fbpx
Wikipedia

Feliformia

February 16, 2024

Feliformia is a suborder within the order Carnivora consisting of "cat-like" carnivorans, including cats (large and small), hyenas, mongooses, viverrids, and related taxa. Feliformia stands in contrast to the other suborder of Carnivora, Caniformia (also Canoidea, "dog-like" carnivorans).[1]

Feliforms
Temporal range: 40–0 Ma Middle Eocene-Holocene
Clockwise from top-left: fossa (family Eupleridae), leopard (family Felidae), stripe-necked mongoose (family Herpestidae), African civet (family Viverridae), two-spotted palm civet (family Nandiniidae), spotted hyena (family Hyaenidae)
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Carnivora
Suborder: Feliformia
Kretzoi, 1945
Families

The separation of the Carnivora into the broad groups of feliforms and caniforms is widely accepted, as is the definition of Feliformia and Caniformia as suborders (sometimes superfamilies). The classification of feliforms as part of the Feliformia suborder or under separate groupings continues to evolve.

Systematic classifications dealing with only extant taxa include all feliforms into the Feliformia suborder, though variations exist in the definition and grouping of families and genera.[2][3] Indeed, molecular phylogenies suggest that all extant Feliformia are monophyletic.[4]

Systematic classifications dealing with both extant and extinct taxa vary more widely.[5][6] Some separate the feliforms (extant and extinct) as Aeluroidea (superfamily) and Feliformia (suborder).[6] Others include all feliforms (extant, extinct and "possible ancestors") into the Feliformia suborder.[5] Some studies suggest this inclusion of "possible ancestors" into Feliformia (or even Carnivora) may be spurious.[7] The extinct (†) families as reflected in the taxa chart are the least problematic in terms of their relationship with extant feliforms (with the most problematic being Nimravidae).

Characteristics edit

 
Feliformia skull showing double-chambered bullae

All extant feliforms share a common attribute: their auditory bullae (bony capsules enclosing the middle and inner ear).[8] This is a key diagnostic in classifying species as feliform versus caniform. In feliforms, the auditory bullae are double-chambered, composed of two bones joined by a septum. Caniforms have single-chambered or partially divided auditory bullae, composed of a single bone. This feature, however, is problematic for the classification of the extinct Nimravidae as feliforms. Nimravid fossils show ossified bullae with no septum, or no trace at all of the entire bulla. It is assumed that they had a cartilaginous housing of the ear mechanism.[9]

The specific characteristics of extant feliform bullae suggest a common ancestor, though one has not been identified in the fossil records. There are other characteristics that differentiate feliforms from caniforms and probably existed in their stem taxa. But, due to speciation, these do not apply unambiguously to all extant species.

Feliforms tend to have shorter rostrums (snouts) than caniforms, fewer teeth, and more specialized carnassials. Feliforms tend to be more carnivorous and are generally ambush hunters. Caniforms tend more toward omnivorous and opportunity-based feeding. However, omnivorous feliforms also exist, particularly in the family Viverridae.

Many feliforms have retractile or semi-retractile claws and many are arboreal or semi-arboreal. Feliforms also tend to be more digitigrade (walking on toes). Most caniforms are terrestrial and have non-retractile claws.

Extant families edit

 
Fossa (Cryptoprocta ferox)
 
Cheetah (Acinonyx jubatus)
 
Spotted hyena (Crocuta crocuta)
 
Meerkat (Suricata suricatta)
 
Binturong (Arctictis binturong)

Seven families are extant, with 12 subfamilies, 56 genera, and 114 species in the Feliformia suborder. They range natively across all continents except Australia and Antarctica. Most species are arboreal or semiarboreal ambush hunters. Target prey vary based on the species size and available food sources (with the larger species feeding mainly on small mammals and the smallest species feeding on insects or invertebrates).

An overview of each family is provided here. For detailed taxa and descriptions of the species in each family, follow the links to other articles and external references.

