''Aetiocetus'' is a genus of extinct basal mysticete, or baleen whale that lived , in the Oligocene in the

North Pacific The Pacific Ocean is the largest and deepest of Earth's five oceanic divisions. It extends from the Arctic Ocean in the north to the Southern Ocean (or, depending on definition, to Antarctica) in the south, and is bounded by the continen ...

ocean, around Japan, Mexico, and Oregon, U.S. It was first described by

Douglas Emlong Douglas Ralph Emlong (April 17, 1942–June 1980) was an amateur fossil collector from the Oregon Coast in the northwestern United States. His collections contributed to the discovery and description of numerous extinct marine mammal species, ma ...

in 1966 and currently contains known four species, ''A. cotylalveus'', ''A. polydentatus'', ''A. tomitai'', and ''A. weltoni''. These whales are remarkable for their retention of teeth and presence of nutrient foramina, indicating that they possessed baleen. Thus, Aetiocetus represents the transition from teeth to baleen in Oligocene mysticetes. Baleen is a highly derived character, or

synapomorphy In phylogenetics, an apomorphy (or derived trait) is a novel character or character state that has evolved from its ancestral form (or plesiomorphy). A synapomorphy is an apomorphy shared by two or more taxa and is therefore hypothesized to hav ...

, of mysticetes, and is a keratinous structure that grows from the palate, or roof of the mouth, of the whale. The presence of baleen is inferred from the fossil record in the skull of ''Aetiocetus''. ''Aetiocetus'' is known from both sides of the Pacific Ocean: it was first documented in Oregon, United States, but it is also known from Japan and Mexico. The genus is currently constrained to the Northern hemisphere and has little value in biostratigraphic studies of the Oligocene due to its limited occurrences across the Pacific.

Etymology

The

genus name Genus ( plural genera ) is a taxonomic rank used in the biological classification of living and fossil organisms as well as viruses. In the hierarchy of biological classification, genus comes above species and below family. In binomial nomenclat ...

''Aetiocetus'' comes from

Ancient Greek Ancient Greek includes the forms of the Greek language used in ancient Greece and the ancient world from around 1500 BC to 300 BC. It is often roughly divided into the following periods: Mycenaean Greek (), Dark Ages (), the Archaic p ...

' via

Latin Latin (, or , ) is a classical language belonging to the Italic branch of the Indo-European languages. Latin was originally a dialect spoken in the lower Tiber area (then known as Latium) around present-day Rome, but through the power of the ...

'cause, origin' and Latin ' 'whale', translating to "original whale". ''A. cotylalveus'' approximately means "bowl cavity", ' meaning 'cup' or 'bowl' in Ancient Greek, and ''alveus''

for "hollow" or "cavity". ''A. tomitai'' is named in honor of then-mayor Akio Tomita of

Ashoro, Hokkaido is a town located in Tokachi Subprefecture, Hokkaido, Japan. As of September 2016, the town has an estimated population of 7,150 and a density of 5.1 persons per km2. The total area is 1,408.09 km2. It was the largest municipality in Ja ...

in Japan. ''A. weltoni'' is named in honor of Doctor Bruce J. Welton, who initially discovered the specimen and directed the excavation of the skeleton. ''A. polydentatus'' is named in reference to the diversity of tooth shapes (polydont dentition) present in the specimen.

Phylogeny

There has been some dispute about the relationships between ''Aetiocetus'' and stem Mysticetes. Barnes et al. (1995) expanded Emlong's original definition to encompass eight species in four genera. They suggested a monophyletic Aetiocetidae with three subfamilies: Chonecetinae, which includes ''Chonecetus'' spp., Morawanocetinae, which includes ''Morawanocetus yabukii'', and Aetiocetinae, which contains ''Ashorocetus eguchii'' and ''Aetiocetus'' spp. In 2002, Sanders and Barnes hypothesized that there was a larger superfamily, Aetiocetoidea, which would include all known toothed mysticetes: Aetiocetidae, Llanocetidae, and Mammalodontidae. However, evidence suggests that this “Aetiocetoidea” is a grade taxon and does not actually form a natural group, as the retention of teeth is a symplesiomorphic condition for Cetacea and cannot be used as a synapomorphy for the group. Fitzgerald in 2006 proposed 6 major toothed mysticete lineages, in which Aetiocetidae was paraphyletic, with a '' Chonecetus'' clade and an ''Aetiocetus'' clade. ''A. polydentatus'' was considered by Fitzgerald to not be a member of ''Aetiocetus'' at all because of its seemingly derived features in comparison to other members of the genus ''Aetiocetus'', for instance, its polydont dentition and greatly enlarged nasal bones. The debate regarding relationships within the Aetiocetidae highlight the importance of this clade to the understanding of basal mysticete evolution and hypotheses surrounding the loss of adult teeth and the development of baleen. The larger scale

phylogenetic In biology, phylogenetics (; from Greek φυλή/ φῦλον [] "tribe, clan, race", and wikt:γενετικός, γενετικός [] "origin, source, birth") is the study of the evolutionary history and relationships among or within groups o ...

