This time around, we shall cover Brown And Blue Eyes Makes What Color. Obviously, there is a great deal of information on Blue Eyes Mutation on the Internet. The rapid rise of social media facilitates our ability to acquire knowledge.

information about Brown Blue Eyes is also related to Your Baby’s Eye Color: Baby Blues Are Becoming Rarer and Different Brown Eye Colors. As for further searchable items pertaining to Is eye color determined by genetics?, they will likewise have anything to do with brown and blue eyes make what colour. Brown And Blue Eyes Makes What Color - Your Blue Eyes Aren’t Really Blue

80 Fun Facts Brown And Blue Eyes Makes What Color | What Color Eyes Will My Baby Have? Baby Eye Color Predictor

  • Hazel eyes are hard to predict because it’s typically a mixture of brown, green and amber shades. If both the parents have hazel eyes, there are 99% chances that the baby will also have hazel eyes. If both the parents have brown eyes, there is a 75% chance that their child will have brown eyes. If both the parents have green eyes, there are 99% chances that the baby will also have green eyes. - Source: Internet
  • Many babies are born with blue eyes but depending on the amount of melanin in their iris you may see eye color changes between the ages of 3 and 6 months old. You might even see subtle eye color changes until their third birthday. Rest assured if your child is rocking a brown eye color it will most likely stay that way. - Source: Internet
  • Holmes and Loomis (1909) criticized the earlier work, saying that eye color varies continuously, and dividing it into categories is arbitrary. Out of 52 offspring of two blue-eyed parents in their data, one had brown eyes and two had gray eyes, which does not fit the idea that blue eyes are caused by a recessive allele. Boas (1918) found an even larger number of non-blue-eyed offspring of two blue-eyed parents, 26 out of 223. Surprisingly, there don’t seem to have been any parent-offspring studies of eye color since then, at least none that I could find. - Source: Internet
  • The colored part of the eye is called the iris. It’s a structure that contains muscle and other kinds of cells. You can see the iris in action when it squeezes or relaxes to let in more or less light through the pupil. The iris is made up of two layers. For almost everyone — even people with blue eyes — the back layer (called the pigment epithelium) has brown pigment in it. - Source: Internet
  • About 10,000 years ago, everyone in the world had brown eyes. Scientists believe that the first blue-eyed person had a genetic mutation that caused the body to produce less melanin. Today, about half of the people in the United States have brown eyes. - Source: Internet
  • Babies often do not have much pigment in their irises when they are born. This is why their eyes can look very blue. More pigment accumulates in the iris over the first few months of a child’s life and blue eyes can become less blue or even turn completely brown. For most children, eye color stops changing after the first year, but for some kids the color can continue to change for several more years. - Source: Internet
  • Davenport and Davenport (1907) were the first to suggest that blue eye color was caused by a recessive allele. They claimed that whenever both parents had blue eyes, all of the children have blue eyes, but their data actually included two hazel-eyed offspring of blue-eyed parents. The authors said “we suspect [these] to be of a blue type,” whatever that means. - Source: Internet
  • It turns out that isn’t quite accurate. Scientists now know that a collection of up to 16 genes plays a role in eye color genetics, so it’s entirely possible for parents with brown eyes to welcome a blue-eyed child into the world and vice versa. Although those scenarios are uncommon, they do happen. - Source: Internet
  • Those with lighter iris color have been found to have a higher prevalence of age-related macular degeneration (ARMD) than those with darker iris color;[50] lighter eye color is also associated with an increased risk of ARMD progression.[87] A gray iris may indicate the presence of a uveitis, and an increased risk of uveal melanoma has been found in those with blue, green or gray eyes.[88][89] However, a study in 2000 suggests that people with dark brown eyes are at increased risk of developing cataracts and therefore should protect their eyes from direct exposure to sunlight.[90] - Source: Internet
  • There are many other possible reasons for having two different-colored eyes. For example, the film actor Lee Van Cleef was born with one blue eye and one green eye, a trait that reportedly was common in his family, suggesting that it was a genetic trait. This anomaly, which film producers thought would be disturbing to film audiences, was “corrected” by having Van Cleef wear brown contact lenses.[97] David Bowie, on the other hand, had the appearance of different eye colors due to an injury that caused one pupil to be permanently dilated. - Source: Internet
