Homoplasy: Difference between revisions
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{{Short description|An overview of homoplasy in evolutionary biology}} | |||
== | ==Homoplasy== | ||
[[File:Apomorphy_-_Homoplasy.svg|thumb|right|Diagram illustrating homoplasy and apomorphy]] | |||
'''Homoplasy''' refers to a phenomenon in evolutionary biology where a trait has evolved independently in different species, not due to shared ancestry but rather as a result of convergent evolution, parallel evolution, or evolutionary reversals. This can lead to similarities in traits among species that do not share a recent common ancestor. | |||
==Types of Homoplasy== | ==Types of Homoplasy== | ||
Homoplasy can occur through several mechanisms: | |||
===Convergent Evolution=== | ===Convergent Evolution=== | ||
Convergent evolution occurs when different species | Convergent evolution occurs when different species evolve similar traits independently, often because they have adapted to similar environments or ecological niches. An example of convergent evolution is the development of wings in bats and birds. | ||
===Parallel Evolution=== | ===Parallel Evolution=== | ||
Parallel evolution | Parallel evolution happens when two related species evolve in similar ways for a long period of time in response to similar environmental pressures. An example is the similar development of resistance to a particular pesticide in different populations of insects. | ||
=== | ===Evolutionary Reversals=== | ||
Evolutionary reversals occur when a species reverts to a trait that was present in an ancestor but was lost in intermediate generations. This can result in a trait appearing to be similar in two species, even though it was not present in their most recent common ancestor. | |||
== | ==Distinguishing Homoplasy from Homology== | ||
Homoplasy | Homoplasy is often contrasted with [[homology]], which refers to traits inherited by two different species from a common ancestor. While homology indicates a shared evolutionary history, homoplasy indicates independent evolutionary paths. | ||
== | ==Significance in Phylogenetics== | ||
* [[ | In [[phylogenetics]], homoplasy can complicate the reconstruction of evolutionary relationships because it can lead to the incorrect assumption that species with similar traits are closely related. Phylogeneticists must carefully analyze traits to determine whether they are homologous or homoplastic. | ||
==Related pages== | |||
* [[Convergent evolution]] | |||
* [[Parallel evolution]] | |||
* [[Evolutionary biology]] | * [[Evolutionary biology]] | ||
* [[Phylogenetics]] | * [[Phylogenetics]] | ||
* [[Homology (biology)]] | |||
[[Category:Evolutionary biology]] | [[Category:Evolutionary biology]] | ||
Latest revision as of 12:09, 15 February 2025
An overview of homoplasy in evolutionary biology
Homoplasy[edit]
Homoplasy refers to a phenomenon in evolutionary biology where a trait has evolved independently in different species, not due to shared ancestry but rather as a result of convergent evolution, parallel evolution, or evolutionary reversals. This can lead to similarities in traits among species that do not share a recent common ancestor.
Types of Homoplasy[edit]
Homoplasy can occur through several mechanisms:
Convergent Evolution[edit]
Convergent evolution occurs when different species evolve similar traits independently, often because they have adapted to similar environments or ecological niches. An example of convergent evolution is the development of wings in bats and birds.
Parallel Evolution[edit]
Parallel evolution happens when two related species evolve in similar ways for a long period of time in response to similar environmental pressures. An example is the similar development of resistance to a particular pesticide in different populations of insects.
Evolutionary Reversals[edit]
Evolutionary reversals occur when a species reverts to a trait that was present in an ancestor but was lost in intermediate generations. This can result in a trait appearing to be similar in two species, even though it was not present in their most recent common ancestor.
Distinguishing Homoplasy from Homology[edit]
Homoplasy is often contrasted with homology, which refers to traits inherited by two different species from a common ancestor. While homology indicates a shared evolutionary history, homoplasy indicates independent evolutionary paths.
Significance in Phylogenetics[edit]
In phylogenetics, homoplasy can complicate the reconstruction of evolutionary relationships because it can lead to the incorrect assumption that species with similar traits are closely related. Phylogeneticists must carefully analyze traits to determine whether they are homologous or homoplastic.
