环境光照对情绪的影响及其作用机制

doi:10.3724/SP.J.1042.2022.00389

摘要/Abstract

摘要：

环境光照作为重要的授时因子, 对多种生理和心理功能存在广泛影响, 其对情绪的非视觉作用尤其引起研究者们的关注。研究发现, 环境光照的照度、色温和波长均是影响情绪的重要物理因素; 短光周期、夜间人工光以及持续光照/黑暗等异常光照模式则会导致情绪障碍; 光照的情绪效应还受到光照时长、时间点、个体特征、主观偏好及基因类型等的调节。光照作用于情绪的路径主要包括两个方面, 一方面视网膜中的内在光敏感神经节细胞将光信号投射至情绪调节相关脑区直接影响情绪; 另一方面光信号通过同步内部生理节律及其调节下的激素分泌、神经传递和睡眠间接影响情绪。未来研究考察短时光照的视觉功效时需要采用更客观多样化的情绪测量技术, 综合非视觉与视觉作用路径深入对比健康与情绪障碍群体的差异性。

关键词: 环境光照, 情绪, 物理因素, 光照模式, 作用机制

Abstract:

As an essential timing factor, ambient light plays a vital role in synchronizing internal biological rhythms with external lighting and dark environments. Meanwhile, ambient light is also a critical mood regulator; its non-image-forming (NIF) effects on mood are especially concerned by researchers. Previous studies have demonstrated that illuminance, correlated color temperature (CCT), and wavelength of ambient illuminance are key physical factors affecting mood. Moreover, unusual lighting patterns such as short lighting periods, artificial lighting during the night, and constant lighting/darkness have destructive effects on emotion and mood that may induce affective disorders such as depression and anxiety.

To date, the conclusion that short-time light affects emotion is not quite consistent. Studies have found that the NIF effects of short-term light on mood was not only affected by the intensity and spectrum of light, but also modulated by exposure duration, timing, individual characteristics, subjective preferences, and gene types. In a period of time, the longer the subjects received bright light exposure and the earlier they received morning light exposure, the lower their depression score. However, in the short-term lighting experiment of simulating office lighting, prolonged exposure of bright light was not conducive to individuals’ subjective emotional experience; while the positive effect of CCT on emotion may depend on prolonged exposure. It is worth noting that receiving light exposure at different time in a day can advance or delay the circadian rhythms; thus, the timing could also regulate light’s emotional function. In addition, women were found to prefer higher illuminance and lower CCT than men; while young subjects were more sensitive to polychromatic light with shorter wavelength than older subjects. Compared with individuals with PER3^4/4genotype, individuals with PER3^5/5 genotype were more sensitive to light exposure and had a higher risk of depression; the 5-HTTLPR polymorphism was also proved to regulate the effect of light on the functional connectivity of the prefrontal cortex in healthy subjects. Lastly, the mechanisms by which light affects mood are shown from two aspects. On the one hand, the intrinsically photosensitive retinal ganglion cells may project light signals to the brain areas responsible for emotion regulation. On the other hand, ambient light may affect mood by altering circadian rhythms, regulating hormone secretion, neurotransmission, and sleep.

Future research can employ neuroscience technology to simultaneously examine the changes of subjective emotional experience and objective neural activity under multi-levels of illuminance and CCT; and combine multimodal data such as subjective rating, behavioral measurement, physiological response, and neural activity to track the effects of ambient light on mood. Besides, except for the NIF of light, ambient light may convey specific emotional meanings via the visual system, thus leading to various visual experiences transmitted by illuminance or wavelength, or lighting mode (direct or indirect lighting). Therefore, whether the visual perception of light, dominated by rods and cones, also potentially contributes to light's emotional function and how to separate it from the non-visual effects could be a promising direction in future research.

Key words: Ambient light, mood, physical factors, light patterns, underlying mechanism

中图分类号:

B849

李芸, 汝涛涛, 李丝雨, 陈涵宇, 谢舒雅, 周国富. (2022). 环境光照对情绪的影响及其作用机制. 心理科学进展 , 30(2), 389-405.

LI Yun, RU Taotao, LI Siyu, CHEN Hanyu, XIE Shuya, ZHOU Guofu. (2022). Effects of ambient light on mood and its mechanism. Advances in Psychological Science, 30(2), 389-405.

