Hybodontiformes, commonly called hybodonts, are an

extinct Extinction is the termination of an organism by the death of its Endling, last member. A taxon may become Functional extinction, functionally extinct before the death of its last member if it loses the capacity to Reproduction, reproduce and ...

group of shark-like

cartilaginous fish Chondrichthyes (; ) is a class of jawed fish that contains the cartilaginous fish or chondrichthyans, which all have skeletons primarily composed of cartilage. They can be contrasted with the Osteichthyes or ''bony fish'', which have skeleto ...

(chondrichthyans) which existed from the late

Devonian The Devonian ( ) is a period (geology), geologic period and system (stratigraphy), system of the Paleozoic era (geology), era during the Phanerozoic eon (geology), eon, spanning 60.3 million years from the end of the preceding Silurian per ...

to the

Late Cretaceous The Late Cretaceous (100.5–66 Ma) is the more recent of two epochs into which the Cretaceous Period is divided in the geologic time scale. Rock strata from this epoch form the Upper Cretaceous Series. The Cretaceous is named after ''cre ...

. Hybodonts share a close common ancestry with modern

shark Sharks are a group of elasmobranch cartilaginous fish characterized by a ribless endoskeleton, dermal denticles, five to seven gill slits on each side, and pectoral fins that are not fused to the head. Modern sharks are classified within the ...

s and rays (

Neoselachii Elasmobranchii () is a subclass of Chondrichthyes or cartilaginous fish, including modern sharks ( division Selachii), and batomorphs (division Batomorphi, including rays, skates, and sawfish). Members of this subclass are characterised by h ...

) as part of the clade

Euselachii Elasmobranchii () is a subclass of Chondrichthyes or cartilaginous fish, including modern sharks ( division Selachii), and batomorphs (division Batomorphi, including rays, skates, and sawfish). Members of this subclass are characterised by h ...

. They are distinguished from other chondrichthyans by their distinctive fin spines and cephalic spines present on the heads of males. An ecologically diverse group, they were abundant in marine and freshwater environments during the late

Paleozoic The Paleozoic ( , , ; or Palaeozoic) Era is the first of three Era (geology), geological eras of the Phanerozoic Eon. Beginning 538.8 million years ago (Ma), it succeeds the Neoproterozoic (the last era of the Proterozoic Eon) and ends 251.9 Ma a ...

and early

Mesozoic The Mesozoic Era is the Era (geology), era of Earth's Geologic time scale, geological history, lasting from about , comprising the Triassic, Jurassic and Cretaceous Period (geology), Periods. It is characterized by the dominance of archosaurian r ...

, but were rare in open marine environments by the end of the

Jurassic The Jurassic ( ) is a Geological period, geologic period and System (stratigraphy), stratigraphic system that spanned from the end of the Triassic Period million years ago (Mya) to the beginning of the Cretaceous Period, approximately 143.1 Mya. ...

, having been largely replaced by modern sharks, though they were still common in freshwater and marginal marine habitats. They survived until the end of the

Cretaceous The Cretaceous ( ) is a geological period that lasted from about 143.1 to 66 mya (unit), million years ago (Mya). It is the third and final period of the Mesozoic Era (geology), Era, as well as the longest. At around 77.1 million years, it is the ...

, before going extinct.

Etymology

The term hybodont comes from the Greek word ''ὕβος'' or ''ὑβός'' meaning hump or hump-backed and ''ὀδούς, ὀδοντ'' meaning tooth. This name was given based on their conical compressed teeth.

Taxonomic history

Hybodonts were first described in the nineteenth century based on isolated fossil teeth (

Agassiz Jean Louis Rodolphe Agassiz ( ; ) FRS (For) FRSE (May 28, 1807 – December 14, 1873) was a Swiss-born American biologist and geologist who is recognized as a scholar of Earth's natural history. Spending his early life in Switzerland, he recei ...

