Seasonal Variation of Temporal Niche in Wild Owl Monkeys (<i>Aotus azarai azarai</i>) of the Argentinean Chaco: A Matter of Masking?

Erkert, Hans G.; Fernández-Duque, Eduardo; Rotundo, Marcelo; Scheideler, Angelika

doi:10.3109/07420528.2012.673190

Cited by 24 publications

(14 citation statements)

References 39 publications

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“…These communities experience a seasonal change in daylight of almost 3 h per day between the winter and summer solstices (Erkert et al, 2012). The first study took place close to the summer solstice, between November 24 and December 2, 2012.…”

Section: Methodsmentioning

confidence: 99%

Access to Electric Light Is Associated with Shorter Sleep Duration in a Traditionally Hunter-Gatherer Community

et al. 2015

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Access to electric light might have shifted the ancestral timing and duration of human sleep. To test this hypothesis, we studied two communities of the historically hunter-gatherer indigenous Toba/Qom in the Argentinean Chaco. These communities share the same ethnic and sociocultural background, but one has free access to electricity while the other relies exclusively on natural light. We fitted participants in each community with wrist activity data loggers to assess their sleep-wake cycles during one week in the summer and one week in the winter. During the summer, participants with access to electricity had a tendency to a shorter daily sleep bout (43 ± 21 min) than those living under natural light conditions. This difference was due to a later daily bedtime and sleep onset in the community with electricity, but a similar sleep offset and rise time in both communities. In the winter, participants without access to electricity slept longer (56 ± 17 min) than those with access to electricity, and this was also related to earlier bedtimes and sleep onsets than participants in the community with electricity. In both communities, daily sleep duration was longer during the winter than during the summer. Our field study supports the notion that access to inexpensive sources of artificial light and the ability to create artificially lit environments must have been key factors in reducing sleep in industrialized human societies.

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Section: Methodsmentioning

confidence: 99%

Access to Electric Light Is Associated with Shorter Sleep Duration in a Traditionally Hunter-Gatherer Community

et al. 2015

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“…Nevertheless, assessing this activity in groups is challenging due to difficulties in collecting individual data by actigraphy (Favreau et al, 2009). An alternative tool is an actimeter, which can evaluate rhythm under constant illumination and under conditions closer to those of natural environments, as seen in rhesus monkeys (Golub et al, 1996) under controlled laboratory conditions, in marmosets (Melo et al, 2010) and spider monkeys (Muñ oz-Delgado et al, 2004) living under seminatural conditions, and in Madagascan lemurs (Erkert & Kappeler, 2004;Kappeler & Erkert, 2003) and owl monkeys (Erkert et al, 2012;Fernandez-Duque & Erkert, 2006) under natural conditions.…”

Section: Introductionmentioning

confidence: 99%

Socially Adjusted Synchrony in the Activity Profiles of Common Marmosets in Light-Dark Conditions

Melo

Gonçalves

Menezes

et al. 2013

Chronobiology International

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Synchronized state of activity and rest might be attained by mechanisms of entrainment and masking. Most zeitgebers not only act to entrain but also to mask circadian rhythms. Although the light-dark (LD) cycle is the main zeitgeber of circadian rhythms in marmosets, social cues can act as weaker zeitgebers. Evidence on the effects of social entrainment in marmosets has been collected in isolated animals or in pairs where activity is not individually recorded. To characterize the synchronization between the daily activity profiles of individuals in groups under LD conditions, the motor activity of animals from five groups was continuously monitored using actiwatches for 15 days during the 5th, 8th, and 11th months of life of juveniles. Families consisting of twins (4 ♂♀/1 ♂♂) and their parents were maintained under controlled lighting (LD 12:12 h), temperature, and humidity conditions. Synchronization was evaluated through the synchrony between the circadian activity profiles obtained from the Pearson correlation index between possible pairs of activity profiles in the light and dark phases. We also calculated the phase-angle differences between the activity onset of one animal in relation to the activity onset of each animal in the group (ψ(on)). A similar procedure was performed for activity offset (ψ(off)). By visual analysis, the correlation between the activity profiles of individuals within each family was stronger than that of individuals from different families. A mixed-model analysis showed that within the group, the correlation was stronger between twins than between twins and their parents in all families, except for the family in which both juveniles were males. Because a twin is an important social partner for juveniles, a sibling is likely to have a stronger influence on its twin's activity rhythm than other family members. Considering only the light phase, the second strongest correlation was observed between the activity profiles of the individuals in the reproductive pair. Regarding the parameters ψ(on) and ψ(off), the juvenile/juvenile dyad had lower values than the other dyads, but these differences did not reach statistical significance in relation to all dyads. Comparing the results of the ψ(on) and ψ(off), and correlation indices, we suggest that the latter could detect differences between the animals that were not observed in the results of the phase-angle differences. These differences could be related to changes that occur during the active phase but not only in a particular phase, such as the temporal changes during the activity phase that characterize unimodal or bimodal patterns. Based on the differences in the correlations between individuals subjected to the same LD routine, we suggest that social cues modulate the circadian activity profiles of marmosets as a result of interactions between the animals within each group. Future studies are necessary to characterize the mechanisms of synchronization that are involved in this social modulation.

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“…Most nocturnal primates are largely dependent on moonlight for their foraging activity [86][87][88][89]. They show a remarkable lunarphilia, with nocturnal activity tracking the 24.8 h lunar periodicity.…”

Section: (Ii) Primatesmentioning

confidence: 99%

Chronobiology by moonlight

et al. 2013

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Most studies in chronobiology focus on solar cycles (daily and annual). Moonlight and the lunar cycle received considerably less attention by chronobiologists. An exception are rhythms in intertidal species. Terrestrial ecologists long ago acknowledged the effects of moonlight on predation success, and consequently on predation risk, foraging behaviour and habitat use, while marine biologists have focused more on the behaviour and mainly on reproduction synchronization with relation to the Moon phase. Lately, several studies in different animal taxa addressed the role of moonlight in determining activity and studied the underlying mechanisms. In this paper, we review the ecological and behavioural evidence showing the effect of moonlight on activity, discuss the adaptive value of these changes, and describe possible mechanisms underlying this effect. We will also refer to other sources of night-time light (‘light pollution’) and highlight open questions that demand further studies.

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Seasonal Variation of Temporal Niche in Wild Owl Monkeys (Aotus azarai azarai) of the Argentinean Chaco: A Matter of Masking?

Cited by 24 publications

References 39 publications

Access to Electric Light Is Associated with Shorter Sleep Duration in a Traditionally Hunter-Gatherer Community

Access to Electric Light Is Associated with Shorter Sleep Duration in a Traditionally Hunter-Gatherer Community

Socially Adjusted Synchrony in the Activity Profiles of Common Marmosets in Light-Dark Conditions

Chronobiology by moonlight

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