[PaleoMammalogy • 2026] The Japanese Archipelago sheltered Cave Lions, not Tigers, during the Late Pleistocene

 a Late Pleistocene cave lion Panthera spelaea overlooking Mount Fuji, Japan. 

in Sun, Peng, Tsutaya, Jiangzuo, ... et Luo, 2026. 

DOI: doi.org/10.1073/pnas.2523901123 

Artistic reconstruction by Velizar Simeonovski

 

Abstract

Lions and tigers, as dominant apex predators, likely became competitors when lions expanded from Africa into Eurasia approximately one million years ago (Ma), forming a lion–tiger transition belt from the Middle East through Central Asia to the Russian Far East. At the easternmost edge of this zone, the Japanese Archipelago has long been considered a Late Pleistocene tiger refugium, supported by large felid subfossils traditionally attributed to tigers (Panthera tigris), though their taxonomic identity remained unresolved. To clarify the origin, evolutionary history, and biogeography of Japan’s Pleistocene felids, we analyzed 26 ancient specimens previously assumed to be tigers. Using mitochondrial and nuclear genome hybridization capture and sequencing, paleoproteomics, Bayesian molecular dating, and radiocarbon dating, we found that all ancient Japanese “tiger” remains yielding molecular data were, unexpectedly, cave lions (Panthera spelaea). One specimen from Yamaguchi Prefecture, western Japan, was radiocarbon dated to 36,000-34,891 cal. BP. These cave lions likely dispersed to the Japanese Archipelago between ~72.7 and 37.5 thousand years ago (ka), when a land bridge connected northern Japan to the mainland during the Last Glacial Period. Our findings challenge the long-held view that tigers once took refuge in Japan, showing instead that cave lions were widespread in northeast Asia during this period and were the Panthera lineage that colonized Japan, reaching even its southwestern regions despite habitats previously thought to favor tigers.

Maps showing the possible distributions of lions and tigers in eastern Eurasia and Alaska during different Marine Isotope Stages (MIS) of the Late Pleistocene. ...

Artistic reconstruction of a Late Pleistocene cave lion overlooking Mount Fuji, Japan.

Artwork by Velizar Simeonovski

Significance: Lions and tigers were widespread apex predators during the Late Pleistocene and integral components of East Asian megafauna. Cave lions predominantly inhabited northern Eurasia, whereas tigers were distributed farther south. The boundary between their ranges extended across Eurasia and shifted with climatic fluctuations, such as glacial–interglacial oscillations. Our findings challenge the prevailing view that tigers once took refuge in Japan and that cave lion distribution was limited to the Russian Far East and northeast China. These findings provide evidence that lions, rather than tigers, colonized the Japanese Archipelago during the Late Pleistocene. This finding extends the known range of cave lions in East Asia and refines our understanding of how far south the lion–tiger transition belt shifted during this period.

 

Xin Sun, Lanhui Peng, Takumi Tsutaya, Qigao Jiangzuo, Yoshikazu Hasegawa, Yuxin Hou, Yu Han, Yan Zhuang, Nuno Filipe Gomes Martins, Jazmin Ramos Madrigal, Alberto J. Taurozzi, Meaghan Mackie, Gaudry Trochė, Jesper V. Olsen, Enrico Cappellini, Stephen J. O’Brien, M. Thomas P. Gilbert, Nobuyuki Yamaguchi, and Shu-Jin Luo. 2026. The Japanese Archipelago sheltered Cave Lions, not Tigers, during the Late Pleistocene. PNAS. 123(6); e2523901123. DOI: doi.org/10.1073/pnas.2523901123 [January 26, 2026]

[PaleoMammalogy • 2023] Pachypanthera piriyai • A new large pantherine and a sabre-toothed cat (Carnivora: Felidae) from the late Miocene hominoid-bearing Khorat sand pits, Nakhon Ratchasima Province, northeastern Thailand

Pachypanthera piriyai   

de Bonis, Chaimanee, Grohé, Chavasseau, Mazurier, Suraprasit & Jaeger, 2023

  

DOI: 10.1007/s00114-023-01867-4

  Researchgate.net/publication/373162644

 facebook.com/ASRUChula 

 

Abstract

We describe two large predators from the hominoid-bearing Khorat sand pits, Nakhon Ratchasima Province, northeastern Thailand: a new genus of pantherine, Pachypanthera n. gen., represented by partial mandible and maxilla and an indeterminate sabre-toothed cat, represented by a fragment of upper canine. The morphological characters of Pachypanthera piriyai n. gen. n. sp., notably the large and powerful canine, the great robustness of the mandibular body, the very deep fossa for the m. masseter, the zigzag HSB enamel pattern, indicate bone-cracking capacities. The genus is unique among Felidae as it has one of the most powerful and robust mandibles ever found. Moreover, it may be the oldest known pantherine, as other Asian pantherines are dated back to the early Pliocene. The taxa we report here are the only carnivorans known from the late Miocene of Thailand. Although the material is rather scarce, it brings new insights to the evolutionary history of Neogene mammals of Southeast Asia, in a geographic place which is partly “terra incognita.”

