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Urtica dioica, often known as common nettle, burn nettle, stinging nettle (although not all plants of this species sting) or nettle leaf, or just a nettle or stinger, is a herbaceous perennial flowering plant in the family Urticaceae. Originally native to Europe, much of temperate Asia and western North Africa,<ref name="POWO"/> it is now found worldwide. The species is divided into six subspecies, five of which have many hollow stinging hairs called trichomes on the leaves and stems, which act like hypodermic needles, injecting histamine and other chemicals that produce a stinging sensation upon contact ("contact urticaria", a form of contact dermatitis).<ref name="Drugscom-2009">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref name="Per_Brodal-2010">Template:Cite book</ref>
The plant has a long history of use as a source for traditional medicine, food, tea, and textile raw material in ancient (such as Saxon) and modern societies.<ref name="POWO"/><ref>Template:Cite journal</ref>
DescriptionEdit
Urtica dioica is a dioecious, herbaceous, and perennial plant. It grows to Template:Convert tall in the summer and dying down to the ground in winter.<ref name="PlantsforaFuture-2012">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> It has widely spreading rhizomes and stolons, which are bright yellow, as are the roots. The soft, green leaves are Template:Convert long and are borne oppositely on an erect, wiry, green stem. The leaves have a strongly serrated margin, a cordate base, and an acuminate tip with a terminal leaf tooth longer than adjacent laterals. It bears small, greenish or brownish, numerous flowers in dense axillary inflorescences.
The leaves and stems are very hairy with non-stinging hairs, and in most subspecies, also bear many stinging hairs (trichomes or spicules), whose tips come off when touched, transforming the hair into a needle that can inject several chemicals causing a painful sting or paresthesia, giving the species its common names: stinging nettle, burn-nettle, burn-weed, or burn-hazel.<ref name="PlantsforaFuture-2012"/><ref name="Drugscom-2009"/><ref name="UniCalif">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>
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TaxonomyEdit
Credit for the scientific naming of Urtica dioica is given to Carl Linnaeus, who published it in Species Plantarum in 1753.<ref name="POWO" /> The taxonomy of Urtica species is confused, and sources are likely to use a variety of systematic names for these plants. Until 2014 there was broad consensus that the nettles native to the Americas, now classified as Urtica gracilis, were subspecies of U. dioica. However, in that year the paper "Weeding the Nettles II" was published in the journal Phytotaxa demonstrating the genetic distinctness of New World nettles.<ref name="Henning-2014">Template:Cite journal</ref> As of 2023 Plants of the World Online (POWO) recognizes U. gracilis as a distinct species while the USDA Natural Resources Conservation Service PLANTS database continues to list it as U. dioica subsp. gracilis, as does the Flora of North America.<ref>Template:Cite POWO</ref><ref>Template:Cite usda plants</ref><ref name="Boufford-2020">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>
As of 2023 POWO recognizes 11 subspecies or varieties of U. dioica:<ref name="POWO" />
- Urtica dioica subsp. afghanica Chrtek, from southwestern and central Asia, sometimes has stinging hairs or is sometimes hairless.<ref name="FloraChina">{{#invoke:citation/CS1|citation
|CitationClass=web }}</ref>
- Urtica dioica subsp. dioica (European stinging nettle), from Europe, Asia, and northern Africa, has stinging hairs.<ref>Template:Cite POWO</ref>
- Urtica dioica subsp. gansuensis C.J.Chen, from eastern Asia (China), has stinging hairs.<ref name="FloraChina"/>
- Urtica dioica var. glabrata (Clem.) Asch. & Graebn.
- Urtica dioica var. hispida (Lam. ex DC.) Tausch ex Ott
- Urtica dioica var. holosericea Fr.
- Urtica dioica subsp. kurdistanica Chrtek
- Urtica dioica subsp. pubescens(Ledeb.) Domin, in many sources as U. dioica subsp. galeopsifolia (fen nettle or stingless nettle), from Europe, does not have stinging hairs.<ref>Template:Cite POWO</ref>
- Urtica dioica var. sarmatica Zapał.
- Urtica dioica subsp. sondenii(Simmons) Hyl.
