Discrimination of the two subspecies of <I>Microtus hartingi</i>(Rodentia: Arvicolinae) by shape and linear features of the spermatozoon

Zorenko, T.A.; Kagainis, U.E.

Russian Journal of Theriology. Main page

Discrimination of the two subspecies of Microtus hartingi(Rodentia: Arvicolinae) by shape and linear features of the spermatozoon
Zorenko T.A., Kagainis U.E.
P. 143–157
The Asian and European populations of Microtus hartingi have been isolated for a long time by the Straits of Dardanelle and the Bosporus, which could cause different degrees of divergence of morphological structures. The aim of this study was to compare the shape and linear features of spermatozoa of two subspecies of M. hartingi using different methods — geometric and linear morphometrics. The results obtained showed that geometric morphometrics more precisely demonstrates the change in the shape of the spermatozoon of two taxa. The shape of the spermatozoa head of M. h. hartingi is globular, with retracted basal part compared to the slimmer head with a stronger developed basal protrusion in M. h. lydius. The variability of the head shape is insignificant within each taxon, while considerable polymorphism is shown for the shape of acrosome. We have identified several types of acrosome shape, of which two types dominate in the opposite ratio in the two subspecies. Other types of acrosome shape are rare. The question of the diversity of the acrosome shape is discussed. We recommend the method of geometric morphometry of spermatozoa to consider variations of this cell structure in mammals at species and subspecies levels. Linear morphometry of spermatozoa may be less successful due to the methodological features of the preparing spermatozoa slides for subsequent analysis; therefore, the dimensional parameters of spermatozoa differ significantly, which complicates their use in taxonomy.

DOI: 10.15298/rusjtheriol.20.2.04

Литература

Abramson N.I. & Lissovsky A.A. 2012. Subfamily Arvicolinae // Pavlinov I.Ya. & Lissovsky A.A. (eds.). The Mammals of Russia: A Taxonomic and Geographic Reference Archive of the Zoological Museum of MSU. Moscow: KMK Scientific Press. P.220–276.

Aksenova T.G. 1978. [The peculiarities of spermatozoa structure and their significance in systematic of grey voles (Rodentia, Microtus)] // Strelkov P.P. (ed.). [Functional Morphology and Systematics of Mammals]. Leningrad: Russian Academy of Science. P.91–101 [in Russian with English summary].

Bookstein F.L. 1996. Standard formula for the uniform shape component in landmark data // Marcus L.F., Corti M., Loy A., Naylor G.J.P. & Slice D.E. (eds.). Advances in Morphometrics. New York: Plenum Press. P.153–158.

Breed W.G. 2004. The spermatozoon of Eurasian murine rodents: its morphological diversity and evolution // Journal of Morphology. Vol.261. P.52–69.

Breed W.G. 2005. Evolution of the spermatozoon in muroid rodents // Journal of Morphology. Vol.265. P.271–290. Çağatay M.N., Görür N., Algan O., Eastoe C., Tchapalyga A.,

Ongan D., Kuhn T. & Kuşçu I. 2000. Late Glacial-Holocene paleoceanography of the Sea of Marmara: timing of connections with the Mediterranean and the Black seas // Marine Geology. Vol.167. P.191–206.

Cummins J.M. & Woodall P.F. 1985. On mammalian sperm dimensions // Journal of Reproduction and Fertility. Vol.75. P.153–175.

Davis R.O. & Gravance C.G. 1994. Consistency of sperm morphology classification methods // Journal of Andrology. Vol.15.No.1. P.83–91.

delBarco-Trillo J. & Ferkin M.H. 2006. Male meadow voles respond differently to risk and intensity of sperm competition // Behavioral Ecology. Vol.17. P.581–585.

Directive 2010/63/EU of the European Parliament and of the Council of 22 September 2010 on the protection of animals used for scientific purposes // Official Journal of the European Communities. Vol.276. P.33–52.

Ellerman J.R. 1941. The Families and Genera of Living Rodents. Vol.2. London: British Museum (Natural History). 690 p.

Escalier D. 1990. Failure of differentiation of the nuclear-perinuclear skeletal complex in the round-headed human spermatozoa // International Journal of Developmental Biology. Vol.34. P.287–297.

Fawcett D.W. 1975. The mammalian spermatozoon // Developmental Biology. Vol.4. P.394–436.

Golenishchev F.N., Sablina O.V., Borodin P.M. & Gerasimov S. 2002. Taxonomy of voles of the subgenus Sumeriomys Argyropulo, 1993 (Rodentia, Arvicolinae, Microtus) // Russian Journal of Theriology. Vol.1. No.1. P.43–55.

