The Science of Food Colors
Updated: Dec 23, 2019
This past week I ran across an article from 2016 by Deanna Minich, PhD called, “The Science of Food Colors.” You can listen to the full article on my podcast here https://yopistudio.podbean.com/e/the-science-of-food-colors/. If you prefer to read the briefing of it along with the references, you can read it below.
If you find yourself in a mid-day slump, try switching to a red light or a room with red walls. A 2014 article published in the Conference Proceedings of the Engineering in Medicine and Biology Society found that when participants were put in a room with red light, they had a higher level of brain activity associated with “alertness, agitation, mental activity, and general activation of mind and body functions.” They also were more likely to feel “vigor.”
Orange foods, like carrots and sweet potatoes, get their color from carotenoids like beta-carotene, which may play an important role in reproduction. An area of animal research indicates that beta-carotene concentrates in the corpus luteum (a developing egg in the ovary), where it plays a role in ovulation by assisting with the production of progesterone. Animal studies likewise suggest that beta-carotene supplementation supports ovarian activity and progesterone synthesis in goats.
Polish scientists have discovered that uterine tissues contain beta-carotene, while a 2014 study published in the journal Fertility and Sterility suggests that when women boost their beta-carotene intake, their chances of becoming pregnant seem to improve.
Yellow is a curious color. It seems to be the color that most people are drawn to, and the one that is most correlated with a normal mood, according to researchers at the University of Manchester. The yellow-colored pigment, lutein, is known to collect in certain tissues of the body, specifically the macula, as well as the skin and in breast tissue. There are several studies that show that healthy yellow foods, like slow-burning carbohydrates, generate energy. A study conducted in Oxford, England, found that yellow mustard bran helped a group of young, active men have a better post-meal response to glucose after eating potato and leek soup compared to eating the soup by itself. Likewise, a Canadian study found that whole yellow pea flour— a complex carbohydrate— helped overweight people improve their use of insulin.
Researchers have discovered some fascinating links associating the color green with the heart. For example, an Austrian experiment found that exposing people to green fluorescent light seemed to have a soothing effect on their hearts, affecting heart rate variability (HRV). People who endure continual worry and anxiety seem to have decreased HRV, which is also associated with a number of disorders, including congestive heart failure and depression. If exposure to green light increases HRV, we can imagine that has heart-protective effects and might help to heal grief. Moreover, if green light changes vasculature, then it stands to reason that other conditions involving the vasculature would be impacted by it. In support of this concept, a study was just published indicating that migraine severity is reduced in the presence of green light.
The color blue has powerful effects on the brain and memory. A 2008 British study found that exposing workers to blue-enriched white light improved self-reported alertness, performance, and sleep quality. Similarly, an Australian experiment discovered that exposure to blue light made experimental subjects less sleepy as they tried to complete prolonged tasks during the night. A recent study published in May 2016 showed that people performed better on a working memory task and had greater activation in the prefrontal regions of the brain after being in a blue-lit room for thirty minutes compared with being in a room with amber light.
The color white has been the focus of promising research about depression. In 2011, Dutch psychiatric researchers found that both blue-enriched white light and bright white light might possibly be effective in treating SAD. Furthermore, a 2004 Danish study affirmed that bright light could perhaps be a helpful treatment even in non-seasonal depression when used in conjunction with antidepressants. A University of California, San Diego study also found that bright light therapy combined with antidepressants and “wake therapy” could be effective in treating depression.
White light may also be part of the fruit and vegetables that we eat. A recent study found that extracts from pomegranate and turmeric emitted almost pure white light emission. The researchers discovered that light was mostly emitting from the active ingredients in the foods – polyphenols and anthocyanins in pomegranate, and curcumin in turmeric. If white light can have a healing effect outside the body, think about the potential of eating white light-emitting foods!
As you can see, color offers so much more than visual beauty. By eating a spectrum of naturally-occurring colors, and infusing colors in our surroundings, we can truly harness the power of the rainbow to guide ourselves to full-spectrum health.
Here is a brief list of how to eat the rainbow.
Red: Pomegranate, Strawberry, Beet
Orange: Apricot, Carrot, Orange
Yellow: Lemon, Pineapple
Green: Broccoli, Kale, Mint
Blue: Blueberry, Bilberry
White: Coconut, Banana, Cauliflower
Sroykham, W., J. Wongsathikun, and Y. Wongsawat. “The Effects of Perceiving Color in Living Environment on QEEG, Oxygen Saturation, Pulse Rate, and Emotion Regulation in Humans.” Conference Proceedings: IEEE Engineering in Medicine and Biology Society 2014 (2014): 6226– 29. doi:10.1109/EMBC.2014.6945051.
O’Fallon, J. V., and B. P. Chew. “The Subcellular Distribution of Beta- Carotene in Bovine Corpus Luteum.” Proceedings of the Society for Experimental Biology and Medicine 177, no. 3 (1984): 406–11.
