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Bathornithidae
Bathornithidae
Bathornithidae
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Bathornithidae
Temporal range: Late Eocene to Early Miocene 37–20 Ma
Depiction of Bathornis grallator.
Scientific classification Edit this classification
Kingdom: Animalia
Phylum: Chordata
Class: Aves
Order: Cariamiformes
Family: Bathornithidae
J. Cracraft, 1968
Genera

Bathornithidae is an extinct family of birds from the Eocene to Miocene of North America. Part of Cariamiformes, they are related to the still extant seriemas and the extinct Phorusrhacidae. They were likely similar in habits, being terrestrial, long-legged predators, some of which attained massive sizes.

It has been suggested that most, if not all, North American Paleogene cariamiforme fossils are part of this group.[1] Storrs Olson also referred the European Elaphrocnemus to this clade,[2] though it has since been rejected.[3] Conversely, some analysis have instead recovered them as a polyphyletic group, with Bathornis and kin being sister taxa to phorusrhacids while Paracrax is rendered closer to modern seriemas,[4] though this assessment is heavily debated.[5]

The most recent consensus is that Bathornithidae is relegated exclusively to Bathornis, as a clade of Cariamiformes outside of a clade including seriemas and phorusrhacids, as well as a possible European specimen. Paracrax and Eutreptornis are understood to be odd taxa whose cariamiform affinities are not fully resolved.[6] A 2024 study however finds Bathornis as closer to seriemas than phorusrhacids were.[7]

Biology

[edit]

Though some forms like Paracrax wetmorei might have been capable of flight, most taxa were flightless,[8] constituting examples of flightless birds in mammal dominated environments. Paracrax gigantea, Paracrax antiqua and the larger Bathornis species in particular might have occupied macropredatory niches akin to that of phorusrhacids, the former and latter reaching heights of over 2 m (6 ft 7 in)

Bathornis proper appears to have favoured wetland environments. It was a highly diverse genus, spanning a wide variety of species at various sizes, from the Eocene to the Miocene.[9]

References

[edit]
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Bathornithidae

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Bathornithidae is an extinct family of cariamiform birds, comprising large, flightless terrestrial predators that inhabited North America during the Paleogene and early Neogene periods, from the middle Eocene to the early Miocene (approximately 48 to 20 million years ago). These birds were adapted for a cursorial lifestyle, featuring long legs for running, reduced wings indicative of flightlessness, and robust skulls suited for carnivorous feeding, with some species estimated to have stood up to 2 meters (6.5 feet) tall and weighed over 100 kilograms. Representing an early stem-group divergence within Cariamiformes—the order that includes modern seriemas (Cariamidae) and the giant South American terror birds (Phorusrhacidae)—Bathornithidae occupied apex predator niches in forested and open habitats of the western United States, particularly Wyoming, South Dakota, Nebraska, and Colorado. Recent phylogenetic analyses restrict the family to the single genus Bathornis, encompassing at least five valid species (B. grallator, B. veredus, B. celeripes, B. cursor, and B. fricki), while excluding formerly included taxa like Paracrax due to significant morphological differences, although some classifications still include additional genera. Fossils of Bathornithidae, first described in the early , are primarily known from partial skeletons, including skulls, vertebrae, limb bones, and rare sternal elements, which reveal unique features such as a greatly reduced sternal and a deep scapulotricipital sulcus on the —adaptations linked to their ground-dwelling predatory behavior. These birds likely preyed on small mammals, reptiles, and other vertebrates in subtropical to temperate environments, filling ecological roles analogous to those of contemporaneous mammalian carnivores like early dogs and . The family became extinct by the early . As key members of the clade—a major avian lineage that also encompasses , parrots, and songbirds—Bathornithidae provide critical insights into the early evolution and of predatory neornithine birds, highlighting North America's role as a center of avian diversity before the dominance of South American phorusrhacids.