placement of ''Aetiocetus'' has remained fairly constant throughout modern studies. Geisler and Sanders’ 2003 paper, “Morphological Evidence for the Phylogeny of Cetacea” used the genus in their morphological

cladistics Cladistics (; ) is an approach to biological classification in which organisms are categorized in groups (" clades") based on hypotheses of most recent common ancestry. The evidence for hypothesized relationships is typically shared derived cha ...

study and their results support a monophyletic Aetiocetidae (''Aetiocetus'' + ''Chonecetus''). Here, the Aetiocetidae is the

sister taxon In phylogenetics, a sister group or sister taxon, also called an adelphotaxon, comprises the closest relative(s) of another given unit in an evolutionary tree. Definition The expression is most easily illustrated by a cladogram: Taxon A and ...

to ''Eomysticetus''+ ''Micromysticetus'' + ''Diorocetus'' + ''Pelocetus'' + crown Mysticeti. In their sample, ''Aetiocetus'' is the second-most basal mysticete; two undescribed museum specimens, ChM, are considered the most basal mysticetes in this phylogeny. In Geisler et al.’s 2011 study entitled “A supermatrix analysis of genomic, morphological, and paleontological data from crown Cetacea”, there is higher resolution of ''Aetiocetus''’ phylogenetic relationship with other mysticetes, as well as more taxa considered. In this study, ''Aetiocetus'' is still basal and is still the sister taxon to ''Eomysticetus'' + ''Micromysticetus'' + ''Diorocetus'' + ''Pelocetus'' + crown Mysticeti, all of which possess baleen and no teeth. There are two competing hypotheses supported by the supermatrix: 1) that ''Aetiocetus'' is not the sister group to ''Chonecetus'', suggesting that the Aetiocetidae is a paraphyletic group, a group in which not all descendants are considered, or 2) that they indeed form a monophyletic group. Both results have been supported in previous studies. In an even more recent paper, entitled “A Phylogenetic Blueprint for a Modern Whale”, more than one species in the genus ''Aetiocetus'' is used: ''A. cotylalveus'', ''A. weltoni'', and ''A. polydentatus''. These three taxa form a

polytomy An internal node of a phylogenetic tree is described as a polytomy or multifurcation if (i) it is in a rooted tree and is linked to three or more child subtrees or (ii) it is in an unrooted tree and is attached to four or more branches. A tr ...

with ''Chonecetus'', where the relationships of the four taxa cannot be more determined with the present resolution. However, this result suggests monophyly of the Aetiocetidae, or that all aetiocetids are derived from a single common ancestor. In this phylogeny, the Aetiocetidae is the sister taxon to ''Eomysticetus'' + Cetotheriidae + crown Mysticeti. Almost all phylogenies agree that Aetiocetus is a stem mysticete with no affiliation with crown Mysticeti. This result is not entirely surprising, given its symplesiomorphic condition, meaning that Aetiocetus still retains many primitive features and few derived ones. Its phylogenetic placement among stem mysticetes is also in line with its late Oligocene stratigraphic occurrence, where crown Mysticeti had yet to appear in the fossil record.

Discovery and history

''Aetiocetus cotylalveus'' was discovered in 1966 and described by Emlong, who initially ascribed ''Aetiocetus'' to the

Archaeoceti Archaeoceti ("ancient whales"), or Zeuglodontes in older literature, is a paraphyletic group of primitive cetaceans that lived from the Early Eocene to the late Oligocene (). Representing the earliest cetacean radiation, they include the initial ...

