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Cynthiacetus
Cynthiacetus
Cynthiacetus
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Cynthiacetus
Temporal range: Late Eocene
~40.4–33.9 Ma
Skeleton at the MNHN, Paris
Scientific classification Edit this classification
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Artiodactyla
Infraorder: Cetacea
Family: Basilosauridae
Subfamily: Dorudontinae
Genus: Cynthiacetus
Uhen 2005
Species

Cynthiacetus is an extinct genus of basilosaurid early whale that lived during the Late Eocene (Bartonian-Priabonian, 40.4 to 33.9 million years ago.)[1] Specimens have been found in the southeastern United States and Peru (Otuma Formation).[2]

Discovery and naming

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Skull of C. peruvianus at the MNHN, Paris

Cynthiacetus was named after the town of Cynthia, Mississippi, close to where the type specimen for the species C. maxwelli was discovered.

Description

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Life restoration

The skull of C. maxwelli was similar in size and morphology to that of Basilosaurus cetoides, but Cynthiacetus lacked the elongated vertebrae of Basilosaurus. Uhen 2005 erected the genus to avoid the nomen dubium Pontogeneus (which was based on poorly described and now vanished specimens).[3] Cynthiacetus was smaller than Masracetus.[4]

The South American species C. peruvianus, the first archaeocete to be described on that continent, mainly differs from C. maxwelli in the number of cuspids in the lower premolars, but it also has the greatest numbers of thoracic vertebrae (20).[2] The type specimen of C. peruvianus belonged to an adult individual measuring around 9 m (30 ft) long and weighing up to 4 metric tons (4.4 short tons).[5][6]

References

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Revisions and contributorsEdit on WikipediaRead on Wikipedia

Cynthiacetus

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from Grokipedia
Cynthiacetus is an extinct genus of basilosaurid whale that lived during the Late Eocene epoch, approximately 40.4 to 33.9 million years ago. Known from fragmentary to sub-complete skeletal remains, it represents one of the larger members of the Basilosauridae family, characterized by a robust skull with triangular upper incisors, three-rooted cheek teeth bearing accessory cusps, and postcranial features such as large vertebrarterial foramina on cervical vertebrae and a high number of thoracic vertebrae. The genus includes two species: the type species C. maxwelli, described from a partial skeleton including the skull, lower jaws, vertebrae, ribs, sternum, and forelimb elements recovered from the Late Eocene Yazoo Clay Formation in Hinds County, Mississippi, USA; and C. peruvianus, known from a sub-complete skeleton discovered in the Late Eocene to Early Oligocene Otuma Formation on the southern coast of Peru, marking the first archaeocete whale reported from South America. These whales were fully aquatic predators, adapted for life in shallow marine environments of the Tethys Sea and proto-Atlantic margins, with anatomical traits suggesting agile swimming and a diet of fish and possibly smaller marine mammals, inferred from their heterodont dentition and robust jaw structure. Cynthiacetus species differed from the elongated Basilosaurus by lacking extreme vertebral lengthening, instead showing a more compact axial skeleton similar to Dorudon, with C. peruvianus possessing 20 thoracic vertebrae—the highest count recorded among cetaceans—and a dome-shaped neural arch on the atlas vertebra. Phylogenetic analyses place Cynthiacetus within a monophyletic Basilosauridae, often as sister taxon to a clade including Dorudon atrox and Basilosaurus isis, supporting the family's role as a key transitional group between earlier semi-aquatic cetaceans and modern whales. Specimens of C. maxwelli have also been referred from other southeastern U.S. states including Alabama, Georgia, Florida, and North Carolina, indicating a widespread distribution across North American coastal regions during the Priabonian stage.

Discovery and naming

Etymology

The genus name Cynthiacetus is derived from the town of in , near the discovery site of the type specimen of C. maxwelli, combined with the Greek word kētos (κῆτος), meaning "" or "," a common suffix in cetacean . This naming follows traditions in basilosaurid taxonomy, where locality-based prefixes highlight fossil provenance alongside the classical root for whales. The C. maxwelli was established by Uhen in 2005, with the specific epithet honoring the collector or discoverer associated with the specimen. Subsequently, C. peruvianus was named by Martínez-Cáceres and de Muizon in 2011, its species name reflecting the Peruvian origin of its type specimen from the Otuma Formation.

