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Nomenclature codes

February 15, 2024

See also: International Code of Area Nomenclature and International Code of Phytosociological Nomenclature

Nomenclature codes or codes of nomenclature are the various rulebooks that govern the naming of living organisms. Standardizing the scientific names of biological organisms allows researchers to discuss findings (including the discovery of new species).

As the study of biology became increasingly specialized, specific codes were adopted for different types of organism.

To an end-user who only deals with names of species, with some awareness that species are assignable to genera, families, and other taxa of higher ranks, it may not be noticeable that there is more than one code, but beyond this basic level these are rather different in the way they work.

Binomial Nomenclature edit

Main article: Binomial Nomenclature

In taxonomy, binomial nomenclature ("two-term naming system"), also called binary nomenclature, is a formal system of naming species of living things by giving each a name composed of two parts, both of which use Latin grammatical forms, although they can be based on words from other languages. Such a name is called a binomial name (which may be shortened to just "binomial"), a binomen, binominal name, or a scientific name; more informally it is also historically called a Latin name. In the ICZN, the system is also called binominal nomenclature,[1] "binomi'N'al" with an "N" before the "al", which is not a typographic error, meaning "two-name naming system".[2]

The first part of the name – the generic name – identifies the genus to which the species belongs, whereas the second part – the specific name or specific epithet – distinguishes the species within the genus. For example, modern humans belong to the genus Homo and within this genus to the species Homo sapiens. Tyrannosaurus rex is likely the most widely known binomial.[3]

The formal introduction of this system of naming species is credited to Carl Linnaeus, effectively beginning with his work Species Plantarum in 1753.[4] But as early as 1622, Gaspard Bauhin introduced in his book Pinax theatri botanici (English, Illustrated exposition of plants) containing many names of genera that were later adopted by Linnaeus.[5] The introduction of two-part names (binominal nomenclature) for species by Linnaeus was a welcome simplification because as our knowledge of biodiversity expanded, so did the length of the names, many of which had become unwieldy.[6]

Codification of Scientific Names edit

With all naturalists worldwide adopting binominal nomenclature, there arose several schools of thought about the details. It became ever more apparent that a detailed body of rules was necessary to govern scientific names. From the mid-19th century onwards, there were several initiatives to arrive at worldwide-accepted sets of rules. Presently nomenclature codes govern the naming of:

Differences between codes edit

Starting point edit

The starting point, that is the time from which these codes are in effect (usually retroactively), varies from group to group, and sometimes from rank to rank.[7] In botany and mycology, the starting point is often 1 May 1753 (Linnaeus, Species plantarum). In zoology, it is 1 January 1758 (Linnaeus, Systema Naturae, 10th Edition). On the other hand, bacteriology started anew, making a clean sweep in 1980 (Skerman et al., "Approved Lists of Bacterial Names"), although maintaining the original authors and dates of publication.[8]

Exceptions in botany:[9][10][11]

Exceptions in zoology:[13]

Workings edit

There are also differences in the way codes work. For example, the ICN (the code for algae, fungi and plants) forbids tautonyms, while the ICZN, (the animal code) allows them.

Terminology edit

These codes differ in terminology, and there is a long-term project to "harmonize" this. For instance, the ICN uses "valid" in "valid publication of a name" (=the act of publishing a formal name), with "establishing a name" as the ICZN equivalent. The ICZN uses "valid" in "valid name" (="correct name"), with "correct name" as the ICN equivalent. Harmonization is making very limited progress.

Types edit

There are differences in respect of what kinds of types are used. The bacteriological code prefers living type cultures, but allows other kinds. There has been ongoing debate regarding which kind of type is more useful in a case like cyanobacteria.[14]

Other codes edit

BioCode edit

A more radical approach was made in 1997 when the IUBS/IUMS International Committee on Bionomenclature (ICB) presented the long debated Draft BioCode, proposed to replace all existing Codes with an harmonization of them.[15][16] The originally planned implementation date for the BioCode draft was January 1, 2000, but agreement to replace the existing Codes was not reached.

