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Borhyaena
Temporal range: Early-Middle Miocene (Colhuehuapian-Friasian)
~21.0–15.5 Ma[1]
B. tuberata skull
Scientific classification Edit this classification
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Sparassodonta
Family: Borhyaenidae
Genus: Borhyaena
Ameghino 1887
Species
  • B. macrodonta (Ameghino 1902)
  • B. tuberata (Ameghino 1887)
Synonyms
  • Conodonictis Ameghino 1891
  • Dinamictis Ameghino 1891
  • Pseudoborhyaena Ameghino 1902

Borhyaena is an extinct genus of South American metatherian within borhyaenaid, a family of mammalian predators part of the now extinct order Sparassodonta. The genus lived from 21 to 15.5 million years ago from the Early to Middle Miocene.[2]

The genus contains two species, B. macrodonta and B. tuberata. Compared to other sparassodonts, Borhyaena was found to have more adaptations towards cursoriality, however it still likely wasn’t a specialized cursorial predator as seen with wolves. It is believed that, like striped hyenas, Borhyaena searched and hunted for smaller prey without cooperation from other individuals, and other experts believed it was capable of hunting prey larger than itself.

Classification

[edit]

Borhyaena was a genus part of the order Sparassodonta, an extinct order of metatherian predators. It is the type genus of the family Borhyaenidae, part of the superfamily Borhyaenoidea. This superfamily includes other families such as Proborhyaenidae and Thylacosmilidae.[3]

Description

[edit]

Borhyaena was a predator and had a large head and a long, powerful neck similar to living hyenas. Its legs were adapted to cursoriality, albeit less specialized than those of wolves or the thylacine. The most complete specimen is estimated to have weighted 23 kilograms (51 lb) and stood 50 centimetres (1.6 ft) at the shoulders.[4] One study suggested that Borhyaena may have been even larger, weighing 36.42 kilograms (80.3 lb).[5]

It was believed that Borhyaena may have been digitigrade,[6] although this has been questioned by some experts.[7] The tail of Borhyaena is believed to have been lighter and less muscled than Prothylacinus.[4]

Paleobiology

[edit]

Predatory behavior

[edit]

While having some adaptations of cursoriality, Borhyaena wasn’t a true cursorial predator due to the generalized morphology of the autopodials, femur, and tibia, instead it may have been a long distance traveler, not a fast runner.[8] Compared to modern day pursuit predators, its legs were shorter and heavier.[9][10] A 2010 paper estimated that B. tuberata had a bite force of 538 N or 121 lbf, with a BFQ of 165, similar that of the thylacine and American black bear.[10] The dentition of Borhyaena suggests it wasn’t a specialist in Osteophagy. One expert suggested that the foraging behavior of the animal is believed to have been comparable to the striped hyena, searching for smaller foods in denser vegetation without cooperation from individuals.[9] However, other experts suggested Borhyaena was capable of hunting larger animals.[10][5]

Brain anatomy and senses

[edit]

A 2025 study found that B. tuberata had an encephalization quotient score of 0.21 to 0.24. From dorsal view, cerebrum of B. tuberata is slightly gyrencephalic and ovoid in shape.[11] Compared to early sparassodonts, later diverging sparassodonts such as Borhyaena and Thylacosmilus had lower hearing ranges of frequency compared to other metatherians in the study.[12]