Family Eupleridae (the "Malagasy carnivorans") includes fossa, falanouc, Malagasy civet and Malagasy mongooses, all of which are restricted to the island of Madagascar. The eight species in the family exhibit significant variations in form. These differences initially led to the species in this family sharing common names with, and being placed in the different families of, apparently more similar species on the mainland (e.g. civets and mongoose). However, phylogenetic analysis of DNA provides strong evidence that all Malagasy carnivorans evolved from a single common ancestor that was a herpestid (Yoder et al. 2003).[10][11] Phylogenetic analysis supports this view and places all of the Malagasy carnivorans in the family Eupleridae.[12]

The differences in form make it difficult to concisely summarise the species in this family. The range in size is as diverse as the range in form, with smaller species at less than 500 g (1 lb) and the largest species at up to 12 kg (26 lb). Some have retractile or semi-retractile claws (the fossa and the Malagasy civet) and others do not (the falanouc and Malagasy mongooses). They all tend to have slender bodies and pointed rostra (except the fossa, which has a blunt snout). Diet varies with size and form of the species and, like their mainland counterparts, ranges from small mammals, insects and invertebrates through to crustaceans and molluscs.

Family Felidae (cats) are the most widespread of the "cat-like" carnivorans. There are 41 extant species, and all but a few have retractile claws. This family is represented on all continents except Australia (where domestic cats have been introduced) and the Antarctic. The species vary in size from the tiny black-footed cat (Felis nigripes) at only 2 kg (4.5 lb) to the tiger (Panthera tigris) at 300 kg (660 lb). Diet ranges from large to small mammals, birds and insects (depending on species size).

Family Hyaenidae (hyenas and aardwolf) has four extant species and two subspecies. All show features of convergent evolution with canids, including non-retractile claws, long muzzles, and adaptations to running for long distances. They are extant in the Middle East, India and Africa. Hyenas are large, powerful animals, up to 80 kg (176 lb) and represent one of the most prolific large carnivorans on the planet. The aardwolf is much smaller and is a specialised feeder, eating mainly harvester termites.

Family Herpestidae (mongooses, kusimanses, and the meerkat) has 32 species. Previously, these were placed in the family Viverridae. However, Wilson and Reeder (1993) established the herpestids as morphologically and genetically distinct from viverrids. They are extant in Africa, Middle East and Asia. All have non-retractile claws. They are smaller as a family, ranging from 1 kg (2.2 lb) to 5 kg (11 lb), and typically have long, slender bodies and short legs. Diet varies based on species size and available food sources, ranging from small mammals, birds to reptiles, insects and crabs. Some species are omnivorous, including fruits and tubers in their diet.

Family Nandiniidae (the African palm civet) has only one species (Nandinia binotata), extant across sub-Saharan Africa. They have retractile claws and are slender-bodied, arboreal omnivores (with fruit making up much of their diet). They are relatively small with the larger males weighing up to 5 kg (11 lb).

Family Prionodontidae (Asiatic linsangs) has two extant species in one genus. They live in Southern-East Asia. All are arboreal hypercarnivorans. They are the closest living relatives of the family Felidae.[13]

Family Viverridae (all but two civets, genets, oyans, and the binturong) has 30 living species. They all have long bodies, short legs with retractile claws, and usually long tails. In weight, the species range from 0.5–14 kg (1.1–30.9 lb). Some occur in Southern Europe, but most in Africa and Asia. Their diet ranges from fruit and plants to insects, crustaceans and molluscs, and small mammals.

Evolution edit

 
Feliform evolutionary timeline

In the Middle Palaeocene (60 million years ago), Miacoidea appears. Miacoids were a group of paraphyletic taxa believed to be basal to Carnivora. They had Carnivora-like carnassials but lacked fully ossified auditory bullae. Miacids were small arboreal carnivorans and, based on their size (roughly that of mongooses), they probably fed on insects, small mammals and birds.

The miacoids are divided into two groups: the miacids, with a full complement of molars, and the viverravines with a reduced number of molars and more specialized carnassials. These dental differences resemble the difference between Caniforms (with more teeth) and Feliforms (with fewer teeth) but this may not mean evolutionary lineages. It was thought that Viverravidae was basal to the Feliforms. However, some studies suggest this is not the case.[7]

In the Middle Eocene (about 42 mya), the miacids started to branch into two distinct groups of the order Carnivora: the Feliforms and Caniforms. The miacid precursors to the extant Feliforms remained forest-dwelling, arboreal or semi-arboreal ambush hunters, while the Caniform precursors were more mobile, opportunistic hunters. While it is clear that the first Feliforms appeared at this time, there is no clear common ancestor of the Feliform families in the fossil records. As forest dwellers, the early Feliforms were subject to more rapid decomposition in the absence of sedimentary materials, resulting in large gaps in the fossil records.