- Urtica dioica subsp. subinermis (R.Uechtr.) Weigend
EtymologyEdit
Urtica is derived from a Latin word meaning 'sting'.<ref name="Gledhill-2008">Gledhill, David (2008). "The Names of Plants". Cambridge University Press. Template:ISBN (hardback), Template:ISBN (paperback). pp 142, 395</ref>
Dioica (δίοικος) is derived from Greek, meaning 'of two houses' (having separate staminate and pistillate plants; dioecious).<ref name="Gledhill-2008" />
Distribution and habitatEdit
U. dioica is considered to be native to Europe, much of temperate Asia and western North Africa.<ref name="POWO">Template:Cite POWO</ref> It is abundant in northern Europe and much of Asia, usually found in the countryside.Template:Citation needed It is less widespread in southern Europe and north Africa, where it is restricted by its need for moist soil, but is still common. It has been introduced to many other parts of the world. In North America, it is widely distributed in Canada and the United States, where it is found in every province and state except for Hawaii, and also can be found in northernmost Mexico. It grows in abundance in the Pacific Northwest, especially in places where annual rainfall is high. The European subspecies has been introduced into Australia, North America and South America.<ref name="USForServ">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref name="OhioStateUni">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>
In Europe, nettles have a strong association with human habitation and buildings. The presence of nettles may indicate the site of a long-abandoned building, and can also indicate soil fertility.<ref>Template:Cite newsTemplate:Cbignore</ref> Human and animal waste may be responsible for elevated levels of phosphate<ref>Template:Cite book</ref> and nitrogen in the soil, providing an ideal environment for nettles.
EcologyEdit
Nettles are the larval food plant for several species of butterflies, such as the peacock butterfly,<ref>Heiko Bellmann: Der Neue Kosmos Schmetterlingsführer, Schmetterlinge, Raupen und Futterpflanzen, pg. 170, Frankh-Kosmos Verlags-GmbH & Co, Stuttgart 2003, Template:ISBN.</ref> comma (Polygonia c-album), and the small tortoiseshell. It is also eaten by the larvae of some moths including angle shades, buff ermine, dot moth, the flame, the gothic, grey chi, grey pug, lesser broad-bordered yellow underwing, mouse moth, setaceous Hebrew character, and small angle shades. The roots are sometimes eaten by the larva of the ghost moth (Hepialus humuli).
It is a known host to the pathogenic fungus Phoma herbarum.<ref Name="Hallgrímsson-2004">Helgi Hallgrímsson & Guðríður Gyða Eyjólfsdóttir (2004). Íslenskt sveppatal I - smásveppir [Checklist of Icelandic Fungi I - Microfungi. Fjölrit Náttúrufræðistofnunar. Náttúrufræðistofnun Íslands [Icelandic Institute of Natural History]. ISSN 1027-832X</ref>
Stinging nettle is particularly found as an understory plant in wetter environments, but it is also found in meadows. Although nutritious, it is not widely eaten by either wildlife or livestock, presumably because of the sting. It spreads by abundant seeds and also by rhizomes, and is often able to survive and re-establish quickly after fire.<ref name="Carey-1995">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>
CultivationEdit
FieldEdit
Sowing and plantingEdit
Three cultivation techniques can be used for the stinging nettle: 1) direct sowing, 2) growing seedlings in nurseries with subsequent transplantation and 3) vegetative propagation via stolons or head cuttings.<ref>Template:Cite journal</ref>
- Direct sowing: The seedbed should have a loose and fine structure, but should be reconsolidated using a packer roller imminently prior to sowing.<ref name="Bomme-1996a">Template:Cite journal</ref> Sowing time can be either in autumn<ref name="Heeger-1956">Template:Cite book</ref> or in spring.<ref name="Bomme-1996b">Template:Cite journal</ref> Seed density should be 6 kilograms/hectare with row spacing of Template:Convert and 42–50 cm in autumn and spring, respectively.<ref name="Bomme-1996a" /><ref name="Heeger-1956" /><ref name="Pelzmann-1999">Template:Cite journal</ref> The disadvantage of direct sowing is that it usually leads to incomplete plant coverage.<ref name="Bomme-1996a" /><ref name="Pelzmann-1999" /> This drawback can be mitigated by covering the seedbed with a transparent perforated foil in order to improve seed germination.<ref name="Bomme-1996a" /><ref name="Heeger-1956" /> Further, weed control can be problematic as the stinging nettle has a slow seedling development time.<ref name="Bomme-1996a" />
- Growing seedlings: For this technique pre-germinated seeds are sown between mid-/end-February and beginning of April and grown in nurseries. Seedlings are grown in tuffs with 3–5 plants/tuff and a seed density of 1.2–1.6 kg/1000 tuffs. Faster germination is achieved by alternating high temperature during daytime (30 °C for 8 h) and lower temperature during nighttime (20 °C for 16 h).<ref name="Bomme-1996a" /><ref name="Pelzmann-1999" /> Before transplanting, the seedlings should be fertilized and acclimated to cold temperatures.<ref name="Bomme-1996a" /> Transplantation should start around Mid-April with row spacing of Template:Convert and plant spacing within rows of 25–30 cm.<ref name="Bomme-1996b" /><ref name="Pelzmann-1999" />
