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Onopordum acanthium (L.)
Rounded Global Status Rank: GNR - Not Yet Ranked
Onopordum acanthium (Cotton thistle, Scotch thistle), is a flowering plant in the family Asteraceae. It is native to Europe and Western Asia from the Iberian Peninsula east to Kazakhstan, and north to central Scandinavia, and widely naturalised elsewhere. It is a vigorous biennial plant with coarse, spiny leaves and conspicuous spiny-winged stems.
It is a biennial plant, producing a large rosette of spiny leaves the first year. The plants typically germinate in the autumn after the first rains and exist as rosettes throughout the first year, forming a stout, fleshy taproot that may extend down 30 cm or more for a food reserve.
In the second year, the plant grows (0.2–) 0.5–2.5 (–3) m tall and a width of 1.5 m. The leaves are 10–50 cm wide, are alternate and spiny, often covered with white woolly hairs and with the lower surface more densely covered than the upper. The leaves are deeply lobed with long, stiff spines along the margins. Fine hairs give the plant a greyish appearance. The massive main stem may be 10 cm wide at the base, and is branched in the upper part. Each stem shows a vertical row of broad, spiny wings (conspicuous ribbon-like leafy material), typically 2–3 cm wide, extending to the base of the flower head.
The flowers are globe shaped, 2–6 cm in diameter, from dark pink to lavender, and are produced in the summer. The flower buds form first at the tip of the stem and later at the tip of the axillary branches. They appear singly or in groups of two or three on branch tips. The plants are androgynous, with both pistil and stamens, and sit above numerous, long, stiff, spine-tipped bracts, all pointing outwards, the lower ones wider apart and pointing downwards. After flowering, the ovary starts swelling and forms about 8,400 to 40,000 seeds per plant.
Distribution and habitat
Cotton thistle is native to Europe and Asia. The plant prefers habitats with dry summers, such as the Mediterranean region, growing best in sandy, sandy clay and calcareous soils which are rich in ammonium salts. It grows in ruderal places, as well as dry pastures and disturbed fields. Its preferred habitats are natural areas, disturbed sites, roadsides, fields, and especially sites with fertile soils, agricultural areas, range/grasslands, riparian zones, scrub/shrublands valleys and plains along with water courses. Temperature and moisture, rather than soil nutrient concentrations determine the ecological performance of Onopordum species.
In Europe, the plant tends to colonize disturbed pastures. In its native range, Cotton thistle is considered a weak competitor that needs regeneration gaps to develop and maintain stands; populations tend to retreat when disturbance ceases. The plant has been widely introduced at mid-latitudes across much of North America.
Cotton thistle can spread rapidly. For example, it was first found in Utah in 1963. By 1981, it covered approximately 6070 hectares in 17 counties. Eight years later, it had spread to cover more than 22,540 hectares in 22 counties.
Onopordum acanthium reproduces only by seeds. Most seeds germinate in autumn after the first rains, but some seeds can germinate year round under favourable moisture and temperature conditions. Seeds that germinate in late autumn become biennials. But when they germinate earlier, they can behave as annuals. Buried seed can remain viable in the soil seed bank for at least seven years and possibly for up to twenty years or more. Yearly seed production and seed dormancy are highly variable depending on environmental conditions. The slender and smooth achenes are about 3 mm long and are brown with gray markings. They are tipped with a pappus of slender bristles. Mainly locally dispersed by wind, or more widely by humans, birds, wildlife, livestock or streams, the seeds are sensitive to light and only germinate when close to the surface. Seedlings will emerge from soil depths up to 4.5 cm, with 0.5 cm being optimal. While some seeds will germinate in the dark, studies indicate that most germination occurs with alternating light/dark cycles, with 8 hours being the optimal day length.
The leaves of Cotton thistle provide food for the caterpillars of some Lepidoptera, such as the Thistle Ermine (Myelois circumvoluta).
Taxonomy and naming
Three subspecies are accepted:
- Onopordum acanthium subsp. acanthium. Most of the species' range.
- Onopordum acanthium subsp. gautieri (Rouy) Franco. France, Spain.
- Onopordum acanthium subsp. parnassicum (Boiss. & Heldr.) Nyman. Greece.
The botanical name is derived from the Ancient Greek words onos (donkey), perdo (to consume), and acanthos (thorn), meaning 'thorny donkey food'.
The common name of Cotton thistle derives from the cotton-like hairs on the leaves. Other names include Scots thistle or Scottish thistle, heraldic thistle and woolly thistle;. The name Scots thistle comes from the flower used as the national emblem of Scotland.
It is grown as an ornamental plant for its bold foliage and large flowers. It has been used to treat cancers and ulcers and to diminish discharges of mucous membranes. The receptacle was eaten in earlier times like an artichoke. The cottony hairs on the stem have been occasionally collected to stuff pillows. Oil from the seeds has been used for burning and cooking.
