Coffea

This article is about the biology of coffee plants. For the beverage, see Coffee.

Coffea
Flowering branches of Coffea arabica
Scientific classification Edit this classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Asterids
Order: Gentianales
Family: Rubiaceae
Tribe: Coffeeae
Genus: Coffea
L.[1]
Type species
Coffea arabica
Synonyms[1]
  • Buseria T. Durand
  • Cafe Adans.
  • Cofeanthus A.Chev.
  • Hexepta Raf.
  • Leiochilus Hook. f.
  • Nescidia A. Rich.
  • Paracoffea J.-F.Leroy
  • Paolia Chiov.
  • Pleurocoffea Baill.
  • Psilanthopsis A. Chev.
  • Psilanthus Hook.f.
  • Solenixora Baill.
Coffea canephora

Coffea is a genus of flowering plants in the family Rubiaceae. Coffea species are shrubs or small trees native to tropical and southern Africa and tropical Asia. The seeds of some species, called coffee beans, are used to flavor various beverages and products. The fruits, like the seeds, contain a large amount of caffeine, and have a distinct sweet taste.

The plant ranks as one of the world's most valuable and widely traded commodity crops and is an important export product of several countries, including those in Central and South America, the Caribbean and Africa. The coffee trade relies heavily on two of the over 120 species, Coffea arabica (commonly known simply as "Arabica"), which accounts for 60–80% of the world's coffee production, and Coffea canephora (known as "Robusta"), which accounts for about 20–40%.[2][3]

Both coffee species are vulnerable to shifts, caused by climate change, in their growing zones, which are likely to result in a decline in production in some of the most important growing regions.[4][5][6][7]

Taxonomy

The genus Coffea and the type species Coffea arabica were first described by Carl Linnaeus in 1753.[1] New species of Coffea are still being identified in the 2000s. In 2008 and 2009, researchers from the Royal Botanic Gardens, Kew, named seven from the mountains of northern Madagascar, including C. ambongensis, C. boinensis, C. labatii, C. pterocarpa, C. bissetiae, and C. namorokensis.[8]

In 2008, two new species were discovered in Cameroon: Coffea charrieriana, which is caffeine-free, and Coffea anthonyi.[9] By crossing the new species with other known coffees, two new features might be introduced to cultivated coffee plants: beans without caffeine and self-pollination.

In 2011, Coffea absorbed the twenty species of the former genus Psilanthus due to the morphological and genetic similarities between the two genera.[10] Historically, the two have been considered distinct genera due to differences in the length of the corolla tube and the anther arrangement: Coffea with a short corolla tube and exserted style and anthers; Psilanthus with a long corolla tube and included anthers. However, these characteristics were not present in all species of either respective genus, making the two genera overwhelmingly similar in both morphology and genetic sequence. This transfer expanded Coffea from 104 species to 124, and extended its native distribution to tropical Asia and Australasia.

The coffee genome was published in 2014, with more than 25,000 genes identified. This revealed that coffee plants make caffeine using a different set of genes from those found in tea, cacao and other such plants.[11]

A robust and almost fully resolved phylogeny of the entire genus was published in 2017.[12] In addition to resolving the relationships of Coffea species, this study's results suggest Africa or Asia as the likely ancestral origin of Coffea and point to several independent radiations across Africa, Asia, and the Western Indian Ocean Islands.

In 2020, a technique of DNA fingerprinting, or genetic authentication of plant material, was proven effective for coffee.[13] For the study, scientists used DNA extraction and SSR marker analysis. This technique or similar ones may allow for several improvements to coffee production such as improved information for farmers as to the susceptibility of their coffee plants to pests and disease, a professionalized coffee seed system, and transparency and traceability for buyers of green, un-roasted coffee.

Species

As of January 2026, Plants of the World Online accepts the following 133 species and one hybrid:[1]

Ecology

The caffeine in coffee beans serves as a toxic substance that protects against insects and other pests, a form of natural plant defense against herbivory. Caffeine simultaneously attracts pollinators, specifically honeybees, by creating an olfactory memory that signals bees to return to the plant's flowers.[12] Not all Coffea species contain caffeine, and the earliest species had little or no caffeine content. Caffeine has evolved independently in multiple lineages of Coffea in Africa, perhaps in response to high pest predation in the humid environments of West-Central Africa.[12]

Caffeine has also evolved independently in the more distantly related genera Theobroma (cacao) and Camellia (tea).[14] This suggests that caffeine production is an adaptive trait in coffee and plant evolution. The fruit and leaves also contain caffeine, and can be used to make coffee cherry tea and coffee-leaf tea. The fruit is also used in many brands of soft drink as well as pre-packaged teas.[15][16][17][18]

Several insect pests affect coffee production, including the coffee borer beetle (Hypothenemus hampei) and the coffee leafminer (Leucoptera caffeina).

