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Year 2021, Issue: 046, 98 - 105, 30.06.2021

Abstract

References

  • [1] Akat, E., (2018). Histological and Histochemical Study on Stomach of Salamandra infraimmaculata (Amphibia: Urodela). Celal Bayar Üniversitesi Fen Bilimleri Dergisi 14, 13–16.
  • [2] Akat, E., Göçmen, B., (2014). A Histological Study on Hepatic Structure of Lyciasalamandra arikani (Urodela: Salamandridae). Russian Journal of Herpetology 21, 201-204–204.
  • [3] Akiyoshi, H., Inoue, A.M., (2012). Comparative histological study of hepatic architecture in the three orders amphibian livers. Comp Hepatol 11. 2.
  • [4] B, W., A, P., (1998). Surface area of the alimentary canal in the early development of mus musculus. Folia Morphologica 57, 72–72.
  • [5] Cortelyou, J.R., McWhinnie, D.J., (1967). Parathyroid Glands of Amphibians. I. Parathyroid Structure and Function in the Amphibian, with Emphasis on Regulation of Mineral Ions in Body Fluids. Integr Comp Biol 7, 843–855.
  • [6] Crump, M.L., Jr, N.J.S., (1994). Visual encounter surveys. Chapter 2 in Measuring and monitoring biological diversity: Standard methods for amphibians.
  • [7] El-Salhy, M., Grimelius, L., Wilander, E., Abu-Sinna, G., Lundqvist, G., (1981). Histological and immunohistochemical studies of the endocrine cells of the gastrointestinal mucosa of the toad (Bufo regularis). Histochemistry 71, 53–65.
  • [8] Ferri, D., Liquori, G.E., Natale, L., Santarelli, G., Scillitani, G., (2001). Mucin histochemistry of the digestive tract of the red-legged frog Rana aurora aurora. Acta Histochemica 103, 225–237.
  • [9] Histology of the digestive tract, (1977). Academic Press, London, pp. 225–302.
  • [10] Janes, R.G., (1934). Studies on the amphibian digestive system. I. Histological changes in the alimentary tract of anuran larvae during involution. Journal of Experimental Zoology 67, 73–91.
  • [11] Koca, Y.B., Karakahya, F., (2015). The Structure of Stomach and Intestine of Triturus karelinii(Strauch, 1870) and Mertensiella luschani (Steindachner, 1891) (Amphibia: Urodela) - Histological and Histometical Study.
  • [12] Liquori, G.E., Scillitani, G., Mastrodonato, M., Ferri, D., (2002). Histochemical Investigations on the Secretory Cells in the Oesophagogastric Tract of the Eurasian Green Toad, Bufo viridis. Histochemical Journal 34, 517–524.
  • [13] McWilliams, S.R., Karasov, W.H., (2001). Phenotypic flexibility in digestive system structure and function in migratory birds and its ecological significance. Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology, The Physiological Consequences of Feeding in Animals 128, 577–591.
  • [14] Pelli‐Martins, A.A., Machado‐Santos, C., Sales, A., Brito‐Gitirana, L. de, (2012). Histochemical, immunohistochemical, and ultrastructural observations of the esophagus morphology of Rinella icterica (Anuran, Bufonidae). Acta Zoologica 93, 373–380.
  • [15] Rovira, J., Villaro, A.C., Bodegas, M.E., Valverde, E., Sesma, P., (1993). Structural study of the frog Rana temporaria larval stomach. Tissue and Cell 25, 695–707.
  • [16] Simpson, J.I., Halliday, E.G., (1941). Chemical and Histological Studies of the Disintegration of Cell-Membrane Materials in Vegetables During Cooking1. Journal of Food Science 6, 189–206.
  • [17] Smit, H., (1964). The regulation of pepsin secretion in the edible frog Rana esculenta (L.). Comparative Biochemistry and Physiology 13, 129–141.
  • [18] Smith, D.M., Grasty, R.C., Theodosiou, N.A., Tabin, C.J., Nascone‐Yoder, N.M., (2000). Evolutionary relationships between the amphibian, avian, and mammalian stomachs. Evolution & Development 2, 348–359.
  • [19] The IUCN Red List of Threatened Species [WWW Document], n.d. IUCN Red List of Threatened Species. URL https://www.iucnredlist.org/en (accessed 7.01.2020).
  • [20] Veith, M., Steinfartz, S., (2004). When non-monophyly results in taxonomic consequences - the case of Mertensiella within the Salamandridae (Amphibia: Urodela). Salamandra 40.
  • [21] Veith, M., Steinfartz, S., Zardoya, R., Seitz, A., Meyer, A., (1998). A molecular phylogeny of ‘true’ salamanders (family Salamandridae) and the evolution of terrestriality of reproductive modes. Journal of Zoological Systematics and Evolutionary Research 36, 7–16.

HISTOLOGICAL STUDY OF STOMACH OF LYCIASALAMANDRA FAZILAE AND LYCIASALAMANDRA FLAVIMEMBRIS

Year 2021, Issue: 046, 98 - 105, 30.06.2021

Abstract

Histological examinations were conducted in order to describe the tissues on the stomach of the critically endangered Lyciasalamandra fazilae (Başoğlu and Atatür, 1974) and L. flavimembris (Mutz & Steinfartz, 1995). In this study two adult females, two adult males and one juvenile from Dalyan, Turkey (L. fazilae) and one adult male and one juvenile from Marmaris, Turkey (L. flavimembris) were examined. Tissue samples were taken from the freshly dead animals found on the road during the night field work. They were taken into alcohol for the histological studies. Tissue samples were fixed in Bouin’s solution and routine histological techniques were applied. Hematoxylin and Eosin stains were used to identify cells and structures of the tissues. Stomach is covered with gastric columnar epithelial cells and glandular epithelium which are contained with gastric glands. Tunica mucosa, tunica submucosa, tunica muscularis and tunica serosa were observed as mucosa layers. There was no significant difference between males and females in mucosa layers where gastric glands are situated. The histological structure of stomach of both species between males and females and between adults and juveniles were found to be mostly similar. Results from the literature review has indicated that the stomach histology show a similarity with the other Urodela species.

