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Mammalia, Cetartiodactyla, Cetacea, Odontoceti, Platanistidae

POMATODELPHIS INAEQUALIS ALLEN, 1921

Common Name: none


Alternate Scientific Names: Schizodelphis depressus; Cyrtodelphis depressus


Source of Species Name: not explicitly stated by Allen (1921), but it may refer to the asymmetry (“inequality”) in the skull, particularly the rostrum, in which the right side is compressed and the left side is expanded. This condition is present to various degrees in the premaxillae, maxillae, vomer, blowholes and teeth alveoli. It is also possible that the species name refers to the unequal size in tooth alveoli between the rostrum and mandible.

The origin of the generic name Pomatodelphis is similarly unexplained, but ‘pomato’ may be a variation (or misspelling) for potamo, which is river in ancient Greek. The name would then translate as river dolphin. Allen (1921) noted some morphological similarities between Pomatodelphis and the living river dolphin family Platinistidae.


Age Range: middle to late Miocene (late Barstovian-early Hemphillian), from about 13.5 to 6.8 million years ago.


Florida Fossil Occurrences:

Florida map with occurrences indicated

Figure 1. Map of Florida, with black circles indicating counties where fossils of Pomatodelphis inaequalis have been found (the circles do not indicate a specific location within the county where the fossils were found, and some counties may have two or more different locations producing this species).


Florida Fossil Sites with Pomatodelphis inaequalis:
Alachua County—Frenchys Creek; Pareners Branch; Possum Creek 3; Rattlesnake Branch
Hardee County—Fort Green Mine South; Hardee Complex Mine West (C.F. Industries); Peace River
Hillsborough County—Bloomingdale; Four Corners Mine East; Kingsford Mine NW
Manatee County—Four Corners Mine West
Polk County—Brewster Mine; Dominion Phosphate Company Mine; Fort Green Mine, Agrico; Homeland Mine; Hookers Prairie Mine (Grace); Nichols Mine (Mobil); Noralyn Mine (IMC); Phosphoria Mine (IMC); Tencor Mine.

Overall Geographic Range: Pomatodelphis inaequalis is found in the southeastern United States, including Florida and Alabama. The type locality is Brewster Mine, owned by the Amalgamated Phosphate Company, near the town of Brewster in Polk County, Florida.

Comments: The first fossil cetaceans found in Florida were documented by Leidy (1889) from deposits in Peace Creek (now called the Peace River), and he attributed the vertebrae and teeth to the dolphin family. Allen (1921) later described some fossil cetaceans from Florida in more detail, including the new species Schizodelphis depressus and Pomatodelphis inaequalis. These two species were later synonymized by Morgan (1994), based on the variability of several diagnostic features in the skull and jaws that were used to differentiate Pomatodelphis inaequalis, particularly the presence of pits on the maxillae that would occlude with the posterior teeth on the mandible. The specimens attributed to Schizodelphis from the Bone Valley Formation of Florida also lack several diagnostic features of the Eurhinodelphidae, the family to which true Schizodelphis belongs, including the absence of teeth on the distal portion of the rostrum and shorter mandible than rostrum. No fossils from Florida are currently referred to a species of Schizodelphis. In his synonymy, Morgan (1994) chose Pomatodelphis inaequalis as the valid species name over Schizodelphis depressus because it was more commonly used in the scientific literature, even though the latter had page priority in Allen (1921).

As mentioned above in the Source of the Species Name section, it is possible that Pomatodelphis is actually a misspelling of Potamodelphis, which correctly translates as river dolphin in Greek. The name of the genus was possibly corrected, or just incorrectly cited, as “Potamodelphis” by Carroll (1988) and Sepkoski (2002). However, in both of these articles, the name is just included in a taxonomic list with no discussion, so neither can be used as a true, formal correction.

Pomatodelphis inaequalis is found in Florida in the Barstovian Bradley Fauna, the early Clarendonian Agricola fauna of the Bone Valley Formation, and the early Hemphillian Gainesville Creeks Fauna (Morgan, 1994). It has also been recovered in the early Hemphillian Mauvilla Local Fauna, Mobile County, Alabama (Hulbert and Whitmore, 2006). Pomatodelphis inaequalis is most common in the Agricola Fauna and is the second-most abundant marine mammal after the dugong Metaxytherium floridanum in the Bone Valley Formation (Morgan, 1994). Also in the Agricola Fauna of Florida is the only other North American member of the genus, Pomatodelphis bobengi (Morgan, 1994). Pomatodelphis bobengi differs from Pomatodelphis inaequalis by its larger overall size, larger teeth, and somewhat blunter rostrum (Morgan, 1994). Pomatodelphis stenorhynchus, formerly Delphinus stenorhynchus, from the Miocene of France is the only other species that is currently included within Pomatodelphis (Barnes, 2006).

