Cinchona pubescens
Cinchona pubescens | |
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Scientific classification | |
Kingdom: | Plantae |
Clade: | Tracheophytes |
Clade: | Angiosperms |
Clade: | Eudicots |
Clade: | Asterids |
Order: | Gentianales |
Family: | Rubiaceae |
Genus: | Cinchona |
Species: | C. pubescens
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Binomial name | |
Cinchona pubescens Vahl, 1790
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Synonyms[2] | |
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Cinchona pubescens, also known as red cinchona and quina (Kina) ((in Spanish) Cascarilla, cinchona; (in Portuguese) quina-do-amazonas, quineira), is native to Central and South America. It is known as a medicinal plant for its bark's high quinine content- and has similar uses to Cinchona officinalis in the production of quinine, most famously used for treatment of malaria.[3]
Description
C. pubescens varies from small to large in size, growing to 10 meters in height (33 ft). When cut, the bark tends to turn red. Leaves are elliptical to oblate and thin. The leaves have pubescent teeth that turn red when they are older, hence its nickname the red quinine tree. Its flowers form in large panicles. They are pink and fragrant, while in the Galapagos they are light pink.[4]
Ecology
C. pubescens has the widest distribution of all Cinchona species, with the native range spanning Costa Rica, Panama, Venezuela, Colombia, Ecuador, Peru, and Bolivia.[5] In Ecuador it is distributed within an altitude from 300–3,900 metres (980–12,800 ft). It also grows well in volcanic soil with high nutrient levels.[6]
C. pubescens is a resilient species that is able to recover from even extreme damage. If the tree is felled but the stump is left, it can grow back new stalks.[7] If the bark is removed and the xylem is exposed to the elements, the tree will grow the bark back. The tree can even grow back if roots that are left in the ground are larger than 2 cm in diameter.[8]
It reproduces rapidly and spreads its seeds via wind. It reaches maturity and begins seeding in 4 years. Growing at a rate of 1–2 m per year, it quickly reaches a tall height where it can shade out the rest of the native plants. Adult trees grow much slower than juveniles.[9]
Invasive species
It has become an invasive species where planted outside of its native range, especially on tropical climate islands such as the Galapagos, Hawaii, and Tahiti.[10] In the Galapagos it has become a dominant species in the formerly shrub dominated Miconia and Fern-Sedge zones [11] on Santa Cruz Island.[12] It has been subject to control in the Galapagos National Park[13] to reduce its impacts using a variety of methods.[14] However, controlling it over its total range on Santa Cruz island would cost US$1.65 million according to research done through the Charles Darwin Foundation.[15]
According to Jäger et al. 2007, the species richness on Santa Cruz Island, Galapagos Islands has declined by 33% in the Miconia Zone and 10% in the Fern-Sedge Zone since the introduction C. pubescens.[16] It is also invasive in Hawaii, on Maui and the Big Island [17] C. pubescens was first introduced to these to be cultivated for quinine harvesting.[18]
Control Strategies
There are currently two strategies for removal of C. pubescens. They include a physical method and a chemical method. The physical method involves manually felling adult trees and fully removing the stumps. Samplings must be pulled out of the soil.[19] The chemical method uses herbicides diluted in water and sprayed on hack marks on the bark. Buddenhagen et al. tried this at the Galapagos Island National Park using a mixture of picloram and metsulfuron. This technique has been recommended to be performed in Tahiti and Hawaii since it is an invasive there as well.[20]
Buddenhagen et al. 2004 analyzed data using six different herbicide methods from 1999 to 2002 with a different trial each year: picloram salt, triclopyr ester, triclopyr salt, glyphosate, diesel fuel, and picloram and metsulfuron. The herbicide was sprayed onto the trees where they were hacked with machetes. In the first trial, triclopyr ester could control C. pubescens with 77% chance of the trees dying. In the second trial, a picloram and metsulfuron solution was 100% successful in concentrations greater than 4% solution. In the third trial, picloram- metsulfuron solution of 10% concentrations or higher was successful in eradicating the tree.[21]
References
- ^ Condit, R. 2021. Cinchona pubescens. The IUCN Red List of Threatened Species 2021: e.T49839551A176094290. https://dx.doi.org/10.2305/IUCN.UK.2021-1.RLTS.T49839551A176094290.en. Downloaded on 28 April 2021.