  • In humans, eye color is determined by the amount of light that reflects off the iris, a muscular structure that controls how much light enters the eye. The range in eye color, from blue to hazel to brown (see figure one), depends on the level of melanin pigment stored in the melanosome “packets” in the melanocytes of the iris. Blue eyes contain minimal amounts of pigment within a small number of melanosomes. Irises from green–hazel eyes show moderate pigment levels and melanosome number, while brown eyes are the result of high melanin levels stored across many melanosomes (see figure two, left). - Source: Internet
  • Fig. 16: #The Dress of viral internet fame. Actual colour black and blue on the left and the ambiguous image perceived as white and gold or black and blue on the right. Full size image - Source: Internet
  • Eye color is determined by variations in a person’s genes. Most of the genes associated with eye color are involved in the production, transport, or storage of a pigment called melanin. Eye color is directly related to the amount of melanin in the front layers of the iris. People with brown eyes have a large amount of melanin in the iris, while people with blue eyes have much less of this pigment. - Source: Internet
  • Like blue eyes, gray eyes have a dark epithelium at the back of the iris and a relatively clear stroma at the front. One possible explanation for the difference in the appearance of gray and blue eyes is that gray eyes have larger deposits of collagen in the stroma, so that the light that is reflected from the epithelium undergoes Mie scattering (which is not strongly frequency-dependent) rather than Rayleigh scattering (in which shorter wavelengths of light are scattered more). This would be analogous to the change in the color of the sky, from the blue given by the Rayleigh scattering of sunlight by small gas molecules when the sky is clear, to the gray caused by Mie scattering of large water droplets when the sky is cloudy.[77] Alternatively, it has been suggested that gray and blue eyes might differ in the concentration of melanin at the front of the stroma.[77] - Source: Internet
  • No surprise here—eye color is determined by genetics. More specifically, eye color comes down to melanin, the same pigment that gives hair and skin its colors. The more melanin in the iris, the darker its color. Babies with dark brown eyes, for instance, have an abundance of melanin. Babies with light blue eyes have less melanin in their irises. - Source: Internet
  • Brown and blue eye color were found to be accurately predicted 90% of the time in a study done in Amsterdam. Depending on where your ancestors came from, you are more likely to have dark or light eyes. But at this point, there’s no way to predict baby eye color with 100% certainty. - Source: Internet
  • , one or both of the layers of the iris contains light brown pigment. The light brown pigment interacts with the blue light and the eye can look green or speckled. Many people have variations in the color of their irises, often with one color near the pupil and another at the edge. This variation happens when different parts of the iris have different amounts of pigment in them. - Source: Internet
  • Brown eyes (and green eyes) are considered dominant, but two brown-eyed parents can definitely have a blue-eyed baby. If both of you have brown eyes, then there is approximately a 25% chance that your child will have blue eyes if you both carry a recessive blue-eye gene. If only one of you has a recessive blue-eye gene, and the other has two brown, dominant genes, then there is a less than 1% chance of the baby having blue eyes. - Source: Internet
  • The human eye consists of two types of light and color receptors in the retina. Cylindrical cells are the photoreceptors of the eye that have a black and white vision and, depending on the amount of light received from the environment, determine the amount of darkness and brightness of objects. The number of cylindrical cells is more than the number of color receptors and reaches about 120 million; cone cells, which are smaller in number than light receptors, have color vision and are divided into three distinct categories, each of which recognizes one of the colors blue, red, and green, allowing the individual to distinguish colors.[30] - Source: Internet
  • Dark brown eyes are dominant in humans[37] and in many parts of the world, it is nearly the only iris color present.[38] Brown eyes are common in Europe, East Asia, Southeast Asia, Central Asia, South Asia, West Asia, Oceania, Africa and the Americas.[17] Light or medium-pigmented brown eyes can also be commonly found in South Europe, among the Americas, and parts of Central Asia, West Asia and South Asia. - Source: Internet
  • Albinism: People who have an inherited condition called albinism have little or no melanin in their eyes, hair and skin. People with albinism usually have eyes that are very light blue. Rarely, they have pink or red eyes. Without melanin, their irises are clear, which makes blood vessels inside the eye visible. The blood vessels give eyes their pink or red color. - Source: Internet
  • Providers have found a connection between the color of your eyes and your risk of developing certain eye conditions. People with brown eyes are less likely to have macular degeneration, cancer of the eye or diabetes-related retinopathy. Providers believe this is because brown pigment may offer the eyes more protection, lowering the risk of these diseases. But people with brown eyes have a higher risk of getting cataracts. - Source: Internet
