Felidae

 ( Mammal Families ) 

Felidae ( ) is the family of in the order Carnivora colloquially referred to as cats. A member of this family is also called a felid ( ).

The 41 extant taxon Felidae species exhibit the greatest diversity in fur patterns of all terrestrial carnivores. Cats have retractile claws, slender muscular bodies and strong flexible forelimbs. Their teeth and facial muscles allow for a powerful bite. They are all obligate carnivores, and most are solitary ambushing or stalking their prey. Wild cats occur in Africa, Europe, Asia and the Americas. Some wild cat species are adapted to forest and savanna , some to arid environments, and a few also to and terrain. Their activity patterns range from nocturnal and crepuscular to Diurnality, depending on their preferred prey species.

Reginald Innes Pocock divided the extant Felidae into three subfamilies: the Pantherinae, the Felinae and the Acinonychinae, differing from each other by the ossification of the hyoid apparatus and by the cutaneous sheaths which protect their claws. This concept has been revised following developments in molecular biology and techniques for the analysis of morphological data. Today, the living Felidae are divided into two subfamilies: the Pantherinae and Felinae, with the Acinonychinae subsumed into the latter. Pantherinae includes five Panthera and two Neofelis species, while Felinae includes the other 34 species in 12 genera.

The first cats emerged during the Oligocene about , with the appearance of Proailurus and Pseudaelurus. The latter species complex was ancestral to two main lines of felids: the cats in the extant subfamilies, and the "saber-toothed cats" of the extinct subfamily Machairodontinae, including the famous Smilodon.

The "false saber-toothed cats", the Barbourofelidae and Nimravidae, are not true cats but are closely related. Together with the Felidae, Viverridae, Nandiniidae, Eupleridae, and , they constitute the Feliformia.

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Characteristics All members of the cat family have the following characteristics in common:

• They are digitigrade and have five toes on their forefeet and four on their hind feet. Their curved claws are Protraction and attached to the terminal phalanges with and . The claws are guarded by cutaneous sheaths, except in the Acinonyx.
• The pads of both fore and hind feet form compact three-lobed cushions.
• They actively protract the claws by contracting muscles in the toe,
  (2025). 9780226779997, University of Chicago Press. ISBN 9780226779997
  and they passively retract them. The are expanded but do not protract.
• They have lithe and flexible bodies with muscular limbs.
• Their skulls are foreshortened with a rounded profile and large orbits.
• They have 30 teeth with a dentition of . The upper third premolar and lower molar are adapted as carnassial teeth, suited to tearing and cutting flesh. The canine teeth are large, reaching exceptional size in the extinct Machairodontinae. The lower carnassial is smaller than the upper carnassial and has a crown with two compressed blade-like pointed cusps.
• Their are covered with horn-like Filiform papilla, which rasp meat from prey and aid in grooming.
• Their noses project slightly beyond the lower jaw.
• Their eyes are relatively large, situated to provide binocular vision. Their night vision is especially good due to the presence of a tapetum lucidum, which reflects light inside the eyeball, and gives felid eyes their distinctive shine. As a result, the eyes of felids are about six times more light-sensitive than those of humans, and many species are at least partially nocturnal. The retina of felids also contains a relatively high proportion of , adapted for distinguishing moving objects in conditions of dim light, which are complemented by the presence of for sensing colour during the day.
• They have well-developed and highly sensitive whiskers above the eyes, on the cheeks, and the snout, but not below the chin. Whiskers help to navigate in the dark and to capture and hold prey.
• Their external ears are large and especially sensitive to high-frequency sounds in the smaller cat species. This sensitivity allows them to locate small rodent prey.
• The penis is subconical, facing downward when not erect and backward during urination.
  R. F. Ewer (2013). 9781489946560, Springer. . ISBN 9781489946560
  The baculum is small or vestigial, and shorter than in the Canidae.
  R. F. Ewer (1973). 9780801484933, Cornell University Press. . ISBN 9780801484933
  Most felids have penile spines that induce ovulation during copulation.
  R. N. de Morais (2025). 9780470376980, John Wiley & Sons. ISBN 9780470376980
• They have a vomeronasal organ in the roof of the mouth, allowing them to "taste" the air. The use of this organ is associated with the flehmen response.
• They cannot detect the sweetness of sugar, as they lack the sweet taste receptor.
• They share a broadly similar set of vocalizations but with some variation between species. In particular, the pitch of calls varies, with larger species producing deeper sounds; overall, the frequency of felid calls ranges between 50 and 10,000 hertz.
  (2025). 9780226518237, University of Chicago Press. ISBN 9780226518237
  R. F. Graf (1999). 9780750698665, Newnes. . ISBN 9780750698665
  The standard sounds made by felids include mewing, chuffing, spitting, hissing, snarling and growling. Mewing and chuffing are the main contact sound, whereas the others signify an aggressive motivation.
• They can purr during both phases of respiration, though pantherine cats seem to purr only during oestrus and copulation, and as cubs when suckling. Purring is generally a low-pitch sound of 16.8–27.5 Hz and is mixed with other vocalization types during the expiratory phase. The ability to roar comes from an elongated and specially adapted larynx and hyoid bone. When air passes through the larynx on the way from the lungs, the cartilage walls of the larynx vibrate, producing sound. Only lions, leopards, tigers, and jaguars are truly able to roar, although the loudest mews of snow leopards have a similar, if less structured, sound. Clouded leopards can neither purr nor roar, and so Neofelis is said to be a sister group to Panthera. Sabretoothed cats may have had the ability to both roar and purr.

