Metatheria

Metatheria
Temporal range: Early Cretaceous[1]Holocene, 125–0 Ma
Lycopsis longirostris, an extinct sparassodont, a relative of the marsupials
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Clade: Synapsida
Class: Mammalia
Subclass: Theria
Clade: Metatheria
Thomas Henry Huxley, 1880
Subgroups

Metatheria is one of two mammalian clades, the other being Eutheria, with extant members that diverged in the Early Cretaceous or perhaps the Late Jurassic, and which includes all mammals more closely related to marsupials than to placentals. First proposed by Thomas Henry Huxley in 1880, it is a slightly more inclusive group than the marsupials; it contains all of the living mammals with abdominal pouches (most female marsupials) as well as their more primitive ancestors and relatives. Metatherians are one of three main classes of extant mammals: monotremes (egg laying mammals like the platypus and the echidna), metatheria (or marsupials, which includes the three American orders (Didelphimorphia, Paucituberculata and Microbiotheria) and the four Australasian orders (Notoryctemorphia, Dasyuromorphia, Peramelemorphia and Diprotodontia)[2]), and the eutherians (or placental mammals) consisting of twenty one orders, divided into four superorders.[3] Metatherians belong to a subgroup of the northern tribosphenic mammal clade or Boreosphenida. They differ from all other mammals in certain morphologies like their dental formula, which includes about five upper and four lower incisors, a canine, three premolars, and four molars.[4] Other morphologies include skeletal and anterior dentition, such as wrist and ankle apomorphies; all metatherians share derived pedal characters and calcaneal features.

Phylogeny

Below is a cladogram from after McKenna & Bell 1997, de Muizon, Cifelli & Céspedes 1997 and Szalay & Trofimov 1996 showing one hypothesis of mammal relationships:[5][6][7]

Metatheria

Sinodelphys




Deltatheroida


Neometatheria

Aenigmadelphys



Anchistodelphys



Arcantiodelphs


Boreometatheria

Adinodontidae




Iqualadelphys




Asiadelphia


Ameridelphia

Varalphadon




†Anchimetatheria (paraphyletic)




†Jaskhadelphysidae



†Simpsonitheria




Herpetotheriidae (paraphyletic)


Notometatheria

†Peradectidae



Sparassodonta


Marsupialia

Pauladelphys




Hondadelphys




Pucadelphys




Andinodelphys




Paucituberculata




Didelphimorphia



Australidelphia



















Basal Metatheria

Ameridelphia incertae sedis:

Marsupialia incertae sedis:

Evolutionary history

The relationships between the three extant divisions of mammals (monotremes, marsupials, and placental mammals) was long a matter of debate among taxonomists.[8] Most morphological evidence comparing traits, such as the number and arrangement of teeth and the structure of the reproductive and waste elimination systems, favors a closer evolutionary relationship between marsupials and placental mammals than either has with the monotremes, as does most genetic and molecular evidence.[9]

Around the end of the Triassic period, a Therapsid developed traits or characters that are diagnostic of the class Mammalia. This class gave rise to Multituberculata (herbivorous mammals), Triconodonta and Symmetrodonta (carnivorous and insectivorous mammals). However, these are not seen after the end of the Early Cretaceous and by the Late Cretaceous marsupials and placentals had evolved from a common eupantotherian ancestor.[4] The Mammalia class probably saw its first eutherian in the early Cretaceous Jehol biota in China called Acristatherium yanesis. This eutherian was determined to be the most basal based on a phylogenetic analysis that used a data matrix of many other species.[10] Metatherians probably evolved to take advantage of open arboreal niches. Adaptive radiation of marsupials excluded competition with their terrestrial placental counterparts.

Fossil metatherians are distinguished from eutherians by the form of their teeth; metatherians possess four pairs of molar teeth in each jaw, whereas eutherian mammals (including true placentals) never have more than three pairs.[11] Using this criterion, the earliest known metatherian is Sinodelphys szalayi, which lived in China around 125 million years ago (mya).This 2003 study presents a new fossil from the early Cretaceous Yixian formation in China called Sinodelphys szalayi that gives enough morphological data to possibly be a basal metatherian in its didelphid-like morphology; it shares derived traits, such as dental formation and wrist and ankle structures. The fossil is about 125 million years old, making it one of the oldest metatherian fossils found and gives support to the claim that Asia was probably the center for diversification during the early Cretaceous. The researchers hypothesize that the divergence of Metatheria from Eutheria occurred in Asia no later than 125 million years ago, followed by the evolution of deltatheroidian-like taxa in Asia and North America about 120-100 million years ago and then the Paleocene diversification of relatives to the crown marsupials in South America.[12] This makes it a contemporary to some early eutherian species that have been found in the same area.[10]

