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To really understand how a deer sees you need to dissect a whitetails eyeball, and that’s just what we are going to do. I located an organ donor at my deer processor and dissected an eye that we’ve all seen thousands of times. I’m guessing that you have never seen a deer eye from this perspective.
We all can agree that an eye brings in light reflected from objects and changes the light into electrical signals that are sent to the brain via the optic nerve to be interpreted as images. This is the short story of vision. How that is accomplished varies between mammals.
With a deer eye, the light is brought in through a pupil. The iris is a collection of radial muscles that open and close the pupil opening. A cornea covers the pupil opening. The cornea is the clear outermost layer of the eyeball. It is where your contact lens would sit.
The unique aspect of a deer’s pupil is that unlike ours it is elliptical (a slit) rather than round. They have a cat eye design. Because of this fact the pupil can open extremely wide to let in lots of light. In a deer, it actually extends the entire width of the eye. This wide pupil is part of the reason why a deer can see so well at night.
Once I removed the deer eyeball from the skull I could see the optic nerve that connects and sends the eyes data to the brain. Notice how large the dilated iris/pupil is in this eyeball. It is probably ten times the surface area of a dilated human eye.
I took the liberty of cutting open the deer’s eyeball to see what made it tick and here is what I found. First, it is notable that an eyeballs covering is very tough. This is important because a deer is exposed to sharp sticks and antlers during fighting. The surprising leathery nature of the eyeball was evident when I began to cut it with a razor.
The fluid that comes out of the eyeball is called Vitreous Humor. That Latin name means a gelatin like fluid. It resembles thin clear jello. Once I cut the outer covering, the gelatin dumped out easily and with it came the lens. The lens is interesting. It’s a solid rubbery structure that is large and convex like a magnifying glass. The deer’s lens is clear unlike in humans where it is tinted yellow. The yellow in our lens filters out harmful UV rays. Deer can see UV.
The jello like vitreous humor spills out and the lens came out with it. Like a convex magnifying glass its job is to focus light.
This lens gathers in the light coming through the pupil and focuses it on the screen on the back of the eyeball. That screen is the retina. Once the eyeball was split in two vertically I immediately noticed that the back of the eyeball is dark purple, almost black. There is also a shiny iridescent blue membrane across the back of the eyeball as well. There is a lot going on here so I’ll take it one step at a time.
The most important structure covering the back of the eye is the retina. It’s not what you’d expect. The retina is a thin, see-through membrane that covers the rear of the eyeball like a curtain. I was able to move it around with a probe and even move it to one side. It’s actually connected to the optic nerve.
A. This is a great view of the muscles that operate the pupil size. They radiate around the pupil and open and close it. B. is the rear of the eyeball and the transparent retina covers it like a screen. The photoreceptors are here. Behind it is the dark bluish Tapetum or reflector.
Humans see all the colors and have a yellow tinted lens to filter UV.
The retina is the location of the photoreceptor cells. I’m sure you remember the words rods and cones from high school biology. The retina is where they are housed. In humans, we have many cones (used for color vision and visual clarity) and far less rods used visual sensitivity in low light. Deer have ten times the rods as us but very few cones. This is because they operate in low light for most of the time.
The cones offer color vision… but deer have poor color vision. They lack a red cone and see only yellow and blue. Uniquely they don’t have a UV filter in their eyes and can see into the UV spectrum. On the other hand, they do have the cones arranged in a unique configuration that serves them well. Many predators eat deer. Deer need to be on the alert at all times. Therefore, God placed their eyes on the side of their head so they can see in a 300-degree arc without moving their head.
Cones are the photoreceptor that gives us visual acuity or sharp focus. In your eye, the cones are bunched together concentrically so we have a very focused spot in the center of our vision. Right now, you can see these words clearly but the words at the edge of your vision are blurry. We call that the fovea or sharp spot. In a deer eyeball, the cones also are arranged in a band across the retina. This means deer see sharply in a band around them, probably 300-degrees. This concentration of cones also allows them to spot movement. This is good if you’re watching for predators.
Another view of the back of the eye. The complex receptor structures in the retina are converting the incoming light into electrical signals that travel through the optic nerve to the brain where they are decoded as images. Hopefully, not the image of a bowhunter.
The next thing evident on the back of the eye is that there is a blue iridescent look to the back of the eye. This is a special structure called a Tapetum. This structure is a reflector and is why deer eyes shine back when a light is directed on them. The tapetum actually reflects incoming light back across the retina twice doubling the value of the light. This is important for their night vision.
#1562- I outsmarted this deer’s eyes. He should have been paying closer attention.
So let me bring this all into focus for you as a hunter. Deer have good peepers. They can see almost all the way around them without moving their head. They can see only yellow and blue and likely see their world as if they are wearing amber shooting glasses. The exception is they can see blue. Not only blue but also they can see into the UV spectrum. We know that UV brightener in camo shines light back at UV blue. They can see you if you have UV brighteners in your camo. You can treat your camo with UV-KILLER by Atsko and become invisible to the eyes of a whitetail.
In review: Because their cones are arranged in a band they can see movement better than us…don’t be moving around. They can see well in low light. The pupil opens extremely wide and lets in lots of light and the tapetum doubles all incoming light. A deer may see as well on a starless overcast night as we see at noon. They can see UV.
So there you have it, deer vision. It is amazing. Understand deer eyes and you will be a more effective whitetailer. See a deer eye dissected on camera by clicking here.
Remember, to be the best hunter you can be – Use the best products: Atsko