Keywords: Asia, Felidae, New taxon, Bone cracking, Late Miocene, Sabre-toothed cat, Pantherine

Order Carnivora Bowdich, 1821

Sub-order Feliformia Kretzoi, 1945

Family Felidae Batsch, 1788

Sub-family Felinae Batsch, 1788

Pachypanthera n. gen.

Etymology: from the greek “Pachy” = thick.

 

Digital reconstruction of the mandible of Pachypanthera piriyai n. gen. n. sp. (a) in comparison with the mandible of Panthera leo (UPPal CAR-5-001) (b) in occlusal view. Scale bar = 20 mm

Right maxilla of Pachypanthera piriyai n. gen. n. sp. (CUF-KR-2).
a Occlusal view; b medial view; c lateral view (scale bar = 20 mm)

Pachypanthera piriyai n. gen. n. sp., left hemi-mandible CUF-KR-1.
a Occlusal view (stereopair); b inferior view; c lateral view; d medial view (scale bar = 20 mm)

Pachypanthera piriyai n. sp

Origin of the name: in honor of Piriya Vachajitpan, who played a critical part in recovering the fossils.

Holotype (CUF-KR-1): left hemi-mandible with the alveoli for i1–i3, canine alveolus, remains of roots of p3, p4 and partially broken off m1 crown.

 

Locality: Khorat sand pit, Nakhon Ratchasima Province, northeastern Thailand

Age: late Miocene, 9 to 6 Ma.

 

 

L. de Bonis, Y. Chaimanee, C. Grohé, O. Chavasseau, A. Mazurier, K. Suraprasit and J.J. Jaeger. 2023. A new large pantherine and a sabre-toothed cat (Mammalia, Carnivora, Felidae) from the late Miocene hominoid-bearing Khorat sand pits, Nakhon Ratchasima Province, northeastern Thailand. The Science of Nature. 110, 42. DOI: 10.1007/s00114-023-01867-4

 facebook.com/ASRUChula/posts/688793099932089 

 Researchgate.net/publication/373162644_A_new_large_pantherine_from_the_late_Miocene_hominoid-bearing_Khorat_sand_pits

[PaleoMammalogy • 2025] Circamustela bhapralensis, Vishnuictis plectilodous, ... • Rare Carnivorous Mammals from A diverse Fossil Assemblage from the Middle Siwaliks of Haritalyangar area, Himachal Pradesh, North India

Circamustela bhapralensis

Sankhyan, Abbas, Jasinski, Khan & Mahmood, 2025

 

DOI: doi.org/10.1007/s10914-025-09749-4

 www.harrisburgu.edu 

 x.com/StevenJasinski 

Artwork by Sergey Krasovskiy

Abstract

Newly collected fossil carnivoran material from the Haritalyangar and Nurpur Middle Siwalik sequences of Himachal Pradesh (India) include at least five taxa and two new species including Mustelidae (‘Martes’ lydekkeri, Circamustela bhapralensis sp. nov., Mustelidae indet.), Viverridae (Vishnuictis plectilodous sp. nov.), and Felidae (indeterminate basal Felinae). These findings include the first upper jaw material of ‘Martes’ lydekkeri, a rare mustelid known only from lower jaw specimens, suggesting potentially closer relationships with European mustelids. Additionally, we report the first identification of Circamustela from the Siwaliks of the Indian subcontinent, despite nearly two centuries of fossil collection in the region. This material represents a new species Circamustela bhapralensis sp. nov. Circamustela, originating in Europe, eventually migrated to the Indian subcontinent before its extinction, and the smaller body size of the new species may suggest a trend toward decreasing body size in this taxon. Fossil viverrid material also represents a new species, Vishnuictis plectilodous sp. nov., the youngest species yet known for the genus. This new material implies an increase in morphological complexity in the m1 of these viverrids, potentially also suggesting an increase in dietary diversity within this lineage. The new viverrid species may also represent the largest viverrid yet known. Mandibular material of a feline is also described, providing further information on the biodiversity of the fossil carnivorans in the region. These new specimens add important information to our knowledge of the ancient biodiversity of the region, the evolutionary history of several carnivoran mammals, and the carnivoran guild of southern Asia.

Keywords: Carnivora, Felidae, Haritalyangar, India, Mustelidae, Neogene, Siwaliks, Viverridae

Circamustela bhapralensis sp. nov.

Vishnuictis fossil comparisons.
a–c. Holotype m1 of Vishnuictis plectilodous sp. nov. (HTA-68), complete right m1 in occlusal (a), medial (lingual) (b), and lateral (labial) (c) views. d. Terminology for various features of the m1 of V. plectilodous sp. nov. (HTA-68).
e–g. Holotype right mandibular ramus containing p4 and m1 of V. hasnoti comb. nov. (HTA-135), modified from Pilgrim (1932: pl. II, figs. 18, 18a, 18b) in occlusal (e), medial (lingual) (f), and lateral (labial) (g) views. Scale bars equal 1 cm

Vishnuictis plectilodous sp. nov.

