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Cat senses

December 18, 2023

Cat senses are adaptations that allow cats to be highly efficient predators. Cats are good at detecting movement in low light, have an acute sense of hearing and smell, and their sense of touch is enhanced by long whiskers that protrude from their heads and bodies. These senses evolved to allow cats to hunt effectively at dawn and dusk.

The large ears, eyes, and many vibrissae of the cat adapt it for lowlight predation
(video) A cat blinking and looking around.

Sight edit

 
The tapetum lucidum reflecting green in the pupils of a cat
 
Cat eyes stand out

Cats have a tapetum lucidum, which is a reflective layer behind the retina that sends light that passes through the retina back into the eye.[1] They also have a high number of rods in their retina that are sensitive to dim light.[2] While these improve the ability to see in darkness and enable cats to see using roughly one-sixth the amount of light that humans need, they appear to reduce net visual acuity, thus detracting when light is abundant. A cat's visual acuity is anywhere from 20/100 to 20/200, which means a cat has to be at 6 metres to see what an average human can see at 20 or 30 metres. Cats seem to be nearsighted, which means they cannot see far objects as well. The ability to see close objects would be well-suited for hunting and capturing prey.[2] In very bright light, the slit-like pupil closes very narrowly over the eye, reducing the amount of light on the sensitive retina, and improving depth of field. Big cats have pupils that contract to a round point. Variation in color of cats' eyes in flash photographs is largely due to the reflection of the flash by the tapetum.

 
A closeup of a cat's eye

Cats have a visual field of view of 200° compared with 180° in humans, but a binocular field (overlap in the images from each eye) narrower than that of humans. As with most predators, their eyes face forward, affording depth perception at the expense of field of view. Field of view is largely dependent upon the placement of the eyes, but may also be related to the eye's construction. Instead of the fovea, which gives humans sharp central vision, cats have a central band known as the visual streak.[3]

Common for carnivorans (and most mammals), cats are dichromats with two types of cone opsins, LWS (OPN1LW) and SWS1 (OPN1SW), somewhat similar to a human with protanopia.[4] Cats can see some colors and can tell the difference between red, blue and yellow lights, as well as between red and green lights.[5] Cats are able to distinguish between blues and violets better than between colors near the red end of the spectrum. But cats cannot see the same richness of hues and saturation of colors that humans can.[2] A 2014 study found that, along with several other mammals, cats lenses transmit significant amounts of ultraviolet (UVA 315–400 nm) light, which suggests that they possess sensitivity to this part of the spectrum.[6][7]

Cats have a third eyelid, the nictitating membrane, which is a thin cover that quickly closes from the side when the cat blinks and is hidden when the cat's eyelid opens.[8] This third eyelid extends upward to protect the eye from trauma, like when moving through tall grass or capturing a prey.[8] This membrane partially closes if the cat is sick, although in a sleepy state this membrane is often visible.[9][10]

Cats often sleep during the day and some periods of the night so they can hunt at dusk and dawn. Unlike humans, cats do not need to fully blink their eyes on a regular basis to keep their eyes lubricated (with tears).[8]

Hearing edit

Cats have one of the broadest ranges of hearing among mammals.[11] Humans and cats have a similar range of hearing on the low end of the scale, but cats can hear much higher-pitched sounds, up to 64 kHz, which is 1.6 octaves above the range of a human, and 1 octave above the range of a dog.[12]

When listening for something, a cat's ears will swivel in that direction; a cat's ear flaps (pinnae) can independently point backwards as well as forwards and sideways to pinpoint the source of the sound. Cats can judge within 8 centimetres (3 inches) the location of a sound being made 1 metre (1 yard) away[13]—this can be useful for locating their prey.

It is a common misconception that all white cats with blue eyes are deaf.[14] This is not true, as there are many blue-eyed cats with perfect hearing. However, white cats with blue eyes do have slightly higher probability of genetic deafness than white cats of other eye colors.[15] White cats having one blue and one other-colored eye are called "odd-eyed" and may be deaf on the same side as the blue eye.[16] This is the result of the yellow iris pigmentation rising to the surface of only one eye, as blue eyes are normal at birth before the adult pigmentation has had a chance to express itself in the eye(s).