- ^ "Cinchona pubescens Vahl". Plants of the World Online. Board of Trustees of the Royal Botanic Gardens, Kew. 2017. Retrieved 11 July 2020.
- ^ (Kinyuy et al. 1993)
- ^ Invasive species in Hawaii Archived 2007-06-14 at the Wayback Machine
- ^ (Acosta-Solis 1945; Missouri Botanical Garden specimen database 2002) Its distribution is at well documented by the Missouri Botanic Garden's Nomenclatural Data Base w3TROPICOS Archived 2009-06-01 at the Wayback Machine
- ^ (Invasive Species Specialist Group
- ^ (Invasive Species Specialist Group
- ^ (Invasive Species Specialist Group
- ^ (Invasive Species Specialist Group
- ^ (Invasive Species Specialist Group
- ^ (sensu Wiggins and Porter 1971)
- ^ Buddenhagen & Yánez 2005; Buddenhagen et al. 2004; Jäger 1999; Kastdalen 1982; Lawesson 1990; Macdonald et al. 1988; Mauchamp 1997; Tye 2000; (and see more references below)
- ^ "Parque Nacional Galápagos". Archived from the original on 2009-02-16. Retrieved 2007-05-19.
- ^ http://wssa.allenpress.com/pdfserv/i0890-037X-018-05-1194.pdf Buddenhagen et al. 2004
- ^ http://www.darwinfoundation.org/en/ Archived 2018-11-30 at the Wayback Machine (Buddenhagen and Yanez 2005)
- ^ (Jäger et al. 2007)
- ^ Invasive species in Hawaii Archived 2007-06-14 at the Wayback Machine.
- ^ (Macdonald et al. 1988)
- ^ (Invasive Species Specialist Group
- ^ (Invasive Species Specialist Group; Budenhagen et al. 2004
- ^ (Buddenhagen et al. 2004)
Sources
- Acosta Solis, M. 1945. Botánica de las Cinchonas. Pages 29–55 in M. Acosta Solis, editor. Flora. Instituto Ecuadoriano de Ciencias Naturales, Quito.
- Acosta Solis, M. 1945. Habitat y distribución de las Cinchonas en el Ecuador.
- Pages 8–19 in M. Acosta Solis, editor. Flora. Instituto Ecuadoriano de Ciencias Naturales, Quito.
- Buddenhagen, C., and P. Yánez. 2005. The cost of quinine Cinchona pubescens control on Santa Cruz Island, Galapagos. Galapagos Research 63:32-36.
- Buddenhagen, C. E., J. L. Rentería, M. Gardener, S. R. Wilkinson, M. Soria, P. Yánez, A. Tye, and R. Valle. 2004. The Control of a Highly Invasive Tree Cinchona pubescens in Galapagos. Weed Technology 18:1194-1202.
- Cronk, Q. a. J. F. 1995. Plant Invaders: The threat to natural ecosystems. Chapman and Hall, London.
- Gibbs, J. P., W. G. Shriver, and H. Vargas. 2003. An assessment of a Galapagos Rail population over thirteen years (1986 to 2000). Journal of Field Ornithology 7*:136-140.
- Jäger, H. 1999. Impact of the introduced tree Cinchona pubescens Vahl. on the native flora of the highlands of Santa Cruz Island (Galapagos Islands). Page 102. University of Oldenburg, Oldenburg.
- Jäger, H., A. Tye, and I. Kowarik. 2007. Tree invasion in naturally treeless environments: Impacts of quinine (Cinchona pubescens) trees on native vegetation in Galápagos. Biological Conservation 140(3-4):297-307.
- /Kastdalen, A. 1982. Changes in the biology of Santa Cruz 1935-1965. Noticias de Galapagos 35:7-12.
- Kinyuy, W. C., D. Palevitch, and E. Putievsky. 1993. Through integrated biomedical\ethnomedical preparations and ethnotaxonomy, effective malaria and diabetic treatments have evolved. International symposium on medicinal and aromatic plants, Tiberias on the Sea of Galilee, Israel:205-214.
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- Macdonald, I. A. W., L. Ortiz, J. E. Lawesson, and J. B. Nowak. 1988. The invasion of highlands in Galapagos by the red quinine-tree Cinchona succirubra. Environmental Conservation 15:215-220.
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- Rentería, J. L., and C. Buddenhagen. 2006. Invasive plants in the Scalesia pedunculata forest at Los Gemelos, Santa Cruz, Galapagos. Galapagos Research 64:31-35.
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