Romaleodelphis

Romaleodelphis; Temporal range: Early Miocene (Aquitanian) 22.5–22 Ma PreꞒ Ꞓ O S D C P T J K Pg N ↓
Scientific classification
Domain:	Eukaryota
Kingdom:	Animalia
Phylum:	Chordata
Class:	Mammalia
Order:	Artiodactyla
Infraorder:	Cetacea
Parvorder:	Odontoceti
Genus:	† Romaleodelphis ; Sanchez-Posada et al., 2024
Species:	†R. pollerspoecki
Binomial name
	†Romaleodelphis pollerspoecki; Sanchez-Posada et al., 2024

Last updated November 07, 2024

Romaleodelphis is a genus of extinct archaic toothed whale from the Early Miocene Ebelsberg Formation of Austria. It had long and slender jaws and homodont teeth and roamed the marine waters of the Central Paratethys that once covered much of Europe. Phylogenetic analysis has shown that Romaleodelphis is most closely related to other odotontocetes previously grouped together as the " Chilcacetus clade, now a paraphyletic grade basal to true dolphins and beaked whales. The inner ear of Romaleodelphis shows that it was capable of hearing hearing narrow-band high frequency sounds, an ability it convergently evolved with several modern types of whales. It is possible that this was a useful tool in evading other predatory whales, though some recent research suggests that it may have also been an early step in the development of the cetacean biosonar.

History and naming

The holotype skull of Romaleodelphis was discovered in 1980 in the sediments of the Ebelsberg Formation during the construction of a hydroelectric powerplant near the town of Pucking, Upper Austria. At the time, several amateur paleontologists, among them Jürgen Pollerspöck, removed fossil material from the site to prevent their destruction. The total material collected for Romaleodelphis consisted of a multitude of skull fragments that were put together by the collectors as well as several postcranial remains. Put together, the skull is mostly complete but lacks the tips of the rostrum and much of the basicranium. However, while the skull material was donated to the Staatliche Naturwissenschaftliche Sammlungen Bayerns by Pollerspöck, the postcranial material was kept by other collectors and their whereabouts are currently unknown. Despite being donated in 1992, it would take another 30 years for the skull to be described, with the paper being published by Catalina Sanchez-Posada and colleagues in 2024.^[1]

The name Romaleodelphis derives from the Greek "'romaléos" meaning sturdy or robust, in reference to the strong zygomatic process of the squamosal bone, and the -suffix "delphis". This suffix is commonly employed for the scientific names of dolphins and traces its meaning to the Greek "dophis" for womb, initially used to highlight the fact that unlike fish, dolphins have a uterus. The species name on the other hand references Jürgen Pollerspöck, who discovered, saved and donated the holotype fossil.^[1]

Description

Romaleodelphis was a medium sized toothed whale with long and slender jaws that make up about 71% of the total skull length. The animal was homodont, meaning that like most modern toothed whales and unlike several now extinct forms that coexisted with Romaleodelphis it possessed only a single type of tooth in its jaws.^[1]

Phylogeny

The phylogenetic analysis conducted in the type description of Romaleodelphis recovered 15 most parsimonious trees, the strict consensus of which showing that the animal was a derived toothed whale. Specifically, Romaleodelphis was found to clade in a polytomy with Chilcacetus , Argyrocetus bakersfieldensis and a larger grouping consisting of the extant members of Delphinidae (dolphins) and Ziphiidae (beaked whales), their fossil relatives as well as a series of fossil whales previously grouped as the "Chilcacetus clade". In the strict consensus tree, the "Chilcacetus clade" forms an evolutionary grade leading up to dolphins and beaked whales and includes the name-giving Chilcacetus, Romaleodelphis, three species of Argyrocetus (none of which are each others closest relatives) and Macrodelphinus .^[1]

More broadly, this phylogeny finds that the "Chilcacetus clade", dolphins and beaked whales are each others closest relatives and that the sister group to these three is formed by the river dolphins of the Platanistoidea and their extinct relatives the Eurhinodelphinidae. Other taxa included in the study were Squalodon and Waipatia, two much more basally branching toothed whales.^[1]

	Eurhinodelphinidae

	Platanistoidea

Chilcacetus

Argyrocetus bakersfieldensis

Romaleodelphis

Argyrocetus joaquinensis

	Argyrocetus patagonicus

	Macrodelphinus

Yaquinacetus

Delphinidae

	Squaloziphius

	Ziphiidae

The supplementary material further includes a 50% majority-rule consensus tree in which rather than being a grade, a slimmed down version of the "Chilcacetus clade" (consisting of Romaleodelphis, Argyrocetus bakersfieldensis and Chilcacetus) actually forms a monophyletic group with Romaleodelphis as the earliest diverging member. It is therefore possible that the "Chilcacetus clade" originated in the Paratethys before spreading across the Atlantic and colonizing the coasts of North and South America, were most members of this group are known from.^[1]