Smell edit

A domestic cat's sense of smell is 9-16 times as strong as humans'.[17] Cats have a larger olfactory epithelium than humans (about 20 cm2), meaning that cats have a more acute sense of smell.[18] In fact, cats have an estimated 45 to 200 million odor-sensitive cells in their noses, whereas humans only have 10 million odor-sensitive cells (known as "olfactory receptor neurons", or "ORNs").[19][20][21] Cats also have a scent organ in the roof of their mouths called the vomeronasal (or Jacobson's) organ. When a cat wrinkles its muzzle, lowers its chin, and lets its tongue hang a bit, it is opening the passage to the vomeronasal. This is called gaping. It is equivalent to the Flehmen response in other animals, such as dogs, horses and big cats.

Touch edit

 
Whiskers on the face of a tuxedo kitten.

A cat has about twenty-four movable vibrissae ("whiskers"), in four sets on each upper lip on either side of its nose (some cats may have more). There are also a few on each cheek, tufts over the eyes, bristles on the chin, the cat's inner "wrists", and at the back of the legs.[22] The Sphynx (a nearly hairless breed) may have full length, short, or no whiskers at all.[23]

The structure of the brain region (barrel cortex) which receives information from the vibrissae is similar to that found in the visual cortex which permits the cat to create a three-dimensional map of its surroundings. This does not mean that sensing with vibrissae is a type of vision. It is still a touch sensation and environmental information is built up incrementally (in small steps).[24][25][26][27]

Vibrissae aid sensation and navigation. The upper two rows of whiskers are able to be moved independently from the lower two rows for greater precision during measurement. A cat's whiskers are more than twice as thick as ordinary cat hairs, and their roots are three times deeper in a cat's tissue than other hairs. They have numerous nerve endings at their base, which give cats extraordinarily detailed information about nearby air movements and objects with which they make physical contact. They enable a cat to know that it is near obstacles without it needing to see them.

Whiskers also aid in hunting. High speed photography reveals that when a cat is unable to see its prey because it is too close to its mouth, its whiskers move so as to form a basket shape around its muzzle in order to precisely detect the prey's location.[28][29][failed verification] A cat whose whiskers have been damaged may bite the wrong part of its prey, indicating that they provide cats with detailed information about the shape and activity of its prey.

Taste edit

The cat family has specialized taste bud receptors. Positively, their taste buds possess the two receptors TAS1R1 and TAS1R3 needed to detect umami. These receptors contain molecular changes that reduce their detection of glutamic acid and aspartic acid, the main amino acids tasted as umami flavor in humans while enhancing their detection of the nucleotides inosine monophosphate and free l-Histidine.[30] These nucleotides are particularly enriched in tuna.[30] One of the researchers involved in this research has claimed, "I think umami is as important for cats as sweet is for humans".[31] In their research paper they specifically argue the sensitivity to histidine and inosine explains the palatability of tuna for cats: "the specific combination of the high IMP and free l-Histidine contents of tuna, which produces a strong umami taste synergy that is highly preferred by cats".[30] Negatively, cats lack the TAS1R2 protein, one of two required for function of the sweetness sensory receptor. This is due to a deletion in the relevant gene (Tas1r2) causes a shift in the genetic reading frame, leading to transcription stopping early and no detectable mRNA or protein produced.[32] The other protein, TAS1R3, is present and identical to that of other animals, and the relevant taste buds are still present but inactive. Such a genetic marker found in the entire family and not other animals must be the result of a mutation in an early ancestor; as a deletion mutation it could not revert, and thus would be inherited by all descendants, as the evolutionary tree branched out. Some scientists now believe this is the root of the cat family's extremely specialized evolutionary niche as a hunter and carnivore. Their modified sense of taste would cause them to some degree to ignore plants, a large part of whose taste appeal derives from their high sugar content, in favor of a high-protein carnivorous diet, which would still stimulate their remaining taste receptors.

