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Coffea arabica

January 01, 1970

This article is about the species of coffee plant. For methods of preparation of a drink, see Arabic coffee.

Coffea arabica (/əˈræbɪkə/), also known as the Arabica coffee, is a species of flowering plant in the coffee and madder family Rubiaceae. It is believed to be the first species of coffee to have been cultivated and is the dominant cultivar, representing about 60% of global production.[2] Coffee produced from the less acidic, more bitter, and more highly caffeinated robusta bean (C. canephora) makes up most of the remaining coffee production. The natural populations of Coffea arabica are restricted to the forests of South Ethiopia and Yemen.[3][4]

Coffea arabica
Coffea arabica flowers
Coffea arabica fruit
Scientific classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Asterids
Order: Gentianales
Family: Rubiaceae
Genus: Coffea
Species:
C. arabica
Binomial name
Coffea arabica

Taxonomy edit

Coffea arabica was first described scientifically by Antoine de Jussieu, who named it Jasminum arabicum after studying a specimen from the Botanic Gardens of Amsterdam. Linnaeus placed it in its own genus Coffea in 1737.[5]

Coffea arabica is one of the polyploid species of the genus Coffea, as it carries 4 copies of the 11 chromosomes (44 total) instead of the 2 copies of diploid species. Specifically, Coffea arabica is itself the result of a hybridization between the diploids Coffea canephora and Coffea eugenioides,[6] thus making it an allotetraploid, with two copies of two different genomes. This hybridization event at the origin of Coffea arabica is estimated between 1.08 million and 543,000 years ago and is linked to changing environmental conditions in East Africa.[7][8]

Description edit

Wild plants grow between 9 and 12 m (30 and 39 ft) tall, and have an open branching system; the leaves are opposite, simple elliptic-ovate to oblong, 6–12 cm (2.5–4.5 in) long and 4–8 cm (1.5–3 in) broad, glossy dark green. The flowers are white, 10–15 mm in diameter, and grow in axillary clusters. The seeds are contained in a drupe (commonly called a "cherry") 10–15 mm in diameter, maturing bright red to purple and typically containing two seeds, often called coffee beans.

Distribution and habitat edit

Endemic to the southwestern highlands of Ethiopia,[9] Coffea arabica is grown in dozens of countries between the Tropic of Capricorn and the Tropic of Cancer.[10] It is commonly used as an understory shrub. It has also been recovered from the Boma Plateau in South Sudan. Coffea arabica is also found on Mount Marsabit in northern Kenya, but it is unclear whether this is a truly native or naturalised occurrence; recent studies support it being naturalised.[11][12] The species is widely naturalised in areas outside its native land, in many parts of Africa, Latin America, Southeast Asia, India, China, and assorted islands in the Caribbean and in the Pacific.[13]

The coffee tree was first brought to Hawaii in 1813, and it began to be extensively grown by about 1850.[14] It was formerly more widely grown, especially in Kona,[14] and it persists after cultivation in many areas. In some valleys, it is a highly invasive weed.[15] In the Udawattakele and Gannoruwa Forest Reserves near Kandy, Sri Lanka, coffee shrubs are also a problematic invasive species.[16]

Coffee has been produced in Queensland and New South Wales of Australia, starting in the 1980s and 90s.[17] The Wet Tropics Management Authority has classified Coffea arabica as an environmental weed for southeast Queensland due to its invasiveness in non-agricultural areas.[18][19]

History edit

Main article: History of coffee

The first written record of coffee made from roasted coffee beans (botanical seeds) comes from Arab scholars, who wrote that it was useful in prolonging their working hours. The Arab innovation in Yemen of making a brew from roasted beans spread first among the Egyptians and Turks, and later on found its way around the world. Other scholars believe that the coffee plant was introduced from Yemen, based on a Yemeni tradition that slips of both coffee and qat were planted at Udein ('the two twigs') in Yemen in pre-Islamic times.[20] Arabica coffee production in Indonesia began in 1699 through the spread of Yemen's trade. Indonesian coffees, such as Sumatran and Java, are known for their heavy body and low acidity. This makes them ideal for blending with the higher acidity coffees from Central America and East Africa.[9]

Cultivation and use edit

 
Botanical drawing of Coffea arabica, around 1860
 
Botanical drawing of C. arabica, dating from around 1880.

Coffea arabica accounts for 60% of the world's coffee production.[2][21]

C. arabica takes approximately seven years to mature fully, and it does best with 1.0–1.5 metres (39–59 in) of rain, evenly distributed throughout the year.[citation needed] It is usually cultivated at an altitude between 1,300 and 1,500 m (4,300 and 4,900 ft),[citation needed] but there are plantations that grow it as low as sea level and as high as 2,800 m (9,200 ft).[22]

The plant can tolerate low temperatures, but not frost, and it does best with an average temperature between 15 and 24 °C (59 and 75 °F).[23] Commercial cultivars mostly only grow to about 5 m, and are frequently trimmed as low as 2 m to facilitate harvesting. Unlike Coffea canephora, C. arabica prefers to be grown in light shade.[24]

Two to four years after planting, C. arabica produces small, white, highly fragrant flowers. The sweet fragrance resembles the sweet smell of jasmine flowers. Flowers opening on sunny days result in the greatest number of berries. This can be problematic and deleterious, however, as coffee plants tend to produce too many berries; this can lead to an inferior harvest and even damage yield in the following years, as the plant will favor the ripening of berries to the detriment of its own health.