Paleoecology

[edit]
Restoration of Theosodon garretorum and Borhyaena tuberata

The genus has been found in Patagonia, Argentina (Santa Cruz and Sarmiento Formations) and Chile (Río Frias Formation).[13] Santa Cruz Formation had a heterogeneous environment with patches forests, semi-arid forests, and open areas. Within this formation, B. tuberata coexisted with other sparassodonts. This included fellow borhyaenoids such as Acrocyon sectorius, Artodictis munizi, Lycopsis torresi, and Prothylacynus patagonicus. Hathliacynids were also present including Acyon tricuspidatus, Cladosictis patagoncia, Pseudonotictis pusillus, Perathereutes pungens, and Sipalocyon. Because of its large size, it would’ve been capable of displacing Acrocyon and Cladosictis. Borhyaena also coexisted with birds such as Brontornis, the cariamid Cariama santacrucensis, and phorusrhacids such as Patagornis marshi, Phorusrhacos, and Psilopterus bachmanni. Terror birds and sparassodonts likely occupied different niches due to locomotive differences. Herbivores present in Santa Cruz Formation included litoperns such as Diadiaphorus, Theosodon, and Tetramerorhinus, sloths such as Eucholoeops and Hapalops, and the toxodontid notoungulate Adinotherium. Borhyaena may have typically preyed on animals that weighed 17–48 kilograms (37–106 lb), such as Hapalops.[5]

References

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[edit]
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Borhyaena

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from Grokipedia
Borhyaena is an extinct genus of carnivorous metatherian mammals in the family Borhyaenidae and order Sparassodonta, representing one of the primary predatory clades that dominated South American ecosystems during much of the Cenozoic era.[1] Known primarily from the early Miocene Santa Cruz and Sarmiento Formations in Patagonia, Argentina, the genus lived approximately 21 to 15.5 million years ago from the Colhuehuapian to Santacrucian South American Land Mammal Ages (SALMAs).[2][3] The most well-documented species, Borhyaena tuberata, was a robust, cursorial predator adapted for terrestrial ambush hunting, with a body mass estimated at around 21 kg, a skull length of 23 cm, and powerful jaw mechanics including a canine bite force of 538 N and a bite force quotient (BFQ) of 165, comparable to that of the thylacine or American black bear.[1] Another species, Borhyaena macrodonta, is known from fragmentary cranial remains and was likely smaller, civet-sized.[3] These animals exhibited hypercarnivorous dentition with robust mandibles, reduced talonids on molars, and deep carnassials suited for shearing flesh, enabling them to prey on medium- to large-sized herbivores such as protherotheriid litopterns, macraucheniids, and larger rodents like dinomyids or neoepiblemids, as well as possibly juveniles of astrapotheres.[1][4] Anatomically, B. tuberata featured a digitigrade forefoot, lighter tail relative to related taxa, and powerful neck musculature that supported predatory behaviors like subduing and dispatching prey on the ground.[5] Unlike more scansorial relatives, borhyaenids like Borhyaena showed evolutionary adaptations for cursorial locomotion, reflecting a shift toward hunting in more open, terrestrial environments amid changing Patagonian landscapes.[6] As part of the diverse Sparassodonta radiation, Borhyaena occupied a key ecological niche as a mid-to-large apex predator in a fauna isolated by South America's continental position, competing with other borhyaenoids and hathliacynids while filling roles analogous to placental carnivorans like hyenas or wolves.[2] Evidence from coprolites in the Santa Cruz Formation suggests dietary inclusion of small mammals like octodontoid and chinchilloid rodents, indicating opportunistic feeding alongside specialization on larger game.[6] The genus went extinct by the middle Miocene, while the broader Sparassodonta declined around 3 million years ago during the late Pliocene, due to factors including the Great American Biotic Interchange, prey diversity loss from climate shifts and Andean uplift, and competition from invading North American carnivorans.[4]

