This article relies largely or entirely on a single source .(June 2024) |
Pebanista Temporal range: Early to Middle Miocene | |
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The holotype skull of Pebanista from multiple angles | |
Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Chordata |
Class: | Mammalia |
Order: | Artiodactyla |
Infraorder: | Cetacea |
Family: | Platanistidae |
Genus: | † Pebanista Benites-Palomino et al., 2024 |
Species: | †P. yacuruna |
Binomial name | |
†Pebanista yacuruna Benites-Palomino et al., 2024 | |
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 (Inia geoffrensis) 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 (9 ft 2 in – 11 ft 5 in) 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.
Pebanista was described based on MUSM 4017, a nearly complete skull recovered from the early to middle Miocene strata of the Pebas Formation in Peru. More specifically, the fossil was discovered in 2018 in the banks of the Rio Napo in the province of Loreto in sediments that indicate that it dates to the latest Early Miocene. The specimen is currently housed at the Museo de Historia Natural de la Universidad Nacional Mayor de San Marcos. The team that described Pebanista, headed by Aldo Benites-Palomino, also highlight two additional fossils that may be referrable to this genus or a related form. Namely MUSM 3593, a fragment of a snout tentatively referred to as cf. Pebanista, and MUSM 4759, a tympanic bulla only identified as Platanistidae indet. While the latter also stems from the Pebas Formation, the former was discovered in strata of the Ipururo Formation. [1]
The name Pebanista is composed of Pebas, in reference to the name of the formation and ancient wetland system that this animal once inhabited, and the genus name of the modern South Asian river dolphins Platanista . The name was specifically chosen to reflect both the close relationship between Pebanista and Platanista as well as its specific geographic origin, highlighting the great distance between the two taxa. The species name meanwhile derives from the yacuruna, mythical water beings of the Quechua people of the Peruvian Amazon. [1]
The snout or rostrum of Pebanista; formed chiefly by the bones of the premaxillae, maxillae and vomers; is elongated (longirostrine) and flattened top to bottom (dorsoventrally). In this regard the taxon bears close resemblance to other extinct platanistid dolphins like Prepomatodelphis , Pomatodelphis and Zarhachis , whereas the rostrum of extant Platanista has flattened sides (transverse compression). Additionally, the rostrum of Pebanista doesn't simply lack transverse compression, but actually shows a much greater transverse robustness than any other platanistid. Several tooth sockets are preserved in the holotype specimen, indicating that the animal had proportionally larger teeth than its relatives. [1]
Possibly the most distinct trait of the two extant Platanista species are the enlarged supraorbital crests, thin and pneumatic structures that encase large parts of the melon, a key organ used by toothed whales to echolocate. A similar crest can be found in Pebanista, showing the same transverse flattening of the bony plates that sets them apart from more basal forms such as Pomatodelphis and Zarhachis. At the same time, the crests of Pebanista are more robust than what is seen in Platanista, somewhat like an intermediate between it and the marine forms. Another major difference lies in the structural origins of the crests. In Pebanista the supraorbital crests are formed by the frontal bones, while in Platanista it is the maxillae that form these structures. Pomatodelphis and Zarhachis meanwhile show a mix between the two conditions, with both the frontals and the maxillae participating in forming the crests. The dorsomedial margin of the crests, the upper edges that faces inward towards the midline of the skull, show several prominent open spaces referred to as vacuities or cavities. Benites-Palomino and colleagues hypothesize that these cavities may have been an early stage in the development of fully excavated supraorbital crests as seen in today's Platanista species. [1]