参考文献 157

[1]	毛天欣, 熊晓, 李静华, 姚颖, 杨健, 李笑然, 周国富. (2018). 光照的警觉性作用. 心理科学进展, 26(7), 1213-1222.
[2]	汝涛涛, 李芸, 钱柳, 陈庆伟, 钟罗金, 李静华, 周国富. (2019). 环境光照的认知功效及其调节因素与作用机理. 心理科学进展, 27(10), 1687-1702.
[3]	Al-Ayash, A., Kane, R. T., Smith, D., & Green-Armytage, P. (2016). The influence of color on student emotion, heart rate, and performance in learning environments. Color Research & Application, 41(2), 196-205.
[4]	Ali, M. (1972). Pattern of EEG recovery under photic stimulation by light of different colors. Electroencephalography and Clinical Neurophysiology, 33(3), 332-335. pmid: 4114919
[5]	Al-Karawi, D., & Jubair, L. (2016). Bright light therapy for nonseasonal depression: Meta-analysis of clinical trials. Journal of Affective Disorders, 198, 64-71. doi: 10.1016/j.jad.2016.03.016 pmid: 27011361
[6]	Alkozei, A., Smith, R., & Killgore, W. D. (2016). Exposure to blue wavelength light modulates anterior cingulate cortex activation in response to 'uncertain' versus 'certain' anticipation of positive stimuli. Neuroscience Letters, 616, 5-10. doi: 10.1016/j.neulet.2016.01.034 pmid: 26806862
[7]	Alotaibi, M., Halaki, M., & Chow, C.-M. (2015). A systematic review of light therapy on mood scores in major depressive disorder: Light specification, dose, timing and delivery. International Journal of Basic and Applied Sciences, 5(1).
[8]	Altimus, C. M., Guler, A. D., Villa, K. L., McNeill, D. S., Legates, T. A., & Hattar, S. (2008). Rods-cones and melanopsin detect light and dark to modulate sleep independent of image formation. Proceedings of the National Academy of Sciences of the United States of America, 105(50), 19998-20003.
[9]	An, K., Zhao, H., Miao, Y., Xu, Q., Li, Y.-F., Ma, Y.-Q., ... Xue, T. (2020). A circadian rhythm-gated subcortical pathway for nighttime-light-induced depressive-like behaviors in mice. Nature Neuroscience, 23(7), 869-880. doi: 10.1038/s41593-020-0640-8 URL
[10]	Anderson, J. L., Glod, C. A., Dai, J., Cao, Y., & Lockley, S. W. (2009). Lux vs. wavelength in light treatment of Seasonal Affective Disorder. Acta Psychiatrica Scandinavica, 120(3), 203-212. doi: 10.1111/j.1600-0447.2009.01345.x pmid: 19207131
[11]	Anderson, J. L., Hilaire, M. A., Auger, R. R., Glod, C. A., Crow, S. J., Rivera, A. N., ... Wolfe, D. J. (2016). Are short (blue) wavelengths necessary for light treatment of seasonal affective disorder? Chronobiology International, 33(9), 1267-1279. pmid: 27494399
[12]	Anderson, J. L., Rosen, L. N., Mendelson, W. B., Jacobsen, F. M., Skwerer, R. G., Joseph-vanderpool, J. R., ... Rosenthal, N. E. (1994). Sleep in fall/winter seasonal affective disorder: Effects of light and changing seasons. Journal of Psychosomatic Research, 38(4), 323-337. pmid: 8064650
[13]	Archer, S. N., Schmidt, C., Vandewalle, G., & Dijk, D. J. (2018). Phenotyping of PER3 variants reveals widespread effects on circadian preference, sleep regulation, and health. Sleep Medicine Reviews, 40, 109-126. doi: S1087-0792(17)30138-7 pmid: 29248294
[14]	Barassin, S., Raison, S., Saboureau, M., Bienvenu, C., Maître, M., Malan, A., & Pévet, P. (2002). Circadian tryptophan hydroxylase levels and serotonin release in the suprachiasmatic nucleus of the rat. European Journal of Neuroscience, 15(5), 833-840. doi: 10.1046/j.1460-9568.2002.01928.x URL
[15]	Baron, R. A., Rea, M. S., & Daniels, S. G. (1992). Effects of indoor lighting (illuminance and spectral distribution) on the performance of cognitive tasks and interpersonal behaviors: The potential mediating role of positive affect. Motivation and Emotion, 16(1), 1-33. doi: 10.1007/BF00996485 URL
[16]	Bauducco, S., Richardson, C., & Gradisar, M. (2020). Chronotype, circadian rhythms and mood. Current Opinion in Psychology, 34, 77-83. doi: S2352-250X(19)30159-9 pmid: 31786494
[17]	Bedrosian, T. A., Fonken, L. K., Walton, J. C., Haim, A., & Nelson, R. J. (2011). Dim light at night provokes depression-like behaviors and reduces CA1 dendritic spine density in female hamsters. Psychoneuroendocrinology, 36(7), 1062-1069. doi: 10.1016/j.psyneuen.2011.01.004 pmid: 21292405
[18]	Bedrosian, T. A., Galan, A., Vaughn, C. A., Weil, Z. M., & Nelson, R. J. (2013). Light at night alters daily patterns of cortisol and clock proteins in female Siberian hamsters. Journal of Neuroendocrinology, 25(6), 590-596. doi: 10.1111/jne.12036 pmid: 23489976
[19]	Benedetti, F., Colombo, C., Pontiggia, A., Bernasconi, A., Florita, M., & Smeraldi, E. (2003). Morning light treatment hastens the antidepressant effect of citalopram: A placebo-controlled trial. Journal of Clinical Psychiatry, 64(6), 648-653.
[20]	Benedetti, F., Barbini, B., Bernasconi, A., Fulgosi, M. C., Colombo, C., Dallaspezia, S., Gavinelli, C., Marino, E., Pirovano, A., Radaelli, D., & Smeraldi, E. (2008). Serotonin 5-HT2A receptor gene variants influence antidepressant response to repeated total sleep deprivation in bipolar depression. Progress in Neuro-Psychopharmacology and Biological Psychiatry, 32(8), 1863-1866. doi: 10.1016/j.pnpbp.2008.08.017 URL
[21]	Ben Simon, E., Vallat, R., Barnes, C. M., & Walker, M. P. (2020). Sleep loss and the socio-emotional brain. Trends in Cognitive Sciences, 24(6), 435-450. doi: S1364-6613(20)30055-3 pmid: 32299657
[22]	Berson, D. M., Dunn, F. A., & Takao, M. (2002). Phototransduction by retinal ganglion cells that set the circadian clock. Science, 295(5557), 1070-1073. pmid: 11834835
[23]	Bijleveld, E., & Knufinke, M. (2018). Exposure to bright light biases effort-based decisions. Behavioral Neuroscience, 132(3), 183-193. doi: 10.1037/bne0000244 pmid: 29809046
