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Snake-eyed, or ablepharine skinks, are common residents of the highest mountain ranges on Earth, including the Himalayas, the Tibetan Plateau, Karakoram, Pamir, and Tian Shan, colloquially known as the Roof of the World. Historically, these skinks were alternatively assigned to the genera Scincella, Ablepharus, Asymblepharus, and Himalblepharus, but recent revisions proposed to group them in only two genera, namely Protoblepharus (the eastern Himalayan taxa) and Ablepharus (all other taxa). The taxonomy of this group yet remains in a state of flux due to the limited informativeness of available phylogenies (often with little material from the Himalayan region), discrepancies in morphological patterns of variation, and the potentially high yet unconsidered degree of diversity of the group. To shed some light, we assess the mitochondrial diversity and evolution of Himalayan snake-eyed skinks based on >200 individuals sampled across Pakistan, India, Nepal, and China, representing nine out of ten Himalaya currently recognized species. Phylogenetic relationships were inferred from 2998 bp of mitochondrial sequences (12S, 16S, ND2, cyt b). Our analyses reveal a remarkably high cryptic diversity, including 14 to 16 species-level lineages within Ablepharus and four species-level lineages within Protoblepharus, which would substantially increase the number of species by at least twofold. This hidden diversity highlights the Himalayas as a center of phylogeographic diversification and endemism, likely shaped by geological and climatic factors associated with orogenesis, which now houses over half of the ablepharine skink species.

Ablepharus; biogeography; distribution; Himalaya; Himalblepharus; lizards; mtDNA barcoding; Protoblepharus; Sphenomorphinae

Alcock A. W. (1898), Report on the Natural History Results of the Pamir Boundary Commission, Calcutta, pp. 1 – 45.

Anderson J. (1871), «On some Indian reptiles», Proc. Zool. Soc. Lond., 1871, 149 – 211.

Ankita R., Archana B., Ved Prakash K., and Dhyanendra K. (2017), «The preliminary molecular study of four skink species in Rajaji Tiger Reserve (RTR), Uttarakhand, using 12S rRNA mitochondrial locus», Mitochondr. DNA. Part B, 2(2), 495 – 499.

Blyth E. (1854), «Notices and descriptions of various reptiles, new or little known», J. Asiat. Soc. Bengal., 1(22), 639 – 655.

Borkin L. J., Litvinchuk S. N., Melnikov D. A., and Skorinov D. V. (2018), «Altitudinal distribution of skinks of the genus Asymblepharus in the Western Himalaya, India (Reptilia: Sauria: Scincidae)», in: Hartmann, Barclay, Weipert (eds.), Biodiversität und Naturausstattung im Himalaya VI, Erfurt, pp. 163 – 167.

Boulenger G. A. (1887), Catalogue of the lizards in the British Museum. III. Lacertidae, Gerrhosauridae, Scincidae, Anelytropsidae, Dibamidae, Chamaeleontidae, London.

Bozkurt E. and Olgun K. (2020), «Taxonomic investigation of the genus Ablepharus (Sauria; Scincidae) with molecular and morphological methods in Anatolian populations», Turk. J. Zool., 44, 134 – 145.

Braby M. F., Hsu Y. F., and Lamas G. (2024), «How to describe a new species in zoology and avoid mistakes», Zool. J. Linn. Soc., zlae043. DOI: 10.1093/zoolinnean/zlae043

Che J. K., Yan F., and Zhang Y. (2020), Amphibians and Reptiles in Tibet — Diversity and Evolution, Science Press, Beijing, China [in Chinese].

Das I., Dattagupta B., and Gayen N. (1998), «Systematic status of Lygosoma himalayanum tragbulensis Alcock, «1897» 1898 (Sauria: Scincidae) collected by the Pamir boundary commission, 1885», Russ. J. Herpetol., 5(2), 147 – 150.

De Queiroz K. (2007), «Species concepts and species delimitation», Syst. Biol., 56, 879 – 886.