In the late 19th century, it was introduced to temperate regions of North America, South America, and Australia as an ornamental plant, and is now considered a major agricultural and wildland noxious weed. It has been recorded from nearly 50 countries. It is difficult to eradicate because of its drought resistance. It can spread rapidly and eventually dense stands prohibit foraging by livestock. Infestations of Cotton thistle often start in disturbed areas such as roadways, campsites, burned areas, and ditch banks. The weed adapts best to areas along rivers and streams, but can be a serious problem in pastures, grain fields and range areas. A single plantis imposing enough, but an entire colony can ruin a pasture or destroy a park or campsite, sometimes forming tall, dense, impenetrable stands. Besides creating an impenetrable barrier to humans and animals, the plant nearly eliminates forage use by livestock and some mammal species such as deer and elk.
Known infestations include most of the Pacific Northwest along with Utah, Colorado, New Mexico, Wyoming, Nebraska, and South Dakota. On western rangeland, infestations directly result in significant economic losses for ranchers. It is also widespread in Australia and New Zealand. In Australia it commonly hybridises with the related invasive Onopordum illyricum.
Small infestations may be physically removed or cut a few centimetres below the soil surface ensuring that no leaves remain attached to prevent regrowth. Mowing during early flowering will not kill the plant but will reduce seed production. Repeated treatments may be required because populations typically exhibit a wide range of developmental stages among individual plants. Slashing should be done prior to flowering since seed may mature in the seed head after cutting. Plants should not be mowed following seed set, as this increases chances for seed dispersal.
Because of their shorter life cycle, Cotton thistle plants can be effectively treated with herbicides. All herbicide treatments should be applied at the rosette stage of the plant. Generally, herbicide applications would be in early spring or autumn. One of the primary difficulties in chemical control of Cotton thistles is their ability to germinate nearly year round. From autumn to spring a range of plant sizes can be found which may result in variable success from chemical control. Herbicides are very effective on seedlings and young rosettes, but control becomes more variable with increasing plant age. Onopordum spp. seeds may persist for several years in the soil. Buried seed may persist for up to twenty years, and reinfestation is likely without yearly management. Therefore several years of re-treatment may be necessary. Picloram, dicamba, 2,4-D, dicamba + 2,4,-D, and metsulfuron are effective for controlling Cotton Thistle. Clopyralid is more selective for controlling plants in the Asteraceae family, but will also injure or kill legumes.
There are no biological control agents that have been specifically released for Cotton thistle control in the United States. A thistle head weevil Rhinocyllus conicus that feeds on Carduus pycnocephalus has also been shown to feed on Cotton thistle. However, this insect was the object of imprudent biological control introduction, and it became an invasive species that has threatened endangered native thistles in North America (Strong 1997). Establishment of this thistle head weevil as a biological control agent for Cotton thistle has been unsuccessful in the Pacific Northwest. A thistle crown weevil (Trichosirocalus horridus) that feeds on Musk, Bull, Plumeless, Italian, and Creeping Thistles will also feed on Cotton Thistle. In Australia, this insect has been shown to kill Cotton Thistle rosettes. The related Trichosirocalus briese is also being tested as a control agent. The Australian Painted Lady butterfly has been known to use this invasive species as a host plant, but the larvae do not do enough damage to the plant for this butterfly to be used as biological control agent.
In Australia, a total of seven insects have been released to control Cotton thistle. Two of the seven released insects are weevils, including Larinus latus which feeds on the seeds, and Lixus cardui, which bores in the stems.
- Integrated management
A combination of methods (IPM) is often more effective than any single method. An integrated pest management plan deals with prevention as well as control. Eradication of weed species is often not a practical goal, but in many cases reducing infestation to manageable levels is an achievable objective. Seed bank longevity is a major factor in managing Cotton Thistles. Re-establishing competitive perennial grasses and monitoring infested areas on a yearly basis is critical. Herbicides can successfully be used for reducing thistle populations and giving grasses a competitive advantage. However, they cannot be used as a stand alone solution. These techniques must be linked with good grazing practices in rangeland areas. Otherwise, the thistles will recolonize and rapidly replenish the seed bank to pre-control levels.
- ^ a b Clive A. Stace (2010). New Flora of the British Isles (3rd ed.). Cambridge: Cambridge University Press. p. 695. ISBN 978-0-521-70772-5.
- ^ Den virtuella floran: Onopordum acanthium (in Swedish, with maps)
- ^ Flora Europaea: Onopordum acanthium
- ^ a b c d e Tutin, T. G. et al., eds. (1976). Flora Europaea vol. 4. Cambridge University Press ISBN 0-521-08717-1
- ^ Flora of NW Europe: Cotton Thistle
- ^ Young, J.A. and R.A. Evans. 1969. "Control and ecological studies of Scotch thistle". Weed Science 17:60-63.
