July 05, 2026 09:21 pm (IST)
Follow us:
facebook-white sharing button
twitter-white sharing button
instagram-white sharing button
youtube-white sharing button
'Why can't citizens protest against the government? They are being made slaves by slapping cases': Bombay HC slams Mumbai Police, quashes activist's externment | 'First he cheats on me...': Siya Goyal's old pub video goes viral amid probe into fiancé Ketan Agarwal's alleged murder | Ronaldo's goal, Ramos' last-gasp winner send Portugal past Croatia, set up Spain clash | India-US trade deal almost done! Piyush Goyal hints at breakthrough | Ram Mandir donation scam: Champat Rai points finger at his own driver | PM Modi welcomes Japanese PM Sanae Takaichi as India-Japan ties enter a new era | 'Not an isolated incident': India slams Pakistan after 125-year-old historic Gurdwara is demolished | Ram Mandir donation theft: Six accused were employed by Varanasi-based security firm, probe reveals | Ayodhya Ram Temple donation theft: Probe says majority of money was allegedly stolen during Kumbh Mela | Commercial LPG price slashed by Rs 183.50 from July 1; check new rates in Delhi, Mumbai, Kolkata and Chennai

Blue light may not be so bad for sleep, finds study

| @indiablooms | Dec 19, 2019, at 02:22 pm

Manchester/IBNS: Contrary to common belief, blue light may not be as disruptive to our sleep patterns as originally thought - according to University of Manchester scientists.

According to the team, using dim, cooler, lights in the evening and bright warmer lights in the day may be more beneficial to our health.

Twilight is both dimmer and bluer than daylight, they say, and the body clock uses both of those features to determine the appropriate times to be asleep and awake.

Current technologies designed to limit our evening exposure to blue light, for example by changing the screen colour on mobile devices, may therefore send us mixed messages, they argue.

This is because the small changes in brightness they produce are accompanied by colours that more resemble day.

The research, which was carried out on mice, used specially designed lighting that allowed the team to adjust colour without changing brightness.

That showed blue colours produced weaker effects on the mouse body clock than equally bright yellow colours.

The findings, say the team, have important implications for the design of lighting and visual displays intended to ensure healthy patterns of sleep and alertness.

The study is published in Current Biology and funded by the Biotechnology and Biological Sciences Research Council.

The body clock uses a specialised light sensitive protein in the eye to measure brightness, called melanopsin, which is better at detecting shorter wavelength photons.

“We show the common view that blue light has the strongest effect on the clock is misguided; in fact, the blue colours that are associated with twilight have a weaker effect than white or yellow light of equivalent brightness

This is why, say the team, researchers originally suggested blue light might have a stronger effect.

However, our perception of colour comes from the retinal cone cells and the new research shows that the blue colour signals they supply reduce the impact on light on the clock.

Dr Tim Brown, from The University of Manchester, said: “We show the common view that blue light has the strongest effect on the clock is misguided; in fact, the blue colours that are associated with twilight have a weaker effect than white or yellow light of equivalent brightness.

“There is lots of interest in altering the impact of light on the clock by adjusting the brightness signals detected by melanopsin but current approaches usually do this by changing the ratio of short and long wavelength light; this provides a small difference in brightness at the expense of perceptible changes in colour.”

He added: “We argue that this is not the best approach, since the changes in colour may oppose any benefits obtained from reducing the brightness signals detected by melanopsin.

“Our findings suggest that using dim, cooler, lights in the evening and bright warmer lights in the day may be more beneficial.

“Research has already provided evidence that aligning our body clocks with our social and work schedules can be good for our health. Using colour appropriately could be a way to help us better achieve that.”

The paper Cones support alignment to an inconsistent world by supressing mouse circadian responses to the blue colours associated with twilight is published in Current Biology.

Support Our Journalism

We cannot do without you.. your contribution supports unbiased journalism

IBNS is not driven by any ism- not wokeism, not racism, not skewed secularism, not hyper right-wing or left liberal ideals, nor by any hardline religious beliefs or hyper nationalism. We want to serve you good old objective news, as they are. We do not judge or preach. We let people decide for themselves. We only try to present factual and well-sourced news.

Support objective journalism for a small contribution.