[24]	Boland, E. M., Rao, H., Dinges, D. F., Smith, R. V., Goel, N., Detre, J. A., ... Gehrman, P. R. (2017). Meta-analysis of the antidepressant effects of acute sleep deprivation. The Journal of Clinical Psychiatry, 78(8), e1020-e1034.
[25]	Brainard, G. C., Lewy, A. J., Menaker, M., Fredrickson, R. H., Miller, L. S., Weleber, R. G., ... Hudson, D. (1988). Dose-response relationship between light irradiance and the suppression of plasma melatonin in human volunteers. Brain research, 454(1-2), 212-218. doi: 10.1016/0006-8993(88)90798-6 URL
[26]	Brainard, G. C., Hanifin, J. P., Greeson, J. M., Byrne, B., Glickman, G., Gerner, E., & Rollag, M. D. (2001). Action spectrum for melatonin regulation in humans: Evidence for a novel circadian photoreceptor. Journal of Neuroscience, 21(16), 6405-6412. pmid: 11487664
[27]	Brown, T. M. (2020). Melanopic illuminance defines the magnitude of human circadian light responses under a wide range of conditions. Journal of Pineal Research, 69(1), e12655.
[28]	Campbell, S. S., Dawson, D., & Anderson, M. W. (1993). Alleviation of sleep maintenance insomnia with timed exposure to bright light. Journal of the American Geriatrics Society, 41(8), 829-836. pmid: 8340561
[29]	Castañeda, T. R., de Prado, B. M., Prieto, D., & Mora, F. (2003). Circadian rhythms of dopamine, glutamate and GABA in the striatum and nucleus accumbens of the awake rat: Modulation by light. Journal of Pineal Research, 36(3), 177-185. doi: 10.1046/j.1600-079X.2003.00114.x URL
[30]	Chang, C. H., Liu, C. Y., Chen, S. J., & Tsai, H. C. (2018). Efficacy of light therapy on nonseasonal depression among elderly adults: A systematic review and meta-analysis. Neuropsychiatric Disease and Treatment, 14, 3091-3102. doi: 10.2147/NDT URL
[31]	Chellappa, S. L., Viola, A. U., Schmidt, C., Bachmann, V., Gabel, V., Maire, M., ... Cajochen, C. (2012). Human melatonin and alerting response to blue-enriched light depend on a polymorphism in the clock gene PER3. Journal of Clinical Endocrinology and Metabolism, 97(3), E433. doi: 10.1210/jc.2011-2391 URL
[32]	Choukroun, J., & Geoffroy, P. A. (2019). Light therapy in mood disorders: A brief history with physiological insights. Chronobiology in Medicine, 1(1), 3-8. doi: 10.33069/cim.2018.0009 URL
[33]	Crupi, R., Mazzon, E., Marino, A., La Spada, G., Bramanti, P., Cuzzocrea, S., & Spina, E. (2010). Melatonin treatment mimics the antidepressant action in chronic corticosterone- treated mice. Journal of Pineal Research, 49(2), 123-129.
[34]	Cui, Z., Hao, L., & Xu, J. (2018). A study on the emotional and visual influence of the CICU luminous environment on patients and nurses. Journal of Asian Architecture and Building Engineering, 16(3), 625-632. doi: 10.3130/jaabe.16.625 URL
[35]	D'Agostino, A., Ferrara, P., Terzoni, S., Ostinelli, E. G., Carrara, C., Prunas, C., ... Destrebecq, A. (2020). Efficacy of triple chronotherapy in unipolar and bipolar depression: A systematic review of the available evidence. Journal of Affective Disorders, 276, 297-304. doi: S0165-0327(20)32440-X pmid: 32697712
[36]	Dallaspezia, S., & Benedetti, F. (2020). Antidepressant light therapy for bipolar patients: A meta-analyses. Journal of Affective Disorders, 274, 943-948. doi: S0165-0327(20)30675-3 pmid: 32664036
[37]	Deats, S. P., Adidharma, W., Lonstein, J. S., & Yan, L. (2014). Attenuated orexinergic signaling underlies depression-like responses induced by daytime light deficiency. Neuroscience, 272, 252-260. doi: 10.1016/j.neuroscience.2014.04.069 pmid: 24813431
[38]	Dijk, D.-J., & Archer, S. N. (2010). PERIOD3, circadian phenotypes, and sleep homeostasis. Sleep Medicine Reviews, 14(3), 151-160. doi: 10.1016/j.smrv.2009.07.002 URL
[39]	Dubocovich, M. L. (2007). Melatonin receptors: Role on sleep and circadian rhythm regulation. Sleep Medicine, 8, 34-42.
[40]	Eisenberg, D. P., Kohn, P. D., Baller, E. B., Bronstein, J. A., Masdeu, J. C., & Berman, K. F. (2010). Seasonal effects on human striatal presynaptic dopamine synthesis. Journal of Neuroscience, 30(44), 14691-14694. doi: 10.1523/JNEUROSCI.1953-10.2010 pmid: 21048126
[41]	Elliot, A. J., & Maier, M. A. (2014). Color psychology: Effects of perceiving color on psychological functioning in humans. Annual Review of Psychology, 65, 95-120. doi: 10.1146/psych.2013.65.issue-1 URL
[42]	Esaki, Y., Kitajima, T., Obayashi, K., Saeki, K., Fujita, K., & Iwata, N. (2019). Daytime light exposure in daily life and depressive symptoms in bipolar disorder: A cross-sectional analysis in the APPLE cohort. Journal of Psychiatric Research, 116, 151-156. doi: 10.1016/j.jpsychires.2019.06.010 URL
[43]	Falchi, F., Cinzano, P., Duriscoe, D., Kyba, C. C. M., Elvidge, C. D., Baugh, K., ... Furgoni, R. (2016). The new world atlas of artificial night sky brightness. Science Advances, 2(6), e1600377. doi: 10.1126/sciadv.1600377 URL
[44]	Fernandez, D. C., Fogerson, P. M., Lazzerini Ospri, L., Thomsen, M. B., Layne, R. M., Severin, D., ... Hattar, S. (2018). Light affects mood and learning through distinct retina-brain pathways. Cell, 175(1), 71-84.e18. doi: S0092-8674(18)31020-1 pmid: 30173913
[45]	Fifel, K., & Videnovic, A. (2018). Light therapy in Parkinson’s disease: Towards mechanism-based protocols. Trends in Neurosciences, 41(5), 252-254. doi: 10.1016/j.tins.2018.03.002 URL