On well-kept plantations, overflowering is prevented by pruning the tree. The flowers only last a few days, leaving behind only the thick, dark-green leaves. The berries then begin to appear. These are as dark green as the foliage until they begin to ripen, at first to yellow and then light red and finally darkening to a glossy, deep red. At this point, they are called "cherries", which fruit they then resemble, and are ready for picking.

The berries are oblong and about 1 cm long. Inferior coffee results from picking them too early or too late, so many are picked by hand to be able to better select them, as they do not all ripen at the same time. They are sometimes shaken off the tree onto mats, which means ripe and unripe berries are collected together.

The trees are difficult to cultivate and each tree can produce from 0.5 to 5.0 kilograms (1.1 to 11.0 lb) of dried beans, depending on the tree's individual character and the climate that season. The most valuable part of this cash crop is the beans inside. Each berry holds two locules containing the beans. The coffee beans are actually two seeds within the fruit; sometimes, a third seed or one seed, a peaberry, grows in the fruit at the tips of the branches. These seeds are covered in two membranes; the outer one is called the "parchment coat" and the inner one is called the "silver skin".

On Java, trees are planted at all times of the year and are harvested year-round. In parts of Brazil, however, the trees have a season and are harvested only in winter. The plants are vulnerable to damage in such poor growing conditions as cold or low pH soil, and they are also more vulnerable to pests than the C. robusta plant.[25]

It is expected that a medium-term depletion of indigenous populations of C. arabica may occur, due to projected global warming, based on IPCC modelling.[26] Climate change—rising temperatures, longer droughts, and excessive rainfall—appears to threaten the sustainability of arabica coffee production, leading to attempts to breed new cultivars for the changing conditions.[27]

Gourmet coffees are almost exclusively high-quality mild varieties of arabica coffee, and among the best known arabica coffee beans in the world are those from Jamaican Blue Mountain, Colombian Supremo, Tarrazú, Costa Rica, Guatemalan Antigua, and Ethiopian Sidamo.[28][29][30]

Blends consisting only of Arabica are often labelled "100% Arabica" as a sign of quality. In 2023, several large coffee roasters dropped the "100% Arabica" declaration previously residing on some of their packages and started to blend less expensive Robusta coffee into the mix. To avoid making larger changes to the visual design of the package the Arabica label was replaced by other labeling, keeping the previous ornamental design, thereby presenting a case of shrinkflation. In some case, the coffee is still advertised as "100% Arabica" in flyers in 2024, but is no longer declared so on the actual package.

 
A Coffea arabica plantation in São João do Manhuaçu, Minas Gerais, Brazil

Strains edit

 
Structure of coffee berry and beans:
1: Center cut
2: Bean (endosperm)
3: Silver skin (testa, epidermis)
4: Parchment coat (hull, endocarp)
5: Pectin layer
6: Pulp (mesocarp)
7: Outer skin (pericarp, exocarp)

One strain of Coffea arabica naturally contains very little caffeine. While beans of normal C. arabica plants contain 12 mg of caffeine per gram of dry mass, these mutants contain only 0.76 mg of caffeine per gram, but with a taste similar to normal coffee.[31]

Threats edit

Although it has a huge wild population of 13.5 to 19.5 billion individuals throughout its native range, C. arabica is still considered endangered on the IUCN Red List due to numerous threats it faces. Due to being an understory plant, it requires standing forest, making it highly susceptible to the historically significant deforestation levels in Ethiopia; prior to major deforestation, forest cover was thought to be between 25–31% of Ethiopia's total land surface, but has dropped to just 4%, and deforestation still continues. In addition, climate change may have a major effect on growing areas for wild C. arabica in Ethiopia due to its high-temperature sensitivity, and estimates indicate that population could reduce by 50–80% with a 40–50% reduction in area of occupancy by 2088; climate change can also impact reproductive success. In addition, the main pest of coffee, the coffee berry borer (Hypothenemus hampei) may benefit from climate change and colonize higher altitudes that were formerly too cold for it, which can also impact coffee populations.[12]

The conservation of the genetic variation of C. arabica relies on conserving healthy populations of wild coffee in the Afromontane rainforests of Yemen. Genetic research has shown coffee cultivation is threatening the genetic integrity of wild coffee because it exposes wild genotypes to cultivars.[32] Nearly all of the coffee that has been cultivated over the past few centuries originated from just a handful of wild plants from Yemen, and the coffee growing on plantations around the world contains less than 1% of the diversity in the wilds of Yemen alone.[33]

Climate change also serves as a threat to cultivated C. arabica due to their temperature sensitivity, and some studies estimate that by 2050, over half of the land used for cultivating coffee could be unproductive. The more heat-tolerant Coffea stenophylla may replace C. arabica as the dominant coffee species in cultivation in order to guard against this.[34]

Gallery edit

  •  
    Coffee germinating.
  •  
    Coffea arabica growing at Olinda, Maui.
  •  
    Coffee flowers.
  •  
    Fresh coffee fruits.
  •  
    Fresh coffee seeds ("beans").
  •  
    Fermented coffee seeds.
  •  
    Fermented coffee (green) seeds without hulls.
  •  
    Fermented and roasted coffee seeds.
  •  
    Unroasted ("green") coffee (Coffea arabica) seeds from Brazil.