Gromov I.M. & Polyakov I.Ya. 1992. Voles (Microtinae): Fauna of the USSR, Mammals. Vol.3. No.8. Washington: Smithsonian Institution Libraries and the National Science Foundation. 725 p.

Guillén J. 2017. Laboratory animals: regulations and recommendations for the care and use of animals in research. Second edition. London: Academic Press. 444 p.

Horst van der G., Maree L., Kotzé S.H. & O’Riain M.J. 2011. Sperm structure and motility in the eusocial naked mole-rat, Heterocephalus glaber: a case of degenerative orthogenesis in the absence of sperm competition? // BMC Evolutionary Biology. Vol.11. P.1–11.

Ieradi L.A., Zima J., Allegra F., Kotlánová E., Campanella L., Grossi R. & Cristaldi M. 2003. Evaluation of genotoxic damage in wild rodents from a polluted area in the Czech Republic // Folia Zoologica. Vol.52. No.1. P.57–66.

Jeong S.J., Park J.C., Kim H.J., Bae C.S., Yoon M.H., Lim D.S. & Jeong M.J. 2006. Comparative fine structure of the epididymal spermatozoa from three Korean shrews with considerations on their phylogenetic relationships // Biocell. Vol.30. No.2. P.279–286.

Keller L.F. & Waller D.M. 2002. Inbreeding effects in wild populations // Trends in Ecology and Evolution. Vol.17. P.230–241.

Klingenberg C.P. 2011. MorphoJ: an integrated software package for geometric morphometrics // Molecular Ecology Resources. Vol.11. P.353–357.

Kovalskaya Yu.M., Savinetskaya L.E. & Aksenova T.G., 2014. On experimental interspecific hybridization of voles of the genus Microtus: M. socialis with species of the arvalis group (Mammalia, Rodentia) // Bulletin of the Russian Academy of Sciences. Biological Series. No.6. P.636–640.

Kryštufek B., Vohrálik V., Zareie R. & Özkan B. 2009. Mitochondrial cytochrome b sequences into the speciation of social voles in southwest Asia// Biological Journal of the Linnean Society. Vol.98. No.1. P.121–128.

Krzanowska H., Styrna J. & Wabik-Śliz B. 1995. Analysis of sperm quality in recombinant inbred mouse strains: correlation of sperm head shape with sperm abnormalities and with the incidence of supplementary spermatozoa in the perivitelline space // Journal of Reproduction and Fertility. Vol.104. P.347–354.

Latvian Council of Science 2018. Scientist’s Ethics Code. Section 2.7. Riga. Available at https://www.lzp.gov.lv/index.php?mylang=english.

Medarde N., Muños-Muñoz F., López-Fuster M.J. & Ventura J. 2013. Variational modularity at the cell level: insights from the sperm head of the house mouse // BMC Evolutionary Biology. Vol.13. P.179–185.

Mendoza-Lujambio I., Burfeind P., Dixkens C., Meinhardt A., Hoyer-Fender S., Engel W. & Neesen J. 2002. The Hook1 gene is non-functional in the abnormal spermatozoon head shape (azh) mutant mouse // Human Molecular Genetics. Vol.11. P.1647–1658.

Meyer M.N., Golenishchev F.N., Radjably S.I. & Sablina O.V. 1996. Grey Voles (Subgenus Microtus Schrank) of Russia and Adjacent Territories. Saint Petersburg: Russian Academy of Science. 320 p. [in Russian with English summary].

Michalczyk Ł., Martin O.Y., Millard A.L., Emerson B.C. & Gage M.J.G. 2010. Inbreeding depresses sperm competitiveness, but not fertilization or mating success in male Tribolium castaneum // Proceedings of the Royal Society B, Biological Sciences. Vol.277. P.3483–3491.

Miska-Schramm A., Kapusta J. & Kruczek M. 2017. The effect of aluminum exposure on reproductive ability in the bank vole (Myodes glareolus) // Biological Trace Element Research. Vol.177. No.1. P.97–106.

Moore A.J., Bacigalupe L.D. & Snook R.R. 2013. Integrated and independent evolution of heteromorphic sperm types // Proceeding of the Royal Society B, Biological Sciences. Vol.280. P.1–5.

Musser G.G. & Carleton M.D. 2005. Superfamily Muroidea // Wilson D.E. & Reeder A.M. (eds.). Mammal Species of the World. A Taxonomic and Geographic Reference. Third edition. Vol.2. Baltimore: The Johns Hopkins University Press. P.894–1531.