[46]	Figueiro, M. G., Steverson, B., Heerwagen, J., Kampschroer, K., Hunter, C. M., Gonzales, K., ... Rea, M. S. (2017). The impact of daytime light exposures on sleep and mood in office workers. Sleep Health, 3(3), 204-215. doi: S2352-7218(17)30041-4 pmid: 28526259
[47]	Fisher, P. M., Madsen, M. K., Mc Mahon, B., Holst, K. K., Andersen, S. B., Laursen, H. R., ... Knudsen, G. M. (2014). Three-week bright-light intervention has dose-related effects on threat-related corticolimbic reactivity and functional coupling. Biological Psychiatry, 76(4), 332-339. doi: 10.1016/j.biopsych.2013.11.031 URL
[48]	Fisk, A. S., Tam, S. K. E., Brown, L. A., Vyazovskiy, V. V., Bannerman, D. M., & Peirson, S. N. (2018). Light and cognition: Roles for circadian rhythms, sleep, and arousal. Frontiers in Neurology, 9, 56. doi: 10.3389/fneur.2018.00056 URL
[49]	Fonken, L. K., Finy, M. S., Walton, J. C., Weil, Z. M., Workman, J. L., Ross, J., & Nelson, R. J. (2009). Influence of light at night on murine anxiety- and depressive-like responses. Behavioural Brain Research, 205(2), 349-354. doi: 10.1016/j.bbr.2009.07.001 pmid: 19591880
[50]	Freedman, M. S., Lucas, R. J., Soni, B., von Schantz, M., Muñoz, M., David-Gray, Z., & Foster, R. (1999). Regulation of mammalian circadian behavior by non-rod, non-cone, ocular photoreceptors. Science, 284(5413), 502-504. pmid: 10205061
[51]	Germain, A., & Kupfer, D. J. (2008). Circadian rhythm disturbances in depression. Human Psychopharmacology: Clinical and Experimental, 23(7), 571-585. doi: 10.1002/hup.v23:7 URL
[52]	Golden, R. N., Gaynes, B. N., Ekstrom, R. D., Hamer, R. M., Jacobsen, F. M., Suppes, T., ... Nemeroff, C. B. (2005). The efficacy of light therapy in the treatment of mood disorders: A review and meta-analysis of the evidence. American Journal of Psychiatry, 162(4), 656-662. doi: 10.1176/appi.ajp.162.4.656 URL
[53]	Gordijn, M. C. M., t Mannetje, D., & Meesters, Y. (2012). The effects of blue-enriched light treatment compared to standard light treatment in Seasonal Affective Disorder. Journal of Affective Disorders, 136(1-2), 72-80. doi: 10.1016/j.jad.2011.08.028 URL
[54]	Gorgulu, Y., & Caliyurt, O. (2009). Rapid antidepressant effects of sleep deprivation therapy correlates with serum BDNF changes in major depression. Brain research bulletin, 80(3), 158-162. doi: 10.1016/j.brainresbull.2009.06.016 URL
[55]	Guilding, C., & Piggins, H. D. (2007). Challenging the omnipotence of the suprachiasmatic timekeeper: Are circadian oscillators present throughout the mammalian brain? European Journal of Neuroscience, 25(11), 3195-3216. pmid: 17552989
[56]	Gupta, A., Sharma, P. K., Garg, V. K., Singh, A. K., & Mondal, S. C. (2013). Role of serotonin in seasonal affective disorder. European Review for Medical and Pharmacological Sciences, 17(1), 49-55. doi: 1251 pmid: 23329523
[57]	Hanford, N., & Figueiro, M. (2013). Light therapy and Alzheimer's disease and related dementia: Past, present, and future. Journal of Alzheimer's Disease, 33(4), 913-922. doi: 10.3233/JAD-2012-121645 URL
[58]	Harb, F., Hidalgo, M. P., & Martau, B. (2015). Lack of exposure to natural light in the workspace is associated with physiological, sleep and depressive symptoms. Chronobiology International, 32(3), 368-375. doi: 10.3109/07420528.2014.982757 URL
[59]	Hattar, S., Kumar, M., Park, A., Tong, P., Tung, J., Yau, K. W., & Berson, D. M. (2006). Central projections of melanopsin-expressing retinal ganglion cells in the mouse. Journal of Comparative Neurology, 497(3), 326-349. pmid: 16736474
[60]	Hattar, S., Liao, H. W., Takao, M., Berson, D. M., & Yau, K. W. (2002). Melanopsin-containing retinal ganglion cells: Architecture, projections, and intrinsic photosensitivity. Science, 295(5557), 1065-1070. pmid: 11834834
[61]	Hawes, B. K., Brunyé, T. T., Mahoney, C. R., Sullivan, J. M., & Aall, C. D. (2012). Effects of four workplace lighting technologies on perception, cognition and affective state. International Journal of Industrial Ergonomics, 42(1), 122-128. doi: 10.1016/j.ergon.2011.09.004 URL
[62]	Heils, A., Teufel, A., Petri, S., Stöber, G., Riederer, P., Bengel, D., & Lesch, K. P. (1996). Allelic variation of human serotonin transporter gene expression. Journal of Neurochemistry, 66(6), 2621-2624. pmid: 8632190
[63]	Huang, L., Xi, Y., Peng, Y., Yang, Y., Huang, X., Fu, Y., ... Ren, C. (2019). A visual circuit related to habenula underlies the antidepressive effects of light therapy. Neuron, 102(1), 128-142 e128. doi: S0896-6273(19)30064-9 pmid: 30795900
[64]	Huiberts, L. M., Smolders, K. C., & de Kort, Y. A. (2015). Shining light on memory: Effects of bright light on working memory performance. Behavioural Brain Research, 294, 234-245. doi: 10.1016/j.bbr.2015.07.045 pmid: 26215575
[65]	Huiberts, L. M., Smolders, K. C., & de Kort, Y. A. (2016). Non-image forming effects of illuminance level: Exploring parallel effects on physiological arousal and task performance. Physiology & Behavior, 164(Pt A),129-139. doi: 10.1016/j.physbeh.2016.05.035 URL
[66]	Jacobs, K. W, & Hustmyer, F. E., Jr. (1974). Effects of four psychological primary colors on GSR, heart rate and respiration rate. Perceptual and Motor Skills, 38(3), 763-766. pmid: 4842431
[67]	Jean-Louis, G., Kripke, D., Cohen, C., Zizi, F., & Wolintz, A. (2005). Associations of ambient illumination with mood: Contribution of ophthalmic dysfunctions. Physiology & Behavior, 84(3), 479-487. doi: 10.1016/j.physbeh.2005.01.011 URL
