Ocepeia

Ocepeia Temporal range: Paleocene, 61–57Ma PreꞒ Ꞓ O S D C P T J K Pg N ↓
Ocepeia daouiensis head restoration
Scientific classification
Kingdom:	Animalia
Phylum:	Chordata
Class:	Mammalia
Superorder:	Afrotheria
Clade:	?Paenungulata
Family:	†Ocepeiidae Gheerbrant, 2014
Genus:	†Ocepeia Gheerbrant & Sudre, 2001
Type species
Ocepeia daouiensis Gheerbrant & Sudre, 2001[1]
Species
O. daouiensis Gheerbrant & Sudre, 2001 O. grandis Gheerbrant et al., 2014[2]

Ocepeia is an extinct genus of afrotherian mammal that lived in Morocco in the middle Paleocene epoch, approximately 60 million years ago. First named and described in 2001, the type species is O. daouiensis from the Selandian stage of Morocco's Ouled Abdoun Basin. In 2014, a second, larger species, O. grandis, was described from the Thanetian, a slightly younger stage in the same area. The two species are estimated to have weighed about 3.5 kg (7.7 lb) and 10 kg (22 lb), respectively, and are believed to have been specialized leaf-eaters. The fossil skulls of Ocepeia are both the oldest known afrotherian skulls, and the best-known of any Paleocene mammal in Africa.

Ocepeia shares several features with primitive paenungulates (a group including elephants, sea cows, and extinct relatives), but some analyses suggest it is more closely related to Afroinsectiphilia (a group containing aardvarks, golden moles, and tenrecs). As such, it may represent a transitional stage in the evolution of paenungulates from insectivore-like mammals. Unusual features of Ocepeia include skull bones with many air-spaces, and a jaw and dentition reminiscent of that in simian primates. It also has fewer teeth than other early ungulates. Ocepeia is distinct enough from other groups that it is placed in its own family, Ocepeiidae.

Ocepeia lived at a time when northwest Africa was at the intersection of the Atlantic Ocean and the ancient Tethys Ocean, and much of the area was flooded by shallow, warm inland seas. Ocepeia fossils are associated with diverse sharks, birds, and marine reptiles, and a small number of early mammals, including early proboscideans and "condylarths", which together help clarify the early evolution of the Afrotheria and the origins of the African mammal fauna.

Discovery and naming

Morocco's major phosphate basins (A) and key fossil localities of the Ouled Abdoun (B): Grand Daoui, Meraa El Arech, and Sidi Chennane

All specimens of Ocepeia come from the Ouled Abdoun Basin of Morocco, a phosphate basin. Research on Ocepeia has been carried out by French and Moroccan researchers led by Dr. Emmanuel Gheerbrant of the National Museum of Natural History in Paris. Ocepeia fossils have been recovered from the Grand Daoui (hence the specific name daouiensis, "from Daoui"), Meraa El Arech, and Sidi Chennane quarries, with the latter bearing the most complete specimens. Some of the original material was collected on-site as early as 1997, other material was obtained from fossil dealers.^[1][3]

Ocepeia was first described and named in 2001 based on two lower jaw fragments assigned to the new species O. daouiensis: one (designated CPSGM-MA1), bearing a premolar and first molar, is the holotype for the species.^[1] Additional material assigned to O. daouiensis was described in 2010, including a near-complete left lower jaw bone and additional dental fragments.^[3] In 2014, new specimens of O. daouiensis were described including a partial skull, upper jaw, and additional teeth, allowing for a complete reconstruction of what the intact skull looked like. The diversity of specimens, combined with CT scans of the partial skull, allowed for a much more detailed and comprehensive description. Additionally, new lower jaw fragments with larger teeth led to the description and naming of O. grandis, whose holotype (designated MNHN.F PM37) bears a canine tooth and full set of cheek teeth.^[2] As of 2014, the skull of Ocepeia is the best and only known mammal skull from the Paleocene of Africa, as well as the oldest known skull of any afrotherian.^[2]

