Historical Biogeography of the Terrestrial Reptiles of Japan: A Comparative Analysis of Geographic Ranges and Molecular Phylogenies

Chapter

Abstract

The geographic ranges and divergence times of Japanese terrestrial reptiles and their close relatives were compared on the basis of recent taxonomic and molecular systematic studies. The comparison of geographic ranges suggested that the Japanese reptile fauna consists of three major biogeographic elements, those of the Southern Ryukyus, the Central Ryukyus, and the Japan Mainland, encompassing taxa endemic to each of these areas. In addition, some interchanges with southern China–Taiwan, Korea–northeastern China–far eastern Russia, and the Pacific islands may also have contributed to the Japanese reptile fauna. The comparison of geographic ranges of related taxa and their divergence times suggested that most of the Southern Ryukyu element was formed by isolation from the fauna of Taiwan and southern China during the Pliocene; the Central Ryukyu element was mostly formed by isolation from the faunas of Taiwan, China, and the Japan Mainland during the late Miocene, in addition to some quite old relict taxa dating back to the Eocene; and the Japan Mainland element was initially formed by isolation from the continental fauna during the middle Miocene, followed by secondary interchange in the Pliocene and Pleistocene.

Keywords

Reptiles Biogeography Japan Ryukyus Divergence time Molecular phylogeny 

References

  1. Aoki R (2001) The crocodilian fossils from the Tsubusagawa Formation (Pliocene) of Japan. Research Report of the Lake Biwa Museum Project Office 18:97–109 (in Japanese with English abstract)Google Scholar
  2. Avise JC, Bowen BW, Lamb T, Meylan AB, Bermingham E (1992) Mitochondrial DNA evolution at a turtle’s pace: evidence for low genetic variability and reduced microevolutionary rate in the Testudines. Mol Biol Evol 9(3):457–473PubMedGoogle Scholar
  3. Brandley MC, Wang Y, Guo X, Nieto Montes de Oca A, Fería-Ortíz M, Hikida T, Ota H (2011) Accommodating heterogenous rates of evolution in molecular divergence dating methods: an example using intercontinental dispersal of Plestiodon (Eumeces) lizards. Syst Biol 60(1):3–15PubMedGoogle Scholar
  4. Brandley MC, Ota H, Hikida T, Nieto Montes de Oca A, Fería-Ortíz M, Guo X, Wan Y (2012) The phylogenetic systematics of blue-tailed skinks (Plestiodon) and the family Scincidae. Zool J Linn Soc 165:163–189Google Scholar
  5. Burbrink FT, Lawson R (2007) How and when did Old World ratsnakes disperse into the New World? Mol Phylogenet Evol 43:173–189PubMedGoogle Scholar
  6. Chen Y (2009) Conservation biogeography of the snake family Colubridae of China. North-West J Zool 5(2):251–262Google Scholar
  7. Chen S, Hikida T, Han S, Shim J, Oh H, Ota H (2001a) Taxonomic status of the Korean populations of the genus Scincella (Squamata: Scincidae). J Herpetol 35(1):122–129Google Scholar
  8. Chen S, Ota H, Hikida T (2001b) Geographic variation in the two smooth skinks, Scincella boettgeri and S. formosensis (Squamata: Scincidae), in the subtropical East Asian islands. Zool Sci 18:115–130Google Scholar
  9. Chen X, McKelvy AD, Grismer LL, Matsui M, Nishikawa K, Burbrink FT (2014a) The phylogenetic position and taxonomic status of the rainbow tree snake Gonyophis margaritatus (Peters, 1871) (Squamata: Colubridae). Zootaxa 3881(6):532–548PubMedGoogle Scholar
  10. Chen X, Jiang K, Guo P, Huang S, Rao D, Ding L, Takeuchi H, Che J, Zhang Y, Myers EA, Burbrink FT (2014b) Assessing species boundaries and the phylogenetic position of the rare Szechwan ratsnake, Euprepiophis perlaceus (Serpentes: Colubridae), using coalescent-based methods. Mol Phylogenet Evol 70:130–136PubMedGoogle Scholar