  • In 1907, Charles and Gertrude Davenport developed a model for the genetics of eye color. They suggested that brown eye color is always dominant over blue eye color. This would mean that two blue-eyed parents would always produce blue-eyed children, never ones with brown eyes. - Source: Internet
  • Only about 2 percent of the world’s population has green eyes. Green eyes are a genetic mutation that produces low levels of melanin, but more than blue eyes. As in blue eyes, there is no green pigment. Instead, because of the lack of melanin in the iris, more light scatters out, which make the eyes appear green. Changes in light make lighter eyes look like they are changing colors like a chameleon. - Source: Internet
  • Brown eyes get their color from melanin, the same pigment that colors your skin. But blue eyes don’t have any blue pigment in them. Blue eyes get their color the same way water and the sky get their blue color. They scatter light so that more blue light reflects back out. - Source: Internet
  • As a side note, while there is a wide variability in eye color, colors other than brown only exist among individuals of European descent. African and Asian populations are typically brown-eyed. In 2008 a team of researchers studying the OCA2 gene published results demonstrating that the allele associated with blue eyes occurred only within the last 6,000 – 10,000 years within the European population. - Source: Internet
  • have no pigment at all in this front layer, causing the fibers to scatter and absorb some of the longer wavelengths of light that come in. More blue light gets back out and the eyes appear to be blue. For people with green or hazel eyes , one or both of the layers of the iris contains light brown pigment. The light brown pigment interacts with the blue light and the eye can look green or speckled. - Source: Internet
  • The colored ring surrounding the dark pupil of your baby’s iris is determined by melanocytes, which are cells that secrete the two protein pigments called melanin and lipochrome. Eye color These pigments darken the iris and the more melanin your eyes have, the darker they will be – like dark blue or brown. The less melanin your eyes have, the lighter they will be – like blue or green. The more lipochrome your eyes have, the more likely they will be green or hazel. - Source: Internet
  • For instance, many white non-Hispanic babies are born with blue eyes because they don’t have the full amount of melanin present in their irises at birth. As the child grows older, if they’ve developed slightly more melanin in their irises, the eyes will be green or hazel. When the iris stores a lot of melanin, the eyes will be amber (a golden brown), light brown or dark brown. - Source: Internet
  • In humans, the pigmentation of the iris varies from light brown to black, depending on the concentration of melanin in the iris pigment epithelium (located on the back of the iris), the melanin content within the iris stroma (located at the front of the iris), and the cellular density of the stroma.[4] The appearance of blue, green, and hazel eyes results from the Tyndall scattering of light in the stroma, a phenomenon similar to that which accounts for the blueness of the sky called Rayleigh scattering.[5] Neither blue nor green pigments are ever present in the human iris or ocular fluid.[3][6] Eye color is thus an instance of structural color and varies depending on the lighting conditions, especially for lighter-colored eyes. - Source: Internet
  • The color of the iris is determined by the amount of melanin, the ratio of eumelanin (which is dark brown) to pheomelanin (which is reddish), and the way the melanin is distributed in the eye. Irises with little melanin appear blue due to scattering of light by collagen fibers in the iris. Blue, gray, green and hazel eyes are only common in people of European ancestry; other people’s eyes are various shades of brown. - Source: Internet
  • Eye color was once thought to be the result of a single hereditary trait. It was thought that each person received one eye color gene from each parent, and the dominant gene determined eye color. In this model, the brown-eye color gene was always dominant over the blue-eye color gene, and only two blue-eye color genes could color eyes blue. - Source: Internet
  • Eye color in non-human animals is regulated differently. For example, instead of blue as in humans, autosomal recessive eye color in the skink species Corucia zebrata is black, and the autosomal dominant color is yellow-green.[24] - Source: Internet
  • Most of us have fully developed eye color by the time we reach age six, and the color doesn’t change much. However, there are some people whose eyes do change color a bit from adolescence and adulthood. These changes are more subtle, like a hazel/brown eye becoming more hazel/green or a person with dark brown eyes having more medium-brown irises later on. Cataracts can also change the color of our eyes because the film that develops over the lens of the eye creates a lighter, opaque, and cloudy effect. - Source: Internet