[68]	Jiang, L., Zhang, S., Wang, Y., So, K.-F., Ren, C., & Tao, Q. (2020). Efficacy of Light Therapy for a College Student Sample with Non-seasonal Subthreshold Depression: An RCT Study. Journal of Affective Disorders, 277, 443-449. doi: 10.1016/j.jad.2020.08.055 URL
[69]	Kapogiannatou, A., Paronis, E., Paschidis, K., Polissidis, A., & Kostomitsopoulos, N. G. (2016). Effect of light colour temperature and intensity on τhε behaviour of male C57CL/6J mice. Applied Animal Behaviour Science, 184, 135-140. doi: 10.1016/j.applanim.2016.08.005 URL
[70]	Kegel, M., Dam, H., Ali, F., & Bjerregaard, P. (2009). The prevalence of seasonal affective disorder (SAD) in Greenland is related to latitude. Nordic Journal of Psychiatry, 63(4), 331-335. doi: 10.1080/08039480902799040 URL
[71]	Kennedy, S. H., & Rizvi, S. J. (2010). Agomelatine in the treatment of major depressive disorder. CNS drugs, 24(6), 479-499. doi: 10.2165/11534420-000000000-00000 pmid: 20192279
[72]	Khaldy, H., León, J., Escames, G., Bikjdaouene, L., García, J. J., & Acuña-Castroviejo, D. (2002). Circadian rhythms of dopamine and dihydroxyphenyl acetic acid in the mouse striatum: Effects of pinealectomy and of melatonin treatment. Neuroendocrinology, 75(3), 201-208. pmid: 11914592
[73]	Kim, D. K., Ahn, S., Park, S., & Whang, M. (2013). Interactive emotional lighting system using physiological signals. IEEE Transactions on Consumer Electronics, 59(4), 765-771. doi: 10.1109/TCE.2013.6689687 URL
[74]	Knez, I. (2014). Affective and cognitive reactions to subliminal flicker from fluorescent lighting. Consciousness and Cognition, 26, 97-104. doi: 10.1016/j.concog.2014.02.006 URL
[75]	Knez, I., & Enmarker, I. (1998). Effects of office lighting on mood and cognitive performance and a gender effect in work-xrelated judgment. Environment and Behavior, 30(4), 553-567. doi: 10.1177/001391659803000408 URL
[76]	Knez, I., & Kers, C. (2000). Effects of indoor lighting, gender, and age on mood and cognitive performance. Environment and Behavior, 32(6), 817-831. doi: 10.1177/0013916500326005 URL
[77]	Kombeiz, O., & Steidle, A. (2018). Facilitation of creative performance by using blue and red accent lighting in work and learning areas. Ergonomics, 61(3), 456-463. doi: 10.1080/00140139.2017.1349940 pmid: 28662616
[78]	Kuller, R., Ballal, S., Laike, T., Mikellides, B., & Tonello, G. (2006). The impact of light and colour on psychological mood: A cross-cultural study of indoor work environments. Ergonomics, 49(14), 1496-1507. doi: 10.1080/00140130600858142 URL
[79]	Kurata, Y., Izawa, S., & Nomura, S. (2016). Seasonality in mood and behaviours of Japanese residents in high- latitude regions: Transnational cross-sectional study. BioPsychoSocial Medicine, 10(1), 33. doi: 10.1186/s13030-016-0084-2 URL
[80]	Kuse, Y., Ogawa, K., Tsuruma, K., Shimazawa, M., & Hara, H. (2014). Damage of photoreceptor-derived cells in culture induced by light emitting diode-derived blue light. Scientific Reports, 4, 5223. doi: 10.1038/srep05223 URL
[81]	Lam, R. W., Levitt, A. J., Levitan, R. D., Michalak, E. E., Cheung, A. H., Morehouse, R., ... Tam, E. M. (2016). Efficacy of bright light treatment, fluoxetine, and the combination in patients with nonseasonal major depressive disorder: A randomized clinical trial. JAMA Psychiatry, 73(1), 56-63. doi: 10.1001/jamapsychiatry.2015.2235 URL
[82]	Lambert, G. W., Reid, C., Kaye, D. M., Jennings, G. L., & Esler, M. D. (2002). Effect of sunlight and season on serotonin turnover in the brain. The Lancet, 360(9348), 1840-1842. doi: 10.1016/S0140-6736(02)11737-5 URL
[83]	Laufer, L., Lang, E., Izso, L., & Nemeth, E. (2009). Psychophysiological effects of coloured lighting on older adults. Lighting Research & Technology, 41(4), 371-378.
[84]	Leach, G., Adidharma, W., & Yan, L. (2013). Depression-like responses induced by daytime light deficiency in the diurnal grass rat (Arvicanthis niloticus). PLoS One, 8(2), e57115. doi: 10.1371/journal.pone.0057115 URL
[85]	LeGates, T. A., Altimus, C. M., Wang, H., Lee, H. K., Yang, S., Zhao, H., ... Hattar, S. (2012). Aberrant light directly impairs mood and learning through melanopsin-expressing neurons. Nature, 491(7425), 594-598. doi: 10.1038/nature11673 URL
[86]	LeGates, T. A., Fernandez, D. C., & Hattar, S. (2014). Light as a central modulator of circadian rhythms, sleep and affect. Nature Reviews Neuroscience, 15(7), 443-454. doi: 10.1038/nrn3743 pmid: 24917305
[87]	Leichtfried, V., Mair-Raggautz, M., Schaeffer, V., Hammerer- Lercher, A., Mair, G., Bartenbach, C., ... Schobersberger, W. (2015). Intense illumination in the morning hours improved mood and alertness but not mental performance. Applied Ergonomics, 46(Pt A),54-59. doi: 10.1016/j.apergo.2014.07.001 URL
[88]	Li, X., & Li, X. (2018). The Antidepressant Effect of Light Therapy from Retinal Projections. Neuroscience Bulletin, 34(2), 359-368. doi: 10.1007/s12264-018-0210-1 URL
[89]	Lieverse, R., van Someren, E. J. W., Nielen, M. M. A., Uitdehaag, B. M. J., Smit, J. H., & Hoogendijk, W. J. G. (2011). Bright light treatment in elderly patients with nonseasonal major depressive disorder: A randomized placebo-controlled trial. Archives of General Psychiatry, 68(1), 61-70. doi: 10.1001/archgenpsychiatry.2010.183 URL
[90]	Loving, R. T., Kripke, D. F., Knickerbocker, N. C., & Grandner, M. A. (2005). Bright green light treatment of depression for older adults [ISRCTN69400161]. BMC Psychiatry, 5, 42. doi: 10.1186/1471-244X-5-42 URL