Taxonomy and Phylogeny

Etymology and Classification

The genus name was coined by Alexander Wetmore in 1927, meaning "tall bird" in Greek, likely referring to the long-legged morphology. The family name Bathornithidae was established by Wetmore in 1933, initially classifying the group within the Cariamidae based on phalangeal proportions and adaptations, marking a shift from earlier tentative placements in the Burhinidae. Joel Cracraft's 1968 monograph provided a comprehensive review, unifying previously disparate fossils and formalizing the family's position within the , specifically the suborder Cariamae and superfamily Cariamoidea, as defined by Wetmore (1960). Early discoveries in the 1870s by contributed to the fragmented initial understanding, with specimens such as Paracrax antiqua (originally described as Meleagris antiquus in 1871) placed among galliforms like the , while other -like fossils were treated as isolated gruiform or charadriiform elements without familial cohesion. Cracraft's synthesis in 1968 resolved this by reviewing all known material, recognizing and as core genera, and transferring P. antiqua to Bathornithidae, emphasizing shared traits with cariamids. Subsequent work by Cracraft in 1971 added the genus Eutreptornis to the family based on elements from the late Eocene. In modern taxonomy, Bathornithidae is recognized as an extinct family within the order Cariamiformes, reflecting reclassifications driven by phylogenetic analyses that highlight synapomorphies such as semi-zygodactyl feet and robust tarsometatarsi akin to those in seriemas (Cariamidae). Recent analyses restrict the family to the genus Bathornis, excluding formerly included taxa like Paracrax and Eutreptornis due to significant morphological differences; Eutreptornis is considered a possible cariamiform but not a definitive bathornithid. The inclusion of the European Eocene Elaphrocnemus remains debated due to incomplete material and potential affinities with other cariamiforms like Idiornithidae.

Evolutionary Relationships

Bathornithidae is classified within the order , with positioned as a stem-cariamiform outside the crown comprising modern seriemas (Cariamidae) and the extinct South American phorusrhacids (terror birds), supported by shared adaptations such as elongated hindlimbs and reinforced tarsometatarsi, as well as cranial features including a robust quadrate and specific palatal morphology. This placement reflects their role as early, predominantly flightless predators in North American ecosystems during the . Recent phylogenetic analyses, such as that by Mayr (2016), confirm as more closely related to the crown-group than to other neognaths, based on detailed osteological comparisons of skeletal elements such as the and . Earlier classifications, such as that by Cracraft (1968), allied Bathornithidae with due to superficial resemblances in leg proportions, but molecular and morphological evidence has since established as a distinct lineage, rendering the gruiform affinity outdated. The of Bathornithidae, as currently restricted to , is supported, encompassing species with variation in size and adaptations. Historical proposals of multiple evolutionary lines within a broader (Cracraft 1968) are no longer recognized following the exclusion of other genera. Ongoing research notes similarities between and European taxa like Elaphrocnemus, suggesting possible Holarctic dispersal of early cariamiforms.

Description

Anatomy and Morphology

Bathornithids possessed a robust cranium characterized by fused lacrimal, frontal, and ectethmoid bones, forming a solid unit that contributed to the structural integrity of the . The bill was large and deep, featuring a hooked tip adapted for tearing flesh, with a ventral sulcus along the rostrum maxillare and a less deeply hooked apex compared to some related forms. This cranial morphology resembled that of modern seriemas but was more robust in advanced bathornithid taxa, supporting predatory behaviors through enhanced biting force. Postcranially, bathornithids exhibited reduced forelimbs indicative of limited flight capability in most species, with a short featuring a deep scapulotricipital sulcus and a well-developed flexor process. The had a shallow , further evidencing flightlessness. The was strong, supporting an upright posture suited to terrestrial life. Hindlimb adaptations emphasized cursorial locomotion, with long, robust femora and tibiotarsi transitioning to an elongated that exceeded the in length. The hypotarsus was block-like and robust, while the trochlea metatarsi IV bore a wing-like plantar ; pedal phalanges were modified, with the first of the second and the second and third phalanges of the fourth shortened, facilitating efficient running. These features collectively indicate a predatory, ground-dwelling lifestyle akin to that of extant seriemas.

Size and Variation

Bathornithids exhibited considerable variation in body size, spanning from small, gracile forms roughly 0.6–0.9 m in height and comparable to modern seriemas (Cariama spp.) to robust giants exceeding 2 m tall. For instance, Bathornis minor represents one of the smallest known members of the family, with a breadth of 12.2 mm that is 20–30% smaller than that of closely related species such as B. celeripes. Body mass in bathornithids has been estimated using regression equations derived from skeletal measurements, such as circumference and length, calibrated against modern analogues like seriemas (Cariamidae). These methods account for adaptations shared with extant cariamiforms, providing reliable proxies for overall scale despite incomplete skeletons. Early Eocene representatives were typically smaller and more slender, whereas species showed increased robustness and larger dimensions overall. Morphological diversity within the family is further evidenced by patterns of , particularly in Bathornis, where intraspecific variation in limb bone ratios (e.g., breadth ranging 14.7–16.7 mm in B. celeripes) suggests differences between males and females. The Bathornithidae encompass at least five valid within the genus Bathornis, achieving peak diversity during the Late Eocene with multiple sympatric Bathornis taxa recorded in deposits.

