RT @SRBR_Outreach: #ThrowbackThursday to 1996, when Boivin & colleagues discovered that light of relatively low intensity can shift the hum…
#ThrowbackThursday to 1996, when Boivin & colleagues discovered that light of relatively low intensity can shift the human #circadian clock, showing that humans are much more sensitive to light than initially suspected. @nature https://t.co/Nl7y5zXkzN
@MrPourquoi @cyber746 @HydroxyChloride @MmeDejantee Quelques références (sur le role de la lumière en général, et des écrans en particulier): https://t.co/DawfpjASBG, https://t.co/WHRlIev5WH, https://t.co/Q4Squtprc7, https://t.co/OjWG43htuS, etc.
#Light affecting the circadian rhythm seems more about intensity & duration than wavelength(color). @CaloriesProper https://t.co/bXDNaFPip2
RT @CaloriesProper: Dose-response relationships for resetting of human circadian clock by light https://t.co/2lyrwFFLa1
RT @CaloriesProper: Dose-response relationships for resetting of human circadian clock by light https://t.co/2lyrwFFLa1
robbwolf : RT CaloriesProper: Dose-response relationships for resetting of human circadian… https://t.co/3JEB58Q8aS https://t.co/JzR7g9riH0
RT @CaloriesProper: Dose-response relationships for resetting of human circadian clock by light https://t.co/2lyrwFFLa1
RT @CaloriesProper: Dose-response relationships for resetting of human circadian clock by light https://t.co/2lyrwFFLa1
RT @CaloriesProper: Dose-response relationships for resetting of human circadian clock by light https://t.co/2lyrwFFLa1
Dose-response relationships for resetting of human circadian clock by light https://t.co/2lyrwFFLa1