In 2011, a revised BioCode was proposed that, instead of replacing the existing Codes, would provide a unified context for them, referring to them when necessary.[17][18][19] Changes in the existing codes are slowly being made in the proposed directions.[20][21] However, participants of the last serious discussion of the draft Biocode concluded that it would probably not be implemented in their lifetimes.[22]

PhyloCode edit

Main article: PhyloCode

Many authors encountered problems in using the Linnean system in phylogenetic classification.[23] In fact, early proponents of rank-based nomenclature, such as Alphonse de Candolle and the authors of the 1886 version of the American Ornithologists' Union code of nomenclature already envisioned that in the future, rank-based nomenclature would have to be abandoned.[24][6] Another Code that was developed since 1998 is the PhyloCode, which now regulates names defined under phylogenetic nomenclature instead of the traditional Linnaean nomenclature. This new approach requires using phylogenetic definitions that refer to "specifiers", analogous to "type" under rank-based nomenclature. Such definitions delimit taxa under a given phylogeny, and this kind of nomenclature does not require use of absolute ranks. The Code took effect in 2020, with the publication of Phylonyms, a monograph that includes a list of the first names established under that code.

Ambiregnal protists edit

Some protists, sometimes called ambiregnal protists, have been considered to be both protozoa and algae, or protozoa and fungi, and names for these have been published under either or both of the ICZN and the ICN.[25][26] The resulting double language throughout protist classification schemes resulted in confusion.[27][28][29]

Groups claimed by both protozoologists and phycologists include euglenids, dinoflagellates, cryptomonads, haptophytes, glaucophytes, many heterokonts (e.g., chrysophytes, raphidophytes, silicoflagellates, some xanthophytes, proteromonads), some monadoid green algae (volvocaleans and prasinophytes), choanoflagellates, bicosoecids, ebriids and chlorarachniophytes.

Slime molds, plasmodial forms and other "fungus-like" organisms claimed by both protozoologists and mycologists include mycetozoans, plasmodiophorids, acrasids, and labyrinthulomycetess. Fungi claimed by both protozoologists and mycologists include chytrids, blastoclads, and the gut fungi.

Other problematic groups are the Cyanobacteria (ICNP/ICN) and Microsporidia (ICZN/ICN).

Unregulated taxa edit

The zoological code does not regulate names of taxa lower than subspecies or higher than superfamily. There are many attempts to introduce some order on the nomenclature of these taxa,[30][31] including the PhyloCode, the Duplostensional Nomenclatural System,[32][33] and circumscriptional nomenclature.[34][35]

The botanical code is applied primarily to the ranks of superfamily and below. There are some rules for names above the rank of superfamily, but the principle of priority does not apply to them, and the principle of typification is optional. These names may be either automatically typified names or be descriptive names.[36][37] In some circumstances, a taxon has two possible names (e.g., Chrysophyceae Pascher, 1914, nom. descrip.; Hibberd, 1976, nom. typificatum). Descriptive names are problematic, once that, if a taxon is split, it is not obvious which new group takes the existing name. Meanwhile, with typified names, the existing name is taken by the new group that still bears the type of this name. However, typified names present special problems for microorganisms.[29]

