Abstract
Melanism is a polymorphic phenotype caused by the number and density of melanocyte cells producing melanin pigment in the skin and widely observed in snakes. The frequency of this coloration in populations is associated with its opposing fitness consequences and can be closely related to species-specific characteristics such as sex, reproduction, and nutrition, as well as environmental factors such as climate and geography. Although melanism is frequently seen in snakes, the skin structure of melanistic individuals has not been studied in detail. Also, the impact of the black phenotype on habitat use has not yet been clarified in this species. Here, we show a comparison of typical and melanistic morphs of the grass snake Natrix natrix population of Anatolia for the first time in terms of skin structure, habitat, and sex. We found that melanistic individuals, in which partial melanism is more abundant than total melanism, comprise 13% of the population. Melanocyte area of the skin is 1.4 times greater in melanistic compared to the typical individuals. The epidermis is thicker in typical morphs by 7.7%. Hinge regions between adjacent scales do not bare melanocytes in both morphs. As for habitat utilization, we revealed that melanistic individuals of the Işıklı population tend to occur closer to water bodies than typical ones. Our data provide a new perspective on poorly known aspects of color polymorphism and habitat use of widely distributed, semi-aquatic Natrix natrix.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Ajtić R, Tomović L, Sterijovski B, Crnobrnja-Isailović J, Djordjević S, Djurakić M, Golubović A, Simović A, Arsovski D, Andjelković M, Krstić M, Šukalo G, Gvozdenović S, Aïdam A, Michel CL, Ballouard JM, Bonnet X (2013) Unexpected life history traits in a very dense population of dice snakes. Zool Anz 252:350–358. https://doi.org/10.1016/j.jcz.2012.10.001
Alibardi L (2001) Keratohyalin-like granules in lizard epidermis: evidence from cytochemical, autoradiographic, and microanalytic studies. J Morphol 248:64–79. https://doi.org/10.1002/jmor.1021
Alibardi L, Thompson MB (2000) Scale morphogenesis and ultrastructure of dermis during embryonic development in the alligator (Alligator mississippiensis, Crocodilia, Reptilia). Acta Zool 81:325–338. https://doi.org/10.1046/j.1463-6395.2000.00063.x
Alibardi L, Toni M (2006) Skin structure and cornification proteins in the soft-shelled turtle Trionyx spiniferus. Zoology 109:182–195. https://doi.org/10.1016/j.zool.2005.11.005
Andren C, Nilson G (1981) Reproductive success and risk of predation in normal and melanistic colour morphs of the adder, Vipera berus. Biol J Linn Soc 15:235–246. https://doi.org/10.1111/j.1095-8312.1981.tb00761.x
Bagnara JT, Hadley ME (1973) Chromatophores and color change: the comparative physiology of animal pigmentation. Englewood Cliffs, New Jersey
Bašić M, Zimić A (2016) Findings of melanistic individuals of grass snake (Natrix natrix Linnaeus, 1758) in Bosnia and Herzegovina. Prilozi Fauni Bosne i Hercegovine 12:25–29
Başoğlu M, Baran İ (1980) Türkiye Sürüngenleri Kısım II Yılanlar. EÜ Fen Fak Kitaplar Ser, İzmir
Biserkov V, Naumov B (2007) Obiknovena vodna zmiya Natrix natrix Linnaeus, 1758 [Grass Snake Natrix natrix Linnaeus, 1758] In: Biserkov V (ed) Opredelitel na zemnovodnite i vlechugite v Bulgaria [A Field Guide to Amphibians and Reptiles in Bulgaria]. Green Balkans, Sofia, pp 124–125
Blosat BA, Böhme W (1997) Melanism in a population of Natrix natrix in Cyprus. In: Roček Z, Hart S (eds) Abstracts of the Third World Congress of Herpetology, Prag: 22
Broennimann O, Ursenbacher S, Meyer A, Golay P, Monney JC, Schmocker H, Guisan A, Dubey S (2014) Influence of climate on the presence of colour polymorphism in two montane reptile species. Biol Lett 10:20140638. https://doi.org/10.1098/rsbl.2014.0638
Bruni G (2017) A leucistic grass snake Natrix natrix (Linnaeus, 1758) (Serpentes: Natricidae) from Tuscany, central Italy. Herpetol Notes 10:313–316
Bury S, Zając B (2019) The loss of sexual size dimorphism in urban populations of a widespread reptile, the European grass snake Natrix natrix. Curr Zool 66:217–218. https://doi.org/10.1093/cz/zoz034
