With only our own human perceptions to gauge reality, some of us don't realize that our version of reality is just a combination of measurements defined by the resolution of our senses. We are confined to our own perceptions and the version of reality we see or perceive, through the functions of our various organs, may actually be imperfect and is probably a very dim version of true reality. We cannot actually see through another life form's eyes, at least not yet, but through science we can make a close approximation. We can do this by studying how other animal's eyes are built and how they function, like looking at the number of cones and rods or the shapes of their eyes or pupils and then comparing them with our own. Also, the invention of different types of cameras and handheld flashlights facilitate humans with the ability to observe with different types of light filtration, for example the UV spectrum, which animals like bees see with. Naturally this would be impossible for a human, but science and technology have revealed many wonders and many perspectives to us.
#1 What Birds See:
Humans (left) Peacock (right)
Birds have four types of cone cells in their eyes called photoreceptors, while humans only have three. This enables the avian species to visualize the world from a completely different perspective and much more clearly than we do, as most birds can also see the ultraviolet spectrum.
or maybe even something similar to this...
Unlike humans, birds are tetrachromats. Their four types of cone cells let them see red, green, blue, and ultraviolet together.
Birds (left) Humans (right)
#2 What Dogs See:
Humans (left) Dogs (right)
Dogs only have two cones, blue and yellow but not red and green. Their vision can be compared to a human who is color blind.
Dogs are virtually color-blind so they rely on their heightened sense of smell for most of their navigation.
Humans (left) Dogs (right)
Although their peripheral vision is much wider than ours.
Can you see the question mark in this image? If not, you may be color blind. A dog would not be able to see the question mark, it would detect no difference between the red and green.
#3 What Mantis Shrimp See:
Mantis Shrimp have a whopping 16 photoreceptors compared to the human's three. |
In a study published in the journal Current Biology, researchers report that that mantis shrimp use a set of filters to separate ultraviolet light into discrete colors that get picked up by the animals photoreceptors.
This is the most extreme example of animals using filters to expand the range of colors they can see, and the first in the UV spectrum the scientists say. The have the most complex visual system known to any animal.
They have up to 16 photoreceptors that can detect UV, visible, and polarised light. In fact, they are one of the only animals known to detect circularly polarised light, which is when the wave component of light rotates in a circular motion. They also can perceive depth with one eye and move each eye independently.
notice the mid-band visible in the eye of the mantis shrimp |
Mantis shrimp have compound eyes that are made up of tens of thousands of ommatidia (elements containing a cluster of photoreceptor cells, support cells and pigment cells) much like flies. In the species with spectacular vision, Gonodactylids and Lysiosquillids, the middle of the eye has six rows of modified ommatidia called the mid-band.
The horizontal rows of facets seen in this close-up of a mantis shrimp eye contain the photoreceptors that allow the animals to see colors in the visible and UV regions of the spectrum. (Michael Bok) |
#4 What Snakes See:
Snakes (left) Humans (right)
Pit vipers, like rattlesnakes, and the group of snakes including pythons or boas can literally see the world in two different ways. They can see some color, but also infrared, with extremely sensitive infrared sensors located on their heads.
A rattlesnake has one small pit on each side of its head, filled with thousands of receptor cells which are actually microscopic-sized infrared sensors. Yet despite their tiny size, the sensors are at least 10 times more sensitive than the best artificial infrared sensors that have ever been built.
#5 What Cuttlefish See:
Cuttlefish (left) Human (right)
A cephalopod such as a squid, octopus, or nautilus all evolved separately from vertebrates, so their vision process is very different from ours. For example, cephalopod eyes have no blind spot, and the pupil of a cuttlefish is shaped like a W making it look especially alien as it pursues prey in the ocean.
Cuttlefish have blurrier vision than us, and cuttlefish are totally colorblind. Cuttlefish eyes have one photoreceptor that lets them see in shades of gray and another pair of photoreceptors detects polarization. Humans’ only experience of polarized light comes when we wear sunglasses that reduce sun glare by filtering out one orientation of light waves. But unlike cephalopods, we don’t have photoreceptors to detect whether light is polarized or not.
Cuttlefish produce polarization patterns on their skin that they may use to communicate. Cuttlefish see each other in shades of gray with the polarization information overlaid, not unlike the rattlesnake’s infrared sense.
#6 What Bees See:
Bees (left) Humans (right)
Bees have color receptors for blue and green but also the UV spectrum.
Even though bees don't see red, they can see other reddish wavelengths such as orange and yellow. The colors bees see are blue-green, blue, violet, and ultraviolet, with research showing our purple followed by our violet then our blue as their favorites.
Bees not only see flowers differently than we do, bees also see ultra-violet light patterns at the center of the flower that are a different colors than the rest of the flower. The UV colors and patterns in a flower's petals dramatically announce the flower's amount of nectar and pollen. These UV patterns act like a landing zone, guiding the bees to the nectar source.
we see | bees see | add in UV |
red | black | uv purple |
orange | yellow/green* | |
yellow | yellow/green* | uv purple |
green | green | |
blue | blue | uv violet |
violet | blue | uv blue |
purple | blue | |
white | blue green | |
black | black |
Humans (left) Bees (right)
#7 What Cats See:
Cats have many more rods, which enhances their ability to see in dim light and during the night but our retinas have many more cones than cats. Especially in the area of the fovea (which is all cones and no rods). This gives us fantastic day vision with lots of vibrant colors and excellent, detailed resolution. Also, cats have a visual field that spans a whopping 200 degrees, as compared to 180 degrees in humans.
Humans (above) Cats (below)
Humans (above) Cats (below)
Cats, like dogs and many other animals, have a tapetum lucidum, which is a reflective layer behind the retina that sends light that passes through the retina back into the eye.
The tapetum lucidum reflecting green in the pupils of a cat. |
While this improves the ability to see in darkness, it appears to reduce net visual acuity. The tapetum and other mechanisms give the cat a minimum light detection threshold up to seven times lower than that of humans. This helps it to distinguish movement in the dark.
Humans (top) Cats (bottom)
#8 What Scarab Beetles See:
Chysina beetles or 'jewelled scarabs' reflect light that humans can't see - circular polarised light. It's not known what this is used for, but scientists suspect it is used for communications.
Rather than painting on canvas like most artists, Peter Wasilewski paints with polarised light on ice. |
Glass ceramic transmission microscope image made with polarised light and full wave plate. |
Polarized light can be harmful to humans and we must wear sunglasses to protect out eyes but some animals use it to survive. The mantis shrimp, scarab beetle, and bats are among some of the animals that use this form of vision.
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