Paleobiology

Hearing abilities

Principle component analysis (PCA) has shown that the anatomy of Romaleodelphis' earbones would indicate that it was capable of hearing narrow-band high frequency sounds. This makes Romaleodolphin the first known archaic homodont toothed whale with the ability to perceive the kinds of sounds made by modern toothed whales like porpoises and dwarf spermwhales, which acquired this ability convergently. The PCA also suggests that some early members of Platanistoidea fall into the same morphospace, likely representing yet another example of narrow-band high frequency hearing arising independently among toothed whales. Notably however, the shape of the cochlea differs between these early platanistoids and Romaleodelphis, which may be related to them filling different niches in their respective ecosystems. Whatever the case, the hearing apparatus of Romaleodelphis provides additional evidence for the early and repeated evolution of such hearing, which is seen in Early Oligoccene platanistoids from New Zealand, Romaleodelphis from Early Miocene Austria and the Middle Miocene eurhinodelphinid Xiphiacetus (also from Europe).^[1]

The function of narrow-band high frequency hearing is uncertain. One hypothesis has proposed that such hearing is advantageous when trying to avoid large predatory whales like macroraptorial sperm whales and orcas, whereas other research has suggested that this form of hearing is simply an early stage in the evolution of echolocation. Whatever the case, the anatomy of the semicircular canals in Romaleodelphis suggests that the hearing was more sensitive to head movement than in Xiphiacetus and porpoises, as inferred based on comparison with certain baleen whales and the bottlenose dolphin.^[1]

Paleoenvironment

Romaleodelphis was discovered in the sediments of the Ebelsberg Formation near the Upper Austrian town of Pucking. This Lagerstätte is known to represent a marine neritic environment of the Central Paratethys, which once covered much of Central Europe. In addition to the clear signs of a marine environment, not limited to the present fauna which includes the sunfish Austromola , various sharks, at least one other dolphin and many marine fish, the Ebelsberg Formation also preserves evidence of some freshwater influence through nearby rivers that emptied into the Paratethys. Since narrow-band high frequency hearing is not associated with any biome in particular (dwarf sperm whales are pelagic animals that inhabit the open oceans, porpoises stay close to the coast and the La Plata dolphin even swims up estuaries), Sanchez-Posada and colleagues speculate that it is possible that Romaleodelphis could have theoretically been capable of traveling between fresh-, salt- and brackish water.^[1]

Related Research Articles

Cetacea is an infraorder of aquatic mammals belonging to the order Artiodactyla that includes whales, dolphins and porpoises. Key characteristics are their fully aquatic lifestyle, streamlined body shape, often large size and exclusively carnivorous diet. They propel themselves through the water with powerful up-and-down movement of their tail which ends in a paddle-like fluke, using their flipper-shaped forelimbs to maneuver.

The toothed whales are a clade of cetaceans that includes dolphins, porpoises, and all other whales with teeth, such as beaked whales and the sperm whales. 73 species of toothed whales are described. They are one of two living groups of cetaceans, the other being the baleen whales (Mysticeti), which have baleen instead of teeth. The two groups are thought to have diverged around 34 million years ago (mya).

Squalodon is an extinct genus of whales of the Oligocene and Miocene epochs, belonging to the family Squalodontidae. Named by Jean-Pierre Sylvestre de Grateloup in 1840, it was originally believed to be an iguanodontid dinosaur but has since been reclassified. The name Squalodon comes from Squalus, a genus of shark. As a result, its name means "shark tooth". Its closest modern relative is the South Asian river dolphin.

Prosqualodon is an extinct genus of Early to Middle Miocene cetacean from Argentina, Australia, New Zealand and Venezuela.

<span class="mw-page-title-main">Cetruminantia</span> Taxonomic clade

The Cetruminantia are a clade made up of the Cetancodontamorpha and their closest living relatives, the Ruminantia.

Zygophyseter varolai is an extinct sperm whale that lived during the Tortonian age of the Late Miocene 11.2 to 7.6 million years ago. It is known from a single specimen from the Pietra Leccese Formation in Italy. It was a member of a stem group of fossil macroraptorial sperm whales also including Brygmophyseter, Acrophyseter, and Livyatan. It probably grew to be around 6.5 to 7 meters in length and shared some characteristics with other raptorials, such as large teeth with tooth enamel that were functional in both the upper and lower jaws which the modern sperm whale lacks. It also had a beak, the ability to echolocate prey, and could have probably swum faster than the modern-day sperm whale which can reach 4 kilometers per hour (2.5 mph). These were probably used in the capture of large prey, such as large fish, seals, and whales. In fact, its common name, the killer sperm whale, refers to its feeding habits that would have had a resemblance to the modern-day killer whale.