, 1837). Hybodonts were first separated from living

sharks Sharks are a group of elasmobranch cartilaginous fish characterized by a ribless endoskeleton, dermal denticles, five to seven gill slits on each side, and pectoral fins that are not fused to the head. Modern sharks are classified within the ...

by Zittel (1911). Although historically argued to have a close relationship with the modern shark order Heterodontiformes, this has been refuted. Hybodontiformes are total group-

elasmobranch Elasmobranchii () is a subclass of Chondrichthyes or cartilaginous fish, including modern sharks ( division Selachii), and batomorphs (division Batomorphi, including rays, skates, and sawfish). Members of this subclass are characterised by h ...

s and the

sister group 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 ...

, which includes modern sharks and rays. Hybodontiformes and Neoselachii are grouped together in the clade Euselachii, to the exclusion of other total-group elasmobranchs like Xenacanthiformes. Hybodonts are divided into a number of families, but the higher level taxonomy of hybodonts, especially

taxa, is poorly resolved. Simplified cladogram of chondrichthyan relationships following several studies.

Description

The largest hybodonts reached lengths of , while some other hybodonts were much smaller, with adult body lengths of around . Hybodonts had a generally robust bodyform. Due to their

cartilaginous Cartilage is a resilient and smooth type of connective tissue. Semi-transparent and non-porous, it is usually covered by a tough and fibrous membrane called perichondrium. In tetrapods, it covers and protects the ends of long bones at the joints ...

skeletons usually disintegrating upon death like other chondrichthyans, hybodonts are generally described and identified based on teeth and fin spine fossils, which are more likely to be preserved. Rare partial or complete skeletons are known from areas of exceptional preservation. Hybodus hauffianus

Hybodonts are recognized as having teeth with a prominent cusp which is higher than lateral cusplets.Koot, M. B., Cuny, G., Tintori, A., and Twitchett, R. J., 2013, A new diverse shark fauna from the Wordian (Middle Permian) Khuff Formation in the interior Haushi-Huqf area, Sultanate of Oman: Palaeontology, v. 56, no. 2, p. 303-343. Hybodont teeth are often preserved as incomplete fossils because the base of the tooth is not well attached to the crown. Hybodonts were initially divided into two groups based on their tooth shape. One group had teeth with acuminate cusps that lacked a pulp cavity; these are called osteodont teeth. The other group had a different cusp arrangement and had a pulp cavity, these are called orthodont teeth.Maisey, J. G., 1982
The anatomy and interrelationships of Mesozoic hybodont sharks
American Museum Novitates, v. 2724. For example, the hybodont species ''Heterophychodus steinmanni'' have osteodont teeth with vascular canals of dentine which are arranged vertically parallel to each other, also called ‘tubular dentine’.Cuny, G., Suteethorn, V., Buffetaut, E., and Philippe, M., 2003, Hybodont sharks from the Mesozoic Khorat Group of Thailand: Mahasarakham University Journal, v. 22. The crowns of these osteodont teeth are covered with a single layer of enameloid. Hybodont teeth served a variety of functions depending on the species, including grinding, crushing (

durophagy Durophagy is the eating behavior of animals that consume Seashell, hard-shelled or exoskeleton-bearing organisms, such as corals, shelled mollusks, or crabs. It is mostly used to describe fish, but is also used when describing reptiles, including ...

), tearing, clutching, and even cutting. Hybodonts are characterized by having two dorsal fins each preceded by a fin spine. The fin spine morphology is unique to each hybodont species. The fin spines are elongate and gently curved towards the rear, with the posterior part of the spine being covered in hooked denticles, typically in two parallel rows running along the length of the spine, sometimes with a ridge between them. Part of the front of the spines are often covered in a ribbed ornamentation, while in some other hybodonts this region is covered in rows of small bumps. The spines are mineralised, and primary composed of osteodentine, while the ornamentation is formed of enamel.Maisey, J. G., 1978
Growth and form of spines in hybodont sharks
Palaeontology, v. 21, no. 3, p. 657-666. Similar fin spines are also found in many extinct chondrichthyan groups as well as in some modern sharks like '' Heterodontus'' and squalids. Male hybodonts had either one or two pairs of cephalic spines on their heads, a characteristic distinctive to hybodonts. These spines, while of variable placement, were always placed posterior to the eye socket, and were composed of a base divided into three lobes, with the main part of the spine being backwardly curved, most specimens of which had a barb near the apex. These spines, like the fin spines, were mineralised, with the base composed of osteodentine, while the main part of the spine was covered in enamel. Male hybodonts possessed fin claspers used in mating, like modern sharks. Hybodonts had a fully heterocercal tail fin, where the upper lobe of the fin was much larger than the lower one due to the spine extending into it. Like living sharks and rays, the skin of hybodonts was covered with dermal denticles. Hybodonts laid egg cases, similar to those produced by living cartilaginous fish. Most hybodont egg cases are assigned to the genus '' Palaeoxyris,'' which tapers towards both ends, with one end having a tendril which attached to substrate, with the middle section being composed of at least three twisted bands.