Taxonomy

Classification

Borhyaena serves as the type genus for the extinct family Borhyaenidae, placed within the order Sparassodonta, an exclusively South American clade of carnivorous metatherian mammals that originated in the early Paleocene and persisted until the Pliocene. This order comprises five major family-level groups—Borhyaenidae, Proborhyaenidae, Thylacosmilidae, Hathliacynidae, and the monotypic Hondadelphidae—with Borhyaenoidea encompassing Borhyaenidae, Proborhyaenidae, and Thylacosmilidae as a derived superfamily characterized by synapomorphies such as a squamosal contribution to the alisphenoid sinus and reduced anterolateral maxillary process.[7][8] Early taxonomic work by Ameghino (1887, 1891, 1902) established Borhyaena while introducing historical synonyms including Conodonictis and Dinamictis (both 1891) and Pseudoborhyaena (1902), which were later synonymized as they represented junior taxa based on fragmentary material now attributed to Borhyaena or related borhyaenids. These revisions reflect the challenges of classifying sparassodonts from incomplete early Miocene fossils, particularly from Patagonian localities. As metatherians, borhyaenids like Borhyaena evolved independently from eutherian carnivores, filling analogous predatory roles to hyenas or canids but with distinct metatherian traits such as tribosphenic molars showing progressive carnassialization on M1 rather than specialized premolars.[7][9] This evolutionary divergence highlights Sparassodonta's adaptive radiation in isolation, achieving hypercarnivorous diets through globular molars and reduced stylar shelves unique to borhyaenids. The monophyly of Borhyaenidae remains debated, with cladistic analyses variably recovering it as a robust clade sister to Proborhyaenidae (supported by 84–92% bootstrap values in some matrices) or questioning broader borhyaenoid unity due to homoplasy in dental and cranial characters.[10][11] For example, genera like Borhyaena, Arctodictis, and Australohyaena consistently cluster together within Borhyaenidae, but relations to basal sparassodonts like Mayulestes suggest potential paraphyly if early Paleocene forms are included.[8]

Species

Borhyaena is a genus within the family Borhyaenidae that includes two recognized species: the type species B. tuberata Ameghino, 1887, and B. macrodonta Ameghino, 1902.[3] B. tuberata, the type species, is diagnosed by its robust dentition featuring strong, shearing carnassials and thick-crowned molars suited for processing bone and tough food items, based on cranial and lower jaw material from the Santacrucian South American Land Mammal Age (SALMA; approximately 17.5–16.3 Ma).[12][2] B. macrodonta is distinguished by its larger dental dimensions, including lower molars with a reduced talonid and dominant protoconid, as evidenced by the holotype (MACN 52-390), an incomplete cranium preserving the right dentary and partial dentition (m3 length: 13.5 mm; m4 length: 16.5 mm, width: 8.5 mm), from the Colhuehuapian SALMA (approximately 21.0–20.5 Ma).[3][13] The taxonomic status of Acrocyon sectorius Ameghino, 1887, remains unresolved, with some analyses suggesting it may represent a junior synonym of Borhyaena due to overlapping size, cranial proportions, and dental morphology with B. tuberata.[14][2] The genus as a whole spans the Early Miocene, from about 21.0 to 16.3 Ma.[3][2]

Discovery and Fossil Record

Etymology and Naming

The genus Borhyaena was established by the Argentine paleontologist Florentino Ameghino in 1887, with the type species B. tuberata based on fragmentary dental remains from the early Miocene of Patagonia. The type specimen is a fragment of a lower molar from the Santa Cruz Formation. Ameghino named the genus in his foundational work on South American fossil mammals, highlighting its distinctive carnivorous dentition suggestive of a powerful predator.[2] The name Borhyaena is commonly interpreted as deriving from Greek roots meaning "voracious hyena," reflecting Ameghino's perception of the animal as a ravenous, hyena-resembling carnivore adapted for bone-crushing or scavenging. Initially, Ameghino and early researchers misclassified Borhyaena and related sparassodonts as eutherian mammals, often aligning them with placental groups like creodonts due to superficial resemblances in dental and cranial morphology; however, subsequent anatomical and phylogenetic analyses in the late 19th and early 20th centuries confirmed their placement within Metatheria as non-marsupial metatherians.[12] Ameghino expanded the genus in key subsequent publications, notably adding B. macrodonta in 1902 through preliminary notices on new Patagonian mammals from Cretaceous and Tertiary strata, which further solidified Borhyaena's role as the type genus for the family Borhyaenidae (erected by Ameghino in 1894). These works underscored Ameghino's prolific contributions to South American paleontology, though his taxonomic schemes often required later revisions for clarity and synonymy resolution.[15][3]