Coffee is used as a food plant by the larvae of some Lepidoptera (butterfly and moth) species, Dalcera abrasa, turnip moth and some members of the genus Endoclita, including E. damor and E. malabaricus.

Cultivation and use

Main article: Coffee production
Freshly harvested coffee cherries
Freshly harvested coffee cherries
Coffea fruits, Bali

There are over 130 species of Coffea, which is grown from seed. The two most popular are Coffea arabica (commonly known simply as "Arabica"), which accounts for 60–80% of the world's coffee production, and Coffea canephora (known as "Robusta"), which accounts for about 20–40%.[2][3] C. arabica is preferred for its sweeter taste, while C. canephora has a higher caffeine content. C. arabica has its origins in the highlands of Ethiopia and the Boma Plateau of Sudan, and came about as the result of a hybrid between C. canephora and C. eugenioides.[19]

The trees produce edible red or purple fruits that are either epigynous berries or indehiscent drupes.[20] The fruit is often referred to as a "coffee cherry", and it contains two seeds, called "coffee beans".[21] Despite these terms, coffee is neither a true cherry (the fruit of certain species in the genus Prunus) nor a true bean (seeds from plants in the family Fabaceae).

In any coffee crop, about 5–10% of fruits contain only a single bean. Called a peaberry, it is smaller and rounder than a normal coffee bean.

When grown in the tropics, coffee is a vigorous bush or small tree that usually grows to a height of 3–3.5 m (10–11+12 ft). Most commonly cultivated coffee species grow best at high elevations, but do not tolerate freezing temperatures.[22]

The Coffea arabica tree grows fruit after three to five years, producing for an average of 50 to 60 years, though up to 100 years is possible.[23] The white flowers are highly scented. The fruit takes about nine months to ripen.

Coffea flower
Pollen grains of Coffee plant
Coffea fruit cross section
Coffea racemosa fruits
Coffea arabica beans germinating
Coffea arabica flowers
Ripe Coffea arabica fruits
Beans inside a Coffea arabica fruit
Coffea branches

