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Cranberry Hibiscus
Scientific classification
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Species:
H. acetosella
Binomial name
Hibiscus acetosella


Hibiscus acetosella

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Hibiscus acetosella (cranberry hibiscus) is an angiosperm of the genus Hibiscus L. or rosemallow. Acetosella is of Latin origin and is derived from an old name for sorrel (Oxalis) which comes from the sour taste experienced when eating the young leaves of the plant.[1] Hibiscus acetosella is also known colloquially by African rosemallow, false roselle, maroon mallow, cranberry hibiscus, red leaved hibiscus, and red shield hibiscus.[2] It is one of the approximately 200-300 species that are seen in sub-tropic and tropic regions.[2] This ornamental is usually found in abandoned fields or open areas, marshes, and forest clearings.[2] Cranberry hibiscus is a member of a perennial group known as hardy hibiscus.[3] In contrast to the tropical hibiscus, hardy hibiscus can tolerate colder conditions, are more vigorous, longer lasting, and have larger flowers.[3] In colder climates, Hibiscus acetosella is easily an annual, but is often regarded as a perennial to zone 8-11.[4] During one season, the plant can grow 3-5 feet tall and 30 inches wide as a shrub-subshrub.[4]

Characteristics

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The foliage of cranberry hibiscus is similar to that of the Japanese maple. It has dicot leaves which vary in shape from 3-5-lobed to un-lobed or undivided in the upper leaves of the plant and are generally the size of a small child's hand, about 10x10cm.[5][2] They tend to be alternate, simple, and deeply cut with crenate or jagged edges.[6] Leaf color is observed as a dark maroon to a patchy red/green appearance. Stipules are linear, measured approximately 1.5cm in length.[2] Both stems and petioles (3cm-11cm in length) are smooth or generally free from hair.[2] Acetosella is further divided into a section called Furcaria, which is a group of approximately 100 species that have non-fleshy calyx or sepals.[2] The sepals contain 10 veins, 5 of which run to the apices of the segments; the other 5 run to the sinuses.[2] Stems tend to be variegated.[4] Flowers are solitary and sit atop a 1cm long pedicel. They vary in color and are most often the dark maroon that is characteristic of the foliage with darker vein-like markings. Flowers are rarely yellow in color and are about 2 inches deep. Each flower contains numerous stamens at about 2cm in length.[2] The cranberry hibiscus is bisexual and is thought to be self-pollinating. It produces seeds that are reniform and dark brown with dimensions of 3mmx2.5mm.[2]

Genetics

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Hibiscus acetosella is an allotetraploid [2n = 4x = 72] with a genome composition of AABB.Cite error: The <ref> tag has too many names (see the help page). It is often used to transfer genetic resistance to root-knot nematodes with compatible Hibiscus species.[2] Cranberry hibiscus is often grown after tomatoes and potatoes and related species of which are not resistant to nematodes[2]


Origin

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Hibiscus acetosella is thought to have come about via hybridization between Hibiscus asper Hook.f. and Hibiscus surattenesis L. secondary to their cultivation.[2] It was first recognized in 1896 by French botanists as a distinct plant and given the name it currently has. The plant was probably first found growing around African villages in the southern DR Congo-Angola-Zambia region. The crop was brought to Brazil and South-East Asia where it was most likely used as sustenance for slaves.[2] It is now considered more popular in Brazil than its original location in Africa, where it is now regularly cultivated and eaten as a spinach-like green.


Living conditions

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Cranberry hibiscus is cultivated in medium altitudes in areas of high rainfall although it does do fairly well in droughts.[2] It requires moist soil with good drainage and a range of partial shade to full sun exposure.[2] The plant does well in slightly acidic conditions with a soil pH between 6.1 and 6.5.[7] Cranberry hibiscus tends to flower late in season when days are shorter. Flowers open for a few hours during the late fall to early winter at midday.[4] Although the plant itself remains in bloom for a few weeks, once open, a flower remains so for just one day. Plants typically succumb to cold weather in the Midwest prior to flowers appearing

