Classification System: APG IV
Superregnum: Eukaryota
Regnum: Plantae
Cladus: Angiosperms
Cladus: Eudicots
Cladus: Core eudicots
Cladus: Asterids
Cladus: Campanulids
Ordo: Asterales
Familia: Asteraceae
Subfamilia: Cichorioideae
Tribus: Cichorieae
Subtribus: Scolyminae
Genus: Scolymus
Species: S. grandiflorus – S. hispanicus - S. maculatus
Nothospecies: S. × castaneus
Name
Scolymus Tourn. ex L., Sp. Pl. 2: 813. (1753)
Type species: Scolymus maculatus L., Sp. Pl. 2: 813. (1753)
References
Linnaeus, C. 1753. Species Plantarum. Tomus II: 813. Reference page.
Vázquez, F.M. 2000. The genus Scolymus Tourn. ex L. (Asteraceae): taxonomy and distribution. Anales del Jardin Botánico de Madrid 58(1): 83–100. PDF Reference page.
Hassler, M. 2018. Scolymus. World Plants: Synonymic Checklists of the Vascular Plants of the World In: Roskovh, Y., Abucay, L., Orrell, T., Nicolson, D., Bailly, N., Kirk, P., Bourgoin, T., DeWalt, R.E., Decock, W., De Wever, A., Nieukerken, E. van, Zarucchi, J. & Penev, L., eds. 2018. Species 2000 & ITIS Catalogue of Life. Published on the internet. Accessed: 2018 July 1. Reference page.
International Plant Names Index. 2018. Scolymus. Published online. Accessed: July 1 2018.
Tropicos.org 2018. Scolymus. Missouri Botanical Garden. Published on the internet. Accessed: 2018 JUne 1.
Vernacular names
العربية: سكوليمس
English: Golden thistle, Yellow thistle, Oyster thistle
suomi: Kultaohdakkeet
français: Scolyme
русский: Сколимус
Scolymus is a genus of annual, biennial or perennial, herbaceous plants that is assigned to the Daisy family, and can be found in Macaronesia, around the Mediterranean, and in the Middle East. All species are spiny, thistle-like in appearance, with flowerheads that consist of yellow (rarely orange or white) ligulate florets, and canals that contain latex. It is known as سكوليمس (skwlyms) in Arab, scolyme in French, and is sometimes called golden thistle or oyster thistle in English.[1]
Description
The species of Scolymus are spiny herbaceous annuals, biennials or perennials of up to 1¾ m high, that contain a milky latex. These have twenty chromosomes (2n=20).[2]
Root, stem and leaves
Biannual and perennial plants produce a stout taproot of up to 8 cm in diameter and 60 cm long. Young plants consist of a rosette of leaves, which may be variegated, once-pinnately spiny-lobed, to 30 cm long, and having short, fleshy stalks. The stems can be simple or carry many branches, and carry spiny wings along their lengths. The wavy leaves with prominent veins are pinnately divided and are alternately set along the stems. The leaf margin has prominent pale green or yellow veins and large teeth which are topped by fierce spines. The leaf surface may initially be covered in soft, felty hairs, which quickly clear away, most slowly on the veins.[1][3]
Inflorescence, flowers and fruits
flowerhead of S. hispanicus with mites and beetles
cypselas encased in their paleae
The flowerheads are seated at the end of the stem or in the limbs of the higher leaves, are arranged in a spike or a globose cluster and are subtended by two to more than five leaflike bracts. Each flowerhead is circled by an involucre that consists of many spine-tipped bracts in several rows, the outer papery and shorter than the inner ones, which are leaflike in consistency. These surround the common floral base (or receptacle), which is conical in shape and is set with ovate papery bracts called chaff or paleae. Inplanted are dorsally compressed cypselas, each enclosed by a palea, the outer rows higher than the inner ones. On top of the cypselas there may be two to five stiff scabrous bristles, which are equivalent to sepals (and are called pappus). Also, on top of the cypsela and within the pappus is a yellow, orange or white strap-like corolla which ends in five teeth, together comprising a ligulate floret.[1]
Characters common to all Asteraceae
Like in all Asteraceae, the pentameric flowers have anthers that are fused together forming a tube through which the style grows. The style picks up the pollen on hairs along its length and splits into two style branches at its tip. These parts sit on an inferior ovary that grows into an indehiscent fruit in which only one seed develops (a so-called cypsela). All florets are set on a common base (the receptacle), and are surrounded by several rows of bracts, that form an involucre.[1]
Characters common to Cichorieae
Golden thistles are assigned to the Cichorieae tribe that shares anastomosing latex canals in both root, stem and leaves, and has flower heads only consisting of one type of floret. In Scolymus these are ligulate florets, common to the group except for Warionia and Gundelia, which only have disk florets. A unique character setting Scolymus apart from the other Cichorieae are the dorsally compressed cypsellas which are surrounded by scales (or paleae).[1]
Differences between the species
S. maculatus is an annual of up to 1½ m high, there are more than five leaflike bracts subtending each globose cluster of flowerheads, and these bracts are pinnately divided. The yellow florets carry some black hairs. The cypselas do not have pappus at their top (but are encased by the paleae). The spined wings along the stems are uninterrupted. Leaves have a whitish vein along their margin.
