Research Article
BibTex RIS Cite
Year 2022, Volume: 4 Issue: 2, 269 - 276, 24.08.2022

Abstract

References

  • Birkhead, TR., Immler, S., Pellatt, EJ., Freckleton, R. 2006. Unusual sperm morphology in the Eurasian Bullfinch (Pyrrhula pyrrhula). The Auk, 123(2), 383-392.
  • Cramer, ER., Garcia-del-Rey, E., Johannessen, LE., Laskemoen, T., Marthinsen, G., Johnsen, A., Lifjeld, JT. 2021. Longer sperm swim more slowly in the Canary Islands chiffchaff. Cells, 10(6), 1358.
  • Cramer, E., Krauss, N., Rowlison, T., Comizzoli, P. 2020. Sperm morphology and male age in black-throated blue warblers, an ecological model system. Animals, 10(7), 1175.
  • Gee, GF., Bertschinger, H., Donoghue, AM., Blanco, J., Soley, J. 2004. Reproduction in nondomestic birds: physiology, semen collection, artificial insemination and cryopreservation. Avian and Poultry Biology Reviews, 15(2), 47-101.
  • Girndt, A., Cockburn, G., Sanchez-Tojar, A., Løvlie, H., Schroeder, J. 2017. Method matters: Experimental evidence for shorter avian sperm in faecal compared to abdominal massage samples. PLoS One, 12(8), e0182853.
  • Helfenstein, F., Podevin, M., Richner, H. 2010. Sperm morphology, swimming velocity, and longevity in the house sparrow Passer domesticus. Behavioral Ecology and Sociobiology, 64(4), 557-565.
  • Hermosell, IG., Laskemoen, T., Rowe, M., Møller, AP., Mousseau, TA., Albrecht, T., Lifjeld, JT. 2013. Patterns of sperm damage in Chernobyl passerine birds suggest a trade-off between sperm length and integrity. Biology letters, 9(5), 20130530.
  • Humphreys, PN. 1972. Brief observations on the semen and spermatozoa of certain passerine and non-passerine birds. Reproduction, 29(3), 327-336.
  • Kleven, O., Fossøy, F., Laskemoen, T., Robertson, RJ., Rudolfsen, G., Lifjeld, JT. 2009. Comparative evidence for the evolution of sperm swimming speed by sperm competition and female sperm storage duration in passerine birds. Evolution: International Journal of Organic Evolution, 63(9), 2466-2473.
  • Lüpold, S., Calhim, S., Immler, S., Birkhead, TR. 2009. Sperm morphology and sperm velocity in passerine birds. Proceedings of the Royal Society B: Biological Sciences, 276(1659), 1175-1181.
  • Schneider, H., Fischer, D., Failing, K., Ehling, C., Meinecke-Tillmann, S., Wehrend, A., Lierz, M. 2018. Investigations on a cryopreservation protocol for long-term storage of psittacine spermatozoa using cockatiel semen as an example. Theriogenology, 110, 8-17.

Evaluation of different methods used in morphological examination of canary sperm

Year 2022, Volume: 4 Issue: 2, 269 - 276, 24.08.2022

Abstract

By determining the species-specific structure by morphological examination of the sperm, it is possible to improve some of the disadvantages related to short and long-term storage and use in artificial insemination applications. When the morphology of the canary spermatozoon is evaluated, it is seen that it has a long indented acrosome as well as a rather long flagellum. To determine the morphological structure of canary semen, morphological examination methods used in different poultry can be applied and visually evaluated with different shapes. This study aims to provide information about the comparison and usability of various staining methods used in the morphological examination of canary semen from songbirds. In this study, semen from 12 male Gloster canaries was collected to determine morphological parameters in semen. Collected semen with different morphological evaluation methods; Fixation with 5% formaldehyde, Formalin fixation and Giemsa staining, Giemsa staining, Formalin fixation, and SpermBlue staining and SpermBlue staining were evaluated. In the results of the study, while the nucleus was more prominent in Giemsa staining compared to other staining methods used for morphological evaluation, acrosome was observed in SpermBlue and Giemsa staining. On the other hand, when the sperm fixed with 5% formaldehyde solution were evaluated, it was seen that the acrosome and nucleus were indistinguishable, while the changes in the flagellum were determined much more clearly. As a result of the study, it was reported that the morphological structure of canary semen could be evaluated with all morphological examination methods used.