See also edit

References edit

  1. ^ International Commission on Zoological Nomenclature 1999, Chapter 2, Article 5. Principle of Binominal Nomenclature ("Article 5. Principle of Binominal Nomenclature | International Code of Zoological Nomenclature". from the original on 29 March 2023. Retrieved 29 March 2023.)
  2. ^ International Commission on Zoological Nomenclature 1999, Glossary – "binomen", "nomenclature, binominal" ("Glossary | International Code of Zoological Nomenclature". from the original on 6 February 2023. Retrieved 29 March 2023.)
  3. ^ Busby, Arthur III; et al. (1997). A Guide to Rocks and Fossils. p. 103.
  4. ^ Knapp, Sandra. . NHM.ac.uk. Natural History Museum, London. Archived from the original on 18 October 2014. Retrieved 17 June 2011.
  5. ^ Bauhin, Gaspard. "Pinax theatri botanici". Kyoto University Library. from the original on 17 October 2016. Retrieved 19 June 2016.
  6. ^ a b Laurin, Michel (3 August 2023). The Advent of PhyloCode: The Continuing Evolution of Biological Nomenclature. CRC Press. doi:10.1201/9781003092827. ISBN 978-1-003-09282-7.
  7. ^ Nicolson, Dan (1991). "A history of botanical nomenclature". Annals of the Missouri Botanical Garden. 78 (1): 33–56. doi:10.2307/2399589. JSTOR 2399589.
  8. ^ Skerman, V. B. D.; McGowan, V.; Sneath, P. H. A. (1980). "Approved lists of bacterial names". Int. J. Syst. Bacteriol. 30: 225–420. doi:10.1099/00207713-30-1-225.
  9. ^ Chitwood, B. G. (1958). "The designation of official names for higher taxa of invertebrates". Bull. Zool. Nomencl. 15: 860–895. doi:10.5962/bhl.part.19410.
  10. ^ Silva, P. C. (1958). "Later starting points in algae" (PDF). Taxon. 7 (7): 181–184. doi:10.2307/1216399. JSTOR 1216399.
  11. ^ (Turland et al. 2018, Article 13)
  12. ^ (Turland at al. 2018, Article F.1.1)
  13. ^ ICZN - International Commission on Zoological Nomenclature (1999). International Code of Zoological Nomenclature. Fourth Edition. The International Trust for Zoological Nomenclature, London, UK. 306 pp., [1].
  14. ^ Oren, Aharon (2004). "A proposal for further integration of the cyanobacteria under the Bacteriological Code". International Journal of Systematic and Evolutionary Microbiology. 54 (Pt. 5): 1895–1902. doi:10.1099/ijs.0.03008-0. PMID 15388760.
  15. ^ "Draft BioCode". 1997.
  16. ^ McNeill, John (4 November 1996). "Chapter 2. The BioCode: Integrated biological Nomenclature for the 21st Century?". Proceedings of a Mini-Symposium on Biological Nomenclature in the 21st Century.
  17. ^ "The Draft BioCode (2011)". International Committee on Bionomenclature (ICB).
  18. ^ Greuter, W.; Garrity, G.; Hawksworth, D. L.; Jahn, R.; Kirk, P. M.; Knapp, S.; McNeill, J.; Michel, E.; Patterson, D. J.; Pyle, R.; Tindall, B. J. (2011). "Draft BioCode (2011): Principles and rules regulating the naming of organisms". Taxon. 60: 201–212. doi:10.1002/tax.601019.
  19. ^ Hawksworth, D. L. (2011). "Introducing the Draft BioCode (2011)". Taxon. 60 (1): 199–200. doi:10.1002/tax.601018.
  20. ^ DL Hawksworth (2011) BioCode 2011. Introduction. http://www.bionomenclature.net/biocode2011.html
  21. ^ Werner Greuter (2011) BioCode 2011. Explanatory prologue. http://www.bionomenclature.net/biocode2011.html
  22. ^ Oren, Aharon (2019). in Bergey's Manual of Systematics of Archaea and Bacteria (1 ed.). Wiley. p. 1-12. doi:10.1002/9781118960608.bm00004.pub2. ISBN 978-1-118-96060-8. S2CID 240836383.
  23. ^ de Queiroz, K.; Gauthier, J. (December 1990). (PDF). Systematic Zoology. 39 (4): 307–322. doi:10.2307/2992353. JSTOR 2992353. Archived from the original (PDF) on 13 November 2017.
  24. ^ Laurin, Michel (23 July 2023). "The PhyloCode : The logical outcome of millennia of evolution of biological nomenclature?". Zoologica Scripta. 52 (6): 543–555. doi:10.1111/zsc.12625. ISSN 0300-3256. S2CID 260224728.
  25. ^ Corliss, J. O. (1995). "The ambiregnal protists and the codes of nomenclature: A brief review of the problem and of proposed solutions". Bulletin of Zoological Nomenclature. 52: 11–17. doi:10.5962/bhl.part.6717.
  26. ^ (McNeill et al. 2012, Preamble: 8)
  27. ^ Adl, S. M. et al. Diversity, Nomenclature, and Taxonomy of Protists. Systematic Biology, p. 684-689, 2007, [2].
  28. ^ Elbrächter, M. et al. Establishing an Agenda for Calcareous Dinoflagellates Research (Thoracosphaeraceae, Dinophyceae) including a nomenclatural synopsis of generic names. Taxon 57, p. 1289–1303, 2008, [3]
  29. ^ a b (Lahr et al. 2012)
  30. ^ Dubois, A. (2006). Proposed Rules for the incorporation of nomina of higher-ranked zoological taxa in the International Code of Zoological Nomenclature. 2. The proposed Rules and their rationale. Zoosystema, 28 (1): 165‒258, [4].
  31. ^ Frost, D. R. et al. (2006). The Amphibian Tree of Life. Bulletin of the American Museum of Natural History 297: 1–291, [5],
  32. ^ Dubois, Alain (2015). "The Duplostensional Nomenclatural System for higher zoological nomenclature". Dumerilia. 5: 1–108.
  33. ^ Dubois, Alain; Ohler, Annemarie; Pyron, R. Alexander (26 February 2021). "New concepts and methods for phylogenetic taxonomy and nomenclature in zoology, exemplified by a new ranked cladonomy of recent amphibians (Lissamphibia)". Megataxa. 5 (1). doi:10.11646/megataxa.5.1.1. ISSN 2703-3090.
  34. ^ Klüge, N. J. (2010). Circumscriptional names of higher taxa in Hexapoda. Bionomina, 1, 15-55, [6].
  35. ^ Kluge, N. J. (1999). "A system of alternative nomenclatures of supra-species taxa. Linnaean and post-Linnaean principles of systematics". Entomological Review. 79 (2): 133–147.
  36. ^ (McNeill et al. 2012, Article 16)
  37. ^ (Turland et al. 2018, Article 16)

