Luyster, F. S., Strollo, P. J., Zee, P. C. & Walsh, J. K. Sleep: A health imperative. Sleep 35, 727–734 (2012).
Google Scholar
Siegel, J. M. Clues to the functions of mammalian sleep. Nature 437, 1264–1271 (2005).
Google Scholar
Cirelli, C. & Tononi, G. Is sleep essential?. PLoS Biol. 6, 1605–1611 (2008).
Google Scholar
Lesku, J. A., Roth, T. C. II., Amlaner, C. J. & Lima, S. L. A phylogenetic analysis of sleep architecture in mammals: The integration of anatomy, physiology, and ecology. Am. Nat. 168, 441–453 (2006).
Google Scholar
Banks, S. & Dinges, D. F. Behavioral and physiological consequences of sleep restriction. J. Clin. Sleep Med. 3, 519–528 (2007).
Google Scholar
Tougeron, K. & Abram, P. K. An ecological perspective on sleep disruption. Am. Nat. 190, E55–E66 (2017).
Google Scholar
Vyazovskiy, V. V. & Tobler, I. The temporal structure of behaviour and sleep homeostasis. PLoS ONE 7, 1–11 (2012).
Tobler, I. Is sleep fundamentally different between mammalian species?. Behav. Brain Res. 69, 35–41 (1995).
Google Scholar
Vyazovskiy, V. Sleep, recovery, and metaregulation: Explaining the benefits of sleep. Nat. Sci. Sleep 7, 171 (2015).
Google Scholar
Vyazovskiy, V. V. & Delogu, A. NREM and REM sleep. Neuroscience 20, 203–219 (2014).
Orzeł-Gryglewska, J. Consequences of sleep deprivation. Int. J. Occup. Med. Environ. Health 23, 95–114 (2010).
Google Scholar
Meerlo, P., Sgoifo, A. & Suchecki, D. Restricted and disrupted sleep: Effects on autonomic function, neuroendocrine stress systems and stress responsivity. Sleep Med. Rev. 12, 197–210 (2008).
Google Scholar
Touitou, Y., Reinberg, A. & Touitou, D. Association between light at night, melatonin secretion, sleep deprivation, and the internal clock: Health impacts and mechanisms of circadian disruption. Life Sci. 173, 94–106 (2017).
Google Scholar
Pires, G. N., Bezerra, A. G., Tufik, S. & Andersen, M. L. Effects of acute sleep deprivation on state anxiety levels: A systematic review and meta-analysis. Sleep Med. 68, 575–589 (2016).
Hudson, A. N., Van Dongen, H. P. A. A. & Honn, K. A. Sleep deprivation, vigilant attention, and brain function: A review. Neuropsychopharmacology https://doi.org/10.1038/s41386-019-0432-6 (2019).
Google Scholar
Tobler, I. & Sigg, H. Long-term motor activity recording of dogs and the effect of sleep deprivation. Experientia 42, 987–991 (1986).
Google Scholar
Hänninen, L. Sleep and Rest in Calves Relationship To Welfare, Housing and Hormonal Activity (University of Helsinki, Helsinki, 2007).
Hsieh, W.-H.H. et al. Simulated shift work in rats perturbs multiscale regulation of locomotor activity. J. R. Soc. Interface 11, 20140318 (2014).
Google Scholar
Storch, C., Höhne, A., Holsboer, F. & Ohl, F. Activity patterns as a correlate for sleep–wake behaviour in mice. J. Neurosci. Methods 133, 173–179 (2004).
Google Scholar
Hicks, R. A., Moore, J. D., Hayes, C., Phillips, N. & Hawkins, J. REM sleep deprivation increases aggressiveness in male rats. Physiol. Behav. 22, 1097–1100 (1979).
Google Scholar
Pires, G. N., Tufik, S. & Andersen, M. L. Grooming analysis algorithm: Use in the relationship between sleep deprivation and anxiety-like behavior. Prog. Neuro-Psychopharmacol. Biol. Psychiatry 41, 6–10 (2013).
Vorster, A. P. & Born, J. Sleep and memory in mammals, birds and invertebrates. Neurosci. Biobehav. Rev. 50, 103–119 (2015).
Google Scholar
Greives, T. J. et al. Costs of sleeping in: Circadian rhythms influence cuckoldry risk in a songbird. Funct. Ecol. 29, 1300–1307 (2015).
Fuchs, T., Haney, A., Jechura, T. J., Moore, F. R. & Bingman, V. P. Daytime naps in night-migrating birds: Behavioural adaptation to seasonal sleep deprivation in the Swainson’s thrush, Catharus ustulatus. Anim. Behav. 72, 951–958 (2006).