  11. Fenwick AM, Greene HW, Parkinson CL (2011) The serpent and the egg: unidirectional evolution of reproductive mode in vipers? J Zool Syst Evol Res 50(1):59–66Google Scholar
  12. Fritz U, Gong S, Auer M, Kuchling G, Schneeweiß N, Hundsdörfer AK (2010) The world’s economically most important chelonians represent a diverse species complex (Testudines: Trionychidae: Pelodiscus). Org Divers Evol 10(3):227–242Google Scholar
  13. Guillon J, Guéry L, Hulin V, Girondot M (2012) A large phylogeny of turtles (Testudines) using molecular data. Contrib Zool 81(3):147–158Google Scholar
  14. Guo P, Zhang L, Liu Q, Pyron RA, Jiang K, Burbrink FT (2013) Lycodon and Dinodon: one genus or two? Evidence from molecular phylogenetics and morphological comparisons. Mol Phylogenet Evol 68:144–149PubMedGoogle Scholar
  15. Guo P, Zhu F, Liu Q, Zhang L, Li JX, Huang YY, Pyron RA (2014) A taxonomic revision of the Asian keelback snakes, genus Amphiesma (Serpentes: Colubridae: Natricinae), with description of a new species. Zootaxa 3873(4):425–440PubMedGoogle Scholar
  16. Hayashi F, Shima A, Horikoshi K, Kawakami K, Segawa RD, Tadashi A, Suzuki T (2009) Limited overwater dispersal and genetic differentiation of the snake-eyed skink (Cryptoblepharus nigropunctatus) in the Oceanic Ogasawara Islands, Japan. Zool Sci 26:543–549PubMedGoogle Scholar
  17. Hikida T (1993) Phylogenetic relationships of the skinks of the genus Eumeces (Scincidae: Reptilia) from East Asia. Jpn J Herpetol 15:1–21Google Scholar
  18. Hikida T (2002) Natural history of the reptiles. University of Tokyo Press, Tokyo (in Japanese)Google Scholar
  19. Hikida T (2003) Biogeography of reptiles in islands in East Asia: geographic distributions from views of molecular and morphological studies. Biol Sci (Tokyo) 54:205–220 (in Japanese)Google Scholar
  20. Hikida T, Motokawa J (1999) Phylogeographical relationships of the skinks of the genus Eumeces (Reptilia: Scincidae) in East Asia. In: Ota H (ed) Tropical island herpetofauna: origin, current diversity, and conservation. Elsevier Science, Amsterdam, pp 231–247Google Scholar
  21. Hikida T, Ota H (1997) Biogeography of reptiles in the subtropical East Asian islands. In: Lue KY, Chen T (eds) Proceedings of the symposium on the phylogeny, biogeography and conservation of fauna and flora of East Asian fegion. National Science Council, R.O.C., Taipei, pp 11–28Google Scholar
  22. Hikida T, Ota H, Kuramoto M, Toyama M (1989) Zoogeography of amphibians and reptiles in East Asia. In: Matsui M, Hikida T, Goris RC (eds) Current herpetology in East Asia. Herpetological Society of Japan, Kyoto, pp 278–281Google Scholar
  23. Hikida T, Ota H, Toyama M (1992) Herpetofauna of an encounter zone of Oriental and Palearctic elements: amphibians and reptiles of the Tokara Group and adjacent islands in the northern Ryukyus, Japan. Biol Mag (Okinawa) 30:29–43Google Scholar
  24. Hirayama R (2001) Fossil turtles from the Tsubusagawa Formation (Pliocene) of Ajimu-cho, Oita Prefecture, Northern Kyushu, Japan. Res Rep Lake Biwa Mus Proj Office 18:79–96 (in Japanese with English abstract)Google Scholar
  25. Hirayama R (2006) Review of fossil turtles of Japan. Fossils 80:47–59 (in Japanese with English abstract)Google Scholar
  26. Hirayama R, Kaneko N, Okazaki H (2007) Ocadia nipponica, a new species of aquatic turtle (Testudines: Testudinoidea: Geoemydidae) from the Middle Pleistocene of Chiba Prefecture, central Japan. Paleontol Res 11(1):1–19Google Scholar
  27. Honda M, Yasukawa Y, Hirayama R, Ota H (2002) Phylogenetic relationships of the Asian box turtles of the genus Cuora sensu lato (Reptilia: Bataguridae) inferred from mitochondrial DNA sequences. Zool Sci 19:1305–1312PubMedGoogle Scholar