based on its plesiomorphic, or primitive, dentition; he felt that the presence of teeth barred ''Aetiocetus'' from the Mysticeti. There are many distinct features that separates ''Aetiocetus'' from Odontoceti, or toothed whales, and Emlong did not see evidence of remodeling necessary for the modern odontocete skull. Notably, Emlong noted that ''Aetiocetus'' was some antecedent to the mysticete lineage, due to the degree of telescoping on the skull, indicating that the nostrils of the whale had migrated further back on the skull than seen in archaeocetes. Along with the relation between cranial features, Emlong allied ''Aetiocetus'' more closely with Mysticeti than Odontoceti. However, as ''A. cotylalveus'' retains teeth, Emlong considered it a highly derived archaeocete. Van Valen in his 1968 essay “Monophyly or diphyly in the origin of whales” placed Aetiocetus in its accepted position as a basal, or early, mysticete. In 1995, Lawrence G. Barnes and his co-authors Masaichi Kimura, Hitoshi Furusawa, and Hiroshi Sawamura described three new aetiocetids that allied with the genus ''Aetiocetus''. These finds were unique in that they placed an aetiocetid within the same geologic formation as the type specimen, ''A. cotylalveus'', and also placed new aetiocetids on the western coast of the Pacific, in Japan. This extended the geographic range of Aetiocetus dramatically. In 1998, L.G. Barnes listed a specimen of ''Aetiocetus'' within his list of fossil marine mammal assemblages in Mexico. However, this specimen remains aff. ''Aetiocetus'' sp., and cannot be ascribed to any particular species. This specimen was found in Baja California in the El Cien Formation, but as of yet no paper has been published describing this specimen. ''A. cotylalveus'' is known from the Yaquina Formation of Oregon. The Yaquina Formation is late Oligocene in age and at the cetacean's locality consists of a fine-grained grey

sandstone Sandstone is a clastic sedimentary rock composed mainly of sand-sized (0.0625 to 2 mm) silicate grains. Sandstones comprise about 20–25% of all sedimentary rocks. Most sandstone is composed of quartz or feldspar (both silicates ...

with alternating layers of medium-grained light-grey sandstone and siltstone. The Yaquina Formation represents a coastal marine depositional environment, and is considered late late Oligocene in age (Chattian) based on foraminifera and mollusc stages; approximately 24-25 million years in age. ''A. weltoni'' is also known from the Yaquina Formation and occurs along the same cliff face as ''A. cotylalveus'', but occurs higher in the stratigraphic section. This specimen was found in situ near the contact of the conformably overlying Nye Formation, which is Miocene in age. Thus, ''A. weltoni'' is very close to the Oligocene-Miocene boundary. ''A. tomitai'' was discovered in the Middle Hard Shale member of the Morawan Formation, Kawakami group in Japan. This is also late Oligocene in age and represents a basinal depositional environment. This specimen was not found in situ, but in a loose concretion, and could potentially be stratigraphically higher than the Middle Hard Shale, but Barnes et al. presume that the animal was not transported far from the location where it died. ''A. polydentatus'' was also discovered in the Morawan Formation of Japan, but from the Upper Tuffaceous Siltstone Member, which also represents a basinal depositional environment. The holotype was found in situ in the uppermost part of the member. It is currently the stratigraphically highest occurrence of an aetiocetid from the northwestern Pacific Ocean, meaning that it is the youngest known specimen of ''Aetiocetus''.

Description

The

type species In zoological nomenclature, a type species (''species typica'') is the species name with which the name of a genus or subgenus is considered to be permanently taxonomically associated, i.e., the species that contains the biological type specime ...

for the genus is ''Aetiocetus cotylalveus.'' It is defined as being the monophyletic group encompassing the closest common ancestor of A. cotylalveus and A. polydentatus and all its descendants: the textbook definition for a monophyletic taxon.

Skull

''Aetiocetus'' is a small, toothed whale with no more than three small denticles on the anterior and ''posterior'' margins of the posterior upper teeth. Their postcanine teeth are somewhat heterodont. The base of the

rostrum Rostrum may refer to: * Any kind of a platform for a speaker: **dais **pulpit * Rostrum (anatomy), a beak, or anatomical structure resembling a beak, as in the mouthparts of many sucking insects * Rostrum (ship), a form of bow on naval ships * Ros ...

, or snout, of the whale, is greater than 170% of the width of the

occipital condyles The occipital condyles are undersurface protuberances of the occipital bone in vertebrates, which function in articulation with the superior facets of the atlas vertebra. The condyles are oval or reniform (kidney-shaped) in shape, and their anteri ...

where the skull meets the neck. These features are synapomorphies, or shared derived traits, of ''Aetiocetus''. There is a distinct notch by the internal nostrils formed of the

palatine A palatine or palatinus (in Latin; plural ''palatini''; cf. derivative spellings below) is a high-level official attached to imperial or royal courts in Europe since Roman times.

pterygoid Pterygoid, from the Greek for 'winglike', may refer to: * Pterygoid bone, a bone of the palate of many vertebrates * Pterygoid processes of the sphenoid bone ** Lateral pterygoid plate ** Medial pterygoid plate * Lateral pterygoid muscle * Medi ...