Bury S, Mazgajski TD, Najbar B, Zając B, Kurek K (2020) Melanism, body size, and sex ratio in snakes—new data on the grass snake (Natrix natrix) and synthesis. Sci Nat 107:1–7. https://doi.org/10.1007/s00114-020-01678-x
Cameron EZ, Linklater WL (2002) Sex bias in studies of sex bias: the value of daughters to mothers in poor condition. Anim Behav 63:5–8
Capula M, Luiselli L (1995) Is there a different preference in the choice of background colour between melanistic and cryptically coloured morphs of the adder, Vipera berus? Ital J Zool 62:253–256
Capula M, Luiselli L, Monney JC (1995) Correlates of melanism in a population of adders (Vipera berus) from the Swiss Alps and comparisons with other alpine populations. Amphib-Reptil 16:323–330
Castella B, Golay J, Monney JC, Golay P, Mebert K, Dubey S (2013) Melanism, body condition and elevational distribution in the asp viper. J Zool 290:273–280. https://doi.org/10.1111/jzo.12037
Cattaneo A (2003) Herpetological notes on the Aegean islands of Lesvos, Chios and Samos. Boll Mus Civ Stor Nat Venezia 54:95–116
Chang C, Zheng R (2003) Effects of ultraviolet B on epidermal morphology, shedding, lipid peroxide and antioxidant enzymes in Cope’s rat snake (Elaphe taeniura). J Photochem Photobiol B 72:79–85. https://doi.org/10.1016/j.jphotobiol.2003.06.001
Close M, Cundall D (2014) Snake lower jaw skin: extension and recovery of a hyperextensible keratinized integument. J Exp Zool A 321:78–97. https://doi.org/10.1002/jez.1839
Clusella-Trullas S, van Wyk JH, Spotila JR (2007) Thermal melanism in ectotherms. J Therm Biol 32:235–245. https://doi.org/10.1016/j.jtherbio.2007.01.013
Clusella-Trullas S, Terblanche JS, Blackburn TM, Chown SL (2008) Testing the thermal melanism hypothesis: a macrophysiological approach. Funct Ecol 22:232–238. https://doi.org/10.1111/j.1365-2435.2007.01377.x
Clutton-Brock TH, Parker GA (1995) Sexual coercion in animal societies. Anim Behav 49:1345–1365
Domeneghetti D, Mondini S, Bruni G (2016) Melanism and pseudo-melanism in the Wall Lizard, Podarcis muralis Laurenti, 1768 (Reptilia: Lacertidae) in central Italy. Herpetol Notes 9:307–309
Fornasiero S, Corti C, Luiselli L, Zuffi MA (2007) Sexual size dimorphism, morphometry and phenotypic variation in the Whip snake Hierophis viridiflavus from a central Mediterranean area. Revue D’ecologie 62:73–85
Forsman A (1993) Growth rate in different colour morphs of the adder, Vipera berus, in relation to yearly weather variation. Oikos 66:279–285. https://doi.org/10.2307/3544815
Forsman A (2011) Rethinking the thermal melanism hypothesis: rearing temperature and coloration in pygmy grasshoppers. Evol Ecol 25:1247–1257. https://doi.org/10.1007/s10682-011-9477-7
Gates DM (1980) Biophysical ecology. Springer-Verlag, New York
Gentilli A, Zuffi MAL (1995) Thermal ecology of a Grass Snake (Natrix natrix) population in Northwestern Italy. Amphibia-Reptilia 16: 401-404 https://doi.org/10.1163/156853895X00479
Goller M, Goller F, French SS (2014) A heterogeneous thermal environment enables remarkable behavioral thermoregulation in Uta stansburiana. Ecol Evol 17:3319–3329. https://doi.org/10.1002/ece3.1141
Gutzke WH, Paukstis GL, McDaniel LL (1985) Skewed sex ratios for adult and hatchling bullsnakes, Pituophis melanoleucus, in Nebraska. Copeia 1985:649-652. https://doi.org/10.2307/1444757
Gvozdenović S, Schweiger M (2014) Melanism in Natrix natrix and Natrix tessellata (Serpentes: Colubridae) from Montenegro. Ecol Mont 1:231–233. https://doi.org/10.37828/em.2014.1.30
Habiboğlu T, Çiçek K, Tok CV (2016) A case of melanism in the Grass snake, Natrix natrix (L., 1758) (Reptilia: Colubridae) from Gökçeada (Imbros). Turkey Biharean Biol 10:60–61
Hadley ME (1997) Comparative aspects of non-mammalian pigmentation: regulation of pigment cells. Pigment Cell Res 10:114
Hagman M, Löwenborg K, Shine R (2015) Determinants of anti-predator tactics in hatchling grass snakes (Natrix natrix). Behav Process 113:60–65. https://doi.org/10.1016/j.beproc.2015.01.009
Huey RB, Kingsolver JG (1993) Evolution of resistance to high temperature in ectotherms. Am Nat 142:21–46
Idrisova LA, Khairutdinov IZ (2018) The effect of incubation temperature on the morphological features of grass snake Natrix natrix (Linnaeus, 1758) (Ophidia: Colubridae). Russ J Herpetol 25:283-292. https://doi.org/10.30906/1026-2296-2018-25-4-283-292