Bibliography edit

  • Lahr, Daniel J. G.; Lara, Enrique; Mitchell, Edward A. D. (2012). "Time to regulate microbial eukaryote nomenclature". Biological Journal of the Linnean Society. 107 (3): 469–476. doi:10.1111/j.1095-8312.2012.01962.x.
  • McNeill, J.; Barrie, F. R.; Buck, W. R.; Demoulin, V.; Greuter, W.; Hawksworth, D. L.; Herendeen, P. S.; Knapp, S.; Marhold, K.; Prado, J.; Prud'homme Van Reine, W. F.; Smith, G. F.; Wiersema, J. H.; Turland, N. J. (2012). International Code of Nomenclature for algae, fungi, and plants (Melbourne Code) adopted by the Eighteenth International Botanical Congress Melbourne, Australia, July 2011. Vol. Regnum Vegetabile 154. A.R.G. Gantner Verlag KG. ISBN 978-3-87429-425-6.
  • Turland, N. J.; Wiersema, J. H.; Barry, F. R.; Greuter, W.; Hawksworth, D. L.; Herendeen, P. S.; Knapp, S.; Kusber, W. H.; Li, D.-Z.; Marhold, K.; May, T. W.; McNeill, J.; Monro, A. M.; Prado, J.; Price, M. J.; Smith, G. F. (2018). International Code of Nomenclature for algae, fungi, and plants (Shenzhen Code) adopted by the Nineteenth International Botanical Congress Shenzhen, China, July 2017. Vol. Regnum Vegetabile 159. Koeltz Botanical Books. ISBN 978-3-946583-16-5.