, and

vomer The vomer (; lat, vomer, lit=ploughshare) is one of the unpaired facial bones of the skull. It is located in the midsagittal line, and articulates with the sphenoid, the ethmoid, the left and right palatine bones, and the left and right max ...

bones; this is a synapomorphy of ''Aetiocetus'' + ''Chonecetus''. Synapomorphies of the aetiocetids present in ''Aetiocetus'' are: the coronoid process of the

dentary In anatomy, the mandible, lower jaw or jawbone is the largest, strongest and lowest bone in the human facial skeleton. It forms the lower jaw and holds the lower teeth in place. The mandible sits beneath the maxilla. It is the only movable bone ...

, or lower jaw, is well developed; the

zygomatic arch In anatomy, the zygomatic arch, or cheek bone, is a part of the skull formed by the zygomatic process of the temporal bone (a bone extending forward from the side of the skull, over the opening of the ear) and the temporal process of the zygo ...

is expanded anteriorly and posteriorly but is narrow at the middle. ''Aetiocetus'' also shares several traits with all mysticetes. The mandibular symphysis, or the connection between both lower jaw bones, is not fused. The descending process of the

maxilla The maxilla (plural: ''maxillae'' ) in vertebrates is the upper fixed (not fixed in Neopterygii) bone of the jaw formed from the fusion of two maxillary bones. In humans, the upper jaw includes the hard palate in the front of the mouth. T ...

becomes a toothless plate below the orbit. They possess a wide rostrum. All these features are functionally related to filter-feeding with baleen and is a hallmark of the Mysticeti. The presence of teeth, as Barnes et al. remark, seems paradoxical. Lastly, ''Aetiocetus'' shows some symplesiomorphic traits with more archaic whales. The do not experience the same degree of telescoping as modern whales, so their nares, or nostrils, are still relatively anterior. Contrary to the image of the modern baleen whales, ''Aetiocetus'' still possessed developed, enamelized adult teeth . This indicates that loss of functionality in relevant enamel genes, such as

ameloblastin Ameloblastin (abbreviated AMBN and also known as Sheathlin or Amelin) is an enamel matrix protein that in humans is encoded by the AMBN gene. Function Ameloblastin is a specific protein found in tooth enamel. Although less than 5% of enamel con ...

(AMBN),

enamelin Enamelin is an enamel matrix protein (EMPs), that in humans is encoded by the ''ENAM'' gene. It is part of the non- amelogenins, which comprise 10% of the total enamel matrix proteins. It is one of the key proteins thought to be involved in ame ...

(ENAM), and

amelogenin Amelogenins are a group of protein isoforms produced by alternative splicing or proteolysis from the ''AMELX'' gene, on the X chromosome, and also the ''AMELY'' gene in males, on the Y chromosome. They are involved in amelogenesis, the developme ...

(AMEL), had not yet taken place in ''Aetiocetus''.

Dentition

For the most part, ''Aetiocetus'' retains a primitive tooth count of 11 upper teeth and 11 lower teeth, abbreviated 11/11. This is interpreted to be the basic mammalian dental formula with 3

incisors Incisors (from Latin ''incidere'', "to cut") are the front teeth present in most mammals. They are located in the premaxilla above and on the mandible below. Humans have a total of eight (two on each side, top and bottom). Opossums have 18, wher ...

, 1 canine, 4

premolars The premolars, also called premolar teeth, or bicuspids, are transitional teeth located between the canine and molar teeth. In humans, there are two premolars per quadrant in the permanent set of teeth, making eight premolars total in the mouth ...

