Trifolium repens

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White clover
Starr 070313-5645 Trifolium repens.jpg
Scientific classification
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T. repens
Binomial name
Trifolium repens
Synonyms[1]
Synonymy
  • Amoria repens (L.) C.Presl
  • Lotodes repens Kuntze
  • Trifolium limonium Phil.
  • Trifolium stipitatum Clos
  • Trifolium macrorrhizum Boiss., syn of subsp. macrorrhizum
  • Trifolium nevadense Boiss., syn of var. nevadense
  • Trifolium orbelicum Velen., syn of var. orbelicum
  • Trifolium orphanideum Boiss., syn of var. orphanideum
  • Trifolium biasolettii Steud. & Hochst., syn of subsp. prostratum
  • Trifolium occidentale Coombe, syn of subsp. prostratum

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Trifolium repens, the white clover[2] (also known as Dutch clover and Ladino [clover]), is a herbaceous perennial plant in the bean family Fabaceae native to Europe and central Asia. It has been widely introduced worldwide as a yard crop, and is now also common in most grassy areas of North America and New Zealand.[3][4][5][6][7][8][9] The species includes varieties often classed as small, intermediate and large, according to height, which reflects petiole length. The term “white clover” is applied to the species in general, “Dutch clover” is often applied to intermediate varieties (but sometimes to smaller varieties), and “ladino clover” is applied to large varieties.[10][11][12][13]

Name

The genus name, Trifolium, derives from the Latin tres, "three", and folium, "leaf", so called from the characteristic form of the leaf, which has three leaflets (trifoliate); hence the popular name "trefoil". The species name, repens, is Latin for "creeping". Trifolium repens L.(family Leguminosae).

Description

It is a herbaceous, perennial plant. It is low growing, with heads of whitish flowers, often with a tinge of pink or cream that may come on with the aging of the plant. The heads are generally 1.5–2 centimetres (0.6–0.8 in) wide, and are at the end of 7-cm (2.8-in) peduncles or flower stalks.[14] The flowers are mostly visited by bumblebees.[15] The leaves, are trifoliolate, smooth, elliptic to egg-shaped and long-petioled and usually with light or dark markings. The stems function as stolons, so white clover often forms mats, with the stems creeping as much as 18 cm (7.1 in) a year, and rooting at the nodes.[14] The leaves form the symbol known as shamrock.

Cultivation and uses

Forage

White clover has been described as the most important forage legume of the temperate zones.[16] Symbiotic nitrogen fixation (up to 545 kg N per hectare per year,[17] although usually much less, e.g. about 110 to 170 kg N per hectare per year[18]) in root nodules of white clover obviates synthetic nitrogen fertilizer use for maintaining productivity on much temperate zone pasture land. White clover is commonly grown in mixtures with forage grasses, e.g. perennial ryegrass (Lolium perenne),[19][20][21] Such mixtures can not only optimize livestock production, but can also reduce the bloat risk to livestock that can be associated with excessive white clover in pastures.[22] Such species mixtures also tend to avoid issues that could otherwise be associated with cyanogenic glycoside (linamarin and lotaustralin) intake on pure or nearly pure stands of some white clover varieties.[23] However, problems do not inevitably arise with grazing on monocultures of white clover, and superior ruminant production is sometimes achieved on white clover monocultures managed to optimize sward height.[24] Formononetin and biochanin A play a role in arbuscular mycorrhiza formation on white clover roots,[25] and foliar disease can stimulate production of estrogenic coumestans in white clover.[26] However while there have been a few reports of phytoestrogenic effects of white clover on grazing ruminants,[26] these have been far less common than such reports regarding some varieties of subterranean and red clover. Among forage plants, some white clover varieties tend to be favored by rather close grazing, because of their stoloniferous habit,[27][28] which can contribute to competitive advantage. T. repens is also considered as a folk medicine in India against intesinal helminthic worms and an experimental in vivo study validated that that the aerial shoots of T. repens bear significant anticestodal properties. Yadav, A. K. 2004. Anticestodal activity of Trifolium repens extract. Pharmaceutical Biology 42: 656-658.