Etymology

The name Ocepeia derives from the initials of Office Chérifien des Phosphates (O.C.P.), the national Moroccan phosphate mining company that supported paleontological research in the Ouled Abdoun Basin, while the specific name daouiensis derives from Sidi Daoui, a fossil quarry within the Basin.^[1] O. grandis is named for its larger size compared to O. daouiensis; "grandis" meaning "large" or "great" in Latin.^[2]

Description

Reconstructed skull of O. daouiensis. Scale bar: 10 mm (0.39 in)

Ocepeia shows a mixture of primitive and highly derived traits, including features shared with primitive eutherian mammals as well as features similar to those seen in primitive ungulates ("condylarths") and early paenungulates.^[2]

The skull of O. daouiensis was about 9 cm (3.5 in) in length and 5 cm (2.0 in) wide, estimated from reconstructions. O. grandis is known only from lower jaws with associated cheek teeth and isolated upper teeth.^[2]

Estimates of body weight of O. daouiensis range between 8.5 kg (19 lb), estimated from tooth length, and 2.5 kg (5.5 lb), estimated from skull length. Using average values for all ungulates, Gheerbrant et al. found the most likely estimate was 3.5 kg (7.7 lb), or about the size of a modern-day hyrax. The dental remains of O. grandis are about 1.5 times larger than O. daouiensis, giving an estimated weight of 10–12 kg (22–26 lb).^[2]

Cranium

The most complete skull of O. daouiensis, in dorsal (A) and ventral view (B), believed to be a young adult female

CT scans in of the skull in lateral (A) and cross-sectional view (B) show pronounced pneumatization (dark air spaces) in the upper and rear sections

The cranium (upper part of the skull) of O. daouiensis is known from two specimens: one consisting of a partial cranium including upper jaw material, the other consisting of a maxilla (upper jaw) with associated teeth. The former specimen is most complete, but lacks many of the fully-grown males features, so it is assigned to a young adult female. The later specimen is proportionally larger, although less complete, and possesses features such as large canine teeth that allow it to be assigned to a fully-grown male. The skull of O. daouiensis is generally robust. The skull has a short and robust snout, noticeably like that of a primate. CT scans revealed that the cranium of Ocepeia daouiensis was largely pneumatized (possessed numerous air spaces), with the supraoccipital greatly thickened.^[2]

The cranial features Ocepeia shares with primitive eutherians include eye-sockets (orbits) set further back on the skull, relatively narrow cheek bones (zygomatic arches), and details of the inner ear, while characters it shares with paenungulates and early paenunuglate-like ancestors include a wide nasal cavity and a very short bony projection in the eye-socket.^[2] Pneumatized skulls are also found in larger proboscideans (e.g. elephants, mastodons, and other extinct relatives).^[2][4]

Dentition

The dental formula of Ocepeia is 3.1.2.33.1.2.3, meaning it has 3 incisors, 1 canine, 2 premolars, and 3 molars on each side of the upper and lower jaw. The ancestral eutherian condition is having four premolars, and the evolutionary loss of the 1st and 2nd premolar, along with lack of a gap (diastema) between the canine and premolar, is one of the unique distinguishing traits of Ocepeia convergent with simian primates.^[2][3] The large, stout canine teeth of O. daouiensis are 7.7–8 mm (about .3 in) long^{[lower-alpha 1]} and also bear subtle similarities to primate canines.^[2][3] All the enamel on the teeth is slightly wrinkly. The third incisor on the upper and lower jaws are small and vestigial.^[2]

O. daouiensis upper jaw in lateral (A) and occlusal view (B), believed to be an adult male

The molars are low-crowned (brachydont), with relatively rounded (bunodont) cusps running lengthwise (selenodont), resulting in a condition known as bunoselenodonty. The upper molars also lack a distinctive cusp (hypocone). Gheerbrant et al. noted these features and some others are shared with the pantodonts Haplolambda and Leptolambda, but due to many differences between the two, including number of teeth, the similarities are thought to be convergent.^[2]