References edit

  1. ^ Braekevelt CR (1990). "Fine structure of the feline tapetum lucidum". Anatomia, Histologia, Embryologia. 19 (2): 97–105. doi:10.1111/j.1439-0264.1990.tb00892.x. PMID 2240589. S2CID 40405393.
  2. ^ a b c "How Cats See The World Compared To Humans [PICTURES]". Business Insider. Retrieved 27 August 2018.
  3. ^ Hughes A (1975). "A quantitative analysis of the cat retinal ganglion cell topography". J. Comp. Neurol. 163 (1): 107–28. doi:10.1002/cne.901630107. PMID 1159109. S2CID 20734338.
  4. ^ Jacobs, GH (12 October 2009). "Evolution of colour vision in mammals". Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences. 364 (1531): 2957–67. doi:10.1098/rstb.2009.0039. PMC 2781854. PMID 19720656.
  5. ^ Guenther, Elke; Zrenner, Eberhart (April 1993). "The Spectral Sensitivity of Dark- and Light-adapted Cat Retinal Ganglion Cells". Journal of Neuroscience. 13 (4): 1543–1550. doi:10.1523/JNEUROSCI.13-04-01543.1993. PMC 6576706. PMID 8463834.
  6. ^ Lewis, Tanya (18 February 2014). "Cats and Dogs May See in Ultraviolet". LiveScience.com.
  7. ^ R. H. Douglas; G. Jeffery (19 February 2014). "The spectral transmission of ocular media suggests ultraviolet sensitivity is widespread among mammals". Proceedings of the Royal Society B: Biological Sciences. Royal Society Publishing: Proceedings B. 281 (1780): 20132995. doi:10.1098/rspb.2013.2995. PMC 4027392. PMID 24552839.
  8. ^ a b c "Do Cats Blink?". www.petmd.com. Retrieved 2 August 2023.
  9. ^ "Why do cats have an inner eyelid as well as outer ones?". Scientific American. Retrieved 2 August 2023.
  10. ^ https://forestvets.co.uk/wp-content/plugins/vetstream_swagger/pet-health/pet/pet_info_print.php?vetstream-type=ZmVsaXM=&nodeguid=b15ee007-b544-493f-9d6d-523270779780
  11. ^ Heffner, Rickye S.; Heffner, Henry E. (1 January 1985). "Hearing range of the domestic cat". Hearing Research. 19 (1): 85–88. doi:10.1016/0378-5955(85)90100-5. ISSN 0378-5955. PMID 4066516. S2CID 4763009.
  12. ^ "Frequency Hearing Ranges in Dogs and Other Species".
  13. ^ "Cat Ears & Hearing". Animal Planet. 15 May 2012. Retrieved 20 June 2018.
  14. ^ Muriel Beadle (29 October 1979). Cat. Simon and Schuster. p. 164. ISBN 978-0-671-25190-1.
  15. ^ Geigy CA, Heid S, Steffen F, Danielson K, Jaggy A, Gaillard C (2007). "Does a pleiotropic gene explain deafness and blue irises in white cats?". Vet. J. 173 (3): 548–53. doi:10.1016/j.tvjl.2006.07.021. PMID 16956778.
  16. ^ Hartwell, Sarah. "White Cats, Eye Colours and Deafness". Retrieved 5 September 2006.
  17. ^ . About.com. Archived from the original on 6 December 2010. Retrieved 29 November 2006.