Known Localities and Specimens

Fossils of Borhyaena are primarily documented from the Santa Cruz Formation in Patagonia, Argentina, dating to the Santacrucian South American Land Mammal Age (SALMA) of the early Miocene (approximately 17.5–16.0 million years ago). Key localities within this formation include sites along the Río Santa Cruz, such as Barrancas Blancas and Segundas Barrancas Blancas, where multiple specimens have been recovered.[16] Additional records come from the Sarmiento Formation in Chubut Province, Argentina (Colhuehuapian SALMA, early Miocene), including a fragmentary specimen referred to B. macrodonta in a 2024 study.[3] Representative specimens include dental and cranial elements housed in major collections. For B. tuberata, notable examples are MPM-PV 19321 (partial lower molars m1–m2 from Río Santa Cruz) and MPM-PV 19424 (isolated upper molar M1 from the same area), providing insights into occlusal morphology. Other key materials comprise MACN-A 5922 (fragmentary skull), MACN-A 9344 (nearly complete skull from Yegua Quemada locality), and MACN-A 9341–9342 (paired maxillae and mandibular rami), all from the Santa Cruz Formation. Postcranial elements, such as humeri and ulnae (e.g., MACN 2074–78 and PU 015701), are known but often fragmentary and associated with multiple individuals.[17][16][12] The fossil record of Borhyaena exhibits notable gaps, including a scarcity of juvenile specimens, which limits understanding of ontogenetic variation, and incomplete postcranial assemblages, leading to ongoing debates about locomotor adaptations and body size estimates across referred materials. No Borhyaena fossils have been reported from certain Río Santa Cruz sub-localities, such as Yaten Huageno, highlighting uneven sampling within primary sites.[16][18]

Description

Cranial and Dental Features

The skull of Borhyaena tuberata is large and robust, characterized by hyena-like proportions with a short, broad rostrum and a posterior temporomandibular joint positioned well behind the last molar, which enhances mechanical advantage for biting.[19] Strong zygomatic arches and large temporal fossae accommodate expansive jaw adductor muscles, including a temporalis muscle with a cross-sectional area of approximately 39.22 cm² and a masseter muscle contributing significantly to overall force generation, estimated at 30 N/cm² for maximal isometric tension.[19] This configuration supports a hypercarnivorous lifestyle, with the skull's overall massiveness requiring substantial neck support. The dentition of Borhyaena features sectorial carnassial teeth adapted for shearing flesh, particularly the upper P4 and lower m4, combined with robust, enlarged premolars suited for crushing bone, as evidenced by wear patterns showing both tip-crushing and shearing on these teeth.[20] Powerful, hypertrophied canines facilitate initial prey dispatch, while the molars exhibit reduced protocones and minimal crushing capability, prioritizing slicing over grinding. Bite force at the canines is estimated at 538 N, yielding a bite force quotient (BFQ) of 165 when scaled to a body mass of approximately 23–36 kg, calculated via the formula BF = (T·I_t + M·I_m) / I_o, where T and M represent temporalis and masseter muscle areas, I_t and I_m are their in-levers, and I_o is the out-lever from the jaw joint to the canine (about 14.93 cm).[19][21] Neck musculature in Borhyaena is powerfully developed, with robust cervical vertebrae providing extensive attachment sites for muscles such as the trapezius and splenius, enabling effective head stabilization and extension during feeding to manipulate and process large prey items.[21] This adaptation complements the skull's mechanics, allowing sustained force application without excessive head displacement. In terms of bite mechanics, Borhyaena's estimated force aligns closely with the absolute canine bite of the American black bear (Ursus americanus, 541 N), though its higher BFQ (compared to the bear's 64) indicates greater relative power for its size, akin to the thylacine (Thylacinus cynocephalus, BFQ 166).[22][19]