  • A person’s eye color results from pigmentation of a structure called the iris, which surrounds the small black hole in the center of the eye (the pupil) and helps control how much light can enter the eye. The color of the iris ranges on a continuum from very light blue to dark brown. Most of the time eye color is categorized as blue, green/hazel, or brown. Brown is the most frequent eye color worldwide. - Source: Internet
  • With few exceptions, all mammals have brown or darkly-pigmented irises.[34] In humans, brown is by far the most common eye color, with approximately 79% of people in the world having it.[35] Brown eyes result from a relatively high concentration of melanin in the stroma of the iris, which causes light of both shorter and longer wavelengths to be absorbed.[36] - Source: Internet
  • Eye color outside of the iris may also be symptomatic of disease. Yellowing of the sclera (the “whites of the eyes”) is associated with jaundice,[92] and may be symptomatic of liver diseases such as cirrhosis or hepatitis.[93] A blue coloration of the sclera may also be symptomatic of disease.[92] - Source: Internet
  • The actual pigment that gives the eye color is called melanin, which darkens your eye color. The gene groupings that cause your eye to have more melanin are the most common, which is why brown is the most common eye color. Brown was also the first eye color in human beings, with the rest coming later as genetic mutations. - Source: Internet
  • The green color is caused by the combination of: 1) an amber or light brown pigmentation in the stroma of the iris (which has a low or moderate concentration of melanin) with: 2) a blue shade created by the Rayleigh scattering of reflected light.[36] Green eyes contain the yellowish pigment lipochrome.[61] - Source: Internet
  • Hazel, a combination of brown and green. Hazel eyes may also have flecks or spots of green or brown. In the U.S., about 18% of people have hazel eyes. - Source: Internet
  • The most important role of melanin in the iris is to protect the eyes from the sun’s harmful rays.[29] People with lighter eye colors, such as blue or green, have lessened protection from the sun, and so need greater protection from the sun’s rays than those with darker eye colors.[citation needed] - Source: Internet
  • Eye colors range from very light blue to dark brown. Some eyes also have flecks or spots of darker or lighter colors mixed in. Eye colors can be many different shades of: - Source: Internet
  • Charles and Gertrude Davenport developed the dominant brown eye model in 1907. They suggested that blue eyes were caused by a single recessive gene, and blue-eyed parents could never produce a brown-eyed child. Dominant and recessive genes refer to inheritance patterns, and describe how likely it is for a certain trait to pass from parent to offspring. - Source: Internet
  • Yes. The short answer is that brown-eyed parents can have kids with brown, blue or virtually any other color eyes. Eye color is very complicated and involves many genes. - Source: Internet
  • Gray eyes can also be found among the Algerian Shawia people[78] of the Aurès Mountains in Northwest Africa, in the Middle East/West Asia, Central Asia, and South Asia. The Greek goddess Athene appears with gray eyes (γλαυκῶπις).[79] Under magnification, gray eyes exhibit small amounts of yellow and brown color in the iris. - Source: Internet
  • The color combinations in shades of green, brown, and gold are endless with hazel eyes, depending on the concentration of melanin. The light scatters as it does with blue and green eyes. As with blue and green eyes, hazel eyes may appear to shift colors depending on the light. The eye color doesn’t actually shift, perception does. It is unknown if hazel eyes developed from brown eyes or green. - Source: Internet
  • Green eyes are the least common eye color, which makes them one of the most “desirable” eye colors in polls taken around aesthetics. Only about 2% of the population has true green eyes. As with their blue-eyed counterpart, the irises of green eyes contain less melanin, which can cause sensitivity to light. - Source: Internet
  • It was once believed two blue-eyed people could not produce a brown-eyed child, meaning it was previously thought it might be a sign of infidelity if a child attributed to such a couple had brown eyes. This is not valid, and the reality is more complicated. It isn’t common for two blue-eyed parents to produce a brown-eyed child, but it is possible. - Source: Internet
  • One parent with brown eyes and one parent with green eyes: 50% chance of baby with brown eyes, 37.5% chance of baby with green eyes, 12.5% chance of baby with blue eyes. - Source: Internet
  • That old belief that most babies are born with blue eyes? Totally a myth. In reality, more than half of babies are born with brown eyes[1], while a good number of newborns have blue or gray eyes. Green or hazel eyes are very rare among newborns. But here’s the wild thing about baby eye color: It changes. Wondering when babies’ eyes change color? Here’s a crash course in baby eyes. - Source: Internet
  • Blue or gray, which occurs when someone has no pigment (melanin) in the front layer of the iris. Around 1 in 4 people in the U.S. have blue eyes. - Source: Internet
