Eutheria
Eutheria (Greek: "true/good beasts") is a group of mammals consisting of placental mammals plus all extinct mammals that are more closely related to living placentals (such as humans) than to living marsupials (such as kangaroos). They are distinguished from non-eutherians by various features of the feet, ankles, jaws and teeth. One of the major differences between placental and non-placental eutherians is that placentals lack epipubic bones, which are present in all other fossil and living mammals.
The earliest known fossil eutherian, Eomaia was found in Asia and is dated to the Early Cretaceous period, about 125 million years ago.
Definition
Eutherians are a group of mammals consisting of placental mammals plus all extinct mammals that are more closely related to living placentals (such as humans) than to living marsupials (such as kangaroos).[2]
There are no living non-placental eutherians, and so knowledge of their synapomorphies ("defining features") is entirely based on a few fossils–which means the reproductive features that distinguish modern placentals from other mammals cannot be used in defining the eutheria. The features of eutheria that distinguish them from metatherians, a group that includes modern marsupials, are:
- an enlarged malleolus ("little hammer") at the bottom of the tibia, the larger of the two shin bones.[2]
- the joint between the first metatarsal bone and the entocuneiform bone in the foot is offset further back than the joint between the second metatarsal and mesocuneiform bones – in metatherians these joints are level with each other.[2]
- various features of jaws and teeth.[2]
Reproductive features are also of no use in identifying fossil placental mammals, which are distinguished from other eutherians by:
- the presence of a malleolus at the bottom of the fibula, the smaller of the two shin bones.[2]
- a complete mortise and tenon upper ankle joint, where the rearmost bones of the foot fit into a socket formed by the ends of the tibia and fibula.[2]
- a wide opening at the bottom of the pelvis, which allows the birth of large, well-developed offspring. Marsupials have and non-placental eutherians had a narrower opening that allows only small, immature offspring to pass through.[3]
- the absence of epipubic bones extending forwards from the pelvis, which are not found in any placental, but are found in all other mammals – non-placental eutherians, marsupials, monotremes and mammaliformes – and even in the cynodont therapsids that are closest to mammals. Their function is to stiffen the body during locomotion.[4] This stiffening would be harmful in pregnant placentals, whose abdomens need to expand.[5]
Subgroups
A likely phylogeny (Atlantogenata and Boreoeutheria).
[6][7][8] Alternative
hypotheses place either Xenarthra (and Epitheria)
or Afrotheria (and Exafroplacentalia (Notolegia)) at the base of the tree.
Eutheria |
|
Afrotheria
|
|
Exafroplacentalia |
|
|
|
|
[9]
These are the subgroups of extant members of Eutheria:
- Boreoeutheria, e.g. humans, badgers, rabbits, guinea pigs, dogs, dolphins
- Euarchontoglires, e.g. monkeys, rats, hares
- Laurasiatheria, e.g. cattle, whales, bats, cats
- Atlantogenata, e.g. sloths, hyraxes, aardvarks, tenrecs, armadillos, anteaters
These groups together make up the crown group Placentalia (placental mammals). Eutheria also includes now extinct lineages that lie outside of Placentalia (see below).[10]
Evolutionary history
The earliest known eutherian species is the extinct non-placental Eomaia scansoria from the Lower Cretaceous of China, dated to about 125 million years ago. Some of its fossils show thick fur. Montanalestes was found in North America, while all other non-placental eutherian fossils have been found in Asia. The earliest known placental fossils have also been found in Asia.[2] |
Millions of years ago
Origin
of
eutheria
= Asian fossils = N American fossils
= Period when placental classes diverged according to molecular phylogenetics estimates
Murtoilestes
Prokennalestes
Eomaia
Montanalestes
Ukhaatherium
Asioryctes
Kennalestes
Zalambdalestes
Daulestes
Aspanestes
Eoungulatum
Protungulatum
Gypsonictops
Cimolestes
|
- Cynodonts
- † Other Cynodonts
- † Tritylodontids
- Mammaliformes
- † Other mammaliformes
- † Hadrocodium
- Mammals
- † Other mammals
- Australosphenids
- Theria
- † Other Theria
- Metatheria
- Eutheria
Simplified, non-systematic, outline of evolution of eutheria from cynodont therapsids. [2]
† = extinct
|
Notes and references
- ↑ "Eutheria phylogeny". Mikko's Phylogeny Archive. http://www.helsinki.fi/~mhaaramo/metazoa/deuterostoma/chordata/synapsida/eutheria/eutheria_index.html. Retrieved 2008-07-24.