Distribution and Paleoecology

Temporal and Geographic Range

The Bathornithidae spanned a temporal range from the late Eocene to the early , approximately 40 to 20 million years ago, with the majority of well-documented fossils dating to the late Eocene through early . The earliest known occurrences are from the Uintan land-mammal age (late Eocene, around 40–37 Ma), exemplified by taxa such as grallator. The family achieved its peak diversity and abundance during the Chadronian (late Eocene, ~37–34 Ma) and Orellan (early , ~34–32 Ma) stages, reflecting a period of ecological prominence in North American avian faunas. Later records extend into the Whitneyan subage of the early (~32–30 Ma) and persist sporadically into the early (Arikareean, ~30–20 Ma), marking a progressive rarity of finds. Fossils of Bathornithidae are predominantly recovered from sedimentary formations in the , associated with fluvial and lacustrine deposits of the and early . Key localities include the Washakie Formation (late Eocene, ), where representatives like Bathornis grallator have been documented; the Uinta Formation (late Eocene, ); and the Chadron Formation (late Eocene, and ), which preserves early members of the genus . The White River Group, encompassing the Chadron, Brule, and related units (late Eocene to early , spanning , , , and ), represents the most prolific source of bathornithid remains, including diverse species during the family's peak. Additional early fossils occur in the Sharps Formation () and equivalent strata in . Geographically, Bathornithidae were largely confined to western North America, with a core distribution across the Great Plains and extending westward to the foothills of the Rocky Mountains in states including Wyoming, South Dakota, Colorado, Utah, and Nebraska. This range aligns with subtropical to temperate paleoenvironments of the region during the late Eocene climatic optimum and subsequent cooling. Rare occurrences hint at broader dispersal, though no confirmed eastern North American records exist beyond the central plains; a potential European affinity has been debated based on the Eocene taxon Elaphrocnemus from the Quercy Phosphorites (France), but phylogenetic analyses place it outside Bathornithidae as a stem cariamiform. The extinction of Bathornithidae appears to have been gradual, with diversity declining after the early Oligocene as fossil occurrences become scarce, culminating in the last known records from early Miocene deposits in the northern Great Plains. This temporal pattern suggests a protracted fade-out rather than a sudden event, though specific causal mechanisms remain unestablished in the fossil record.

Habitat and Behavior

Bathornithidae inhabited diverse terrestrial environments across North America during the late Eocene to early Miocene, with early taxa such as Bathornis associated with wetland and riparian zones in the late Eocene Washakie Formation of Wyoming, characterized by forested swamps and lake margins. Later forms from the early Oligocene White River Group in South Dakota and Colorado occupied more open savanna and riverine plains, indicative of expanding grasslands and woodlands. These habitat preferences are inferred from fossil localities and the birds' long-legged morphology adapted for navigating varied terrains. The family exhibited a carnivorous diet, preying on small mammals, reptiles, and possibly eggs, as suggested by their beaks and tomial edges suited for tearing and crushing prey, akin to those of modern seriemas. Larger species may have engaged in scavenging, supplementing predation with carrion in resource-scarce open environments. Anatomical adaptations, such as robust hindlimbs and reduced wings, indicate a hunting style reliant on speed and agility for pursuing terrestrial prey across their habitats. Behaviorally, Bathornithidae were flightless terrestrial birds, likely solitary or in small groups like their relatives, with ground-based activities inferred from skeletal evidence of bipedal locomotion and limited flight capabilities. Nesting probably occurred in low vegetation or burrows near water sources, facilitating protection in settings. As apex or mesopredators, Bathornithidae filled key carnivorous niches in ecosystems before the dominance of mammalian predators, competing with early carnivorans and hyaenodonts for prey resources in North American terrestrial communities. Their presence highlights the role of large flightless birds in maintaining trophic balance during faunal transitions. Recent analyses restrict the family to the genus .

