| • Science | • People | • Locations | • Timeline |
| Contents | ||
The species descriptor should be an adjective that differentiates a species from other members of a genus. The genus name and species descriptor are usually derived from Latin, although Latin derivation is not universal. Names sometimes come from Ancient Greek, or from local languages, or from the name of the person who first discovered the species. In fact, taxonomists come up with species names from a variety of sources, including in-jokes and puns. However, names are always treated grammatically as if they were Latin words. For this reason the binomial name of a species is sometimes called its "Latin name," although this terminology is frowned upon by biologists. The term scientific name, however, is considered acceptable. There is a separate list of Latin and Greek words commonly used in systematic names.
The value of the binomial system derives primarily from its economy and its widespread use:
The procedures associated with establishing binomial nomenclature tend to favor stability. In particular, when species are transferred between genera (as not uncommonly happens as a result of new knowledge), if possible the species descriptor is kept the same. Similarly if what were previously thought to be distinct species are found to belong to the same species, former species names may be retained as subspecies terms.
However, such stability as exists is far from absolute. A single organism may have several scientific names in circulation, depending on opinion (see synonymy), conservation according to nomenclature code s, and new findings based on molecular phylogenyMolecular phylogeny is the use of a gene's molecular characteristics to classify an organism and to place it on a map of evolutionary relationships known as the phylogenetic tree. Every living organism is composed of certain substances such as DNA, RNA, a. Another source of instability is the rule that nomenclature should respect priority of discovery.
Nomenclature code s rule the naming of plantGreen algae land plants (embryophytes non-vascular embryophytes Hepatophyta liverworts Anthocerophyta hornworts Bryophyta mosses vascular plants (tracheophytes seedless vascular plants Lycopodiophyta clubmosses Equisetophyta horsetails Pteridophyta "true"s (incl. FungiChytridiomycota Zygomycota Ascomycota Basidiomycota The Fungi (singular: fungus are a large group of organisms ranked as a kingdom within the Domain Eukaryota. Included are the conspicuous mushrooms, but also many microscopic forms such as molds and yeast, cyanobacteriaCyanobacteria are a phylum of aquatic bacteria that obtain their energy through photosynthesis. They are often referred to as blue-green algae even though it is now known that they are not related to any of the other algal groups, which are all eukaryotes) / cultivated plants / animalSubkingdom Parazoa Porifera (sponges) Subkingdom " Agnotozoa" Placozoa Orthonectida Rhombozoa Subkingdom Metazoa "Radiata" Cnidaria Ctenophora (comb jellies) Bilateria Protostomia Acoelomorpha Platyhelminthes (flatworms) Nemertina (ribbon worms) Gastrotris / bacteria / viruses. These codes differ. For example, the ICBN (plant) nomenclature does not allow tautonymy, whereas the ICZN (animal) code allows it. A BioCode has been suggested to replace several codes, but there also is debate concerning development of a PhyloCode to name clades of phylogenetic trees.