Duangjai S., Srisodsuk S., Chuaynkern C., and Chuaynkern Y. (2020), «Complete mitochondrial genome of Tropidophorus hangnam (Squamata: Scincidae) with phylogenetic analysis», Mitochondr. DNA. Part B, 5(3), 3701 – 3702.

Dufresnes C., Ghielmi S., Halpern B., Martínez-Freiría F., Mebert K., Jelić D., Crnobrnja-Isailović J., Gippner S., Jablonski D., Joger U., Laddaga L., Petrovan S., Tomović L., Vörös J., Iğci N., Kariş M., Zinenko O., and Ursenbacher S. (2024a), «Phylogenomic insights into the diversity and evolution of Palearctic vipers», Mol. Phylogen. Evol., 197, 108095.

Dufresnes C., Monod-Broca B., Bellati A., Canestrelli D., Ambu J., Wielstra B., Dubey S., Crochet P. A., Denoël M., and Jablonski D. (2024b), «Piecing the barcoding puzzle of Palearctic water frogs (Pelophylax) sheds light on amphibian biogeography and global invasions», Global Change Biol., 30(3), e17180.

Dufresnes C., Poyarkov N., and Jablonski D. (2023), «Acknowledging more biodiversity without more species», Proc. Natl. Acad. Sci., 120(40), e2302424120.

Eremchenko V. K. (1987), «Systematic and relative links of Indo-Himalayan Scincella (Sauria, Scincidae)», Tr. AN KirgSSR, 2, 54 – 56 [in Russian].

Eremchenko V. K. (1992), «On systematics of Asymblepharus ladacensis (Gunther, 1864), (Sauria: Scincidae, Lygosominae)», in: V. K. Eremchenko, A. M. Panfilov, and E. I. Tsarinenko (eds.), Research Conspectus on Cytogenetics and Systematics of Some Asian Species of the Scincidae and Lacertidae, Ilim Press, Bishkek, pp. 58 – 65 [in Russian].

Eremchenko V. K. (2002), «Family Scincidae (Skinks)», in: H. H. Schleich and W. Kästle (eds.), Amphibians and Reptiles of Nepal. Biology, Systematics, Field Guide, pp. 723 – 768.

Eremchenko V. K. (2003), «Generic and specific redefinition and redescription of the North-Vietnam skink Scincella melanosticta (Boulenger, 1887)», Bishkek Izv. Vuzov, 1(2), 20 – 28 [in Russian].

Eremchenko V. K. and Szczerbak N. N. (1986), Ablepharine Lizards of the USSR and Adjacent Countries, Ylym, Frunze [in Russian].

Eremchenko V. K., Helfenberger N., Shah K. B., and Panfilov A. M. (1998), «Two new species of skinks (Scincidae: Ligosominae) from Nepal», Vestn. Nats. Akad. Nauk Kirgiz Rep., 4, 41 – 45 [in Russian].

Freitas E. S., Datta-Roy A., Karanth P., Grismer L. L., and Siler C. D. (2019), «Multilocus phylogeny and a new classification for African, Asian and Indian supple and writhing skinks (Scincidae: Lygosominae)», Zool. J. Linn. Soc., 186, 1067 – 1096.

Fuhn I. E. (1969a), «Revision and redefinition of the genus Ablepharus Lichtenstein, 1823 (Reptilia, Scincidae)», Rev. Roum. Biol. Ser. Zool., 14, 23 – 41.

Fuhn I. E. (1969b), «The ‘polyphyletic’ origin of the genus Ablepharus (Reptilia, Scincidae): a case of parallel evolution», J. Zool. Syst. Evol. Res., 7, 67 – 76.

Greer A. E. (1974), «The generic relationships of the scincid lizard genus Leiolopisma and its relatives», Austral. J. Zool., 31, 1 – 67.

Grismer L. L., Wood P. L., Quah E. S. H., Anuar S., Poyarkov N. A., Thy N., Orlov N. L., Thammachoti, P., and Seiha H. (2019), «Integrative taxonomy of the Asian skinks Sphenomorphus stellatus (Boulenger, 1900) and S. praesignis (Boulenger, 1900), with the resurrection of S. annamiticus (Boettger, 1901) and the description of a new species from Cambodia», Zootaxa, 4683(3), 381 – 411.

