Do kids need daylight? Studies confirm that kids benefit when they are exposed to outdoor levels of illumination — levels that far exceed the lighting of a typical classroom. Bright light boosts mood and concentration. It may help prevent disease, circadian rhythm disorders, and nearsightedness. And new research suggests that bright light has a crucial impact on the brain: It may foster the formation of new synapses, and enhance our ability to learn. Let’s start with a basic observation. It’s very bright outside, even when you compare a brightly lit classroom to a relatively dark, overcast day outdoors. Measured in units called “lux,” a typical, cloudless day may exceed 100,000 lux. A cloudy day may still be as bright as 10,000 to 40,000 lux, and even a rather gloomy, overcast day in Seattle is likely to reach 1,000 lux. By contrast, the lighting we encounter indoors is much dimmer, ranging from about 50 lux (watching TV in the living room) to 500 lux (a brightly lit classroom). So we encounter radically different lighting conditions when we spend our lives indoors, and that’s worrying. The bright light levels found outside aren’t just beneficial to photosynthesizing plants. They are also crucial for human beings. And this is true for children as well as adults. Consider these benefits. Bright light improves mood You’ve probably noticed that bright light has a cheering effect. It improves mood, and studies show that bright light therapy is an effective treatment for depression. Daily exposure to very bright light (e.g., 15,000 lux or higher) might protect kids from developing nearsightedness As I note elsewhere, research has found that outdoor play lowers a child’s risk of developing nearsightedness. Researchers haven’t yet pinned down the reason, but experimental studies point to the effects of light. Animals raised under controlled lighting conditions are less likely to develop nearsightedness if they are exposed to daytime light levels exceeding 15,000 lux. Sunlight helps children produce adequate levels of vitamin D, and vitamin D sufficiency protects kids from a variety of undesirable health outcomes Kids with low vitamin D levels are at increased risk for poor bone health, cardiovascular disease, and reduced muscle function. There is also evidence that low vitamin D status could be a trigger for early puberty in girls. And vitamin D deficiency has been linked with inferior mental planning skills. Sunlight appears to protect children from developing multiple sclerosis (MS) later in life Numerous studies have reported this link. Lots of sunlight exposure during childhood reduces an individual’s risk of MS, and this appears to be true regardless of an individual’s vitamin D status. The sunlight itself seems to be helpful. Staying up late might not matter if you also wake up late. But when children have to wake up early for school, delayed bedtimes can take a toll. Studies suggest that delayed bedtimes — without opportunities for catch-up sleep — are linked with poor school performance and behavior problems. But why don’t kids go to sleep on time? For many kids, part of the problem is lighting: They get too little sunlight during the day, and too much artificial lighting at night. As a result, their “inner clocks” get out of sync with the natural, 24-hour day. Their circadian rhythms are out of whack. The cure? As I explain in another article, it’s important to avoid artificial lighting at night, and stop using electronic devices an hour before bedtime. But researchers have shown that kids need daylight, too: A dose of bright morning light can help kids with chronic bedtime problems get back on track. And what about mental performance? Does bright daylight make kids smarter? We’ve already noted that vitamin D levels have been linked with mental planning skills, and late bedtimes can contribute to attention problems. So exposure to bright light might boost mental performance by these indirect routes. We’ve also seen that bright light enhances mood, which could be an important motivator at school. In a study of more than two hundred 10-year-olds, researchers found that kids preferred classrooms that were very brightly lit (1,300 to 4,400 lux) to classrooms that were lit at much lower, more traditional levels (250-740 lux). But it’s likely that bright light has additional benefits. For example, there is evidence that children read more fluently in classrooms that are very brightly-lit. Kids may perform better on mathematics tests, too. And experiments on nonhuman animals suggest an additional possibility: Maybe bright light has a direct effect on our ability to learn. Take that bright light away — keep us indoors, in dimly-lit rooms — and we might suffer learning deficits. Evidence from nonhuman animals: How dim light impairs learning and memory The experiments were performed on Nile grass rats, a species that sleeps at night and remains active during the day, just as humans do. From the beginning of the study, a group of 24 male rats were kept on strict schedules of 12 hours of constant lighting followed by 12 hours of darkness. But individual rats experienced differences in light intensity. Some rats were randomly assigned to experience daytime light levels of 1,000 lux (similar to that of a rather dark, overcast day). Other rats were randomly assigned to experience daytime light levels of just 50 lux (similar to the lighting typical of many people’s living rooms). The rats stayed on their schedules for 4 weeks, at which point they were introduced to a problem-solving challenge called the Morris Water Maze. During this challenge, each rat was placed in a pool of water. The water was made opaque by nontoxic, white paint, which concealed the existence of a resting platform just under the water’s surface. Rats had to swim until they discovered the resting platform — something they were highly motivated to find. But once they did, they had the opportunity to commit the location to memory. That’s because the researchers had provided rats with a kind of landmark — a distinctive geometric shape placed on the inside of the pool’s wall. If a rat remembered the landmark, it would be able to quickly find the platform the next time it was placed in the pool. The question was: How readily would rats learn? All of the rats had the same opportunities. They were placed in the pool twice each day for 5 days running. And all of the rats showed signs of learning — they made their way to the hidden platform more quickly as the days went by. But during each morning session, the rats housed under dim light “living room” conditions performed worse than the “bright light” rats — as if they had forgotten more overnight. And when the researchers gave the rats a longer break — 24 hours between challenges — the dim light “living room” rats showed a pronounced learning deficit. Whereas the “bright light” rats had no trouble zeroing in on the location of the platform, the rats living with dim light schedules floundered. They were no more likely to swim in the correct location than you would expect by chance. The results weren’t caused by differences in lighting during swim sessions, because all rats experienced the same lighting conditions (about 300 lux) when they were in the Morris Water Maze. Interestingly, the behavior outcomes were also accompanied by visible differences in brain tissue. When researchers looked in the hippocampus (a part of the brain associated with spatial learning), they found that the “dim light” rats had lower levels of brain-derived neurotrophic factor, or BDNF — the substance that promotes the growth of new brain cells. In addition, neurons in the hippocampus were physically different. The neurons of the “bright light” rats had more spines on their dendrites — evidence that these neurons had grown stronger synapses.