Postcranial Skeleton

The postcranial skeleton of Borhyaena tuberata indicates a medium-sized predator adapted for terrestrial locomotion, with an estimated body mass of approximately 23 kg (range 19–29 kg) derived from femoral dimensions. Reconstructed shoulder height measures 45–50 cm, consistent with a robust build suited to navigating Miocene Patagonian environments. These proportions position B. tuberata among the larger borhyaenoids of its time, facilitating predation on mid-sized terrestrial prey.[23] Limb morphology reveals incipient cursorial adaptations, including elongated long bones and reduced mobility in the manus, which limit pronation-supination and promote parasagittal movements of the forelimb. The humerus and ulna exhibit features such as a straighter radius appressed to the ulna, enhancing stability during terrestrial progression. Phalangeal ratios, with proximal phalanges comprising about 38% of metacarpal length, support a semi- or fully digitigrade stance, though this remains debated based on articulations like the scapholunar-radial joint; hindlimb data are limited to the femur (length 174.5 mm) and calcaneum, suggesting similar terrestrial emphases without advanced cursoriality seen in placental carnivorans.[23] The tail of B. tuberata is notably lighter and less muscular than that of its contemporary Prothylacinus patagonicus, featuring robust anterior caudal vertebrae but overall reduced massiveness and greater flexibility at the base, indicative of diminished reliance on arboreal balance or climbing. Musculature reconstructions highlight enhanced triceps development for forelimb extension and reduced flexor roles, implying capabilities for agile maneuvers and short bursts of speed rather than sustained pursuit. Powerful epaxial musculature along the lumbar region, inferred from iliac morphology, further underscores a design optimized for stability and quick terrestrial responses.[23]

Paleobiology

Predatory Behavior and Locomotion

Borhyaena, a hypercarnivorous sparassodont, exhibited an ambush-style predation strategy focused on small- to medium-sized prey, with a typical prey mass ranging from 17 to 48 kg and a maximum of up to 128 kg. This approach is supported by its position in the Santacrucian mammalian predator guild, where anatomical evidence points to solitary hunting without cooperative pack behavior, akin to that observed in the striped hyena (Hyaena hyaena), which targets similar-sized ungulates and scavenges opportunistically. Preferred prey included litopterns such as Theosodon, a herbivore of comparable body size that inhabited the forested and open woodland environments of early Miocene Patagonia. Additionally, Borhyaena likely engaged in scavenging from weakened or deceased animals.[24][19] In terms of locomotion, Borhyaena was adapted for terrestrial life with incipient cursorial traits, enabling short pursuits and bursts of speed rather than endurance running over long distances. Analysis of limb ratios, particularly the relative lengths of the humerus, radius, femur, and tibia, indicates a generalized postcranial skeleton optimized for parasagittal flexion-extension movements at the elbow and knee joints, which enhanced stability and efficiency on the ground but limited rotational maneuverability. The humerus morphology, with a deep trochlea and reduced olecranon process, further supports restricted but powerful limb excursion suited to ambush tactics in varied terrains, distinguishing it from more specialized cursorial predators like phorusrhacids. This locomotor profile aligns with its role as a versatile predator in a diverse guild, reducing competition through niche partitioning based on pursuit distance and habitat use.[5][24] Hunting tactics of Borhyaena have been compared to those of modern analogs such as the thylacine (Thylacinus cynocephalus) and American black bear (Ursus americanus) in guild analyses, reflecting similar ecological roles as solitary ambushers capable of tackling mid-sized terrestrial prey through powerful bites and grappling. For instance, its estimated canine bite force of 538 N yields a bite force quotient (BFQ) of 165, comparable to the thylacine's BFQ of around 160 and the black bear's 151, indicating sufficient strength for subduing and dismembering herbivores without reliance on speed alone. These similarities underscore Borhyaena's position as a generalist predator, blending active hunting with scavenging to exploit the patchy resources of its Miocene ecosystem.[24][19]