External links edit

 
Wikimedia Commons has media related to Nomenclature codes.
  • Biocode in Action at the Smithsonian Ocean Portal
  • ICN: Shenzhen Code (2018)
  • : the "green book" (1999)
  • with Standing in Nomenclature (1997), by J.P. Euzéby
  • BioCode introduction (2011)

February 15, 2024
nomenclature, codes, also, international, code, area, nomenclature, international, code, phytosociological, nomenclature, codes, nomenclature, various, rulebooks, that, govern, naming, living, organisms, standardizing, scientific, names, biological, organisms,. See also International Code of Area Nomenclature and International Code of Phytosociological Nomenclature Nomenclature codes or codes of nomenclature are the various rulebooks that govern the naming of living organisms Standardizing the scientific names of biological organisms allows researchers to discuss findings including the discovery of new species As the study of biology became increasingly specialized specific codes were adopted for different types of organism To an end user who only deals with names of species with some awareness that species are assignable to genera families and other taxa of higher ranks it may not be noticeable that there is more than one code but beyond this basic level these are rather different in the way they work Contents 1 Binomial Nomenclature 2 Codification of Scientific Names 3 Differences between codes 3 1 Starting point 3 2 Workings 3 3 Terminology 3 4 Types 4 Other codes 4 1 BioCode 4 2 PhyloCode 5 Ambiregnal protists 6 Unregulated taxa 7 See also 8 References 9 Bibliography 10 External linksBinomial Nomenclature editMain article Binomial Nomenclature In taxonomy binomial nomenclature two term naming system also called binary nomenclature is a formal system of naming species of living things by giving each a name composed of two parts both of which use Latin grammatical forms although they can be based on words from other languages Such a name is called a binomial name which may be shortened to just binomial a binomen binominal name or a scientific name more informally it is also historically called a Latin name In the ICZN the system is also called binominal nomenclature 1 binomi N al with an N before the al which is not a typographic error meaning two name naming system 2 The first part of the name the generic name identifies the genus to which the species belongs whereas the second part the specific name or specific epithet distinguishes the species within the genus For example modern humans belong to the genus Homo and within this genus to the species Homo sapiens Tyrannosaurus rex is likely the most widely known binomial 3 The formal introduction of this system of naming species is credited to Carl Linnaeus effectively beginning with his work Species Plantarum in 1753 4 But as early as 1622 Gaspard Bauhin introduced in his book Pinax theatri botanici English Illustrated exposition of plants containing many names of genera that were later adopted by Linnaeus 5 The introduction of two part names binominal nomenclature for species by Linnaeus was a welcome simplification because as our knowledge of biodiversity expanded so did the length of the names many of which had become unwieldy 6 Codification of Scientific Names editWith all naturalists worldwide adopting binominal nomenclature there arose several schools of thought about the details It became ever more apparent that a detailed body of rules was necessary to govern scientific names From the mid 19th century onwards there were several initiatives to arrive at worldwide accepted sets of rules Presently nomenclature codes govern the naming of Algae Fungi and Plants International Code of Nomenclature for algae fungi and plants ICN which in July 2011 replaced the International Code of Botanical Nomenclature ICBN and the earlier International Rules of Botanical Nomenclature Animals International Code of Zoological Nomenclature ICZN Bacteria and Archaea International Code of Nomenclature of Prokaryotes ICNP which in 2008 replaced the International Code of Nomenclature of Bacteria ICNB Bacteria and Archaea described from sequence data Code of Nomenclature of Prokaryotes Described from Sequence Data SeqCode Cultivated plants International Code of Nomenclature for Cultivated Plants ICNCP Plant associations International Code of Phytosociological Nomenclature ICPN Viruses