Livyatan is an extinct genus of macroraptorial sperm whale containing one known species: L. melvillei. The genus name was inspired by the biblical sea monster Leviathan, and the species name by Herman Melville, the author of the famous novel Moby-Dick about a white bull sperm whale. Herman Melville often referred to whales as "Leviathans" in his book. It is mainly known from the Pisco Formation of Peru during the Tortonian stage of the Miocene epoch, about 9.9–8.9 million years ago (mya); however, finds of isolated teeth from other locations such as Chile, Argentina, the United States (California), South Africa and Australia imply that either it or a close relative survived into the Pliocene, around 5 mya, and may have had a global presence. It was a member of a group of macroraptorial sperm whales and was probably an apex predator, preying on whales, seals and so forth. Characteristically of raptorial sperm whales, Livyatan had functional, enamel-coated teeth on the upper and lower jaws, as well as several features suitable for hunting large prey.

Squalodontidae or the shark-toothed dolphins is an extinct family of large toothed whales who had long narrow jaws. Squalodontids are known from all continents except Antarctica, from the Oligocene to the Neogene, but they had a maximal diversity and global distribution during the Late Oligocene and Early to Middle Miocene.

Xiphiacetus is an extinct genus of cetacean known from the Miocene (early Burdigalian to late Tortonian, 20.43 to 7.246 million years ago of Europe and the U.S. East Coast.

The Ebelsberg Formation is a geologic formation in Austria. The section exposed near the town of Pucking are considered to be a Konservat-Lagerstätte. It preserves fossils dated to the Aquitanian age of the Miocene epoch.

Otekaikea is an extinct genus of toothed whale closely related to Waipatia. It is known from the late Oligocene (Chattian) of New Zealand.

Lophocetus is an extinct genus of dolphin belonging to the clade Delphinida that is known from late Miocene (Tortonian) marine deposits in California and Maryland. Although usually placed in Kentriodontidae, recent studies have found it only distantly related to Kentriodon.

Arktocara is an extinct genus of river dolphin from the Oligocene epoch of Alaska, containing one species, A. yakataga. Having been discovered in 25-million-year-old strata near the 60th parallel north, it is perhaps the oldest-known crown toothed whale and the northmost river dolphin discovered. It was a member of the now-extinct family Allodelphinidae, along with the genera Allodelphis, Goedertius, Ninjadelphis, and Zarhinocetus. It measured approximately 2.26 or 2.28 meters, comparable to its closest living relative, the South Asian river dolphin, which measures 2.4 meters (7.9 ft). However, the animal probably had an elongated beak and neck, so it may have been longer. The animal is known only from a partially preserved skull. Its ecology may have been similar to the modern-day Dall's porpoise, and it may have competed with contemporaneous delphinoids. Its remains were found in the Poul Creek Formation, which has also yielded several mollusk species.

Phoberodon is a genus of archaic odontocete cetacean from the Early Miocene (Burdigalian) of Patagonia, Argentina.

Chilcacetus is an extinct genus of primitive odontocete known from Early Miocene (Aquitanian) of Peru. Fossils were found in and named after the Chilcatay Formation of the Pisco Basin.

Ankylorhiza is an extinct genus of toothed whale that lived in what is now the United States during the Oligocene epoch, between 29 and 23.5 million years ago. The type and only known species is A. tiedemani, though two fossil skeletons may represent an additional, second species within the genus. Ankylorhiza was about 4.8 meters (16 ft) long, with a long, robust skull bearing conical teeth that were angled forwards at the tip of the snout.

Pebanista is an extinct genus of platanistid "river dolphin" that lived during the Early to Middle Miocene in Peru. As a member of the Platanistidae, Pebanista is most closely related to the extant Ganges and Indus river dolphins (Platanista) of South Asia and shares no close relation to the modern Amazon river dolphin that inhabits the same region today. Like its close relatives, Pebanista possesses enlarged crests that would have covered the melon in life, possibly helping to focus their biosonar while hunting in murky waters. Pebanista further stands out as being the largest "river dolphin" yet discovered, reaching lengths between 2.8–3.47 m at minimum, much larger than the biggest recorded freshwater cetaceans of today. Given its relatively robust if elongated snout, it is thought that Pebanista was an active predator, profiting from the rich prey selection available to it in the enormous Pebas wetlands that covered South America during the early parts of the Miocene. Only a single species of Pebanista is known so far: P. yacuruna.

References

1 2 3 4 5 6 7 8 9 Sanchez-Posada, C.; Racicot, R. A.; Ruf, I.; Krings, M.; Rössner, G. E. (2024). "Romaleodelphis pollerspoecki, gen. et sp. nov., an archaic dolphin from the Central Paratethys (Early Miocene, Austria)". Journal of Vertebrate Paleontology. e2401503. doi:10.1080/02724634.2024.2401503.

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[SP24-1] 1 2 3 4 5 6 7 8 9 Sanchez-Posada, C.; Racicot, R. A.; Ruf, I.; Krings, M.; Rössner, G. E. (2024). "Romaleodelphis pollerspoecki, gen. et sp. nov., an archaic dolphin from the Central Paratethys (Early Miocene, Austria)". Journal of Vertebrate Paleontology. e2401503. doi:10.1080/02724634.2024.2401503.

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