The supraorbital crests arch over the medial part of the skull and form the lateral border to the circumnarial basin, with the back of said basin being restricted by the nuchal crest. This gives the back of the skull a more rectangular appearance. The circumnarial basin is a large depression in the upper surface of the skull that surrounds the bony nares, which in Pebanista are shifted towards the left side, contributing to the asymmetry among the facial bones. This is regarded a notable feature that helps identify Pebanista as a platanistid. This asymmetry is not simply limited to the nares either. The highest point of the skull, the vertex is shifted towards the left as well, as are the premaxillae and several facial bones. Only a single orbit is preserved in the holotype, however, based on this it appears to have been proportionally shorter, which is only shared by species of Platanista and not seen in other members of the family. The ventral surface of the skull prominently displays the pterygoid bones, which obscure the vast majority of the palatines sans narrow regions exposed towards the side of the skull. The temporal fossae, which stretch across the lateral surface of the skull on either side, are noted to be longer than they are high and extend so far back that they enter the occipital region. Vice versa, the occipital shield might project slightly forward into the anterior parts of the skull, however, it is likewise possible that this condition was simply caused by the skull being distorted during preservation. [1]
The skull of Pebanista has a bizygomatic width of 28.1 cm (11.1 in) and a preserved condylobasal length of 69.8 cm (27.5 in). Given the fusion among the individual skull bones, it is inferred that the holotype skull was that of an adult animal. Based on the bizygomatic width, the type specimen was estimated to have had a total body length of approximately 2.8 m (9 ft 2 in). Furthermore, the size of the much less complete referred specimens may indicate even greater lengths were possible. MUSM 3593, a snout fragment, could have belonged to an animal 3.47 m (11.4 ft) long. [1]
However, it is noted by Benites-Palomino and colleagues that regression equations using bizygomatic width, as used in calculating these results, could underestimate the lengths of taxa with highly elongated snouts. Alternatively, the condylobasal length of the skull could be used in order to determine total body length, but since this value is not known in full for Pebanista it has been proposed that the range indicated by the bizygomatic width should be treated as the minimum. Regardless, even these lower estimates exceed the size of any modern river dolphin, which grow up to a maximum length of only around 2.5 m (8 ft 2 in). [1]
All phylogenetic analyses conducted in the type description recovered Pebanista to be a member of the Platanistidae, a family of toothed whales that include the modern Indus and Ganges river dolphin alongside a variety of marine forms. The initial analysis, conducted using equal weighting of characters, was poorly resolved, its clades often weakly supported and with several polytomies. Subsequent analyses were conducted using implied weighting of characters, greatly improving the resolution of the results. These analyses recover two well supported clades within Platanistidae, one formed by Pomatodelphis and Zarhachis, and another formed by Pebanista and Platanista. This means that Pebanista is the closest known relative to the only extant members of the family. [1]
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Of the once diverse clade Platanistoidea, only two species are still alive today, the Ganges river dolphín (Platanista gangetica) and the Indus river dolphin (Platanista minor), both of which are largely restricted to their namesake river systems in South Asia. During the Oligocene and Miocene members of this group were much more widespread, occurring across the world in marine strata and developing a wide range of forms that occupied different niches. Platanistids are thought to have reached their peak during the Early Miocene amidst global cooling, but began to decline towards the Middle Miocene when sperm whales, beaked whales and delphinoids began to emerge. [1]
Toothed whales are known to have transitioned from marine environments into freshwater habitats multiple times throughout their evolutionary history, with four distinct groups of such "river dolphins" persisting into the Holocene (although Lipotidae have recently gone extinct while Pontoporiidae are not strictly freshwater animals). The salt-to freshwater transition of the Iniidae (South American river dolphins) is hypothesized to have occurred at some point towards the Late Miocene given the appearance of Ischyrorhynchus in rivers and deltas of Argentina during this time period, while marine forms persisted until the Pliocene. Platanistids meanwhile appear to have first ventured into freshwater during the Early to Middle Miocene, as evidenced not only by Pebanista but also based on the discovery of Platanista-like earbones recovered from La Venta (Colombia) and the Fitzcarrald Arch (Peru) that could represent close relatives. [1]
