Streptosolen
Streptosolen | |
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Scientific classification | |
Kingdom: | Plantae |
Clade: | Tracheophytes |
Clade: | Angiosperms |
Clade: | Eudicots |
Clade: | Asterids |
Order: | Solanales |
Family: | Solanaceae |
Subfamily: | Cestroideae |
Tribe: | Browallieae |
Genus: | Streptosolen Miers |
Species: | S. jamesonii
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Binomial name | |
Streptosolen jamesonii |
Streptosolen is a monotypic genus of flowering plants of the family Solanaceae. It is closely related to the genus Browallia, within which it was originally placed. The single species, Streptosolen jamesonii,[1] the marmalade bush or fire bush,[2] is an evergreen shrub bearing loose clusters of flowers which change gradually from yellow to red as they develop, resulting in an overall appearance resembling orange marmalade (whence the name), found in open woodlands in Colombia, Venezuela, Ecuador, and Peru. In its native Ecuador, the plant has the Spanish common names flor de quinde (= 'hummingbird flower'), flor del sol (= 'flower of the sun') and jaboncillo (= 'little soap (plant)').[3]
[Note: the South American Spanish word quinde (hummingbird) is derived from the Quechua word quindi, having the same meaning. The word passed into Spanish because there was no pre-existing Spanish word for a family of birds found only in the New World.][4]
The red colouration (at maturity) of the flowers of Streptosolen jamesonii is typical of that of bird-pollinated flowers, as also is their lack of a strong scent and secretion of a great deal of nectar.[5][6] The iridescent green hummingbird species Chlorostilbon poortmani, the short-tailed emerald, is a frequent visitor to the flowers of Streptosolen jamesonii, pollinating them as it hovers to sip their nectar.[7]
Hunziker (2001) gives the further common names for the plant in Ecuador nacha, agua de oro (= 'water of gold'), and guizcho de bosque.[8]
Two other English vernacular names sometimes applied to the shrub are Orange Browallia and Yellow Heliotrope shrub[9]
The plant has become naturalized in certain localities in Hawaii.[10]
Description
Straggling, evergreen, shrub, clothed in rough, short hairs, 1.5–2 m in height, densely branched, bearing abundant glandular trichomes. Stems generally tall and slender. Leaves ovate to elliptic, petiolate, subcoriaceous, green to dark green, with a pattern of fine wrinkles, lower surfaces of blades with prominent nerves, the upper surface lacking stomata. Flowers borne in subcorymbose cymes; pedicels 5–16 mm long; calyx tubular, zygomorphic, netted with nerves, 8–10 mm long, 4–5-toothed, teeth unequal and shorter than tube; corolla funnel-shaped, zygomorphic, 20-30 mm long, golden-yellow, maturing to golden-reddish, tube slender, spirally contorted, not ventricose, limb rather narrow, up to 18 mm, somewhat slanted, 5-lobed, lobes broad and very short, apiculate or emarginate; the four stamens (the anterior one missing) with piliferous filaments, the upper lateral pair with short filaments (circa 3 mm long) and smaller anthers attached at the upper two thirds or three quarters of the corolla, the lower posterior pair with long filaments (circa 12 mm long), attached near the basal quarter of the corolla, and with bigger anthers (2.5 x 1.8 mm); pollen grains oblate-sphaeroidal, medium-sized; nectary annular, thick. Seed capsules globose, ovate, circa 5mm long, bearing 60–80 seeds. Seeds 0.6–0.9–mm long, cuboidal-elongated, testa reticulate.[8]
The blooms can appear nearly all year in mild-winter areas, but the heaviest flowering is from February to July.[11]
The corolla has been described as 'essentially upside-down' (due to the twisted nature of the corolla tube - that gives the genus its name) by botanists from the Natural History Museum, London.[12]
Influence of flower colour and nectar secretion on pollination