  18. ^ "The Cat's Olfaction". cdn.citl.illinois.edu. Retrieved 26 December 2020.
  19. ^ "Why Cats Sniff Butts".
  20. ^ "The Amazing Sense of Smell - Cats International". catsinternational.org.
  21. ^ Schacter, Daniel L.; Gilbert, Daniel; Nock, Matthew; Wegner, Daniel (2020). Introducing psychology (5 ed.). New York. p. 119. ISBN 978-1-319-19077-4. Retrieved 17 February 2023.{{cite book}}: CS1 maint: location missing publisher (link)
  22. ^ . Archived from the original on 25 January 2007. Retrieved 20 December 2006.
  23. ^ "Sphynx". Purina. Retrieved 31 December 2019.
  24. ^ Dykes RW, Dudar JD, Tanji DG, Publicover NG (September 1977). "Somatotopic projections of mystacial vibrissae on cerebral cortex of cats". J. Neurophysiol. 40 (5): 997–1014. doi:10.1152/jn.1977.40.5.997. PMID 903802.
  25. ^ Gottschaldt KM, Young DW (October 1977). "Properties of different functional types of neurones in the cat's rostral trigeminal nuclei responding to sinus hair stimulation". J. Physiol. 272 (1): 57–84. doi:10.1113/jphysiol.1977.sp012034. PMC 1353593. PMID 592153.
  26. ^ Nomura S, Itoh K, Sugimoto T, Yasui Y, Kamiya H, Mizuno N (November 1986). "Mystacial vibrissae representation within the trigeminal sensory nuclei of the cat". J. Comp. Neurol. 253 (1): 121–33. doi:10.1002/cne.902530110. PMID 2432098. S2CID 26200549.
  27. ^ Haight JR (September 1972). "The general organization of somatotopic projections to SII cerebral neocortex in the cat". Brain Res. 44 (2): 483–502. doi:10.1016/0006-8993(72)90315-0. PMID 5075705.
  28. ^ Cat Traits 27 September 2007 at the Wayback Machine Floridaconservation.org
  29. ^ Mel Sunquist; Sunquist, Fiona; Sunquist, Melvin E. (2002). Wild cats of the world. Chicago: University of Chicago Press. ISBN 978-0-226-77999-7.
  30. ^ a b c McGrane, Scott J; Gibbs, Matthew; Hernangomez de Alvaro, Carlos; Dunlop, Nicola; Winnig, Marcel; Klebansky, Boris; Waller, Daniel (1 January 2023). "Umami taste perception and preferences of the domestic cat (Felis catus), an obligate carnivore". Chemical Senses. 48. doi:10.1093/chemse/bjad026. ISSN 0379-864X. PMC 10468298. PMID 37551788.
  31. ^ Grimm, David (1 October 2023). "Why do cats love tuna so much?". Science. 381 (6661): 935. Bibcode:2023Sci...381..935G. doi:10.1126/science.adk5725. ISSN 0036-8075. PMID 37651517. S2CID 261395204.
  32. ^ Li X; Li W; Wang H; et al. (July 2005). "Pseudogenization of a Sweet-Receptor Gene Accounts for Cats' Indifference toward Sugar". PLOS Genet. 1 (1): 27–35. doi:10.1371/journal.pgen.0010003. PMC 1183522. PMID 16103917.