Morgan (1994) noted significant size variation in the dolphins of the Bone Valley Formation and suggested that the specimens attributed to Pomatodelphis inaequalis might actually represent two separate species. He hypothesizes that most of the published specimens, including the holotypes of Pomatodelphis inaequalis and Schizodelphis depressus, would belong to Pomatodelphis inaequalis (Fig. 2), while a group of smaller specimens with narrower rostra may represent a new species of Pomatodelphis (Figs. 3-4). This, however, will need to be resolved in a future study.


skull of Pomatodelphis

Figure 2. UF 115691, dorsal view of skull of Pomatodelphis inaequalis from the Phosphoria Mine, Polk County. Note the enlarged left side of the rostrum in comparison to the right.



skull of Pomatodelphis

Figure 3. UF 50000, dorsal view of the skull of either Pomatodelphis inaequalis or possible new species of smaller Pomatodelphis from the Phosphoria Mine, Polk County. Note asymmmetry between the right and left sides of the rostrum.




skull of Pomatodelphis

Figure 4. UF 50000, ventral view of the skull of either Pomatodelphis inaequalis or possible new species of smaller Pomatodelphis (see text). Note the smaller width of the mandible relative to the maxilla, so that the alveolae in the maxilla are visible.


Characteristics considered to be diagnostic of the genus Pomatodelphis include: 1) greatly elongated, dorsoventrally-flattened rostrum and mandibles (Morgan, 1994); 2) smaller combined width of lower jaws in relation to the rostrum so that the teeth in the lower jaw close inside the upper teeth “like the lid of a pot” (Allen, 1921); 3) faint depressions medial to the mandibular teeth alveolae which would meet the upper teeth in occlusion (Allen, 1921); 4) greatly enlarged supraorbital process of the frontal (Morgan, 1994); and 5) anterior mandibular teeth alveolae that are large and widely-spaced in comparison to the smaller, more closely-spaced more posterior alveolae that likely did not support functional teeth (Allen, 1921; Hulbert and Whitmore, 2006).

tooth of Pomatodelphis

Figure 5. UF 209152, tooth of Pomatodelphis inaequalis from the phosphate mines of south-central Florida.


Platinistoids are generally piscivorous, but the unusual occlusion of the jaw of Pomatodelphis, indicates that Pomatodelphis inaequalis may not have actively captured fish. Allen (1921) suggests that its morphology is instead more similar to that of living squid-eating whales. That conclusion, however, has yet to be tested by later authors. Many modern platinistids are freshwater-tolerant and live in rivers, but fossil platinistids are usually reconstructed to be restricted to marine settings (Fordyce and Barnes, 1994). Pomatodelphis has been found in both marine (Agricola Fauna of Florida) and fluvial (Mauvilla Local Fauna in Alabama) settings and likely had a wide salinity tolerance, living in nearshore marine and estuarine environments with the ability to travel up low salinity streams (Hulbert and Whitmore, 2006). Hulbert and Whitmore (2006) also proposed that Pomatodelphis may have been a precursor to the adaptations of later platinistoids, in which certain species are restricted to freshwater rivers.


periotic of Pomatodelphis

Figure 6. UF 212042, ventral view of left periotic of Pomatodelphis inaequalis from the Hardee Complex Mine, Hardee County.


bulla of Pomatodelphis

Figure 7. UF 212043, ventral view of right auditory bulla of Pomatodelphis inaequalis from the Hardee Complex Mine, Hardee County.


bulla of Pomatodelphis

Figure 8. UF 212043, dorsal view of right auditory bulla of Pomatodelphis inaequalis from the Hardee Complex Mine, Hardee County.


Isolated ear bones, the periotic and the auditory bulla, are among the most commonly found specimens of Pomatodelphis inaequalis (Figs. 6-8).



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Scientific Publications and Other References Cited:

Allen, G. M. 1921. Fossil Cetaceans from the Florida Phosphate Beds. Journal of Mammalogy, 2(3): 144-159. http://www.jstor.org/stable/10.2307/1373603

Barnes, L. G. 2006. A phylogenetic analysis of the superfamily Platanistoidea (Mammalia, Cetacea, Odontoceti). Beitrage zur Palaontologie 30:25-42.

Carroll, R. L. 1988. Vertebrate Paleontology and Evolution. W. H. Freeman and Company, New York, 698 p.

Fordyce, R. E. & L. G. Barnes. 1994. The evolutionary history of whales and dolphins. Annual Review of Earth and Planetary Sciences, 22:419-455. http://articles.adsabs.harvard.edu//full/1994AREPS..22..419F/0000419.000.html

Hulbert, R. C., and F. C. Whitmore, Jr. 2006. Late Miocene mammals from the Mauvilla Local Fauna, Alabama. Bulletin of the Florida Museum of Natural History 46(1):1-28. http://ufdcweb1.uflib.ufl.edu/UF00087413/00001

Leidy, J. 1889. Description of vertebrate remains from Peace Creek, Florida. Transactions of the Wagner Free Institute of Science, 2:19-31. http://biodiversitylibrary.org/page/36070611

Morgan, G. S. 1994. Miocene and Pliocene Marine Mammal Faunas from the Bone Valley Formation of Central Florida. Pp. 239-268 in A. Berta & T.A. Deméré, eds. Contributions in Marine Mammal Paleontology Honoring Frank C. Whitmore, Jr. Proceedings of the San Diego Natural History Society Number 29.

Sepkoski, J. J. 2002. A compendium of fossil marine animal genera. Bulletins of American Paleontology 363:1-560.


Original Author(s): Carly L. Manz

Original Completion Date: December 6, 2012

Editor(s) Name(s): Richard C. Hulbert Jr.

Last Up-dated On: April 2, 2013

This material is based upon work supported by the National Science Foundation under Grant Number CSBR 1203222, Jonathan Bloch, Principal Investigator. Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.

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