Isaac LA (2003) The thermal ecology of the European Grass Snake, Natrix natrix, in southeastern England. Dissertation, University of Victoria
Jablonski D, Kautman J (2017) Melanism in Natrix tessellata (Serpentes: Colubridae) from Slovakia. Herpetol Notes 10:173–175
Jablonski D, Szabolcs IM, Simovic A, Mizsei E (2017) Color and pattern variation of the Balkan whip snake, Hierophis gemonensis (Laurenti, 1768). Turk J Zool 41:363–369. https://doi.org/10.3906/zoo-1606-15
Jandzík D (2004) Partial melanism in the grass snake Natrix natrix (Reptilia: Colubridae) from northeastern Slovakia. Acta Zool Universitatis Comenianae 46:75–77
Kalaentzis K, Kazila C, Strachinis I (2018) Two cases of melanism in ring-headed dwarf snake Eirenis modestus (Martin, 1838) (Serpentes: Colubridae) from Kastellorizo, Greece. Herpetol Notes 11:175–178
Kettlewell HBD (1973) The evolution of melanism: the study of a recurring necessity, with special reference to industrial melanism in the Lepidoptera. Claredon Press, Oxford
King RB (2003) Mendellian inheritance of melanism in the garter snake Tamnophis sirtalis. Herpetologica 59:484–489. https://doi.org/10.1655/02-93
Kingsolver JG (1987) Evolution and coadaptation of thermoregulatory behavior and wing pigmentation pattern in pierid butterflies. Evolution 41:472–490
Krebs EA, Green DJ, Double MC, Griffiths R (2002) Laying date and laying sequence influence the sex ratio of crimson rosella broods. Behav Ecol Sociobiol 51:447–454. https://doi.org/10.1007/s00265-002-0459-1
Krecsák L (2008) Albinism and leucism among European Viperinae: a review. Russ J Herpetol 15:97–102
Kuriyama T, Misawa H, Miyaji K, Sugimoto M, Hasegawa M (2013) Pigment cell mechanisms underlying dorsal color-pattern polymorphism in the Japanese four-lined snake. J Morphol 274:1353–1364. https://doi.org/10.1002/jmor.20182
Landmann L (1986) Epidermis and dermis. Biology of the Integument. Springer, Berlin, Heidelberg, pp 150–187
Luiselli L (1992) Reproductive success in melanistic adders: a new hypothesis and some considerations on Andrén and Nilson’s (1981) suggestions. Oikos 64:601-604. https://doi.org/10.2307/3545182
Luiselli L (1993) The ecological role of color polymorphism in male adders, Vipera berus: testing the hypotheses. Rev Ecol 48:49–56
Luiselli L (1995) Body size, sexual size dimorphism and reproduction in different colour morphs in a population of western whip snakes, Coluber viridiflavus. Rev Ecol 50:365–376
Luiselli L, Capula M, Rugiero L, Anibaldi C (1994) Habitat choice by melanistic and cryptically coloured morphs of the adder, Vipera berus. Ital J Zool 61:213–216. https://doi.org/10.1080/11250009409355888
Madsen T (1987) Are juvenile grass snakes, Natrix natrix, aposematically coloured? Oikos 48:265–267. https://doi.org/10.2307/3565512
Martínez-Freiría F, Toyama KS, Freitas I, Kaliontzopoulou A (2020) Thermal melanism explains macroevolutionary variation of dorsal pigmentation in Eurasian vipers. Sci Rep-UK 10:1–10
Mebert K (2011) The dice snake, Natrix tessellata: biology, distribution and conservation of a Palaearctic species. DGHT, Rheinbach
Mertens D (1994) Some aspects of thermoregulation and activity in free-ranging grass snakes (Natrix natrix L.). Amphib-Reptil 15:322–326. https://doi.org/10.1163/156853894X00100
Mertens D (1995) Population structure and abundance of grass snakes, Natrix natrix, in central Germany. J Herpetol 29:454–456. https://doi.org/10.2307/1564998
Mollov I (2012) Another case of melanism in the grass snake Natrix natrix (Linnaeus, 1758) (Reptilia: Colubridae) from Bulgaria. ZooNotes 28:1–3
Monney JC, Luiselli L, Capula M (1996) Body size and melanism in Vipera aspis in the Swiss Prealps and central Italy and comparison with different Alpine populations of Vipera berus. Rev Suisse Zool 103:81–100
Mooi RD, Wiens JP, Casper GS (2011) Extreme color variation within populations of the Common Gartersnake, Thamnophis sirtalis, in central North America, with implications for subspecies status. Copeia 2:187–200. https://doi.org/10.1643/CH-10-067