References

  • [1] Akat, E., (2018). Histological and Histochemical Study on Stomach of Salamandra infraimmaculata (Amphibia: Urodela). Celal Bayar Üniversitesi Fen Bilimleri Dergisi 14, 13–16.
  • [2] Akat, E., Göçmen, B., (2014). A Histological Study on Hepatic Structure of Lyciasalamandra arikani (Urodela: Salamandridae). Russian Journal of Herpetology 21, 201-204–204.
  • [3] Akiyoshi, H., Inoue, A.M., (2012). Comparative histological study of hepatic architecture in the three orders amphibian livers. Comp Hepatol 11. 2.
  • [4] B, W., A, P., (1998). Surface area of the alimentary canal in the early development of mus musculus. Folia Morphologica 57, 72–72.
  • [5] Cortelyou, J.R., McWhinnie, D.J., (1967). Parathyroid Glands of Amphibians. I. Parathyroid Structure and Function in the Amphibian, with Emphasis on Regulation of Mineral Ions in Body Fluids. Integr Comp Biol 7, 843–855.
  • [6] Crump, M.L., Jr, N.J.S., (1994). Visual encounter surveys. Chapter 2 in Measuring and monitoring biological diversity: Standard methods for amphibians.
  • [7] El-Salhy, M., Grimelius, L., Wilander, E., Abu-Sinna, G., Lundqvist, G., (1981). Histological and immunohistochemical studies of the endocrine cells of the gastrointestinal mucosa of the toad (Bufo regularis). Histochemistry 71, 53–65.
  • [8] Ferri, D., Liquori, G.E., Natale, L., Santarelli, G., Scillitani, G., (2001). Mucin histochemistry of the digestive tract of the red-legged frog Rana aurora aurora. Acta Histochemica 103, 225–237.
  • [9] Histology of the digestive tract, (1977). Academic Press, London, pp. 225–302.
  • [10] Janes, R.G., (1934). Studies on the amphibian digestive system. I. Histological changes in the alimentary tract of anuran larvae during involution. Journal of Experimental Zoology 67, 73–91.
  • [11] Koca, Y.B., Karakahya, F., (2015). The Structure of Stomach and Intestine of Triturus karelinii(Strauch, 1870) and Mertensiella luschani (Steindachner, 1891) (Amphibia: Urodela) - Histological and Histometical Study.
  • [12] Liquori, G.E., Scillitani, G., Mastrodonato, M., Ferri, D., (2002). Histochemical Investigations on the Secretory Cells in the Oesophagogastric Tract of the Eurasian Green Toad, Bufo viridis. Histochemical Journal 34, 517–524.
  • [13] McWilliams, S.R., Karasov, W.H., (2001). Phenotypic flexibility in digestive system structure and function in migratory birds and its ecological significance. Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology, The Physiological Consequences of Feeding in Animals 128, 577–591.
  • [14] Pelli‐Martins, A.A., Machado‐Santos, C., Sales, A., Brito‐Gitirana, L. de, (2012). Histochemical, immunohistochemical, and ultrastructural observations of the esophagus morphology of Rinella icterica (Anuran, Bufonidae). Acta Zoologica 93, 373–380.
  • [15] Rovira, J., Villaro, A.C., Bodegas, M.E., Valverde, E., Sesma, P., (1993). Structural study of the frog Rana temporaria larval stomach. Tissue and Cell 25, 695–707.
  • [16] Simpson, J.I., Halliday, E.G., (1941). Chemical and Histological Studies of the Disintegration of Cell-Membrane Materials in Vegetables During Cooking1. Journal of Food Science 6, 189–206.
  • [17] Smit, H., (1964). The regulation of pepsin secretion in the edible frog Rana esculenta (L.). Comparative Biochemistry and Physiology 13, 129–141.
  • [18] Smith, D.M., Grasty, R.C., Theodosiou, N.A., Tabin, C.J., Nascone‐Yoder, N.M., (2000). Evolutionary relationships between the amphibian, avian, and mammalian stomachs. Evolution & Development 2, 348–359.
  • [19] The IUCN Red List of Threatened Species [WWW Document], n.d. IUCN Red List of Threatened Species. URL https://www.iucnredlist.org/en (accessed 7.01.2020).
  • [20] Veith, M., Steinfartz, S., (2004). When non-monophyly results in taxonomic consequences - the case of Mertensiella within the Salamandridae (Amphibia: Urodela). Salamandra 40.
  • [21] Veith, M., Steinfartz, S., Zardoya, R., Seitz, A., Meyer, A., (1998). A molecular phylogeny of ‘true’ salamanders (family Salamandridae) and the evolution of terrestriality of reproductive modes. Journal of Zoological Systematics and Evolutionary Research 36, 7–16.
There are 21 citations in total.

Details

Primary Language English
Journal Section Research Articles
Authors

Müge Gidiş

Publication Date June 30, 2021
Submission Date September 8, 2020
Published in Issue Year 2021 Issue: 046

Cite

IEEE M. Gidiş, “HISTOLOGICAL STUDY OF STOMACH OF LYCIASALAMANDRA FAZILAE AND LYCIASALAMANDRA FLAVIMEMBRIS”, JSR-A, no. 046, pp. 98–105, June 2021.