A genus (//, pl. genera //) is a taxonomic rank used in the biological classification of living and fossil organisms, as well as viruses, in biology. In the hierarchy of biological classification, genus comes above species and below family. In binomial nomenclature, the genus name forms the first part of the binomial species name for each species within the genus.
- E.g. Panthera leo (lion) and Panthera onca (jaguar) are two species within the genus Panthera. Panthera is a genus within the family Felidae.
The composition of a genus is determined by a taxonomist. The standards for genus classification are not strictly codified, so different authorities often produce different classifications for genera. There are some general practices used, however, including the idea that a newly defined genus should fulfill these three criteria to be descriptively useful:
- monophyly – all descendants of an ancestral taxon are grouped together (i.e. phylogenetic analysis should clearly demonstrate both monophyly and validity as a separate lineage).
- reasonable compactness – a genus should not be expanded needlessly; and
- distinctness – with respect to evolutionarily relevant criteria, i.e. ecology, morphology, or biogeography; DNA sequences are a consequence rather than a condition of diverging evolutionary lineages except in cases where they directly inhibit gene flow (e.g. postzygotic barriers).
Moreover, genera should be composed of phylogenetic units of the same kind as other (analogous) genera.
The term comes from the Latin genus ("origin, type, group, race"), a noun form cognate with gignere ("to bear; to give birth to"). Linnaeus popularized its use in his 1753 Species Plantarum, but the French botanist Joseph Pitton de Tournefort (1656–1708) is considered "the founder of the modern concept of genera".
The scientific name of a genus is also called the generic name; it is always capitalised. It plays a pivotal role in binomial nomenclature, the system of naming organisms, where it is combined with a specific epithet.
Use in nomenclatureEdit
The rules for the scientific names of organisms are laid down in the Nomenclature Codes, which allow each species a single unique name that, for "animals" (including protists), "plants" (also including algae and fungi) and prokaryotes (Bacteria and Archaea), is Latin and binomial in form; this contrasts with common or vernacular names, which are non-standardized, can be non-unique, and typically also vary by country and language of usage. Except for viruses, the standard format for a species name comprises the generic name, indicating the genus to which the species belongs, followed by the specific epithet, which (within that genus) is unique to the species. For example, the gray wolf's scientific name is Canis lupus, with Canis (Lat. "dog") being the generic name shared by the wolf's close relatives and lupus (Lat. "wolf") being the specific name particular to the wolf; a botanical example would be Hibiscus arnottianus, a particular species of the genus Hibiscus native to Hawaii. The specific name is written in lower-case and may be followed by subspecies names in zoology or a variety of infraspecific names in botany. When the generic name is already known from context, it may be shortened to its initial letter, for example C. lupus in place of Canis lupus. Where species are further subdivided, the generic name (or its abbreviated form) still forms the leading portion of the scientific name, for example Canis lupus familiaris for the domestic dog (when considered a subspecies of the gray wolf) in zoology, or as a botanical example, Hibiscus arnottianus ssp. immaculatus. Also, as visible in the above examples, the Latinised portions of the scientific names of genera and their included species (and infraspecies, where applicable) are, by convention, written in italics.
The scientific names of virus species are descriptive, not binomial in form, and may or may not incorporate an indication of their containing genus; for example the virus species "Salmonid herpesvirus 1", "Salmonid herpesvirus 2" and "Salmonid herpesvirus 3" are all within the genus Salmonivirus, however the genus to which the species with the formal names "Everglades virus" and "Ross River virus" are assigned is Alphavirus.
As with scientific names at other ranks, in all groups other than viruses, names of genera may be cited with their authorities, typically in the form "author, year" in zoology, and "standard abbreviated author name" in botany. Thus in the examples above, the genus Canis would be cited in full as "Canis Linnaeus, 1758" (zoological usage), while Hibiscus, also first established by Linnaeus but in 1753, is simply "Hibiscus L." (botanical usage).
The type conceptEdit
Each genus should have a designated type, although in practice there is a backlog of older names without one. In zoology, this is the type species and the generic name is permanently associated with the type specimen of its type species. Should the specimen turn out to be assignable to another genus, the generic name linked to it becomes a junior synonym and the remaining taxa in the former genus need to be reassessed.