During the Early and Middle Miocene large areas of what is now the Amazon Rainforest used to be covered by an extensive wetland system. This wetland, known as the Pebas System or Pebas Megawetlands, was subject to at least two marine incursions and featured both freshwater and brackish environments that housed a highly diverse ecosystem. In addition to Pebanista, the fossils of giant crocodilians, turtles, fish, various ungulates and sloths are all known from localities corresponding with the wetland system. The presence of gharials, a group of longirostrine crocodilians, is highlighted in particular given the many parallels to platanistids. Both Pebanista and Gryposuchus , one of the many native gharials, descend from marine ancestors before diversifying further inland, growing to sizes much larger than their extant kin (which are all restricted to South Asia). The increase in size may be related to the abundance of prey items these animals would have found within the wetlands, allowing Pebanista to maintain a body size similar to its marine relatives. The anatomy of Pebanista does support the hypothesis that it was an active raptorial animal, possessing enlarged teeth, a robust snout and prominent skeletal features that serve as insertion points for powerful musculature. [1]
The supraorbital crests show some areas of varying density, with the outer section being denser than those more medially (aided by the presenve of cavities along the medial edge). Given that the supraorbital crests arch across the upper surface of the skull and are concave along their inner surface, thus covering the melon, it has been suggested that the crests served as a tool to focus the sound waves emitted by the animals biosonar. As suggested by Benites-Palomino and colleagues, the anatomy of the supraorbital crest in Pebanista may be a step towards what we now see in Platanista. In the extant species, the crest is even more developed, with echolocation serving such a dominant function in locating prey in murky water that modern Platanista are nearly blind. [1]
River dolphins are a polyphyletic group of fully aquatic mammals that reside exclusively in freshwater or brackish water. They are an informal grouping of dolphins, which itself is a paraphyletic group within the infraorder Cetacea. Extant river dolphins are placed in two superfamilies, Platanistoidea and Inioidea. They comprise the families Platanistidae, the recently extinct Lipotidae, Iniidae and Pontoporiidae. There are five extant species of river dolphins. River dolphins, alongside other cetaceans, belong to the clade Artiodactyla, with even-toed ungulates, and their closest living relatives the hippopotamuses, from which they diverged about 40 million years ago. Specific types of dolphins can be pink.
South Asian river dolphins are toothed whales in the genus Platanista, which inhabit the waterways of the Indian subcontinent. They were historically considered to be one species with the Ganges river dolphin and the Indus river dolphin being subspecies. Genetic and morphological evidence led to their being described as separate species in 2021. The Ganges and Indus river dolphins are estimated to have diverged 550,000 years ago. They are the only living members of the family Platanistidae and the superfamily Platanistoidea. Fossils of ancient relatives date to the late Oligocene.
Platanistidae is a family of river dolphins containing the extant Ganges river dolphin and Indus river dolphin but also extinct relatives from freshwater and marine deposits in the Neogene.
Physeteroidea is a superfamily that includes three extant species of whales: the sperm whale, in the genus Physeter, and the pygmy sperm whale and dwarf sperm whale, in the genus Kogia. In the past, these genera have sometimes been united in a single family, the Physeteridae, with the two Kogia species in the subfamily Kogiinae; however, recent practice is to allocate the genus Kogia to its own family, the Kogiidae, leaving the Physeteridae as a monotypic family, although additional fossil representatives of both families are known.
Stupendemys is an extinct genus of freshwater side-necked turtle, belonging to the family Podocnemididae. It is the largest freshwater turtle known to have existed, with a carapace over 2 meters long. Its fossils have been found in northern South America, in rocks dating from the Middle Miocene to the very start of the Pliocene, about 13 to 5 million years ago. Male specimens are known to have possessed bony horns growing from the front edges of the shell and the discovery of the fossil of a young adult shows that the carapace of these turtles flattens with age. A fossil skull described in 2021 indicates that Stupendemys was a generalist feeder.
Odobenocetops is an extinct genus of small toothed whale known from Chile and Peru. Its fossils are found in Miocene-aged marine strata of the Bahía Inglesa Formation and Pisco Formation. Two species of Odobenocetops are currently recognized, O. peruvianus and the slightly younger O. leptodon.