Streptosolen jamesonii flowers profusely over a period of several weeks and produces nectar in abundance. Nectar secretion commences around the time the flower opens and continues for about three days. Anther dehiscence coincides with the beginning of [ nectar ] secretion. As the flower matures, its colour changes from yellow through orange to scarlet. The age of the flower can be estimated quite accurately from the colour and diameter of the flower [ corolla ]...Nectar accumulates in the corolla tube. - R. W. Shuel[6]
Shuel described a gradual color change from yellow through orange to scarlet as flowers mature, allowing the pollinator to accurately estimate the age and possible nectar content of the flower. - Martin von Arx[13]
Taxonomy
The genus name Streptosolen is a compound of the Greek στρεπτός (streptos) 'twisted' and σολεν (solen) 'tube' - from the somewhat twisted structure of the corolla of the flower - hence "twisted-tube(d flower)". The specific name jamesonii commemorates Scottish-Ecuadorian botanist William Jameson,[14] Professor of Chemistry and Botany at the Universidad Central del Ecuador, Quito, compiler of a pioneering (but, sadly, unfinished - due to his demise) Flora of Ecuador. The binomial Streptosolen jamesonii was published by English botanist John Miers in the Journal of Natural History (entitled the Annals and Magazine of Natural History from 1841 until 1967) in the year 1850.[15]
Horticultural merit
In the UK this plant has gained the Royal Horticultural Society's Award of Garden Merit. With a minimum temperature of 7 °C (45 °F), this plant must be overwintered indoors in frost-prone areas.[16][17]
Emergency cattle fodder
Streptosolen jamesonii (common name Guizcho del bosque) 'Can be used as an emergency food for cattle when the pasture is bad'.[18]
[Note : the author does not give a translation of Ecuadorian Spanish word guizcho, which also forms an element in the vernacular name of another wild plant : Guizcho alto i.e. 'Tall guizcho', which is listed by Camp et al. (1987) as the name of the species known formerly as Malvastrum scoparium, but now as Malvastrum tomentosum (family Malvaceae). The name Guizcho del bosque, by contrast, means 'Guizcho of the forest'].
Folk medicinal use in Ecuador
The plant is but one of as many as 71 different medicinal plant species, from 33 different plant families, used in the preparation of Ecuadorian Horchata, a tonic drunk to improve physical and spiritual well-being in Ecuadorian folk medicine. The word horchata derives from the Latin hordeum (= barley) and refers to a very varied array of soft drinks consumed in Spain and Latin America, perhaps the best-known being horchata de chufas (tiger nut 'milk'). The very different, medicinal, Ecuadorian form of horchata is most popular in the south of the country and more especially in the province of Loja. Rios et al. (2017) list Streptosolen jamesonii as being included among the herbs used to prepare the tonic drink because of its alleged anti-inflammatory properties.[3]
Folk medicinal use in Peru
In the district of Ayabaca in the Piura Region in the northern Peruvian Andes, S. jamesonii - known locally by the name San Juan (="Saint John") - is used as a pediatric anthelmintic. A whole-plant decoction is prepared by boiling approximately 20g of plant material in a litre of water for thirty minutes. This must be drunk on an empty stomach to kill or stun the worms, followed by the taking of a purge - usually Huaminga - to cause the expulsion of the parasites from the bowels. Huaminga is a local vernacular name for a species of club-moss belonging to the genus Huperzia. If about 50 g of the whole plant of this species is ground and boiled in a litre of water, until the volume is reduced to 250ml, a cupful of resulting decoction, consumed after cooling, acts a drastic purgative. Huaminga is said also to be an anthelmintic in its own right, when prepared as a less concentrated decoction and consumed over a period of several days.[19]
[Note : by an oversight, De Feo (2003) lists an 'S. jamesonii' under the heading Solanum. While there IS a binomial Solanum jamesonii, it is likely that the genus De Feo intends is Streptosolen rather than Solanum, as the authors of the name S. jamesonii are given by De Feo as "(Benth.) Miers" (à la Streptosolen) and not "Bitter" (the binomial Solanum jamesonii Bitter is a synonym of Solanum oblongifolium Dunal.)]