For more discussion on feliform evolution and the divergence from the caniforms, together with additional external references on this subject, see the articles on Carnivora, Miacoidea and Carnivoramorpha.

Classification edit

Family Stenoplesictidae is a polyphyletic family of extinct viverrid-like feliforms.

Phylogenetic tree edit

The phylogenetic relationships of feliforms are shown in the following cladogram[16][20][21][22]

 Feliformia 

Nimravidae (false saber-toothed cats)  

 Aeluroidea 

Nandiniidae (African palm civet)  

 Viverroidea 

Viverridae (viverrids)  

 Herpestoidea 

Herpestidae (mongooses)  

Eupleridae (Malagasy mongooses)  

Lophocyonidae

Percrocutidae  

Hyaenidae (hyenas)  

 Feloidea 
                            

Haplogale

Prionodontidae (Asiatic linsangs)  

References edit

  1. ^ Basic Biology (2015). "Carnivora".
  2. ^ Taxonomic references - extant species (1): Supporting descriptive information and pictures: Diversity Web (online) – Feliformia
  3. ^ Taxonomic references - extant species (2): Integrated Taxonomic Information System (ITIS)
  4. ^ Eizirik, E., W.J. Murphy, K.P. Koepfli, W.E. Johnson, J.W. Dragoo, R.K.Wayne, en S.J. O’Brien, 2010. Pattern and timing of the diversification of the mammalian order Carnivora inferred from multiple nuclear gene sequences. Molecular Phylogenetics and Evolution 56: 49-63. doi:10.1016/j.ympev.2010.01.033
  5. ^ a b Fossil record data (with taxonomic references) extant and extinct species: The Paleaobiology Database
  6. ^ a b Supporting taxonomic references extant and extinct species: Systema Naturae 2000 / Classification - Suborder Feliformia 2007-09-26 at the Wayback Machine
  7. ^ a b Wesley‐Hunt, Gina D.; Flynn, John J. (2005). "Phylogeny of the carnivora: Basal relationships among the carnivoramorphans, and assessment of the position of 'miacoidea' relative to carnivora". Journal of Systematic Palaeontology. 3 (1): 1–28. doi:10.1017/S1477201904001518. ISSN 1477-2019. S2CID 86755875.
  8. ^ R. F. Ewer (1973). The Carnivores. Cornell University Press. ISBN 0-8014-8493-6.
  9. ^ Turner, Alan (1997). The Big Cats and their Fossil Relatives: an illustrated guide. New York: Columbia University Press. p. 234. ISBN 0-231-10228-3.
  10. ^ Anne D. Yoder and John J. Flynn 2003:
  11. ^ Yoder, A., M. Burns, S. Zehr, T. Delefosse, G. Veron, S. Goodman, J. Flynn. 2003:
  12. ^ Philippe Gaubert, W. Chris Wozencraft, Pedro Cordeiro-Estrela and Géraldine Veron. 2005 - Mosaics of Convergences and Noise in Morphological Phylogenies: What's in a Viverrid-Like Carnivoran?
  13. ^ Gaubert, P., & Veron, G. (2003). "Exhaustive sample set among Viverridae reveals the sister-group of felids: the linsangs as a case of extreme morphological convergence within Feliformia". Proceedings of the Royal Society, Series B, 270 270 (1532): 2523–30. doi:10.1098/rspb.2003.2521
  14. ^ Wang, Jian; Zhang, Zhaoqun (2015). "Phylogenetic analysis on Palaeogale (Palaeogalidae, Carnivora) based on specimens from Oligocene strata of Saint-Jacques, Nei Mongol". Vertebrata PalAsiatica. 53 (4): 310–334.
  15. ^ a b Egi, N.; Tsubamoto, T.; et al. (2016). "Taxonomic revisions on nimravids and small feliforms (Mammalia, Carnivora) from the Upper Eocene of Mongolia". Historical Biology. 28 (1–2): 105–119. doi:10.1080/08912963.2015.1012508. S2CID 86239933.
  16. ^ a b c Werdelin, L.; Yamaguchi, N.; Johnson, W. E.; O'Brien, S. J. (2010). "Phylogeny and evolution of cats (Felidae)". In Macdonald, D. W.; Loveridge, A. J. (eds.). Biology and Conservation of Wild Felids. Oxford, UK: Oxford University Press. pp. 59–82. ISBN 978-0-19-923445-5.
  17. ^ Hunt, R.M. (April 2001). "Basicranial anatomy of the living linsangs Prionodon and Poiana (Mammalia, Carnivora, Viverridae), with comments on the early evolution of aeluroid carnivorans". American Museum Novitates (3330): 1–24. doi:10.1206/0003-0082(2001)330<0001:BAOTLL>2.0.CO;2. S2CID 83979855.
  18. ^ Costeur, L.; Maridet, O.; et al. (December 2011). "Palaeoecology and palaeoenvironment of the Aquitanian locality Ulm-Westtangente (MN2, Lower Freshwater Molasse, Germany)". Swiss Journal of Palaeontology. 131: 183–199. doi:10.1007/s13358-011-0034-3. S2CID 86544459.
  19. ^ Wozencraft, W. C. (2005). "Order Carnivora". In Wilson, D. E.; Reeder, D. M. (eds.). Mammal Species of the World: A Taxonomic and Geographic Reference (3rd ed.). Johns Hopkins University Press. pp. 548–559. ISBN 978-0-8018-8221-0. OCLC 62265494.
  20. ^ Morales, Jorge; Mayda, Serdar; Valenciano, Alberto; DeMiguel, Daniel; Kaya, Tanju (2019). "A new lophocyonid, Izmirictis cani gen. et sp. nov. (Carnivora: Mammalia), from the lower Miocene of Turkey". Journal of Systematic Palaeontology. Online Edition. 17 (16): 1347–1358. doi:10.1080/14772019.2018.1529000. hdl:10261/223616. S2CID 91268744.
  21. ^ Wilson, D.E.; Mittermeier, R.A., eds. (2009). Handbook of the Mammals of the World, Volume 1: Carnivora. Barcelona: Lynx Ediciones. pp. 50–658. ISBN 978-84-96553-49-1.
  22. ^ Barycka, E. (2007). "Evolution and systematics of the feliform Carnivora". Mammalian Biology. 72 (5): 257–282. doi:10.1016/j.mambio.2006.10.011.

