Because eyes in front is a somewhat handy trend, not a rule. If you’ll notice, the vast majority of fish have eyes on either side, and lots of fish hunt other fish, while lots of fish are herbivorous.

Because eyes in front is a somewhat handy trend, not a rule. If you’ll notice, the vast majority of fish have eyes on either side, and lots of fish hunt other fish, while lots of fish are herbivorous.

Because eyes in front is a somewhat handy trend, not a rule. If you’ll notice, the vast majority of fish have eyes on either side, and lots of fish hunt other fish, while lots of fish are herbivorous.

Sharks have better binocular vision than you might expect, even hammerhead sharks. They often have overlapping field of view directly above them, but not immediately in front of their face. Most sharks can freely swap between stereoscopic and monocular vision.

Having a blind spot directly in front of one’s face isn’t actually much of a detriment to a shark, because sharks have extremely well-developed electroreception organs, especially around their mouths.

Sharks have better binocular vision than you might expect, even hammerhead sharks. They often have overlapping field of view directly above them, but not immediately in front of their face. Most sharks can freely swap between stereoscopic and monocular vision.

Having a blind spot directly in front of one’s face isn’t actually much of a detriment to a shark, because sharks have extremely well-developed electroreception organs, especially around their mouths.

There’s a tradeoff between having eyes facing front close together and eyes widely spaced facing more or less off to the side. Front facing eyes enable better distance determinations due to stereoscopic imaging, but they yield a smaller field of vision. Widely spaced eyes have a larger field of vision, making it easier to see more of the area around an animal, but they are not nearly as good at determining distance “at a glance.” Lots of land based animals have evolved front facing eyes because it’s easy to see greater distances in air versus water, so being able to determine distance with greater precision is critical (for both predator and prey). This has limited many land based animals’ field of vision, which they’ve dealt with by having generally more mobile necks (think of an owl v. a fish). Most of the ocean is fairly opaque and dark, so it’s hard to see large distances even if you had forward facing eyes. In other words, forward facing eyes in the ocean confer far less advantage than they do on land. However, being able to see what’s coming up behind you is really important in the ocean where things can appear out of the murkiness and be close by – you really can’t see them coming from a mile away. Evolutionarily speaking, sharks have more to gain by having larger fields of vision even if it limits their ability determine distance visually (something they more than make up for with their heightened sense of smell and their unique sensory system that detects miniscule changes to electric fields in water, which are often caused by the presence of other living things swimming close by).

There’s a tradeoff between having eyes facing front close together and eyes widely spaced facing more or less off to the side. Front facing eyes enable better distance determinations due to stereoscopic imaging, but they yield a smaller field of vision. Widely spaced eyes have a larger field of vision, making it easier to see more of the area around an animal, but they are not nearly as good at determining distance “at a glance.” Lots of land based animals have evolved front facing eyes because it’s easy to see greater distances in air versus water, so being able to determine distance with greater precision is critical (for both predator and prey). This has limited many land based animals’ field of vision, which they’ve dealt with by having generally more mobile necks (think of an owl v. a fish). Most of the ocean is fairly opaque and dark, so it’s hard to see large distances even if you had forward facing eyes. In other words, forward facing eyes in the ocean confer far less advantage than they do on land. However, being able to see what’s coming up behind you is really important in the ocean where things can appear out of the murkiness and be close by – you really can’t see them coming from a mile away. Evolutionarily speaking, sharks have more to gain by having larger fields of vision even if it limits their ability determine distance visually (something they more than make up for with their heightened sense of smell and their unique sensory system that detects miniscule changes to electric fields in water, which are often caused by the presence of other living things swimming close by).

Sharks have better binocular vision than you might expect, even hammerhead sharks. They often have overlapping field of view directly above them, but not immediately in front of their face. Most sharks can freely swap between stereoscopic and monocular vision.

Having a blind spot directly in front of one’s face isn’t actually much of a detriment to a shark, because sharks have extremely well-developed electroreception organs, especially around their mouths.

There’s a tradeoff between having eyes facing front close together and eyes widely spaced facing more or less off to the side. Front facing eyes enable better distance determinations due to stereoscopic imaging, but they yield a smaller field of vision. Widely spaced eyes have a larger field of vision, making it easier to see more of the area around an animal, but they are not nearly as good at determining distance “at a glance.” Lots of land based animals have evolved front facing eyes because it’s easy to see greater distances in air versus water, so being able to determine distance with greater precision is critical (for both predator and prey). This has limited many land based animals’ field of vision, which they’ve dealt with by having generally more mobile necks (think of an owl v. a fish). Most of the ocean is fairly opaque and dark, so it’s hard to see large distances even if you had forward facing eyes. In other words, forward facing eyes in the ocean confer far less advantage than they do on land. However, being able to see what’s coming up behind you is really important in the ocean where things can appear out of the murkiness and be close by – you really can’t see them coming from a mile away. Evolutionarily speaking, sharks have more to gain by having larger fields of vision even if it limits their ability determine distance visually (something they more than make up for with their heightened sense of smell and their unique sensory system that detects miniscule changes to electric fields in water, which are often caused by the presence of other living things swimming close by).

Since the others did not mention it, sharks can see with [electromagnetism](https://shark.swiss/sharks/biology/7-senses). Because they can see what is in front of them without eyes, may as well move the eyes to the side for better 360 vision. This way they get the defensive advantage of a bigger vision radius, but also get the perks from ‘3d’ depth perception with their electromag, and pressure sensing abilities.

iirc, [hammerhead sharks](https://www.youtube.com/watch?v=lgTbQlfOSKE) (17 min video) have that wide shaped head to better increase the accuracy of their sensing super powers.

If both eyes were in the front, they would be making other abilities and investments redundant.