Ecology

Hybodont fossils are found in depositional environments ranging from marine to

fluvial A river is a natural stream of fresh water that flows on land or inside caves towards another body of water at a lower elevation, such as an ocean, lake, or another river. A river may run dry before reaching the end of its course if it ru ...

(river deposits). Many hybodonts are thought to have been

euryhaline Euryhaline organisms are able to adapt to a wide range of salinities. An example of a euryhaline fish is the short-finned molly, '' Poecilia sphenops'', which can live in fresh water, brackish water, or salt water. The green crab ('' Carcinus m ...

, able to tolerate a wide range of salinities. Hybodonts inhabited freshwater environments from early in their evolutionary history, spanning from the Carboniferous onwards. Based on isotopic analysis, some species of hybodonts are likely to have permanently lived in freshwater environments, while others may have migrated between marine and freshwater environments. One genus of hybodont, '' Onychoselache'' of the lower

Carboniferous The Carboniferous ( ) is a Geologic time scale, geologic period and System (stratigraphy), system of the Paleozoic era (geology), era that spans 60 million years, from the end of the Devonian Period Ma (million years ago) to the beginning of the ...

of Scotland, is suggested to have been capable of amphibious locomotion, similar to modern orectolobiform sharks such as bamboo and epaulette sharks, due to its well-developed pectoral fins. It has been suggested that male hybodonts used their cephalic spines to grip females during mating. Preserved egg cases of hybodonts assigned to '' Palaeoxyris'' indicate that at least some hybodonts laid their eggs in freshwater and brackish environments, with the eggs being attached to vegetation via a tendril. Laying of eggs in freshwater is not known in any living cartilaginous fish.Fischer, J. A. N., Voigt, S., Schneider, J. W., Buchwitz, M., and Voigt, S., 2011, A selachian freshwater fauna from the Triassic of Kyrgyzstan and its implication for Mesozoic shark nurseries: Journal of Vertebrate Paleontology, v. 31, no. 5, p. 937-953. At least some hybodonts are suggested to have utlilized specific sites as nurseries, such as in the Triassic lake deposits of the Madygen Formation of Kyrgyzstan, where eggs of '' Lonchidion'' are suggested to have been laid on the lakeshore or upriver areas, where the juveniles hatched and matured, before migrating deeper into the lake as adults. Strophodus rebecae

Hybodonts are thought to have been generally relatively slow swimmers, though capable of fast bursts of locomotion. Some hybodonts like '' Hybodus'' are thought to have been active predators capable of feeding on swiftly moving prey,Maisey, J. G., 2012, What is an ‘elasmobranch’? The impact of palaeontology in understanding elasmobranch phylogeny and evolution: Journal of Fish Biology, v. 80, no. 5, p. 918-951. with preserved stomach contents of a specimen of ''Hybodus hauffianus'' indicating that they fed on belemnites (a type of extinct squid-like cephalopod). Hybodonts have a wide variety of tooth shapes. This variety suggests that they took advantage of multiple food sources. It is thought that some hybodonts which had wider, flatter, teeth specialized in crushing or grinding hard-shelled prey (

), with some hybodonts like '' Asteracanthus'' probably consuming both hard and soft bodied prey. Often multiple species of hybodonts with different prey preferences coexisted within the same ecosystem.