Categories of generic nameEdit
In zoological usage, taxonomic names, including those of genera, are classified as "available" or "unavailable". Available names are those published in accordance with the International Code of Zoological Nomenclature and not otherwise suppressed by subsequent decisions of the International Commission on Zoological Nomenclature (ICZN); the earliest such name for any taxon (for example, a genus) should then be selected as the "valid" (=current, or accepted) name for the taxon in question. It therefore follows that there will be more available names than valid names at any point in time, which names are currently in use depending on the judgement of taxonomists in either either combining taxa described under multiple names, or splitting taxa which may bring available names previously treated as synonyms back into use. "Unavailable" names in zoology comprise names that either were not published according to the provisions of the ICZN Code, or have subsequently been suppressed; they include (for example) incorrect original or subsequent spellings, names published only in a thesis, generic names published after 1930 with no type species indicated, and more.
In botany, similar concepts exist but with different labels. The botanical equivalent of zoology's "available name" is a validly published name. An invalidly published name is a nomen invalidum or nom. inval.; a rejected name is a nomen rejiciendum or nom. rej.; a later homonym of a validly published name is a nomen illegitimum or nom. illeg.; for a full list refer the International Code of Nomenclature for algae, fungi, and plants (ICNafp) and the work cited above by Hawksworth, 2010. In place of the "valid taxon" in zoology, the nearest equivalent in botany is "correct name" or "current name" which can, again, differ or change with alternative taxonomic treatments or new information that results in previously accepted genera being combined or split.
Prokaryote and virus Codes of Nomenclature also exist which serve as a reference for designating currently accepted genus names as opposed to others which may be either reduced to synonymy, or, in the case of prokaryotes, relegated to a status of "names without standing in prokaryotic nomenclature".
An available (zoology) or validly published (botany) name that has been historically applied to a genus but is not regarded as the accepted (current/valid) name for the taxon is termed a synonym; some authors also include unavailable names in lists of synonyms as well as available names, such as misspellings, names previously published without fulfilling all of the requirements of the relevant nomenclatural Code, and rejected or suppressed names. A particular genus name may have zero to many synonyms, the latter case generally if the genus has been known for a long time and redescribed as new by a range of subsequent workers, or if a range of genera previously considered separate taxa have subsequently been consolidated into one. For example, the World Register of Marine Species presently lists 8 genus-level synonyms for the sperm whale genus Physeter Linnaeus, 1758, and 13 for the bivalve genus Pecten O.F. Müller, 1776.
Identical names (homonyms)Edit
Within the same kingdom one generic name can apply to one genus only. However, many names have been assigned (usually unintentionally) to two or more different genera. For example, the platypus belongs to the genus Ornithorhynchus although George Shaw named it Platypus in 1799 (these two names are thus synonyms). However, the name Platypus had already been given to a group of ambrosia beetles by Johann Friedrich Wilhelm Herbst in 1793. A name that means two different things is a homonym. Since beetles and platypuses are both members of the kingdom Animalia, the name could not be used for both. Johann Friedrich Blumenbach published the replacement name Ornithorhynchus in 1800.
However, a genus in one kingdom is allowed to bear a scientific name that is in use as a generic name (or the name of a taxon in another rank) in a kingdom that is governed by a different nomenclature code. Names with the same form but applying to different taxa are called "homonyms". Although this is discouraged by both the International Code of Zoological Nomenclature and the International Code of Nomenclature for algae, fungi, and plants, there are some five thousand such names in use in more than one kingdom. For instance,
- Anura is the name of the order of frogs but also is the name of a non-current genus of plants;
- Aotus is the generic name of both golden peas and night monkeys;
- Oenanthe is the generic name of both wheatears and water dropworts;
- Prunella is the generic name of both accentors and self-heal; and
- Proboscidea is the order of elephants and the genus of devil's claws.
- The name of the genus Paramecia (an extinct red alga) is also the plural of the name of the genus Paramecium (which is in the SAR supergroup), which can also lead to confusion.
A list of generic homonyms (with their authorities), including both available (validly published) and selected unavailable names, has been compiled by the Interim Register of Marine and Nonmarine Genera (IRMNG).
Use in higher classificationsEdit
The type genus forms the base for higher taxonomic ranks, such as the family name Canidae ("Canids") based on Canis. However, this does not typically ascend more than one or two levels: the order to which dogs and wolves belong is Carnivora ("Carnivores").
Numbers of accepted generaEdit
The numbers of either accepted, or all published genus names is not known precisely although the latter value has been estimated by Rees et al., 2017 at approximately 510,000 as at end 2016, increasing at some 2,500 per year. "Official" registers of taxon names at all ranks, including genera, exist for a few groups only such as viruses and prokaryotes, while for others there are compendia with no "official" standing such as Index Fungorum for Fungi, Index Nominum Algarum and AlgaeBase for algae, Index Nominum Genericorum and the International Plant Names Index for plants in general, and ferns through angiosperms, respectively, and Nomenclator Zoologicus and the Index to Organism Names for zoological names.