  28. Honda M, Kurita T, Toda M, Ota H (2014) Phylogenetic relationships, genetic divergence, historical biogeography and conservation of an endangered gecko, Goniurosaurus kuroiwae (Squamata: Eublepharidae), from the Central Ryukyus, Japan. Zool Sci 31:309–320PubMedGoogle Scholar
  29. Ineich I (1999) Spatio-temporal analysis of the unisexual-bisexual Lepidodactylus lugubris complex (Reptilia, Gekkonidae). In: Ota H (ed) Tropical island herpetofauna: origin, current diversity, and conservation. Elsevier Science, Amsterdam, pp 199–228Google Scholar
  30. Kizaki K, Oshiro I (1977) Paleogeography of the Ryukyu islands. Mar Sci Mon 9:542–549 (in Japanese with English abstract)Google Scholar
  31. Koizumi Y, Ota H, Hikida T (2014) Phylogeography of the two smooth skinks, Scincella boettgeri and S. formosensis (Squamata: Scincidae) in the southern Ryukyus and Taiwan, as inferred from variation in mitochondrial cytochrome b sequences. Zool Sci 31:228–236PubMedGoogle Scholar
  32. Kraus F (2009) Alien reptiles and amphibians: a scientific compendium and analysis. Springer, BerlinGoogle Scholar
  33. Kurita K, Hikida T (2014a) Divergence and long-distance overseas dispersals of island populations of the Ryukyu five-lined skink, Plestiodon marginatus (Scincidae: Squamata), in the Ryukyu Archipelago, Japan, as revealed by mitochondrial DNA phylogeography. Zool Sci 31:187–194PubMedGoogle Scholar
  34. Kurita K, Hikida T (2014b) A new species of Plestiodon (Squamata: Scincidae) from Kuchinoshima Island in the Tokara Group of the northern Ryukyus, Japan. Zool Sci 31:464–474PubMedGoogle Scholar
  35. Kuriyama T, Brandley MC, Katayama A, Mori A, Honda M, Hasegawa M (2011) A time-calibrated phylogenetic approach to assessing the phylogeography, colonization history and phenotypic evolution of snakes in the Japanese Izu Islands. J Biogeogr 38:259–271Google Scholar
  36. Lei J, Sun X, Jiang K, Vogel G, Booth DT, Ding L (2014) Multilocus phylogeny of Lycodon and the taxonomic revision of Oligodon multizonatum. Asian Herpetol Res 5(1):26–37Google Scholar
  37. Lenk P, Fritz U, Joger U, Wink M (1999) Mitochondrial phylogeography of the European pond turtle, Emys orbicularis (Linnaeus 1758). Mol Ecol 8:1911–1922PubMedGoogle Scholar
  38. Lin S, Chen CA, Lue K (2002) Molecular phylogeny and biogeography of the grass lizards genus Takydromus (Reptilia: Lacertidae) of East Asia. Mol Phylogenet Evol 22(2):276–288PubMedGoogle Scholar
  39. Liu Q, Myers EA, Zhong GH, Hu J, Zhao H, Guo P (2012) Molecular evidence on the systematic position of the lance-headed pitviper Protobothrops maolaneisis Yang et al., 2011. Zootaxa 3178:57–62Google Scholar
  40. Lue K, Lin S (2008) Two new cryptic species of Takydromus (Squamata: Lacertidae) from Taiwan. Herpetologica 64(3):379–395Google Scholar
  41. Maenosono T, Toda M (2007) Distributions of amphibians and terrestrial reptiles in the Ryukyu archipelago: a review of published records. Akamata 18:28–46 (in Japanese)Google Scholar
  42. Malhotra A, Thorpe RS (2000) The dynamics of natural selection and vicariance in the Dominican anole: patterns of within-island molecular and morphological divergence. Evolution 54(1):245–258PubMedGoogle Scholar
  43. Malhotra A, Thorpe RS (2004) Phylogeny of four mitochondrial gene regions suggests a revised taxonomy for Asian pitvipers (Trimeresurus and Ovophis). Mol Phylogenet Evol 32:83–100PubMedGoogle Scholar
  44. Matsuo T (2005) Amphibians and reptiles in Nagasaki Prefecture. Nagasaki-shinbunsha, Nagasaki (in Japanese)Google Scholar
  45. Motokawa J, Hikida T (2003) Genetic variation and differentiation in the Japanese five-lined skink, Eumeces latiscutatus (Reptilia: Squamata). Zool Sci 20:97–106PubMedGoogle Scholar