Type specimens and species

The genus Cynthiacetus comprises two species, both known from the Late Eocene stage (approximately 37–34 million years ago). The , C. maxwelli, is represented by MMNS VP 445, a partial skeleton that includes a , dentaries, upper and lower , the petrotympanic complex, cervical to caudal vertebrae, , scapulae, , , , and innominate. This specimen was collected from the Yazoo Clay Formation in , , near the town of , during the and fully excavated in 1998. It was described and named by Uhen in 2005, honoring local fossil collector Britt Maxwell. No paratypes have been designated for C. maxwelli. The second species, C. peruvianus, is based on holotype MNHN.F.PRU10, a sub-complete skeleton preserving the skull, dentaries, dentition, hyoid apparatus, 54 vertebrae (cervical through caudal), 20 pairs of ribs, five sternebrae, elements of the right forelimb and partial hindlimb (including scapula, humerus, radius, ulna, carpals, metacarpals, phalanges, innominate, femur, tibia, fibula), and partial pelvis. This specimen was collected in 1977 from the Otuma Formation in the Pisco Basin, near Paracas Bay on the southern coast of Peru (coordinates approximately 13°52’54.3”S, 76°14’13.4”W). It was first described in 2011 by Martínez-Cáceres and de Muizon, with a comprehensive anatomical and phylogenetic analysis published in 2017 by Martínez-Cáceres et al.. The specific epithet reflects its Peruvian provenance. No formal paratypes are designated, though additional isolated vertebrae and ribs from the same locality in the Otuma Formation have been referred to the species in subsequent studies.

Taxonomy

Classification

Cynthiacetus is classified within the kingdom Animalia, phylum Chordata, class Mammalia, order Artiodactyla, infraorder Cetacea, family Basilosauridae, subfamily Dorudontinae, and genus Cynthiacetus. As a member of Basilosauridae, Cynthiacetus represents one of the earliest fully aquatic whales, characterized by adaptations for obligate marine life such as reduced hind limbs and a tail fluke, distinguishing it from earlier semiaquatic archaeocetes like pakicetids and ambulocetids that retained terrestrial capabilities. The genus includes two valid species: the type species C. maxwelli from the late Eocene of , and C. peruvianus from the late Eocene of , with no recognized synonyms for either. Historically, Cynthiacetus maxwelli was initially described within and compared to both and , but subsequent phylogenetic analysis in 2017 refined its placement specifically within Dorudontinae based on shared cranial and vertebral features with .

Phylogenetic relationships

Cynthiacetus is positioned within the family Basilosauridae, forming a derived clade alongside Dorudon and Basilosaurus based on multiple parsimony analyses of morphological characters. In these analyses, Cynthiacetus is frequently recovered as the sister taxon to Basilosaurus, with Dorudon branching as the basal member of this trio, supporting the monophyly of Basilosauridae as the sister group to crown-group cetaceans (Neoceti) within the clade Pelagiceti. The of is bolstered by several synapomorphies, including more than 13 and cranial features such as a narrow anterior to the fourth upper and an elongated rostrum. These traits distinguish basilosaurids from more basal archaeocetes like protocetids and underscore their advanced adaptations for fully aquatic life. A 2017 phylogenetic study by Martínez-Cáceres et al. employed matrices with over 100 characters—primarily cranial (84%) and postcranial—to analyze 32 taxa, consistently placing Saghacetus osiris as the basalmost basilosaurid due to its plesiomorphic vertebral counts (14 , 12 ) and less derived cranial morphology. This positioning of Cynthiacetus highlights its role in Late Eocene cetacean evolution, representing a key stage in the transition to the fully pelagic lifestyle characteristic of modern whales, with enhanced vertebral elongation and skeletal robusticity facilitating sustained . The analyses reveal evolutionary trends such as increased thoracic regionalization and reduced hind limb functionality, bridging semi-aquatic protocetids to the obligatorily marine Neoceti.

