Information about Tetrachromatic
Tetrachromacy is the condition of possessing four independent channels for conveying color information, or possessing four different cones, one other than RGB. Organisms with tetrachromacy are called tetrachromats. For these organisms, the perceptual effect of any arbitrarily chosen light from its visible spectrum can be matched by a mixture of no fewer than four different pure spectral lights.
Tetrachromacy is expected to occur in some birds, fish, amphibians, reptiles, arachnids and insects.
Further studies will need to be conducted to verify tetrachromacy in humans. One possible tetrachromat has been identified: "Mrs. M," an English social worker, was located in a study conducted in 1993.[4] Variation in cone pigment genes is widespread in most human populations, but the most prevalent and pronounced tetrachromacy would derive from female carriers of major red-green pigment anomalies, usually classed as forms of "color blindness" (protanomaly or deuteranomaly). The biological basis for this phenomenon is X-inactivation.
It is possible that some humans could have four rather than three color receptors. Preliminary visual processing occurs within the nerves of the eye. It is not known how these nerves would respond to a new color channel, if they could handle it separately or would just lump it in with an existing channel. Visual information leaves the eye by way of the optic nerve. It is not known if the optic nerve has the spare capacity to handle a new color channel. A variety of final image processing takes place in the brain. It is not known how the various areas of the brain would respond if presented with a new color channel.
The retina is a thin layer of neural cells that lines the back of the eyeball of vertebrates and some cephalopods. It is comparable to the film in a camera.
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A woman is a female human. The term woman (irregular plural: women
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Description
The normal explanation of tetrachromacy is that the organism's retina contains four types of higher-intensity light receptors (called cone cells in vertebrates as opposed to rod cells which are lower intensity light receptors) with different absorption spectra. This means the animal may see wavelengths beyond those of a typical human being's eyesight, and may be able to distinguish colors that to a human are identical.Tetrachromacy is expected to occur in some birds, fish, amphibians, reptiles, arachnids and insects.
Possibility of human tetrachromats
Humans and closely related primates normally have three types of cone cells and are therefore trichromats (animals with three different cones). However, at low light intensities the rod cells may contribute to color vision, giving a small region of tetrachromacy in the color space. It has been suggested that women who are carriers for variant cone pigments might be born as full tetrachromats, having four different simultaneously functioning kinds of cones to pick up different colors.[1] One study suggested that 2–3% of the world's women might have the kind of fourth cone that lies between the standard red and green cones, giving, theoretically, a significant increase in color differentiation.[2] However, another study suggests that as many as 50% of women may have four photopigments.[3]Further studies will need to be conducted to verify tetrachromacy in humans. One possible tetrachromat has been identified: "Mrs. M," an English social worker, was located in a study conducted in 1993.[4] Variation in cone pigment genes is widespread in most human populations, but the most prevalent and pronounced tetrachromacy would derive from female carriers of major red-green pigment anomalies, usually classed as forms of "color blindness" (protanomaly or deuteranomaly). The biological basis for this phenomenon is X-inactivation.
It is possible that some humans could have four rather than three color receptors. Preliminary visual processing occurs within the nerves of the eye. It is not known how these nerves would respond to a new color channel, if they could handle it separately or would just lump it in with an existing channel. Visual information leaves the eye by way of the optic nerve. It is not known if the optic nerve has the spare capacity to handle a new color channel. A variety of final image processing takes place in the brain. It is not known how the various areas of the brain would respond if presented with a new color channel.
Historical remarks
According to Lord Rayleigh in 1871, "Sir John Herschel even thinks that our inability to resolve yellow leaves it doubtful whether our vision is trichromatic or tetrachromatic..."[5]References
1. ^ Jameson KA, Highnote SM, Wasserman LM. "Richer color experience in observers with multiple photopigment opsin genes." Psychon Bull Rev. 2001 Jun;8(2):244-61. PMID 11495112.