The dental traits Ocepeia shares with primitive eutherians include large canines, simplified premolars, and the above mentioned lack of a hypocone. The selenodont molars and vestigial third incisors are traits shared with paenungulates and proboscideans, respectively.^[2]

Distinguishing anatomical features

The following skull features characterize O. daouiensis (O. grandis is not known from a cranium): a broad and short rostrum (snout) with thick compression; a short frontal bone with a reduced ridge on the border of the orbit and temporal fenestra; an elongated meso- and postero-cranial region of the skull, especially the parietal bone; the presence of parietals with two sloping bony ridges separating in the front from the middle of the sagittal crest; an large pneumatization of the skull bones, especially of the supraoccipital; a middle and inner ear that is remarkably small; and tegmen tympani that are large and inflated.^[2]

Photograph (A) and 3D model (B) of upper teeth (from top down: P³, P ⁴, M¹, & M²) showing the bunoselenodont (rounded lengthwise ridge) morphology

The below features of the skull distinguish both species of Ocepeia: the presence of a symphysis (joint) in the dentary that is short and partially fused; a dentary condyle significantly higher than the row of tooth; a tall and horizontally swelling dentary; a shortened dentition of the cheek teeth, with P_1-2 lacking, no significant gap between its teeth, and the lower incisors compressed with wide and short roots; the third incisor (upper and lower) that is strongly reduced (vestigial); a lower canine that is stout and simian-like; a dentition behind the canines that is noticeably large compared with the size of the mouth roof; a bunoselenodont (a long crest-shaped tooth crown) and brachydont (low-crested) molar pattern with well developed shearing teeth; the size of the molars getting slightly larger from the first to the third molar; the tooth crown of the lower premolars and molars swelling; a simple and trench-like P_3-4; a paraconid that is round and lingual (facing the inside of the mouth) in molars_1-2, but in the middle horizontally in M₃; a paraconid with small crest near where the jaws meet; a main cusp that is low, close in height to the metaconid and paraconid; the presence of a postmetacristid and a metastylid crest; a large mesoconid; a small entoconulid; a very large hypoconid that is low and broad; an entoconid with a short but functional entolophid linking the lingual flank of the hypoconid; a hypoconulid reduced and lingual in M_1–2 and a postcristid that is very long when compared to the selenodont pattern; a short premetacristid; a postcristid bearing several cuspules; no labial cingula; that M₂ is wider than M₁ and M₃; an M₃ that is at least as long as M₂, with an expanded hypoconulid lobe and a sloping distal root; the teeth in the upper cheek more or less homodont (the same); the upper premolars stretching horizontally with a well-developed protocone; the presence of large parastyle and mesostyle cusps; a W-like ectoloph linked to the strong mesostyle cusp; small stylar cusps and crest also present; the absence of a hypocone; a low protocone, expanding mesio-distally with crests separated greatly at the top; the presence of wide protofossa (an indent in the teeth); a very small lingual facing crest/ridge at the base of the paracone; and a thin and continuous lingual cingulum.^[2]

Classification

Ocepeia has occupied various positions within the group of archaic mammals known as "condylarths"^{[lower-alpha 2]} as successive discoveries yielded ever-more complete material. When first described, known only from a total of four teeth, Ocepeia was assigned to an undetermined family (uncertain position, or incertae sedis), tentatively in the Phenacodonta, with noted dental similarities to the arctocyonid Lambertocyon as well as the phenacodontid Ectocion.^[1] Upon reviewing new material in 2010, which included a more complete jawbone and canine teeth, Gheerbrant suggested Ocepeia was more primitive than any phenacodontid, and placed it as family incertae sedis tentatively assigned to the Paenungulata (a group including proboscideans, sea cows, hyraxes, and extinct relatives).^[3]

