Yinotheria

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Yinotheria
Temporal range: Late Triassic[1]Holocene, 210–0 Ma
Wild Platypus 4.jpg
Ornithorhynchus anatinus (Platypus)
Ambondro lingual.jpg
Ambondro mahabo jawbone
Scientific classification e
Kingdom: Animalia
Phylum: Chordata
Clade: Synapsida
Class: Mammalia
Subclass: Yinotheria
Chow and Rich, 1982
Subgroups

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Yinotheria is a proposed subclass that contains a few fossil mammals of the Mesozoic and the extant monotremes.[2] Today, there are only five surviving species, which live in Australia and New Guinea, but fossils have been found in England, China, Madagascar and Argentina. The surviving species consist of the platypus and four species of echidna.

Evolutionary history

According to genetic studies Yinotheria first diverge from other mammals around 220 to 210 million years ago, at some point in the Triassic or Early Jurassic.[1][3] The oldest known fossils are a bit younger, dating around 168 to 163 million years in the Middle Jurassic. These fossils are the genera Pseudotribos of China[2] and Shuotherium of both China and England. Both belong to the family Shuotheriidae, and they are the only known northern hemisphere group of yinotherians.

Around the same time as Shuotheriidae, the infraclass Australosphenida first appeared. The family Henosferidae occupied in the southern hemisphere in Argentina and Madagascar with genera Henosferus, Ambondro, and Asfaltomylos. This suggests that this family could have been more widespread and diverse in Gondwana during that time, although due to their fragile state some species might have been destroyed due to geological events.

In the Early Cretaceous in the region that is now known as Australasia the family Ausktribosphenidae and the first monotremes appeared. Despite being found in the same region of the world and same time period, recent work has found that the older Henosferidae is the sister taxon to Monotremata, with Ausktribosphenidae being the next sister taxa in Australosphenida.[4] Ausktribosphenidae includes the genera Bishops and Ausktribosphenos.

A monotreme fossil of a jaw fragment 110 million years old were found at Lightning Ridge, New South Wales. These fragments, from the species Steropodon galmani, are the oldest known fossils of monotremes. Fossils from the genera Kollikodon, Teinolophos, and Obdurodon have also been discovered. In 1991, a fossil tooth of a 61-million-year-old platypus was found in southern Argentina (since named Monotrematum, though it is now considered to be an Obdurodon species). (See fossil monotremes below.) Molecular clock and fossil dating give a wide range of dates for the split between echidnas and platypuses, with one survey putting the split at 19–48 million years ago,[5] but another putting it at 17–89 million years ago.[6] All these dates are more recent than the oldest known platypus fossils, suggesting that both the short-beaked and long-beaked echidna species are derived from a platypus-like ancestor.

Systematics

History of classification

Prototheria

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Originally monotremes were classified as a subclass of mammals known as Prototheria. The names Prototheria, Metatheria and Eutheria (meaning "first beasts", "changed beasts", and "true beasts", respectively) refer to the three mammalian groupings which have living representatives. Each of the three may be defined as a total clade containing a living crown-group (respectively the Monotremata, Marsupialia and Placentalia) plus any fossil species which are more closely related to that crown-group than to any other living animals.

The threefold division of living mammals into monotremes, marsupials and placentals was already well established when Thomas Huxley proposed the names Metatheria and Eutheria to incorporate the two latter groups in 1880. Initially treated as subclasses, Metatheria and Eutheria are by convention now grouped as infraclasses of the subclass Theria, and in more recent proposals have been demoted further (to cohorts or even magnorders), as cladistic reappraisals of the relationships between living and fossil mammals have suggested that the Theria itself should be reduced in rank.[7]

Prototheria, on the other hand, was generally recognised as a subclass until quite recently, on the basis of an hypothesis which defined the group by two supposed synapomorphies: (1) formation of the side wall of the braincase from a bone called the anterior lamina, contrasting with the alisphenoid in therians; and (2) a linear alignment of molar cusps, contrasting with a triangular arrangement in therians. These characters appeared to unite monotremes with a range of Mesozoic fossil orders (Morganucodonta, Triconodonta, Docodonta and Multituberculata) in a broader clade for which the name Prototheria was retained, and of which monotremes were thought to be only the last surviving branch (Benton 2005: 300, 306).

