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Why Does Peanut Butter Appear Green To Some People?

Red/Green color blindness, in which either the Red sensing L cones and/or the Green sensing M cones are defective, results in an overlap of their sensitivity, making it difficult to distinguish between shades of red and green. This means that peanut butter can appear green, while ripe and unripe bananas can look the same for these individuals.

Ever heard of green peanut butter? Wait. Don’t roll your eyes. I’m not talking about some new age organic peanut butter. Rather, I mean acual green-colored peanut butter!

If you’ve seen the viral video of a guy seeing peanut butter as green, you know what I’m referring to. If you thought peanut butter was green, you’re a minority; for most people, peanut butter is a sandy brown. Also, you might want to visit your ophthalmologist.

Nothing to freak out about, but you might be suffering from Color Vision Deficiency (CVD), colloquially known as color blindness.

And here’s the science behind it.

What Is Color?

In the simplest manner of speaking, color is all in our heads. It isn’t a physical property of any substance, but rather a perception of the objects in our minds. Click here to find out more about this mind-bending fact!

white reflects all colors of light

The perception of color. In the plant on the right, the leaves appear green, while the flowers appear red, as those colors reflect off their respective surfaces (Photo Credit : -Designua/Shutterstock)

The color we see around us is a summation of the light that falls on it, the wavelengths absorbed by it, and the wavelengths reflected off it.

How Do We See Color?

When wavelengths reflect off any object, they fall onto our retina, a thin layer at the back of our eye.

Briefly, the retina is composed of a few layers. The layer that helps us see color has a specialized group of cells called cones that detect specific wavelengths of light. There are three subtypes—Short (S), Medium (M) and Long (L)-wavelength sensitive—which have overlapping ranges of detectable wavelengths. Based on the range of wavelengths detected by each subtype, they are called Red-, Green- and Blue-sensitive cones, respectively.

Essentially, they detect the three primary colors.

Remember primary school color mixing and finger painting?

If all these cone cells are present in normal proportions, they can reproduce any color from these three primary colors, giving you trichromatic color vision. This makes peanut butter appear brown, bananas and lemons yellow, and the sky blue.

The perception of color. In the plant on the right, the leaves appear green while the flowers appear red because those colors reflect off their respective surfaces

The thin layer at the back of the eye, the retina, has 2 different types of cells to absorb light. The rods regulate the brightness of light absorbed. The cones absorb the different wavelengths of light, namely the color we see. (Photo Credit : -Designua/Shutterstock)

But Why Is My Peanut Butter Green?

Now, if any of these cone cells are not in their adequate proportion or are not performing their appropriate function, it results in Color Vision Deficiency, more commonly called color blindness.

wavelength

The graph above shows the different ranges of wavelengths that each photoreceptor cell in the retina absorbs light at. You can see that the red and green curves overlap with each other. Hence, a defect in any one or both will make it hard to differentiate between the two. (Photo Credit : CNX OpenStax/Wikimedia Commons)

The most common color blindness is red/green color blindness, which happens because the red-sensing L cones and/or the green-sensing M cones are defective. The wavelength sensitivity of the cones overlap, which makes it difficult for individuals with the condition to distinguish red and green tones as a whole, or even as a part of the color.

Thus, peanut butter appears green, ripe and unripe bananas look the same, and crossing the road can mean living life on the edge!

Is It Just Peanut Butter?

Based on the type and number of defective cones, there can be different types of CVD. Keeping in mind that normal 3D color vision is trichromatic, the variations include:

Anomalous trichromacy, where one of the three cones is slightly defective, but not completely lost.

Dichromacy, where one of the three cones is completely absent or dysfunctional.

Monochromacy, where 2 or 3 of the cones are completely lost, resulting in single-color vision. This is the most severe and rarest form of color blindness.

People who have blue color blindness find it hard to distinguish shades between blue and red. The famous ‘blue dress’ is another great example of color blindness that caused a storm on the internet.

Color of the Dress

Conduct a little survey and find out how many people see this dress in different colors! (Image Source: http://www.wired.com)

What Causes Color Blindness?

Most reported cases of CVD are hereditary, due to some genetic mutation that affects the functioning of one or more of the cones. Among these hereditary cases, Red/Green color blindness is the most common, representing 98% of the full colorblind population, and of this group, 95% are men. This is because the genes that code for the red- and green-sensing cones are present on the X chromosome.

Mendelian genetics can explain why this is the case. Males have the XY chromosome combination, whereas females have the XX combination. If any gene on the X chromosome is defective, you are bound to see its effects. For females, even if they inherit a defective X chromosome gene for color blindness, they still have a backup X chromosome to make up for its loss.

This is basically how all X-linked genetic diseases work and why females only ‘carry’ the disease, while males actually suffer from it. The girls got lucky on this one!

Apart from genetic causes, some people can also acquire color blindness. Some causes include trauma to the eye, which damages the retina, as a side effect of alcoholism, and as a complication of various diseases like diabetes and hypertension.

Am I Seeing Colors Differently?

Luckily for all of us, medical science has evolved well enough that we don’t have to always keep a lookout for a Subreddit to diagnose color blindness.

Eight Ishihara charts for testing colour blindness

The Ishihara Plate Test. The test consists of being able to see the numbers hidden between the color gradients. Take this image to your friends, and see how many of them see it differently. (Photo Credit : Welcome Images/Wikimedia Commons)

The most commonly used test today for color blindness was introduced by Dr. Shinobu Ishihara more than 100 years ago, rightfully named the Ishihara plate test. It essentially consists of images of either numbers/signs of one color put in the background of some other color. There are a total of 38 Ishihara plates. They can even help doctors diagnose the different types of color blindness!

Living With Color Blindness

As is the case with all genetic disorders, there is no treatment or cure. It just becomes a way of life and one learns to live with it. In the case of CVD, there are no fatal complications from not being able to distinguish between a few colors.

However, it does make going about day-to-day life a little tricky. Color blind people report having obstacles, such as not being able to tell when their meat is cooked, picking up an what looks like unripe banana and realizing it too late, difficulty playing sports or games that involve certain colors, and a slightly dangerous inability to differentiate between green and yellow at traffic signals.

It’s not just a traffic ticket they have to worry about!

Fortunately, we now have filtered glasses that can correct some types of color blindness, like enchroma glasses for red-green color blindness.

WEARS COLOUR BLIND GLASSES TO SEE BETTER

There are commercially available glasses that help correct some of the common types of color blindness. They also make for pretty cool-looking shades.

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Muhabarishaji

🧪 |Medical Laboratory Scientist 🥇 | Mindset over Everything. 
 🤝 | Let's Grow Together.

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