Otodus angustidens

Otodus angustidens^[1] is an extinct species of prehistoric megatoothed sharks in the genus Otodus, which lived during the Late Eocene and Miocene epochs about 34 to 21 million years ago.^[2] The largest individuals were about 11–12 metres (36–39 ft) long. This shark is related to another extinct megatoothed shark, the famous Otodus megalodon.^[2]

Otodus angustidens Temporal range: Late Eocene-Early Miocene ~34–21 Ma PreꞒ Ꞓ O S D C P T J K Pg N
Scientific classification
Domain:	Eukaryota
Kingdom:	Animalia
Phylum:	Chordata
Class:	Chondrichthyes
Subclass:	Elasmobranchii
Division:	Selachii
Order:	Lamniformes
Family:	†Otodontidae
Genus:	†Otodus
Species:	†O. angustidens
Binomial name
†Otodus angustidens Agassiz, 1843
Synonyms
Carcharocles angustidens Carcharodon angustidens Agassiz, 1843 Otodus latidens? Agassiz, 1843

Taxonomy

The Swiss naturalist Louis Agassiz, first identified this shark as a species of genus Carcharodon in 1835.

In 1964, shark expert, L. S. Glikman recognized the transition of Otodus obliquus to C. auriculatus and moved C. angustidens to genus Otodus. (See "external links" below)

However, in 1987, shark expert H. Cappetta recognized the C. auriculatus - C. megalodon lineage and placed all related megatooth sharks along with this species in the genus Carcharocles. The complete Otodus obliquus to C. megalodon transition then became clear and has since gained the acceptance of many other experts with the passage of time. Within the Carcharocles lineage, C. angustidens is the species succeeding C. sokolovi and is followed by C. chubutensis.^[2]

In 2001, a discovery of the best preserved Carcharocles angustidens specimen to date by two scientists, Michael D. Gottfried and Ewan Fordyce, has been presented by the team as evidence for close morphological ties with the extant great white shark, and the team argued that Carcharocles angustidens, along with all other related megatooth sharks, including Carcharocles megalodon, should be assigned to Carcharodon as was done before by Louis Agassiz.,^[3] although this is not internationally accepted by the scientific community.

A more recent study of the taxonomic relationships of the related Megalolamna demonstrates the possibility that Otodus needs to include the species sometimes assigned to Carcharocles (i.e., the megatoothed lineage, including megalodon) in order to be monophyletic.^[4]

Size estimation

Like other known megatooth sharks, the fossils of O. angustidens indicate that it was considerably larger than the extant great white shark, with the largest individuals possibly measuring up to 11–12 metres (36–39 ft) long.^[5][6] A well preserved specimen from New Zealand is estimated at 9.3 m (31 ft) in length.^[3] This specimen had teeth measuring up to 9.87 cm (3.89 in) in diagonal length, and vertebral centra around 1.10 cm (0.43 in) in diameter.^[3] Smaller individuals were about 6–6.6 metres (20–22 ft) long, still larger than the avarage extant great white shark.^[7][3]

Tooth of O. angustidens

Dentition

The dental formula for O. angustidens is 2.1.5.43.0.6.3

Diet

O. angustidens was an apex predator and likely preyed upon penguins, fish, dolphins, and baleen whales.

Fossil record

As is the case with most extinct sharks, this species is also known from fossil teeth and some fossilized vertebral centra. Shark skeletons are composed of cartilage and not bone, and cartilage rarely gets fossilized. Hence, fossils of O. angustidens are generally poorly preserved. To date, the best preserved specimen of this species have been excavated from New Zealand, which comprises 165 associated teeth and about 35 associated vertebral centra.^[3] This specimen is around 26 million years old. O. angustidens teeth are noted for their triangular crowns and small side cusps that are fully serrated. The serrations are very sharp and very well pronounced. O. angustidens was a widely distributed species with fossils found in:^[8] A fossil bed in South Carolina suggests that O. angustidens utilized the area as a birthing ground and nursery for their pups, as 89% of the teeth found in the area belonged to juveniles, 3% belonged to infants, and 8% belonged to adults.^[9]

North America

• Yazoo Formation, Alabama
• Jewett Sand Formation, California
• Clinchfield Formation, Georgia
• Calvert Formation, Maryland
• Jackson Group, Mississippi
• Kirkwood Formation, New Jersey
• Castle Hayne Formation, North Carolina
• Hawthorne Formation, South Carolina^[10]
• Chandler Bridge Formation, South Carolina^[11]

Europe

• Malta
• Paris Basin, France
• Leipzig / Stoermthal, Germany

Asia

• Ashiya Group, Japan

Oceania

• Ettric, Jan Juc, Gambier Limestone, Clifton Formations, Australia
• Otekaike Formation, New Zealand

Africa^[3]

South America^[3]

• Dos Bocas Formation, Ecuador

See also

• Paleontology portal
• Sharks portal

• Prehistoric fish
• Largest prehistoric organisms