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A supergroup, in evolutionary biology, is a large group of organisms that share one common ancestor and have important defining characteristics. It is an informal, mostly arbitrary rank in biological taxonomy that is often greater than phylum or kingdom, although some supergroups are also treated as phyla.[1]

Eukaryotic supergroups

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Since the decade of the 2000s, the eukaryotic tree of life (abbreviated as eToL) has been divided into 5–8 major groupings called 'supergroups'. These groupings were established after the idea that only monophyletic groups should be accepted as ranks, as an alternative to the use of paraphyletic kingdom Protista.[2] In the early days of the eToL six traditional supergroups were considered: Amoebozoa, Opisthokonta, "Excavata", Archaeplastida, "Chromalveolata" and Rhizaria. Since then, the eToL has been rearranged profoundly, and most of these groups were found as paraphyletic or lacked defining morphological characteristics that unite their members, which makes the 'supergroup' label more arbitrary.[1]

 
Phylogenomic tree of eukaryotes, as regarded in 2020. Supergroups are in color.

Currently, the addition of many lineages of newly discovered protists (such as Telonemia, Picozoa, Hemimastigophora, Rigifilida...) and the use of phylogenomic analyses have brought a new, more accurate supergroup model. These are the current supergroups of eukaryotes:[1]

Many orphan groups of free-living protozoa remain left behind, unable to be added to a supergroup, such as: Picozoa (possibly belongs to Archaeplastida with limited certainty), Malawimonadida (thought to be related to Metamonada), Ancyromonadida, Breviatea, Apusomonadida, etc.[1]

A possible modern topology of the eToL would be the following (supergroups labeled in bold):[5][4]

Eukaryota

Prokaryotic supergroups

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The term 'supergroup' is used in phylogenetic studies of bacteria, in a smaller sense than within eukaryotes. As of 2021, it is very commonly used for naming clades within the genus Wolbachia.[6][7][8]

References

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  1. ^ a b c d e Burki F, Roger AJ, Brown MW, Simpson AGB (January 2020). "The New Tree of Eukaryotes". Trends Ecol Evol. 35 (1): 43–55. doi:10.1016/j.tree.2019.08.008. PMID 31606140.
  2. ^ Simpson, Alastair G.B.; Roger, Andrew J. (2004). "The real 'kingdoms' of eukaryotes". Current Biology. 14 (17): R693–R696. doi:10.1016/j.cub.2004.08.038. PMID 15341755. S2CID 207051421.
  3. ^ Strassert JFH, Jamy M, Mylnikov AP, Tikhonenkov DV, Burki F (April 2019). "New Phylogenomic Analysis of the Enigmatic Phylum Telonemia Further Resolves the Eukaryote Tree of Life". Molecular Biology and Evolution. 36 (4): 757–765. doi:10.1093/molbev/msz012. PMC 6844682.
  4. ^ a b c Tikhonenkov, Denis V.; Mikhailov, Kirill V.; Gawryluk, Ryan M. R.; Belyaev, Artem O.; Mathur, Varsha; Karpov, Sergey A.; Zagumyonnyi, Dmitry G.; Borodina, Anastasia S.; Prokina, Kristina I.; Mylnikov, Alexander P.; Aleoshin, Vladimir V.; Keeling, Patrick J. (2022). "Microbial predators form a new supergroup of eukaryotes". Nature. doi:10.1038/s41586-022-05511-5. PMID 36477531.
  5. ^ Brown MW, et al. (2018), "Phylogenomics Places Orphan Protistan Lineages in a Novel Eukaryotic Super-Group", Genome Biology and Evolution, 10 (2): 427–433, doi:10.1093/gbe/evy014, PMC 5793813
  6. ^ Baldo L, Werren JH (2007). "Revisiting Wolbachia Supergroup Typing Based on WSP: Spurious Lineages and Discordance with MLST". Curr Microbiol. 55: 81–87. doi:10.1007/s00284-007-0055-8.
  7. ^ Konecka, Edyta; Olszanowski, Ziemowit (2021). "Wolbachia supergroup E found in Hypochthonius rufulus (Acari: Oribatida) in Poland". Infection, Genetics and Evolution. 91 (104829). doi:10.1016/j.meegid.2021.104829. ISSN 1567-1348.
  8. ^ Covacin C, Barker SC (2007). "Supergroup F Wolbachia bacteria parasitise lice (Insecta: Phthiraptera)". Parasitol Res. 100: 479–485. doi:10.1007/s00436-006-0309-6.