Biology:Trifoliate orange

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Short description: Species of plant in the Rutaceae family

Trifoliate orange
Poncirus trifoliata 1 JdP.jpg
A fruiting tree in Jardin des Plantes, Paris
Scientific classification edit
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Rosids
Order: Sapindales
Family: Rutaceae
Genus: Citrus
Species:
C. trifoliata
Binomial name
Citrus trifoliata
Synonyms[1]
  • Aegle sepiaria DC.
  • Bilacus trifoliata (L.) Kuntze
  • Citrus trifolia Thunb.
  • Citrus triptera Desf.
  • Poncirus trifoliata (L.) Raf
  • Pseudaegle sepiaria (DC.) Miq.

The trifoliate orange, Citrus trifoliata (syn.Poncirus trifoliata), is a member of the family Rutaceae. Whether the trifoliate oranges should be considered to belong to their own genus, Poncirus, or be included in the genus Citrus is debated. The species is unusual among citrus for having deciduous, compound leaves and pubescent (downy) fruit.[2][3]

It is native to northern China and Korea, and is also known as the Japanese bitter-orange (karatachi),[4] hardy orange[5] or Chinese bitter orange.

The plant is a fairly cold-hardy citrus (USDA zone 6) and will tolerate moderate frost and snow, making a large shrub or small tree 4–8 m (13–26 ft) tall. Because of its relative hardiness, citrus grafted onto Citrus trifoliata are usually hardier than when grown on their own roots.[6]

Description

The trifoliate orange is recognizable by the large 3–5 cm (1.2–2.0 in) thorns on the shoots, and its deciduous leaves with three (or rarely, five) leaflets, typically with the middle leaflet 3–5 cm (1.2–2.0 in) long, and the two side leaflets 2–3 cm (0.79–1.18 in) long. The flowers are white, with pink stamens, 3–5 cm (1.2–2.0 in) in diameter, larger than those of true citrus but otherwise closely resembling them, except that the scent is much less pronounced than with true citrus. As with true citrus, the leaves give off a spicy smell when crushed.

The fruits are green, ripening to yellow, and 3–4 cm (1.2–1.6 in) in diameter similar in size to a lime and resembling a small orange, but with a finely downy surface and having a fuzzy texture similar to a peach. The fruits also have distinctive smell from other citrus varieties and often contain a high concentration of seeds.

Uses

Cultivation

The cultivar 'Flying Dragon' is dwarfed in size, has highly twisted, contorted stems, and has even stronger thorns than the type. It makes an excellent barrier hedge due to its density and strong curved thorns. Such hedges have been grown for over 50 years at Oklahoma State University in Stillwater, and are highly student-proof.[7] The plant is also highly deer-resistant.[8] In central London, mature specimens of the trifoliate orange can be seen in the gardens of St Paul's Cathedral.[citation needed]

Trifoliate orange and various hybrids of this plant are widely used as citrus rootstock, and valued for their resistance to cold, the tristeza virus, and the fungus Phytophthora parasitica (root rot).[9]

Recent studies have revealed that the trifoliate orange contains auraptene at a high concentration, which is one of the functional components having immunity against citrus tristeza virus (CTV).[10]

As food

The fruits are very bitter, due in part to their poncirin content. Most people consider them inedible fresh, but they can be made into marmalade.[8] When dried and powdered, they can be used as a condiment.[citation needed]

Medicine

Traditional medicine

The fruits of the trifoliate orange are widely used in medical traditions of East Asia as a treatment for allergic inflammation.[11]

Taxonomy

The trifoliate orange was historically considered a member of the genus Citrus until Walter Swingle (1871 – 1952) moved it[when?] to its own novel genus, Poncirus, based on its deciduous trifoliate leaves differing from other Citrus, as part of a larger reclassification that split the historical Citrus into seven genera. However, David Mabberley and Dianxiang Zhang reunited all of Swingle's novel genera back into Citrus.[when?][12] Early phylogenetic analysis of trifoliate orange plastids nested Poncirus within the citrus, consistent with a single genus,[13][14][15][16] but the sequencing of the nuclear genome by Wu, et al. showed its genome to be most divergent, different enough to justify retention of Poncirus as a separate genus.[17] To explain the conflict between the plastid and nuclear genomic analysis, it was speculated that the trifoliate orange is likely either the progeny of an ancient hybridization between a core citrus and an unidentified more distant relative, or at some time in its history it acquired an introgressed cpDNA genome from another species.[18] Ollitrault, Curk and Krueger indicate that the majority of data are consistent with the enlarged Citrus that includes the trifoliate orange, though they recognize that many botanists still follow Swingle.[12]