See also edit

  Coffee portal

References edit

  1. ^ Moat, J.; O'Sullivan, R.J.; Gole, T.W.; Davis, A.P. (2020). "Coffea arabica". IUCN Red List of Threatened Species. 2020: e.T18289789A174149937. doi:10.2305/IUCN.UK.2020-2.RLTS.T18289789A174149937.en. Retrieved 19 November 2021.
  2. ^ a b (PDF). United States Department of AgricultureForeign Agricultural Service. 16 June 2017. Archived from the original (PDF) on 8 December 2017. Retrieved 8 December 2017 – via Cornell University.
  3. ^ Meyer, Frederick G. 1965. Notes on wild Coffea arabica from Southwestern Ethiopia, with some historical considerations. Economic Botany 19: 136–151.
  4. ^ Söndahl, M. R.; van der Vossen, H. A. M. (2005). "The plant: Origin, production and botany". In Illy, Andrea; Viani, Rinantonio (eds.). Espresso Coffee: The Science of Quality (Second ed.). Elsevier Academic Press. p. 21. ISBN 978-0-12-370371-2.
  5. ^ Charrier, A.; Berthaud, J. (1985). "Botanical Classification of Coffee". In Clifford, M. H.; Wilson, K. C. (eds.). Coffee: Botany, Biochemistry and Production of Beans and Beverage. Westport, Connecticut: AVI Publishing. p. 14. ISBN 978-0-7099-0787-9.
  6. ^ Lashermes, P.; Combes, M.-C.; Robert, J.; Trouslot, P.; D'Hont, A.; Anthony, F.; Charrier, A. (1 March 1999). "Molecular characterisation and origin of the Coffea arabica L. genome". Molecular and General Genetics. 261 (2): 259–266. doi:10.1007/s004380050965. ISSN 0026-8925. PMID 10102360. S2CID 7978085.
  7. ^ Yves Bawin, Tom Ruttink, Ariane Staelens, Annelies Haegeman, Piet Stoffelen, Jean‐Claude Ithe Mwanga Mwanga, Isabel Roldán‐Ruiz, Olivier Honnay, Steven B. Janssens (2020). "Phylogenomic analysis clarifies the evolutionary origin of Coffea arabica". Journal of Systematics and Evolution. 59 (5): 953–963. doi:10.1111/jse.12694. S2CID 234481707.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  8. ^ Salojärvi, Jarkko; Rambani, Aditi; Yu, Zhe; Guyot, Romain; Strickler, Susan; Lepelley, Maud; Wang, Cui; Rajaraman, Sitaram; Rastas, Pasi; Zheng, Chunfang; Muñoz, Daniella Santos; Meidanis, João; Paschoal, Alexandre Rossi; Bawin, Yves; Krabbenhoft, Trevor J.; Wang, Zhen Qin; Fleck, Steven J.; Aussel, Rudy; Bellanger, Laurence; Charpagne, Aline; Fournier, Coralie; Kassam, Mohamed; Lefebvre, Gregory; Métairon, Sylviane; Moine, Déborah; Rigoreau, Michel; Stolte, Jens; Hamon, Perla; Couturon, Emmanuel; Tranchant-Dubreuil, Christine; Mukherjee, Minakshi; Lan, Tianying; Engelhardt, Jan; Stadler, Peter; Correia De Lemos, Samara Mireza; Suzuki, Suzana Ivamoto; Sumirat, Ucu; Wai, Ching Man; Dauchot, Nicolas; Orozco-Arias, Simon; Garavito, Andrea; Kiwuka, Catherine; Musoli, Pascal; Nalukenge, Anne; Guichoux, Erwan; Reinout, Havinga; Smit, Martin; Carretero-Paulet, Lorenzo; Filho, Oliveiro Guerreiro; Braghini, Masako Toma; Padilha, Lilian; Sera, Gustavo Hiroshi; Ruttink, Tom; Henry, Robert; Marraccini, Pierre; Van de Peer, Yves; Andrade, Alan; Domingues, Douglas; Giuliano, Giovanni; Mueller, Lukas; Pereira, Luiz Filipe; Plaisance, Stephane; Poncet, Valerie; Rombauts, Stephane; Sankoff, David; Albert, Victor A.; Crouzillat, Dominique; de Kochko, Alexandre; Descombes, Patrick (2024). "The genome and population genomics of allopolyploid Coffea arabica reveal the diversification history of modern coffee cultivars". Nature Genetics. 56 (4): 721–731. doi:10.1038/s41588-024-01695-w.
  9. ^ a b Martinez-Torres, Maria Elena (2006). Organic Coffee. Ohio University. ISBN 9780896802476. Retrieved 26 January 2016.
  10. ^ Hoffmann, James (2018). The World Atlas of Coffee 2nd Edition. Great Britain: Mitchell Beazley. p. 12. ISBN 978-1-78472-429-0.
  11. ^ Charrier & Berthaud (1985), p. 20.
  12. ^ a b Moat, J.; O'Sullivan, R. J.; Gole, T.; Davis, A. P. (2020). "Coffea arabica". IUCN Red List of Threatened Species. 2020: e.T18289789A174149937. doi:10.2305/IUCN.UK.2020-2.RLTS.T18289789A174149937.en.