December 18, 2023
senses, adaptations, that, allow, cats, highly, efficient, predators, cats, good, detecting, movement, light, have, acute, sense, hearing, smell, their, sense, touch, enhanced, long, whiskers, that, protrude, from, their, heads, bodies, these, senses, evolved,. Cat senses are adaptations that allow cats to be highly efficient predators Cats are good at detecting movement in low light have an acute sense of hearing and smell and their sense of touch is enhanced by long whiskers that protrude from their heads and bodies These senses evolved to allow cats to hunt effectively at dawn and dusk The large ears eyes and many vibrissae of the cat adapt it for lowlight predation source source source source source source source source video A cat blinking and looking around Contents 1 Sight 2 Hearing 3 Smell 4 Touch 5 Taste 6 ReferencesSight edit nbsp The tapetum lucidum reflecting green in the pupils of a cat nbsp Cat eyes stand outCats have a tapetum lucidum which is a reflective layer behind the retina that sends light that passes through the retina back into the eye 1 They also have a high number of rods in their retina that are sensitive to dim light 2 While these improve the ability to see in darkness and enable cats to see using roughly one sixth the amount of light that humans need they appear to reduce net visual acuity thus detracting when light is abundant A cat s visual acuity is anywhere from 20 100 to 20 200 which means a cat has to be at 6 metres to see what an average human can see at 20 or 30 metres Cats seem to be nearsighted which means they cannot see far objects as well The ability to see close objects would be well suited for hunting and capturing prey 2 In very bright light the slit like pupil closes very narrowly over the eye reducing the amount of light on the sensitive retina and improving depth of field Big cats have pupils that contract to a round point Variation in color of cats eyes in flash photographs is largely due to the reflection of the flash by the tapetum nbsp A closeup of a cat s eyeCats have a visual field of view of 200 compared with 180 in humans but a binocular field overlap in the images from each eye narrower than that of humans As with most predators their eyes face forward affording depth perception at the expense of field of view Field of view is largely dependent upon the placement of the eyes but may also be related to the eye s construction Instead of the fovea which gives humans sharp central vision cats have a central band known as the visual streak 3 Common for carnivorans and most mammals cats are dichromats with two types of cone opsins LWS OPN1LW and SWS1 OPN1SW somewhat similar to a human with protanopia 4 Cats can see some colors and can tell the difference between red blue and yellow lights as well as between red and green lights 5 Cats are able to distinguish between blues and violets better than between colors near the red end of the spectrum But cats cannot see the same richness of hues and saturation of colors that humans can 2 A 2014 study found that along with several other mammals cats lenses transmit significant amounts of ultraviolet UVA 315 400 nm light which suggests that they possess sensitivity to this part of the spectrum 6 7 Cats have a third eyelid the nictitating membrane which is a thin cover that quickly closes from the side when the cat blinks and is hidden when the cat s eyelid opens 8 This third eyelid extends upward to protect the eye from trauma like when moving through tall grass or capturing a prey 8 This membrane partially closes if the cat is sick although in a sleepy state this membrane is often visible 9 10 Cats often sleep during the day and some periods of the night so they can hunt at dusk and dawn Unlike humans cats do not need to fully blink their eyes on a regular basis to keep their eyes lubricated with tears 8 Hearing editCats have one of the broadest ranges of hearing among mammals 11 Humans and cats have a similar range of hearing on the low end of the scale but cats can hear much higher pitched sounds up to 64 kHz which is 1 6 octaves above the range of a human and 1 octave above the range of a dog 12 When listening for something a cat s ears will swivel in that direction a cat s ear flaps pinnae can independently point backwards as well as forwards and sideways to pinpoint the source of the sound Cats can judge within 8 centimetres 3 inches the location of a sound being made 1 metre 1 yard away 13 this can be useful for locating their prey It is a common misconception that all white cats with blue eyes are deaf 14 This is not true as there are many blue eyed cats with perfect hearing However white cats with blue eyes do have slightly higher probability of genetic deafness than white cats of other eye colors 15 White cats having one blue and one