Dyrosauridae is a family of extinct neosuchian crocodyliforms that lived from the Campanian to the Eocene. Dyrosaurid fossils are globally distributed, having been found in Africa, Asia, Europe, North America and South America. Over a dozen species are currently known, varying greatly in overall size and cranial shape. A majority were aquatic, some terrestrial and others fully marine, with species inhabiting both freshwater and marine environments. Ocean-dwelling dyrosaurids were among the few marine reptiles to survive the Cretaceous–Paleogene extinction event.
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, 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.
Acrophyseter is a genus of extinct sperm whale that lived in the Late Miocene off the coast of what is now Peru. The genus comprises two species: A. deinodon and A. robustus. It is part of a group of macroraptorial sperm whales that all share several features for hunting large prey, such as deeply rooted and thick teeth. Acrophyseter measured 4–4.5 metres (13–15 ft) in length, making it the smallest macroraptorial sperm whale currently known. Because of its short pointed snout and strongly curved front teeth, it probably fed on the large marine vertebrates of its time, such as seals and other whales.
The Indus river dolphin is a species of freshwater dolphin in the family Platanistidae. It is endemic to the Indus River basin in Pakistan and Beas River in northwestern India. This dolphin was the first discovered side-swimming cetacean. It is patchily distributed in five small, sub-populations that are separated by irrigation barrages.
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.
Caiman wannlangstoni is an extinct species of caiman that lived in what is now the Amazon Basin and surrounding areas during the Middle and Late Miocene. Fossils of C. wannlangstoni have been found in the Pebas Formation near Iquitos in Peru and include partial skulls and isolated skull bones. Other fossils were uncovered from the Urumaco Formation in Venezuela and the Laventan Honda Group of Colombia. The species was first described in 2015. Features that in combination distinguish C. wannlangstoni from other caimans include a deep snout, a wavy upper jaw margin, a large and upward-directed narial opening, and blunt teeth at the back of the jaws. Based on the sizes of the skulls, its estimated body length is about 211 to 227 centimetres.
Gnatusuchus is an extinct genus of caiman represented by the type species Gnatusuchus pebasensis from the Middle Miocene Pebas Formation of Peru. Gnatusuchus lived about 13 million years ago (Ma) in a large wetland system called the Pebas mega-wetlands that covered over one million square kilometers of what is now the Amazon Basin.
Allodelphinidae is a family of primitive platanistoid river dolphins found in marine deposits in the eastern North Pacific region, Alaska, and Japan.
Pomatodelphis is an extinct genus of river dolphin from Middle Miocene marine deposits in Alabama, Florida, Brazil, Germany and France.
Prepomatodelphis is an extinct genus of river dolphin from Early Miocene marine deposits in Austria.
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.
Alligator munensis is an extinct species of alligator from the Quaternary of Thailand. After the skull of A. munensis was discovered, it was tentatively assigned to the Chinese alligator before being recognized as a distinct species. Although the two are still considered to be close relatives, the pronounced anatomical differences suggest that the two species split from one another long prior to the Pleistocene, possibly during the uplifting of the Tibetan Plateau during the Miocene. It had a short and robust skull and may have had globular back teeth possibly corresponding to a greater amount of hard-shelled prey items. The nostrils of A. munensis were positioned much further towards the back of the skull than in other alligators, but the function of this is unknown.
Eolipotes is an extinct genus of marine river dolphin of the family Lipotidae. It is the oldest known member of the family, having lived in what is now Japan during the Tortonian stage of the Late Miocene. Fossils of this animal are known from the Tochigi prefecture and the Gunma prefecture. Eolipotes was a small cetacean, with the skull indicating a length of around 2.17 m. In spite of its name, Eolipoteshas been found to be more closely related to the genus Parapontoporia, which could indicate that some species of Paraprotoporia and the baiji became freshwater animals independently from one another. However it is also possible that they all evolved from ancestors that already inhabited estuaries, with Eolipotes simply becoming more marine. The genus only includes a single species: E. japonicus.