S. grandiflorus is an annual or biennial of up to ¾ m high with one, two or three leaflike bracts subtending each cluster of flowerheads and these are spiny dentate. The yellow to orange florets do not have black hairs. The cypselas are topped by three to seven bristles of smooth pappus hairs (and are encased by the paleae). The spined wings along the stems are uninterrupted.
S. hispanicus is an annual, biennial or perennial of up to 1¾ m high and it also has one, two or three spiny dentate leaflike bracts subtending each cluster of flowerheads and the yellow, orange or white florets also lack black hairs. The cypselas however are topped by two to five bristles of scabrous pappus hairs (and are encased by the paleae). In this species the spined wings along the stems are interrupted.[1]
Taxonomy
Taxonomic history
In 1576 Carolus Clusius describes Scolimus Theophrasti (= S. hispanicus). In 1601 he extends the genus to three taxa, Scolymus Theophrasti Hispan. (= S. hispanicus subsp. hispanicus), S. Theophrasti Narbonensis (= S. maculatus), and Scolymus Dioscor. Castos Theophrasti (= S. grandiflorus). Rembert Dodoens in 1583 and Francesco Cupani in 1713 introduce the name Carduus Chrysanthemus (for S. maculatus), while in Johann Bauhin’s posthumously published great work, Historia plantarum universalis (1650-51), it is called Spina lutea, and Robert Morison in 1699 referred to S. hispanicus as Cichorium luteum.[1] Since all of these names predate the start of the Linnean nomenclature in 1753, neither of these were valid. In 1753 Carl Linnaeus referred to the description Joseph Pitton de Tournefort made in 1700, providing the valid scientific name Scolymus.[1]
Subdivisions
Generally two sections are recognised.
Scolymus, containing one species:
S. maculatus is a species showing very little variability, and no hybrids occur where it grows together with S. hispanicus.
Myscolus, containing two species
S. grandiflorus has some variability, particularly in the presence of soft hairs on the back of the leaves, but this is not regarded sufficient to distinguish between subtaxa.
S. hispanicus has quite some variability, and two subspecies have been distinguished.
subsp. occidentalis
subsp. hispanicum, which could be subdivided
var. aggregatus
var. aurantiacus
var. hispanicus [1]
Phylogeny
According to recent genetic analyses, the genus Scolymus is related to the genera Hymenonema, Catananche and Gundelia. This results in the following relationship tree.[4]
subtribe Scolyminae |
|
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Etymology
The genus name Scolymus derives from the Greek σχόλυμος (skolymus) meaning "artichoke". Pliny used this name for Scolymus hispanicus. The species name hispanicus is Latin and means "from Spain", while maculatus is Latin and means "spotted", and grandiflorus is also Latin and means "large-flowered".[5]
Distribution
Scolymus grandiflorus occurs in Spain including the Balearic Islands and the Canary Islands, southern France including Corsica, Italy including Sardinia, Turkey, Lebanon, Libya, Algeria, Tunisia and Morocco.
Scolymus hispanicus can be found from northwestern France southwards to Morocco, and in the east from the Ukraine to Iran. It is also naturalized in Australia, United States, Argentina and Chile.