  • Remember, EYCL3 has two versions, brown (B) and blue (b). EYCL1 also comes in two versions, green (G) and blue (b). The way these genes work is that if you have a B allele, you will have brown eyes (B is dominant over b and G), if you have a G allele and no B allele, you will have green eyes (G is dominant over b) and if you have all b genes, then you will have blue eyes. - Source: Internet
  • Genetic research has shown that blue eyes probably only appeared in the last 6,000 to 10,000 years. Before then, everyone had brown eyes. Blue eyes have probably spread through the population just because some people like how they look and chose to have children with blue-eyed people. - Source: Internet
  • Although the deep blue eyes of some people such as Elizabeth Taylor can appear purple or violet at certain times, “true” violet-colored eyes occur only due to albinism.[83][84][85] Eyes that appear red or violet under certain conditions due to albinism are less than 1 percent of the world’s population.[86] - Source: Internet
  • If you inherited both “big Bs” (brown-brown), your children will only have brown eyes (BB). However, some people with brown eyes have one dominant gene (B) and one recessive blue-eyed gene (b), which means they contribute (Bb) to the mix – (Brown-blue). If a person with Bb brown eyes has a child with someone else who has a Bb mix or a child with a blue-eyed partner (bb), they have a chance of having a child with lighter eye colors. - Source: Internet
  • Baby on the way? While it’s fun to play the guessing game, it’s virtually impossible to accurately predict the color of your newborn’s eyes. The genetics that determine eye color are simply more complex than, “well I have blue eyes, my partner has brown, so Baby’s eyes will be…” - Source: Internet
  • You may have noticed that non-Hispanic babies almost always have blue or grayish eyes when they’re born, regardless of what color eyes they have later on. This is because their eyes haven’t produced all of the melanin they will have when fully developed. Most babies’ eye color is “set” by the time they reach one year old, but some children’s eyes aren’t fully “colored” until they are about six years old or so. - Source: Internet
  • 0.5% partial heterochromia (a variation in coloration) The researchers also found that there were significantly more white/Caucasian infants with blue eyes and more Asian, Native Hawaiian/Pacific Islander, and Black/African American infants with brown eyes. Now that you have a better understanding of when your baby’s eyes may change color (and become permanent), you might be wondering what’s going on behind the scenes to make this transformation occur. - Source: Internet
  • Another theory conceived by professor Hans Eiberg at the University of Copenhagen was that a mutation once switched off the ability of someone’s eye to produce melanin. This would lead to light eyes in the affected individual; their rarity may have made them more attractive and aided their natural selection within the population. In one study, he analyzed genes for eye color and identified what he believed to be a common mutation causing blue eye color. - Source: Internet
  • Whether eyes are blue or brown, eye color is determined by genetic traits handed down to children from their parents. A parent’s genetic makeup determines the amount of pigment, or melanin, in the iris of the his or her child’s eye. With high levels of brown melanin, the eyes look brown. With minimal levels of the same brown melanin, the eyes look blue. However, a genetic variation can cause a child’s eye color to be unpredictable, resulting in two blue-eyed parents having a brown-eyed child. - Source: Internet
  • Blue eyes have the least amount of pigment of all eye colors. When babies are born, their eyes may sometimes appear blue early on, while their melanin is still forming. Their eye color may then darken as they develop. - Source: Internet
  • Many babies are born with blue or brown eyes. But newborns can have any eye color. As a baby grows, melanin continues to develop. If a blue-eyed newborn develops more melanin in their irises, their eyes might darken or turn brown or hazel. - Source: Internet
  • Though brown eyes are the most common genetic eye color, there is more genetic variation among those with brown eyes than those with blue eyes. This may account for the variations of brown eye colors. These variations come from different genes on different chromosomes that carry genetic eye color information from our ancestors. - Source: Internet
  • Unfortunately, eye color is not as simple as this. Besides the EYCL3 gene described above, at least two other genes, EYCL1 and EYCL2, are also involved. Although this set of genes explains how people can have green eyes, it does a poor job of explaining how blue-eyed parents could have brown-eyed children or how anyone can have hazel or gray eyes at all. - Source: Internet
  • The majority of people in the world have brown eyes. The color brown is a result of a high concentration of melanin in the iris causing more light to be absorbed and less light to be reflected. Because of this, brown eyes are more naturally protected from the sun. This likely had evolutionary benefits similar to darker skin being able to withstand the hot sun longer. The genes responsible for skin color are closely linked to those that cause eye color. - Source: Internet