Nowell J.A. & Pawley J.B. 1980. Preparation of experimental animal tissue for SEM // Murphy J.A. & Romans G.M. (eds.). Preparation of Biological Specimens for Scanning Electron Microscopy. O’Hare: Scanning Electron Microscopy. P.1–19.

Nussdorfer P., Cilenček I., Zorn B. & Petrovič D. 2018. Adapted methods for scanning electron microscopy (SEM) in assessment of human sperm morphology // Bosnian Journal Basic Medical Sciences. Vol.18. No.1. P.43–48.

Pitnick S., Hosken D.J. & Birkhead T.R. 2009. Sperm morphological diversity // Birkhead T.R., Hosken D.J. & Pitnick S. (eds.). Sperm Biology: an Evolutionary Approach. San Diego: Academic Press. P.69–149.

R Development Core Team. 2019. R: A language and environment for statistical computing. Vienna: R Foundation for Statistical Computing. Retrieved from https://www.r-project.org.

Ramm S.A. & Stockley P. 2007. Ejaculate allocation under varying sperm competition risk in the house mouse, Mus musculus domesticus // Behavioral Ecology. Vol.18. No.2. P.491–495. Rohlf F.J. 2016. Morphometrics. Suny Stony Brook. Available at https://life.bio.sunysb.edu/morph/index.html.

Rohlf F.J. & Slice D.E. 1990. Extensions of the Procrustes method for the optimal superimposition of landmarks // Systematic Zoology. Vol.39. P.40–59.

Roldan E.R.S., Gomendio M. & Vitullo A.D. 1992. The evolution of eutherian spermatozoa and underlying selective forces: female selection and sperm competition // Biological Reviews. Vol.67. P.551–593.

Roldan E.R.S., Cassinello J., Abaigar T. & Gomendio M. 1998. Inbreeding, fluctuating asymmetry, and ejaculate quality in an endangered ungulate // Proceedings of the Royal Society B, Biological Sciences. Vol.265. P.243–248.

Sánchez M.V., Bastir M. & Roldan E.R.S. 2013. Geometric morphometrics of rodent sperm head shape // PLoS ONE. Vol.8. No.11. P.e80607.

Smirnov G.Ju. & Davidova Ju.A. 2018. Effect of industrial pollution of the environment on the frequency of abnormal spermatozoa in the bank vole, Myodes glareolus // Russian Journal of Ecology. Vol.5. P.403–408.

Terrell K.A., Crosier A.E., Wildt D.E., O’Brien S.J., Anthony N.M., Marker L. & Johnson W.E. 2016. Continued decline in genetic diversity among wild cheetahs (Acinonyx jubatus) without further loss of semen quality // Biological Conservation. Vol.200. P.192–199.

Tourmente M., Gomendio M. & Roldan E.R.S. 2011. Sperm competition and the evolution of sperm design in mammals // BMC Evolutionary Biology. Vol.11. No.1. P.1–10. https://www.biomedcentral.com/1471-2148/11/12

Ward M.A. & Burgoyne P.S. 2006. The effects of deletions of the mouse Y chromosome long arm on sperm functionintracytoplasmic sperm injection (ICSI)-based analysis // Biology of Reproduction. Vol.74. P.652–658.

Wyrobek A.J. & Bruce W.R. 1975. Chemical induction of sperm abnormalities in mice // Proceedings of the National Academy of Sciences of USA. Vol.72. P.4425–4429.

Yaltırak C., Sakinç M. & Oktay F.Y. 2000. Westward propagation of North Anatolian fault into the northern Aegean: timing and kinematics // Geology. Vol.27. P.187–188.

Yiğit N. & Çolak E. 2002. On the distribution and taxonomic status of Microtus guentheri Danford and Alston, 1880 and Microtus lydius Blackler, 1916 (Mammalia: Rodentia) in Turkey // Turkish Journal of Zoology. Vol.26. P.197–204.

Yiğit N., Markov G., Çolak E., Kocheva M., Saygılı F., Yüce D. & Çam P. 2012. Phenotypic features of the ‘guentheri’ group vole (Mammalia: Rodentia) in Turkey and Southeast Bulgaria: evidence for its taxonomic detachment // Acta Zoologica Bulgarica. Vol.64. No.1. P.23–32.

Zorenko T. & Golenishchev G. 2015. The spermatozoa structure peculiarities of the subgenus Sumeriomys (Rodentia, Arvicolinae, Microtus) // Russian Journal of Theriology. Vol.14. No.1. P.105–111.

Скачать PDF