The International Code of Virus Classification and Nomenclature ICVCN see also virus classificationDifferences between codes editStarting point edit The starting point that is the time from which these codes are in effect usually retroactively varies from group to group and sometimes from rank to rank 7 In botany and mycology the starting point is often 1 May 1753 Linnaeus Species plantarum In zoology it is 1 January 1758 Linnaeus Systema Naturae 10th Edition On the other hand bacteriology started anew making a clean sweep in 1980 Skerman et al Approved Lists of Bacterial Names although maintaining the original authors and dates of publication 8 Exceptions in botany 9 10 11 Spermatophyta and Pteridophyta suprageneric names 4 August 1789 Jussieu Genera plantarum Musci except Sphagnaceae 1 January 1801 Hedwig Species muscorum Sphagnaceae and Hepaticae including Anthocerotae suprageneric names 4 August 1789 Jussieu Genera plantarum Fungi Microsporidia are governed by the ICZN treated as animals and see below for fossil fungi 12 Algae Nostocaceae homocysteae 1 January 1892 Gomont Monographie des Oscillariees Nostocaceae heterocysteae 1 January 1886 Bornet amp Flahault Revision des Nostocacees heterocystees Desmidiaceae 1 January 1848 Ralfs British Desmidieae Oedogoniaceae 1 January 1900 Hirn Monographie und Iconographie der Oedogoniaceen Fossil plants algae diatoms excepted and fungi 31 December 1820 Sternberg Flora der Vorwelt Exceptions in zoology 13 Spiders 1757 clarification needed Clerck Aranei Svecici Workings edit There are also differences in the way codes work For example the ICN the code for algae fungi and plants forbids tautonyms while the ICZN the animal code allows them Terminology edit These codes differ in terminology and there is a long term project to harmonize this For instance the ICN uses valid in valid publication of a name the act of publishing a formal name with establishing a name as the ICZN equivalent The ICZN uses valid in valid name correct name with correct name as the ICN equivalent Harmonization is making very limited progress Types edit There are differences in respect of what kinds of types are used The bacteriological code prefers living type cultures but allows other kinds There has been ongoing debate regarding which kind of type is more useful in a case like cyanobacteria 14 Other codes editBioCode edit A more radical approach was made in 1997 when the IUBS IUMS International Committee on Bionomenclature ICB presented the long debated Draft BioCode proposed to replace all existing Codes with an harmonization of them 15 16 The originally planned implementation date for the BioCode draft was January 1 2000 but agreement to replace the existing Codes was not reached In 2011 a revised BioCode was proposed that instead of replacing the existing Codes would provide a unified context for them referring to them when necessary 17 18 19 Changes in the existing codes are slowly being made in the proposed directions 20 21 However participants of the last serious discussion of the draft Biocode concluded that it would probably not be implemented in their lifetimes 22 PhyloCode edit Main article PhyloCode Many authors encountered problems in using the Linnean system in phylogenetic classification 23 In fact early proponents of rank based nomenclature such as Alphonse de Candolle and the authors of the 1886 version of the American Ornithologists Union code of nomenclature already envisioned that in the future rank based nomenclature would have to be abandoned 24 6 Another Code that was developed since 1998 is the PhyloCode which now regulates names defined under phylogenetic nomenclature instead of the traditional Linnaean nomenclature This new approach requires using phylogenetic definitions that refer to specifiers analogous to type under rank based nomenclature Such definitions delimit taxa under a given phylogeny and this kind of nomenclature does not require use of absolute ranks The Code took effect in 2020 with the publication of Phylonyms a monograph that includes a list of the first names established under that code Ambiregnal protists editSome protists sometimes called ambiregnal protists have been considered to be both protozoa and algae or protozoa and fungi and names for these have been published under either or both of the ICZN and the ICN 25 26 The resulting double language throughout