What is special about fish eyes to make them see clearly underwater?

The aspherical lens at the fisheye helps to compensate for the lack of refraction and better focus the image on the fovea - the area of ​​clear vision.

Have you ever dived underwater and tried opening your eyes to see everything below in blurry and out of focus images. You wonder if fish see things the same way, or if they have other specialized ways of seeing underwater. Not quite, to help us understand how fish eyes look, let's examine the subject through the 'prism' of anatomy, evolution and optics.

The eye has a very complex structure and function. The basic structure and function of the eye is more or less the same for all vertebrates. This structure took less than 100 million years to form. In the scope of this article, we will consider only three basic components — the lens, vitreous (the gel that holds at the back of the eye), and the fovea (the fovea). As light passes through the eye, it also passes through the vitreous - which is a water-like liquid, while the vitreous helps focus light on the fovea. The fovea is the part of the eye where sharp images are formed. In other words, it is the part that allows us to see clearly.

Picture 1 of What is special about fish eyes to make them see clearly underwater?

The complex structure of an eye.

Seeing underwater is very different from how we see it on land:

  • First, water absorbs more light than air. This makes things darker as you move deeper into the water. In this thought test, we're only looking at visibility at a depth of 80 meters, since light doesn't travel below that point.
  • Second, water 'absorbs' red light the most, followed by orange, yellow, green and then blue. This means that everything underwater will appear a little more "blue" in color. Things get even greener as you dive in.

However, that is not the only property of underwater light, let's continue to explore the properties that make everything underwater a bit dim.

To understand this, we will investigate two issues - the physics of light and the anatomy of the eye. To be more specific, we'll look at how light works underwater. Water is "dense" than air so light travels more slowly than underwater, although this small time difference is almost imperceptible, it has other effects as well.

A common term you may hear in optics is refraction. Refraction refers to the phenomenon of light changing direction when it passes through the interface between two transparent media with different refractive indices. An example is when light travels from air to water. This is why a pencil will look like it's broken or bent when you put it in water.

Picture 2 of What is special about fish eyes to make them see clearly underwater?
 
When light is focused at a certain point in the eye, it creates a sharp image.

When light travels from a "less dense" material medium to a denser medium, it will undergo convergence. When light is focused at a certain point in the eye, it creates a sharp image, which is done by the lens. The way the lens in the eye works is because light is focused. For the image to be clear, the light must be focused precisely at the fovea. If the light is not focused on the fovea, it will create a blurry image.

When underwater, light passing through the eye must be refracted enough to focus on the fovea. If light is not refracted enough, everything will look blurry, like farsightedness in the human eye. The chart below depicts farsightedness, you will better understand where light is focused when there is insufficient refraction.

Picture 3 of What is special about fish eyes to make them see clearly underwater?

Effects of visual impairment

When light enters the eye under water, it will not be refracted much. This is because the densities of the lens and water are very similar. At this time, the role of the lens in the eye will be promoted, the lens is denser, refracts more light. A lens with a rather round shape, which causes light to pass through it for a longer distance, refracting it more This causes the light to focus at the right point. If the lens were flatter, it would not focus properly, as described above.

Picture 4 of What is special about fish eyes to make them see clearly underwater?

Spherical lens in a fish's eye

Another reason is that the angle at which light passes through the glass is larger, this is due to the curved surface of the lens. According to the law of refraction, it will refract light better, more concentrated light This makes the light focus on the right point. If the lens were flatter, it would not focus properly, as described above.

Spherical lenses also have the ability to warp images, so fish observing their surroundings also tend to slightly warp towards images, but that's what gives them a wider field of view.

Picture 5 of What is special about fish eyes to make them see clearly underwater?
Image depicts how from fisheye lens, everything looks more warped and warped, but you get a wider field of view

Humans and other land animals have flat lenses because they help us focus in the air, while fish have more rounded lenses to help them focus in water, which is a great adaptation for fish. Sight in fish is highly evolved and complex, but in fact land animals have adapted more impressively. Fisheye and fisheye lenses, referred to as an "original blueprint".

Update 19 June 2022
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