2. ^ [1]
3. ^ Jameson, K. A., Highnote, S. M., & Wasserman, L. M. (2001). "Richer color experience in observers with multiple photopigment opsin genes." (PDF). Psychonomic Bulletin and Review 8 (2): 244–261.
4. ^ [2]
5. ^ "Some Experiments on Color", Nature 111, 1871, in John William Strutt (Lord Rayleigh) (1899). Scientific Papers. University Press.
2. ^ [1]
3. ^ Jameson, K. A., Highnote, S. M., & Wasserman, L. M. (2001). "Richer color experience in observers with multiple photopigment opsin genes." (PDF). Psychonomic Bulletin and Review 8 (2): 244–261.
4. ^ [2]
5. ^ "Some Experiments on Color", Nature 111, 1871, in John William Strutt (Lord Rayleigh) (1899). Scientific Papers. University Press.
External links
- Thompson, Evan (2000). "Comparative color vision: Quality space and visual ecology." In Steven Davis (Ed.), Color Perception: Philosophical, Psychological, Artistic and Computational Perspectives, pp. 163-186. Oxford: Oxford University Press. http://www.yorku.ca/evant/ETVancouvercolour.pdf
- Holba, Á.; Lukács, B. "On tetrachromacy." http://www.rmki.kfki.hu/~lukacs/TETRACH.htm
- Tetrachromacy in female humans (student essay)
- Looking for Madam Tetrachromat By Glenn Zorpette. Red Herring magazine, 1 November 2000
- Ultraviolet vision
- The Human is a blocked tetrachromat A review of the spectral sensitivity of the human visual system. (Claims that the human lens is mostly responsible for blocking the violet frequencies)
Color vision |
|---|
Color vision - Color blindness - Opponent process
Monochromacy - Dichromacy - Trichromacy - Tetrachromacy - Pentachromacy
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Color or colour[1] (see spelling differences) is the visual perceptual property corresponding in humans to the categories called red, yellow, blue, black, etc.
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Cone cells, or cones, are photoreceptor cells in the retina of the eye which function best in relatively bright light. The cone cells gradually become more sparse towards the periphery of the retina.
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visible spectrum (or sometimes optical spectrum) is the portion of the electromagnetic spectrum that is visible to (can be detected by) the human eye. Electromagnetic radiation in this range of wavelengths is called visible light or simply light.
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- For the moth genus, see Retina (moth).
The retina is a thin layer of neural cells that lines the back of the eyeball of vertebrates and some cephalopods. It is comparable to the film in a camera.
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Cone cells, or cones, are photoreceptor cells in the retina of the eye which function best in relatively bright light. The cone cells gradually become more sparse towards the periphery of the retina.
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Location Retina
Function Low light photoreceptor
Morphology rod shaped
Presynaptic connections None
Postsynaptic connections Bipolar Cells and Horizontal cells
Rod cells, or rods
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Function Low light photoreceptor
Morphology rod shaped
Presynaptic connections None
Postsynaptic connections Bipolar Cells and Horizontal cells
Rod cells, or rods
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A material's absorption spectrum shows the fraction of incident electromagnetic radiation absorbed by the material over a range of frequencies. An absorption spectrum is, in a sense, the opposite of an emission spectrum.
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In physics, wavelength is the distance between repeating units of a propagating wave of a given frequency. It is commonly designated by the Greek letter lambda (λ). Examples of wave-like phenonomena are light, water waves, and sound waves.
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Color or colour[1] (see spelling differences) is the visual perceptual property corresponding in humans to the categories called red, yellow, blue, black, etc.
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Aves
Linnaeus, 1758
Orders
About two dozen - see section below
Birds (class Aves) are bipedal, warm-blooded, egg-laying vertebrate animals.
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Linnaeus, 1758
Orders
About two dozen - see section below
Birds (class Aves) are bipedal, warm-blooded, egg-laying vertebrate animals.