protist classification schemes resulted in confusion 27 28 29 Groups claimed by both protozoologists and phycologists include euglenids dinoflagellates cryptomonads haptophytes glaucophytes many heterokonts e g chrysophytes raphidophytes silicoflagellates some xanthophytes proteromonads some monadoid green algae volvocaleans and prasinophytes choanoflagellates bicosoecids ebriids and chlorarachniophytes Slime molds plasmodial forms and other fungus like organisms claimed by both protozoologists and mycologists include mycetozoans plasmodiophorids acrasids and labyrinthulomycetess Fungi claimed by both protozoologists and mycologists include chytrids blastoclads and the gut fungi Other problematic groups are the Cyanobacteria ICNP ICN and Microsporidia ICZN ICN Unregulated taxa editThe zoological code does not regulate names of taxa lower than subspecies or higher than superfamily There are many attempts to introduce some order on the nomenclature of these taxa 30 31 including the PhyloCode the Duplostensional Nomenclatural System 32 33 and circumscriptional nomenclature 34 35 The botanical code is applied primarily to the ranks of superfamily and below There are some rules for names above the rank of superfamily but the principle of priority does not apply to them and the principle of typification is optional These names may be either automatically typified names or be descriptive names 36 37 In some circumstances a taxon has two possible names e g Chrysophyceae Pascher 1914 nom descrip Hibberd 1976 nom typificatum Descriptive names are problematic once that if a taxon is split it is not obvious which new group takes the existing name Meanwhile with typified names the existing name is taken by the new group that still bears the type of this name However typified names present special problems for microorganisms 29 See also editBinomial nomenclature Botanical nomenclature Chemical nomenclature Common name Gene nomenclature Glossary of scientific naming List of taxa named by anagrams Zoological nomenclature Tree of life biology References edit International Commission on Zoological Nomenclature 1999 Chapter 2 Article 5 Principle of Binominal Nomenclatureharvnb error no target CITEREFInternational Commission on Zoological Nomenclature1999 help Article 5 Principle of Binominal Nomenclature International Code of Zoological Nomenclature Archived from the original on 29 March 2023 Retrieved 29 March 2023 International Commission on Zoological Nomenclature 1999 Glossary binomen nomenclature binominal harvnb error no target CITEREFInternational Commission on Zoological Nomenclature1999 help Glossary International Code of Zoological Nomenclature Archived from the original on 6 February 2023 Retrieved 29 March 2023 Busby Arthur III et al 1997 A Guide to Rocks and Fossils p 103 Knapp Sandra What s in a name A history of taxonomy Linnaeus and the birth of modern taxonomy NHM ac uk Natural History Museum London Archived from the original on 18 October 2014 Retrieved 17 June 2011 Bauhin Gaspard Pinax theatri botanici Kyoto University Library Archived from the original on 17 October 2016 Retrieved 19 June 2016 a b Laurin Michel 3 August 2023 The Advent of PhyloCode The Continuing Evolution of Biological Nomenclature CRC Press doi 10 1201 9781003092827 ISBN 978 1 003 09282 7 Nicolson Dan 1991 A history of botanical nomenclature Annals of the Missouri Botanical Garden 78 1 33 56 doi 10 2307 2399589 JSTOR 2399589 Skerman V B D McGowan V Sneath P H A 1980 Approved lists of bacterial names Int J Syst Bacteriol 30 225 420 doi 10 1099 00207713 30 1 225 Chitwood B G 1958 The designation of official names for higher taxa of invertebrates Bull Zool Nomencl 15 860 895 doi 10 5962 bhl part 19410 Silva P C 1958 Later starting points in algae PDF Taxon 7 7 181 184 doi 10 2307 1216399 JSTOR 1216399 Turland et al 2018 Article 13 Turland at al 2018 Article F 1 1 ICZN International Commission on Zoological Nomenclature 1999 International Code of Zoological Nomenclature Fourth Edition The International Trust for Zoological Nomenclature London UK 306 pp 1 Oren Aharon 2004 A proposal for further integration of the cyanobacteria under the Bacteriological Code International Journal of Systematic and Evolutionary Microbiology 54 Pt 5 1895 1902 doi 10 1099 ijs 0 03008 0 PMID 15388760 Draft BioCode 1997 McNeill John 4 November 1996 Chapter 2 The BioCode