  13. ^ Kew World Checklist of Selected Plant Families, Coffea arabica
  14. ^ a b Hargreaves, Dorothy; Hargreaves, Bob (1964). Tropical Trees of Hawaii. Kailua, Hawaii: Hargreaves. p. 17.
  15. ^ . Archived from the original on 21 October 2012. Retrieved 15 July 2011.
  16. ^ Nyanatusita, Bhikkhu; Dissanayake, Rajith (2013). "Udawattakele: 'A Sanctuary Destroyed From Within'" (PDF). Loris, Journal of the Wildlife and Nature Protection Society of Sri Lanka. 26 (5 & 6): 44.
  17. ^ "Coffee". AgriFutures Australia. Retrieved 2 September 2022.
  18. ^ Cripps, Sally (21 September 2015). "Coffee eradication wins weed award". Queensland Country Life.
  19. ^ Batianoff, George N.; Butler, Don W. (2002). "Assessment of invasive naturalized plants in south-east Queensland" (PDF). Plant Protection Quarterly. 17 (1): 27–34.
  20. ^ Western Arabia and the Red Sea, Naval Intelligence Division, London 2005, p. 490 ISBN 0-7103-1034-X
  21. ^ Marchant, Andrew (4 February 2023). "Intro to Arabica Coffee - Is 100% Arabica the Best Coffee?". Make Espresso. from the original on 1 March 2023. Retrieved 1 March 2023.
  22. ^ Schmitt, Christine B. (2006). Montane Rainforest with Wild Coffea Arabica in the Bonga Region (SW Ethiopia): Plant Diversity, Wild Coffee Management and Implications for Conservation. Cuvillier Verlag. p. 4. ISBN 978-3-86727-043-4.
  23. ^ Taye Kufa Obso (2006). Ecophysiological Diversity of Wild Arabica Coffee Populations in Ethiopia: Growth, Water Relations and Hydraulic Characteristics Along a Climatic Gradient. Cuvillier Verlag. p. 10. ISBN 978-3-86727-990-1.
  24. ^ Prado, Sara Guiti; Collazo, Jaime A.; Stevenson, Philip C.; Irwin, Rebecca E. (14 May 2019). "A comparison of coffee floral traits under two different agricultural practices". Scientific Reports. 9 (1): 7331. Bibcode:2019NatSR...9.7331P. doi:10.1038/s41598-019-43753-y. ISSN 2045-2322. PMC 6517588. PMID 31089179.
  25. ^ "Coffee: The World in Your Cup." Seattle, WA: Burke Museum at the University of Washington.
  26. ^ Davis, Aaron P.; Gole, Tadesse Woldemariam; Baena, Susana; Moat, Justin (2012). "The impact of climate change on indigenous arabica coffee (Coffea arabica): Predicting future trends and identifying priorities". PLOS ONE. 7 (11): e47981. Bibcode:2012PLoSO...747981D. doi:10.1371/journal.pone.0047981. PMC 3492365. PMID 23144840.
  27. ^ van der Vossen, Herbert; Bertrand, Benoît; Charrier, André (2015). "Next generation variety development for sustainable production of arabica coffee (Coffea arabica L.): A review". Euphytica. 204 (2): 244. doi:10.1007/s10681-015-1398-z. S2CID 17384126.
  28. ^ . Revista Veja (in Portuguese). Editora Abril. 31 July 2008. Archived from the original on 5 August 2008. Retrieved 29 July 2008. Edition 2071. Print edition p. 140
  29. ^ Fussell, Betty (5 September 1999). "The World Before Starbucks". The New York Times. Retrieved 29 July 2008.
  30. ^ Fabricant, Florence (2 September 1992). "Americans Wake Up and Smell the Coffee". The New York Times. Retrieved 29 July 2008.
  31. ^ Silvarolla, Maria B.; Mazzafera, Paulo; Fazuoli, Luiz C. (2004). "Plant biochemistry: A naturally decaffeinated arabica coffee". Nature. 429 (6994): 826. Bibcode:2004Natur.429..826S. doi:10.1038/429826a. PMID 15215853. S2CID 4428420.
  32. ^ Silvarolla, M. B.; Mazzafera, P.; Fazuoli, L. C. (2004). "Plant biochemistry: A naturally decaffeinated arabica coffee". Nature. 429 (6994): 826. Bibcode:2004Natur.429..826S. doi:10.1038/429826a. PMID 15215853. S2CID 4428420.
  33. ^ Rosner, Hillar y (October 2014). "Saving Coffee". Scientific American. 311 (4): 68–73. Bibcode:2014SciAm.311d..68R. doi:10.1038/scientificamerican1014-68. PMID 25314878.
  34. ^ "Climate change: Future-proofing coffee in a warming world". BBC News. 19 April 2021. Retrieved 24 April 2021.