[91]	Low, K. G., & Feissner, J. M. (1998). Seasonal affective disorder in college students: Prevalence and latitude. Journal of American College Health, 47(3), 135-137. pmid: 9830820
[92]	Lu, C., Wang, Y., & Zhang, Y. (2016). Light deprivation produces a sexual dimorphic effect on neural excitability and depression-like behavior in mice. Neuroscience Letters, 633, 69-76. doi: 10.1016/j.neulet.2016.09.013 URL
[93]	Lupi, D., Oster, H., Thompson, S., & Foster, R. G. (2008). The acute light-induction of sleep is mediated by OPN4-based photoreception. Nature Neuroscience, 11(9), 1068-1073. doi: 10.1038/nn.2179 URL
[94]	Magnusson, A., & Boivin, D. (2003). Seasonal affective disorder: An overview. Chronobiology International, 20(2), 189-207. pmid: 12723880
[95]	Maier, J., Zierke, O., Hoermann, H.-J., & Windemut, I. (2016). Subjectivity of Lighting Perception and Comfort: The Role of Preferences and Expectations. Environment and Behavior, 49(10), 1105-1127. doi: 10.1177/0013916516678905 URL
[96]	Malek, Z. S., Dardente, H., Pevet, P., & Raison, S. (2005). Tissue-specific expression of tryptophan hydroxylase mRNAs in the rat midbrain: Anatomical evidence and daily profiles. European Journal of Neuroscience, 22(4), 895-901. doi: 10.1111/ejn.2005.22.issue-4 URL
[97]	Maruani, J., & Geoffroy, P. A. (2019). Bright light as a personalized precision treatment of mood disorders. Frontiers in Psychiatry, 10, 85. doi: 10.3389/fpsyt.2019.00085 pmid: 30881318
[98]	McCloughan, C., Aspinall, P., & Webb, R. (1999). The impact of lighting on mood. International Journal of Lighting Research and Technology, 31(3), 81-88.
[99]	McClung, C. A. (2013). How might circadian rhythms control mood? Let me count the ways. Biological Psychiatry, 74(4), 242-249. doi: 10.1016/j.biopsych.2013.02.019 URL
[100]	Metz, A. J., Klein, S. D., Scholkmann, F., & Wolf, U. (2017). Continuous coloured light altered human brain haemodynamics and oxygenation assessed by systemic physiology augmented functional near-infrared spectroscopy. Scientific Reports, 7(1), 10027. doi: 10.1038/s41598-017-09970-z pmid: 28855556
[101]	Mills, P. R., Tomkins, S. C., & Schlangen, L. J. (2007). The effect of high correlated colour temperature office lighting on employee wellbeing and work performance. The Journal of Circadian Rhythms, 5, 2. doi: 10.1186/1740-3391-5-2 URL
[102]	Min, J.-Y., & Min, K.-B. (2018). Outdoor light at night and the prevalence of depressive symptoms and suicidal behaviors: A cross-sectional study in a nationally representative sample of Korean adults. Journal of Affective Disorders, 227, 199-205. doi: 10.1016/j.jad.2017.10.039 URL
[103]	Mitolo, M., Tonon, C., La Morgia, C., Testa, C., Carelli, V., & Lodi, R. (2018). Effects of light treatment on sleep, cognition, mood, and behavior in Alzheimer's disease: A systematic review. Dementia and Geriatric Cognitive Disorders, 46(5-6), 371-384.
[104]	Monje, F. J., Cabatic, M., Divisch, I., Kim, E. J., Herkner, K. R., Binder, B. R., & Pollak, D. D. (2011). Constant darkness induces IL-6-dependent depression-like behavior through the NF-kappaB signaling pathway. Journal of Neuroscience, 31(25), 9075-9083. doi: 10.1523/JNEUROSCI.1537-11.2011 URL
[105]	Moore, R. Y., Speh, J. C., & Leak, R. K. (2002). Suprachiasmatic nucleus organization. Cell and Tissue Research, 309(1), 89-98. doi: 10.1007/s00441-002-0575-2 URL
[106]	Mure, L. S., Vinberg, F., Hanneken, A., & Panda, S. (2019). Functional diversity of human intrinsically photosensitive retinal ganglion cells. Science, 366(6470), 1251-1255. doi: 10.1126/science.aaz0898 URL
[107]	Nagare, R., Plitnick, B., & Figueiro, M. G. (2019). Effect of exposure duration and light spectra on nighttime melatonin suppression in adolescents and adults. Lighting Research & Technology, 51(4), 530-543.
[108]	Nestler, E. J., & Hyman, S. E. (2010). Animal models of neuropsychiatric disorders. Nature neuroscience, 13(10), 1161. doi: 10.1038/nn.2647 pmid: 20877280
[109]	Obayashi, K., Saeki, K., Iwamoto, J., Ikada, Y., & Kurumatani, N. (2013). Exposure to light at night and risk of depression in the elderly. Journal of Affective Disorders, 151(1), 331-336. doi: 10.1016/j.jad.2013.06.018 pmid: 23856285
[110]	Paksarian, D., Rudolph, K. E., Stapp, E. K., Dunster, G. P., He, J., Mennitt, D., ... Merikangas, K. R. (2020). Association of outdoor artificial light at night with mental disorders and sleep patterns among US adolescents. JAMA Psychiatry. 77(12), 1266-1275.
[111]	Pereira, J. C., Jr., Pradella Hallinan, M., & Alves, R. C. (2017). Secondary to excessive melatonin synthesis, the consumption of tryptophan from outside the blood-brain barrier and melatonin over-signaling in the pars tuberalis may be central to the pathophysiology of winter depression. Medical Hypotheses, 98, 69-75. doi: S0306-9877(16)30186-4 pmid: 28012610
[112]	Perera, S., Eisen, R., Bhatt, M., Bhatnagar, N., de Souza, R., Thabane, L., & Samaan, Z. (2016). Light therapy for non- seasonal depression: Systematic review and meta-analysis. BJPsych Open, 2(2), 116-126. doi: 10.1192/bjpo.bp.115.001610 URL
[113]	Prayag, A. S., Jost, S., Avouac, P., Dumortier, D., & Gronfier, C. (2019). Dynamics of non-visual responses in humans: As fast as lightning? Frontiers in Neuroscience, 13, 126. doi: 10.3389/fnins.2019.00126 URL
[114]	Prayag, A. S., Munch, M., Aeschbach, D., Chellappa, S. L., & Gronfier, C. (2019). Light modulation of human clocks, wake, and sleep. Clocks Sleep, 1(1), 193-208. doi: 10.3390/clockssleep1010017 URL