Scolymus maculatus grows from Britain to the Canary Islands, throughout the Mediterranean eastwards to Iran. This species is naturalized in Australia and in North Carolina.[1]
Ecology
Scolymus hispanicus it said to grow in the centre of Spain along roads and paths, particularly in unstable, loose and poor soils. The also grow in arable lands, both cultivated and fallowed, and in pastures.[6] The florets are pollinated by insects.[7]
Use
leaves stripped to the middle vein for sale as vegetables
cooked egg on midveins of golden thistle
Around the Mediterranean, such as in Portugal, Spain, Morocco, Italy, Greece, Cyprus and Turkey, the midveins of the rosette leaves of S. hispanicus, known in Spain as cardillo or tagarnina, are used as a popular wild food. It is generally gathered in April and May. These midveins are preboiled and lightly fried with garlic in olive oil. These serve as garnish for cocido. Fried cardillo is further combined with garlic, cured ham, and hard-boiled or scrambled eggs. Midveins are also used raw in salads. The roots are cooked and eaten, and compare in taste to salsify. Roasted roots have been used as a coffee substitute. Florets have been used as imitation saffron.[6][8][9][10]
The root bark of S. hispanicus has been shown to contain the triterpenoid taraxasteryl acetate, and this substance is effective in suppressing spasms. In Turkey it is a component of a herbal elixir called lityazol çemil.[11]
Studies have indicated that Scolymus might be used for the bio-removal of cadmium, with the highest concentration measured over 50 μg/g dry weight, and of methylene blue and Eriochrome Black T.[12][13]
References
Váquez, F.M. (2000). "The genus Scolymus Tourn. ex L. (Asteraceae): taxonomy and distribution" (PDF). Anales del Jardín Botánico de Madrid. 58 (1): 83–100. Retrieved 2015-12-05.
Eshel, Amram; Beeckman, Tom (2013). Plant Roots: The Hidden Half (4 ed.). CRC Press. ISBN 9781439846483. Retrieved 2016-12-06.
"Golden thistle". California Department of Food and Agriculture. Retrieved 2016-12-05.
Liveri, Eleni; Tomasello, Salvatore; Oberprieler, Christoph; Kamari, Georgia (June 2016), Cytological and phylogenetic study of the Greek endemic genus Hymenonema Cass. (Cichorieae, Compositae), retrieved 2016-11-09
"Scolymus hispanicus". Flowers in Israel.
Polo, Sandra; Tardío, Javier; Vélez-del-Burgo, Ainhoa; Molina, María; Pardo-de-Santayana, Manuel (2009). "Knowledge, use and ecology of golden thistle (Scolymus hispanicus L.) in Central Spain". Journal of Ethnobiology and Ethnomedicine. 5 (42): 42. doi:10.1186/1746-4269-5-42. PMC 2808299. PMID 20028498.
"Scolymus hispanicus - Desf". Plants for a Future. Retrieved 2016-12-08.
Tardío, J.; Pascual, H.; Morales, R. (2005). "Wild food plants traditionally used in the province of Madrid, Central Spain". Economic Botany. 59 (2): 122–136. doi:10.1663/0013-0001(2005)059[0122:wfptui]2.0.co;2.
Lentini, Francesca; Venza, Francesca (2007). "Wild food plants of popular use in Sicily". Journal of Ethnobiology and Ethnomedicine. 3 (15): 15. doi:10.1186/1746-4269-3-15. PMC 1858679. PMID 17397527.
"Scolymus hispanicus - Spanish salsify". Practical Plants. Retrieved 2016-12-08.
Kirimer, Neş'e; Tunalier, Zeynep; K. Hüsnü Can Başer; Cingi, Ipek (1997). "Taraxasteryl Acetate Antispasmodic and Spasmogenic Effects of Scolymus hispanicus and Taraxasteryl Acetate on Isolated Ileum Preparation". Planta Medica. 63 (6): 556–558. doi:10.1055/s-2006-957765. PMID 17252378.
Barkaa, Noureddine; Abdennouria, Mohammed; Boussaoudb, Abdelghani; EL Makhfouk, Mohammed (2010). "Biosorption characteristics of Cadmium(II) onto Scolymus hispanicus L. as low-cost natural biosorbent". Desalination. 258 (1–3): 66–71. doi:10.1016/j.desal.2010.03.046.
Barkaa, Noureddine; Abdennouria, Mohammed; EL Makhfouk, Mohammed (2011). "Removal of Methylene Blue and Eriochrome Black T from aqueous solutions by biosorption on Scolymus hispanicus L.: Kinetics, equilibrium and thermodynamics". Journal of the Taiwan Institute of Chemical Engineers. 42 (2): 320–326. doi:10.1016/j.jtice.2010.07.004.
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