A second species of trifoliate orange native to Yunnan (China) has been reported and named Poncirus polyandra.[19] Were Poncirus to be subsumed into Citrus, where C. polyandra is unavailable, the name Citrus polytrifolia has been suggested.[20] Zhang and Mabberley concluded this Yunnan cultivar is likely a hybrid between the trifoliate orange and another Citrus,[2] but recent genomic analysis of P. polyandra showed low levels of heterozygosity,[21] the opposite of what one would expect for a hybrid. This analysis dated its divergence from P. trifoliata about 2.82 million years ago.[21]

The trifoliate orange does not naturally interbreed with core Citrus taxa due to different flowering times,[22] but hybrids have been produced artificially between the trifoliate orange and other citrus. In the Swingle system, where the trifoliate orange is placed in Poncirus, a hybrid genus name has been coined for these intra-generic crosses, "× Citroncirus". The most notable of these are the citrange, a cross between the trifoliate and sweet oranges, and the citrumelo, a hybrid of trifoliate orange and 'Duncan' grapefruit. Placing the trifoliate orange in Citrus would mean these hybrids would no longer be intergeneric, but instead hybrids within Citrus. Genomic analysis of a number of these hybrids showed them all to derive from P. trifoliata and not P. polyandra.[21]

References

  1. The Plant List: A Working List of All Plant Species, http://www.theplantlist.org/tpl1.1/record/kew-2724403, retrieved 26 March 2016 
  2. 2.0 2.1 Dianxiang Zhang; David J. Mabberley, "Citrus Linnaeus, Sp. Pl. 2: 782. 1753", Flora of China online, 11, http://www.efloras.org/florataxon.aspx?flora_id=2&taxon_id=107164 
  3. Dianxiang Zhang; David J. Mabberley, "Citrus trifoliata Linnaeus, Sp. Pl., ed. 2. 2: 1101. 1763", Flora of China online, 11, http://www.efloras.org/florataxon.aspx?flora_id=2&taxon_id=220002968 
  4. (xls) BSBI List 2007, Botanical Society of Britain and Ireland, https://bsbi.org/download/3542/, retrieved 2014-10-17 
  5. "Poncirus trifoliata". Natural Resources Conservation Service PLANTS Database. USDA. https://plants.usda.gov/core/profile?symbol=POTR4. 
  6. "Notice to Fruit Growers and Nurseymen Related to the Naming and Release of the US-942 Citrus Rootstock". Agricultural Research Service, USDA. 22 October 2010. pp. 1–2. http://www.southeastagnet.com/documents/US-942-signed-release-notice.pdf. 
  7. Gerald Klingaman. "Plant of the Week. Hardy Orange or Trifoliate Orange. Latin: Poncirus trifoliat". University of Arkansas. Division of Agriculture. http://www.uaex.uada.edu/yard-garden/resource-library/plant-week/hardy-orange-2-9-07.aspx. 
  8. 8.0 8.1 Green Deane Hardy (December 2012). "Hardy Orange". http://www.eattheweeds.com/hardy-orange/. 
  9. "Notice to Fruit Growers and Nurseymen Related to the Naming and Release of the US-942 Citrus Rootstock". Agricultural Research Service, USDA. 22 October 2010. pp. 1–2. http://www.southeastagnet.com/documents/US-942-signed-release-notice.pdf. 
  10. "Karatachi no kankitsu torisuteza wīrusu teikōsei to rensa suru DNA mākā". Japanese Society for Horticultural Science. 2011. pp. 295–307. http://www.naro.affrc.go.jp/project/results/laboratory/fruit/2006/fruit06-11.html. 
  11. Zhou H.Y.; Shin E.M.; Guo L.Y.; Zou L.B.; Xu G.H.; Lee S.-H.; Ze K.R.; Kim E.-K. et al. (2007), "Anti-inflammatory activity of 21(alpha, beta)-methylmelianodiols, novel compounds from Poncirus trifoliata Rafinesque", European Journal of Pharmacology 572 (2–3): 239–248, doi:10.1016/j.ejphar.2007.07.005, PMID 17662711 