February 16, 2024
feliformia, suborder, within, order, carnivora, consisting, like, carnivorans, including, cats, large, small, hyenas, mongooses, viverrids, related, taxa, stands, contrast, other, suborder, carnivora, caniformia, also, canoidea, like, carnivorans, feliformstem. Feliformia is a suborder within the order Carnivora consisting of cat like carnivorans including cats large and small hyenas mongooses viverrids and related taxa Feliformia stands in contrast to the other suborder of Carnivora Caniformia also Canoidea dog like carnivorans 1 FeliformsTemporal range 40 0 Ma PreꞒ Ꞓ O S D C P T J K Pg N Middle Eocene HoloceneClockwise from top left fossa family Eupleridae leopard family Felidae stripe necked mongoose family Herpestidae African civet family Viverridae two spotted palm civet family Nandiniidae spotted hyena family Hyaenidae Scientific classificationDomain EukaryotaKingdom AnimaliaPhylum ChordataClass MammaliaOrder CarnivoraSuborder FeliformiaKretzoi 1945Families Nimravidae Palaeogalidae unranked Aeluroidea Nandiniidae Superfamily Feloidea Felidae Prionodontidae Barbourofelidae Infraorder Viverroidea Viverridae Superfamily Herpestoidea Eupleridae Herpestidae Hyaenidae Lophocyonidae PercrocutidaeThe separation of the Carnivora into the broad groups of feliforms and caniforms is widely accepted as is the definition of Feliformia and Caniformia as suborders sometimes superfamilies The classification of feliforms as part of the Feliformia suborder or under separate groupings continues to evolve Systematic classifications dealing with only extant taxa include all feliforms into the Feliformia suborder though variations exist in the definition and grouping of families and genera 2 3 Indeed molecular phylogenies suggest that all extant Feliformia are monophyletic 4 Systematic classifications dealing with both extant and extinct taxa vary more widely 5 6 Some separate the feliforms extant and extinct as Aeluroidea superfamily and Feliformia suborder 6 Others include all feliforms extant extinct and possible ancestors into the Feliformia suborder 5 Some studies suggest this inclusion of possible ancestors into Feliformia or even Carnivora may be spurious 7 The extinct families as reflected in the taxa chart are the least problematic in terms of their relationship with extant feliforms with the most problematic being Nimravidae Contents 1 Characteristics 2 Extant families 3 Evolution 4 Classification 4 1 Phylogenetic tree 5 ReferencesCharacteristics edit nbsp Feliformia skull showing double chambered bullaeAll extant feliforms share a common attribute their auditory bullae bony capsules enclosing the middle and inner ear 8 This is a key diagnostic in classifying species as feliform versus caniform In feliforms the auditory bullae are double chambered composed of two bones joined by a septum Caniforms have single chambered or partially divided auditory bullae composed of a single bone This feature however is problematic for the classification of the extinct Nimravidae as feliforms Nimravid fossils show ossified bullae with no septum or no trace at all of the entire bulla It is assumed that they had a cartilaginous housing of the ear mechanism 9 The specific characteristics of extant feliform bullae suggest a common ancestor though one has not been identified in the fossil records There are other characteristics that differentiate feliforms from caniforms and probably existed in their stem taxa But due to speciation these do not apply unambiguously to all extant species Feliforms tend to have shorter rostrums snouts than caniforms fewer teeth and more specialized carnassials Feliforms tend to be more carnivorous and are generally ambush hunters Caniforms tend more toward omnivorous and opportunity based feeding However omnivorous feliforms also exist particularly in the family Viverridae Many feliforms have retractile or semi retractile claws and many are arboreal