Companion planting

White clover grows among turfgrass, crops, and in a large number of other landscapes.[14] It is also found in a limited range of different field type environments. White clover can tolerate close mowing, and can grow on many different types and pHs of soil, but prefers clay.[14] It is considered to be a beneficial component of natural or organic lawn care due to its ability to fix nitrogen and out-compete lawn weeds. Natural nitrogen fixing reduces leaching from the soil and can reduce the incidence of some lawn diseases that are enhanced by the availability of synthetic fertilizer.[29]

Culinary uses

White clover with four leaves.

Besides making an excellent forage crop for livestock,[30] clovers are a valuable survival food: they are high in proteins, widespread, and abundant. The fresh plants have been used for centuries as additives to salads and other meals consisting of leafy vegetables.

They are not easy for humans to digest raw, however, but this is easily fixed by boiling the harvested plants for 5–10 minutes.[citation needed][31] Dried flowerheads and seedpods can also be ground up into a nutritious flour and mixed with other foods, or can be steeped into an herbal tea. White clover flour is sometimes sprinkled onto cooked foods such as boiled rice.[citation needed]

Four leaf Trifolium repens, in its natural setting. Three-leaf shamrocks can be seen

When used in soups, the leaves are often harvested before the plant produces flowers. The roots are also edible, although they are most often cooked firsthand.[citation needed]

As an invasive weed

Before the introduction of broad-leaf herbicides, white clover was more often added to lawn seed mixes than it is today, as it is able to grow and provide green cover in poorer soils where turfgrasses do not perform well. Many people consider clover a weed when growing in lawns, in part because the flowers are attractive to bees and thus could create a danger for people with bare feet.

White clover is the only known plant on which the caterpillars of the Coleophoridae case-bearer moth Coleophora mayrella feed.[citation needed]

In Britain, a high abundance of white clover is generally associated with species-poor, agriculturally improved grassland habitats, as it out-competes the more rare plants and grasses especially in fertile soils, and has often been added as part of reseeding. Agri-environment schemes, such as the Countryside Stewardship Scheme, Environmentally Sensitive Areas Scheme, and Environmental Stewardship, give funding to species-rich grasslands that are relatively infertile and do not generally have an abundance of white clover. However, white clover does have value as a pollen and nectar source particularly in intensively farmed areas or amenity grasslands where there are few other flowers, and it can be found naturally at low levels in species-rich grasslands.[citation needed]

Varieties + Subspecies[1]
  • Trifolium repens subsp. macrorrhizum (Boiss.) Ponert
  • Trifolium repens var. nevadense (Boiss.) C.Vicioso
  • Trifolium repens var. ochranthum K.Maly
  • Trifolium repens var. orbelicum (Velen.) Fritsch
  • Trifolium repens var. orphanideum (Boiss.) Boiss.
  • Trifolium repens subsp. prostratum Nyman