other colored eye are called odd eyed and may be deaf on the same side as the blue eye 16 This is the result of the yellow iris pigmentation rising to the surface of only one eye as blue eyes are normal at birth before the adult pigmentation has had a chance to express itself in the eye s Smell editA domestic cat s sense of smell is 9 16 times as strong as humans 17 Cats have a larger olfactory epithelium than humans about 20 cm2 meaning that cats have a more acute sense of smell 18 In fact cats have an estimated 45 to 200 million odor sensitive cells in their noses whereas humans only have 10 million odor sensitive cells known as olfactory receptor neurons or ORNs 19 20 21 Cats also have a scent organ in the roof of their mouths called the vomeronasal or Jacobson s organ When a cat wrinkles its muzzle lowers its chin and lets its tongue hang a bit it is opening the passage to the vomeronasal This is called gaping It is equivalent to the Flehmen response in other animals such as dogs horses and big cats Touch edit nbsp Whiskers on the face of a tuxedo kitten A cat has about twenty four movable vibrissae whiskers in four sets on each upper lip on either side of its nose some cats may have more There are also a few on each cheek tufts over the eyes bristles on the chin the cat s inner wrists and at the back of the legs 22 The Sphynx a nearly hairless breed may have full length short or no whiskers at all 23 The structure of the brain region barrel cortex which receives information from the vibrissae is similar to that found in the visual cortex which permits the cat to create a three dimensional map of its surroundings This does not mean that sensing with vibrissae is a type of vision It is still a touch sensation and environmental information is built up incrementally in small steps 24 25 26 27 Vibrissae aid sensation and navigation The upper two rows of whiskers are able to be moved independently from the lower two rows for greater precision during measurement A cat s whiskers are more than twice as thick as ordinary cat hairs and their roots are three times deeper in a cat s tissue than other hairs They have numerous nerve endings at their base which give cats extraordinarily detailed information about nearby air movements and objects with which they make physical contact They enable a cat to know that it is near obstacles without it needing to see them Whiskers also aid in hunting High speed photography reveals that when a cat is unable to see its prey because it is too close to its mouth its whiskers move so as to form a basket shape around its muzzle in order to precisely detect the prey s location 28 29 failed verification A cat whose whiskers have been damaged may bite the wrong part of its prey indicating that they provide cats with detailed information about the shape and activity of its prey Taste editThe cat family has specialized taste bud receptors Positively their taste buds possess the two receptors TAS1R1 and TAS1R3 needed to detect umami These receptors contain molecular changes that reduce their detection of glutamic acid and aspartic acid the main amino acids tasted as umami flavor in humans while enhancing their detection of the nucleotides inosine monophosphate and free l Histidine 30 These nucleotides are particularly enriched in tuna 30 One of the researchers involved in this research has claimed I think umami is as important for cats as sweet is for humans 31 In their research paper they specifically argue the sensitivity to histidine and inosine explains the palatability of tuna for cats the specific combination of the high IMP and free l Histidine contents of tuna which produces a strong umami taste synergy that is highly preferred by cats 30 Negatively cats lack the TAS1R2 protein one of two required for function of the sweetness sensory receptor This is due to a deletion in the relevant gene Tas1r2 causes a shift in the genetic reading frame leading to transcription stopping early and no detectable mRNA or protein produced 32 The other protein TAS1R3 is present and identical to that of other animals and the relevant taste buds are still present but inactive Such a genetic marker found in the entire family and not other animals must be the result of a mutation in an early ancestor as a deletion mutation it could not revert and thus would be inherited by all descendants as the evolutionary tree branched out Some scientists now believe this is the root of the cat family s extremely specialized evolutionary niche as a hunter and carnivore Their modified sense of taste would cause them to some degree to ignore plants a large part of whose taste appeal derives from their high sugar content in favor of a high protein carnivorous diet which would still stimulate their remaining taste receptors References edit Braekevelt CR 1990 Fine