTR (12 versus 10 or 11), lower SLMOrb (5 th or 6 th versus 7 th ), lower PrePo (6–8 versus 9), absence ( versus presence) of a marked canthal stripe, strongly barred ( versus not barred) lips, a uniform or spotted ( versus striped) dorsal pattern, and lack ( versus possession) of an orange tail; from the southern Vietnamese D. minhlei Ziegler, Botov, Nguyen, Bauer, Brennan, Ngo & Nguyen, 2016 by a higher Ven (24–27 versus 20–23), lower DTR (12 versus 14 or 15), lower PV (30–34 versus 38–44), absence ( versus presence) of a marked canthal stripe, and lips strongly ( versus not strongly) barred; from the northern Laotian D. muangfuangensis by a higher Ven (24–27 versus 20 or 21), distinctly lower DTR (12 versus 21–23), distinctly lower PV (30–34 versus 45–48) and higher InterOrbS (8 or 9 versus 7); from the peninsular Thai D. pawangkhananti Pauwels, Chomngam, Larsen & Sumontha, 2020 by a distinctly higher SVL (50.1 versus 42.6 mm ), distinctly higher Ven (24–27 versus 16), distinctly lower DTR (12 versus 16), higher InterOrbS (8 or 9 versus 7), absence ( versus presence) of a marked canthal stripe, uniform or spotted ( versus banded/blotched) dorsal pattern, and lack ( versus possession) of an orange tail; from the central Thai D. siamensis by a lower DTR (12 versus 14), generally lower PV (30–34 versus 33–38), lower InterOrbS (8 or 9 versus 10 or 11), and absence ( versus presence) of a marked canthal stripe; from the Laotian D. somchanhae Nguyen, Luu, Sitthivong, Ngo, Nguyen, Le & Ziegler, 2021 by a distinctly lower DTR (12 versus 19–21), a lower PV (30–34 versus 35–40), and the absence ( versus presence) of a marked canthal stripe; from the southern Vietnamese, insular D. taoi Botov, Phung, Nguyen, Bauer, Brennan & Ziegler, 2015 by a higher Ven (24– 27 versus 21–23) and the absence ( versus presence) of a marked canthal stripe; and from the southern Vietnamese D. vietnamensis Das, 2004 by a distinctly higher SVL (50.1 versus 42.4 mm ), higher Ven (24–27 versus 15–21), lower DTR (12 versus 13–17), lower PV (30–34 versus 36), absence ( versus presence) of a marked canthal stripe, and strongly ( versus not strongly) barred lips. Dixonius hinchangsi sp. nov. is also distinct from the Myanmar Dixonius burmanicus by its distinctly higher SubLT4 (13–15 versus 8 or 9 according to the original description). The single examined cranium of Dixonius hinchangsi sp. nov. differs from the single examined cranium of the lectotype (BMNH 1946.8.24.40) of D. siamensis in having a higher number of maxillary teeth (35 or 36 versus 32 or 33) and an obtusely pointed anterior end of the frontal ( versus a more rounded anterior end). The cranial osteology of the other Dixonius species has not yet been studied.