The oldest metatherian fossils are found in present-day China.[13] About 100 mya, the supercontinent Pangaea was in the process of splitting into the northern continent Laurasia and the southern continent Gondwana, with what would become China and Australia already separated by the Tethys Ocean. From there, metatherians spread westward into modern North America (still attached to Eurasia), where the earliest true marsupials are found. It is difficult to identify which fossils are marsupials, as they are characterized by aspects of the reproductive system that do not normally fossilize (including pouches) and by subtle changes in the bone and tooth structure that show a metatherian is part of the marsupial crown group (the most exclusive group that contains all living marsupials). The earliest definite marsupial fossil belongs to the species Peradectes minor, from the Paleocene of Montana, dated to about 65 million years ago.[1] From their point of origin in Laurasia, marsupials spread to South America, which was connected to North America until around 65 mya. Laurasian marsupials eventually died off; traditionally this has been assumed to be due to competition with placental mammals, but generally this is no longer considered to be the case, as metatherian diversity doesn't seem to be correlated to placental diversity.[14][15] In laurasian landmasses, herpetotheriids and peradectids remained alive until the mid to late Miocene, with the peradectids Siamoperadectes and Sinoperadectes being the youngest laurasian metatherians.

See also

References

  1. 1 2 O'Leary, Maureen A.; Bloch, Jonathan I.; Flynn, John J.; Gaudin, Timothy J.; Giallombardo, Andres; Giannini, Norberto P.; Goldberg, Suzann L.; Kraatz, Brian P.; Luo, Zhe-Xi; Meng, Jin; Ni, Michael J.; Novacek, Fernando A.; Perini, Zachary S.; Randall, Guillermo; Rougier, Eric J.; Sargis, Mary T.; Silcox, Nancy b.; Simmons, Micelle; Spaulding, Paul M.; Velazco, Marcelo; Weksler, John r.; Wible, Andrea L.; Cirranello, A. L. (8 February 2013). "The Placental Mammal Ancestor and the Post–K-Pg Radiation of Placentals". Science. 339 (6120): 662–667. doi:10.1126/science.1229237. PMID 23393258. Retrieved 9 February 2013.
  2. "PLOS Biology: Tracking Marsupial Evolution Using Archaic Genomic Retroposon Insertions".
  3. Wilson, Don E.; Reeder, DeeAnn M. (editors) (2005). Microtus (Mynomes) townsendii. Wilson and Reeder’s Mammal Species of the World — A Taxonomic and Geographic Reference (Print) (Third ed.). Baltimore, Maryland: Johns Hopkins University Press/Bucknell University. pp. 2,142. ISBN 978-0-8018-8221-0. Retrieved October 21, 2014.
  4. 1 2 Evolutionary History of the Marsupials and an Analysis of Osteological ...
  5. Mikko's Phylogeny Archive Haaramo, Mikko (2007). "Metatheria – marsupials and relatives". Retrieved 30 December 2015.
  6. Rowe, Timothy (1988). "Definition, diagnosis, and origin of Mammalia". Journal of Vertebrate Paleontology. 8 (3): 241–264. doi:10.1080/02724634.1988.10011708. ISSN 0272-4634.
  7. McKenna, Malcolm C.; Bell, Susan K. (1997). Classification of Mammals Above the Species Level. Columbia University Press. pp. 9–10. ISBN 978-0-231-11012-9. Retrieved 16 March 2015.
  8. Moyal, Ann Mozley (2004). Platypus: The Extraordinary Story of How a Curious Creature Baffled the World. Baltimore: The Johns Hopkins University Press. ISBN 0-8018-8052-1.
  9. van Rheede, T.; Bastiaans, T.; Boone, D.; Hedges, S.; De Jong, W.; Madsen, O. (2006). "The platypus is in its place: nuclear genes and indels confirm the sister group relation of monotremes and therians". Molecular Biology and Evolution. 23 (3): 587–597. doi:10.1093/molbev/msj064. PMID 16291999.
  10. 1 2 Hu, Yaoming; Meng, Jin; Li, Chuankui; Wang, Yuanqing (2010). "New basal eutherian mammal from the Early Cretaceous Jehol biota, Liaoning, China" (PDF). Proceedings of the Royal Society B. 277 (1679): 229–236. doi:10.1098/rspb.2009.0203. PMC 2842663Freely accessible. PMID 19419990.
  11. Benton, Michael J. (1997). Vertebrate Palaeontology. London: Chapman & Hall. p. 306. ISBN 0-412-73810-4.
  12. Rincon, Paul (2003-12-12). "Oldest Marsupial Ancestor Found, BBC, Dec 2003". BBC News. Retrieved 2010-03-16.
  13. Luo, Zhe-Xi; Ji, Qiang; Wible, John R.; Yuan, Chong-Xi (2003-12-12). "An early Cretaceous tribosphenic mammal and metatherian evolution". Science. 302 (5652): 1934–1940. doi:10.1126/science.1090718. PMID 14671295. Retrieved 2010-12-27.
  14. Sánchez-Villagra, Marcelo, Why are There Fewer Marsupials than Placentals? On the Relevance of Geography and Physiology to Evolutionary Patterns of Mammalian Diversity and Disparity, December 2013, Volume 20, Issue 4, pp 279-290
  15. Carter & Mess, Conservation of placentation during the tertiary radiation of mammals in South America., PMID 23355381


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