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File:Monophyletic2.png
File:Monophyly, paraphyly, polyphyly.png

In common cladistic usage, a monophyletic group is a taxon (group of organisms) which forms a clade, meaning that it consists of a species and all its descendants. The term is synonymous with the uncommon term holophyly. Monophyletic groups are typically characterized by shared derived characteristics (synapomorphies).

Monophyly is contrasted with the terms paraphyly and polyphyly, which are most easily understood from the second diagram in this article. In current usage, a paraphyletic group consists of all of the descendants of a possibly hypothetical closest common ancestor minus one or more monophyletic groups (most usually one). A paraphyletic group is thus 'nearly' monophyletic (consistent with the meaning of the prefix 'para', namely 'near' or 'alongside'.) A polyphyletic group is any group other than a monophyletic group or a paraphyletic group, which like a paraphyletic group contains only some of the descendants of their closest common ancestor, but unlike a paraphyletic group is not characterized by the missing descendants forming one (or more) monophyletic groups.

These definitions have taken some time to be accepted. When the cladistic school of thought became mainstream in the 1960s, several alternative definitions were in use. Indeed, taxonomists sometimes used terms without defining them, leading to confusion in the early literature,[1] a confusion which persists.

See also: Crown group

DefinitionsEdit

On the broadest scale, definitions fall into two groups.

  • The widest, and arguably[2] the semantically correct meaning of the word,[3] is any two or more groups sharing a common ancestor.[4] This very broad definition strips the term of scientific utility. Therefore, scientists today restrict the term to holophyletic groups only – that is, groups consisting of all the descendants of one (usually hypothetical) common ancestor.[1] However, when considering taxonomic groups such as genera and species, the most appropriate nature of their common ancestor is unclear. Assuming that it would be one individual or mating pair is unrealistic for sexually reproducing species, which are by definition interbreeding populations.[5]
  • However, using a broader definition, such as a species and all its descendants, does not really work to define a genus.[5] A satisfactory and comprehensive cladistic definition of a species or genus is in fact impossible, and reflects the impossibility of seamlessly impressing a gradualistic model of continual change over the 'quantum' Linnean model, where species have defined boundaries, and intermediaries between species cannot be accommodated.[6]

ControversyEdit

Template:Editorial This incompatibility with the Linnaean and evolutionary taxonomy models led to an initial rift, not entirely healed, between the cladistic and more traditional schools of thought. Extreme cladists challenged the validity of Linnean taxa such as the Reptilia. Because birds, although descended from reptiles, are not themselves considered to be reptiles, cladists demanded that the taxon Reptilia be dismantled: a request that taxonomists were unwilling to heed.[7] This stand-off was eventually resolved to a degree by the construction of the term 'paraphyletic' to describe closely related groups which included most but not all of the descendants of a common ancestor.[4]

However, the coining of this term led to yet more confusion. Some scientists considered paraphyletic groups to be monophyletic (as they shared a common ancestor), where others insisted that monophyletic should continue to refer only to holophyletic groups.[4] Another term, polyphyletic, fell outside of the definition of monophyly. A strict explanation of a paraphyletic group has not been published, but the consensus appears to be that paraphyletic groups consist of a monophyletic group, minus one or more smaller constituent clades – for instance the paraphyletic class Reptilia being "Amniotes minus birds and mammals".[8] Polyphyletic groups can be thought of as a number of unrelated clades, for instance "warm blooded animals" = "birds plus mammals". Non-holophyletic groups are of little use for analysis of evolutionary processes, hence the calls for their "unnaming" - even though they are useful to scientists who are less concerned with the evolutionary past of groups.[4] Naming is also a problem for monophyletic groups: because the number of ancestors from which to root monophyletic groups is almost infinite, giving each clade a unique name is impossible[4] - as illustrated by the failed attempts to instigate a system called the Phylocode. Names obfuscate the really interesting part, which is the branching order, and are therefore of little utility to the cladist - at odds with the taxonomist, who since the time of Linnaeus has been naming species.

Intermediate, and particularly fossil, taxa can be considered to fall 'just outside' a widely accepted taxon. Examples are the very tetrapod-like fossil elpistostegalian fishes Panderichthys and Tiktaalik. The skull and upper finn structures are very similar to those of the first tetrapods, yet the limbs terminated in fins with fin-rays rather than feet with digits. The two are close to, but not members of the group consisting of four footed vertebrates. To reflect this phylogenetic proximity, they are termed termed 'stem group tetrapods' or simply 'stem tetrapods' - i.e. it lies on a branch more closely related to the lineage that led to tetrapods as recognised by a taxonomist than to their nearest living relatives, the lungfish.[9] This concept closes the gap between taxonomy and cladistics at a broader scale, but is difficult to apply at a species-level resolution.[6]

See alsoEdit

ReferencesEdit

  1. 1.0 1.1 Hennig, Willi [1966] (1999). Phylogenetic Systematics, Illinois Reissue, 72–77, Board of Trustees of the University of Illinois.
  2. (March 1972). Monophyly. Systematic Zoology 21 (1): 126–128.
  3. Envall, Mats (2008). On the difference between mono-, holo-, and paraphyletic groups: a consistent distinction of process and pattern. Biological Journal of the Linnean Society 94: 217.
  4. 4.0 4.1 4.2 4.3 4.4 Ashlock, Peter D. (March 1971). Monophyly and Associated Terms. Systematic Zoology 20 (1): 63–69.
  5. 5.0 5.1 Simpson, George (1961). Principles of Animal Taxonomy, New York: Columbia University Press.
  6. 6.0 6.1 (2000). A critical reappraisal of the fossil record of the bilaterian phyla. Biological Reviews 75 (2): 253–295.
  7. Gauthier, .A., Kluge, A.G & Rowe, T. (1988). The early evolution of the Amniota. Pages 103–155 in Michael J. Benton (ed.): The Phylogeny and Classification of the Tetrapods, Volume 1: Amphibians, Reptiles, Birds. Syst. Ass. Spec. Vol. 35A. Clarendon Press, Oxford.
  8. Colin Tudge (2000). The Variety of Life, Oxford University Press. ISBN 0198604262.
  9. Coates, M.I., Ruta, M.; and Friedman, M. (2008). Ever Since Owen: Changing Perspectives on the Early Evolution of Tetrapods. Annual Review of Ecology, Evolution, and Systematics 39: 571–92.

External linksEdit

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