 

Anek Ram Sankhyan, Sayyed Ghyour Abbas, Steven E. Jasinski, Muhammad Akbar Khan and Khalid Mahmood. 2025. Rare Carnivorous Mammals from A diverse Fossil Assemblage from the Middle Siwaliks of Haritalyangar area, Himachal Pradesh, North India. Journal of Mammalian Evolution. 32; 14. DOI: doi.org/10.1007/s10914-025-09749-4 [22 March 2025]

Study on New Fossil Carnivorous Mammals from Himalayan Foothills 

 www.harrisburgu.edu/news/2025-04-01-new-fossil-carnivorous-mammals-himalayan 

 x.com/StevenJasinski/status/1907906123111539000

[PaleoMammalogy • 2024] Exposed Weapons: A Revised Reconstruction of the Facial Anatomy and Life Appearance of the Saber-toothed Cat Megantereon (Felidae: Machairodontinae)

 

Reconstruction of the external appearance of the head of Megantereon in different angles and with different facial expressions

in Antón, Siliceo, Pastor, Jiangzuo et Salesa, 2024.

DOI: doi.org/10.1002/ar.25622 

  facebook.com: Mauricio Anton 

x.com/AnatRecord

Abstract

Megantereon was a widespread saber-toothed felid from the Pliocene and Pleistocene of the Old World and North America, but its rarity in the fossil record makes it complicated to restore its life appearance. Lack of complete specimens makes it necessary to combine information from fossils of different individuals to reconstruct their facial anatomy. In this work, we combine the analysis of skulls and mandibles of Megantereon from various fossil sites with the study of extant carnivorans through dissection, 3D scans, and the observation of live individuals. Megantereon combined very elongated upper canines with mandibular flanges that were not deep enough to match the length of the sabers, as well as a wide maxilla combined with narrow incisor rows and mandibular symphysis. Such features are compatible with the presence of exposed canines in life, because the narrow symphysis allows room to accommodate lips and other soft tissues medial to the sabers, while the protrusion of the tips of the upper canines beyond the mental flanges makes it unlikely that they would be enveloped in soft tissue sheaths, which would dangle with the inherent risk of puncture. Megantereon was transitional between saber-toothed felids with covered upper canines, where saber length fits with mental flange depth, and the derived Smilodon where the upper canines are much longer than the flanges and the lips fit between upper canines and mandible, leaving the upper canine crowns largely exposed in life.

Keywords: anatomy, muscles, Paleobiology, Smilodontini

Sequential reconstruction of the head of Megantereon:
 (a) skull and mandible; (b) deep muscles and other structures; (c) superficial muscles; and (d) reconstructed external appearance.

md, m. digastricus; ml, m. levator nasolabialis; mm, m. masseter; mo, m. orbicularis oris; mp, mystacial pad; mt, m. temporalis; mz, m. zygomaticus; nc, nasal cartilage; orl, outer rim of lower lip; p, platysma; pct, pad of connective tissue; tfl, tongue-like flap of lower lip.

Reconstruction of the external appearance of the head of Megantereon in different angles and with different facial expressions:
 (a) skull and reconstructed head with relaxed mouth in lateral view; (b) skull and reconstructed head with closed mouth in frontal view; (c) skull and reconstructed head with relaxed mouth in frontal view; (d) skull and reconstructed head with relaxed mouth in perspective view; and (e) skull and reconstructed head in perspective view, yawning.

Mauricio Antón, Gema Siliceo, Juan Francisco Pastor, Qigao Jiangzuo and Manuel J. Salesa. 2024. Exposed Weapons: A Revised Reconstruction of the Facial Anatomy and Life Appearance of the Saber-toothed Cat Megantereon (Felidae, Machairodontinae). The Anatomical Record. DOI: doi.org/10.1002/ar.25622 

  facebook.com/MauricioAnton3/posts/10223383237603906

 x.com/AnatRecord/status/1874520968074506412

[PaleoMammalogy • 2024] New insights on the Ecology and Behavior of Machairodus aphanistus (Carnivora: Felidae: Machairodontinae) through the Paleopathological Study of the Fossil Sample from the Late Miocene (Vallesian, MN 10) of Cerro de los Batallones (Torrejón de Velasco, Madrid, Spain)

Reconstruction of a hunting scene in the Cerro de los Batallones during the Late Miocene:
 Machairodus aphanistus killed a three-toe horse of the genus Hipparion.

in Salesa, Hernández, Marín, Siliceo, ... et García-Fernández, 2024. 

