New research shows that people with blue eyes have a single, common ancestor.
It is important to note here that not everyone with the same trait is necessarily so closely related. For example, red haired Europeans get their red hair from a variety of DNA differences. Not all redheads can trace their history back to an original red haired ancestor.
Now the fact that blue eyes appeared out of nowhere isn't that weird…our DNA is much less stable than a lot of people think. Changes in DNA (or mutations) can and do happen all the time so it isn’t surprising that occasionally one will happen in just the right place to cause blue eyes. This probably happened a number of times throughout human history.
No the weird part is that the blue eye mutation from that original ancestor took hold and spread through Europe. Usually this means that the mutation had to have an advantage. If it didn't, then like most neutral mutations, it would stay at some low level or disappear entirely. But it is obviously still around and going strong.
You may have noted that I said that mutations “usually” spread because of an advantage. The reason I had to add that qualifier is that sometimes a trait spreads in a population for different reasons, often having to do with luck.
Imagine a mutation that leads to blue eyes appears in an ancestor. The blue eyes freak out everyone in the village so this person is banished to an island along with anyone else that villagers might be weirded out by.
Now something happens and everyone in the world is wiped out except the people on the island. Blue eyes will have gone from very rare to very common. And as these islanders repopulate the world, blue eyes will stay common. This kind of thing is more common than you might think and there are many examples of this sort of founder effect.
While these are possible for other traits, it doesn't look like this is what is going on for blue eyes. By looking at the DNA around the blue eye mutation, scientists can see that blue eyes have been strongly selected for. In other words, they had some sort of advantage. (This is another piece of evidence that blue eyes came from a single common ancestor.)
Now the tricky part is coming up with that advantage. Scientists have proposed a couple of possibilities (neither proved).
One is that blue eyes are so sexy that they are irresistible. And the other is that blue eyes themselves aren't that useful. Instead, they are a side effect of something that was—lighter skin.
In nature, individuals with the best traits go on to have more children than those without those traits. The children who end up with these traits then go on to have more children and so on. After a while, more people have these traits.
This is one of the major ways that certain gene versions like blue eyes can spread through a population. Blue eyed people have more kids and their blue eyed kids have more kids. As blue eyes spread, so does the gene.
Usually when we think about an advantage of a trait, we think about something that makes an individual survive better. Maybe lighter skin lets them deal better with weak sunlight or being able to drink milk lets them survive harsh winters better. But not all advantages are like these.
Remember that the key to a trait becoming more common over time is that those with the trait have more kids. Being a better survivor is one way to accomplish this. But so is being sexy.
If you are more attractive to the opposite sex, chances are you'll attract more mates. This “sexual selection” is the idea behind a peacock’s ridiculous tail feathers. And may be why blue eyes spread so rapidly.
It may be that the people who spread across Europe thousands of years ago found blue eyes irresistible. The blue-eyed Casanovas had lots of partners, many of whom ended up carrying their children (who all had at least one copy of the blue eye color gene). And blue eyed women always had their pick of potential mates (and often chose the blue-eyed ones).
This is a fun theory but we really don't have any proof.
We can't go back in time and ask these folks if they prefer blue eyed mates to brown eyed ones. If this is why blue eyes spread, we may never have a way of proving it.
Light Skin Advantage with Bonus Blue Eyes
Another possibility is that blue eyes didn’t spread because they had any advantage. Instead they spread because they were a side effect of something that was an advantage—fair skin.
When humans first ventured into northern Europe, most were in for a rude shock. Their dark skin was causing them to develop an awful disease called rickets.
Back before fortified milk and vitamin supplements, we got most of our vitamin D from the sun. In most parts of the world, sunlight is strong and frequent enough that people can get plenty of it even with dark skin. In fact, given the dangers of the UV light from the sun, dark skin was actually selected for in these sunny places.
But then a few humans moved to Europe with its short, cold winter days. They had to cover up to keep warm and the sun was hardly out much anyway. The end result was that with dark skin, they simply could not get enough sun to get enough vitamin D.
There were a few lucky individuals who had the lighter skin they needed to get their vitamin D way up North. They did better and had more kids. Over time, fair skin became very common in northern Europeans.
One idea is that blue eyes and fair skin sometimes come from the same piece of DNA. If this were the case, then blue eyes would just be a trait that hitchhiked along with the more useful light skin. This is another good theory but so far scientists haven't been able to prove it.
The DNA difference that is the most common cause of blue eyes does make skin lighter but it isn't the major reason some Europeans have such pale skin.
So right now we don't know why blue eyes spread so far and wide across Europe. We have some good ideas but no proof yet. And it may remain a mystery for a very long time.
credit: PublicDomainPictures |
A team at the University of Copenhagen have tracked down a genetic mutation which took place 6-10,000 years ago and is the cause of the eye colour of all blue-eyed humans alive on the planet today.
"Originally, we all had brown eyes," said Hans Eiberg from the Department of Cellular and Molecular Medicine at the University of Copenhagen, adding that "A genetic mutation affecting the OCA2 gene in our chromosomes resulted in the creation of a 'switch,' which literally 'turned off' the ability to produce brown eyes."