Integrated biological Nomenclature for the 21st Century Proceedings of a Mini Symposium on Biological Nomenclature in the 21st Century The Draft BioCode 2011 International Committee on Bionomenclature ICB Greuter W Garrity G Hawksworth D L Jahn R Kirk P M Knapp S McNeill J Michel E Patterson D J Pyle R Tindall B J 2011 Draft BioCode 2011 Principles and rules regulating the naming of organisms Taxon 60 201 212 doi 10 1002 tax 601019 Hawksworth D L 2011 Introducing the Draft BioCode 2011 Taxon 60 1 199 200 doi 10 1002 tax 601018 DL Hawksworth 2011 BioCode 2011 Introduction http www bionomenclature net biocode2011 html Werner Greuter 2011 BioCode 2011 Explanatory prologue http www bionomenclature net biocode2011 html Oren Aharon 2019 in Bergey s Manual of Systematics of Archaea and Bacteria 1 ed Wiley p 1 12 doi 10 1002 9781118960608 bm00004 pub2 ISBN 978 1 118 96060 8 S2CID 240836383 de Queiroz K Gauthier J December 1990 Phylogeny as a Central Principle in Taxonomy Phylogenetic Definitions of Taxon Names PDF Systematic Zoology 39 4 307 322 doi 10 2307 2992353 JSTOR 2992353 Archived from the original PDF on 13 November 2017 Laurin Michel 23 July 2023 The PhyloCode The logical outcome of millennia of evolution of biological nomenclature Zoologica Scripta 52 6 543 555 doi 10 1111 zsc 12625 ISSN 0300 3256 S2CID 260224728 Corliss J O 1995 The ambiregnal protists and the codes of nomenclature A brief review of the problem and of proposed solutions Bulletin of Zoological Nomenclature 52 11 17 doi 10 5962 bhl part 6717 McNeill et al 2012 Preamble 8 Adl S M et al Diversity Nomenclature and Taxonomy of Protists Systematic Biology p 684 689 2007 2 Elbrachter M et al Establishing an Agenda for Calcareous Dinoflagellates Research Thoracosphaeraceae Dinophyceae including a nomenclatural synopsis of generic names Taxon 57 p 1289 1303 2008 3 a b Lahr et al 2012 Dubois A 2006 Proposed Rules for the incorporation of nomina of higher ranked zoological taxa in the International Code of Zoological Nomenclature 2 The proposed Rules and their rationale Zoosystema 28 1 165 258 4 Frost D R et al 2006 The Amphibian Tree of Life Bulletin of the American Museum of Natural History 297 1 291 5 Dubois Alain 2015 The Duplostensional Nomenclatural System for higher zoological nomenclature Dumerilia 5 1 108 Dubois Alain Ohler Annemarie Pyron R Alexander 26 February 2021 New concepts and methods for phylogenetic taxonomy and nomenclature in zoology exemplified by a new ranked cladonomy of recent amphibians Lissamphibia Megataxa 5 1 doi 10 11646 megataxa 5 1 1 ISSN 2703 3090 Kluge N J 2010 Circumscriptional names of higher taxa in Hexapoda Bionomina 1 15 55 6 Kluge N J 1999 A system of alternative nomenclatures of supra species taxa Linnaean and post Linnaean principles of systematics Entomological Review 79 2 133 147 McNeill et al 2012 Article 16 Turland et al 2018 Article 16 Bibliography editLahr Daniel J G Lara Enrique Mitchell Edward A D 2012 Time to regulate microbial eukaryote nomenclature Biological Journal of the Linnean Society 107 3 469 476 doi 10 1111 j 1095 8312 2012 01962 x McNeill J Barrie F R Buck W R Demoulin V Greuter W Hawksworth D L Herendeen P S Knapp S Marhold K Prado J Prud homme Van Reine W F Smith G F Wiersema J H Turland N J 2012 International Code of Nomenclature for algae fungi and plants Melbourne Code adopted by the Eighteenth International Botanical Congress Melbourne Australia July 2011 Vol Regnum Vegetabile 154 A R G Gantner Verlag KG ISBN 978 3 87429 425 6 Turland N J Wiersema J H Barry F R Greuter W Hawksworth D L Herendeen P S Knapp S Kusber W H Li D Z Marhold K May T W McNeill J Monro A M Prado J Price M J Smith G F 2018 International Code of Nomenclature for algae fungi and plants Shenzhen Code adopted by the Nineteenth International Botanical Congress Shenzhen China July 2017 Vol Regnum Vegetabile 159 Koeltz Botanical Books ISBN 978 3 946583 16 5 External links edit nbsp Wikimedia Commons has media related to Nomenclature codes Biocode in Action at the Smithsonian Ocean Portal ICN Shenzhen Code 2018 ICZN the green book 1999 List of Prokaryotic names with Standing in Nomenclature 1997 by J P Euzeby BioCode introduction 2011 PhyloCode Retrieved from https en wikipedia org w index php title Nomenclature codes amp oldid 1196125468 Ambiregnal protists, wikipedia, wiki, 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