Known Taxa

Genus Bathornis

is the type and only genus of the extinct family Bathornithidae, encompassing five valid species that constitute the most diverse and earliest known representatives of this group of cariamiform birds. These species ranged from the middle Eocene to the Early , primarily in western , and are characterized by their adaptations, including long hindlimbs suited for . As flightless or poorly flying predators, Bathornis species filled ecological roles similar to modern seriemas, preying on small vertebrates and in open or semi-open environments. Recent phylogenetic analyses recognize the following valid species: Bathornis grallator (middle Eocene), B. veredus (), B. celeripes (), B. cursor (), and B. fricki (Early Miocene). The species Bathornis grallator Wetmore, 1944, is one of the best-preserved, from the middle Eocene of (including Green River Formation localities), with a partial including a exhibiting seriema-like features such as a hooked and fused lacrimal-frontal bones. The , Bathornis veredus Wetmore, 1927, is known from the Lower Chadron Formation of and , where it reached approximately 2 meters in height, comparable to a modern . Its fossils include tibiotarsi and tarsometatarsi, indicating a robust build for a large, ground-dwelling . Bathornis celeripes Wetmore, 1933, a smaller and potentially more agile species, is documented from Lower deposits in and , with tarsometatarsi suggesting swift capabilities. Bathornis cursor Wetmore, 1933, also from the Lower of , shares similar morphology but differs in the configuration of the metatarsal trochleae. B. fricki Cracraft, 1968, from the Lower of , is represented by a tibiotarsus that indicates a size larger than B. celeripes. Complete skeletons of are rare, with most knowledge derived from elements like tibiotarsi, tarsometatarsi, and pelves, which highlight variations in size and robustness across species. For instance, the of B. grallator reveals cariamiform affinities through its deep sulcus on the and terrestrial adaptations, supporting a wetland-influenced preference inferred from associated lacustrine deposits. Some specimens show slightly elongated wing elements, potentially indicating limited flight ability in juveniles before full terrestrial commitment in adults.

Genus Paracrax

No rewrite necessary — excluded from Bathornithidae per recent analyses.

Other Genera

Formerly included genera such as Eutreptornis and Elaphrocnemus are now excluded from Bathornithidae based on phylogenetic revisions; they represent possible stem cariamiforms or unrelated lineages. Eutreptornis uintae from the Late Eocene of is known from gracile hindlimb elements suggesting transitional forms. Elaphrocnemus from the Eocene of indicates potential transatlantic dispersal among early cariamiforms but is not part of the North American family.

References

  1. https://www.cambridge.org/core/journals/journal-of-paleontology/article/osteology-and-phylogenetic-affinities-of-the-middle-eocene-north-american-bathornis-grallatorone-of-the-best-represented-albeit-least-known-paleogene-cariamiform-birds-seriemas-and-allies/8219C0651F4A5828C644CE21E3030E6D
  2. https://core.ac.uk/download/pdf/18224980.pdf
  3. https://www.sciencedirect.com/science/article/pii/S2053716622000238
  4. https://digitallibrary.amnh.org/items/0c66b3eb-f71d-48b7-90a2-94a6ffe6a985
  5. https://www.researchgate.net/publication/232674422_An_Elaphrocnemus-Like_Landbird_and_Other_Avian_Remains_from_the_Late_Paleocene_of_Brazil
  6. https://doi.org/10.1017/jpa.2016.47
  7. https://www.biodiversitylibrary.org/item/207273
  8. https://www.researchgate.net/publication/272158338_Paleogene_Avifauna_of_the_Holarctic
  9. https://digitallibrary.amnh.org/bitstreams/5059f449-5312-43ec-8ff1-1606cc1b6ef0/download
  10. https://archive.org/details/reviewbathornit2326crac
  11. https://archive.org/details/systematicsevol2449crac
  12. https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0082000
  13. https://digitallibrary.amnh.org/handle/2246/2583
  14. https://repository.si.edu/bitstream/handle/10088/6553/VZ_167_Fossil_Record_of_Birds.pdf?sequence=1
  15. https://www.cambridge.org/core/services/aop-cambridge-core/content/view/8219C0651F4A5828C644CE21E3030E6D/S0022336016000457a.pdf/osteology-and-phylogenetic-affinities-of-the-middle-eocene-north-american-bathornis-grallatorone-of-the-best-represented-albeit-least-known-paleogene-cariamiform-birds-seriemas-and-allies.pdf
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