Gunther A. C. L. G. (1864), The Reptiles of British India, Ray Society, London.

Hall T. A. (1999), «BioEdit: a user-friendly biological sequence alignment editor and analysis program for Windows 95/98/NT», Nucleotide, 41, 95 – 98.

Harris D. J., Sinclair E. A., Mercader N. L., Marshall J. C., and Crandall K. A. (1999), «Squamate relationships based on C-mos nuclear DNA sequences», Herpetol. J., 9, 147 – 151.

Hedges S. B. (2014), «The high-level classification of skinks (Reptilia, Squamata, Scincomorpha)», Zootaxa, 3765(4), 317 – 338.

Hofmann S., Jablonski D., Litvinchuk S. N., Masroor R., and Schmidt J. (2021), «Relict groups of spiny frogs indicate Late Paleogene-Early Neogene trans-Tibet dispersal of thermophile faunal elements», PeerJ, 9, e11793.

Honda M., Ota H., Kobayashi M., Nabhitabhata J., Yong H. S., and Hikida T. (2000), «Phylogenetic relationships, character evolution, and biogeography of the subfamily Lygosominae (Reptilia: Scincidae) inferred from mitochondrial DNA sequences», Mol. Phylogen. Evol., 15(3), 452 – 461.

Huelsenbeck J. P. and Hillis D. M. (1993), «Success of phylogenetic methods in the four-taxon case», Syst. Biol., 42, 247 – 264.

Katoh K., Misawa K., Kuma K., and Miyata T. (2002), «MAFFT: a novel method for rapid multiple sequence alignment based on fast Fourier transform», Nucl. Acids Res., 30(14), 3059 – 3066.

Khatiwada J. R., Wang B., Zhao T., Xie F., and Jiang J. (2021), «An integrative taxonomy of amphibians of Nepal: an updated status and distribution», Asian Herpetol. Res., 12, 1 – 35.

Kocher T. D., Thomas W. K., Meyer A., Edwards S. V., Pääbo S., Villablanca F. X., and Wilson A. C. (1989), «Dynamics of mitochondrial DNA evolution in animals: amplification and sequencing with conserved primers», Proc. Natl. Acad. Sci., 86(16), 6196 – 6200.

Kumar S., Stecher G., Li M., Knyaz C., and Tamura K. (2018), «MEGA X: Molecular Evolutionary Genetics Analysis across Computing Platforms», Mol. Biol. Evol., 35(6), 1547 – 1549.

Lanfear R., Calcott B., Ho S. Y. W., and Guindon S. (2012), «PartitionFinder: combined selection of partitioning schemes and substitution models for phylogenetic analyses», Mol. Biol. Evol., 29(6), 1695 – 1701.

Linkem C. W. (2013), Molecular Phylogenetics and Biogeography of Sphenomorphini (Squamata: Scincidae). Ph.D. Thesis, Department of Ecology and Evolutionary Biology, University of Kansas.

Linkem C. W., Diesmos A. C., and Brown R. M. (2011), «Molecular systematics of the Philippine forest skinks (Squamata: Scincidae: Sphenomorphus): testing morphological hypotheses of interspecific relationships», Zool. J. Linn. Soc., 163, 217 – 1243.

Macey J. R., Larson A., Ananjeva N. B., Fang Z., and Papenfuss T. J. (1997), «Two novel gene orders and the role of light-strand replication in rearrangement of the vertebrate mitochondrial genome», Mol. Biol. Evol., 14(1), 91 – 104.

Macey J. R., Schulte J. A., Strasburg J. L., Brisson J. A., Larson A., Ananjeva N. B., Wang Y., Parham J. F., and Papenfuss T. J. (2006), «Assembly of the eastern North American herpetofauna: new evidence from lizards and frogs», Biol. Lett., 2(3), 388 – 392.