Chemistry
Streptosolen jamesonii has been found to contain alkaloids which are also present in various Nicotiana species and also in Salpiglossis sinuata: nornicotine (principal alkaloid), nicotine and anabasine.[20]
Nornicotine has been found to have effects that are initially depressant and subsequently stimulant. It also increases intestinal motility through overall parasympathetic stimulation of the GI tract,[21] which, in combination with its toxicity to parasitic worms,[22] could account for the use of Streptosolen as an anthelmintic. Furthermore, the observation by Ecuadorian cattle-herders of their cattle's possible self-medication[22] by consumption of Streptosolen foliage would have led to the realization that the plant was non-toxic enough to be used as emergency cattle fodder (see above) and could even have the positive benefit of ridding the animals of parasitic worms (re. observation of increased worm-burden in cattle dung).
Anabasine is the active principle responsible for deaths from poisoning caused by the leaves of Nicotiana glauca, the Tree Tobacco.[23][24] The alkaloid Anabasine, a close structural relative of Nicotine, is named for the plant from which it was first isolated : the toxic Asian plant Anabasis aphylla (Chenopodiaceae). Recently, anabasine-related alkaloids have also been isolated from the venom of an ant belonging to the genus Aphaenogaster and a marine nematode worm.[25] Anabasine sulphate was a widely used botanical insecticide in the former Soviet Union until the 1970s.[21]
[Note: the use of the plant as cattle fodder, as a pediatric anthelmintic, and as a constituent of a folk-medicinal tonic (as listed above) suggests that the concentrations of toxic alkaloids in the plant are unlikely to be high - otherwise cases of accidental poisoning would be reported more frequently in the literature.]
Toxicity
The California Poison Control System assigns a code number '4' to the plant, a rating of 4 being assigned to plant species that constitute a major health risk, if consumed - especially in large amounts - with a likely risk of causing serious effects to the heart, liver, kidneys or brain.[26] Available accounts of the toxicity of Streptosolen jamesonii tend to be somewhat vague, hingeing upon its membership of a plant family noted for its many toxic species, rather than upon any well-documented cases of poisoning.
Gallery
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Streptosolen jamesonii single flower in extreme close-up, showing nodding, capitate stigma and two pairs of stamens with filaments of different lengths and anthers of different sizes.
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Streptosolen jamesonii : close-up of flowers of pot-grown specimen grown in cool glasshouse in Chelsea Physic Garden, London, U.K.
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Streptosolen jamesonii : same specimen with flowers seen in profile. Chelsea Physic Garden, London, U.K..
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Close-up of upper surfaces of leaf blades of Streptosolen jamesonii, showing characteristic pattern of fine wrinkles, reminiscent of those of certain Ceanothus spp.
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Close-up of lower surfaces of leaf blades of Streptosolen jamesonii, showing characteristic prominent nerves (veins).
References
- ^ a b "Search results for Streptosolen". The Plant List. Retrieved 1 March 2016.
- ^ NRCS. "Streptosolen jamesonii". PLANTS Database. United States Department of Agriculture (USDA). Retrieved 4 December 2015.
- ^ a b Montserrat Rios, Fani Tinitana, Pablo Jarrín, Natalia Donoso and Juan Carlos Romero-Benavides, “Horchata” drink in Southern Ecuador : medicinal plants and people’s wellbeing Journal of Ethnobiology and Ethnomedicine (2017).
- ^ https://educalingo.com/en/dic-es/quinde Retrieved 13.06 on 22/2/19.
- ^ Knudsen, Jette T.; Tollsten, Lars; Groth, Inga; Bergström, Gunnar; Raguso, Robert A. (2004). "Trends in floral scent chemistry in pollination syndromes: Floral scent composition in hummingbird-pollinated taxa". Botanical Journal of the Linnean Society. 146 (2): 191–199. doi:10.1111/j.1095-8339.2004.00329.x.
- ^ a b Shuel, RW (March 1961). "Influence of reproductive organs on secretion of sugars in flowers of Streptosolen jamesonii, Miers". Plant Physiology. 36 (2): 265–71. doi:10.1104/pp.36.2.265. PMC 406130. PMID 16655504.
- ^ https://www.hbw.com/ibc/photo/short-tailed-emerald-chlorostilbon-poortmani/green-tailed-emerald-sipping-nectar-flowers Retrieved 22.45 on 22/2/19
- ^ a b Armando T. Hunziker: The Genera of Solanaceae. A.R.G. Gantner Verlag K.G., Ruggell, Liechtenstein 2001. ISBN 3-904144-77-4
- ^ Website Gardenphotos.com https://garden-photos-com.photoshelter.com/gallery-image/Trees-Shrubs/G0000MkIaLN.JqQo/I0000qN.VCDJAdec Retrieved 13.28 on 1/3/19.