  12. 12.0 12.1 Ollitrault, Patrick; Curk, Franck; Krueger, Robert (2020). "Citrus taxonomy". The Citrus Genus. Elsevier. pp. 57–81. doi:10.1016/B978-0-12-812163-4.00004-8. ISBN 978-0-12-812163-4. https://books.google.com/books?id=2wo4swEACAAJ&pg=PA57. 
  13. Nicolosi, E.; Deng, Z. N.; Gentile, A.; La Malfa, S.; Continella, G.; Tribulato, E. (2000). "Citrus phylogeny and genetic origin of important species as investigated by molecular markers". Theoretical and Applied Genetics 100 (8): 1155–1166. doi:10.1007/s001220051419. 
  14. de Araújo, Edson Freitas; Queiroza, Luciano Paganuccide; Machado, Marcos Antônio (2003). "What is Citrus? Taxonomic implications from a study of cp-DNA evolution in the tribe Citreae (Rutaceae subfamily Aurantioideae)". Organisms Diversity & Evolution 1: 55–62. doi:10.1078/1439-6092-00058. 
  15. Bayer, Randall J.; Mabberly, David J.; Morton, Cynthia; Miller, Cathy H.; Sharma, Ish K.; Pfiel, Bernard E.; Rich, Sarah; Hitchcock, Roberta et al. (2009). "A molecular phylogeny of the orange subfamily (Rutaceae: Aurantioideae) using nine cpDNA sequences". American Journal of Botany 96 (3): 668–685. doi:10.3732/ajb.0800341. PMID 21628223. 
  16. Garcia-Lor, Andres; Curk, Franck; Snoussi-Trifa, Hager; Morillon, Raphael; Ancillo, Gema; Luro, François; Navarro, Luis; Ollitrault, Patrick (2011). "A nuclear phylogenetic analysis: SNPs, indels and SSRs deliver new insights into the relationships in the 'true citrus fruit trees' group (Citrinae, Rutaceae) and the origin of cultivated species". Annals of Botany 111 (1): 1–19. doi:10.1093/aob/mcs227. PMID 23104641. 
  17. Wu, Guohong Albert; Terol, Javier; Ibanez, Victoria; López-García, Antonio; Pérez-Román, Estela; Borredá, Carles; Domingo, Concha; Tadeo, Francisco R et al. (2018). "Genomics of the origin and evolution of Citrus". Nature 554 (7692): 311–316. doi:10.1038/nature25447. PMID 29414943. Bibcode2018Natur.554..311W.  and Supplement
  18. Talon, Manuel; Wu, Guohong Albert; Gmitter, Frederick G.; Rokhsar, Daniel S (2020). "The origin of citrus". The Citrus Genus. Elsevier. pp. 9–31. doi:10.1016/C2016-0-02375-6. ISBN 978-0-12-812163-4. 
  19. Garcia-Lor, Andres; Curk, Franck; Snoussi-Trifa, Hager; Morillon, Raphael; Ancillo, Gema; Luro, François; Navarro, Luis; Ollitrault, Patrick (2011). "A nuclear phylogenetic analysis: SNPs, indels and SSRs deliver new insights into the relationships in the 'true citrus fruit trees' group (Citrinae, Rutaceae) and the origin of cultivated species". Annals of Botany 111 (1): 1–19. doi:10.1093/aob/mcs227. PMID 23104641. 
  20. "Citrus polytrifolia". https://www.ncbi.nlm.nih.gov/Taxonomy/Browser/wwwtax.cgi. 
  21. 21.0 21.1 21.2 Peng, Ze; Bredeson, Jessen V.; Wu, Guohong A.; Shu, Shengqiang; Rawat, Nidhi; Du, Dongliang; Parajuli, Saroj; Yu, Qibin et al. (2020). "A chromosome‐scale reference genome of trifoliate orange (Poncirus trifoliata) provides insights into disease resistance, cold tolerance and genome evolution in Citrus". The Plant Journal 104 (5): 1215–1232. doi:10.1111/tpj.14993. PMID 32985030. 
  22. Froelicher, Yann; Mouhaya, Wafa; Bassene, Jean-Baptiste; Costantino, Gilles; Kamiri, Mourad; Luro, Francois; Morillo, Raphael; Ollitrault, Patrick (2011). "New universal mitochondrial PCR markers reveal new information on maternal citrus phylogeny". Tree Genetics & Genomes 7: 49–61. doi:10.1007/s11295-010-0314-x. http://agritrop.cirad.fr/558353/. 

Wikidata ☰ Q859433 entry