Further reading edit

  • Silvarolla, Maria B.; Mazzafera, Paulo; Fazuoli, Luiz C. (2004). "A naturally decaffeinated arabica coffee". Nature. 429 (6994): 826. Bibcode:2004Natur.429..826S. doi:10.1038/429826a. PMID 15215853. S2CID 4428420.
  • Weinberg, Bennet Alan; Bealer, Bonnie K. (2001). The World of Caffeine: The Science and Culture of the World's Most Popular Drug. New York: Routledge. ISBN 978-0-415-92722-2.

External links edit

 
Wikimedia Commons has media related to Coffea arabica.
  • World Checklist of Rubiaceae
  • Understanding the difference between Arabica and Robusta 20 August 2016 at the Wayback Machine
  • CoffeeResearch.org

January 01, 1970
coffea, arabica, this, article, about, species, coffee, plant, methods, preparation, drink, arabic, coffee, also, known, arabica, coffee, species, flowering, plant, coffee, madder, family, rubiaceae, believed, first, species, coffee, have, been, cultivated, do. This article is about the species of coffee plant For methods of preparation of a drink see Arabic coffee Coffea arabica e ˈ r ae b ɪ k e also known as the Arabica coffee is a species of flowering plant in the coffee and madder family Rubiaceae It is believed to be the first species of coffee to have been cultivated and is the dominant cultivar representing about 60 of global production 2 Coffee produced from the less acidic more bitter and more highly caffeinated robusta bean C canephora makes up most of the remaining coffee production The natural populations of Coffea arabica are restricted to the forests of South Ethiopia and Yemen 3 4 Coffea arabica Coffea arabica flowers Coffea arabica fruit Conservation status Endangered IUCN 3 1 1 Scientific classification Kingdom Plantae Clade Tracheophytes Clade Angiosperms Clade Eudicots Clade Asterids Order Gentianales Family Rubiaceae Genus Coffea Species C arabica Binomial name Coffea arabicaL Contents 1 Taxonomy 2 Description 3 Distribution and habitat 4 History 5 Cultivation and use 6 Strains 7 Threats 8 Gallery 9 See also 10 References 11 Further reading 12 External linksTaxonomy editCoffea arabica was first described scientifically by Antoine de Jussieu who named it Jasminum arabicum after studying a specimen from the Botanic Gardens of Amsterdam Linnaeus placed it in its own genus Coffea in 1737 5 Coffea arabica is one of the polyploid species of the genus Coffea as it carries 4 copies of the 11 chromosomes 44 total instead of the 2 copies of diploid species Specifically Coffea arabica is itself the result of a hybridization between the diploids Coffea canephora and Coffea eugenioides 6 thus making it an allotetraploid with two copies of two different genomes This hybridization event at the origin of Coffea arabica is estimated between 1 08 million and 543 000 years ago and is linked to changing environmental conditions in East Africa 7 8 Description editWild plants grow between 9 and 12 m 30 and 39 ft tall and have an open branching system the leaves are opposite simple elliptic ovate to oblong 6 12 cm 2 5 4 5 in long and 4 8 cm 1 5 3 in broad glossy dark green The flowers are white 10 15 mm in diameter and grow in axillary clusters The seeds are contained in a drupe commonly called a cherry 10 15 mm in diameter maturing bright red to purple and typically containing two seeds often called coffee beans Distribution and habitat editEndemic to the southwestern highlands of Ethiopia 9 Coffea arabica is grown in dozens of countries between the Tropic of Capricorn and the Tropic of Cancer 10 It is commonly used as an understory shrub It has also been recovered from the Boma Plateau in South Sudan Coffea arabica is also found on Mount Marsabit in northern Kenya but it is unclear whether this is a truly native or naturalised occurrence recent studies support it being naturalised 11 12 The species is widely naturalised in areas outside its native land in many parts of Africa Latin America Southeast Asia India China and assorted islands in the Caribbean and in the Pacific 13 The coffee tree was first brought to Hawaii in 1813 and it began to be extensively grown by about 1850 14 It was formerly more widely grown especially in Kona 14 and it persists after cultivation in many areas In some valleys it is a highly invasive weed 15 In the Udawattakele and Gannoruwa Forest Reserves near Kandy Sri Lanka coffee shrubs are also a problematic invasive species 16 Coffee has been produced in Queensland and New South Wales of Australia starting in the 1980s and 90s 17 The Wet Tropics Management Authority has classified Coffea arabica as an environmental weed for southeast Queensland due to its invasiveness in non agricultural areas 18 19 History editMain article History of coffee The first written record of coffee made from roasted coffee beans botanical seeds comes from Arab scholars who wrote that it was useful in prolonging their working hours The Arab innovation in Yemen of making a brew from roasted beans spread first among the Egyptians and Turks and later on found its way around the world Other scholars believe that the coffee plant was introduced from Yemen based on