The colour, length and density of their fur are very diverse. Fur colour covers the gamut from white to black, and fur patterns from distinctive small spots, and stripes to small blotches and rosettes. Most cat species are born with spotted fur, except the jaguarundi ( Herpailurus yagouaroundi), Asian golden cat ( Catopuma temminckii) and caracal ( Caracal caracal). The spotted fur of lion ( Panthera leo), cheetah ( Acinonyx jubatus) and cougar ( Puma concolor) cubs change to uniform fur during their ontogeny. Those living in cold environments have thick fur with long hair, like the snow leopard ( Panthera uncia) and the Pallas's cat ( Otocolobus manul). Those living in tropical and hot climate zones have short fur. Several species exhibit melanism with all-black individuals, cougars are notable for lacking melanism but leucism and albinism are present in cougars along with many other felids.

In the great majority of cat species, the tail is between a third and a half of the body length, although with some exceptions, like the Lynx species and margay ( Leopardus wiedii). Cat species vary greatly in body and skull sizes, and weights:

• The largest cat species is the tiger ( Panthera tigris), with a head-to-body length of up to , a weight range of at least , and a skull length ranging from . Although the maximum skull length of a lion is slightly greater at , it is generally smaller in head-to-body length than the tiger.
• The smallest cat species are the rusty-spotted cat ( Prionailurus rubiginosus) and the black-footed cat ( Felis nigripes). The former is in length and weighs . The latter has a head-to-body length of and a maximum recorded weight of .
  (2025). 9780521844185, Cambridge University Press. ISBN 9780521844185

Most cat species have a haploid number of 18 or 19. Central and South American cats have a haploid number of 18, possibly due to the combination of two smaller into a larger one.

(2025). 9780750640695, Butterworh-Heinemann Ltd.. ISBN 9780750640695

Felidae have type IIx Skeletal muscle three times more powerful than the muscle fibers of human athletes.

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Evolution

The family Felidae is part of the Feliformia, a suborder that diverged probably about into several families. The Felidae and the are considered a sister group, which split about .

The earliest cats probably appeared about . Proailurus is the oldest known cat that occurred after the Eocene–Oligocene extinction event about ; fossil remains were excavated in France and Mongolia's Hsanda Gol Formation. Fossil occurrences indicate that the Felidae arrived in North America around . This is about 20million years later than the Ursidae and the Nimravidae, and about 10 million years later than the Canidae.

In the Early Miocene about , Pseudaelurus lived in Africa. Its fossil jaws were also excavated in geological formations of Europe's Vallesian, Asia's Middle Miocene and North America's late Hemingfordian to late Barstovian epochs. Modelling of felid coat pattern transformations revealed that nearly all patterns evolved from small spots.

During the Middle Miocene around 15 million years ago, the extinct subfamily Machairodontinae (colloquially known as "saber-toothed cats") emerged and became widespread across Afro-Eurasia and North America by the Late Miocene. With their large upper Canine tooth saber teeth, they were adapted to prey on large-bodied Megafauna. During the Late Miocene and early Pliocene, machairodontines were the dominant cats and large mammalian predators across Afro-Eurasia and North America, with ancestors of living cats generally being small at this time.

The earliest members of the living cat lineages are known from the Middle Miocene, with the last common ancestor of living cats estimated to have lived around 16 million years ago. Large sized felines and pantherines only emerged during the Pliocene epoch, including the modern big cat genus Panthera. Felids entered South America as part of the Great American Interchange following the emergence of the Isthmus of Panama during the Pliocene epoch.

Machairodontines began to decline during the Pleistocene, perhaps as a result of environmental change and consequential changes in prey abundance, competition with large living cat lineages such as the pantherins as well as possibly archaic humans. The last species belonging to the genera Smilodon and Homotherium became extinct along with many other large mammals around 12–10,000 years ago as part of the end-Pleistocene extinction event, following human arrival to the Americas at the end of the Late Pleistocene.

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Classification

Traditionally, five subfamilies had been distinguished within the Felidae based on Phenotype features: the Pantherinae, the Felinae, the Acinonychinae, and the extinct Machairodontinae and Proailurinae.

(2025). 9780231110136, Columbia University Press. ISBN 9780231110136

Acinonychinae used to only contain the genus Acinonyx but this genus is now within the Felinae subfamily.

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Phylogeny

The following cladogram based on Piras et al. (2013) depicts the phylogeny of basal living and extinct groups.

The phylogenetic relationships of living felids are shown in the following cladogram:

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See also

• Cat gap
• Felid hybrid
• List of felids
• List of largest cats

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External links

Categories: Mammal Families, Extant Chattian First Appearances, Taxa Named By Gotthelf Fischer Von Waldheim

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