Take the 2-minute tour ×
Biology Stack Exchange is a question and answer site for biology researchers, academics, and students. It's 100% free, no registration required.

Mammals, reptiles, arachnids, insects, etc are all as far as I am aware symmetrical in appearance.

Take a human for instance, make a line from the top of our head right down the middle. However, internally it is not the same. Our organs excluding the kidneys, lungs, reproductive organs, etc are not symmetrically placed in our body.

  • Why do we not have an even number of each organ so it can be placed symmetrically?
  • If we have a single organ why is it not placed in the middle like the brain or bladder is for instance?
  • Is there some evolutionary advantage that led to this setup?
share|improve this question
    
I am not sure I completely agree with your conclusion that we are not symmetrical internally. There are exceptions but I would say we are more symmetrical than not. –  KennyPeanuts Dec 27 '12 at 1:19
    
@DQdlM, yes, there are exceptions to organ symmetry. However, externally there are no exceptions to symmetry. Why are not all organs symmetrically placed? That is what I am trying to understand. Why full symmetry is not internal as well? –  cryptic ツ Dec 27 '12 at 1:45
1  
The question of why there are no major exceptions to external symmetry is subtly but interesting different from why are we not symmetrical internally. I am interested to see the answers you get. –  KennyPeanuts Dec 27 '12 at 2:03
1  
Flounder fish aren't the most symmetrical guys. Just thought I should point out that external symmetry is not essential. google.co.uk/imgres?imgurl=http://www.dnr.state.md.us/fisheries/… –  Good Gravy May 22 '13 at 15:31

2 Answers 2

up vote 9 down vote accepted

First, I think it worthwhile considering 'Why would internal symmetry be beneficial?' Developmental simplicity jumps to mind immediately. You can also consider relationship to external organs; the stomach and esophagus are lined up with the mouth which is symmetrical about the sagittal plane. Or maybe even balance; the lungs are large organs and if put to one side would likely cause locomotive issues. (Perhaps this is even an interesting topic for another question.)

That said, I feel, at it's core the evolutionary advantage which led to the lack of ubiquitous internal symmetry is space. Simply put, there is only so much room inside an organism and every little counts. Thus, if there isn't a need for a particular organ to be mirrored about a plane then there is a benefit in putting elsewhere: utilization of space.

I think a fantastic example of this is the human digestive tract. The key factor in the shape of the intestines is utilization of space, which directly affects the point at which is connects to the stomach, itself contributing to the asymmetrical shape of the stomach. One could envision other configurations, sure, and nature has. However, this configuration works quite well and the extraordinary use of limited space seems to outweigh all benefits of symmetry.

To directly respond to your questions above:

  • Question: Why do we not have an even number of each organ so it can be placed symmetrically? Response: Each organ addresses (or addressed) a need of the organism. Addressing that need with multiple organs working in concert has benefits and consequences, as does addressing the need with a single organ alone. These benefits and consequences are balanced throughout the evolution of an organism.

  • Question: If we have a single organ why is it not placed in the middle like the brain or bladder is for instance? Response: I feel space. Again, there are benefits to symmetry but there are many other factors at play. Some of which, it seems, are more important than symmetry at times.

  • Question: Is there some evolutionary advantage that led to this setup? Response: I hope this has been addressed - I don't claim to have 'answered' anything, this is a question for discussion.

Other fuel for discussion:

In thinking through this question I found myself able to rationalize why internal symmetry isn't necessary. However, I'd be interested in seeing opinions on why, then, external symmetry is so prevalent.

share|improve this answer
    
External Bilateral symmetry permits streamlining, favors the formation of a central nerve center, contributes to cephalization, and promotes actively moving organisms. –  Mew Dec 30 '12 at 2:27

Building on the answer given by Sean Connolly above, it would be very easy to imagine evolutionary scenarios where organs are more likely to develop asymmetrically than symmetrically.

For instance, imagine an organism that has a simple digestive system that consists only of a single undifferentiated intestine that runs directly from mouth to anus in a straight line, as in primitive annelids. Let's say that there is also only one enzyme present to break down the food particles, and that this is present throughout the intestine.

Now, perhaps for space issues, or for reasons that are entirely unrelated to internal organs, the intestine itself becomes asymmetrical. This could be because a longer intestine is needed to dissolve and take up more of the food, but the organism cannot become longer (for instance, it might live in dead coral reefs, and the size of the hollows cannot be controlled by the organism itself, so there is an external limitation to how long the organism can become). One way to solve this would be to fold the intestine, which can make it asymmetrical.

Now, because food particles that enter the mouth are exposed to the single enzyme throughout the intestine, the gut fluid will be less and less nutritious the farther posterior it gets along the gut. Possibly, more anterior parts of the intestine will become specialized in breaking down and absorbing more frequent kinds of food, while more posterior parts will become specialized in less common foodstuffs. This could lead to differentiation of secretory organs along the intestine, and if this is already bent because of external selection pressures, it is not impossible that a given secretory organ will develop asymmetrically simply because the intestine at the point where the enzymes secreted by this organ are to be used is not near the mid-line of the body.

For instance, if we needed to absorb substance X from our food, but substance X only became abundant in the gut fluid at a distance from the mouth that corresponds to a place when our intestine is located on the left side of the body, it is not unreasonable that development of this excretory organ would develop on the left side of the body. This could then be self-reinforcing, as a more ready access to substance X may mean that this substance becomes more important for us, and the secretory organ may become larger and more dominant, and eventually we have a large organ that exists only on the left side of the body, without ever having existed in a symmetrical form.

This is, of course, pure speculation, and I know of no example of this, but it is one that is not at odds with evolution in general, and could certainly be plausible. The same could occur if differentiation of enzyme secretion organs occur in a symmetrical gut, which later becomes asymmetrical and the whole secretory organ becomes displaced to one side. Retaining a symmetrical pair of secretory organs on each side of the body, but having the enzymes work on food only asymmetrically would imply that one of the secretory organs had a very long duct and the other had a very short one. It is reasonable to assume that over evolutionary time, the one with the long duct would become less important and may disappear.

A similar reasoning could be applied to the blood circulation system and any organs relevant to that.


There are many examples of external asymmetry throughout the animal kingdom. Many decapods, for instance, have asymmetrical claws that are used for different purposes (feeding in lobsters, for instance). Several genera of bird lice (e.g. Struthiolipeurus, Bizarrifrons) have asymmetrical heads, which probably have something to do with how they attach to their hosts' feathers. I believe that many groups of sessile invertebrates have anal openings displaced to one side, but that may be caused by internal asymmetry or because it is less efficient to have our anus situated so that feces is filtered into your mouth again.

share|improve this answer
    
Thanks for the response. It was very difficult choosing who to accept, so opted to just choose the highest voted one. If I could choose multiple answer I would have chosen yours as well. I did upvote! –  cryptic ツ Jan 18 '13 at 17:13

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.