References

  • Birkhead, TR., Immler, S., Pellatt, EJ., Freckleton, R. 2006. Unusual sperm morphology in the Eurasian Bullfinch (Pyrrhula pyrrhula). The Auk, 123(2), 383-392.
  • Cramer, ER., Garcia-del-Rey, E., Johannessen, LE., Laskemoen, T., Marthinsen, G., Johnsen, A., Lifjeld, JT. 2021. Longer sperm swim more slowly in the Canary Islands chiffchaff. Cells, 10(6), 1358.
  • Cramer, E., Krauss, N., Rowlison, T., Comizzoli, P. 2020. Sperm morphology and male age in black-throated blue warblers, an ecological model system. Animals, 10(7), 1175.
  • Gee, GF., Bertschinger, H., Donoghue, AM., Blanco, J., Soley, J. 2004. Reproduction in nondomestic birds: physiology, semen collection, artificial insemination and cryopreservation. Avian and Poultry Biology Reviews, 15(2), 47-101.
  • Girndt, A., Cockburn, G., Sanchez-Tojar, A., Løvlie, H., Schroeder, J. 2017. Method matters: Experimental evidence for shorter avian sperm in faecal compared to abdominal massage samples. PLoS One, 12(8), e0182853.
  • Helfenstein, F., Podevin, M., Richner, H. 2010. Sperm morphology, swimming velocity, and longevity in the house sparrow Passer domesticus. Behavioral Ecology and Sociobiology, 64(4), 557-565.
  • Hermosell, IG., Laskemoen, T., Rowe, M., Møller, AP., Mousseau, TA., Albrecht, T., Lifjeld, JT. 2013. Patterns of sperm damage in Chernobyl passerine birds suggest a trade-off between sperm length and integrity. Biology letters, 9(5), 20130530.
  • Humphreys, PN. 1972. Brief observations on the semen and spermatozoa of certain passerine and non-passerine birds. Reproduction, 29(3), 327-336.
  • Kleven, O., Fossøy, F., Laskemoen, T., Robertson, RJ., Rudolfsen, G., Lifjeld, JT. 2009. Comparative evidence for the evolution of sperm swimming speed by sperm competition and female sperm storage duration in passerine birds. Evolution: International Journal of Organic Evolution, 63(9), 2466-2473.
  • Lüpold, S., Calhim, S., Immler, S., Birkhead, TR. 2009. Sperm morphology and sperm velocity in passerine birds. Proceedings of the Royal Society B: Biological Sciences, 276(1659), 1175-1181.
  • Schneider, H., Fischer, D., Failing, K., Ehling, C., Meinecke-Tillmann, S., Wehrend, A., Lierz, M. 2018. Investigations on a cryopreservation protocol for long-term storage of psittacine spermatozoa using cockatiel semen as an example. Theriogenology, 110, 8-17.
There are 11 citations in total.

Details

Primary Language English
Journal Section Research Articles
Authors

Arda Onur Özkök

Publication Date August 24, 2022
Published in Issue Year 2022 Volume: 4 Issue: 2

Cite

APA Özkök, A. O. (2022). Evaluation of different methods used in morphological examination of canary sperm. International Journal of Science Letters, 4(2), 269-276.
AMA Özkök AO. Evaluation of different methods used in morphological examination of canary sperm. IJSL. August 2022;4(2):269-276.
Chicago Özkök, Arda Onur. “Evaluation of Different Methods Used in Morphological Examination of Canary Sperm”. International Journal of Science Letters 4, no. 2 (August 2022): 269-76.
EndNote Özkök AO (August 1, 2022) Evaluation of different methods used in morphological examination of canary sperm. International Journal of Science Letters 4 2 269–276.
IEEE A. O. Özkök, “Evaluation of different methods used in morphological examination of canary sperm”, IJSL, vol. 4, no. 2, pp. 269–276, 2022.
ISNAD Özkök, Arda Onur. “Evaluation of Different Methods Used in Morphological Examination of Canary Sperm”. International Journal of Science Letters 4/2 (August 2022), 269-276.
JAMA Özkök AO. Evaluation of different methods used in morphological examination of canary sperm. IJSL. 2022;4:269–276.
MLA Özkök, Arda Onur. “Evaluation of Different Methods Used in Morphological Examination of Canary Sperm”. International Journal of Science Letters, vol. 4, no. 2, 2022, pp. 269-76.
Vancouver Özkök AO. Evaluation of different methods used in morphological examination of canary sperm. IJSL. 2022;4(2):269-76.