References

  1. 1.0 1.1 Lua error in package.lua at line 80: module 'strict' not found.
  2. Lua error in package.lua at line 80: module 'strict' not found.
  3. Altervista Flora Italiana, Trifoglio strisciante, Weißklee, vitklöver, Trifolium repens L.
  4. Lua error in package.lua at line 80: module 'strict' not found.
  5. Böcher, T. W. 1978. Greenlands Flora 326 pp.
  6. Duchen, P. & S. G. Beck. 2012. Estudio taxonómico de las Leguminosas del Parque Nacional Area Natural de Manejo Integrado (PN-ANMI) Cotapata, La Paz-Bolivia. Revista de la Sociedad Boliviana de Botánica 6(1): 13–51.
  7. Correa A., M.D., C. Galdames & M. Stapf. 2004. Catálogo de las Plantas Vasculares de Panamá 1–599. Smithsonian Tropical Research Institute, Panamá
  8. Marticorena, C. & M. Quezada. 1985. Catálogo de la Flora Vascular de Chile. Gayana, Botánica 42: 1–157.
  9. Porsild, A. E. & W. Cody. 1980. Checklist of the Vascular Plants of the Northwest Territories Canada i–viii, 1–607. National Museum of Natural Sciences, Ottawa
  10. Barnes, R. F., C. J. Nelson, M. Collins, and K. J. Moore (eds.). 2003. Forages: an introduction to grassland agriculture. Vol. 1. 6th ed. Blackwell Publishing. 556 pp.
  11. Henning, J. C. and H. N. Wheaton. 1993. White, ladino and sweet clover. G4639. U. Missouri Extension. http://extension.missouri.edu/p/G4639
  12. Rasnake, M., G. D. Lacefield, J. C. Henning, N. L. Taylor and D. C. Ditsch. Growing white clover in Kentucky. Univ. Kentucky. AGR-93. http://www2.ca.uky.edu/agc/pubs/agr/agr93/agr93.htm
  13. White clover. Penn State University Extension. http://extension.psu.edu/plants/crops/forages/species/white-clover
  14. 14.0 14.1 14.2 14.3 Richard H. Uva, Joseph C. Neal and Joseph M. Ditomaso, Weeds of The Northeast, (Ithaca, NY: Cornell University Press, 1997), Pp. 236-237.
  15. Lua error in package.lua at line 80: module 'strict' not found.
  16. Elgersma, Anjo, and Jan Hassink. "Effects of white clover (Trifolium repens L.) on plant and soil nitrogen and soil organic matter in mixtures with perennial ryegrass (Lolium perenne L.)." Plant and Soil 197, no. 2 (1997): 177-186.
  17. Carlsson, G., and K. Huss-Danell. "Nitrogen fixation in perennial forage legumes in the field." Plant and Soil 253, no. 2 (2003): 353-372.
  18. Andrae, John. 2004. White clover establishment and management guide. B 1251. Univ. of Georgia Extension.
  19. Ulyatt, M. J., D. J. Thomson, D. E. Beever, R. T. Evans, and M. J. Haines. "The digestion of perennial ryegrass (Lolium perenne cv. Melle) and white clover (Trifolium repens cv. Blanca) by grazing cattle." British Journal of Nutrition 60, no. 01 (1988): 137-149.
  20. Evans, D. R., and T. A. Williams. "The effect of cutting and grazing managements on dry matter yield of white clover varieties (Trifolium repens) when grown with S23 perennial ryegrass." Grass and Forage Science 42, no. 2 (1987): 153-159.
  21. Moseley, G., and J. R. Jones. "The physical digestion of perennial ryegrass (Lolium perenne) and white clover (Trifolium repens) in the foregut of sheep." British Journal of Nutrition 52, no. 02 (1984): 381-390.
  22. Wolfe, E. C., and Alec Lazenby. "Bloat incidence and liveweight gain in beef cattle on pastures containing different proportions of white clover (Trifolium repens)." Animal Production Science 12, no. 55 (1972): 119-125.
  23. Crush, J. R., and J. R. Caradus. "Cyanogenesis potential and iodine concentration in white clover (Trifolium repens L.) cultivars." New Zealand Journal of Agricultural Research 38, no. 3 (1995): 309-316.
  24. Orr, R. J., A. J. Parsons, P. D. Penning, and T. T. Treacher. "Sward composition, animal performance and the potential production of grass/white clover swards continuously stocked with sheep." Grass and Forage Science 45, no. 3 (1990): 325-336.
  25. Siqueira, J. O., G. R. Safir, and M. G. Nair. "Stimulation of vesicular‐arbuscular mycorrhiza formation and growth of white clover by flavonoid compounds." New Phytologist 118, no. 1 (1991): 87-93.
  26. 26.0 26.1 Adams, Norman R. "Detection of the effects of phytoestrogens on sheep and cattle." Journal of Animal Science 73, no. 5 (1995): 1509-1515.
  27. Lane, L. A., J. F. Ayres and J. V. Lovett. "The pastoral significance, adaptive characteristics, and grazing value of white clover (Trifolium repens L.) in dryland environments in Australia: a review." Animal Production Science 40, no. 7 (2000): 1033-1046.
  28. Caradus, J. R. "Genetic diversity within white clover (Trifolium repens L.)." In Proceedings Agronomy Society of NZ, vol. 24, p. 2. 1994.
  29. The Organic Lawn Care Manual, Tukey, Storey Publishing. p 183.
  30. Lua error in package.lua at line 80: module 'strict' not found.
  31. Lee Allen Peterson, Edible Wild Plants, (New York City: Houghton Mifflin Company, 1977), P. 56.

Tangpu, V., Temjenmongla & Yadav, A. K. 2004. Anticestodal activity of Trifolium repens extract. Pharmaceutical Biology 42: 656-658.

External links