- ^ M. P. Austin, R. H. Groves, L. M. F. Fresco & P. E. Kaye (1985). "Relative growth of six thistle species along a nutrient gradient with multispecies competition". Journal of Ecology 73 (2): 667–684. JSTOR 2260503.
- ^ Ladislav Mucina (1989). "Syntaxonomy of the Onopordum acanthium communities in temperate and continental Europe". Vegetatio 81 (1–2): 107–115. doi:10.1007/BF00045516. JSTOR 20038441.
- ^ Taylor, R.J. 1990. "Northwest Weeds: The Ugly and Beautiful Villains of Fields, Gardens, and Roadsides". Mountain Press Publishing, Missoula, Montana.
- ^ Dewey, S.A. 1991. "Weed thistles of the western United States." In: James, L.F., J.O. Evans, M.H. Ralphs, and R.D. Child, eds. Noxious Range Weeds. Westview Press, Boulder, Colorado. pp. 247-253.
- ^ James A. Young & Raymond A. Evans (1972). "Germination and persistence of achenes of Scotch thistle". Weed Science 20 (1): 98–101. JSTOR 4042041.
- ^ Germplasm Resources Information Network: Onopordum acanthium
- ^ Holliday, C. (2005). Sharp Gardening. Timber Press ISBN 0-88192-699-X
- ^ Henriette's Herbal: Onopordum acanthium
- ^ M. Grieve (1971). A Modern Herbal: The Medicinal, Culinary, Cosmetic and Economic Properties, Cultivation and Folk-Lore of Herbs, Grasses, Fungi, Shrubs & Trees with Their Modern Scientific Uses. New York: Dover Publications.
- ^ CAB International. "Crop Protection Compendium, 2004 edition". CAB International, 2004.
- ^ a b c d e f Global Invasive Species Database: Onopordum acanthium
- ^ Tamar Valley Weed Strategy: Cotton Thistle
- ^ a b c Cotton Thistle (Onopordum acanthium L.) Control Guide
- ^ Beck, K.G. 1991. "Biennial thistle control with herbicides". In: James, L.F., J.O. Evans, M.H. Ralphs, and R.D. Child, eds. Noxious Range Weeds. Westview Press, Boulder, Colorado. pp. 254-259.
- ^ D. T. Briese, T. Thomann & J. Vitou (2002). "Impact of the rosette crown weevil Trichosirocalus briesei on the growth and reproduction of Onopordum thistles". Journal of Applied Ecology 39 (4): 688–698. doi:10.1046/j.1365-2664.2002.00747.x. JSTOR 827177.
- ^ Briese, D.T. (1989). "Natural enemies of carduine thistles in New South Wales". Journal of Australian Entomological Society 28: 125–126. doi:10.1111/j.1440-6055.1989.tb01209.x.
- ^ D. T. Briese, W. J. Pettit, A. Swirepik & A. Walker (2002). "A strategy for the biological control of Onopordum spp. thistles in South-eastern Australia". Biocontrol Science and Technology 12 (1): 121–136. doi:10.1080/09583150120110707.
- ^ Swirepik, A., Smyth, M., 2002. Biological control of broad-leafed pasture weeds (Paterson’s curse, Onopordum and nodding thistles): what have we achieved and where to from here?. In: Spafford J.H., Dodd, J., Moore, J.H. (Eds.), Proceedings of the 13th Australian Weeds Conference, Plant Protection of WA, Perth, pp. 373-376.
- Donald R. Strong (1997). "Fear no weevil?". Science 277 (5329): 1058–1059. doi:10.1126/science.277.5329.1058.
- Gianfranco Tucci, Marco Cosimo Simeone, Carlo Gregori and Fabio Maggini (1994). "Intergenic spacers of rRNA genes in three species of the Cynareae (Asteraceae)". Plant Systematics and Evolution 190 (3–4): 187–193. doi:10.1007/BF00986192.
Regularity: Regularly occurring
Regularity: Regularly occurring
|Rights holder/Author||Pablo Gutierrez, IABIN|
|Source||No source database.|
Foodplant / internal feeder
larva of Chaetostomella cylindrica feeds within capitulum of Onopordum acanthium
Foodplant / parasite
Erysiphe depressa parasitises live Onopordum acanthium
In Great Britain and/or Ireland:
Foodplant / spot causer
amphigenous colony of Ramularia hyphomycetous anamorph of Ramularia cynarae causes spots on live leaf of Onopordum acanthium
The following is a representative barcode sequence, the centroid of all available sequences for this species.
Barcode of Life Data Systems (BOLDS) Stats
Public Records: 6
Specimens with Barcodes: 7
Species With Barcodes: 1
Rounded National Status Rank: NNA - Not Applicable
Rounded National Status Rank: NNA - Not Applicable