DOI: 10.1007/s10914-024-09721-8 

facebook.com/ManuelSalesa

Artwork by Mauricio Antón

Abstract

The Late Miocene natural traps of Cerro de los Batallones (Madrid, Spain) have yielded thousands of fossils of vertebrates, mostly carnivoran mammals such as hyaenids, amphicyonids, ailurids, mustelids, ursids, and felids, especially Batallones-1 and Batallones-3. Among these carnivorans, the tiger-sized saber-toothed felid Machairodus aphanistus was the top predator of the association, and one of the most abundant taxa, represented by thousands of fossils, including several examples of bone pathologies that have never been studied. In this work, we carry out a paleopathological analysis of some of these pathologies from the Batallones sample of this large early machairodontine, with a description of the pathological changes that occurred in the affected bones, a possible diagnosis, and the ethological and ecological consequences of the presence of these diseases in the living animal. The pathological sample of M. aphanistus studied here included a calcaneus and a Mc III from Batallones-1, and a mandible from Batallones-3. The fossils were X-rayed, and their pathologies were described and compared to non-pathological bones. The calcaneus showed a bone callus indicative of osteitis/osteomyelitis or a tumor; the mandible had evidence of the development of an abscess located in the left mandibular body; and the Mc III shows a marked osteosclerosis. These injuries affected the hunting ability of these individuals and gradually weakened them, very likely contributing to their final entrapment in the Batallones cavities, where they were attracted by the presence of previously trapped animals.

Keywords: Bone pathology, Cenozoic, Felidae, Paleontology

Reconstruction of a hunting scene in the Cerro de los Batallones during the Late Miocene: two adult males of Machairodus aphanistus have subdued and killed a three-toe horse of the genus Hipparion.

Artwork by M. Antón

Manuel J. Salesa, Bárbara Hernández, Pilar Marín, Gema Siliceo, Irene Martínez, Mauricio Antón, María Isabel García-Real, Juan Francisco Pastor and Rosa Ana García-Fernández. 2024. New insights on the Ecology and Behavior of Machairodus aphanistus (Carnivora, Felidae, Machairodontinae) through the Paleopathological Study of the Fossil Sample from the Late Miocene (Vallesian, MN 10) of Cerro de los Batallones (Torrejón de Velasco, Madrid, Spain). Journal of Mammalian Evolution. 31, 21. DOI: 10.1007/s10914-024-09721-8

 facebook.com/ManuelSalesa/posts/10159810523766994

[Mammalogy • 2024] Ecological Modeling, Biogeography, and Phenotypic Analyses setting the Tiger Cats’ Hyperdimensional Niches reveal A New Species, Leopardus pardinoides

Classic examples of the tiger cat species complex:
 (a) the savanna tiger-cat (Leopardus tigrinus);
(b) the new species, the clouded tiger-cat (Leopardus pardinoides); and
(c) the Atlantic Forest tiger-cat (Leopardus guttulus).

in de Oliveira, Fox-Rosales, Ramírez-Fernández, Cepeda-Duque, Zug, ... et Rodrigues, 2024.   

DOI: 10.1038/s41598-024-52379-8

Drawings by Ricardo Ribeiro; 

photographs: (a & c) authors, (b) Johannes Pfleiderer.

Abstract

Recently, the tiger-cat species complex was split into Leopardus tigrinus and Leopardus guttulus, along with other proposed schemes. We performed a detailed analysis integrating ecological modeling, biogeography, and phenotype of the four originally recognized subspecies—tigrinus, oncilla, pardinoides, guttulus—and presented a new multidimensional niche depiction of the species. Species distribution models used > 1400 records from museums and photographs, all checked for species accuracy. Morphological data were obtained from institutional/personal archives. Spotting patterns were established by integrating museum and photographic/camera-trap records. Principal component analysis showed three clearly distinct groups, with the Central American specimens (oncilla) clustering entirely within those of the Andes, namely the pardinoides group of the cloud forests of the southern Central-American and Andean mountain chains (clouded tiger-cat); the tigrinus group of the savannas of the Guiana Shield and central/northeastern Brazil (savanna tiger-cat); and the guttulus group in the lowland forests of the Atlantic Forest domain (Atlantic Forest tiger-cat). This scheme is supported by recent genetic analyses. All species displayed different spotting patterns, with some significant differences in body measurements/proportions. The new distribution presented alarming reductions from the historic range of − 50.4% to − 68.2%. This multidimensional approach revealed a new species of the elusive and threatened tiger-cat complex.

Classic examples of the tiger cat species complex: (a) the savanna tiger-cat (Leopardus tigrinus); (b) the new species, the clouded tiger-cat (Leopardus pardinoides); and (c) the Atlantic Forest tiger-cat (Leopardus guttulus).

Drawings by Ricardo Ribeiro; photographs: (a) authors, (b) Johannes Pfleiderer, (c) authors.

Leopardus pardinoides (Gray, 1867)

Tadeu G. de Oliveira, Lester A. Fox-Rosales, José D. Ramírez-Fernández, Juan C. Cepeda-Duque, Rebecca Zug, Catalina Sanchez-Lalinde, Marcelo J. R. Oliveira, Paulo H. D. Marinho, Alejandra Bonilla-Sánchez, Mara C. Marques, Katia Cassaro, Ricardo Moreno, Damián Rumiz, Felipe B. Peters, Josué Ortega, Gitana Cavalcanti, Michael S. Mooring, Steven R. Blankenship, Esteban Brenes-Mora, Douglas Dias, Fábio D. Mazim, Eduardo Eizirik, Jaime L. Diehl, Rosane V. Marques, …Flávio H. G. Rodrigues. 2024. Ecological Modeling, Biogeography, and Phenotypic Analyses setting the Tiger Cats’ Hyperdimensional Niches reveal A New Species. Scientific Reports. 14: 2395. DOI: 10.1038/s41598-024-52379-8

  twitter.com/ruzzibarbara/status/1752111872285835713

[PaleoMammalogy • 2023] Lokotunjailurus chinsamyae & Dinofelis werdelini • Langebaanweg’s Sabertooth Guild reveals An African Pliocene Evolutionary Hotspot for Sabertooths (Carnivora: Felidae)