Morrison RL, Rand MS, Frost-Mason SK (1995) Cellular basis of color differences in three morphs of the lizard Sceloporus undulatus erythrocheilus. Copeia 1995:397–408
Nash DJ, Robinson S, Lewis TR (2016) Observations on the distribution of melanistic snakes in Britain. Herpetol Bull 136:19-22
Pernetta AP, Reading CJ, Allen JA (2009) Chemoreception and kin discrimination by neonate smooth snakes, Coronella austriaca. Anim Behav 77:363–368. https://doi.org/10.1016/j.anbehav.2008.10.008
Rato C, Zuffi M, Corti C, Fornasiero S, Gentilli A, Razzetti E, Scali S, Carretero M, Harris DJ (2009) Phylogeography of the European whip snake, Hierophis viridiflavus (Colubridae), using mtDNA and nuclear DNA sequences. Amphib-Reptil 30:283–289
Roulin A (2014) Melanin-based colour polymorphism responding to climate change. Glob Chang Biol 20:3344–3350. https://doi.org/10.1111/gcb.12594
Smith HM, Duvall D, Graves BM, Jones RE, Chiszar D (1982) The function of squamate epidermatoglyphics. Bull Phil Herpetol Soc 30:3–8
Strugariu A, Zamfirescu ŞR (2011) Population characteristics of the adder (Vipera berus berus) in the Northern Romanian Carpathians with emphasis on colour polymorphism: is melanism always adaptive in vipers? Anim Biol 61:457–468. https://doi.org/10.1163/157075511X597601
Sun KL, Liu W, Gao XM, Yang M, Chang JM (2021) A study of normal epidermal melanocyte distribution. Int J Dermatol Ve 4:32–35. https://doi.org/10.1097/JD9.0000000000000125
Tanaka K (2009) Does the thermal advantage of melanism produce size differences in color-dimorphic snakes? Zool Sci 26:698–704. https://doi.org/10.2108/zsj.26.698
Tepe M (2011) Işıklı gölü, Gökgöl ve yakın çevresinin ornito-faunasının tespiti. Dissertataion, Pamukkale University
Tercafs R (1963) Transmission of ultra-violet, visible and infra-red radiation through the keratinous layer of reptile skin (Serpentes and Sauria). Ecology 44:214–218. https://doi.org/10.2307/1933210
Terhivuo J (1990) Relative regional abundance and colour morphs of the adder (Vipera berus L.), grass snake (Natrix natrix L.), slow worm (Anguis fragilis L.) and common toad (Bufo bufo L.) in Finland. Ann Zool Fenn 27:11–20
Trivers RL, Willard DE (1973) Natural selection of parental ability to vary the sex ratio of offspring. Science 179:90–92. https://doi.org/10.1126/science.179.4068.90
Uysal R, Yağcı MA, Yeğen V, Alp A, Yağcı A (2008) The growth features of Pike (Esox lucius L., 1758) Population in Lake Işıklı (Çivril-Denizli). EU J Fish Aquat Sci 25:259–265
Wade MJ, Shuster SM, Demuth JP (2003) Sexual selection favors female-biased sex ratios: the balance between the opposing forces of sex-ratio selection and sexual selection. Am Nat 162:403–414
Werner YL, Shapira T (2011) A brief review of morphological variation in Natrix tessellata in Israel: between sides, among individuals, between sexes, and among regions. Turk J Zool 35:451–466. https://doi.org/10.3906/zoo-1002-54
Zadravec M, Lauš B (2011) Melanism variations in Natrix natrix (Linnaeus, 1758) and Zamenis longissimus (Laurenti, 1768) in Croatia. Hyla 2011(2):39–42
Zuffi M (2008) Colour pattern variation in populations of the European whip snake, Hierophis viridiflavus: does geography explain everything? Amphib-Reptil 29:229–233. https://doi.org/10.1163/156853808784124929
Acknowledgements
The materials used in this study were obtained from the project financially supported by TUBİTAK (The Scientific and Technological Research Council of Turkey, Project number: 116Z359). We thank the Ege University Central Research Test and Analysis Laboratory for SEM analyses, and Dr. Esra Akat and Melisa Avcı for proof reading.
Author information
Authors and Affiliations
Corresponding author
Additional information
Communicated by Oliver Hawlitschek
Publisher's note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Supplementary Information
Below is the link to the electronic supplementary material.
Rights and permissions
About this article
Cite this article
Yenmiş, M., Bayrakcı, Y. & Ayaz, D. Skin structure, coloration, and habitat utilization in typical and melanistic morphs of the grass snake (Natrix natrix). Sci Nat 109, 22 (2022). https://doi.org/10.1007/s00114-022-01794-w
Received:
Revised:
Accepted:
Published:
DOI: https://doi.org/10.1007/s00114-022-01794-w