Growing at home

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Seeds germinate easily within 3-4 days in a container but tend to grow rapidly. Light is not required for germination. Cranberry hibiscus propagates well with cuttings, which will take root in soil or water.[4] The plant can be maintained in an oval form by pinching or cutting it back during the summer. Otherwise, it will have one dominant stem.[8]


Edible properties

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Cranberry hibiscus is mostly known for its slightly sour or pleasantly tart young leaves which are commonly used as a vegetable, either raw or cooked.[7] In South America, the leaves are used sparingly in salads and stir-fries. Leaves are best eaten in small quantities due to acid content and because they are mucilaginous.[7] Cranberry Hibiscus leaves also contribute to the décor of various dishes since they retain their color after being cooked.[7] Flowers are used to make teas or other drinks where they contribute color rather than taste. In Central America the flowers are combined with ice, sugar, lemon, or lime juice and water to make a purple lemonade.[2][7] The root is edible however thought of as fibrous and distasteful.[2] Contrary to similar species such as the Hibiscus sabdariffa, the calyx or sepals of Hibiscus acetosella is non-fleshy and not eaten.[7] In Angola a tea made from the leaves of cranberry hibiscus are used as a post-fever tonic and to treat anemia.[2] The plant is also utilized to treat myalgias by crushing leaves into cold water to bathe children.[2] The plant is thought to contain polyphenols, a compound that combats reactive nitrogen and oxygen species or RNOS that are generated as a biproduct from the body`s inflammatory response.[9] Therefore it is commonly used to treat inflammatory diseases.[10]

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References

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  1. ^ Klingaman, Gerald. "Red-Leafed Hibiscus." Red-Leafed Hibiscus. Division of Agriculture, University of Arkansas, 23 Sept. 2011. Web. 02 June 2013.
  2. ^ a b c d e f g h i j k l m n o p q r s t Gerardus J. H. Grubben (2004). Vegetables. PROTA. pp. 312–313. ISBN 978-90-5782-147-9. Retrieved 10 June 2013. Cite error: The named reference "Grubben2004" was defined multiple times with different content (see the help page).
  3. ^ a b Knox, Gary W. "Hardy Hibiscus for Florida Landscapes". University of Florida Extension. Retrieved 2013-06-02
  4. ^ a b c d e Mahr, Susan. "Hibiscus Acetosella." Wisconsin Master Gardener. University of Wisconsin, 21 Apr. 2008. Web. 02 Jan. 2013.
  5. ^ "PLANTS Profile for Hibiscus Acetosella (African Rosemallow) | USDA PLANTS." PLANTS Profile for Hibiscus Acetosella (African Rosemallow) | USDA PLANTS. United States Department of Agriculture, n.d. Web. 05 June 2013
  6. ^ Klingaman, Gerald. "Red-Leafed Hibiscus." Red-Leafed Hibiscus. Division of Agriculture, University of Arkansas, 23 Sept. 2011. Web. 02 June 2013.
  7. ^ a b c d e f "Cranberry Hibiscus." Edibleplantproject.org. N.p., n.d. Web. 05 June 2013.
  8. ^ Klingaman, Gerald. "Red-Leafed Hibiscus." Red-Leafed Hibiscus. Division of Agriculture, University of Arkansas, 23 Sept. 2011. Web. 02 June 2013.
  9. ^ Tsumbu CN, Deby-Dupont G, Tits M, Angenot L, Frederich M, Kohnen S, Mouithys-Mickalad A, Serteyn D, Franck T. Polyphenol Content and Modulatory Activities of Some Tropical Dietary Plant Extracts on the Oxidant Activities of Neutrophils and Myeloperoxidase. International Journal of Molecular Sciences. 2012; 13(1):628-650.
  10. ^ Tsumbu CN, Deby-Dupont G, Tits M, Angenot L, Frederich M, Kohnen S, Mouithys-Mickalad A, Serteyn D, Franck T. Polyphenol Content and Modulatory Activities of Some Tropical Dietary Plant Extracts on the Oxidant Activities of Neutrophils and Myeloperoxidase. International Journal of Molecular Sciences. 2012; 13(1):628-650.