 Dinofelis werdelini sp. nov.,
 Lokotunjailurus chinsamyae sp. nov.,
 Adeilosmilus aff. kabir

Jiangzuo, Rabe, Abella, Govender & Valenciano, 2023

 DOI: 10.1016/j.isci.2023.107212

Highlights: 

• Langebaanweg’s (LBW) sabertooth cat’s guild includes two new species

• Dinofelis from LBW is the potential ancestor of Plio-Pleistocene Dinofelis

• We confirm a Pan-African distribution of Adeilosmilus and Lokotunjailurus

• Comparison with Eurasian felid guild implies open environment at LBW

Summary

Here, we describe and revise craniodental material from Langebaanweg ‘E’ Quarry (South Africa, early Pliocene, ∼5.2 Ma), which represents one of the largest and best-preserved collections of sabertooth felids from Mio-Pliocene deposits of Africa. Four taxa, including two new species, are recognized: Lokotunjailurus chinsamyae sp. nov., Adeilosmilus aff. kabir, Yoshi obscura, and Dinofelis werdelini sp. nov. The felid guild composition analyzed herein suggests the presence of a mosaic environment with open components in the region, and shows a potential relationship with that of Yuanmou, suggesting a similar environment and/or dispersal route/event. The reassessment of the rich early Pliocene felids from Langebaanweg is a step toward understanding the transition and evolution of the felids in the southern hemisphere during the late Miocene to early Pliocene.

Upper canine of sabertoothed cat from from Langebaanweg ‘E’ Quarry
(A) Dinofelis werdelini sp. nov., SAM-PQL20284; (B) Lokotunjailurus chinsamyae sp. nov., SAM-PQL20505; (C) Adeilosmilus aff. kabir, SAM-PQL11846. Scale bar equals 5 cm.

Qigao Jiangzuo, Caitlin Rabe, Juan Abella, Romala Govender and Alberto Valenciano. 2023. Langebaanweg’s Sabertooth Guild reveals An African Pliocene Evolutionary Hotspot for Sabertooths (Carnivora; Felidae). iScience.  107212, In Press. DOI: 10.1016/j.isci.2023.107212

 

[PaleoMammalogy • 2024] Magerifelis peignei • Unraveling the Diversity of early felines: A New Genus of Felinae (Carnivora: Felidae) from the Middle Miocene of Madrid (Spain)

 Magerifelis peignei

Salesa, Gamarra, Siliceo, Antón & Morales, 2024

DOI: 10.1080/02724634.2023.2288924 

 twitter.com/ManuelSalesa

 

ABSTRACT

We describe a hemimandible of a medium-sized feline from the Middle Miocene (middle Aragonian, MN 5, local biozone Dc, around 15.5 Ma) site of Príncipe Pío-2, a recently discovered fossil locality placed in the urban limits of Madrid city (Spain), within an area previously known for its rich paleontological findings. The specimen is very well preserved, showing the complete hemimandible, as well as all the teeth except the incisors. Some characters, such as the missing talonid in m1, the high p3, the large mesial cuspid in p4, and the presence of a vestigial m2, prevent its adscription to other known feline taxa such as Styriofelis turnauensis or Miopanthera lorteti, previously recorded in the Middle Miocene faunas from Europe, but absent in the central basins of Spain. The hemimandible has robust mandibular corpus and ramus compared with these latter and to extant felines of similar size, and exhibits a relatively stronger ridged masseteric line, which points towards the existence of a proportionally larger and more powerful m. masseter that generated a strong bite when hunting. These characters suggest that the Príncipe Pío-2 feline could have preyed upon relatively larger prey than those of extant, similarly sized felines. We propose the new genus and species Magerifelis peignei for the studied specimen, a species that would also include the material from the French Middle Miocene localities of Bézian and Artenay.

 Magerifelis peignei

 

Manuel J. Salesa, Jesús Gamarra, Gema Siliceo, Mauricio Antón and Jorge Morales. 2024. Unraveling the Diversity of early felines: A New Genus of Felinae (Carnivora, Felidae) from the Middle Miocene of Madrid (Spain). Journal of Vertebrate Paleontology. e2288924. DOI: 10.1080/02724634.2023.2288924

  twitter.com/ManuelSalesa/status/1745739845698224323

Descubren un nuevo felino que habitó Madrid hace más de 15 millones de años

  www.mncn.csic.es/es/Comunicaci%C3%B3n/descubren-un-nuevo-felino-que-habito-madrid-hace-mas-de-15-millones-de-anos

[Mammalogy • 2023] Leopardus narinensis • Morphological and Genetics Support for a Hitherto Undescribed Spotted Cat Species (Genus Leopardus; Felidae, Carnivora) from the Southern Colombian Andes

 

Leopardus narinensis, Ruiz-García, 2023

(A–C) Different views of the new species Leopardus narinensis, Ruiz-García, 2023. Its morphology and its mitochondrial and nuclear microsatellite DNA do not coincide with that of any known species of the Leopardus genus in Latin America. (Photos Manuel Ruiz-García).