  46. Nakamura Y, Takahashi A, Ota H (2014) A new, recently extinct subspecies of the Kuroiwa’s leopard gecko, Goniurosaurus kuroiwae (Squamata: Eublepharidae), from Yoronjima Island of the Ryukyu Archipelago, Japan. Acta Herpetol 9(1):61–73Google Scholar
  47. Okamoto T, Hikida T (2012) A new cryptic species allied to Plestiodon japonicus (Peters, 1864) (Squamata: Scincidae) from eastern Japan, and diagnoses of the new species and two parapatric congeners based on morphology and DNA barcode. Zootaxa 3436:1–23Google Scholar
  48. Okamoto T, Motokawa J, Toda M, Hikida T (2006) Parapatric distribution of the lizards Plestiodon (formerly Eumeces) latiscutatus and P. japonicus (Reptilia: Scincidae) around the Izu Peninsula, central Japan, and its biogeographic implications. Zool Sci 23:419–425PubMedGoogle Scholar
  49. Ota H (1998) Geographic pattern of endemism and speciation in amphibians and reptiles of the Ryukyu Archipelago, Japan, with special reference to their paleogeographical implications. Res Popul Ecol 40:189–204Google Scholar
  50. Ota H (2000) The current geographic faunal pattern of reptiles and amphibians of the Ryukyu Archipelago and adjacent regions. Tropics 10(1):51–62Google Scholar
  51. Ota H (2003) A new subspecies of the agamid lizard, Japalura polygonata (Hallowell, 1861) (Reptilia: Squamata), from Yonagunijima Island of the Yaeyama Group, Ryukyu Archipelago. Curr Herpetol 22:61–71Google Scholar
  52. Ota H, Iwanaga S (1997) A systematic review of the snakes allied to Amphiesma pryeri (Boulenger) (Squamata: Colubridae) in the Ryukyu Archipelago, Japan. Zool J Linn Soc 121:339–360Google Scholar
  53. Ota H, Lin J, Chen S (1997) Systematic review of colubrid snakes of the genus Pareas in the East Asian islands. J Herpetol 31(1):79–87Google Scholar
  54. Ota H, Ito A, Lin J (1999) Systematic review of the elapid snakes allied to Hemibungarus japonicus (Günther, 1868) in the East Asian islands, with description of a new subspecies from the central Ryukyus. J Herpetol 33(4):675–687Google Scholar
  55. Ota H, Honda M, Chen S, Hikida T, Panha S, Oh H, Matsui M (2002) Phylogenetic relationships, taxonomy, character evolution and biogeography of the lacertid lizards of the genus Takydromus (Reptilia: Squamata): a molecular perspective. Biol J Linn Soc 76:493–509Google Scholar
  56. Ota H, Toda M, Masunaga G, Kikukawa A, Toda M (2004) Feral populations of amphibians and reptiles in the Ryukyu Archipelago, Japan. Global Environ Res 8:133–143Google Scholar
  57. Paik N, Min M, Shim J, Yang S, Toriba M (1993) Isozyme analysis of the species of the genus Agkistrodon in Far Eastern region. Snake 25:99–104Google Scholar
  58. Poulakakis N, Lymberakis P, Tsigennopoulos CS, Magoulas A, Mylonas M (2005) Phylogenetic relationships and evolutionary history of snake-eyed skink Ablepharus kitaibelii (Sauria: Scincidae). Mol Phylogenet Evol 34:245–256PubMedGoogle Scholar
  59. Rösler H, Bauer AM, Heinicke MP, Greenbaum E, Jackman T, Nguyen TQ, Zieagler T (2011) Phylogeny, taxonomy; and zoogeography of the genus Gekko Laurenti, 1768 with the revalidation of G. reevesii Gray, 1831 (Sauria: Gekkonidae). Zootaxa 2989:1–50Google Scholar
  60. Sato H, Ota H (1999) False biogeographical pattern derived from artificial animal transportations: a case of the soft-shelled turtle, Pelodiscus sinensis, in the Ryukyu Archipelago, Japan. In: Ota H (ed) Tropical island herpetofauna: origin, current diversity, and conservation. Elsevier Science, Amsterdam, pp 317–334Google Scholar
  61. Sengoku S, Hikida T, Matsui M, Nakaya K (eds) (1996) The encyclopedia of animals in Japan, volume 5: amphibians, reptiles, Chondrichthyes. Heibonsha, Tokyo (in Japanese)Google Scholar
