Department of Anthropology, University of Toronto, Mississauga.
Evolutionary Anthropology, Duke University, Tempe, AZ.
Am J Phys Anthropol. 2018 Jul;166(3):578-589. doi: 10.1002/ajpa.23455.
Primates spend almost half their lives asleep, yet we know little about how evolution has shaped variation in the duration or intensity of sleep (i.e., sleep regulation) across primate species. Our objective was to test hypotheses related to how sleeping site security influences sleep intensity in different lemur species.
We used actigraphy and infrared videography to generate sleep measures in 100 individuals (males = 51, females = 49) of seven lemur species (genera: Eulemur, Lemur, Propithecus, and Varecia) at the Duke Lemur Center in Durham, NC. We also generated experimental data using sleep deprivation for 16 individuals. This experiment used a pair-wise design for two sets of paired lemurs from each genus, where the experimental pair experienced a sleep deprivation protocol while the control experienced normal sleeping conditions. We calculated a sleep depth composite metric from weighted z scores of three sleep intensity variables.
We found that, relative to cathemeral lemurs, diurnal Propithecus was characterized by the deepest sleep and exhibited the most disruptions to normal sleep-wake regulation when sleep deprived. In contrast, Eulemur mongoz was characterized by significantly lighter sleep than Propithecus, and E. mongoz showed the fewest disruptions to normal sleep-wake regulation when sleep deprived. Security of the sleeping site led to greater sleep depth, with access to outdoor housing linked to lighter sleep in all lemurs that were studied.
We propose that sleeping site security was an essential component of sleep regulation throughout primate evolution. This work suggests that sleeping site security may have been an important factor associated with the evolution of sleep in early and later hominins.
灵长类动物大约有一半的时间都在睡觉,但我们对进化如何塑造不同灵长类物种的睡眠时间或强度(即睡眠调节)差异知之甚少。我们的目的是测试与睡眠地点安全性如何影响不同狐猴物种睡眠强度相关的假设。
我们使用动作记录仪和红外视频记录在北卡罗来纳州达勒姆的杜克狐猴中心生成了 100 只个体(雄性=51,雌性=49)的睡眠测量值,这些个体来自七个狐猴物种(属:Eulemur、Lemur、Propithecus 和 Varecia)。我们还使用 16 只个体的睡眠剥夺实验生成了实验数据。该实验使用了来自每个属的两对配对狐猴的配对设计,其中实验组经历了睡眠剥夺协议,而对照组则经历了正常的睡眠条件。我们从三个睡眠强度变量的加权 z 分数计算了睡眠深度综合指标。
我们发现,与昼行性狐猴相比,日行性 Propithecus 的睡眠最深,在睡眠剥夺时对正常睡眠-觉醒调节的干扰最大。相比之下,Eulemur mongoz 的睡眠明显比 Propithecus 浅,在睡眠剥夺时对正常睡眠-觉醒调节的干扰最小。睡眠地点的安全性导致了更深的睡眠,在所有被研究的狐猴中,有机会进入室外住房与睡眠变浅有关。
我们提出,睡眠地点的安全性是整个灵长类动物进化中睡眠调节的一个重要组成部分。这项工作表明,睡眠地点的安全性可能是与早期和晚期人类睡眠进化相关的一个重要因素。