"Originally, we all had brown eyes," said Hans Eiberg from the Department of Cellular and Molecular Medicine at the University of Copenhagen, adding that "A genetic mutation affecting the OCA2 gene in our chromosomes resulted in the creation of a 'switch,' which literally 'turned off' the ability to produce brown eyes."
The mutation of brown eyes to blue represents neither a positive nor a negative mutation. It is one of several mutations such as hair colour, baldness, freckles and beauty spots, which neither increases nor reduces a human's chance of survival. As Professor Eiberg says, "it simply shows that nature is constantly shuffling the human genome, creating a genetic cocktail of human chromosomes and trying out different changes as it does so."
[source: Science Daily]
The Tech
It is important to note here that not everyone with the same trait is necessarily so closely related. For example, red haired Europeans get their red hair from a variety of DNA differences. Not all redheads can trace their history back to an original red haired ancestor.
Now the fact that blue eyes appeared out of nowhere isn't that weird…our DNA is much less stable than a lot of people think. Changes in DNA (or mutations) can and do happen all the time so it isn’t surprising that occasionally one will happen in just the right place to cause blue eyes. This probably happened a number of times throughout human history.
No the weird part is that the blue eye mutation from that original ancestor took hold and spread through Europe. Usually this means that the mutation had to have an advantage. If it didn't, then like most neutral mutations, it would stay at some low level or disappear entirely. But it is obviously still around and going strong.
You may have noted that I said that mutations “usually” spread because of an advantage. The reason I had to add that qualifier is that sometimes a trait spreads in a population for different reasons, often having to do with luck.
Imagine a mutation that leads to blue eyes appears in an ancestor. The blue eyes freak out everyone in the village so this person is banished to an island along with anyone else that villagers might be weirded out by.
Now something happens and everyone in the world is wiped out except the people on the island. Blue eyes will have gone from very rare to very common. And as these islanders repopulate the world, blue eyes will stay common. This kind of thing is more common than you might think and there are many examples of this sort of founder effect.
While these are possible for other traits, it doesn't look like this is what is going on for blue eyes. By looking at the DNA around the blue eye mutation, scientists can see that blue eyes have been strongly selected for. In other words, they had some sort of advantage. (This is another piece of evidence that blue eyes came from a single common ancestor.)
Now the tricky part is coming up with that advantage. Scientists have proposed a couple of possibilities (neither proved).
One is that blue eyes are so sexy that they are irresistible. And the other is that blue eyes themselves aren't that useful. Instead, they are a side effect of something that was—lighter skin.
Peacock Feathers and Blue Eyes
In nature, individuals with the best traits go on to have more children than those without those traits. The children who end up with these traits then go on to have more children and so on. After a while, more people have these traits.
This is one of the major ways that certain gene versions like blue eyes can spread through a population. Blue eyed people have more kids and their blue eyed kids have more kids. As blue eyes spread, so does the gene.
Usually when we think about an advantage of a trait, we think about something that makes an individual survive better. Maybe lighter skin lets them deal better with weak sunlight or being able to drink milk lets them survive harsh winters better. But not all advantages are like these.
Remember that the key to a trait becoming more common over time is that those with the trait have more kids. Being a better survivor is one way to accomplish this. But so is being sexy.
If you are more attractive to the opposite sex, chances are you'll attract more mates. This “sexual selection” is the idea behind a peacock’s ridiculous tail feathers. And may be why blue eyes spread so rapidly.
It may be that the people who spread across Europe thousands of years ago found blue eyes irresistible. The blue-eyed Casanovas had lots of partners, many of whom ended up carrying their children (who all had at least one copy of the blue eye color gene). And blue eyed women always had their pick of potential mates (and often chose the blue-eyed ones).
This is a fun theory but we really don't have any proof.
We can't go back in time and ask these folks if they prefer blue eyed mates to brown eyed ones. If this is why blue eyes spread, we may never have a way of proving it.
Light Skin Advantage with Bonus Blue Eyes
Another possibility is that blue eyes didn’t spread because they had any advantage. Instead they spread because they were a side effect of something that was an advantage—fair skin.
When humans first ventured into northern Europe, most were in for a rude shock. Their dark skin was causing them to develop an awful disease called rickets.
Back before fortified milk and vitamin supplements, we got most of our vitamin D from the sun. In most parts of the world, sunlight is strong and frequent enough that people can get plenty of it even with dark skin. In fact, given the dangers of the UV light from the sun, dark skin was actually selected for in these sunny places.
But then a few humans moved to Europe with its short, cold winter days. They had to cover up to keep warm and the sun was hardly out much anyway. The end result was that with dark skin, they simply could not get enough sun to get enough vitamin D.
There were a few lucky individuals who had the lighter skin they needed to get their vitamin D way up North. They did better and had more kids. Over time, fair skin became very common in northern Europeans.
One idea is that blue eyes and fair skin sometimes come from the same piece of DNA. If this were the case, then blue eyes would just be a trait that hitchhiked along with the more useful light skin. This is another good theory but so far scientists haven't been able to prove it.
The DNA difference that is the most common cause of blue eyes does make skin lighter but it isn't the major reason some Europeans have such pale skin.
So right now we don't know why blue eyes spread so far and wide across Europe. We have some good ideas but no proof yet. And it may remain a mystery for a very long time.