  62. Spinks PQ, Shaffer HB, Iverson JB, McCord WP (2004) Phylogenetic hypotheses for the turtle family Geoemydidae. Mol Phylogenet Evol 32:164–182PubMedGoogle Scholar
  63. Surget-Groba Y, Heulin B, Guillaume C, Thorpe RS, Kupriyanova L, Vogrin N, Maslak R, Mazzotti S, Venczel M, Ghira I, Odierra G, Leontyeva O, Monney JC, Smith N (2001) Interspecific phylogeography of Lacerta vivipara and the evolution of viviparity. Mol Phylogenet Evol 18(3):449–459PubMedGoogle Scholar
  64. Suzuki D, Hikida T (2014) Taxonomic status of the soft-shell turtle populations in Japan: a molecular approach. Curr Herpetol 33(2):171–179Google Scholar
  65. Takahashi A, Kato T, Ota H (2007) A new species of the genus Geoemyda (Chelonii: Geoemydidae) from the Upper Pleistocene of Tokunoshima Island, the central Ryukyus, Japan. Curr Herpetol 26(1):1–11Google Scholar
  66. Takahashi A, Otsuka H, Ota H (2008) Systematic review of Late Pleistocene turtles (Reptilia: Chelonii) from the Ryukyu Archipelago, Japan, with special reference to paleogeographical implications. Pac Sci 62(3):395–402Google Scholar
  67. Takahashi A, Ōki K, Ishido T, Hirayama R (2013) A new species of the genus Ocadia (Testudines: Geoemydidae) from the middle Miocene of Tanegashima Island, southwestern Japan and its paleogeographic implications. Zootaxa 3647:527–540PubMedGoogle Scholar
  68. Takahashi A, Otsuka H, Ota H (2015) A new species of the genus Mauremys (Testudines: Geoemydidae) from the Upper Pleistocene of Miyakojima Island, Ryukyus Archipelago, Japan. Curr Herpetol 34(2):149–163Google Scholar
  69. Takeuchi H, Ota H, Oh H, Hikida T (2012) Extensive genetic divergence in the East Asian natricine snake, Rhabdophis tigrinus (Serpentes: Colubridae), with special reference to prominent geographical differentiation of the mitochondrial cytochrome b gene in Japanese populations. Biol J Linn Soc 105:395–408Google Scholar
  70. Takeuchi H, Takeuchi M, Hikida T (2013) Extremely low genetic diversity in the Japanese population of Zootoca vivipara (Squamata: Lacertidae) revealed by mitochondrial DNA. Curr Herpetol 32:66–70Google Scholar
  71. Takeuchi H, Zhu G, Ding L, Tang Y, Ota H, Mori A, Oh H, Hikida T (2014) Taxonomic validity and phylogeography of the east Eurasian natricine snake, Rhabdophis lateralis (Berthold, 1859) (Serpentes: Colubridae), as inferred from mitochondrial DNA sequence data. Curr Herpetol 32(2):148–153Google Scholar
  72. Tang X, Chen Q (2006) On the taxonomic status of Platyplacous sylvaticus based on 12S rRNA gene. Acta Zootax Sin 31(3):475–479 (in Chinese with English abstract)Google Scholar
  73. Toda M (2008) External characters useful to discriminate Gekko hokouensis and its cryptic undescribed species of the Okinawa Group, Japan: a preliminary report. Akamata 19:23–30 (in Japanese)Google Scholar
  74. Toda M (2014) Ogasawara snake-eyed skink. In: Ministry of the Environment J (ed) Red Data Book 2014. Threatened wildlife of Japan, vol 3, Reptilia/Amphibia. GYOSEI Corporation, Tokyo, p 76 (in Japanese)Google Scholar
  75. Toda M, Yoshida T (2005) Issues and perspectives regarding invasive alien species of amphibians and reptiles in Japan. Bull Herpetol Soc Jpn 2005(2):139–149 (in Japanese)Google Scholar
  76. Toda M, Nishida M, Tu M, Hikida T, Ota H (1999) Genetic variation, phylogeny and biogeography of the pitvipers of the genus Trimeresurus sensu lato (Reptilia: Viperidae) in the subtropical East Asian islands. In: Ota H (ed) Tropical island herpetofauna: origin, current diversity, and conservation. Elsevier Science, Amsterdam, pp 249–270Google Scholar
