Press "Enter" to skip to content

Study Finds That Climate Change Will Negatively Impact Human Sleep Around the World

A new study finds that increasing ambient temperatures negatively impact human sleep around the globe.

Most research looking at the impact of climate change on human life has focused on how extreme weather events affect economic and societal health outcomes on a broad scale. Yet climate change may also have a strong influence on fundamental daily human activities—including a host of behavioral, psychological, and physiological outcomes that are essential to wellbeing. In a study that will be published today (May 20, 2022) in the journal One Earth, investigators report that increasing ambient temperatures negatively impact human sleep around the globe.

According to the researchers, their findings suggest that by the year 2099, suboptimal temperatures may erode 50 to 58 hours of sleep per person per year. Additionally, they found that the temperature effect on sleep loss is substantially greater for residents from lower income countries as well as in older adults and females.

“Our results indicate that sleep—an essential restorative process integral for human health and productivity—may be degraded by warmer temperatures,” says first author Kelton Minor of the University of Copenhagen. “In order to make informed climate policy decisions moving forward, we need to better account for the full spectrum of plausible future climate impacts extending from today’s societal greenhouse gas emissions choices.”

It’s long been recognized that hot days increase deaths and hospitalizations and worsen human performance, yet the biological and behavioral mechanisms underlying these impacts have not been well understood. Recent self-reported data from the United States have suggested that subjective sleep quality decreases during periods of hot weather, but how temperature fluctuations may impact changes in objective sleep outcomes in people living across a variety of global climates has remained unclear.

“In this study, we provide the first planetary-scale evidence that warmer-than-average temperatures erode human sleep,” Minor says. “We show that this erosion occurs primarily by delaying when people fall asleep and by advancing when they wake up during hot weather.” 

To conduct this research, the investigators used anonymized global sleep data collected from accelerometer-based sleep-tracking wristbands. The data included 7 million nightly sleep records from more than 47,000 adults across 68 countries spanning all continents except for Antarctica. Measures from the type of wristbands used in this study had previously been shown to align with independent measures of wakefulness and sleep.

The study suggested that on very warm nights (greater than 30 degrees CelsiusThe Celsius scale, also known as the centigrade scale, is a temperature scale named after the Swedish astronomer Anders Celsius. In the Celsius scale, 0 °C is the freezing point of water and 100 °C is the boiling point of water at 1 atm pressure.” data-gt-translate-attributes=”[{“attribute”:”data-cmtooltip”, “format”:”html”}]”>Celsius, or 86 degrees FahrenheitThe Fahrenheit scale is a temperature scale, named after the German physicist Daniel Gabriel Fahrenheit and based on one he proposed in 1724. In the Fahrenheit temperature scale, the freezing point of water freezes is 32 °F and water boils at 212 °F, a 180 °F separation, as defined at sea level and standard atmospheric pressure. ” data-gt-translate-attributes=”[{“attribute”:”data-cmtooltip”, “format”:”html”}]”>Fahrenheit), sleep declines an average of just over 14 minutes. The likelihood of getting less than seven hours of sleep also increases as temperatures rise.

“Our bodies are highly adapted to maintain a stable core body temperature, something that our lives depend on,”  Minor says. “Yet every night they do something remarkable without most of us consciously knowing—they shed heat from our core into the surrounding environment by dilating our blood vessels and increasing blood flow to our hands and feet.” He adds that in order for our bodies to transfer heat, the surrounding environment needs to be cooler than we are. 

Early controlled studies in sleep labs found that both humans and animals sleep worse when the room temperature is too hot or too cold. But this research was limited by how people act in the real world: they modify the temperature of their sleeping environment to be more comfortable.

In the current research, the investigators found that under normal living routines, people appear far better at adapting to colder outside temperatures than hotter conditions. “Across seasons, demographics, and different climate contexts, warmer outside temperatures consistently erode sleep, with the amount of sleep loss progressively increasing as temperatures become hotter,” Minor says.

One important observation was that people in developing countries seem to be more affected by these changes. It’s possible that the greater prevalence of air conditioning in developed countries could play a role, but the researchers could not definitively identify the reason because they did not have data on air conditioning access among subjects. The researchers also note that because they uncovered compelling evidence that the impact of warming temperatures on sleep loss is unequal globally, new research should especially consider more vulnerable populations, particularly those residing in the world’s hottest—and historically poorest—regions.

In future work, the team would like to collaborate with global climate scientists, sleep researchers, and technology providers to extend the scope of global sleep and behavioral analyses to other populations and contexts. Additionally, they are interested in studying the impact of rising outdoor temperatures on the sleep outcomes of incarcerated populations situated in hot climates, who may have particularly limited access to air conditioning. 

Reference: “Rising temperatures erode human sleep globally” by Kelton Minor, Andreas Bjerre-Nielsen, Sigga Svala Jonasdottir, Sune Lehmann and Nick Obradovich, 20 May 2022, One Earth.
DOI: 10.1016/j.oneear.2022.04.008

This research was supported by the Danish Agency for Higher Education and Science and the Independent Research Fund Denmark.

Source: SciTechDaily