Klein, B. A., Klein, A., Wray, M. K., Mueller, U. G. & Seeley, T. D. Sleep deprivation impairs precision of waggle dance signaling in honey bees. Proc. Natl. Acad. Sci. U. S. A. 107, 22705–22709 (2010).
Google Scholar
Owczarczak-Garstecka, S. C. & Burman, O. H. P. P. Can sleep and resting behaviours be used as indicators of welfare in shelter dogs (Canis lupus familiaris)?. PLoS ONE 11, e0163620 (2016).
Google Scholar
Langford, F. M. & Cockram, M. S. Is sleep in animals affected by prior waking experiences?. Anim. Welf. 19, 215–222 (2010).
Google Scholar
Toth, L. A. & Bhargava, P. Animal models of sleep disorders. Comp. Med. 63, 91–104 (2013).
Google Scholar
Zanghi, B. M., Kerr, W., DeRivera, C., Araujo, J. & Milgram, B. Sleep and biorhythms as a function of age in the dog. J. Vet. Behav. 5, 159 (2010).
Zanghi, B. M. Circadian Biorhythms of Sleep/Wake Dogs, Activity/Rest Cycles In Adult and Aged dogs. in Nestle Purina Companion Aninmal Nutrition Summit vol. 31 114–117 (Purina Institute, 2010).
Zanghi, B. M. et al. Characterizing behavioral sleep using actigraphy in adult dogs of various ages fed once or twice daily. J. Vet. Behav. 8, 195–203 (2013).
Bódizs, R., Kis, A., Gácsi, M. & Topál, J. Sleep in the dog: Comparative, behavioral and translational relevance. Curr. Opin. Behav. Sci. 33, 25–33 (2020).
Kis, A. et al. Development of a non-invasive polysomnography technique for dogs (Canis familiaris). Physiol. Behav. 130, 149–156 (2014).
Google Scholar
Takeuchi, T. & Harada, E. Age-related changes in sleep-wake rhythm in dog. Behav. Brain Res. 136, 193–199 (2002).
Google Scholar
Adams, G. J. & Johnson, K. G. Sleep-wake cycles and other night-time behaviours of the domestic dog Canis familiaris. Appl. Anim. Behav. Sci. 36, 233–248 (1993).
Adams, G. J. & Johnson, K. G. Behavioural responses to barking and other auditory stimuli during night-time sleeping and waking in the domestic dog (Canis familiaris). Appl. Anim. Behav. Sci. 39, 151–162 (1994).
Bunford, N. et al. Differences in pre-sleep activity and sleep location are associated with variability in daytime/nighttime sleep electrophysiology in the domestic dog. Sci. Rep. 8, 7109 (2018).
Google Scholar
Iotchev, I. B. et al. Age-related differences and sexual dimorphism in canine sleep spindles. Sci. Rep. 9, 10092 (2019).
Google Scholar
Kis, A. et al. Sleep macrostructure is modulated by positive and negative social experience in adult pet dogs. Proc. R. Soc. B Biol. Sci. 284, 20171883 (2017).
Mong, J. A. & Cusmano, D. M. Sex differences in sleep: Impact of biological sex and sex steroids. Philos. Trans. R. Soc. B Biol. Sci. 371, 20150110 (2016).
Andersen, M. L. et al. Effects of sleep loss on sleep architecture in Wistar rats: Gender-specific rebound sleep. Prog. Neuro-Psychopharmacol. Biol. Psychiatry 32, 975–983 (2008).
Google Scholar
McKillop, L. E. et al. Effects of aging on cortical neural dynamics and local sleep homeostasis in mice. J. Neurosci. 38, 3911–3928 (2018).
Google Scholar
Nakamura, T. J., Takasu, N. N. & Nakamura, W. The suprachiasmatic nucleus: Age-related decline in biological rhythms. J. Physiol. Sci. 66, 367–374 (2016).
Google Scholar
Abou-Ismail, U. A., Burman, O. H. P., Nicol, C. J. & Mendl, M. Can sleep behaviour be used as an indicator of stress in group-housed rats (Rattus norvegicus)?. Anim. Welf. 16, 185–188 (2007).
Google Scholar
Sadeh, A., Keinan, G. & Daon, K. Effects of stress on sleep: The moderating role of coping style. Heal. Psychol. 23, 542–545 (2004).
Okun, M. L. Biological consequences of disturbed sleep: Important mediators of health?. Jpn. Psychol. Res. 53, 163–176 (2011).
Google Scholar
Van Reeth, O. et al. Interactions between stress and sleep: From basic research to clinical situations. Sleep Med. Rev. 4, 201–219 (2000).
