Anagenesis

Anagenesis, also known as "phyletic transformation", is when the new morphospecies is a result of rapid evolution in the ancestral form without speciation taking place, such that there are no remaining other populations of the ancestor species and the species can be considered extinct. The ancestor species is therefore superseded by the new species it morphs into. Anagenesis is in contrast to the branching speciation known as cladogenesis. Anagenesis rejects animals related by convergent evolution and unlike the study of behavioral homologies permits the inclusion of animals related by parallel evolution (Yarczower & Hazlett 1977).

However, the Punctuated Equilibria Hypothesis was proposed, which explained the gradual direction of phyletic change. Under this hypothesis, phyletic transformation is almost meaningless, because if it is correct, lineages do not change during its lifetime, they remain static until speciation occurs so that anagenesis is not possible (Gutman & Altava 2008).

Recent evolutionary studies are looking at anagenesis and cladogeneis for possible answers in developing the hominin phylogenetic tree to understand morphological diversity and the origins of "Australopithecus anamensis", and this case could possibly show anagenesis in the fossil record (Kimbel et al. 2006).

When enough mutations have occurred and become stable in a population so that it is significantly differentiated from an ancestral population, a new species name may be assigned. A series of such species is collectively known as an evolutionary lineage.^[1]^[2] The various species along an evolutionary lineage are chronospecies. If the ancestral population of a chronospecies does not go extinct, then this is cladogenesis, and the ancestral population represent a paraphyletic species or paraspecies, being an evolutionary grade. This situation is quite common in species with widespread populations.

It is easy to see from this definition how controversy can arise among taxonomists as to when the differences are significant enough to warrant a new species classification: Anagenesis may also be referred to as "gradual evolution".

The philosopher of science Marc Ereshefsky argues that paraphyletic taxa are the result of anagenesis.^{[citation needed]} The lineage leading to birds has diverged significantly from lizards and crocodiles, allowing evolutionary taxonomists to classify birds separately from lizards and crocodiles, which are grouped as reptiles.^[3]

Regarding social evolution, it has been suggested that social anagenesis/aromorphosis be viewed as universal or widely diffused social innovation that raises social systems' complexity, adaptability, integrity, and interconnectedness.^[4]

Notes

↑ The University of California, Berkeley resource on understanding evolution defines a lineage as "A continuous line of descent; a series of organisms, populations, cells, or genes connected by ancestor/descendent relationships." Understanding Evolution, Glossary of Terms
↑ The Oxford English Dictionary defines biological lineage as "a sequence of species each of which is considered to have evolved from its predecessor."OED definition of lineage
↑ Lua error in package.lua at line 80: module 'strict' not found.
↑ Leonid Grinin & Andrey Korotayev. Social Macroevolution: Growth of the World System Integrity and a System of Phase Transitions. World Futures, Volume 65, Issue 7 October 2009 , pages 477 - 506; Aromorphoses in Biological аnd Social Evolution: Some General Rules for Biological and Social Forms of Macroevolution in Social Evolution & History (Vol. 8 No. 2, September 2009: 6-50).

External links

Diagram contrasting Anagenesis and Cladogenesis from the University of Newfoundland

This evolution-related article is a stub. You can help Wikipedia by expanding it.

[1] The University of California, Berkeley resource on understanding evolution defines a lineage as "A continuous line of descent; a series of organisms, populations, cells, or genes connected by ancestor/descendent relationships." Understanding Evolution, Glossary of Terms

[2] The Oxford English Dictionary defines biological lineage as "a sequence of species each of which is considered to have evolved from its predecessor."OED definition of lineage

[3] Lua error in package.lua at line 80: module 'strict' not found.

[4] Leonid Grinin & Andrey Korotayev. Social Macroevolution: Growth of the World System Integrity and a System of Phase Transitions. World Futures, Volume 65, Issue 7 October 2009 , pages 477 - 506; Aromorphoses in Biological аnd Social Evolution: Some General Rules for Biological and Social Forms of Macroevolution in Social Evolution & History (Vol. 8 No. 2, September 2009: 6-50).

[1]

[2]

[3]

[4]

v t e Evolutionary biology
Evolutionary history of life Index of evolutionary biology articles Outline of evolution Timeline of evolution
Evolution	Abiogenesis Adaptation Common descent Evidence of common descent Extinction Last universal ancestor Macroevolution Microevolution Panspermia Speciation
Population genetics	Gene flow Genetic drift Mutation Natural selection
Development	Canalisation Evolutionary developmental biology Inversion Modularity Phenotypic plasticity
Evolution of taxa	Birds origin Brachiopods Cephalopods Dinosaurs Fish Fungi Insects butterflies Life Mammals cats dogs dolphins and whales horses humans lemur sea cows Molluscs Plants Reptiles Spiders Tetrapods Viruses influenza
Evolution of organs	Cell DNA Flagella In eukaryotes eucaryote cell chromatin endomembrane system mitochondria nucleus plastids In animals eye hair auditory ossicle nervous system brain
Evolution of processes	Aging Death Programmed cell death Avian flight Biological complexity Cooperation Color vision in primates Emotion Empathy Ethics Eusociality Immune system Metabolism Monogamy Morality Mosaic evolution Multicellularity Sexual reproduction Gamete differentiation/sexes Life cycles/nuclear phases Mating types Sex-determination
Tempo and modes	Tempo phyletic gradualism/punctuated equilibrium Modes gradualism/saltationism micromutation/macromutation uniformitarianism/catastrophism
Modes of speciation	Allopatric Anagenesis Catagenesis Cladogenesis Hybrid speciation Parapatric Peripatric Sympatric
Related topics	Ecological genetics Molecular evolution Phylogenetics Polymorphism Protocell Systematics
History	Biological classification Charles Darwin On the Origin of Species Gene-centered view History of evolutionary thought Modern evolutionary synthesis Extended Evolutionary Synthesis
Category Commons Portal WikiProject

v t e Extinction
List of recently extinct species
Phenomena	Background extinction rate Coextinction De-extinction Ecological extinction Extinct in the wild Functional extinction Genetic pollution Lazarus taxon Local extinction Pseudoextinction
Models	Extinction vortex
Causes	Genetic erosion Habitat destruction Human overpopulation Muller's ratchet Mutational meltdown Overexploitation
Theories and concepts	Extinction debt Extinction risk from global warming Extinction threshold Field of Bullets Hypothetical species Latent extinction risk
Extinction events	Timeline of extinctions Ordovician–Silurian Late Devonian Permian–Triassic Triassic–Jurassic Cretaceous–Paleogene Quaternary Holocene
Extinct species	Lists of extinct species List of extinct animals List of extinct plants IUCN Red List extinct species
Organizations	International Union for Conservation of Nature IUCN Species Survival Commission Voluntary Human Extinction Movement
See also	Decline in amphibian populations Human extinction
Category Portal WikiProject Commons

Anagenesis

See also

Notes

External links

Navigation menu

Personal tools

Namespaces

Variants

Views

More

Search

Navigation

Tools