Anatomy

Cranial and dental features

The skull of Cynthiacetus peruvianus measures approximately 1170 mm in condylobasal length, making it substantially larger than that of Dorudon atrox (approximately 840 mm) and Zygorhiza species, yet smaller and more slender overall than Basilosaurus cetoides. Like other basilosaurids, it exhibits an elongated rostrum that constitutes 45-55% of the condylobasal length, with a moderately narrow profile, straight or slightly concave lateral margins, and less than 30% premaxillary contribution anteriorly; the rostrum shows a natural leftward torsion. The temporal fossa is notably large and anteroposteriorly extended, bounded dorsally by a straight sagittal crest that is higher than in most neocetes, with the squamosal forming an anteriorly concave fossa. Orbits are circular to oval in shape, positioned dorsally relative to the dental row and ventrally to the nasals, with a moderate size representing 15-25% of the bizygomatic breadth. Dentition in Cynthiacetus is and follows the typical basilosaurid pattern, with an upper dental formula of 3 incisors, 1 canine, 4 premolars, and 2 molars per side, and a lower formula of 3 incisors, 1 canine, 4 premolars, and 3 molars per side. Incisors are conical and single-rooted, canines are robust and pointed, premolars are triangular with a main central cusp flanked by accessory denticles (typically 2-3 mesial and 3-4 distal), and molars are labiolingually compressed with two anteroposteriorly aligned roots and reduced or absent cingula. In C. peruvianus, the third and fourth lower premolars (p3 and p4) bear fewer accessory cusps on their mesial and distal edges compared to C. maxwelli, which exhibits more developed denticulation on these teeth. The nasal bones are lanceolate, strongly tapering anteriorly, and narrower than in most basilosaurids except C. maxwelli, with maximum width in the posterior third or half and separation by a prominent anterior process of the frontal. Sutures are strongly crenulated, including the maxillopremaxillary and frontoparietal joints, while the maxilla articulates extensively with the premaxilla, nasal, frontal, lacrimal, jugal, and palatine, featuring two maxillary foramina and posterior extension that separates the palatines at the midline or reaches behind the nasals—features similar to Basilosaurus cetoides but with distinct maxillary involvement in the orbital margin. These cranial and dental traits, such as the narrow palate anterior to P4 and presence of a parietal foramen, represent synapomorphies supporting placement within Basilosauridae.

Postcranial skeleton

The postcranial skeleton of Cynthiacetus peruvianus is well-represented in the specimen (MNHN.F.PRU10), providing insights into its adaptations as a fully aquatic basilosaurid . The features an elongated vertebral column typical of early cetaceans, with a total body length estimated at approximately 9 based on vertebral proportions and comparisons to related taxa. The vertebral formula consists of 7 , 20 (the highest count recorded among cetaceans), 17 , and an estimated 21 caudal vertebrae, resulting in a presacral count of 44 vertebrae. The are anteroposteriorly compressed and unfused, with the atlas (C1) being the widest and the axis (C2) the longest; notably, C3–C7 exhibit large vertebrarterial foramina for enhanced blood supply to the and lack ventral expansion on the transverse processes of C3–C5. Thoracic vertebrae increase in size posteriorly, with the anterior ones bearing nearly vertical neural spines and spinous processes on T5–T7 inclined at less than 15°; their have a circular cross-section without the elongation seen in basilosaurines like . Lumbar vertebrae are homogeneous with a gradual posterior size increase, featuring elongate posterior (200–250% the length of T1) and a neural canal that is dorsoventrally higher than wide on L1; L17 is the longest. Caudal vertebrae decrease in size posteriorly, with hourglass-shaped and V-shaped neural arches; chevrons are U-shaped and flat ventrally, lacking a crest-like haemal process. No fused is present, and the neural canal shows compression in posterior regions, indicating a reduced size. The reflects adaptations for aquatic locomotion, with paddle-like s and drastically reduced hind limbs characteristic of basilosaurids. The preserved right includes a slender (335 mm long), (221 mm), and (279 mm), along with carpals, metacarpals, and phalanges forming a flipper for stabilization. The pelvic girdle is greatly reduced, with a small innominate ( ≤ first sacral ) and tiny ; preserved elements include the acetabular region, partial , , , and proximal phalanges of digits III–V, confirming the loss of locomotor function in the hind limbs and inability to support terrestrial movement. The comprises 5 sternebrae, with the manubrium (S1) measuring 155 mm long and 100 mm wide. The consists of 20 pairs, articulating with the and supporting the expanded thoracic region; are osteoclerotic without a , with lengths ranging from 40 cm (R1, the shortest) to 95–98 cm (R7–R8, the longest), peaking in at R8 and showing distal expansion in R3–R6. The first five have bulbous distal ends, contributing to a robust thoracic basket suited for and in marine environments.