  • This is the next most common eye color, encompassing about 10% of the population. While blue eyes are more sensitive to light during the day, people with blue eyes tend to see better at night – unless there are bright lights. In that case, the lack of melanin makes them as sensitive to light at night as they are during the day. - Source: Internet
  • No matter what color your baby’s eyes are at birth, this hue will probably shift over time. That’s thanks to melanocytes, the cells responsible for secreting melanin. Melanocytes begin to do their work in utero, helping to determine your baby’s skin color and eye color. Some newborns’ irises have enough melanin to make them a beautiful brown from day one, but other babies—typically white babies with lower levels of melanin—are born with lighter eyes. - Source: Internet
  • With eye color controlled by more than one gene, it is possible for a newborn to inherit any eye color. Predicting eye color is further complicated because it sometimes changes after birth. A baby’s blue eyes can turn brown as more melanin is deposited into the iris over the first three years of life. - Source: Internet
  • Originally, all humans had brown eyes. Some 6,000 to 10,000 years ago, a genetic mutation affecting one gene turned off the ability to produce enough melanin to color eyes brown causing blue eyes. This mutation arose in the OCA2 gene, the main gene responsible for determining eye color. Since blue eyes have survived throughout many generations, researchers think there may have been some evolutionary benefit, though the exact reason is unknown. - Source: Internet
  • About 5% of the population has hazel eyes. Unless hazel eyes are more on the green spectrum, people with hazel eyes have about the same amount of iris melanin as those with brown eyes. The difference is that those with hazel eyes have pockets with less melanin – typically towards the pupil – which means the brown pigments are interspersed with flecks of green, amber, light brown, or rusty hues. - Source: Internet
  • An eye with less melanin absorbs less light. Collagen fibers in the eye scatter the light, and it reflects off of the surroundings, making eyes appear blue. People with lighter eyes may be more sensitive to light because they have less pigment to protect their eyes from bright light. - Source: Internet
  • Scientists used to think only one gene determined eye color. They thought that a simple inheritance pattern caused someone to have more or less melanin. For example, they thought two blue-eyed parents wouldn’t be able to have a child with brown eyes. - Source: Internet
  • Your eye color might appear to change a bit from time to time. For example, your eyes might look like they’re a darker shade of blue if you’re wearing a blue shirt. The change in colors happens when light reflects off of objects around you. - Source: Internet
  • Then, there are people with different colored eyes, such as one blue eye and one brown eye. This is due to a genetic mutation, and the effect is called heterochromia. Heterochromia can also be caused by problems during development or as the result of an eye injury or disease. - Source: Internet
  • The iris has two layers. Eye color results from the amount of pigment (melanin) you have in the front layer (stroma). Almost everyone (even people with blue or green eyes) has brown pigment in the back layer of the iris. - Source: Internet
  • One gene, OCA2, controls nearly three-fourths of the blue-brown color spectrum. However, other genes can override the OCA2 instruction, albeit rarely. This multifactorial model for eye color explains most of the genetic factors that influence eye color. - Source: Internet
  • Both parents with brown eyes: 75% chance of baby with brown eyes, 18.8% chance of baby with green eyes, 6.3% chance of baby with blue eyes. - Source: Internet
  • Remember that for most genes (including eye color), you have two copies of each gene, and that you inherited one from your mother and one from your father. The brown version of the eye color gene (B) is dominant over the blue version (b). Dominant means that if either of your genes is the B version, then you will have brown eyes. Genetically speaking, then, people with brown eyes could be either BB or Bb while people with blue eyes could only be bb. - Source: Internet
  • Only about 1% of humans have grey eyes, and the majority are found on the European continent – mainly in the north and eastern regions. Scientists think that people with gray eyes have even less melanin than those with light blue eyes. The effect scatters light across the surface, which makes the gray appear quite pale. - Source: Internet
  • Blue eyes are the result of low concentrations of brown melanin, not blue pigmentation. Less melanin allows more light to reflect back to wavelengths on the blue color spectrum, which in turn make eyes appear blue. The reason why eyes are blue is the same reason the sky is blue. Some 8 to 10 percent of humans worldwide have blue eyes. - Source: Internet
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