Evolutionary history

The earliest hybodont remains are from the latest

( Famennian, ~ 360 million years ago) of Iran, belonging to the genus '' Roongodus,'' as well as remains assigned to '' Lissodus'' of the same age from Belgium.Hodnett, J-P., Elliott, D. K., and Olson, T. J. 2013. A new basal hybodont (Chondrichthyes, Hybodontiformes) from the Middle Permian (Roadian) Kaibab Formation, of northern Arizona. New Mexico Museum of Natural History and Science Bulletin, 60:103–108. Carboniferous hybodonts include both durophagous and non-durophagous forms, while durophagous forms were dominant during the Permian period. By the Permian period, hybodonts had a global distribution. The Permian-Triassic extinction event only had a limited effect on hybodont diversity. Maximum hybodont diversity is observed during the Triassic. During the Triassic and Early Jurassic, hybodontiforms were the dominant elasmobranchs in both marine and non-marine environments.Rees, J. A. N., and Underwood, C. J., 2008, Hybodont sharks of the English Bathonian and Callovian (Middle Jurassic): Palaeontology, v. 51, no. 1, p. 117-147. A shift in hybodonts was seen during the Middle Jurassic, a transition between the distinctly different assemblages seen in the Triassic – Early Jurassic and the Late Jurassic – Cretaceous. As neoselachians (group of modern sharks) diversified further during the Late Jurassic, hybodontiforms became less prevalent in open marine conditions but remained diverse in fluvial and restricted settings during the Cretaceous. Possible reasons for the replacement of hybodonts by modern sharks include more effective locomotory and jaw movement mechanisms of the latter group. By the end of the Cretaceous, hybodonts had declined to only a handful of species, including members of ''Lonchidion','' and '' Meristodonoides.'' The last hybodonts disappeared, seemingly abruptly, as part of the Cretaceous-Paleogene extinction event approximately 66 million years ago.

Families and genera

The taxonomy of hybodonts is considered poorly resolved, so the classification presented should not be taken as authoritative. * Lonchidiidae Herman, 1977 ** '' Baharyodon'' ** '' Diplolonchidion'' ** '' Vectiselachos'' ** '' Hylaeobatis'' ** '' Isanodus'' ** '' Parvodus'' ** '' Lissodus''? ** '' Lonchidion'' ** '' Luopingselache'' ** '' Jiaodontus'' ** '' Pristrisodus'' * Distobatidae ** '' Distobatus'' ** '' Reticulodus'' ** '' Tribodus?'' ** '' Aegyptobatus'' * Acrodontidae ** '' Acrodus'' ** '' Strophodus?'' * Hybodontidae ** '' Dicrenodus'' ** '' Egertonodus'' ** '' Hybodus'' ** '' Meristodonoides'' ** '' Planohybodus'' ** '' Priohybodus'' ** '' Sphenonchus'' ** '' Durnonovariaodus'' ** '' Crassodus'' * ''Incertae sedis'' ** '' Tribodus'' ** '' Strophodus'' ** '' Asteracanthus'' ** '' Roongodus'' ** '' Polyacrodus'' ** '' Palaeobates'' ** '' Bdellodus'' ** '' Thaiodus'' ** '' Acrorhizodus'' ** '' Khoratodus'' ** '' Arctacanthus'' ** '' Reesodus'' ** '' Steinbachodus'' ** '' Onychoselache'' ** '' Omanoselache'' ** '' Pororhiza'' ** '' Mukdahanodus'' ** '' Secarodus'' ** '' Hamiltonichthys'' ** '' Gansuselache'' ** '' Dabasacanthus'' ** '' Teresodus'' ** '' Diablodontus'' ** '' Gunnellodus''? ** '' Heteroptychodus'' ** '' Lissodus'' ** '' Columnaodus'' ** '' Carinacanthus'' *Form genera **'' Palaeoxyris'' (genus used for the egg capsules of hybodonts)

References

{{Taxonbar, from=Q139011 Prehistoric cartilaginous fish orders Carboniferous first appearances Pennsylvanian taxonomic orders Cisuralian taxonomic orders Guadalupian taxonomic orders Lopingian taxonomic orders Early Triassic taxonomic orders Middle Triassic taxonomic orders Late Triassic taxonomic orders Early Jurassic taxonomic orders Middle Jurassic taxonomic orders Late Jurassic taxonomic orders Early Cretaceous taxonomic orders Late Cretaceous taxonomic orders