- ^ http://www.hear.org/Pier/wra/pacific/streptosolen_jamesonii_htmlwra.htm Retrieved 13.56 on 25/2/19.
- ^ RHS A-Z encyclopedia of garden plants. United Kingdom: Dorling Kindersley. 2008. p. 1136. ISBN 978-1405332965.
- ^ NHM Seeking nightshades in South America 2012 http://www.nhm.ac.uk/natureplus/blogs/solanacae-in-south-america/2012/03.1.html Retrieved 9.10 on 28/2/19
- ^ von Arx, Martin (28 October 2014). "Floral humidity and other indicators of energy rewards in pollination biology". Communicative & Integrative Biology. 6 (1): e22750. doi:10.4161/cib.22750. PMC 3689576. PMID 23802044.
- ^ http://www.reveleylodge.org/garden/plant-of-the-month-may-2017.html Retrieved 13.33 on 25/2/19
- ^ http://www.tropicos.org/Name/29603395 Retrieved 13.38 on 25/2/19.
- ^ "RHS Plant Selector - Streptosolen jamesonii". Archived from the original on 6 March 2014. Retrieved 5 July 2013.
- ^ "AGM Plants - Ornamental" (PDF). Royal Horticultural Society. July 2017. p. 100. Retrieved 26 November 2018.
- ^ 1987, Camp, Prieto, Jǿrgensen and Giler, Ethnobotanical Field Notes from Ecuador, Economic Botany, 41 (2) pps. 163-189.
- ^ De Feo, Vincenzo (April 2003). "Ethnomedical field study in northern Peruvian Andes with particular reference to divination practices". Journal of Ethnopharmacology. 85 (2–3): 243–256. doi:10.1016/S0378-8741(03)00017-5. PMID 12639748.
- ^ Eich, Prof. Dr. Eckhart, 2008, Solanaceae and Convolvulaceae : Secondary Metabolites - Biosynthesis, Chemotaxonomy, Biological and Economic Significance (A Handbook) pub. Springer-Verlag Berlin Heidelberg, ISBN 978-3-540-74541-9.
- ^ a b Ujváry, István (2010). "Pest Control Agents from Natural Products". Hayes' Handbook of Pesticide Toxicology. pp. 119–229. doi:10.1016/B978-0-12-374367-1.00003-3. ISBN 9780123743671.
- ^ a b Roulette, Casey J.; Mann, Hayley; Kemp, Brian M.; Remiker, Mark; Roulette, Jennifer W.; Hewlett, Barry S.; Kazanji, Mirdad; Breurec, Sébastien; Monchy, Didier; Sullivan, Roger J.; Hagen, Edward H. (September 2014). "Tobacco use vs. helminths in Congo basin hunter-gatherers: self-medication in humans?". Evolution and Human Behavior. 35 (5): 397–407. doi:10.1016/j.evolhumbehav.2014.05.005.
- ^ Mizrachi, N; Levy, S; Goren, ZQ (May 2000). "Fatal poisoning from Nicotiana glauca leaves: identification of anabasine by gas-chromatography/mass spectrometry". Journal of Forensic Sciences. 45 (3): 736–41. doi:10.1520/JFS14761J. PMID 10855991.
- ^ Foster, Steven (2002). Western Medicinal Plants and Herbs. Boston, NY: Houghton Mifflin Company. p. 339. ISBN 0-395-83806-1.
- ^ Daly, John W.; Martin Garraffo, H.; Spande, Thomas F. (1999). Alkaloids from Amphibian Skins. Alkaloids: Chemical and Biological Perspectives. Vol. 13. pp. 1–161. doi:10.1016/S0735-8210(99)80024-7. ISBN 978-0-08-043403-2.
- ^ https://calpoison.org/node/6596 Retrieved 13.20 on 25/2/19.
Further reading
- Pink, A. (2004). Gardening for the Million. Project Gutenberg Literary Archive Foundation.