Equisetum arvense, the field horsetailorcommon horsetail, is an herbaceousperennial plant in the Equisetidae (horsetails) sub-class, native throughout the arctic and temperate regions of the Northern Hemisphere. It has separate sterile non-reproductive and fertile spore-bearing stems growing from a perennial underground rhizomatous stem system. The fertile stems are produced in early spring and are non-photosynthetic, while the green sterile stems start to grow after the fertile stems have wilted and persist through the summer until the first autumn frosts.[2][3] It is sometimes confused with mare's tail, Hippuris vulgaris.[4]
Rhizomes can pierce through the soil up to 6 feet (1.8 m) in depth. This allows this species to tolerate many conditions and is hard to get rid of even with the help of herbicides.[5]
Linnaeusdescribed field horsetail with the binomialEquisetum arvense in his Species Plantarum of 1753.[6] The specific epithetarvense is from the Latin "arvum", meaning "ploughed", referencing the growth of the plant in arable soil or disturbed areas. The common name "common horsetail" references the appearance of the plant that when bunched together appears similar to a horse's tail.[7]
Many species of horsetail have been described and subsequently synonymized with E. arvense. One of these is E. calderi, a small form described from Arctic North America.[8]
Some other common names include "horse pipes", "bottle-brush", "snake-grass", "devil's-guts", "horsetail fern", "pine-grass", "meadow-pine", and "foxtail-rush".[9]
It is also known as "marestail", primarily in the UK,[10] but this common name is also used for the flowering aquatic plant Hippuris vulgaris and the common North American weed Erigeron canadensis.[11][12] The Finnish name of the plant peltokorte, literally meaning "field horsetail" refers to the latin name of the plant.
Equisetum arvense creeps extensively with its slender and felted rhizomes that freely fork and bear tubers. The erect or prostrate sterile stems are 10–90 cm (3.9–35.4 in) tall and 3–5 mm (0.12–0.20 in) diameter, with jointed segments around 2–5 cm (0.79–1.97 in) long with whorls of side shoots at the segment joints; the side shoots have a diameter of about 1 mm (0.039 in). Some stems can have as many as 20 segments. The solid and simple branches are ascending or spreading, with sheaths that bear attenuate teeth. The off-white fertile stems are of a succulent texture, 10–25 cm (3.9–9.8 in) tall and 3–5 mm (0.12–0.20 in) diameter, with 4–8 whorls of brown scale leaves and an apical brown spore cone. The cone is 10–40 mm (0.39–1.57 in) long and 4–9 mm (0.16–0.35 in) broad.[2] The fertile stems are typically precocious and appear in early spring.[13] It has changed little from its ancestors of the Carboniferous period.
The plant is difficult to control due to its extensive rhizomes and deeply buried tubers. Fire, mowing, or slashing is ineffective at removing the plant as new stems quickly grow from the rhizomes. Some herbicides remove aerial growth but regrowth quickly occurs albeit with a reduction in frond density.[7]
E. arvense is a nonflowering plant, multiplying through spores. It absorbs silicon from the soil, which is rare among herbs.[citation needed] It has a very high diploid number of 216 (108 pairs of chromosomes).[2]
Equisetum arvense grows in a wide range of conditions, in temperatures less than 5 °C (41 °F) to greater than 20 °C (68 °F) and in areas that receive annual rainfall as low as 100 mm (3.9 in) and as great as 2,000 mm (79 in). It commonly occurs in damp and open woodlands, pastures, arable lands, roadsides, disturbed areas, and near the edge of streams. It prefers neutral or slightly basic clay loams that are sandy or silty, especially where the water table is high, though it can occur occasionally on slightly acid soils.[7]
The plant contains several substances that can be used medicinally. It is rich in silicon (10%), potassium, calcium, manganese, magnesium and phosphorus, phytosterols, dietary fiber, vitamins A, E and C, tannins, alkaloids, saponins, flavonoids, glycosides and caffeic acid phenolic ester. The buds are eaten as a vegetableinJapan and Koreainspring. All other Equisetum species are toxic.[citation needed] In polluted conditions[citation needed], it may synthesize nicotine.[14]
Recent research has shown limited evidence of anti-inflammatory, diuretic, antimicrobial, and antioxidant properties. [15]
It was also once used to polish pewter and wood (gaining the name pewterwort) and to strengthen fingernails. It is also an abrasive. It was used by hurdy-gurdy players to dress the wheels of their instruments by removing resin build up.[16]
In horticulture and agriculture, an aqueous extract of E. arvense has been approved for use as a fungicide in the European Union and the United Kingdom (since Brexit).[17] Horsetail extract can be used to fungal pathogens on crops including:[18]
Equisetum is used in biodynamic farming (preparation BD 508) in particular to reduce the effects of excessive water around plants (such as fungal growth). The high silica content of the plant reduces the impact of moisture.[19]
E. arvense has been used in traditional Austrian herbal medicine internally as tea, or externally as baths or compresses, for treatment of disorders of the skin, locomotor system, kidneys and urinary tract, rheumatism and gout.[citation needed]
Externally it was traditionally used for chilblains and wounds.[20]
In Finnish traditional medicine, E. arvense has been especially valued for its high concentration of silicic acid and has been seen to help and been used in a number of ways:
Green summer shoots, dried, as a remedy.
Seen to prevent inflammation. strengthening skin ja immune system.
AdecoctionofE. arvense has been used internally to treat all kinds of lung diseases and externally to treat rashes and hard-to-treat wounds.[21]
^Dao-Lan, Xu; Jian-Guo, Cao; Quan-Xi, Wang; Xi-Ling, Dai (November 2015). "Cloning and Characterization of DEAD-box RNA Helicases Gene from the Fern Equisetum arvense". Plant Diversity and Resources. 36 (6): 715–722. doi:10.7677/ynzwyj201414036 (inactive 31 January 2024).{{cite journal}}: CS1 maint: DOI inactive as of January 2024 (link)
^ abcdW. T. Parsons, William Thomas Parsons, E. G. Cuthbertson (2001). Noxious Weeds of Australia (illustrated, revised ed.). Csiro Publishing. p. 14. ISBN9780643065147.{{cite book}}: CS1 maint: multiple names: authors list (link)
^Merrit Lyndon Fernald (1970). R. C. Rollins (ed.). Gray's Manual of Botany (Eighth (Centennial) – Illustrated ed.). D. Van Nostrand Company. p. 4. ISBN0-442-22250-5.