Distribution and paleoecology

Fossil occurrences

Fossils of Cynthiacetus maxwelli are primarily known from the Yazoo Formation in , , where the type material was recovered from clay pits near Cynthia. Additional fragmentary remains attributable to this species have been reported from localities in , Georgia, , and , including isolated vertebrae and cranial elements from Eocene marine deposits in . In , Cynthiacetus peruvianus is represented by the from the Otuma Formation in the Pisco Basin, southern coast. All known Cynthiacetus fossils derive from the stage of the Late Eocene (approximately 37.8–33.9 Ma), preserved in marine sedimentary deposits indicative of shallow coastal environments. The Yazoo Formation in consists of clay-rich layers formed in nearshore settings, while the Otuma Formation in represents similar shallow marine conditions with bioclastic sandstones and mudstones. Specimens of C. maxwelli were collected in the during the and , with the primary material discovered in and fully excavated in from clay pits. For C. peruvianus, the was discovered in 1977 by Christian de Muizon of the Muséum National d'Histoire Naturelle (MNHN) in the Otuma Formation, with preparation occurring subsequently in .

Habitat and lifestyle

Cynthiacetus inhabited shallow marine coastal waters along the margins of warm subtropical Eocene oceans, with fossils of C. peruvianus recovered from the late Eocene () Otuma Formation in southern , representing a shallow offshore environment approximately 100-200 meters deep characterized by calm depositional conditions and associated molluscan such as Turritella woodsi and Cardita sp.. Similarly, C. maxwelli is known from the late Eocene () Yazoo Clay Formation in the , including and Georgia, which preserved deposits of a coastal marine seaway submerging the region. These settings suggest a fully pelagic lifestyle in nearshore tropical to subtropical seas of the eastern Pacific and western Atlantic proto-Gulf of Mexico, with no of return to terrestrial habitats due to highly reduced hind limbs. The genus was carnivorous, functioning as a raptorial predator that preyed primarily on large teleost fishes such as Scombramphodon (reaching ~1.5 m in length) and possibly other marine vertebrates including the giant penguin Inkayacu paracasensis (~1.5 m), as inferred from conical teeth with cutting accessory denticles on premolars and molars suited for grasping and processing prey, along with direct evidence of an undigested fish head preserved in the thoracic region of a C. peruvianus specimen. The robust skull and dental morphology indicate a diet focused on smaller marine vertebrates rather than large mammals, consistent with basilosaurid feeding strategies. Cynthiacetus employed a fully aquatic lifestyle powered by through dorsoventral oscillations of the caudal and regions, supported by a flexible postcranial , with C. peruvianus featuring 20 —the highest count recorded among cetaceans—and large vertebrarterial foramina for enhanced swimming efficiency, though likely less agile than modern cetaceans. It probably hunted solitarily, as suggested by the minimal post-mortem disturbance in articulated and lack of evidence for schooling behavior, occupying the niche of an in Late Eocene marine ecosystems and bridging early archaeocete transitions to more derived cetacean forms.
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