Toxodonta

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Toxodonta
Temporal range: Paleocene–Holocene
Mixotoxodon.jpg
Mixotoxodon
Scientific classification e
Kingdom: Animalia
Phylum: Chordata
Class: Mammalia
Order: Notoungulata
Suborder: Toxodonta
Families[2]

Toxodonta or Toxodontia[3] is a suborder of the meridiungulate order Notoungulata. Most of the members of the five included families, including the largest notoungulates, share several dental, auditory and tarsal specializations.[4] The group is named after Toxodon, the first example of the group to be discovered by science.

Description[]

Thomashuxleya reconstruction

Isotemnidae, the oldest and most primitive family of toxodonts, were generally large animals with larger canines than other early notoungulates. The family is probably paraphyletic or polyphyletic since only primitive dental features unite the 12 included genera, such as a complete dentition with unreduced canines and no diastemata in the earliest genera. Likewise, they are only weakly linked to other toxodonts by a few dental features, and their primitive cheek tooth pattern can be basal to all notoungulates except notioprogonians. The oldest of the 12 genera in this family is known from the Riochican-Casamayoran, but other genera are known from the Casamayoran, including Thomashuxleya, , and . Of these, the sheep-sized Thomashuxleya is the best known; its skeleton shows that it was relatively robust, had limbs with reduced distal elongation, and five-hoofed feet with a large central digit.[4]

Notohippidae was also present during the Casamayoran but tend to have more hypsodont cheek teeth than isotemnids. , one of the earliest genera in this family was, nevertheless, low-crowned with densely packed cheek teeth. Its primitiveness is suggested by the retained paraconids on the lower molars. , a Mustersan notohippid, was moderately hypsodont, Deseadan genera such as and were very high-crowned, and Santacrucian genera had acquired cementum on the crowns similar to equids.[4]

The last surviving notohippid was from the late Oligocene, which was medium-sized but heavily built.[5]

Leontinia gaudryi skull
Toxodon skull

The last toxodont family from the early Tertiary are the Leontiniidae. They share several derived tarsal and auditory features with the notohippids and are, together with the Deseadan Toxodontidae, nested within the paraphyletic Notohippidae. Leontiniids are known from the Deseadan or later, but the oldest and most primitive leontiniid, the Mustersan , retained a primitive brachydont dentition without diastemata except around the very small canines. Scarrittia, the best-known leontiniid, had (enlarged central digit) feet with reduced lateral digits.[4]

Toxodontids first appeared during the Oligocene in the form of . Another well-known toxodontid is Nesodon, a medium-sized Miocene toxodontid descended from Proadinotherium which had converted its second upper incisors into tusks. Toxodon itself evolved during the Pliocene alongside the related Trigodon, an equally large mammal which possessed a horn projecting from its forehead, in the same way as a modern rhinoceros. Toxodon was a huge herbivore (about the size of a modern black rhinoceros) with four toes on each foot.

Notes[]

  1. ^ Gastón Martínez, María T. Dozo, Javier N. Gelfo, Martín R. Ciancio & Rolando González-José (2021) A new toxodont (Mammalia, Panperissodactyla, Notoungulata) from the Oligocene of Patagonia, Argentina, and systematic considerations on the paraphyletic ‘Notohippidae’, Journal of Systematic Palaeontology, DOI: 10.1080/14772019.2021.1872723
  2. ^ "Toxodonta". Mikko's Phylogeny Archive. Archived from the original on June 22, 2013. Retrieved 26 June 2009.
  3. ^ Toxodontia in the Paleobiology Database. Retrieved April 2013.
  4. ^ Jump up to: a b c d Rose 2006, pp. 230–1
  5. ^ McKenna & Bell 1997

References[]

  • McKenna, Malcolm C.; Bell, Susan K. (1997). Classification of Mammals Above the Species Level. New York: Columbia University Press. ISBN 0231110138. OCLC 37345734.
  • Rose, Kenneth David (2006). The beginning of the age of mammals. Baltimore: JHU Press. ISBN 0801884721.
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