- ↑ 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 Ji, Q., Luo, Z-X., Yuan, C-X.,Wible, J.R., Zhang, J-P.,and Georgi, J.A. (April 2002). "The earliest known eutherian mammal". Nature 416 (6883): 816–822. doi:10.1038/416816a. PMID 11976675. http://www.nature.com/nature/journal/v416/n6883/full/416816a.html. Retrieved 2008-09-24.
- ↑ Weil, A. (April 2002). "Mammalian evolution: Upwards and onwards". Nature 416 (6883): 798–799. doi:10.1038/416798a. PMID 11976661. http://www.nature.com/nature/journal/v416/n6883/full/416798a.html. Retrieved 2008-09-24.
- ↑ Reilly, S.M., and White, T.D. (January 2003). "Hypaxial Motor Patterns and the Function of Epipubic Bones in Primitive Mammals". Science 299 (5605): 400–402. doi:10.1126/science.1074905. PMID 12532019. http://www.sciencemag.org/cgi/content/full/299/5605/400. Retrieved 2008-09-24.
- ↑ Novacek, M.J., Rougier, G.W, Wible, J.R., McKenna, M.C, Dashzeveg, D.,and Horovitz, I. (October 1997). "Epipubic bones in eutherian mammals from the Late Cretaceous of Mongolia". Nature 389 (6650): 483–486. doi:10.1038/39020. PMID 9333234. http://www.nature.com/nature/journal/v389/n6650/full/389483a0.html. Retrieved 2008-09-24.
- ↑ Wildman DE, Uddin M, Opazo JC, et al (2007). "Genomics, biogeography, and the diversification of placental mammals". Proc. Natl. Acad. Sci. U.S.A. 104 (36): 14395–400. doi:10.1073/pnas.0704342104. PMID 17728403. PMC 1958817. http://www.pnas.org/content/104/36/14395.full.
- ↑ Murphy WJ, Pringle TH, Crider TA, Springer MS, Miller W (2007). "Using genomic data to unravel the root of the placental mammal phylogeny". Genome Res. 17 (4): 413–21. doi:10.1101/gr.5918807. PMID 17322288. PMC 1832088. http://genome.cshlp.org/content/17/4/413.long.
- ↑ Schneider A, Cannarozzi GM (2009). "Support Patterns from Different Outgroups Provide a Strong Phylogenetic Signal". Mol. Biol. Evol. 26 (6): 1259–72. doi:10.1093/molbev/msp034. PMID 19240194.
- ↑ Churakov G, Kriegs JO, Baertsch R, Zemann A, Brosius J, Schmitz J (2009). "Mosaic Retroposon Insertion Patterns in Placental Mammals". Genome Res. 19 (5): 868–75. doi:10.1101/gr.090647.108. PMID 19261842.
- ↑ Archibald JD, Averianov AO, Ekdale EG (November 2001). "Late Cretaceous relatives of rabbits, rodents, and other extant eutherian mammals". Nature 414 (6859): 62–5. doi:10.1038/35102048. PMID 11689942.
References
- Goloboff, P.A.; Catalano, S.A.; Mirande, J.M.; Szumik, C.A.; Arias, J.S.; Källersjö, M & Farris, J.S. 2009. Phylogenetic analysis of 73 060 taxa corroborates major eukaryotic groups. Cladistics 25 (3): 211-230