or semi arboreal Feliforms also tend to be more digitigrade walking on toes Most caniforms are terrestrial and have non retractile claws Extant families edit nbsp Fossa Cryptoprocta ferox nbsp Cheetah Acinonyx jubatus nbsp Spotted hyena Crocuta crocuta nbsp Meerkat Suricata suricatta nbsp Binturong Arctictis binturong Seven families are extant with 12 subfamilies 56 genera and 114 species in the Feliformia suborder They range natively across all continents except Australia and Antarctica Most species are arboreal or semiarboreal ambush hunters Target prey vary based on the species size and available food sources with the larger species feeding mainly on small mammals and the smallest species feeding on insects or invertebrates An overview of each family is provided here For detailed taxa and descriptions of the species in each family follow the links to other articles and external references Family Eupleridae the Malagasy carnivorans includes fossa falanouc Malagasy civet and Malagasy mongooses all of which are restricted to the island of Madagascar The eight species in the family exhibit significant variations in form These differences initially led to the species in this family sharing common names with and being placed in the different families of apparently more similar species on the mainland e g civets and mongoose However phylogenetic analysis of DNA provides strong evidence that all Malagasy carnivorans evolved from a single common ancestor that was a herpestid Yoder et al 2003 10 11 Phylogenetic analysis supports this view and places all of the Malagasy carnivorans in the family Eupleridae 12 The differences in form make it difficult to concisely summarise the species in this family The range in size is as diverse as the range in form with smaller species at less than 500 g 1 lb and the largest species at up to 12 kg 26 lb Some have retractile or semi retractile claws the fossa and the Malagasy civet and others do not the falanouc and Malagasy mongooses They all tend to have slender bodies and pointed rostra except the fossa which has a blunt snout Diet varies with size and form of the species and like their mainland counterparts ranges from small mammals insects and invertebrates through to crustaceans and molluscs Family Felidae cats are the most widespread of the cat like carnivorans There are 41 extant species and all but a few have retractile claws This family is represented on all continents except Australia where domestic cats have been introduced and the Antarctic The species vary in size from the tiny black footed cat Felis nigripes at only 2 kg 4 5 lb to the tiger Panthera tigris at 300 kg 660 lb Diet ranges from large to small mammals birds and insects depending on species size Family Hyaenidae hyenas and aardwolf has four extant species and two subspecies All show features of convergent evolution with canids including non retractile claws long muzzles and adaptations to running for long distances They are extant in the Middle East India and Africa Hyenas are large powerful animals up to 80 kg 176 lb and represent one of the most prolific large carnivorans on the planet The aardwolf is much smaller and is a specialised feeder eating mainly harvester termites Family Herpestidae mongooses kusimanses and the meerkat has 32 species Previously these were placed in the family Viverridae However Wilson and Reeder 1993 established the herpestids as morphologically and genetically distinct from viverrids They are extant in Africa Middle East and Asia All have non retractile claws They are smaller as a family ranging from 1 kg 2 2 lb to 5 kg 11 lb and typically have long slender bodies and short legs Diet varies based on species size and available food sources ranging from small mammals birds to reptiles insects and crabs Some species are omnivorous including fruits and tubers in their diet Family Nandiniidae the African palm civet has only one species