Brasilitherium

Brasilitherium
Temporal range: Late Triassic, 240–200 Ma
Life restoration of Brasilitherium riograndensis
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Clade: Synapsida
Order: Therapsida
Suborder: Cynodontia
Family: Brasilodontidae
Genus: Brasilitherium
Martinelli and Schultz, 2003
Type species
Brasilitherium riograndensis
Martinelli and Schultz, 2003

Brasilitherium ("Brazilian beast") is a genus of cynodont that lived during the Late Triassic in what is now Brazil. The etymology is from Brazil and therium means mammal in Greek, therefore Brasilitherium means mammal from Brazil.[1] Its length was approximately 12 cm and it weighed 20 grams. It fed on insects, making it an insectivore. Brasilitherium was found in Paleorrota (Caturrita Formation), a geopark located in Brazil. [2] [3] Brasilitherium represents a transition between advanced cynodonts and mammals, having features of both and having early evolution of certain mammalian features such as the nasal cavity and hearing.[4]


Paleoenvironmental

The discovery was part of the Caturrita Formation, where the rock was made up of two different layers, lower layers being sandstone and upper layers being mudstone.[1] This specific taxon was found in the fine sandstone layer in the middle.[1] The fossils were found in outcrops, and due to the different layers, it is suggested that there was a river, and this area experienced both gravitational flows as well as peak flows.[1] Gravitational flow would be a type of flow due to gravity, where as peak flows would be due to specific events that experienced a high amount of flow causing an event.

Discovery and Historical Information

Brasilitherium was discovered in Rio Grande do Sul in Southern Brazil, work initiated by the Museu de Ciencias Naturals of the Fundacao Zoobotanica of Porto Alegre. [1] Brasilitherium is part of the Brasilodontidae family, and was found in the middle to late triassic.[5] The family of Brasilodontidae was found in Argentina, India, and Brazil, where Brasilitherium was found.[5] Brasilitherium is thought to be a transitional species between cynodonts and the earliest mammals.[4]

Description and Paleobiology

Skull

The skull of the Brasilitherium is about 21mm in length. [1] The dentary bone in the skull is more slender than in previous ancestors, as well as a slightly smaller skull in general.[1]The genera Brasilodon is different from Brasilitherium due to the lower post canines as well as the pre orbital.[1]

Although more studies and more fossils are needed to truly confirm, paleotologists seem to believe that Brasilodon and Brasilitherium are not sister groups and that Brasilitherium is more closely related to mammaliaformes.[6] The lower jaw is articulated to the skull, which is between the squamosal and the dentary which isn't seen in other cyandonts.[4] When looking the jaw of Brasilitherium, one could say that it is closely related to Thrinaxodon, but paleontologists have concluded that they are not closely related, but simply have convergent evolution.[5]


The skull shows quadrangular upper post canines and asymmetrical lower post canines.[1] Post-canines are constantly getting replaced in this taxon and they are replaced in a alternate sequence, meaning they aren't getting replaced next to each other at the same time.[7] Brasilitherium's post canine teeth also have more that one replacement which is something they keep from their cynodont ancestors.[7] The upper incisors are also ventrally directed.[1]


In terms of comparing Brasilitherium to Brasilodon, the interpterygoid vacuity is 1/6 the skull length in Brasilodon and 1/8 the skull length in Brasilitherium. [4] From the skull paleontologists found that the wings of the vomer and posterior part of the nasal cavity forms the primary mouth roof,and a elongated secondary palate also forms.[8] Origin of the nasal capsule is hard to place on a phylogony due to late ossification, therefore it was most likely cartilagenous in this taxon.[9]

Other Features

Brasilitherium is a transitional taxon that sets the stage for development of different critical features. Brasilitherium has specialized their basicranium which allows them to start specializing in the middle ear and hearing.[4] Brasilitherium has a stapedial process of the quadrate which is a derivation of the middle ear.[4]


Paleontologists looked at endocasts in order to study the increase in size of olfactory bulbs.[6] Preservation of soft tissue is virtually impossible in fossils, therefore paleontologists rely on endocasts to study the brain.[6] Some skulls have the brain pressed up against them, leaving impressions that allow the paleontologists to see possible structures that are soft tissue that are harder to see such as blood vessels.[6] They found that the casts in Brasilitherium was larger than non mammaliaform cynodonts.[6] This led to the suggestion that Brasilitherium had early evolution of the mammalian brain.[6]


Similar to mammaliaforms and not cynodonts, Brasilitherium is found to have grooves in their post canine teeth as well as a formation of a tongue.[7] Another similarity to mammalian taxon is that the intraorbital fenstra evolves under the orbit.[10]

See also

References

  1. 1 2 3 4 5 6 7 8 9 10
  2. Brasilodon quadrangularis. Archived 2010-04-24 at the Wayback Machine.
  3. Univerdidade Federal do Rio Grande do Sul.
  4. 1 2 3 4 5 6 ]
  5. 1 2 3
  6. 1 2 3 4 5 6
  7. 1 2 3

Bonaparte et al (2005) https://www.researchgate.net/profile/Agustin_Martinelli/publication/228954172_New_information_on_Brasilodon_and_Brasilitherium_Cynodontia_Probainognathia_from_the_Late_Triassic_of_Southern_Brazil/links/09e4151226b1c4299d000000.pdf

Bonaparte et al (2003) http://www.academia.edu/download/28448824/2003_Bonaparte_et_al__Brasilodon___Brasilitherium.pdf

Rodrigues et al (2014) http://link.springer.com.offcampus.lib.washington.edu/article/10.1007/s12542-013-0200-6

Bonaparte et al (2013) http://eds.b.ebscohost.com.offcampus.lib.washington.edu/ehost/pdfviewer/pdfviewer?sid=ff844ee7-6230-4856-a23f-b6bd951d660a%40sessionmgr102&vid=1&hid=103

Ruf et al (2014) http://apps.webofknowledge.com.offcampus.lib.washington.edu/full_record.do?product=WOS&search_mode=GeneralSearch&qid=1&SID=2BzogAZEDQ8A7uEgj8V&page=1&doc=3

Ruf et al (2013) https://books.google.com/books?id=PuVcAgAAQBAJ&pg=PA140&lpg=PA140&dq=Brasilitherium&source=bl&ots=tS68KueJ_w&sig=X9eGMpFtNnEMoaIDJ4Wz58IJws4&hl=en&sa=X&ved=0ahUKEwi0g-zc96fSAhVH0mMKHeS_DWg4ChDoAQg6MAg#v=onepage&q=Brasilitherium&f=false

Martinelli et al (2011) https://www.researchgate.net/profile/Agustin_Martinelli/publication/233755149_Postcanine_replacement_in_Brasilodon_and_Brasilitherium_Cynodontia_Probainognathia_and_its_bearing_in_cynodont_evolution/links/0deec516b39af1d501000000.pdf

Benoit et al (2016)https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4860582/pdf/srep25604.pdf

11.Bonaparte et al (2012) http://eds.a.ebscohost.com.offcampus.lib.washington.edu/ehost/pdfviewer/pdfviewer?sid=16724afe-750a-49ee-80ec-e47eb313ff02%40sessionmgr4006&vid=1&hid=4113

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