[115]	Prendergast, B. J., & Nelson, R. J. (2005). Affective responses to changes in day length in Siberian hamsters (Phodopus sungorus). Psychoneuroendocrinology, 30(5), 438-452. pmid: 15721056
[116]	Provencio, I., Rodriguez, I. R., Jiang, G., Hayes, W. P., Moreira, E. F., & Rollag, M. D. (2000). A novel human opsin in the inner retina. Journal of Neuroscience, 20(2), 600-605. pmid: 10632589
[117]	Quartier, K., Vanrie, J., & van Cleempoel, K. (2014). As real as it gets: What role does lighting have on consumer's perception of atmosphere, emotions and behaviour? Journal of Environmental Psychology, 39, 32-39. doi: 10.1016/j.jenvp.2014.04.005 URL
[118]	Rajae-Joordens, R. J. E. (2010). The Effects of Colored Light on Valence and Arousal. Sensing Emotions (pp.65-84).
[119]	Ramírez-Rodríguez, G., Klempin, F., Babu, H., Benítez-King, G., & Kempermann, G. (2009). Melatonin modulates cell survival of new neurons in the hippocampus of adult mice. Neuropsychopharmacology, 34(9), 2180-2191. doi: 10.1038/npp.2009.46 pmid: 19421166
[120]	Rosen, L. N., & Rosenthal, N. E. (1991). Seasonal variations in mood and behavior in the general population: A factor- analytic approach. Psychiatry Research, 38(3), 271-283. pmid: 1754639
[121]	Rosenthal, N. E., Mazzanti, C. M., Barnett, R. L., Hardin, T. A., Turner, E. H., Lam, G. K., ... Goldman, D. (1998). Role of serotonin transporter promoter repeat length polymorphism (5-HTTLPR) in seasonality and seasonal affective disorder. Molecular Psychiatry, 3(2), 175-177. pmid: 9577843
[122]	Rosenthal, N. E., Sack, D. A., Gillin, J. C., Lewy, A. J., Goodwin, F. K., Davenport, Y., ... Wehr, T. A. (1984). Seasonal affective disorder: A description of the syndrome and preliminary findings with light therapy. Archives of General Psychiatry, 41(1), 72-80. pmid: 6581756
[123]	Ru, T., de Kort, Y. A. W., Smolders, K. C. H. J., Chen, Q., & Zhou, G. (2019). Non-image forming effects of illuminance and correlated color temperature of office light on alertness, mood, and performance across cognitive domains. Building and Environment, 149, 253-263. doi: 10.1016/j.buildenv.2018.12.002 URL
[124]	Schmidt, T. M., Chen, S. K., & Hattar, S. (2011). Intrinsically photosensitive retinal ganglion cells: Many subtypes, diverse functions. Trends in Neurosciences, 34(11), 572-580. doi: 10.1016/j.tins.2011.07.001 URL
[125]	Segal, A. Y., Sletten, T. L., Flynn-Evans, E. E., Lockley, S. W., & Rajaratnam, S. M. (2016). Daytime exposure to short- and medium-wavelength light did not improve alertness and neurobehavioral performance. Journal of Biological Rhythms, 31(5), 470-482. doi: 10.1177/0748730416659953 URL
[126]	Sit, D., & Haigh, S. (2019). Use of "Lights" for Bipolar Depression. Current Psychiatry Reports, 21(6), 45. doi: 10.1007/s11920-019-1025-0 URL
[127]	Smith, S., & Spiridon, E. (2018). Influence of ambient light and feedback on motivation to carry out a task: Implications for operation of unmanned aircraft. International Journal of Unmanned Systems Engineering, 7(1), 12-23.
[128]	Smolders, K. C., de Kort, Y. A., & Cluitmans, P. J. (2012). A higher illuminance induces alertness even during office hours: Findings on subjective measures, task performance and heart rate measures. Physiology & Behavior, 107(1), 7-16. doi: 10.1016/j.physbeh.2012.04.028 URL
[129]	Smolders, K. C. H. J., & de Kort, Y. A. W. (2014). Bright light and mental fatigue: Effects on alertness, vitality, performance and physiological arousal. Journal of Environmental Psychology, 39, 77-91. doi: 10.1016/j.jenvp.2013.12.010 URL
[130]	Smolders, K. C. H. J., & de Kort, Y. A. W. (2017). Investigating daytime effects of correlated colour temperature on experiences, performance, and arousal. Journal of Environmental Psychology, 50, 80-93. doi: 10.1016/j.jenvp.2017.02.001 URL
[131]	Spindelegger, C., Stein, P., Wadsak, W., Fink, M., Mitterhauser, M., Moser, U., ... Lanzenberger, R. (2012). Light- dependent alteration of serotonin-1A receptor binding in cortical and subcortical limbic regions in the human brain. The World Journal of Biological Psychiatry, 13(6), 413-422. doi: 10.3109/15622975.2011.630405 pmid: 22111663
[132]	Stephenson, K. M., Schroder, C. M., Bertschy, G., & Bourgin, P. (2012). Complex interaction of circadian and non- circadian effects of light on mood: Shedding new light on an old story. Sleep Medicine Reviews, 16(5), 445-454. doi: 10.1016/j.smrv.2011.09.002 pmid: 22244990
[133]	Strong, R. E., Marchant, B. K., Reimherr, F. W., Williams, E., Soni, P., & Mestas, R. (2009). Narrow-band blue-light treatment of seasonal affective disorder in adults and the influence of additional nonseasonal symptoms. Depression and Anxiety, 26(3), 273-278. doi: 10.1002/da.v26:3 URL
[134]	Tan, D. X., Xu, B., Zhou, X., & Reiter, R. J. (2018). Pineal calcification, melatonin production, aging, associated health consequences and rejuvenation of the pineal gland. Molecules, 23(2), 301. doi: 10.3390/molecules23020301 URL
[135]	Tantanatewin, W., & Inkarojrit, V. (2016). Effects of color and lighting on retail impression and identity. Journal of Environmental Psychology, 46, 197-205. doi: 10.1016/j.jenvp.2016.04.015 URL
[136]	Tapia-Osorio, A., Salgado-Delgado, R., Angeles-Castellanos, M., & Escobar, C. (2013). Disruption of circadian rhythms due to chronic constant light leads to depressive and anxiety- like behaviors in the rat. Behavioural Brain Research, 252, 1-9. doi: 10.1016/j.bbr.2013.05.028 pmid: 23714074