(D) Comparison of the Nariño cat (right) with an individual of tigrina (from the Caquetá Department in Colombia) with a larger range in the northern Andes and with similar mitochondrial haplotypes to those of margays and ocelots (left) (Photo Manuel Ruiz-García).

 Central American and trans-Andean tigrinas: (E) One of the tigrinas sampled in Costa Rica (Photo José González-Maya), and (F) A tigrina analyzed from Intag (Imbabura Province, Ecuador) that had a phenotype very similar to the Costa Rican tigrinas that were analyzed and shown in the previous photo. Both tigrinas were molecularly confirmed as well-defined tigrina taxa or lineages. (Photo Manuel Ruiz-García).

in Ruiz-García, Pinedo-Castro et Shostell, 2023.

DOI: 10.3390/genes14061266

 

Abstract

In 1989, a skin of a small spotted cat, from the Galeras Volcano in southern Colombia (Nariño Department), was donated to the Instituto Alexander von Humboldt (identification, ID 5857) at Villa de Leyva (Boyacá Department, Colombia). Although originally classified as Leopardus tigrinus, its distinctiveness merits a new taxonomic designation. The skin is distinct from all known L. tigrinus holotypes as well as from other Leopardus species. Analysis of the complete mitochondrial genomes from 44 felid specimens (including 18 L. tigrinus and all the current known species of the genus Leopardus), the mtND5 gene from 84 felid specimens (including 30 L. tigrinus and all the species of the genus Leopardus), and six nuclear DNA microsatellites (113 felid specimens of all the current known species of the genus Leopardus) indicate that this specimen does not belong to any previously recognized Leopardus taxon. The mtND5 gene suggests this new lineage (the Nariño cat as we name it) is a sister taxon of Leopardus colocola. The mitogenomic and nuclear DNA microsatellite analyses suggest that this new lineage is the sister taxon to a clade formed by Central American and trans-Andean L. tigrinus + (Leopardus geoffroyi + Leopardus guigna). The temporal split between the ancestor of this new possible species and the most recent ancestor within Leopardus was dated to 1.2–1.9 million years ago. We consider that this new unique lineage is a new species, and we propose the scientific name Leopardus narinensis.

Keywords: Colombia; Leopardus narinensis; mitogenomes; Nariño cat; new neotropical wild cat; nuclear markers

The Nariño cat found at the Galeras Volcano in the Nariño Department from the southern Colombian Andes and aspect of other specimens of other tigrinas from different regions of the Neotropics.
(A–C) Different views of the new species Leopardus narinensis, Ruiz-García, 2018. Its morphology and its mitochondrial and nuclear microsatellite DNA do not coincide with that of any known species of the Leopardus genus in Latin America. (Photos Manuel Ruiz-García). (D) Comparison of the Nariño cat (right) with an individual of tigrina (from the Caquetá Department in Colombia) with a larger range in the northern Andes and with similar mitochondrial haplotypes to those of margays and ocelots (left) (Photo Manuel Ruiz-García).

Central American and trans-Andean tigrinas: (E) One of the tigrinas sampled in Costa Rica (Photo José González-Maya), and (F) A tigrina analyzed from Intag (Imbabura Province, Ecuador) that had a phenotype very similar to the Costa Rican tigrinas that were analyzed and shown in the previous photo. Both tigrinas were molecularly confirmed as well-defined tigrina taxa or lineages. (Photo Manuel Ruiz-García).
(G) Photo of a skin of a tigrina from Venezuela that was very similar to the holotype of Felis pardinoides emerita Thomas, 1914 (type locality: Merida, Venezuela). (Photo Anderson Feijó). (H,I) Photos showing the holotype of M. caucensis Allen, 1915 (type locality: Las Pavas, Cauca Department, Colombia). (Photo Anderson Feijó). (J) Photo of a skin that was very similar to the holotype of M. tigrina elenae Allen, 1915 (type locality: Santa Elena, Antioquia, Colombia). (Photo Manuel Ruiz-García). (K,L) Photos of two tigrinas sampled in the Azuay Province (Ecuador) where the holotype of F. p. andina Thomas, 1903 (type locality: Jima, Province of Azuay in southern Ecuador) was originally discovered. (Photo Juan Carlos Sánchez and Photo Jorge Brito, respectively). Photos of L. colocola from Ecuador with a differentiated morphology (plus differentiated mitochondrial DNA and nuclear microsatellite alleles) from a geographical area near where the Nariño cat was discovered: (M) Specimen of L. colocola killed in San Lorenzo in the Imbabura Province, northern Ecuador (Photo Diego Tirira), and (N) Exemplar of L. colocola from Macará, southern Ecuador (Photo Diego Tirira). The morphologies of these two specimens (M,N) differ from that of the proposed new species, L. narinensis.