Mirza Z. A., Bragin A. M., Bhosale H., Gowande G. G., Patel H., and Poyarkov N. A. (2022), «A new ancient lineage of ablepharine skinks (Sauria: Scincidae) from eastern Himalayas with notes on origin and systematics of the group», PeerJ, 10, e12800, 1 – 27.

Mittleman M. B. (1952), «A generic synopsis of the lizards of the subfamily Lygosominae», Smithsonian Misc. Coll., 117, 1 – 35.

Natchev N., Tzankov N., Vergilov V., Kummer S., and Handschuh S. (2015), «Functional morphology of a highly specialised pivot joint in the cranio-cervical complex of the minute lizard Ablepharus kitaibelii in relation to feeding ecology and behavior», Contr. Zool., 84(1), 13 – 23.

Nguyen L. T., Schmidt H. A., Von Haeseler A., and Minh B. Q. (2015), «IQ-TREE: a fast and effective stochastic algorithm for estimating maximum-likelihood phylogenies», Mol. Biol. Evol., 32(1), 268 – 274.

Ouboter P. E. (1986), «A revision of the genus Scincella (Reptilia: Sauria: Scincidae) of Asia, with some notes on its evolution», Zool. Verhand., 229, 1 – 66.

Palumbi S. R., Martin A., Romano S., McMillan W. O., Stice L., and Grabowski G. (1991), The Simple Fool’s Guide to PCR. 2^{nd Edition}, University of Hawaii, Honolulu.

Park J., Koo K., Kim I., and Park D. (2016), «Complete mitochondrial genomes of Scincella vandenburghi and S. huanrenensis (Squamata: Scincidae)», Mitochondr. DNA. Part B, 1(1), 237 – 238.

Poulakakis N., Lymberakis P., Tsigenopoulos C. S., Magoulas A., and Mylonas M. (2005), «Phylogenetic relationships and evolutionary history of snake-eyed skink Ablepharus kitaibelii (Sauria: Scincidae)», Mol. Phylogen., 34(2), 245 – 256.

Puillandre N., Brouillet S., and Achaz G. (2021), «ASAP: assemble species by automatic partitioning», Mol. Ecol. Resources, 21(2), 609 – 620.

Pyron R. A., Burbrink F. T., and Wiens J. J. (2013), «A phylogeny and revised classification of Squamata, including 4161 species of lizards and snakes», BMC Evol. Biol., 13, 1 – 93.

Rajpoot A., Bahuguna A., Kumar V. P., and Kumar D. (2017), «The preliminary molecular study of four skink species in Rajaji Tiger Reserve (RTR), Uttarakhand, using 12S rRNA mitochondrial locus», Mitochondr. DNA. Part B, 2(2), 495 – 499.

Ronquist F. and Huelsenbeck J. P. (2003), «MrBayes 3: Bayesian phylogenetic inference under mixed models», Bioinformatics, 19(12), 1572 – 1574.

Russell D. W. and Sambrook J. (2001), Molecular Cloning: a Laboratory Manual, Cold Spring Harbor, CO.

Sahi D. N. and Duda P. L. (1986), «Morphological and ecological notes on Scincella himalayanum and Mabuya dissimilis from Kashmir (India)», Bull. Chicago Herpetol. Soc., 21(3 – 4), 89 – 91.

Schmidt K. P. (1926), «Amphibians and Reptiles of the James Simpson-Roosevelt Asiatic Expedition», Field Mus. Nat. Hist. Zool. Ser., 12, 167 – 173.

Schmidtler J. F. (1997), «Die Ablepharus kitaibelii — Gruppe in Südanatolien und benachbarten Gebieten (Squamata: Sauria: Scincidae)», Herpetozoa, 10(1/2), 35 – 62.

Sharma I. and Sidhu A. K. (2016), «Faunal diversity of all vertebrates (excluding Aves) of Himachal Pradesh», Biol. Forum, 8(1), 1 – 26.