On describing the most complete material to-date, including new details of the skull anatomy, in 2014 Gheerbrant et al. placed Ocepeia in its own new, monotypic family (Ocepeiidae) based on its many unique derived traits (autapomorphies) and placed the family in an undetermined (and possibly new) order questionably within Paenungulata. However, in some of their cladistic analyses, Ocepeiidae was found to be basal within Afrotheria, but outside the Paenungulata, showing closer relationships with the Afroinsectiphilia (insectivore-like afrotherians including aardvarks and tenrecs), although this relationship was weakly supported morphologically. Despite the varying position, Gheerbrant et al. claimed the most likely position of Ocepeia was in a stem group to the paenungulate crown group due to the many shared traits with Paenungulates, including selenodont molars, yet used the cladogram (evolutionary tree) below as the reference tree in discussing the evolutionary position of Ocepeia. The interpretation of Ocepeia as a stem-paenungulate sharing some similarities with Afroinsectiphilia led Gheerbrant et al. to call it a "transitional fossil" in the evolution of paenungulates from insectivore-like afrotherians.^[2]

Reconstructed skull of O. daouiensis, viewed from above and below. Scale bar: 10 mm (0.39 in)

The lower jaw of O. grandis, which is larger and more robust than O. daouiensis. Scale bar: 10 mm (0.39 in)

Paleobiology

Diet

Cusp view of two upper molars of O. grandis. Scale bar: 10 mm

In remarking on the short snout and strong jaw, features often seen in primates, Gheerbrant (2010) suggested that Ocepeia was similarly a leaf-eater, although "peculiarly specialized": the anterior teeth probably had great strength for gripping or shearing food, and the molars show a shape and wear pattern suggesting they functioned primarily in shearing, as opposed to grinding or crushing. Gheerbrant further speculated that Ocepeia may have shared a similar arboreal lifestyle with primates.^[3] The larger, more strongly-cusped molars of O. grandis suggest it specialized in harder food than O. daouiensis.^[2]

Sexual dimorphism

O. daouiensis shows sexual dimorphism in the relative proportions of the skull, while the potential for dimorphism in O. grandis is unknown. The adaptive significance of the pneumatized skull bones is not known, but Gheerbrant et al. speculated it may be related to enhanced transmission of sounds.^[2]

Paleoecology

The area of western Morocco during the late Cretaceous through the Eocene consisted of warm, shallow inland seas, where the ancient Tethys Ocean met the Atlantic Ocean, and during which phosphate deposits and associated fossils accumulated over some 25 million years.^[5]

Ocepeia is from the Paleocene of Morocco's Ouled Abdoun Basin, although its fossils were initially thought to be earliest Ypresian (early Eocene) in age.^[1] That age has been revised, and now it is known that O. daouiensis comes from the same bone bed level that is dated to the Selandian age of the Paleocene, (59-60 MYA) which also yields Eritherium, Abdounodus, and Lahimia.^[2] O. grandis is slightly younger (more recent) in age, occurring in the Thanetian bone bed of the same area.^[2][6] Its larger size and younger age suggest it is in the same evolutionary lineage as O. daouiensis.^{[2][lower-alpha 4]} Other mammals from the Ouled Abdoun come from upper levels of Ypresian age and include Phosphatherium (Proboscidea), Seggeurius (Hyracoidea), Daouitherium (Proboscidea), Boualitomus (Hyaenodontidae), and a poorly known undetermined species.^[7] Among them Phosphatherium is the best known and most frequent. Mammals are extremely rare in the Ouled Abdoun in contrast to the associated marine vertebrate fauna which includes sea birds, sharks, bony fish, and marine reptiles (including crocodilians, sea turtles, and the sea snake Palaeophis).^[6][7] Terrestrial species were probably transported off shore into the Moroccan sea before fossilization.^[7]