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Amphibia
Linnaeus, 1758
Subclasses and Orders
Order Temnospondyli - extinct
Subclass Lepospondyli - extinct
Subclass Lissamphibia
Order Anura
Order Caudata
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Linnaeus, 1758
Subclasses and Orders
Order Temnospondyli - extinct
Subclass Lepospondyli - extinct
Subclass Lissamphibia
Order Anura
Order Caudata
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Sauropsida*
Goodrich, 1916
Subclasses
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Goodrich, 1916
Subclasses
- Anapsida
- Diapsida
- Reptilia Laurenti, 1768
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Arachnida
Cuvier, 1812
Extant orders
Acarina
Amblypygi
Araneae
Opiliones
Palpigradi
Pseudoscorpionida
Ricinulei
Schizomida
Scorpiones
Solifugae
Uropygi
Arachnids are a class (Arachnida
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Cuvier, 1812
Extant orders
Acarina
Amblypygi
Araneae
Opiliones
Palpigradi
Pseudoscorpionida
Ricinulei
Schizomida
Scorpiones
Solifugae
Uropygi
Arachnids are a class (Arachnida
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Insecta
Linnaeus, 1758
Orders
Subclass Apterygota
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Linnaeus, 1758
Orders
Subclass Apterygota
- * Archaeognatha (bristletails)
- * Thysanura (silverfish)
- * Infraclass Paleoptera (Probably paraphyletic)
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Catarrhini
É. Geoffroy, 1812
Families
Cercopithecidae
Hylobatidae
Hominidae
Catarrhini is a parvorder of the Primates, one of the three major divisions of the suborder Haplorrhini.
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É. Geoffroy, 1812
Families
Cercopithecidae
Hylobatidae
Hominidae
Catarrhini is a parvorder of the Primates, one of the three major divisions of the suborder Haplorrhini.
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Trichromacy is the condition of possessing three independent channels for conveying colour information, derived from the three different cone types.[1] Organisms with trichromacy are called trichromats.
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worldwide view of the subject.
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A woman is a female human. The term woman (irregular plural: women
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Color blindness, or color vision deficiency, in humans is the inability to perceive differences between some or all colors that other people can distinguish. It is most often of genetic nature, but may also occur because of eye, nerve, or brain damage, or due to exposure to certain
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X-inactivation (also called lyonization) is a process by which one of the two copies of the X chromosome present in female mammals is inactivated. The inactive X chromosome is silenced by packaging in repressive heterochromatin.
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Lord Rayleigh
John William Strutt, 3rd Baron Rayleigh
Born 12 November 1842
Langford Grove, Maldon, Essex, UK
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John William Strutt, 3rd Baron Rayleigh
Born 12 November 1842
Langford Grove, Maldon, Essex, UK
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Lord Rayleigh
John William Strutt, 3rd Baron Rayleigh
Born 12 November 1842
Langford Grove, Maldon, Essex, UK
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John William Strutt, 3rd Baron Rayleigh
Born 12 November 1842
Langford Grove, Maldon, Essex, UK
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November 1 is the 1st day of the year (2nd in leap years) in the Gregorian calendar. There are 0 days remaining.
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Color vision is the capacity of an organism or machine to distinguish objects based on the wavelengths (or frequencies) of the light they reflect or emit. The nervous system derives color by comparing the responses to light from the several types of cone photoreceptors in the eye.
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Color blindness, or color vision deficiency, in humans is the inability to perceive differences between some or all colors that other people can distinguish. It is most often of genetic nature, but may also occur because of eye, nerve, or brain damage, or due to exposure to certain
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opponent process is a color theory that states that the human visual system interprets information about color by processing signals from cones and rods in an antagonistic manner.
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Monochromacy, also known as "total color blindness"[1], is the lack of ability to distinguish colors; caused by cone defect or absence.[2] Monochromacy occurs when two or all three of the cone pigments are missing and color and lightness vision is reduced to
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Herod_Archelaus