References

  1. ^ a b c d "Coffea L." Plants of the World Online. Board of Trustees of the Royal Botanic Gardens, Kew. 2026. Retrieved 13 January 2026.
  2. ^ a b "Coffee Plant: Arabica and Robusta". Coffee Research Institute. Retrieved 17 November 2018.
  3. ^ a b "Coffee: World Markets and Trade" (PDF). United States Department of Agriculture – Foreign Agricultural Service. 16 June 2017. Archived (PDF) from the original on 10 October 2017. Retrieved 8 December 2017.
  4. ^ Läderach, Peter; Ramirez–Villegas, Julian; Navarro-Racines, Carlos; Zelaya, Carlos; Martinez–Valle, Armando; Jarvis, Andy (26 October 2016). "Climate change adaptation of coffee production in space and time". Climatic Change. 141 (1): 47–62. doi:10.1007/s10584-016-1788-9. hdl:10568/77563. ISSN 0165-0009.
  5. ^ Moat, Justin; Williams, Jenny; Baena, Susana; Wilkinson, Timothy; Gole, Tadesse W.; Challa, Zeleke K.; Demissew, Sebsebe; Davis, Aaron P. (19 June 2017). "Resilience potential of the Ethiopian coffee sector under climate change". Nature Plants. 3 (7): 17081. Bibcode:2017NatPl...317081M. doi:10.1038/nplants.2017.81. ISSN 2055-0278. PMID 28628132. S2CID 6873955.
  6. ^ Worland, Justin (21 June 2018). "Your Morning Cup of Coffee Is in Danger. Can the Industry Adapt in Time?". Time. Archived from the original on 4 August 2019. Retrieved 13 October 2019.
  7. ^ Lashermes, Philippe; Andrade, Alan Carvalho; Etienne, Hervé (2008). "Genomics of Coffee One of the World's Largest Traded Commodities". In Paul H. Moore; Ray Ming (eds.). Genomics of Tropical Crop Plants. Vol. 1. New York: Springer. pp. 203–226. doi:10.1007/978-0-387-71219-2_9. ISBN 978-0-387-71219-2. Consequently, bean quality may be lowered and supply become less stable to adversely affect the coffee market of consumer countries. Furthermore, in the light of climate changes and increasing awareness of the negative impacts of the nonsustainable use of natural resources, coffee production will have to evolve. This is particularly relevant for perennial plants such as coffee whose productive life is very long and for which rapid genetic gains are tedious to obtain.
  8. ^ "Seven species of wild coffee amongst Kew's haul of new discoveries". Royal Botanic Gardens, Kew. 22 December 2009. Archived from the original on 30 August 2016.
  9. ^ Stoffelen, Piet; Noirot, Michel; Couturon, Emmanuel; Anthony, François (2008). "A new caffeine-free coffee from Cameroon". Botanical Journal of the Linnean Society. 158 (1): 67–72. doi:10.1111/j.1095-8339.2008.00845.x.
  10. ^ Davis, A.P.; Tosh, J.; Ruch, N.; Fay, M.F. (2011). "Growing coffee: Psilanthus (Rubiaceae) subsumed on the basis of molecular and morphological data; implications for the size, morphology, distribution and evolutionary history of Coffea". Botanical Journal of the Linnean Society. 167 (4): 357–377. doi:10.1111/j.1095-8339.2011.01177.x.
  11. ^ Callaway, Ewen (4 September 2014). "Coffee got its buzz by a different route than tea". Nature. doi:10.1038/nature.2014.15832. S2CID 168085931.
  12. ^ a b c Hamon, Perla; Grover, Corrinne E.; Davis, Aaron P.; Rakotomalala, Jean-Jacques; Raharimalala, Nathalie E.; Albert, Victor A.; Sreenath, Hosahalli L.; Stoffelen, Piet; Mitchell, Sharon E.; Couturon, Emmanuel; Hamon, Serge; de Kochko, Alexandre; Crouzillat, Dominique; Rigoreau, Michel; Sumirat, Ucu; Akaffou, Sélastique & Guyot, Romain (2017). "Genotyping-by-sequencing provides the first well-resolved phylogeny for coffee (Coffea) and insights into the evolution of caffeine content in its species: GBS coffee phylogeny and the evolution of caffeine content". Molecular Phylogenetics and Evolution. 109: 351–361. Bibcode:2017MolPE.109..351H. doi:10.1016/j.ympev.2017.02.009. PMID 28212875.
  13. ^ Pruvot-Woehl, Solène; Krishnan, Sarada; Solano, William; Schilling, Tim; Toniutti, Lucile; Bertrand, Benoit; Montagnon, Christophe (1 April 2020). "Authentication of Coffea arabica Varieties through DNA Fingerprinting and its Significance for the Coffee Sector". Journal of AOAC International. 103 (2): 325–334. doi:10.1093/jaocint/qsz003. ISSN 1060-3271. PMID 33241280. Retrieved 1 April 2021.
  14. ^ Denoeud, France; et al. (5 September 2014). "The coffee genome provides insight into the convergent evolution of caffeine biosynthesis". Science. 345 (6201): 1181–1184. Bibcode:2014Sci...345.1181D. doi:10.1126/science.1255274. PMID 25190796.
  15. ^ Selby, Craig (31 May 2019). "SlimCafe is no longer available". SlimFast.
  16. ^ "Coffeeberry Cascara – Soluble, Sustainable | FutureCeuticals". www.futureceuticals.com.
  17. ^ "Starbucks". stories.starbucks.com.
  18. ^ "Brazilian Cascara". Dwellers Coffee. Archived from the original on 19 April 2021. Retrieved 20 July 2019.
  19. ^ Lashermes, P.; Combes, M.-C.; Robert, J.; Trouslot, P.; D'Hont, A.; Anthony, F.; Charrier, A. (1999). "Molecular characterisation and origin of the Coffea arabica L. genome". Molecular and General Genetics. 261 (2): 259–266. doi:10.1007/s004380050965. PMID 10102360. S2CID 7978085.
  20. ^ Davis, Aaron P.; Govaerts, Rafael; Bridson, Diane M. & Stoffelen, Piet (2006). "An annotated taxonomic conspectus of the genus Coffea (Rubiaceae)". Botanical Journal of the Linnean Society. 152 (4): 465–512. doi:10.1111/j.1095-8339.2006.00584.x.
  21. ^ "What is Coffee?". www.ncausa.org. Retrieved 14 July 2020.
  22. ^ Petek, Marcos Rafael; Sera, Tumoru; Alteia, Marcos Zorzenon (January 2005). "Genetic variability for frost resistance among Coffea accessions assessed in the field and in a cold chamber". Brazilian Archives of Biology and Technology. 48 (1): 15–21. doi:10.1590/S1516-89132005000100003.
  23. ^ "Coffee bean: commodity factsheet" (PDF). Mintec. Archived from the original (PDF) on 20 November 2016.
allikas: http://en.wikipedia.org/wiki/Cafe_(plant_genus)