Arellano- Rodriguez, G., C. A. Meza- Herrera, R. Rodriguez- Martinez, R. Dionisio- Tapia, D. M. Hallford, M. Mellado, and A. Gonzalez- Bulnes. “Short- Term Intake of Beta- Carotene- Supplemented Diets Enhances Ovarian Function and Progesterone Synthesis in Goats.” Journal of Animal Physiology and Animal Nutrition (Berlin) 93, no. 6 (2009): 710–15. doi:10.1111/ j.1439-0396.2008.00859.x.
Meza- Herrera, C. A., F. Vargas- Beltran, H. P. Vergara- Hernandez, U. Macias- Cruz, L. Avendaño- Reyes, R. Rodriguez-Martinez, G. Arellano- Rodriguez, and F. G. Veliz- Deras. “Betacarotene Supplementation Increases Ovulation Rate Without an Increment in LH Secretion in Cyclic Goats.” Reproductive Biology 13, no. 1 (2013): 51–57. doi:10.1016/j.repbio.2013.01.171.
Czeczuga-Semeniuk E, Wołczyński S. Dietary carotenoids in normal and pathological tissues of corpus uteri. Folia Histochem Cytobiol.2008;46(3):283-90. doi: 10.2478/v10042-008- 0040-5.
Ruder, E. H., T. J. Hartman, R. H. Reindollar, and M. B. Goldman. “Female Dietary Antioxidant Intake and Time to Pregnancy Among Couples Treated for Unexplained Infertility.” Fertility and Sterility 101, no. 3 (2014): 759–66.doi:10.1016/j.fertnstert.2013.11.008.
Carruthers HR, Morris J, Tarrier N, Whorwell PJ. The Manchester Color Wheel: development of a novel way of identifying color choice and its validation in healthy, anxious and depressed individuals. BMC Med Res Methodol. 2010 Feb 9;10:12. doi:10.1186/1471-2288- 10-12.
Lett, A. M., P. S. Thondre, and A. J. Rosenthal. “Yellow Mustard Bran Attenuates Glycaemic Response of a Semi- Solid Food in Young Healthy Men.” International Journal of Food Sciences and Nutrition 64, no. 2 (2013): 140–46.doi:10.3109/09637486.2012.728201.
Marinangeli, C. P., and P. J. Jones. “Whole and Fractionated Yellow Pea Flours Reduce Fasting Insulin and Insulin Resistance in Hypercholesterolaemic and Overweight Human Subjects.” British Journal of Nutrition 105, no. 1 (2011): 110–17.doi:10.1017/S0007114510003156.
Schäfer, A., and K. W. Kratky. “The Effect of Colored Illumination on Heart Rate Variability.” Forschende Komplementärmedizin 13, no. 3 (2006): 167–73.
[No authors listed]. Photophobia in migraine does not apply to green light, which may lessen headache severity. Nurs Stand. 2016 Jun 8;30(41):14-5. doi: 10.7748/ns.30.41.14.s17.
Viola, A. U., L. M. James, L. J. Schlangen, and D. J. Dijk. “Blue- Enriched White Light in the Workplace Improves Self- Reported Alertness, Performance and Sleep Quality.” Scandinavian Journal of Work, Environment and Health 34, no. 4 (2008): 297–30
Phipps- Nelson, J., J. R. Redman, L. J. Schlangen, and S. M. Rajaratnam. “Blue Light Exposure Reduces Objective Measures of Sleepiness During Prolonged Nighttime Performance Testing.” Chronobiology International 26, no. 5 (2009): 891–912.doi:10.1080 /07420520903044364.
Alkozei A, Smith R, Pisner DA, Vanuk JR, Markowski SM, Fridman A, Shane BR, Knight SA, Killgore WD. Exposure to Blue Light Increases Subsequent Functional Activation of the Prefrontal Cortex During Performance of a Working Memory Task. Sleep. 2016 May 25. pii:sp-00684- 15. [Epub ahead of print]
Meesters, Y., V. Dekker, L. J. Schlangen, E. H. Bos, and M. J. Ruiter. “Low- Intensity Blue- Enriched White Light (750 Lux) and Standard Bright Light (10,000 Lux) Are Equally Effective in Treating SAD. A Randomized Controlled Study.” BMC Psychiatry 11(2011): 17. doi:10.1186/1471- 244X- 11- 17.
Martiny, K. “Adjunctive Bright Light in Non- Seasonal Major Depression.” Acta Psychiatrica Scandinavica: Supplementum 425(2004): 7–28.
Loving, R. T., D. F. Kripke, and S. R. Shuchter. “Bright Light Augments Antidepressant Effects of Medication and Wake Therapy.” Depression and Anxiety 16, no. 1 (2002): 1–3.
Mishra, A. K., and V. Singh. "White Light Emission from Vegetable Extracts." (2015).
Originally published: 2016-06-15
Article updated: 2019-04-15