A deduplicated list of genus names covering all taxonomic groups, compiled from resources such as the above as well as other literature sources, created as the "Interim Register of Marine and Nonmarine Genera" (IRMNG), is estimated to contain around 95% of all published names at generic level, and lists approximately 490,100 genus names in its March 2019 release; of these, approx. 265,500 are presently flagged "accepted" (including both extant and fossil taxa), 127,500 as unaccepted for a range of reasons, and an additional 126,000 not yet assessed for taxonomic status. Included in the 265,500 accepted, extant plus fossil genus names in the March 2019 edition of IRMNG are 188,158 genera of animals (kingdom Animalia), 21,935 Plantae (land plants and non-Chromistan algae), 10,231 Fungi, 9,989 Chromista, 1,963 Protozoa, 3,387 Prokaryotes (3,247 Bacteria plus 140 Archaea) and 851 Viruses, although totals for some eukaryote groups will be an underestimate since the present "uncertain" (=unassessed) category (which contains largely animal and protozoan genus names) contains a mix of names that should ultimately be allocated either to "accepted" and "unaccepted" upon further investigation.
By comparison, the 2018 annual edition of the Catalogue of Life (estimated >90% complete, for extant species in the main) contains currently 175,363 "accepted" genus names for 1,744,204 living and 59,284 extinct species, also including genus names only (no species) for some groups.
The number of species in genera varies considerably among taxonomic groups. For instance, among (non-avian) reptiles, which have about 1180 genera, the most (>300) have only 1 species, ~360 have between 2 and 4 species, 260 have 5-10 species, ~200 have 11-50 species, and only 27 genera have more than 50 species (see figure). However, some insect genera such as the bee genera Lasioglossum and Andrena have over 1000 species each. The largest flowering plant genus, Astragalus, contains over 3,000 species.
Which species are assigned to a genus is somewhat arbitrary. Although all species within a genus are supposed to be "similar" there are no objective criteria for grouping species into genera. There is much debate among zoologists whether large, species-rich genera should be maintained, as it is extremely difficult to come up with identification keys or even character sets that distinguish all species. Hence, many taxonomists argue in favor of breaking down large genera. For instance, the lizard genus Anolis has been suggested to be broken down into 8 or so different genera which would bring its ~400 species to smaller, more manageable subsets.
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- Sigward, J. D.; Sutton, M. D.; Bennett, K. D. (2018). "How big is a genus? Towards a nomothetic systematics". Zoological Journal of the Linnean Society. 183 (2): 237–252. doi:10.1093/zoolinnean/zlx059.
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- Merriam Webster Dictionary
- Stuessy, T. F. (2009). Plant Taxonomy: The Systematic Evaluation of Comparative Data (2nd ed.). New York: Columbia University Press. p. 42. ISBN 9780231147125.
- D. L. Hawksworth (2010). Terms Used in Bionomenclature: The Naming of Organisms and Plant Communities : Including Terms Used in Botanical, Cultivated Plant, Phylogenetic, Phytosociological, Prokaryote (bacteriological), Virus, and Zoological Nomenclature. GBIF. pp. 1–215. ISBN 978-87-92020-09-3.
- World Register of Marine Species: Physeter Linnaeus, 1758
- World Register of Marine Species: Pecten O. F. Müller, 1776
- "IRMNG: Interim Register of Marine and Nonmarine Genera". www.irmng.org. Retrieved 2016-11-17.
- Rees, Tony; Vandepitte, Leen; Decock, Wim; Vanhoorne, Bart (2017). "IRMNG 2006–2016: 10 Years of a Global Taxonomic Database". Biodiversity Informatics. 12: 1–44. doi:10.17161/bi.v12i0.6522.
- List of Prokaryotic names with Standing in Nomenclature
- Index Fungorum
- Index Nominum Algarum
- Index Nominum Genericorum
- The International Plant Names Index
- Nomenclator Zoologicus
- Index to Organism Names
- Information: Catalogue of Life: 2018 Annual Checklist
- The Reptile Database
- Frodin, David G. (2004). "History and concepts of big plant genera". Taxon. 53 (3): 753–776. doi:10.2307/4135449. JSTOR 4135449.
- Nicholson, K. E.; Crother, B. I.; Guyer, C.; Savage, J.M. (2012). "It is time for a new classification of anoles (Squamata: Dactyloidae)" (PDF). Zootaxa. 3477: 1–108.