, and 3

molars The molars or molar teeth are large, flat teeth at the back of the mouth. They are more developed in mammals. They are used primarily to grind food during chewing. The name ''molar'' derives from Latin, ''molaris dens'', meaning "millstone to ...

on both upper and lower jaws. However, ''A. weltoni'' and ''A. polydentatus'' show variation from the plesiomorphic mammalian dental formula. ''A. weltoni'' possesses an 11/12 dentition. True to its name of “many toothed”, ''A. polydentatus'' possesses more teeth than any other aetiocetid, and is remarkable in that the number of teeth are asymmetrical. On the right side of the upper jaw, ''A. polydentatus'' has 13 teeth, and on the left it has 14 teeth. The bottom jaw is also asymmetric, with 14 teeth in the right dentary and 15 in the left. This is the first polydont aetiocetid, meaning that it had more teeth than the standard mammalian formula. Embryonic baleen whales have polydont teeth before birth. ''A. polydentatus'' indicates that this condition was also present in tooth-bearing mysticetes, as expected from developmental data. In addition to its polydont dentition, ''A. polydentatus'' is unique in that these teeth are not differentiated into different teeth types as seen in other members of ''Aetiocetus''. Paleontologists refer to this condition as being homodont, or “same tooth”.

Presence of baleen

''Aetiocetus'' is unique in its representation of transition from toothed archaeocete to toothless mysticete. However, ''Aetiocetus'' is not a transitional form in the strictest sense, that is, it cannot be an ancestor to extant Mysticeti. More derived forms, such the Cetotheriidae, a family of toothless baleen whales, are contemporaneous with ''Aetiocetus''. Hence, whales whose feeding relied entirely on baleen made their stratigraphic appearance before ''Aetiocetus'', meaning that “true” baleen whales existed before ''Aetiocetus''. Baleen is made of

keratin Keratin () is one of a family of structural fibrous proteins also known as ''scleroproteins''. Alpha-keratin (α-keratin) is a type of keratin found in vertebrates. It is the key structural material making up scales, hair, nails, feathers, ho ...

(the same material that comprises claws, hooves, nails, and hair) that grows throughout the whale's life. Development of mysticetes indicate that they had a toothed ancestor, as the fetal baleen whale forms tooth buds which are later reabsorbed and do not develop any further. However, ''Aetiocetus'' presents the evolutionary biologist with evidence for this transition in the fossil record. While baleen, as a soft tissue, does not preserve in the fossil record, whale paleontologists are able to identify evidence for baleen attachment in the palates of mysticetes. These are evident in what are known as

nutrient foramina The nutrient artery (arteria nutricia, or medullary), usually accompanied by one or two veins, enters the bone through the nutrient foramen, runs obliquely through the cortex, sends branches upward and downward to the bone marrow, which ramify in ...

. These nutrient foramina, present on the maxillae of the whale, are associated with grooves and

sulci Sulci or Sulki (in Greek , Steph. B., Ptol.; , Strabo; , Paus.), was one of the most considerable cities of ancient Sardinia, situated in the southwest corner of the island, on a small island, now called Isola di Sant'Antioco, which is, how ...

, or fissures, which in life are occupied by branches of the superior alveolar artery and nerve. This superior alveolar artery supplies nutrients to the

epithelial Epithelium or epithelial tissue is one of the four basic types of animal tissue, along with connective tissue, muscle tissue and nervous tissue. It is a thin, continuous, protective layer of compactly packed cells with a little intercell ...

, or surface cells of the body, from which the baleen continuously develops. In all known archaeocetes and odontocetes, nutrient foramina are absent. These nutrient foramina are most apparent in ''A. weltoni'', whose

holotype A holotype is a single physical example (or illustration) of an organism, known to have been used when the species (or lower-ranked taxon) was formally described. It is either the single such physical example (or illustration) or one of sever ...

has the best-preserved palate. The development of nutrient foramina and teeth are closely intertwined in mysticetes: first, an alveolar groove on the palate of the developing mysticete. The deciduous teeth form in the groove, and then are reabsorbed, while development of rudimentary baleen plates begin. The alveolar groove fills with bone until the laterial nutrient foramina form. This close association leads Demere and Berta to hypothesize that Aetiocetus displays an ancient

ontogeny Ontogeny (also ontogenesis) is the origination and development of an organism (both physical and psychological, e.g., moral development), usually from the time of fertilization of the egg to adult. The term can also be used to refer to the s ...

, or growth sequence. These nutrient foramina are also present on ''A. cotylalveus'' and another related aetiocetid, ''Chonecetus goedertorum''. Compared to other

edentulous Toothlessness, or edentulism, is the condition of having no teeth. In organisms that naturally have teeth, it is the result of tooth loss. Organisms that never possessed teeth can also be described as edentulous. Examples are the members of the ...

, or toothless, mysticetes, the pattern of nutrient foramina is most similar to extant balaenopterids (blue whales and other rorquals) and fossil cetotheres.

