Open Access Open Access  Restricted Access Subscription or Fee Access

Scale Microornamentation of Six Species of Venomous Snakes from China

Yuhong Guo

Abstract


The scales of six venomous snake species from China were examined for their ultrastructure. Scanning electron microscopy was used to observe the scales, which were peeled off from the middle back of the snakes. The results revealed significant differences in the microdermatoglyphic structure patterns between the two families, Viperidae and Elapidae. Viperidae exhibited a “polygonal” structural unit, while Elapidae displayed arcs, pores, and strips as their basic structure. Additionally, there were notable differences in ultrastructure within each family. In Viperidae, Ovophis makazayazaya had a flat structural unit, Trimeresurus stejnegeri had a mound-like uplift near the center with a flat surrounding, and Protobothrops mucrosquamatus had an overall uplifted structure. In Elapidae, Ophiophagus hannah showed obvious differences in the size and arrangement of arc structures. The intraarc structure of Bungarus multicinctus resembled vertebral bodies, while that of Sinomicrurus peinani was columnar in shape. The ultrastructural characteristics of snake scales generally exhibited essential differences among advanced taxonomic units. However, there were detailed differences among species within the same family or genus. The initial formation of microornamentation features in scales may be related to the snakes’ habitat environment. Species formation through isolation is accompanied by the differentiation of these characteristics, and once species formation occurs, the features remain stable until the next species differentiation. There were instances of similar structures found in species with distant evolutionary relationships. This suggests that the microdermatoglyphic structure has taxonomic significance but may not necessarily have phylogenetic significance.

Keywords


scales; microornamentation; squamata; habitat; taxonomy

Full Text:

PDF

References


Allam A. A. and Abo-Eleneen R. E. (2012), “Scales microstructure of snakes from the Egyptian area”, Zool. Sci., 29(11), 770 – 775.

Berthé R. A., Westhoff G., Bleckmann H., and Gorb S. N. (2009), “Surface structure and frictional properties of the skin of the Amazon tree boa Corallus hortulanus (Squamata, Boidae)”, J. Comp. Physiol. A, 195(3), 311 – 318.

Chiasson R. B., Bentley D. L., and Lowe C. H. (1989), “Scale morphology in Agkistrodon and closely related Crotaline genera”, Herpetologica, 45(4), 430 – 438.

Gower D. (2003), “Scale microornamentation of uropeltid snakes”, J. Morphol., 258(2), 249 – 268.

Guo Y. H., Wang G. L., and Rao D. Q. (2020), “Scale microornamentation of five species of Pareas (Serpentes, Pareidae) from China”, Zootaxa, 4742(3), 565 – 572.

Guo Y. H., Wu Y. K., He S. P., Shi H. T., and Zhao E. M. (2011), “Systematics and molecular phylogenetics of Asian snail-eating snakes (Pareatidae)”, Zootaxa, 3001, 57 – 64.

He M. (2009), Phylogeny of Colubridae Based on Molecular and Scale Microornamentation Data, with an Emphasis on Hot Spring Keel-Backs (Thermophis). Ph.D. Thesis, Sichuan University, Chengdu [in Chinese].

Jishnu P. P., Kalayarasan M., Muthu D. S., Prasanth K. T. S., Prasanth A. S., Naveen A., and Ilanthirayan P. (2018), “Investigations on anisotropic frictional response on different types of shed snake’s skin”, Zh. Tribol., 18, 97 – 107 [in Russian].

Klein M. C. and Gorb S. N. (2012), “Epidermis architecture and material properties of the skin of four snake species”, J. R. Soc. Interface, 9(76), 3140 – 3155.

Krey K. and Farajallah A. (2013), “Skin histology and microtopography of Papuan White Snake (Micropechis ikaheka) in relation to their zoogeographical distribution”, Hayati J. Biosci., 20(1), 7 – 14.

Li L. and Liang G. (2007), “Microdermatoglyphic patterns of Oligodon ningshanensis”, J. Xian Univ. Arts J. Sci. (Nat. Sci. Ed.), No. 3, 66 – 68.

Miller B. T., Drumwright A., Parker H., and Miller J. L. (2015), “Surface morphology of dorsal scales of Red Cornsnakes (Pantherophis guttatus) and Gray Ratsnakes (Pantherophis spiloides) from Middle Tennessee”, Tn. Acad. Sci., 90, 38 – 42.

Poyarkov N. A., Nguyen T. V., Pawangkhanant P., Yushchenko P. V., Brakels P., Nguyen L. H., Nguyen H. N., Suwannapoom C., Orlov N., and Vogel G. (2022), “An integrative taxonomic revision of slug-eating snakes (Squamata: Pareidae: Pareineae) reveals unprecedented diversity in Indochina”, Peer J, 10, e12713.

Price R. (1982), “Dorsal snake scale microdermatoglyphics: ecological indicator or taxonomic tool?” J. Herpetol., 16, 294 – 306.

Price R. and Kelly P. (1989), “Microdermatoglyphics: basal patterns and transition zones”, J. Herpetol., 23(3), 244 – 261.

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.

Rocha-barbosa O. and Moraes e Silva R. B. (2009), “Analysis of the microstructure of Xenodontinae snake scales associated with different habitat occupation strategies”, Braz. J. Biol., 69(3), 919 – 923.

Spinner M., Gorb S. N., Balmert A., Bleckmann H., and Westhoff G. (2014), “Non-Contaminating Camouflage: multifunctional Skin Microornamentation in the West African Gaboon Viper (Bitis rhinoceros)”, Plos One, 9(3), e91087.

Stille B. (1987), “Dorsal scale microdermatoglyphics and rattlesnake (Crotalus sistrurus) phylogeny (Reptilia: Viperidae: Crotalinae)”, Herpetologica, 43(1), 98 – 104.

Wang P., Che J., Liu Q., Li K., Jin J. Q., Jiang K., Shi L., and Guo P. (2020), “A revised taxonomy of Asia snail-eating snakes Pareas (Squamata, Pareidae): evidence from morphological comparison and molecular phylogeny”, ZooKeys, 939(3), 45 – 64.

Wang X. T., Luo X., and Li Q. S. (2016), “Microdermatoglyphic structures of eight species of snakes (Colubridae)”, Chin. J. Zool., 51(4), 606 – 613 [in Chinese with English abstract].

Wang Y. Q. and Zhou K. Y. (1998), “A Microdermatoglyphic analysis of 16 species of snakes”, Chin. J. Appl. Environ. Biol., 4(2), 152 – 158 [in Chinese with English abstract].




DOI: https://doi.org/10.30906/1026-2296-2024-31-3-168-175

Refbacks

  • There are currently no refbacks.



You can subscribe to the print or electronic version of the journal on the site of EastView Company. If you have any questions, please write to the email sales@ivis.ru