a Yemeni tradition that slips of both coffee and qat were planted at Udein the two twigs in Yemen in pre Islamic times 20 Arabica coffee production in Indonesia began in 1699 through the spread of Yemen s trade Indonesian coffees such as Sumatran and Java are known for their heavy body and low acidity This makes them ideal for blending with the higher acidity coffees from Central America and East Africa 9 Cultivation and use edit nbsp Botanical drawing of Coffea arabica around 1860 nbsp Botanical drawing of C arabica dating from around 1880 Coffea arabica accounts for 60 of the world s coffee production 2 21 C arabica takes approximately seven years to mature fully and it does best with 1 0 1 5 metres 39 59 in of rain evenly distributed throughout the year citation needed It is usually cultivated at an altitude between 1 300 and 1 500 m 4 300 and 4 900 ft citation needed but there are plantations that grow it as low as sea level and as high as 2 800 m 9 200 ft 22 The plant can tolerate low temperatures but not frost and it does best with an average temperature between 15 and 24 C 59 and 75 F 23 Commercial cultivars mostly only grow to about 5 m and are frequently trimmed as low as 2 m to facilitate harvesting Unlike Coffea canephora C arabica prefers to be grown in light shade 24 Two to four years after planting C arabica produces small white highly fragrant flowers The sweet fragrance resembles the sweet smell of jasmine flowers Flowers opening on sunny days result in the greatest number of berries This can be problematic and deleterious however as coffee plants tend to produce too many berries this can lead to an inferior harvest and even damage yield in the following years as the plant will favor the ripening of berries to the detriment of its own health On well kept plantations overflowering is prevented by pruning the tree The flowers only last a few days leaving behind only the thick dark green leaves The berries then begin to appear These are as dark green as the foliage until they begin to ripen at first to yellow and then light red and finally darkening to a glossy deep red At this point they are called cherries which fruit they then resemble and are ready for picking The berries are oblong and about 1 cm long Inferior coffee results from picking them too early or too late so many are picked by hand to be able to better select them as they do not all ripen at the same time They are sometimes shaken off the tree onto mats which means ripe and unripe berries are collected together The trees are difficult to cultivate and each tree can produce from 0 5 to 5 0 kilograms 1 1 to 11 0 lb of dried beans depending on the tree s individual character and the climate that season The most valuable part of this cash crop is the beans inside Each berry holds two locules containing the beans The coffee beans are actually two seeds within the fruit sometimes a third seed or one seed a peaberry grows in the fruit at the tips of the branches These seeds are covered in two membranes the outer one is called the parchment coat and the inner one is called the silver skin On Java trees are planted at all times of the year and are harvested year round In parts of Brazil however the trees have a season and are harvested only in winter The plants are vulnerable to damage in such poor growing conditions as cold or low pH soil and they are also more vulnerable to pests than the C robusta plant 25 It is expected that a medium term depletion of indigenous populations of C arabica may occur due to projected global warming based on IPCC modelling 26 Climate change rising temperatures longer droughts and excessive rainfall appears to threaten the sustainability of arabica coffee production leading to attempts to breed new cultivars for the changing conditions 27 Gourmet coffees are almost exclusively high quality mild varieties of arabica coffee and among the best known arabica coffee beans in the world are those from Jamaican Blue Mountain Colombian Supremo Tarrazu Costa Rica Guatemalan Antigua and Ethiopian Sidamo 28 29 30 Blends consisting only of Arabica are often labelled 100 Arabica as a sign of quality In 2023 several large coffee roasters dropped the 100 Arabica declaration previously residing on some of their packages and started to blend less expensive Robusta coffee into the mix To avoid making larger changes to the visual design of the package the Arabica label was replaced by other labeling keeping the previous ornamental design thereby presenting a case of shrinkflation In some case the coffee is still advertised as 100 Arabica in flyers in 2024 but is no longer declared so on the actual package nbsp A Coffea arabica plantation in Sao Joao do Manhuacu Minas Gerais BrazilStrains edit nbsp Structure of coffee berry and beans 1 Center cut2 Bean endosperm 3 Silver skin testa epidermis 4 Parchment coat hull endocarp 5 Pectin layer6 Pulp mesocarp 7 Outer skin pericarp exocarp One strain of Coffea arabica naturally contains very little caffeine While beans of normal C arabica plants contain 12 mg of caffeine per gram of dry mass these