Brain Anatomy and Sensory Capabilities

The encephalization quotient (EQ) of Borhyaena tuberata ranges from 0.21 to 0.24, reflecting a moderate brain size relative to its estimated body mass of approximately 21–25 kg, which is comparable to that of other large-bodied sparassodonts but lower than in many extant marsupial carnivores.[25] This value, derived from endocranial volume measurements of around 34 cm³, positions Borhyaena as having cognitive capabilities suited to basic predatory tasks rather than advanced problem-solving.[26] Endocast analyses reveal a brain structure typical of metatherians, with a relatively smooth cerebral surface and an elongated, straight overall form.[25] The olfactory bulbs constitute about 8–9% of the total endocranial volume, suggesting well-developed scent detection abilities for tracking prey in dense, forested environments.[27] Large paraflocculi on the cerebellum indicate balance and coordination adaptations, while the cerebral surface implies limited cortical folding compared to more derived mammals.[26] Sensory capabilities were tuned to the Miocene South American habitats, with inner ear structures yielding a low-frequency hearing threshold of approximately 0.18–0.27 kHz, enabling detection of infrasonic rumbles or movements from larger prey at distance.[26] Upper frequency limits reached 24–25 kHz, sufficient for environmental cues but not specialized for high-pitched sounds.[26] Visual adaptations included a downturned snout (angle ~26°), enhancing binocular overlap for stereoscopic depth perception in low-light understory conditions.[26] These neural and sensory features imply an integrated system for ambush-style predation, where olfactory tracking combined with low-frequency auditory cues and enhanced near-field vision supported hunting efficiency, though the modest EQ limited complex social or tool-related behaviors.[25]

Paleoecology

Habitat and Distribution

Borhyaena inhabited South America during the Early Miocene, spanning approximately 21.0 to 16.0 million years ago, corresponding to the Colhuehuapian and Santacrucian South American Land Mammal Ages (SALMAs).[6] The genus is primarily known from fossil-bearing strata in Patagonia, Argentina, with key occurrences in the Santa Cruz Formation of Santa Cruz Province, and its distribution extended to adjacent regions in southern South America.[28] The paleoenvironments of Borhyaena reflect the Mid-Miocene Climatic Optimum, characterized by warm and humid conditions with modest temperature seasonality of 3–4°C.[28] Mean annual temperatures ranged from 16–22°C, while mean annual precipitation was high, estimated at 1450–1860 mm/year, supporting a subhumid climate that transitioned toward drier intervals in later deposits.[28] This climatic regime facilitated heterogeneous landscapes, including semi-deciduous forests, gallery forests along riverine systems, and patches of open savanna-like areas.[28] Habitat preferences are inferred from associated floral remains and sedimentary features, indicating a C3-dominated ecosystem with wooded canopies exceeding 20 m in height and a prolonged dry season of about 7 months.[28] Fossil woods from the Santa Cruz Formation suggest microthermal conditions with mean annual precipitation of 80–170 cm/year, pointing to forested environments interspersed with open, dry-tolerant vegetation in a floodplain-dominated setting influenced by volcanic activity. Sedimentary evidence, including fine-grained mudstones, sandstones, and volcaniclastic deposits, further supports deposition in broad fluvial systems with intermittent cooling and drying phases.[28] Borhyaena coexisted with a diverse assemblage of herbivores, such as litopterns and notoungulates, in these varied ecosystems.[2]

