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Title: Paraphyletic  
Author: World Heritage Encyclopedia
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Subject: Lizard, Amniote, Pelycosaur, Dinosaur classification, Apterygota, List of fossil bird genera, Microsauria, Crocodylomorpha, Osteolepiformes, Phylum
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Paraphyly is a characteristic of some groups of organisms and families of languages. In phylogenetics (a subfield of biology) and in linguistics, a group is said to be paraphyletic if it consists of all the descendants of the last common ancestor of the group's members minus a small number of monophyletic groups of descendants, typically just one or two such groups. Such a group is said to be paraphyletic with respect to the excluded groups. For example, the group of reptiles, as traditionally defined, is paraphyletic with respect to the mammals and birds: it contains the last common ancestor of the reptiles—including the extant reptiles as well as the extinct mammal-like reptiles—along with all descendants of that ancestor except for mammals and birds. Other commonly recognized paraphyletic groups include fish and lizards.


Relation to monophyletic groups

Groups that include all the descendants of a common ancestor are said to be anagenesis in the excluded group or groups. For example, dinosaurs are paraphyletic with respect to birds because birds possess many features that dinosaurs lack and occupy a distinctive niche.

A group whose identifying features evolved convergently in two or more lineages is polyphyletic (Greek πολύς [polys], "many"). More broadly, any taxon that is not paraphyletic or monophyletic can be called polyphyletic.

These terms were developed during the debates of the 1960s and 70s accompanying the rise of cladistics.

Examples of paraphyletic groups

Many of the older classifications contain paraphyletic groups, including the traditional 2–6 kingdom systems and the classic division of the vertebrates. Examples of well-known paraphyletic groups include:

  • In the flowering plants, dicotyledons, in the traditional sense, because they exclude monocotyledons. The former name has not been used as an ICBN classification for decades, but is allowed as a synonym of Magnoliopsida.[note 1] The former angiosperms (Magnoliophyta), or flowering plants, comprised both. Phylogenetic analysis, however, indicates that the monocots are a development from a dicot ancestor. Excluding them from the dicots makes the latter a paraphyletic group.[1]
  • The order Artiodactyla (even-toed ungulates), because it excludes Cetaceans (whales, dolphins, etc.). In the ICZN Code, the two taxa are orders of equal rank. Molecular studies, however, have shown that the Cetacea descend from the Artiodactyl ancestors, although the precise phylogeny within the order remains uncertain. Without the Cetacean descendants the Artiodactyls must be paraphyletic.[2]
  • The class Reptilia as traditionally defined, because it excludes birds (class Aves) and mammals (class Mammalia). In the ICZN Code, the three taxa are classes of equal rank. However, mammals hail from the mammal-like reptiles and birds are descended from the dinosaurs (a group of Diapsida), both of which are classified as reptiles.[3]
  • The prokaryotes (single-celled life forms without cell nuclei), because they exclude the eukaryotes, a descendant group. Bacteria and Archaea are prokaryotes, but archaea and eukaryotes share a common ancestor that is not ancestral to the bacteria. The prokaryote/eukaryote distinction was proposed by Edouard Chatton in 1937[4] and was generally accepted after being adopted by Roger Stanier and C.B. van Niel in 1962. The botanical code (the ICBN, now the ICN) abandoned consideration of bacterial nomenclature in 1975; currently, prokaryotic nomenclature is regulated under the ICNB with a starting date of January 1, 1980 (in contrast to a 1753 start date under the ICBN/ICN).[5]
  • Osteichthyes, bony fish, are paraphyletic because they include Actinopterygii (ray-finned fish) and Sarcopterygii (lungfish, etc.). However, tetrapods are descendants of the nearest common ancestor of Actinopterygii and Sarcopterygii, and tetrapods are not in Osteichthyes, hence Osteichthyes is paraphyletic.[6]

The following table shows some paraphyletic groups.