  77. Toda M, Hikida T, Ota H (2001) Discovery of sympatric cryptic species within Gekko hokouensis (Gekkonidae: Squamata) from the Okinawa Islands, Japan, by use of allozyme data. Zool Scr 30:1–11Google Scholar
  78. Toda M, Sengoku S, Hikida T, Ota H (2008) Description of two new species of the genus Gekko (Squamata: Gekkonidae) from the Tokara and Amami Island Groups in the Ryukyu Archipelago, Japan. Copeia 2008:452–466Google Scholar
  79. Tseng S, Wang C, Li S, Lin S (2015) Within-island speciation with an exceptional case of distinct separation between two sibling lizard species divided by a narrow stream. Mol Phylogenet Evol 90:164–175PubMedGoogle Scholar
  80. Tu M, Wang H, Tsai M, Toda M, Lee W, Zhang F, Ota H (2000) Phylogeny, taxonomy, and biogeography of the Oriental pitvipers of the genus Trimeresurus (Reptilia: Viperidae: Crotalinae): a molecular perspective. Zool Sci 17:1147–1157PubMedGoogle Scholar
  81. Turtle Taxonomy Working Group [van Dijk PP, Iverson JB, Rhodin AGJ, Shaffer HB, Bour R] (2014) Turtles of the world, 7th edition: annotated checklist of taxonomy, synonymy, distribution with maps, and conservation status. In: Rhodin AGJ, Pritchard PCH, van Dijk PP, Saumure RA, Buhlmann KA, Iverson JB, Mittermeier RA (eds) Conservation biology of freshwater turtles and tortoises: a compilation project of the IUCN/SSC Tortoise and Freshwater Turtle Specialist Group. Chelonian Res Monogr 5(7):000.329–479. http://www.iucn-tftsg.org/wp-content/uploads/file/Accounts/crm_5_000_checklist_v7_2014.pdf
  82. Utiger U, Helfenberger N, Schätti B, Schmidt C, Ruf M, Ziswiler V (2002) Molecular systematics and phylogeny of old and new world ratsnakes, Elaphe Auct., and related genera (Reptilia, Squamata, Colubridae). Russ J Herpetol 9(2):105–124Google Scholar
  83. Vogel G, David P, Pauwels OSG, Sumontha M, Norval G, Hendrix R, Vu NT, Ziegler T (2009) A revision of Lycodon ruhstrati (Fischer 1886) auctorum (Squamata Colubridae), with the description of a new species from Thailand and a new subspecies from the Asian mainland. Trop Zool 22:131–182Google Scholar
  84. Wang Y, Jin M, Li Y, Grismer LL (2014) Description of a new species of Goniurosaurus (Squamata: Eublepharidae) from the Guangdong Province, China, based on molecular and morphological data. Herpetologica 70(3):309–322Google Scholar
  85. Wüster W, Peppin L, Pook CE, Walker DE (2008) A nesting of vipers: phylogeny and historical biogeography of the Viperidae (Squamata: Serpentes). Mol Phylogenet Evol 49:445–459PubMedGoogle Scholar
  86. Xiang G, Li P, Yang Y (2009) Amphibians and reptiles of Taiwan. Maotouying, Taipei (in Chinese)Google Scholar
  87. Xu Y, Liu Q, Myers EA, Wang L, Huang S, He Y, Peng P, Guo P (2012) Molecular phylogeny of the genus Gloydius (Serpentes: Crotalinae). Asian Herpetol Res 3(2):127–132Google Scholar
  88. Yamashiro S, Toda M, Ota H (2000) Clonal composition of the parthenogenetic gecko, Lepidodactylus lugubris, at the northernmost extremity of its range. Zool Sci 17:1013–1020Google Scholar
  89. Zhang Y, Zhao K (1978) On the zoogeographical regions of China. Acta Zool Sin 24(2):196–202Google Scholar
  90. Zhang B, Huang X, Pan T, Zhang L, Zhou W, Song T, Han D (2013) Systematics and species validity of the Dabieshan pit viper Protobothrops dabieshanensis Huang et al. 2012: evidence from a mitochondrial gene sequence analysis. Asian Herpetol Res 4(4):282–287Google Scholar
  91. Zhao E, Adler K (1993) Herpetology of China. Society for the Study of Amphibians and Reptiles, OxfordGoogle Scholar

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© Springer Japan 2017

Authors and Affiliations

  1. 1.Department of Zoology, Graduate School of ScienceKyoto UniversityKyotoJapan

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