Feeding strategy

How did ''Aetiocetus'' feed, and what did it feed on? Its teeth are reminiscent of the bite-and-swallow strategy of archaeocetes and odontocetes, but they also possessed expanded palates. Modern mysticetes grow their baleen from this expanded palate and use the baleen to trap arthropods and fish in their mouths. This is known as bulk-feeding, in that the whale is not selecting individual prey items and does not use echolocation to find prey, as odontocetes do. Fossil mysticetes with wide, toothless palates are inferred to bulk-feed and the first occurrence of such whales is in the late Oligocene, approximately 4 to 5 million years after the first toothless mysticetes appeared. A crucial question is, then, did ''Aetiocetus'' feed by bulk-feeding or by bite-and-swallow? If they fed only by selective prey capture, were they simply pre-adapted for the specialized feeding behavior of extant mysticetes? Structurally, ''Aetiocetus'' possesses teeth that are quite similar to primitive odontocetes, such as ''

Squalodon ''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 sinc ...

''. These odontocetes have an inferred bite and tear style of eating with limited mastication. Both primitive and extant odontocetes find their prey through the use of echolocation; however, mysticetes have no evidence in their fossil record of ever evolving or initially possessing the ability to echolocate.

Piscivory A piscivore () is a carnivorous animal that eats primarily fish. The name ''piscivore'' is derived . Piscivore is equivalent to the Greek-derived word ichthyophage, both of which mean "fish eater". Fish were the diet of early tetrapod evolut ...

, or a diet based solely on fish, is likely the primitive condition for Cetacea, and it seems most parsimonious that ''Aetiocetus'' fed like an archaeocete, locating fish without the use of echolocation. However, an argument exists that ''Aetiocetus'' was in fact a bulk feeder, who fed by gulping and straining prey from the water through their interlocking cusped cheek teeth. This is supported by the presence of a lack of mandibular symphysis, meaning the jaw was loosely articulated, and by the presence of the wide palate. This feeding method has an analog in crab-eater seals. This hypothesis combines the idea of bulk feeding and retention of the dentition. ''Aetiocetus'' might have been a functional mysticete. Lending credence to this interpretation is the presence of mandibular kinesis in ''Aetiocetus'', though they lack the rostral kinesis seen in more derived mysticetes. This

cranial kinesis Cranial kinesis is the term for significant movement of skull bones relative to each other in addition to movement at the joint between the upper and lower jaw. It is usually taken to mean relative movement between the upper jaw and the braincase. ...

, or ability of the skull bones to move relative to one another, permit the mysticete skull to decrease the strain exerted on the skull during bulk feeding. Fitzgerald argued against the model of tooth-aided filter feeding, based on the lack of closely pressed teeth and the presence of simple postcanine crowns. Deméré argues that this assumes a very small prey size (i.e., krill). The distinction here is that ''Aetiocetus'' was a bulk feeder, and prey size does not enter into this definition of feeding strategy. There is no reason to assume a priori that all bulk filter-feeders eat small prey, given the large diversity of food items consumed by modern mysticetes. Demere hypothesizes that ''Aetiocetus''’ bulk feeding behavior could have targeted large prey, such as schooling fish or squid. With prey items of this size, ''Aetiocetus''’ teeth would still have served well as a coarse sieve.

Geography and endemism

At first glance, the fact that species are known from only one locality, and that may suggest that ''Aetiocetus'' was highly endemic. Deméré and Berta consider ''Aetiocetus'' to be a lineage endemic to the north Pacific Ocean basin. High endemism would be highly atypical of mysticetes. However, a more likely explanation is that the fossil record for ''Aetiocetus'' is poor, or that a sampling bias is present and not enough work has been done in late Oligocene deposits in the south Pacific Ocean. Perhaps there are more specimens of ''Aetiocetus'' that will be discovered as paleontologists continue searching. The other genera in the family

Aetiocetidae Aetiocetidae is an extinct family of toothed baleen whales known from the Oligocene. The whales are from the North Pacific Ocean and ranged in size from long. Many of the described specimens were discovered from the Upper Oligocene of the Japa ...

are '' Ashorocetus'', '' Chonecetus'', '' Morawanocetus'', and '' Willungacetus''. All aetiocetids are known from the North Pacific except the Australian ''Willungacetus'' and its taxonomy is disputed.

References

{{Taxonbar, from=Q1953027 Aetiocetidae Transitional fossils Prehistoric cetacean genera Oligocene cetaceans Rupelian life Oligocene mammals of Asia Oligocene mammals of North America Whitneyan Paleontology in Oregon Fossil taxa described in 1966