structure of the feline tapetum lucidum Anatomia Histologia Embryologia 19 2 97 105 doi 10 1111 j 1439 0264 1990 tb00892 x PMID 2240589 S2CID 40405393 a b c How Cats See The World Compared To Humans PICTURES Business Insider Retrieved 27 August 2018 Hughes A 1975 A quantitative analysis of the cat retinal ganglion cell topography J Comp Neurol 163 1 107 28 doi 10 1002 cne 901630107 PMID 1159109 S2CID 20734338 Jacobs GH 12 October 2009 Evolution of colour vision in mammals Philosophical Transactions of the Royal Society of London Series B Biological Sciences 364 1531 2957 67 doi 10 1098 rstb 2009 0039 PMC 2781854 PMID 19720656 Guenther Elke Zrenner Eberhart April 1993 The Spectral Sensitivity of Dark and Light adapted Cat Retinal Ganglion Cells Journal of Neuroscience 13 4 1543 1550 doi 10 1523 JNEUROSCI 13 04 01543 1993 PMC 6576706 PMID 8463834 Lewis Tanya 18 February 2014 Cats and Dogs May See in Ultraviolet LiveScience com R H Douglas G Jeffery 19 February 2014 The spectral transmission of ocular media suggests ultraviolet sensitivity is widespread among mammals Proceedings of the Royal Society B Biological Sciences Royal Society Publishing Proceedings B 281 1780 20132995 doi 10 1098 rspb 2013 2995 PMC 4027392 PMID 24552839 a b c Do Cats Blink www petmd com Retrieved 2 August 2023 Why do cats have an inner eyelid as well as outer ones Scientific American Retrieved 2 August 2023 https forestvets co uk wp content plugins vetstream swagger pet health pet pet info print php vetstream type ZmVsaXM amp nodeguid b15ee007 b544 493f 9d6d 523270779780 Heffner Rickye S Heffner Henry E 1 January 1985 Hearing range of the domestic cat Hearing Research 19 1 85 88 doi 10 1016 0378 5955 85 90100 5 ISSN 0378 5955 PMID 4066516 S2CID 4763009 Frequency Hearing Ranges in Dogs and Other Species Cat Ears amp Hearing Animal Planet 15 May 2012 Retrieved 20 June 2018 Muriel Beadle 29 October 1979 Cat Simon and Schuster p 164 ISBN 978 0 671 25190 1 Geigy CA Heid S Steffen F Danielson K Jaggy A Gaillard C 2007 Does a pleiotropic gene explain deafness and blue irises in white cats Vet J 173 3 548 53 doi 10 1016 j tvjl 2006 07 021 PMID 16956778 Hartwell Sarah White Cats Eye Colours and Deafness Retrieved 5 September 2006 The Nose Knows About com Archived from the original on 6 December 2010 Retrieved 29 November 2006 The Cat s Olfaction cdn citl illinois edu Retrieved 26 December 2020 Why Cats Sniff Butts The Amazing Sense of Smell Cats International catsinternational org Schacter Daniel L Gilbert Daniel Nock Matthew Wegner Daniel 2020 Introducing psychology 5 ed New York p 119 ISBN 978 1 319 19077 4 Retrieved 17 February 2023 a href Template Cite book html title Template Cite book cite book a CS1 maint location missing publisher link Cat s Whiskers Archived from the original on 25 January 2007 Retrieved 20 December 2006 Sphynx Purina Retrieved 31 December 2019 Dykes RW Dudar JD Tanji DG Publicover NG September 1977 Somatotopic projections of mystacial vibrissae on cerebral cortex of cats J Neurophysiol 40 5 997 1014 doi 10 1152 jn 1977 40 5 997 PMID 903802 Gottschaldt KM Young DW October 1977 Properties of different functional types of neurones in the cat s rostral trigeminal nuclei responding to sinus hair stimulation J Physiol 272 1 57 84 doi 10 1113 jphysiol 1977 sp012034 PMC 1353593 PMID 592153 Nomura S Itoh K Sugimoto T Yasui Y Kamiya H Mizuno N November 1986 Mystacial vibrissae representation within the trigeminal sensory nuclei of the cat J Comp Neurol 253 1 121 33 doi 10 1002 cne 902530110 PMID 2432098 S2CID 26200549 Haight JR September 1972 The general organization of somatotopic projections to SII cerebral neocortex in the cat Brain Res 44 2 483 502 doi 10 1016 0006 8993 72 90315 0 PMID 5075705 Cat Traits Archived 27 September 2007 at the Wayback Machine Floridaconservation org Mel Sunquist Sunquist Fiona Sunquist Melvin E 2002 Wild cats of the world Chicago University of Chicago Press ISBN 978 0 226 77999 7 a b c McGrane Scott J Gibbs Matthew Hernangomez de Alvaro Carlos Dunlop Nicola Winnig Marcel Klebansky Boris Waller Daniel 1 January 2023 Umami taste perception and preferences of the domestic cat Felis catus an obligate carnivore Chemical Senses 48 doi 10 1093 chemse bjad026 ISSN 0379 864X PMC 10468298 PMID 37551788 Grimm David 1 October 2023 Why do cats love tuna so much Science 381 6661 935 Bibcode 2023Sci 381 935G doi 10 1126 science adk5725 ISSN 0036 8075 PMID 37651517 S2CID 261395204 Li X Li W Wang H et al July 2005 Pseudogenization of a Sweet Receptor Gene Accounts for Cats Indifference toward Sugar PLOS Genet 1 1 27 35 doi 10 1371 journal pgen 0010003 PMC 1183522 PMID 16103917 Retrieved from https en wikipedia org w index php title Cat senses amp oldid 1187235413 Sight, wikipedia, wiki, book, books, library,

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