Nandinia binotata extant across sub Saharan Africa They have retractile claws and are slender bodied arboreal omnivores with fruit making up much of their diet They are relatively small with the larger males weighing up to 5 kg 11 lb Family Prionodontidae Asiatic linsangs has two extant species in one genus They live in Southern East Asia All are arboreal hypercarnivorans They are the closest living relatives of the family Felidae 13 Family Viverridae all but two civets genets oyans and the binturong has 30 living species They all have long bodies short legs with retractile claws and usually long tails In weight the species range from 0 5 14 kg 1 1 30 9 lb Some occur in Southern Europe but most in Africa and Asia Their diet ranges from fruit and plants to insects crustaceans and molluscs and small mammals Evolution edit nbsp Feliform evolutionary timelineIn the Middle Palaeocene 60 million years ago Miacoidea appears Miacoids were a group of paraphyletic taxa believed to be basal to Carnivora They had Carnivora like carnassials but lacked fully ossified auditory bullae Miacids were small arboreal carnivorans and based on their size roughly that of mongooses they probably fed on insects small mammals and birds The miacoids are divided into two groups the miacids with a full complement of molars and the viverravines with a reduced number of molars and more specialized carnassials These dental differences resemble the difference between Caniforms with more teeth and Feliforms with fewer teeth but this may not mean evolutionary lineages It was thought that Viverravidae was basal to the Feliforms However some studies suggest this is not the case 7 In the Middle Eocene about 42 mya the miacids started to branch into two distinct groups of the order Carnivora the Feliforms and Caniforms The miacid precursors to the extant Feliforms remained forest dwelling arboreal or semi arboreal ambush hunters while the Caniform precursors were more mobile opportunistic hunters While it is clear that the first Feliforms appeared at this time there is no clear common ancestor of the Feliform families in the fossil records As forest dwellers the early Feliforms were subject to more rapid decomposition in the absence of sedimentary materials resulting in large gaps in the fossil records For more discussion on feliform evolution and the divergence from the caniforms together with additional external references on this subject see the articles on Carnivora Miacoidea and Carnivoramorpha Classification editSuborder Feliformia cat like carnivorans Family Nimravidae false sabre tooth cats Family Palaeogalidae 14 unranked Aeluroidea Family Nandiniidae Genus Alagtsavbaatar 15 Genus Anictis Genus Asiavorator Genus Shandgolictis 15 Superfamily Feloidea Family Felidae cats Family Prionodontidae Asiatic linsangs Family Barbourofelidae false sabre tooth cats Genus Haplogale 16 Genus Palaeoprionodon 17 Genus Stenogale 16 Genus Stenoplesictis Genus Viretictis 18 Infraorder Viverroidea Family Viverridae Viverra and allies 19 Superfamily Herpestoidea Family Eupleridae Malagasy carnivorans Family Herpestidae mongooses and allies Family Hyaenidae hyenas and aardwolf Family Lophocyonidae Family PercrocutidaeFamily Stenoplesictidae is a polyphyletic family of extinct viverrid like feliforms Phylogenetic tree edit The phylogenetic relationships of feliforms are shown in the following cladogram 16 20 21 22 Feliformia Nimravidae false saber toothed cats nbsp Aeluroidea Nandiniidae African palm civet nbsp Viverroidea Viverridae viverrids nbsp Herpestoidea Herpestidae mongooses nbsp Eupleridae Malagasy mongooses nbsp Lophocyonidae Percrocutidae nbsp Hyaenidae hyenas nbsp Feloidea HaplogalePrionodontidae Asiatic linsangs nbsp Barbourofelidae StenogaleFelidae cats nbsp References edit Basic Biology 2015 Carnivora Taxonomic references extant species 1 Supporting descriptive information and pictures Diversity Web online