Литература

• Andrews R.V. & Belknap R.W. 1986. Bioenergetic benefits of huddling by deer mice (Peromyscus maniculatus) // Comparative Biochemistry and Physiology. Vol.85. P.775–778.
• Asari Y. & Yanagawa H. 2016. A preliminary study of commu- nal nesting of Siberian flying squirrels Pteromys volans in Japan // Mammal Study. Vol.41. P.97–100.
• Edelman A.J. & Koprowski J.L. 2007. Communal nesting in asocial Abert’s squirrels: The role of social thermoregula- tion and breeding strategy // Ethology. Vol.113. P.147–154.
• Garroway C.J., Bowman J. & Wilson P.J. 2013. Complex social structure of southern flying squirrels is related to spatial proximity but not kinship // Behavioral Ecology and Sociobiology. Vol.67. P.113–122.
• Gębczyński Z. & Gębczyński M. 1971. Insulation properties of nest social temperature regulation in the bank-vole Clethrionomys glareolus // Annales Zoological Fennici. Vol.8. P.104–108.
• Halloran M.E. & Bekoff M. 1994. Nesting behavior of Abert squirrels (Sciurus aberti) // Ethology. Vol.97. P.236–248.
• Harlow R.F. & Doyle A.T. 1990. Food habits of southern flying squirrels (Glaucomys volans) collected from red-cockaded wood pecker (Picoides borealis) colonies in South Carolina // American Midland Naturalist. Vol.124. P.187–191. Hoogland J.L. 1996. Cynomys ludovicianus // Mammalian Species. Vol.535. P.1–10.
• Hothorn T., Hornik K., Van de Wiel M.A. & Zeileis A. 2008. Implementing a class of permutation tests: The coin package // Journal of Statistical Software. Vol.28. P.1–23.
• Japan Meteorological Agency. 2020. Search for past mete- orological data. Japan meteorological agency. Available at: https://www.data.jma.go.jp/obd/stats/etrn/index.php. Accessed on 1 November 2020.
• Kawamichi T., Kawamichi M. & Kishimoto M. 1987. Social organization of solitary mammals // Ito Y., Brown J.L. & Kikkawa J. (eds.). Animal Societies: Theory and Facts. Tokyo: Japan Scientific Societies Press. P.173–188.
• Kobayashi T. 2012. Some ecological characteristics of small Japanese flying squirrels, Pteromys momonga in a forest of Tottori Prefecture // Natural Environmental Science Research. Vol.25. P.15–22 [in Japanese with English abstract].
• Kobayashi T. 2013. An analysis of factors inducing use of a nest by plural individuals in Japanese flying sqirrels, Pteromys momonga // Bulletin of the Tottori Prefectural Museum. Vol.50. P.55–59 [in Japanese with English abstract].
• Koprowski J.L. 1996. Natal philopatry, communal nesting, and kinship in fox squirrels and gray squirrels // Journal of Mammalogy. Vol.77. P.1006–1016.
• Koprowski J.L., Goldstein E.A., Bennett K.R. & Mendes C.P. 2016. Family Sciuridae (tree, flying and ground squirrels, chipmunks, marmots and prairie dogs) // Wilson D.E., Lacher Jr., T.E. & Mittermeier R.A. (eds.). Handbook of the Mammals of the World. Vol.6. Lagomorphs and Rodents I. Barcelona: Lynx Edicions. P.648–837.
• Layne J.N. & Raymond M.A.V. 1994. Communal nesting of southern flying squirrels in Florida // Journal of Mammalogy. Vol.75. P.110–120.
• Lewarch C.L. & Hoekstra H.E. 2018. The evolution of nesting behaviour in Peromyscus mice // Animal Behaviour. Vol.139. P.103–115.
• Muul I. 1968. Behavioral and physiology influences on the distribution of the flying squirrel, Glaucomys volans // Miscellaneous Publications Museum of Zoology, University of Michigan. Vol.124. P.1–66.
• Oshida T. 2015. Pteromys momonga Temminck, 1844 // Ohdachi S.D., Ishibashi Y., Iwasa M.A., Fukui D. & Saitoh T. (eds.). The Wild Mammals of Japan. Second edition. Kyoto: Shoukadoh Book Seller. P.202–203.
• Pradhan A.K., Shrotriya S., Rout S.D. & Dash P.K. 2017.
• R Core Team. 2019. A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. Available at: https://www.R-project.org/. Accessed on 30 June 2020.
• Ramos-Lara N. & Koprowski J.L. 2012. Communal nesting behavior in mearns’s squirrels (Tamiasciurus mearnsi) // Southwestern Naturalist. Vol.57. P.195–225.
• Reynolds R.J., Fies M.L. & Pagels J.F. 2009. Communal nesting and reproduction of the southern flying squirrel in montane Virginia // Northeastern Naturalist. Vol.16. P.563–576.
• Selonen V., Hanski I.K. & Wistbacka R. 2014. Communally nesting is explained by subsequent mating rather than kinship or thermoregulation in the Siberian flying squirrel // Behavioral Ecology and Sociobiology. Vol.68. P.971–980.
• Stapp P., Pekins P.J. & Mautz W.W. 1991. Winter energy expenditure and the distribution of southern flying squirrels // Canadian Journal of Zoology. Vol.69. P.2548–2555.
• Torii H. 1989. [Mammals of Shizuoka Prefecture, Japan]. Tokyo: Dai-Ichi Hoki Co., Ltd. 231 p. [in Japanese].
• Waterman J.M. 1995. The social organization of the cape ground squirrel (Xerus inauris; Rodentia: Sciuridae) // Ethology. Vol.101. P.130–147.
• Vogt F.D. & Lynch G.R. 1982. Influence of ambient temperature, nest availability, huddling, and daily torpor on energy expenditure in the white-footed mouse Peromyscus leucopus // Physiological Zoology. Vol.55. P.56–63.
• Williams C.T., Gorrell J.C., Lane J.E., McAdam A.G., Humphries M.M. & Boutin S. 2013. Communal nesting in an ‘asocial’ mammal: Social thermoregulation among spatially dispersed kin // Behavioral Ecology and Sociobiology. Vol.67. P.757–763.
• Yanagawa H. 1999. [Ecological note on the Russian flying squirrel (Pteromys volans orii) with a video camera] // Mammalian Science. Vol.39. P.181–183 [in Japanese].
• Yanagawa H., Oshida T., Taniguchi M. & Takedatsu K. 1996. Note on the Japanese flying squirrel, Pteromys momonga captured in Fukui Prefecture // Journal of the Japanese Wildlife Research Society. Vol.22. P.8–16 [in Japanese with English abstract].

Скачать PDF