Anagenesis

"Phyletic evolution" redirects here. You may be looking for phyletic gradualism.

Anagenesis, also known as "phyletic change," is the evolution of species involving an entire population rather than a branching event, as in cladogenesis. 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 key point is that the entire population is different from the ancestral population such that the ancestral population can be considered extinct. A series of such species is collectively known as an evolutionary lineage.^[1]^[2]

It is easy to see from the preceding definition how controversy can arise among taxonomists 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 anagensis. 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
^ Ereshefsky, M. (2001), "Philosophy of Biological Classification", Encyclopedia of Life Sciences, Wiley-Blackwell, doi:10.1038/npg.els.0003447
^ 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

Basic topics in evolutionary biology

Evidence of common descent

Processes of evolution	Adaptation · Macroevolution · Microevolution · Speciation

Population genetic mechanisms	Genetic drift · Gene flow · Mutation · Natural selection

Evolutionary developmental biology (Evo-devo) concepts	Canalisation · Inversion · Modularity · Phenotypic plasticity

Evolution of organs and biological processes	Aging · Avian flight · Cellular · DNA · Eye · Flagella · Hair · Human intelligence · Mammalian auditory ossicles · Mosaic evolution · Multicellular · Nervous Systems · Sex

Taxa evolution	Birds · Butterflies · Cats · Cephalopods · Dinosaurs · Dogs · Dolphins and whales · Fish · Fungi · Horses · Humans · Influenza · Insects · Lemur · Life · Mammals · Molluscs · Plants · Reptiles · Sirenians (sea cows) · Spiders · Viruses

Modes of speciation	Anagenesis · Catagenesis · Cladogenesis

History of evolutionary thought	Charles Darwin · On the Origin of Species · Modern evolutionary synthesis · Gene-centered view of evolution · Life (classification trees)

Other subfields	Ecological genetics · Molecular evolution · Phylogenetics · Systematics

List of evolutionary biology topics · Timeline of evolution

Anagenesis

See also

Notes

External links