Paraphyletic taxon Excluded clades Corresponding monophyletic taxon
Dicotyledons[1] Monocotyledoneae Angiospermae
Even-toed ungulates[7] Cetacea Cetartiodactyla[8]
Reptiles[9] Mammalia, Aves (Birds)[9] Amniota
Lizards Serpentes (Snakes) Squamata
Prokaryotes[10] Eukaryota[10] Cellular Organisms
Bony fish[6] Tetrapoda[6] Euteleostomi
Pelycosaurs Therapsida Synapsida
Monkeys Hominoidea Simiiformes
Plagiaulacidans[11] Cimolodonta, Arginbaataridae Multituberculata
Invertebrates Vertebrata Animalia
Gymnosperms Angiospermae Spermatophyta
Fish Tetrapoda Vertebrata
Prosimians Simiiformes Primates
Crustaceans[12][13] Hexapoda[12][13] Tetraconata

Uses for paraphyletic groups

When the appearance of significant traits has led a subclade on an evolutionary path very divergent from that of a more inclusive clade, it often makes sense to study the paraphyletic group that remains without considering the larger clade. For example, the Neogene evolution of the Artiodactyla (even-toed ungulates, like deer) has taken place in an environment so different from that of the Cetacea (whales, dolphins, and porpoises) that the Artiodactyla are often studied in isolation even though the cetaceans are a descendent group. The prokaryote group is another example; it is paraphyletic because it excludes many of its descendent organisms (the eukaryotes), but it is very useful because it has a clearly defined and significant distinction (absence of a cell nucleus, a plesiomorphy) from its excluded descendants.

Also, paraphyletic groups are involved in evolutionary transitions, the development of the first tetrapods from their ancestors for example. Any name given to these ancestors to distinguish them from tetrapods—"fish", for example—necessarily picks out a paraphyletic group, since the descendent tetrapods are not included.[14]

The term "evolutionary grade" is sometimes used for paraphyletic groups.[15]

Paraphyly cannot be based on independently evolved traits

Vivipary, the production of offspring without the laying of a fertilized egg, developed independently in the lineages that led to humans (Homo sapiens) and southern water skinks (Eulampus tympanum, a kind of lizard). Put another way, at least one of the lineages that led to these species from their last common ancestor contains nonviviparous animals, the pelycosaurs ancestral to humans for example; vivipary appeared subsequently in the human lineage.

Independently-developed traits like these cannot be used to distinguish paraphyletic groups since paraphyly requires the excluded groups to be monophyletic. Pelycosaurs were descended from the last common ancestor of skinks and humans, so vivipary could be paraphyletic only if the pelycosaurs were part of an excluded monophyletic group. Since this group is monophyletic, it contains all descendents of the pelycosaurs; since it is excluded, it contains no viviparous animals. This doesn't work, since humans are among these descendents. Vivipary in a group that includes humans and skinks cannot be paraphyletic.

Not Paraphyly

  • Amphibious fish are not a paraphyletic group because although they appear similar several different groups of amphibious fishes evolved independently, see Convergent evolution.
  • Flightless birds are also not paraphyletic because their flightless characteristics evolved independently.
  • Animals with a dorsal fin are not paraphyletic, even though their last common ancestor may have had such a fin, because the Mesozoic ancestors of porpoises did not have such a fin while pre-Mesozoic fish did have one.
  • Quadrupedal archosaurs are not a paraphyletic group. Bipedal dinosaurs like Eoraptor, ancestral to quadrupedal ones, were descendents of the last common ancestor of quadrupedal dinosaurs and other quadrupedal archosaurs like the crocodilians.


Main article: Tree model

The concept of paraphyly has also been applied to historical linguistics, where the methods of cladistics have found some utility in comparing languages. For instance, the Formosan languages form a paraphyletic group of the Austronesian languages as the term refers to the nine branches of the Austronesian family that are not Malayo-Polynesian and restricted to the island of Taiwan.[16]




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