mutants contain only 0 76 mg of caffeine per gram but with a taste similar to normal coffee 31 Threats editAlthough it has a huge wild population of 13 5 to 19 5 billion individuals throughout its native range C arabica is still considered endangered on the IUCN Red List due to numerous threats it faces Due to being an understory plant it requires standing forest making it highly susceptible to the historically significant deforestation levels in Ethiopia prior to major deforestation forest cover was thought to be between 25 31 of Ethiopia s total land surface but has dropped to just 4 and deforestation still continues In addition climate change may have a major effect on growing areas for wild C arabica in Ethiopia due to its high temperature sensitivity and estimates indicate that population could reduce by 50 80 with a 40 50 reduction in area of occupancy by 2088 climate change can also impact reproductive success In addition the main pest of coffee the coffee berry borer Hypothenemus hampei may benefit from climate change and colonize higher altitudes that were formerly too cold for it which can also impact coffee populations 12 The conservation of the genetic variation of C arabica relies on conserving healthy populations of wild coffee in the Afromontane rainforests of Yemen Genetic research has shown coffee cultivation is threatening the genetic integrity of wild coffee because it exposes wild genotypes to cultivars 32 Nearly all of the coffee that has been cultivated over the past few centuries originated from just a handful of wild plants from Yemen and the coffee growing on plantations around the world contains less than 1 of the diversity in the wilds of Yemen alone 33 Climate change also serves as a threat to cultivated C arabica due to their temperature sensitivity and some studies estimate that by 2050 over half of the land used for cultivating coffee could be unproductive The more heat tolerant Coffea stenophylla may replace C arabica as the dominant coffee species in cultivation in order to guard against this 34 Gallery edit nbsp Coffee germinating nbsp Coffea arabica growing at Olinda Maui nbsp Coffee flowers nbsp Fresh coffee fruits nbsp Fresh coffee seeds beans nbsp Fermented coffee seeds nbsp Fermented coffee green seeds without hulls nbsp Fermented and roasted coffee seeds nbsp Unroasted green coffee Coffea arabica seeds from Brazil See also editMaraba coffee National symbols of Yemen nbsp Coffee portalReferences edit Moat J O Sullivan R J Gole T W Davis A P 2020 Coffea arabica IUCN Red List of Threatened Species 2020 e T18289789A174149937 doi 10 2305 IUCN UK 2020 2 RLTS T18289789A174149937 en Retrieved 19 November 2021 a b Coffee World Markets and Trade PDF United States Department of Agriculture Foreign Agricultural Service 16 June 2017 Archived from the original PDF on 8 December 2017 Retrieved 8 December 2017 via Cornell University Meyer Frederick G 1965 Notes on wild Coffea arabica from Southwestern Ethiopia with some historical considerations Economic Botany 19 136 151 Sondahl M R van der Vossen H A M 2005 The plant Origin production and botany In Illy Andrea Viani Rinantonio eds Espresso Coffee The Science of Quality Second ed Elsevier Academic Press p 21 ISBN 978 0 12 370371 2 Charrier A Berthaud J 1985 Botanical Classification of Coffee In Clifford M H Wilson K C eds Coffee Botany Biochemistry and Production of Beans and Beverage Westport Connecticut AVI Publishing p 14 ISBN 978 0 7099 0787 9 Lashermes P Combes M C Robert J Trouslot P D Hont A Anthony F Charrier A 1 March 1999 Molecular characterisation and origin of the Coffea arabica L genome Molecular and General Genetics 261 2 259 266 doi 10 1007 s004380050965 ISSN 0026 8925 PMID 10102360 S2CID 7978085 Yves Bawin Tom Ruttink Ariane Staelens Annelies Haegeman Piet Stoffelen Jean Claude Ithe Mwanga Mwanga Isabel Roldan Ruiz Olivier Honnay Steven B Janssens 2020 Phylogenomic analysis clarifies the evolutionary origin of Coffea arabica Journal of Systematics and Evolution 59 5 953 963 doi 10 1111 jse 12694 S2CID 234481707 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link Salojarvi Jarkko Rambani Aditi Yu Zhe Guyot Romain Strickler Susan Lepelley Maud Wang Cui Rajaraman Sitaram Rastas Pasi Zheng Chunfang Munoz Daniella Santos Meidanis Joao Paschoal Alexandre Rossi Bawin Yves Krabbenhoft Trevor J Wang Zhen Qin Fleck Steven J Aussel Rudy Bellanger Laurence Charpagne Aline Fournier Coralie Kassam Mohamed Lefebvre Gregory Metairon Sylviane Moine Deborah Rigoreau Michel Stolte Jens Hamon Perla Couturon Emmanuel Tranchant Dubreuil Christine Mukherjee Minakshi Lan Tianying Engelhardt Jan Stadler Peter Correia De Lemos Samara Mireza Suzuki Suzana Ivamoto Sumirat Ucu Wai Ching Man Dauchot Nicolas Orozco Arias Simon Garavito Andrea Kiwuka Catherine Musoli Pascal Nalukenge Anne Guichoux Erwan Reinout Havinga Smit Martin Carretero Paulet Lorenzo Filho Oliveiro Guerreiro Braghini Masako Toma Padilha Lilian Sera Gustavo Hiroshi Ruttink Tom Henry Robert Marraccini Pierre Van de Peer Yves Andrade Alan Domingues Douglas Giuliano Giovanni Mueller Lukas