[137]	Tsai, H.-Y., Chen, K. C., Yang, Y. K., Chen, P. S., Yeh, T. L., Chiu, N. T., & Lee, I. H. (2011). Sunshine-exposure variation of human striatal dopamine D₂/D₃ receptor availability in healthy volunteers. Progress in Neuro- Psychopharmacology and Biological Psychiatry, 35(1), 107-110. doi: 10.1016/j.pnpbp.2010.09.014 URL
[138]	Tsai, J. W., Hannibal, J., Hagiwara, G., Colas, D., Ruppert, E., Ruby, N. F., ... Bourgin, P. (2009). Melanopsin as a sleep modulator: Circadian gating of the direct effects of light on sleep and altered sleep homeostasis in Opn4^-/- mice. PLoS Biology, 7(6), e1000125. doi: 10.1371/journal.pbio.1000125 URL
[139]	Tseng, P. T., Chen, Y. W., Tu, K. Y., Chung, W., Wang, H. Y., Wu, C. K., & Lin, P. Y. (2016). Light therapy in the treatment of patients with bipolar depression: A meta-analytic study. European Neuropsychopharmacology, 26(6), 1037-1047. doi: 10.1016/j.euroneuro.2016.03.001 URL
[140]	Vandewalle, G., Hebert, M., Beaulieu, C., Richard, L., Daneault, V., Garon, M. L., ... Carrier, J. (2011). Abnormal hypothalamic response to light in seasonal affective disorder. Biological Psychiatry, 70(10), 954-961. doi: 10.1016/j.biopsych.2011.06.022 pmid: 21820647
[141]	Vandewalle, G., Maquet, P., & Dijk, D. J. (2009). Light as a modulator of cognitive brain function. Trends in Cognitive Sciences, 13(10), 429-438. doi: 10.1016/j.tics.2009.07.004 pmid: 19748817
[142]	Vandewalle, G., Schwartz, S., Grandjean, D., Wuillaume, C., Balteau, E., Degueldre, C., ... Maquet, P. (2010). Spectral quality of light modulates emotional brain responses in humans. Proceedings of the National Academy of Sciences of the United States of America, 107(45), 19549-19554. doi: 10.1073/pnas.1010180107 pmid: 20974959
[143]	Veenstra, L., & Koole, S. L. (2018). Disarming darkness: Effects of ambient lighting on approach motivation and state anger among people with varying trait anger. Journal of Environmental Psychology, 60, 34-40. doi: 10.1016/j.jenvp.2018.07.005 URL
[144]	Videnovic, A., Klerman, E. B., Wang, W., Marconi, A., Kuhta, T., & Zee, P. C. (2017). Timed light therapy for sleep and daytime sleepiness associated with Parkinson disease: A randomized clinical trial. JAMA Neurology, 74(4), 411-418. doi: 10.1001/jamaneurol.2016.5192 URL
[145]	Wehr, T. A. (1997). Melatonin and seasonal rhythms. Journal of biological rhythms, 12(6), 518-527. pmid: 9406025
[146]	Wei, M., Houser, K. W., Orland, B., Lang, D. H., Ram, N., Sliwinski, M. J., & Bose, M. (2014). Field study of office worker responses to fluorescent lighting of different CCT and lumen output. Journal of Environmental Psychology, 39, 62-76. doi: 10.1016/j.jenvp.2014.04.009 URL
[147]	Weiner, N., Clement, H.-W., Gemsa, D., & Wesemann, W. (1992). Circadian and seasonal rhythms of 5-HT receptor subtypes, membrane anisotropy and 5-HT release in hippocampus and cortex of the rat. Neurochemistry international, 21(1), 7-14. pmid: 1363861
[148]	Willeit, M., Praschak-Rieder, N., Neumeister, A., Zill, P., Leisch, F., Stastny, J., ... Kasper, S. (2003). A polymorphism (5-HTTLPR) in the serotonin transporter promoter gene is associated with DSM-IV depression subtypes in seasonal affective disorder. Molecular Psychiatry, 8(11), 942-946. pmid: 14593433
[149]	Willis, G. L., Moore, C., & Armstrong, S. M. (2012). A historical justification for and retrospective analysis of the systematic application of light therapy in Parkinson’s disease. Reviews in the Neurosciences, 23(2), 199-226.
[150]	Wilms, L., & Oberfeld, D. (2018). Color and emotion: Effects of hue, saturation, and brightness. Psychological Research, 82(5), 896-914. doi: 10.1007/s00426-017-0880-8 pmid: 28612080
[151]	Wilson, G. D. (1966). Arousal properties of red versus green. Perceptual and Motor Skills, 23(3), 947-949. doi: 10.2466/pms.1966.23.3.947 URL
[152]	Wirz-Justice, A., Ajdacic, V., Rössler, W., Steinhausen, H.-C., & Angst, J. (2019). Prevalence of seasonal depression in a prospective cohort study. European Archives of Psychiatry and Clinical Neuroscience, 269(7), 833-839. doi: 10.1007/s00406-018-0921-3 pmid: 30022319
[153]	Voderholzer, U., Fiebich, B. L., Dersch, R., Feige, B., Piosczyk, H., Kopasz, M., Riemann, D., & Lieb, K. (2012). Effects of sleep deprivation on nocturnal cytokine concentrations in depressed patients and healthy control subjects. The Journal of Neuropsychiatry and Clinical Neurosciences, 24(3), 354-366. doi: 10.1176/appi.neuropsych.11060142 pmid: 23037650
[154]	Yokoyama, M., Chang, H., Anzai, H., & Kato, M. (2019). Effects of different light sources on neural activity of the paraventricular nucleus in the hypothalamus. Medicina, 55(11), 732. doi: 10.3390/medicina55110732 URL
[155]	Yoshiike, T., Honma, M., Yamada, N., Kim, Y., & Kuriyama, K. (2018). Effects of bright light exposure on human fear conditioning, extinction, and associated prefrontal activation. Physiology & Behavior, 194, 268-276. doi: 10.1016/j.physbeh.2018.06.015 URL
[156]	Zhao, X., Ma, J., Wu, S., Chi, I., & Bai, Z. (2018). Light therapy for older patients with non-seasonal depression: A systematic review and meta-analysis. Journal of Affective Disorders, 232, 291-299. doi: S0165-0327(17)31458-1 pmid: 29500957
[157]	Zhou, Y., Zhang, H. K., Liu, F., Lei, G., Liu, P., Jiao, T., & Dang, Y. H. (2018). Altered light conditions contribute to abnormalities in emotion and cognition through HINT1 dysfunction in C57BL/6 mice. Frontiers in Behavioral Neuroscience, 12, 110. doi: 10.3389/fnbeh.2018.00110 URL