Australosphenida hypothesis and Yinotheria

The evidence which was held to support Prototheria is now universally discounted. In the first place, examination of embryos has revealed that the development of the braincase wall is essentially identical in therians and in 'prototherians': the anterior lamina simply fuses with the alisphenoid in therians, and therefore the 'prototherian' condition of the braincase wall is primitive for all mammals while the therian condition can be derived from it. Additionally, the linear alignment of molar cusps is also primitive for all mammals. Therefore, neither of these states can supply a uniquely shared derived character which would support a 'prototherian' grouping of orders in contradistinction to Theria (Kemp 1983).

In a further reappraisal, the molars of embryonic and fossil monotremes (living monotreme adults are toothless) appear to demonstrate an ancestral pattern of cusps which is similar to the triangular arrangement observed in therians. Some peculiarities of this dentition support an alternative grouping of monotremes with certain recently discovered fossil forms into a proposed new clade known as the Australosphenida, and also suggest that the triangular array of cusps may have evolved independently in australosphenidans and therians (Luo et al. 2001, 2002). Australosphenida is characterized by the shared presence of a cingulum on the outer front corner of the lower molars, a short and broad talonid, a relatively low trigonid, and a triangulated last lower premolar.[8]

The Australosphenida hypothesis remains controversial; for example, there seems to be a presence of lingual cingula in various non-australosphenidan mammals[9] and some work has shown the possibility of Eutheria being the sister group to Australosphenida, without monotremes.[10] As a result, some taxonomists (e.g. McKenna & Bell 1997) prefer to maintain the name Prototheria as a fitting contrast to the other group of living mammals, the Theria. In theory, the Prototheria is taxonomically redundant, since Monotremata is currently the only order which can still be confidently included, but its retention might be justified if new fossil evidence, or a re-examination of known fossils, enables extinct relatives of the monotremes to be identified and placed within a wider grouping.

When systematic work was performed, it was also found that Australosphenida is the sister taxon to Shuotheriidae, an obscure group of Mesozoic mammals that found in what is now China. Kielan-Jaworowska, Cifelli & Luo 2002 had this to say regarding the Shuotheriidae, particularly Shuotherium:[11]

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In our view, the most compelling evidence as to the affinities of Shuotherium lies in the structure of the last premolar, which shares striking similarities to that of Australosphenida

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Lower molar structure of Shuotherium and Australosphenida is obviously quite different, and for this reason we do not place Shuotherium within this Gondwanan clade. Based on the limited evidence available, however, we suggest that Shuotherium is a viable sister-taxon to Australosphenida.

Yinotheria is named for this grouping.[2][12]

Taxonomy

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In comparison to Metatheria and Eutheria, where there seems to be a better understanding on the relationships among taxa with substantial fossil evidence, Yinotheria has few fossils; mostly consists of (with few exceptions) the jawbones and teeth. In addition the group seem to have not been as diverse in their evolutionary history, in comparison to members of both Metatheria and Eutheria.[13] Future analysis and better fossil remains could affect the membership of Yinotheria as well as rearranging and revising the relationships of stem-monotremes and crowned monotremes.