Feliformia Taxonomic references extant species 2 Integrated Taxonomic Information System ITIS Eizirik E W J Murphy K P Koepfli W E Johnson J W Dragoo R K Wayne en S J O Brien 2010 Pattern and timing of the diversification of the mammalian order Carnivora inferred from multiple nuclear gene sequences Molecular Phylogenetics and Evolution 56 49 63 doi 10 1016 j ympev 2010 01 033 a b Fossil record data with taxonomic references extant and extinct species The Paleaobiology Database a b Supporting taxonomic references extant and extinct species Systema Naturae 2000 Classification Suborder Feliformia Archived 2007 09 26 at the Wayback Machine a b Wesley Hunt Gina D Flynn John J 2005 Phylogeny of the carnivora Basal relationships among the carnivoramorphans and assessment of the position of miacoidea relative to carnivora Journal of Systematic Palaeontology 3 1 1 28 doi 10 1017 S1477201904001518 ISSN 1477 2019 S2CID 86755875 R F Ewer 1973 The Carnivores Cornell University Press ISBN 0 8014 8493 6 Turner Alan 1997 The Big Cats and their Fossil Relatives an illustrated guide New York Columbia University Press p 234 ISBN 0 231 10228 3 Anne D Yoder and John J Flynn 2003 Origin of Malagasy Carnivora Yoder A M Burns S Zehr T Delefosse G Veron S Goodman J Flynn 2003 Single origin of Malagasy Carnivora from an African ancestor Letters to Nature Philippe Gaubert W Chris Wozencraft Pedro Cordeiro Estrela and Geraldine Veron 2005 Mosaics of Convergences and Noise in Morphological Phylogenies What s in a Viverrid Like Carnivoran Gaubert P amp Veron G 2003 Exhaustive sample set among Viverridae reveals the sister group of felids the linsangs as a case of extreme morphological convergence within Feliformia Proceedings of the Royal Society Series B 270 270 1532 2523 30 doi 10 1098 rspb 2003 2521 Wang Jian Zhang Zhaoqun 2015 Phylogenetic analysis on Palaeogale Palaeogalidae Carnivora based on specimens from Oligocene strata of Saint Jacques Nei Mongol Vertebrata PalAsiatica 53 4 310 334 a b Egi N Tsubamoto T et al 2016 Taxonomic revisions on nimravids and small feliforms Mammalia Carnivora from the Upper Eocene of Mongolia Historical Biology 28 1 2 105 119 doi 10 1080 08912963 2015 1012508 S2CID 86239933 a b c Werdelin L Yamaguchi N Johnson W E O Brien S J 2010 Phylogeny and evolution of cats Felidae In Macdonald D W Loveridge A J eds Biology and Conservation of Wild Felids Oxford UK Oxford University Press pp 59 82 ISBN 978 0 19 923445 5 Hunt R M April 2001 Basicranial anatomy of the living linsangs Prionodon and Poiana Mammalia Carnivora Viverridae with comments on the early evolution of aeluroid carnivorans American Museum Novitates 3330 1 24 doi 10 1206 0003 0082 2001 330 lt 0001 BAOTLL gt 2 0 CO 2 S2CID 83979855 Costeur L Maridet O et al December 2011 Palaeoecology and palaeoenvironment of the Aquitanian locality Ulm Westtangente MN2 Lower Freshwater Molasse Germany Swiss Journal of Palaeontology 131 183 199 doi 10 1007 s13358 011 0034 3 S2CID 86544459 Wozencraft W C 2005 Order Carnivora In Wilson D E Reeder D M eds Mammal Species of the World A Taxonomic and Geographic Reference 3rd ed Johns Hopkins University Press pp 548 559 ISBN 978 0 8018 8221 0 OCLC 62265494 Morales Jorge Mayda Serdar Valenciano Alberto DeMiguel Daniel Kaya Tanju 2019 A new lophocyonid Izmirictis cani gen et sp nov Carnivora Mammalia from the lower Miocene of Turkey Journal of Systematic Palaeontology Online Edition 17 16 1347 1358 doi 10 1080 14772019 2018 1529000 hdl 10261 223616 S2CID 91268744 Wilson D E Mittermeier R A eds 2009 Handbook of the Mammals of the World Volume 1 Carnivora Barcelona Lynx Ediciones pp 50 658 ISBN 978 84 96553 49 1 Barycka E 2007 Evolution and systematics of the feliform Carnivora Mammalian Biology 72 5 257 282 doi 10 1016 j mambio 2006 10 011 Retrieved from https en wikipedia org w index php title Feliformia amp oldid 1206946688, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.