Shea G. M. and Greer A. E. (2002), «From Sphenomorphus to Lipinia: Generic reassignment of two poorly known New Guinea skinks», J. Herpetol., 36(2), 148 – 156.

Skourtanioti E., Kapli P., Ilgaz C., Kumlutaş Y., Avcı A., Ahmadzadeh F., Crnobrnja-Isailović J. N., Gherghel I., Lymberakis P., and Poulakakis N. (2016), «A reinvestigation of phylogeny and divergence times of the Ablepharus kitaibelii species complex (Sauria, Scincidae) based on mtDNA and nuDNA genes», Mol. Phylogen. Evol., 103, 199 – 214.

Smith M. A. (1935), The fauna of British India, including Ceylon and Burma. Reptilia and Amphibia. Sauria, Taylor & Francis Ltd, London.

Solovyeva E. N., Lebedev V. S., Dunayev E. A., Nazarov R. A., Bannikova A. A., Che J., Murphy R. W., and Poyarkov N. A. (2018), «Cenozoic aridization in Central Eurasia shaped diversification of toad-headed agamas (Phrynocephalus; Agamidae, Reptilia)», PeerJ, 6, e4543.

Song T., Zhang C., Huang X., and Zhang B. (2016), «Complete mitochondrial genome of Eumeces elegans (Squamata: Scincidae)», Mitochondr. DNA. Part A, 27(1), 719 – 720.

Tang X., Yang D., Lin Y., and Dai L. (2019), «The complete mitochondrial genome of Sphenomorphus indicus (Reptilia: Scincidae)», Mitochondr. DNA. Part B, 4(2), 2727 – 2728.

Tang X., Yang D., Lin Y., and Dai L. (2019), «The complete mitochondrial genome of Sphenomorphus incognitus (Reptilia: Scincidae)», Mitochondr. DNA. Part B, 4(1), 307 – 308.

Townsend T. M., Larson A., Louis E., and Macey J. R. (2004), «Molecular Phylogenetics of Squamata: The Position of Snakes, Amphisbaenians, and Dibamids, and the Root of the Squamate Tree», Syst. Biol., 53(5), 735 – 757.

Uetz P., Freed P., and Hošek J. (eds.) (2024), The Reptile Database, http://www.reptile-database.org (accessed July 2024).

Weng S. Y., Huang S., Yang L., Peng L. F., Wei C., and Li J. C. (2021), «The complete mitochondrial genome of Asymblepharus himalayanus (Scincidae; Sauria) and its phylogenetic position within Scincidae», Mitochondr. DNA. Part B, 6(10), 3031 – 3032.

Wu N., Cai B., Chen M., and Guo X. (2020), «Next-generation sequencing yields a nearly complete mitochondrial genome of Plestiodon liui (Reptilia, Squamata, Scincidae) endemic to China», Mitochondr. DNA. Part B, 5(3), 3655 – 3656.

Xu W., Dong W. J., Fu T. T., Gao W., Lu C. Q., Yan F., Wu Y. H., Jiang K., Jin J. Q., Chen H. M., Zhang Y. P., Hillis D. M., and Che J. (2021), «Herpetological phylogeographic analyses support a Miocene focal point of Himalayan uplift and biological diversification», Natl. Sci. Rev., 8(9), nwaa263.

Zhang C., Sun X., Chen L., Xiao W., Zhu X., Xia Y., Chen J., Wang H., and Zhang B. (2016), «The complete mitochondrial genome of Eumeces chinensis (Squamata: Scincidae) and implications for Scincidae taxonomy», Mitochondr. DNA. Part A, 27(6), 4691 – 4692.

Zhong J., Guo K., and Ma L. (2021), «First record of mitochondrial genome of Scincella reevesii (Squamata: Scincidae) and phylogenetic analysis», Mitochondr. DNA. Part B, 6(2), 564 – 565.

Zhong J., Ma L., Guo K., and Du Y. (2020), «Complete mitochondrial genome of Scincella modesta (Squamata: Scincidae) and phylogenetic analysis», Mitochondr. DNA. Part B, 5(1), 373 – 374.