  • Subclass Yinotheria Chow & Rich 1982 sensu Kielan-Jaworowska, Cifelli & Luo 2004 [Prototheria Gill 1872]
    • Order †Shuotherida Chow & Rich 1982 [Shuotheridia; Shuotheria]
      • Family †Shuotheriidae Chow & Rich 1982
        • Genus †Pseudotribos Luo, Ji & Yuan 2007
          • Pseudotribos robustus Luo, Ji & Yuan 2007
        • Genus †Shuotherium Chow & Rich 1982
          • Shuotherium dongi Chow & Rich 1982
          • Shuotherium shilongi Wang et al. 1998
    • Infraclass Australosphenida Luo, Cifelli & Kielan-Jaworowska 2001 sensu Kielan-Jaworowska, Cifelli & Luo 2004
      • Order †Ausktribosphenida Luo, Cifelli & Kielan-Jaworowska 2001
        • Family †Ausktribosphenidae Rich et al. 1997
          • Genus †Bishops Rich et al. 2001
            • Bishops whitmorei Rich et al. 2001
          • Genus †Ausktribosphenos Rich et al. 1997
            • Ausktribosphenos nyktos Rich et al. 1997
      • Order †Henosferida Averianov & Lopatin 2011
        • Family †Henosferidae Rougier et al. 2007
          • Genus †Ambondro[14]
            • Ambondro mahabo Flynn et al. 1999
          • Genus †Asfaltomylos Rauhut et al. 2002
            • Asfaltomylos patagonicus Rauhut et al. 2002
          • Genus †Henosferus Rougier et al. 2007
            • Henosferus molus Rougier et al. 2007
      • Order Monotremata Bonaparte 1837 sensu Luo, Cifelli & Kielan-Jaworowska 2001
        • Genus †Kryoryctes Pridmore et al. 2005 (either a stem-monotreme[15] or junior synonym of Steropodon[16])
          • Kryoryctes cadburyi Pridmore et al. 2005
        • Suborder Tachyglossa Gill 1872
          • Family Tachyglossidae Gill 1872 [Echidnidae Burnett 1830] (echidnas, spiny anteaters)
            • Genus †Megalibgwilia Griffiths, Wells & Barrie 1991 (subjective synonym or subgenus of Zaglossus)
              • Megalibgwilia robusta (Dun 1895) (subjective synonym of Zaglossus robustus)
              • Megalibgwilia ramsayi (Owen 1884) (senior synonym of Megalibgwilia owenii[13])
            • Genus Zaglossus Gill 1877 [Proechidna Gervais 1877; Acanthoglossus Gervais 1877; Bruynia Dubois 1882; Bruijia Thomas 1883; Prozaglossus Kerbert 1913] (Long-beaked Echidnas)
            • Genus Tachyglossus Illiger 1811 [Acanthonotus Goldfuss 1809; Echidna Cuvier 1798; Echinopus Fischer de Waldheim 1814; Syphomia Rafinesque 1815]
              • Tachyglossus aculeatus (Shaw 1792) Illiger 1811 (short-beaked Echidna)
        • Suborder Platypoda Gill 1872

Phylogeny

Below is a simplified tree on Averianov et. al, 2014[4] after Woodburn, 2003[14] and Ashwell, 2013[13]

Yinotheria
Shuotheriidae

Pseudotribos



Shuotherium



Australosphenida
Ausktribosphenidae

Bishops



Ausktribosphenos




Henosferidae

Henosferus




Ambondro



Asfaltomylos





Monotremata





References

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  3. http://timetree.org/pdf/Madsen2009Chap68.pdf
  4. 4.0 4.1 Averianov et. al, 2014
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  6. http://timetree.org/pdf/Springer2009Chap69.pdf
  7. Marsupialia and Eutheria/Placentalia appear as cohorts in McKenna & Bell 1997 and in Benton 2005, with Theria ranked as a supercohort or an infralegion, respectively.
  8. Luo et al., 2001, pp. 53, 56
  9. Sigogneau-Russell et al., 2001, p. 146
  10. Woodburne, 2003, fig. 5; Woodburne et al., 2003, fig. 3
  11. Dykes: Shuoterium
  12. Kielan-Jaworowska, Cifelli & Luo 2004, pp. 214–215, 529
  13. 13.0 13.1 13.2 13.3 13.4 13.5 13.6 Ashwell, 2013
  14. 14.0 14.1 Woodburne, 2003
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  • Benton, Michael J. 2005. Vertebrate Palaeontology. 3rd ed. Oxford: Blackwell Publishing. ISBN 0-632-05637-1
  • Kemp, T.S. 1983. The relationships of mammals. Zoological Journal of the Linnean Society 77: 353-84.
  • Luo, Z.-X., R.L. Cifelli and Z. Kielan-Jaworowska. 2001. Dual origin of tribosphenic mammals. Nature 409: 53-7.
  • Luo, Z.-X., R.L. Cifelli and Z. Kielan-Jaworowska. 2002. In quest for a phylogeny of Mesozoic mammals. Acta Palaeontologia Polonica 47: 1-78.
  • McKenna, Malcolm C., and Susan K. Bell. 1997. Classification of Mammals Above the Species Level. New York: Columbia University Press. ISBN 0-231-11013-8
  • Zofia Kielan-Jaworowska, Richard L. Cifelli, and Zhe-Xi Luo, Mammals from the Age of Dinosaurs: Origins, Evolution, and Structure (New York: Columbia University Press, 2004), 214-215.