Leopardus narinensis sp. nov. Ruiz-García 

Holotype: The holotype skin is in the Instituto von Humboldt (ID 5857) (Figure 1).

Type locality: The specimen was collected in 1989 on the Galeras Volcano, Nariño Department (Colombia) (...), 3,100 m above sea level (masl).

Morphological diagnosis: Its ground color is more reddish than in other L. tigrinus phenotypes. Most of the rosettes are bordered by black rims, but the rosettes’ interiors have a much more intense reddish color than that of other L. tigrinus specimens. Compared to other L. tigrinus taxa, the top of the Nariño cat’s head and its dorsal crest are much darker. Its coat is denser and woollier. The head is rounder and wider. The body is relatively more robust than in other L. tigrinus taxa.

Molecular diagnosis: Species-level diagnostic characters for the Nariño cat were observed in the two mitochondrial genes for which there are more sequences in neotropical cats (mtATP8 and mtND5) and yielded the following seven synapomorphies: At the ATP8 gene (three synapomorphies) in the nucleotide positions 8530 (T), 8594 (A), and 8597 (T). At the ND5 gene (four synapomorphies) in the nucleotide positions 12,506 (A), 12,715 (A), 12,737 (A), and 12,749 (A). These seven synapomorphies differentiated these two mt genes of the Nariño cat from those of all the other species of the genus Leopardus and from the domestic cat and the jaguarundi.

...

Etymology: The specific name refers to the Nariño Department in southern Colombia where this specimen was obtained. We propose the common name of Nariño or Galeras cat (by its origin) or red tigrina (because its pelage is mostly reddish). If the geographical distribution of this new taxon is larger than is currently believed, red tigrina would be the preferred common name.

  Manuel Ruiz-García, Myreya Pinedo-Castro and Joseph Mark Shostell. 2023. Morphological and Genetics Support for a Hitherto Undescribed Spotted Cat Species (Genus Leopardus; Felidae, Carnivora) from the Southern Colombian Andes. Genes. 14(6); 1266. DOI: 10.3390/genes14061266

(This article belongs to the Special Issue Evolution, Molecular Ecology, Phylogeography, and Phylogenetics of Mammals)

[PaleoMammalogy • 2023] Amphimachairodus hezhengensis • Origin of Adaptations to Open Environments and Social Behaviour in Sabretoothed Cats (Carnivora: Felidae: Machairodontinae) from the northeastern Border of the Tibetan Plateau

Amphimachairodus hezhengensis

Jiangzuo,  Werdelin, Sanisidro, Yang, Fu, Li, Wang & Deng, 2023

defending their prey (Hezhengia bohlini) 

from two Dinocrocuta gigantea.

 DOI: 10.1098/rspb.2023.0019

Artwork by Oscar Sanisidro.

Highlights: 

• The earliest Amphimachairodus discovered exhibits craniodental adaptation to open environment and social behaviour.

• Adaptations to change in habitat and killing behaviour evolved prior to other traits.

• Adaptatons to open environments and social behaviour first occurred near the Tibetan Plateau, probably due to aridification as the plateau was formed.

Abstract

The iconic sabretooth Homotherium is thought to have hunted cooperatively, but the origin of this behaviour and correlated morphological adaptations are largely unexplored. Here we report the most primitive species of Amphimachairodus (Amphimachairodus hezhengensis sp. nov.), a member of Machairodontini basal to Homotherium, from the Linxia Basin, northeastern border of the Tibetan Plateau (9.8–8.7 Ma). The long snout, laterally oriented and posteriorly located orbit of Amphimachairodus suggest a better ability to observe the surrounding environment, rather than targeting single prey, pointing to an adaptation to the open environment or social behaviour. A pathological forepaw of Amphimachairodus provides direct evidence of partner care. Our analyses of trait evolutionary rates support that traits correlated with killing behaviour and open environment adaptation evolved prior to other traits, suggesting that changes in hunting behaviour may be the major evolutionary driver in the early evolution of the lineage. A. hezhengensis represents one of the most important transitions in the evolution of Machairodontini, leading to adaptation in open environments and contributing to their further dispersal and radiation worldwide. This rapid morphological change is likely to be correlated with increasingly arid environments caused by the rise of the Tibetan Plateau, and competition from abundant large carnivores in this area.

Keywords: Machairodus, Amphimachairodus, Linxia basin, Eastern Asia, competition

 

(a) Cranium of Amphimachairodus hezhengensis sp. nov. HMV2041. a1, dorsal view; a2, anterior view; a3, ventral view; a4, postero-ventral view; a5, lateral view.
(b) Geography of fossil locality.
(c) Pathology of the MC2 and MC3 of Amphimachairodus sp. HMV2047 forepaw.
(d) Large predator contemporary with A. hezhengensis in the Linxia Basin. d1, A. hezhengensis, HMV2041; d2, Dinocrocuta gigantea, HMV2044; d3, Agriotheriini ursid, HMV2046.

