Difference between revisions of "Phylogenetics"

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In biology, '''phylogenetics''' (Greek: ''phylon'' = tribe, race and ''genetikos'' = relative to birth, from ''genesis'' = birth) is the study of evolutionary relatedness among various groups of organisms (e.g., species, populations).  Phylogenetics, also known as phylogenetic systematics, treats a species as a group of lineage-connected individuals over time. Phylogenetic taxonomy, which is an offshoot of, but not a logical consequence of, phylogenetic systematics, constitutes a means of classifying groups of organisms according to degree of evolutionary relatedness.
 
In biology, '''phylogenetics''' (Greek: ''phylon'' = tribe, race and ''genetikos'' = relative to birth, from ''genesis'' = birth) is the study of evolutionary relatedness among various groups of organisms (e.g., species, populations).  Phylogenetics, also known as phylogenetic systematics, treats a species as a group of lineage-connected individuals over time. Phylogenetic taxonomy, which is an offshoot of, but not a logical consequence of, phylogenetic systematics, constitutes a means of classifying groups of organisms according to degree of evolutionary relatedness.
  
'''Phylogeny''' (or phylogenesis) is the origin and evolution of a set of organisms, usually a set of species. A major task of systematics is to determine the ancestral relationships among known species (both living and extinct). The most commonly used methods to infer phylogenies include cladistics, phenetics, maximum likelihood, and [[Bayesian inference]]. These last two depend upon a mathematical model describing the evolution of characters observed in the species included, and are usually used for molecular phylogeny where the characters are aligned nucleotide or amino acid sequences.
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'''Phylogeny''' (or phylogenesis) is the origin and evolution of a set of organisms, usually a set of species. A major task of systematics is to determine the ancestral relationships among known species (both living and extinct). The most commonly used methods to infer phylogenies include [[cladistics]], [[phenetics]], [[maximum likelihood]], and [[Bayesian inference]]. These last two depend upon a mathematical model describing the evolution of characters observed in the species included, and are usually used for molecular phylogeny where the characters are aligned nucleotide or amino acid sequences.
  
==See also==
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== Books ==
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==='''''Phylogenetic Systematics'''''===
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* [[Willi Hennig]]
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* University of Illinois Press, Urbana, 1966.
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* ISBN 0252068149 (280 pages)
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'''Description:''' This book popularized the techniques of [[cladistics]] in the English-speaking world. It is based on work published in German starting 1950. [[Willi Hennig]] is considered the founder of cladistics, which he developed while working as an entomologist in East Germany.
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==='''''Inferring Phylogenies'''''===
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* [[Joseph Felsenstein]]
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* Sinauer Associates, 2004.
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* ISBN 0878931775 (664 pages)
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'''Description:''' An excellent technical manual to guide any biologist wishing to construct a phylogenetic hypothesis.
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== See also ==
 
* [[Bayesian inference]]
 
* [[Bayesian inference]]
 
* [http://en.wikipedia.org/wiki/Phylogenetic_tree Phylogenetic tree]
 
* [http://en.wikipedia.org/wiki/Phylogenetic_tree Phylogenetic tree]
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* [http://en.wikipedia.org/wiki/Maximum_likelihood Maximum likelihood]
 
* [http://en.wikipedia.org/wiki/Maximum_likelihood Maximum likelihood]
 
* [[Bioinformatics]]
 
* [[Bioinformatics]]
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== Keywords ==
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interior branch tests, polymorphism parsimony, quartets distance, expected pattern frequencies, parsimony score, multifurcating trees, least squares branch lengths, consensus supertree, unrooted tree topology, coalescent trees, quartets methods, ancestral selection graph, distance matrix methods, phylogenetic invariants, short quartets, unit branch length, unrooted bifurcating trees, coalescent genealogy, postorder tree traversal, least squares tree, different tree topologies, partial bootstrap, clock invariants, tree with branch lengths, branch that separates, common stem species, apomorphous conditions, comparative holomorphology, holomorphological method, phylogenetic kinship, hologenetic relationships, one stem species, autogenetic relationships, vicarying reproductive communities, tokogenetic relationships, genetic species concept, synapomorphous characters, mantle papillae, same absolute rank, absolute rank order, accessory criteria, phylogenetic systematics this, typological systematics, single stem species, hierarchic type, chorological method, species cleavage, parasitological method, general reference system, plesiomorphous characters
  
 
== External links ==
 
== External links ==
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[[Category:Academic Research]]
 
[[Category:Academic Research]]
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[[Category:Phylogenetics]]

Revision as of 19:59, 30 December 2005

In biology, phylogenetics (Greek: phylon = tribe, race and genetikos = relative to birth, from genesis = birth) is the study of evolutionary relatedness among various groups of organisms (e.g., species, populations). Phylogenetics, also known as phylogenetic systematics, treats a species as a group of lineage-connected individuals over time. Phylogenetic taxonomy, which is an offshoot of, but not a logical consequence of, phylogenetic systematics, constitutes a means of classifying groups of organisms according to degree of evolutionary relatedness.

Phylogeny (or phylogenesis) is the origin and evolution of a set of organisms, usually a set of species. A major task of systematics is to determine the ancestral relationships among known species (both living and extinct). The most commonly used methods to infer phylogenies include cladistics, phenetics, maximum likelihood, and Bayesian inference. These last two depend upon a mathematical model describing the evolution of characters observed in the species included, and are usually used for molecular phylogeny where the characters are aligned nucleotide or amino acid sequences.

Books

Phylogenetic Systematics

Description: This book popularized the techniques of cladistics in the English-speaking world. It is based on work published in German starting 1950. Willi Hennig is considered the founder of cladistics, which he developed while working as an entomologist in East Germany.

Inferring Phylogenies

Description: An excellent technical manual to guide any biologist wishing to construct a phylogenetic hypothesis.

See also

Keywords

interior branch tests, polymorphism parsimony, quartets distance, expected pattern frequencies, parsimony score, multifurcating trees, least squares branch lengths, consensus supertree, unrooted tree topology, coalescent trees, quartets methods, ancestral selection graph, distance matrix methods, phylogenetic invariants, short quartets, unit branch length, unrooted bifurcating trees, coalescent genealogy, postorder tree traversal, least squares tree, different tree topologies, partial bootstrap, clock invariants, tree with branch lengths, branch that separates, common stem species, apomorphous conditions, comparative holomorphology, holomorphological method, phylogenetic kinship, hologenetic relationships, one stem species, autogenetic relationships, vicarying reproductive communities, tokogenetic relationships, genetic species concept, synapomorphous characters, mantle papillae, same absolute rank, absolute rank order, accessory criteria, phylogenetic systematics this, typological systematics, single stem species, hierarchic type, chorological method, species cleavage, parasitological method, general reference system, plesiomorphous characters

External links