phylogeny

(noun)

the evolutionary history of an organism

Related Terms

(noun)

the visual representation of the evolutionary history of organisms; based on rigorous analyses

Related Terms

Examples of phylogeny in the following topics:

  • Superphylum Ecdysozoa

    • There are two main hypotheses about the phylogeny of the Ecdysozoans.
    • The other idea about the phylogeny of the Ecdysozoa is called the coelomate hypothesis.

  • Genomic Similiarities between Distant Species

    • Phylogeny describes the relationships of an organism, such as the relationship with its ancestors and the species it is most closely related.
    • Genes have been shown to be passed between species which are only distantly related using standard phylogeny, thus adding a layer of complexity to the understanding of phylogenetic relationships.
    • The various ways that HGT occurs in prokaryotes is important to understanding phylogenies.

  • Horizontal Gene Transfer

    • These transfers allow even distantly-related species (using standard phylogeny) to share genes, influencing their phenotypes.
    • These transfers allow even distantly-related species (using standard phylogeny) to share genes, influencing their phenotypes.
    • Explain how horizontal gene transfer can make resolution of phylogenies difficult

  • Distinguishing between Similar Traits

    • Scientists must determine which type of similarity a feature exhibits to decipher the phylogeny of the organisms being studied.
    • Ultimately, the coupled use of both morphologic and molecular information is more effective in determining phylogeny.

  • Constructing an Animal Phylogenetic Tree

    • Evolutionary trees, or phylogeny, is the formal study of organisms and their evolutionary history with respect to each other.
    • Phylogeny is evolutionary history shown by the relationships found when comparing polymeric molecules such as RNA, DNA, or proteins of various organisms.

  • Measuring Biodiversity

    • It differs from molecular phylogeny in that the main goal is not to determine patterns of relationship, but to identify an unknown sample in terms of a preexisting classification.

  • Limitations to the Classic Model of Phylogenetic Trees

    • Genes have been shown to be passed between species which are only distantly related using standard phylogeny, thus adding a layer of complexity to the understanding of phylogenetic relationships.

  • The Diversity of Life

    • The evolution of various life forms on Earth can be summarized in a phylogenetic tree using phylogeny .

  • Web, Network, and Ring of Life Models

    • Others have proposed abandoning any tree-like model of phylogeny in favor of a ring structure.

  • The Levels of Classification

    • Historically, scientists classified organisms using physical characteristics, but as DNA technology developed, more precise phylogenies have been determined.