If you ask a student, parent or working professional whether they get enough sleep each night, many will laugh at the question. Sufficient rest may seem an impossible goal in the hustle and bustle of modern life, but what if you could achieve the prized 8 hours of sleep without ever sleeping at all? This is, of course, impossible for humans. However, busy penguins never seem to sleep. Chinstrap penguins nest as a colony and in every penguin pair, one parent stays home with their young while the other parent forages to feed the family. As any human parent knows, full-time childcare is tiring work, as is providing for the family. Factor on top of these the necessity for chinstrap penguins to be vigilant against predators and it is obvious that both nesting and foraging penguin parents will need a lot of rest. However, sleeping for hours would put them, and their chicks, at great risk. A new study shows that chinstrap penguins mitigate this trade-off by utilizing a strategy known as microsleeping.
Paul-Antoine Libourel (Neuroscience Research Centre of Lyon, France) and colleagues from France, the Republic of Korea and Germany investigated how nesting chinstrap penguins are able to obtain enough rest without sleeping for extended periods of time. The researchers monitored the activity of nesting penguins by filming them and outfitting individuals with wearable motion sensors. The sensors tracked the animal's body posture and sleep stages to identify when the tired penguins nodded off, similar to a human fitness tracker. The research team was particularly interested in slow wave sleep picked up by the sensor, which indicates deep and restorative rest. The team also investigated how sleep quality compares between individuals nesting on the colony's border, who are more vulnerable to predators, and individuals in the center of the colony, who are protected from predation.
Libourel and colleagues found that nesting chinstrap penguins attained an incredible total of ∼15 hours of slow wave sleep per day despite never appearing to take a nap. Astonishingly, these hours came from the accumulation of thousands of daily naps that lasted only 4 seconds. Not only that, but most of these naps were not really naps at all. Rather, the penguins were taking microsleeps, where they put one hemisphere of their brain to sleep and close only the associated eye, while concurrently the other hemisphere of the brain, and the other eye, remain wide awake. Both the right and left hemispheres of the brain received a luxurious 11–12 hours of sleep per day. Moreover, contrary to expectation, the team discovered that penguins on the edge of the colony enjoyed longer, deeper and less fragmented sleep than penguins at the center of the colony, suggesting that aggression from penguin peers is more stressful than the risk posed by predators.
Microsleeping is an incredible testament to the strategies that animals can employ to balance their physiological and ecological needs. In the case of chinstrap penguins, taking microsleeps allows them to restore their physiological systems while remaining vigilant for threats from predators and peers. The success of the species suggests that, although fragmented, this sleep pattern provides the same large-scale restorative functions as uninterrupted sleep. However, further research is warranted into how the full restorative value of microsleeping compares to that of typical sleep.
Although it has long been known that birds experience slow wave sleep in shorter bouts than mammals, Libourel and colleagues’ discovery that chinstrap penguins accumulate 15 hours of sleep daily over thousands of microsleeps that last only 4 seconds is unprecedented. If only human systems could operate this way and allow us to benefit from the many times we've nodded off during boring lectures.