Novati, A. et al. Chronically restricted sleep leads to depression-like changes in neurotransmitter receptor sensitivity and neuroendocrine stress reactivity in rats. Sleep 31, 1579–1585 (2008).
Google Scholar
Taylor, K. D. & Mills, D. S. The effect of the kennel environment on canine welfare: A critical review of experimental studies. Anim. Welf. 16, 435–447 (2007).
Google Scholar
Sales, G., Hubrecht, R., Peyvandi, A., Milligan, S. & Shield, B. Noise in dog kennelling: Is barking a welfare problem for dogs?. Appl. Anim. Behav. Sci. 52, 321–329 (1997).
Hewison, L. F., Wright, H. F., Zulch, H. E. & Ellis, S. L. H. Short term consequences of preventing visitor access to kennels on noise and the behaviour and physiology of dogs housed in a rescue shelter. Physiol. Behav. 133, 1–7 (2014).
Google Scholar
Schwartz, J. R. L. & Roth, T. Neurophysiology of sleep and wakefulness: Basic science and clinical implications. Curr. Neuropharmacol. 6, 367–378 (2008).
Google Scholar
Reicher, V. et al. Repeated afternoon sleep recordings indicate first-night-effect-like adaptation process in family dogs. J. Sleep Res. 29, 1–10 (2020).
Piccione, G. et al. Comparison of daily distribution of rest/activity in companion cats and dogs. Biol. Rhythm Res. 45, 615–623 (2014).
Kredlow, M. A., Capozzoli, M. C., Hearon, B. A., Calkins, A. W. & Otto, M. W. The effects of physical activity on sleep: A meta-analytic review. J. Behav. Med. 38, 427–449 (2015).
Google Scholar
Barber, N. Play and energy regulation in mammals. Q. Rev. Biol. 66, 129–147 (1991).
Google Scholar
Ahloy-Dallaire, J., Espinosa, J. & Mason, G. Play and optimal welfare: Does play indicate the presence of positive affective states?. Behav. Processes 156, 3–15 (2018).
Google Scholar
Penev, P. D. Sleep deprivation and energy metabolism: To sleep, perchance to eat?. Curr. Opin. Endocrinol. Diabetes. Obes. 14, 374–381 (2007).
Google Scholar
Mavanji, V., Billington, C. J., Kotz, C. & Teske, J. A. Sleep and obesity: A focus on animal models. Neurosci. Biobehav. Rev. 36, 1015–1029 (2012).
Google Scholar
Zanghi, B. M., Kerr, W., de Rivera, C., Araujo, J. A. & Milgram, N. W. Effect of age and feeding schedule on diurnal rest/activity rhythms in dogs. J. Vet. Behav. 7, 339–347 (2012).
Knutson, K. L., Spiegel, K., Penev, P. & Van Cauter, E. The metabolic consequences of sleep deprivation. Sleep Med. Rev. 11, 163–178 (2007).
Google Scholar
Kiddie, J. & Collins, L. Identifying environmental and management factors that may be associated with the quality of life of kennelled dogs (Canis familiaris). Appl. Anim. Behav. Sci. 167, 43–55 (2015).
Taylor, K. D. & Mills, D. S. The effect of the kennel environment on canine welfare: A critical review of experimental studies (2007).
CONCEA. Resolução normativa no 12. Diretriz brasileira para o cuidado e a utilização de animais para fins científicos e didáticos. Diário Oficial da União No 186 (2013).
Bateson, M. & Martin, P. Measuring Behaviour (Cambridge University Press, 2021) https://doi.org/10.1017/CBO9780511810893.
Google Scholar
Broom, D. M. & Fraser, A. F. Domestic Animal Behaviour and Welfare (CABI, 2015).
Luescher, U. A., McKeown, D. B. & Halip, J. Stereotypic or obsessive-compulsive disorders in dogs and cats. Vet. Clin. North Am. Small Anim. Pract. 21, 401–413 (1991).
Google Scholar
Friard, O. & Gamba, M. BORIS: A free, versatile open-source event-logging software for video/audio coding and live observations. Methods Ecol. Evol. 7, 1325–1330 (2016).
Crawley, M. J. The R Book (Wiley, 2007). https://doi.org/10.1002/9780470515075.
Google Scholar
Bates, D., Mächler, M., Bolker, B. & Walker, S. Fitting Linear Mixed-Effects Models Using lme4. J. Stat. Softw. 67, 1–48 (2015).
Becker, R. A., Chambers, J. M. & Wilks, A. R. The New S Language (Chapman and Hall/CRC, 1988).
Google Scholar
Source: Ecology - nature.com