Ecological Interactions and Extinction

Borhyaena coexisted in the Santacrucian faunal assemblage of the Santa Cruz Formation with a diverse array of predators and herbivores, forming a complex carnivore guild dominated by metatherians. Among fellow sparassodonts, it shared habitats with larger borhyaenids like Arctodictis munizi and smaller proborhyaenids such as Prothylacinus patagonicus, as well as hathliacynids including Lycopsis torresi and Acrocyon sectorius.[2] These interactions were supplemented by competition from avian predators, notably phorusrhacids (terror birds) like Andalgalornis steulleti and Patagornis marshi, which occupied similar terrestrial niches as large carnivores.[2] Potential prey included xenarthran sloths such as Hapalops species and litoptern ungulates like Theosodon and Diadiaphorus, which formed the primary herbivore base in forested to open woodland environments.[2] As a hypercarnivorous sparassodont with an estimated body mass of 20–40 kg, Borhyaena tuberata occupied a mid-tier trophic position within this guild, below the largest predators like Arctodictis but above smaller mesocarnivores.[2][21] Niche partitioning likely occurred through differences in locomotion and prey preference, with Borhyaena's cursorial adaptations enabling pursuit of medium-sized terrestrial herbivores, distinct from the faster, more agile pursuits of proborhyaenids or the scavenging tendencies of some hathliacynids.[2] The extinction of Borhyaena around 16 Ma marked an early phase in the broader decline of borhyaenids, driven by a combination of environmental shifts and ecological pressures rather than direct competition from North American immigrants.[29] Middle Miocene global cooling, linked to declining CO₂ levels and polar ice cap expansion, reduced habitat suitability by promoting aridification and altering vegetation, thereby limiting prey availability for temperature-sensitive metatherians.[30] Concurrent Andean orogeny caused habitat fragmentation through uplift and valley formation, restricting forest cover and exacerbating isolation of populations.[30] Non-competitive ecological interactions, such as shifts in native ungulate diversity (e.g., litopterns and notoungulates), further contributed to the genus's demise, with statistical models indicating these biotic factors as primary drivers over climatic ones alone.[29] The borhyaenid family persisted longer but faced ongoing decline, with final extinctions by the Early Pliocene (~4 Ma), predating the peak of the Great American Biotic Interchange and underscoring internal ecosystem dynamics as key to their fate.[30]

References

  1. https://dx.doi.org/10.1080/03115518.2010.519644
  2. 11 - Paleoecology of the mammalian carnivores (Metatheria ...
  3. Cranium of Sipalocyon externus (Metatheria, Sparassodonta) with ...
  4. The multicausal twilight of South American native mammalian ...
  5. https://doi.org/10.1046/j.0031-0239.2003.00339.x
  6. Evolution of South American mammalian predators (Borhyaenoidea)
  7. https://doi.org/10.1098/rspb.2017.2012
  8. [PDF] Mayulestes ferox, a borhyaenoid (Metatheria, Mammalia) from the ...
  9. https://doi.org/10.26879/1111
  10. https://doi.org/10.1206/3957.1
  11. https://dx.doi.org/10.1080/14772019.2014.926403
  12. None
  13. Eomakhaira molossus, A New Saber-Toothed Sparassodont ...
  14. (PDF) Osteology of Arctodictis sinclairi (Mammalia, Metatheria ...
  15. Borhyaena tuberata Ameghino, 1887 - GBIF
  16. (PDF) Callistoe vincei, a new Proborhyaenidae (Borhyaenoidea ...
  17. the metatheria from the río santa cruz (santa cruz formation, early ...
  18. A new species of small-bodied sparassodont (Mammalia, Metatheria ...
  19. (PDF) Fossil marsupial predators of South America (Marsupialia ...
  20. An eye for a tooth: Thylacosmilus was not a marsupial “saber-tooth ...
  21. Functional adaptations of the postcranial skeleton of two Miocene ...
  22. Bite club: comparative bite force in big biting mammals and the ... - NIH
  23. [PDF] functional adaptations of the postcranial - RERO DOC
  24. https://doi.org/10.1007/s10914-013-9243-4
  25. https://doi.org/10.1007/s10914-025-09763-6
  26. [PDF] endocranial, basicranial, and inner ear anatomy of a middle
  27. The braincase endocast of Sparassodonta (Mammalia, Metatheria ...
  28. Sedimentology and paleoenvironment of the Santa Cruz Formation
  29. Extinction of South American sparassodontans (Metatheria ...
  30. The multicausal twilight of South American native mammalian ...
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