Pereira Luiz Filipe Plaisance Stephane Poncet Valerie Rombauts Stephane Sankoff David Albert Victor A Crouzillat Dominique de Kochko Alexandre Descombes Patrick 2024 The genome and population genomics of allopolyploid Coffea arabica reveal the diversification history of modern coffee cultivars Nature Genetics 56 4 721 731 doi 10 1038 s41588 024 01695 w a b Martinez Torres Maria Elena 2006 Organic Coffee Ohio University ISBN 9780896802476 Retrieved 26 January 2016 Hoffmann James 2018 The World Atlas of Coffee 2nd Edition Great Britain Mitchell Beazley p 12 ISBN 978 1 78472 429 0 Charrier amp Berthaud 1985 p 20 a b Moat J O Sullivan R J Gole T Davis A P 2020 Coffea arabica IUCN Red List of Threatened Species 2020 e T18289789A174149937 doi 10 2305 IUCN UK 2020 2 RLTS T18289789A174149937 en Kew World Checklist of Selected Plant Families Coffea arabica a b Hargreaves Dorothy Hargreaves Bob 1964 Tropical Trees of Hawaii Kailua Hawaii Hargreaves p 17 Coffea arabica PIER species info Archived from the original on 21 October 2012 Retrieved 15 July 2011 Nyanatusita Bhikkhu Dissanayake Rajith 2013 Udawattakele A Sanctuary Destroyed From Within PDF Loris Journal of the Wildlife and Nature Protection Society of Sri Lanka 26 5 amp 6 44 Coffee AgriFutures Australia Retrieved 2 September 2022 Cripps Sally 21 September 2015 Coffee eradication wins weed award Queensland Country Life Batianoff George N Butler Don W 2002 Assessment of invasive naturalized plants in south east Queensland PDF Plant Protection Quarterly 17 1 27 34 Western Arabia and the Red Sea Naval Intelligence Division London 2005 p 490 ISBN 0 7103 1034 X Marchant Andrew 4 February 2023 Intro to Arabica Coffee Is 100 Arabica the Best Coffee Make Espresso Archived from the original on 1 March 2023 Retrieved 1 March 2023 Schmitt Christine B 2006 Montane Rainforest with Wild Coffea Arabica in the Bonga Region SW Ethiopia Plant Diversity Wild Coffee Management and Implications for Conservation Cuvillier Verlag p 4 ISBN 978 3 86727 043 4 Taye Kufa Obso 2006 Ecophysiological Diversity of Wild Arabica Coffee Populations in Ethiopia Growth Water Relations and Hydraulic Characteristics Along a Climatic Gradient Cuvillier Verlag p 10 ISBN 978 3 86727 990 1 Prado Sara Guiti Collazo Jaime A Stevenson Philip C Irwin Rebecca E 14 May 2019 A comparison of coffee floral traits under two different agricultural practices Scientific Reports 9 1 7331 Bibcode 2019NatSR 9 7331P doi 10 1038 s41598 019 43753 y ISSN 2045 2322 PMC 6517588 PMID 31089179 Coffee The World in Your Cup Seattle WA Burke Museum at the University of Washington Davis Aaron P Gole Tadesse Woldemariam Baena Susana Moat Justin 2012 The impact of climate change on indigenous arabica coffee Coffea arabica Predicting future trends and identifying priorities PLOS ONE 7 11 e47981 Bibcode 2012PLoSO 747981D doi 10 1371 journal pone 0047981 PMC 3492365 PMID 23144840 van der Vossen Herbert Bertrand Benoit Charrier Andre 2015 Next generation variety development for sustainable production of arabica coffee Coffea arabica L A review Euphytica 204 2 244 doi 10 1007 s10681 015 1398 z S2CID 17384126 Os melhores graos do mundo Revista Veja in Portuguese Editora Abril 31 July 2008 Archived from the original on 5 August 2008 Retrieved 29 July 2008 Edition 2071 Print edition p 140 Fussell Betty 5 September 1999 The World Before Starbucks The New York Times Retrieved 29 July 2008 Fabricant Florence 2 September 1992 Americans Wake Up and Smell the Coffee The New York Times Retrieved 29 July 2008 Silvarolla Maria B Mazzafera Paulo Fazuoli Luiz C 2004 Plant biochemistry A naturally decaffeinated arabica coffee Nature 429 6994 826 Bibcode 2004Natur 429 826S doi 10 1038 429826a PMID 15215853 S2CID 4428420 Silvarolla M B Mazzafera P Fazuoli L C 2004 Plant biochemistry A naturally decaffeinated arabica coffee Nature 429 6994 826 Bibcode 2004Natur 429 826S doi 10 1038 429826a PMID 15215853 S2CID 4428420 Rosner Hillar y October 2014 Saving Coffee Scientific American 311 4 68 73 Bibcode 2014SciAm 311d 68R doi 10 1038 scientificamerican1014 68 PMID 25314878 Climate change Future proofing coffee in a warming world BBC News 19 April 2021 Retrieved 24 April 2021 Further reading editSilvarolla Maria B Mazzafera Paulo Fazuoli Luiz C 2004 A naturally decaffeinated arabica coffee Nature 429 6994 826 Bibcode 2004Natur 429 826S doi 10 1038 429826a PMID 15215853 S2CID 4428420 Weinberg Bennet Alan Bealer Bonnie K 2001 The World of Caffeine The Science and Culture of the World s Most Popular Drug New York Routledge ISBN 978 0 415 92722 2 External links edit nbsp Wikimedia Commons has media related to Coffea arabica World Checklist of Rubiaceae Understanding the difference between Arabica and Robusta Archived 20 August 2016 at the Wayback Machine CoffeeResearch org Coffea arabica at Wikipedia s sister projects nbsp Media from Commons nbsp Taxa from Wikispecies nbsp Data from Wikidata Retrieved from https en wikipedia org w index php title Coffea arabica amp oldid 1220751218, wikipedia, wiki, book, books, library,

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