 Systematics

Order Carnivora Bowdich, 1821

Family Felidae Batsch, 1788

Subfamily Machairodontinae Gill, 1872

Tribe Machairodontini Gill, 1872

Amphimachairodus Kretzoi, 1929

Diagnosis: machairotont of large size. Rostrum long, and forehead wide. Orbit anterior border located at P4. Glenoid fossa overhung above basicranium. Mastoid process large, and paroccipital moderate to highly reduced. Mandibular flange weak or moderate, cornoid process small. Incisors large with serration, and upper I1 and I2 with laterally posited accessory cusps. P2 variably present. P3 with distinct anterior accessory cusp. P4 with distinct preparastyle and moderate to very small protocone. m1 with metaconid-talonid complex mostly absent.

Included species: Amphimachairodus giganteus (Wagner, 1848), Amphimachairodus horribilis (Schlosser, 1903), Amphimachairodus palanderi (Zdansky, 1924), Amphimachairodus coloradensis (Cook, 1922), Amphimachairodus alvarezi Ruiz-Ramoni et al. 2019 and Amphimachairodus hezhengensis sp. nov.

Amphimachairodus hezhengensis sp. nov.

Machairodus palanderi p.257, Deng et al. 2013

Amphimachairodus sp. p.11 Jiangzuo et al. 2023

Holotype: HMV2041, a nearly complete cranium  

Etymology: After the place (Hezheng Paleozoological Museum, Hezheng, China) where the specimen was found and is currently stored.

Type locality: Houshan, Linxia Basin, Gansu province of northern China.

Chronology and distribution: Thus far only known from the early Late Miocene of northern China.

Diagnosis: medium-sized Amphimachairodus with small incisors and I1 with lingually posited accessory cusps; long C-P3 diastema; presence of P2; relatively small cheek teeth; small P4 preparastyle and moderate protocone.

Differential diagnosis: differs from Machairodus and Nimravides in having different cranial morphology, e.g. lower angle between facial and neurocranial part, wide forehead, retracted orbit and long rostrum, shorter and dorsally arched zygomatic arch, slightly overhanging glenoid fossa, more arched incisor row and more separated lingual accessory cusps in I2, presence of P2, more distinct P4 preparastyle and smaller protocone; differs from Lokotunjailurus in having larger size, longer C-P3 diastema, stronger P3 anterior accessory cusp and more robust P4; differs from other species of Amphimachairodus in having smaller incisors, I1 with two closely located lingual accessory cusps, longer C-P3 diastema, smaller cheek teeth, smaller P4 preparastyle and slightly larger protocone.

Reconstruction of two Amphimachairodus hezhengensis defending their prey (Hezhengia bohlini) from two Dinocrocuta gigantea.

Artwork by Oscar Sanisidro.

Qigao Jiangzuo, Lars Werdelin, Oscar Sanisidro, Rong Yang, Jiao Fu, Shijie Li, Shiqi Wang and Tao Deng. 2023. Origin of Adaptations to Open Environments and Social Behaviour in Sabretoothed Cats from the northeastern Border of the Tibetan Plateau. Proc. R. Soc. B. DOI: 10.1098/rspb.2023.0019

https://phys.org/news/2023-04-trait-tibetan-saber-toothed-cat.html

[PaleoMammalogy • 2022] Not a Jaguar after all? Phylogenetic Affinities and Morphology of the Pleistocene felid Panthera gombaszoegensis

Panthera gombaszoegensis  Kretzoi, 1938

in Chatar, Michaud & Fischer, 2022. 

DOI:  10.1002/spp2.1464 

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Abstract

Panthera gombaszoegensis is a fossil pantherine from the Pleistocene of Eurasia. It has been considered to be the closest ancestor the jaguar (Panthera onca) due to dental similarities, and has even sometimes been considered to be a subspecies of jaguar. However, our knowledge of this taxon is limited by the scarcity of cranial remains, which has made it difficult to properly assess the phylogenetic affinities and possible ecological role of this taxon. Here, we describe a new cranium of P. gombaszoegensis from Belgium, and present a morphometric analysis of the cranium and dentition of extinct and extant pantherines. Whereas the lower dentition of P. gombaszoegensis is similar to that of P. onca, similarities were not recovered in other parts of the skull. Some cranial traits of P. gombaszoegensis resemble those of other pantherines, especially larger species such as the tiger (P. tigris), while some similarities to taxa such as tiger (P. tigris), lion (P. leo) and leopard (P. pardus) in the skull of P. gombaszoegensis suggest a diet adapted to a wide prey spectrum. The first ever assessment of the phylogenetic placement of P. gombaszoegensis places this taxon closer to P. tigris than to P. onca, which considerably simplifies the biogeographic history of pantherines.

Keywords Panthera, morphometry, phylogeny, gombaszoegensis, jaguar

Narimane Chatar, Margot Michaud and Valentin Fischer. 2022. Not a Jaguar after all? Phylogenetic Affinities and Morphology of the Pleistocene felid Panthera gombaszoegensis. Papers in Palaeontology. DOI:  10.1002/spp2.1464

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