References

Notes

Citations

1. ↑ 1.0 1.1 1.2 1.3 1.4 1.5 Gheerbrant, Emmanuel; Sudre, Jean; Iarochene, Mohamed; Moumni, Abdelkader (2001). "First ascertained African "Condylarth" mammals (primitive ungulates: cf. Bulbulodentata and cf. Phenacodonta) from the earliest Ypresian of the Ouled Abdoun Basin, Morocco". Journal of Vertebrate Paleontology 21 (1): 107–118. doi:10.1671/0272-4634(2001)021[0107:FAACMP]2.0.CO;2. 
2. ↑ 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 2.10 2.11 2.12 2.13 2.14 2.15 2.16 2.17 2.18 2.19 2.20 2.21 2.22 2.23 Gheerbrant, E.; Amaghzaz, M.; Bouya, B.; Goussard, F.; Letenneur, C. (2014). "Ocepeia (Middle Paleocene of Morocco): The Oldest Skull of an Afrotherian Mammal". PLoS ONE 9 (2): e89739. doi:10.1371/journal.pone.0089739. PMID 24587000. 
3. ↑ 3.0 3.1 3.2 3.3 3.4 3.5 Gheerbrant, E. (2010). "Primitive ungulates ("Condylarthra" and stem Paenungulata)". In Werdelin, L.; Sanders, W.J. Cenozoic Mammals of Africa. Berkeley: University of California Press. pp. 563–571. ISBN 0520257219. 
4. ↑ Shoshani, Jeheskel (1998). "Understanding proboscidean evolution: a formidable task". Trends in Ecology & Evolution 13 (12): 480–487. doi:10.1016/S0169-5347(98)01491-8. 
5. ↑ Kocsis, Lászlό; Gheerbrant, Emmanuel; Mouflih, Mustapha; Cappetta, Henri; Yans, Johan; Amaghzaz, Mbarek (2014). "Comprehensive stable isotope investigation of marine biogenic apatite from the late Cretaceous–early Eocene phosphate series of Morocco". Palaeogeography, Palaeoclimatology, Palaeoecology 394: 74–88. doi:10.1016/j.palaeo.2013.11.002. 
6. ↑ 6.0 6.1 Yans, Johan; Amaghzaz, M'Barek; Bouya, Baadi; Cappetta, Henri; Iacumin, Paola; Kocsis, László; Mouflih, Mustapha; Selloum, Omar; Sen, Sevket; Storme, Jean-Yves; Gheerbrant, Emmanuel (2014). "First carbon isotope chemostratigraphy of the Ouled Abdoun phosphate Basin, Morocco; implications for dating and evolution of earliest African placental mammals". Gondwana Research 25 (1): 257–269. doi:10.1016/j.gr.2013.04.004.  Cite uses deprecated parameter |coauthors= (help)
7. ↑ 7.0 7.1 7.2 Gheerbrant, E., Sudre, J., Cappetta, H., Mourer-Chauviré, C., & Bourdon, E., Iarochene, M., Amaghzaz, M., Bouya, B. (2003). "Les localités à mammifères des carrières de Grand Daoui, bassin des Ouled Abdoun, Maroc, Yprésien: premier état des lieux. [The mammal localities of Grand Daoui Quarries, Ouled Abdoun Basin, Morocco, Ypresian: A first survey]". Bull. Soc. géol. Fr. (in French with English abstract) 174 (3): 279–293. doi:10.2113/174.3.279. 

Further reading

• Gheerbrant, E; D. Donming & P. Tassy (2005). "Paenungulata (Sirenia, Proboscidea, Hyracoidea, and Relatives)". In Kenneth D. Rose, J. David Archibald (eds.). The Rise of Placental Mammals: Origins and Relationships of the Major Extant Clades. Baltimore: Johns Hopkins University Press. pp. 84–105. ISBN 080188022X.  Cite uses deprecated parameter |coauthors= (help)

External links

Wikimedia Commons has media related to Ocepeia.

• Ocepeia details in the Paleobiology Database
• Fossil Vertebrates from the Phosphate Basins of Morocco, research from the team of Dr. Nathalie Bardet and Dr. Emmanuel Gheerbrant
• Cretaceous and Paleogene mammals from Africa and Eurasia, additional research of Dr. Gheerbrant