- Vegetative propagation: Stolons (with several buds) of 10 cm should be planted from mid-April in a depth of Template:Convert.<ref name="Bomme-1996b" /> Head cuttings are grown in nurseries starting between mid-May and mid-June. Growing tips with two leaf pairs are cut from the mother plant and treated with root-growth inducing hormones. Transplantation can be delayed in comparison to the growing seedling technique.<ref name="Bomme-1996a" />
GreenhouseEdit
The stinging nettle can also be grown in controlled-environment agriculture systems, such as soil-less medium cultivations or aeroponics, which may achieve higher yields, standardize quality, and reduce harvesting costs and contamination.<ref name="Pagliarulo-2004">Template:Cite journal</ref>
Sting and treatmentEdit
Urtica dioica produces its inflammatory effect on skin (a stinging, burning sensation often called "contact urticaria") both by impaling the skin via spicules – causing mechanical irritation – and by biochemical irritants, such as histamine, serotonin, and acetylcholine, among other chemicals.<ref name="Drugscom-2009" /><ref name="Cummings-2011">Template:Cite journal</ref><ref name="Wildflowerfinder">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref name="Casarett-2008">Template:Cite book</ref><ref name="Greenberg-2003">Template:Cite book</ref> Anti-itch drugs, usually in the form of creams containing antihistamines or hydrocortisone, may provide relief from nettle dermatitis.<ref name="Drugscom-2009" /> The term contact urticaria has a wider use in dermatology, involving dermatitis caused by various skin irritants and pathogens.<ref>Template:Cite journal</ref>
Docks, especially Rumex obtusifolius (the broad-leaf dock) often grow in similar environments to stinging nettles and are regarded as a folk remedy to counteract the sting of a nettle,<ref>{{#invoke:citation/CS1|citation |CitationClass=web }} Template:Verify source</ref> although there is no evidence of any chemical effect. It may be that the act of rubbing a dock leaf against a nettle sting acts as a distracting counterstimulation, or that belief in the dock's effect provides a placebo effect.<ref>Template:Cite news</ref>
UsesEdit
CulinaryEdit
U. dioica has a flavour similar to spinach when cooked. Young plants are harvested by many Native American communities and are cooked and eaten in spring when other food plants are scarce.<ref name="Tilford">Gregory L. Tilford, Edible and Medicinal Plants of the West, Template:ISBN</ref> Soaking stinging nettles in water or cooking removes the stinging chemicals from the plant, which allows them to be handled and eaten without injury.<ref>Template:Cite book</ref> After the stinging nettle enters its flowering and seed-setting stages, the leaves develop gritty particles called cystoliths. Many sources claim consumption of these can irritate the kidneys and urinary tract,<ref name=Tilford/><ref>Template:Cite book</ref> but there is no medical evidence to support this claim. Cystoliths are made of calcium carbonate,Template:Citation needed and will not dissolve when boiled. Leaves harvested post-flowering must have their cystoliths broken down by acid, as in the fermentation process. In its peak season, nettle contains up to 25% protein, dry weight, which is high for a leafy green vegetable.<ref>Template:Cite journal</ref> The leaves are also dried and may then be used to make a herbal tea, as can also be done with the nettle's flowers.
Nettles can be used in a variety of recipes, such as polenta, pesto, and purée.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Nettle soup is a common use of the plant, particularly in Northern and Eastern Europe.
Nettles are sometimes used in cheesemaking, such as for Cornish Yarg<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> and as a flavouring in varieties of Gouda.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>
Nettles are used in Albania, Montenegro, Serbia, North Macedonia and Bosnia and Herzegovina as part of the dough filling for the börek pastry. The top baby leaves are selected and simmered, and then mixed with other ingredients such as herbs and rice, before being used as a filling between dough layers.<ref>Template:Cite news</ref><ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Similarly, in Greece the tender leaves are often used, after simmering, as a filling for hortopita, which is similar to spanakopita, but with wild greens rather than spinach for filling.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>
Young nettles can also be used to make an alcoholic drink.<ref>Template:Cite news</ref>
Competitive eatingEdit
In the United Kingdom, an annual World Nettle Eating Championship draws thousands of people to Dorset, where competitors attempt to eat as much of the raw plant as possible. Competitors are given Template:Convert stalks of the plant, from which they strip the leaves and eat them. Whoever strips and eats the most stinging nettle leaves in a fixed time is the winner. The competition dates back to 1986, when two neighbouring farmers attempted to settle a dispute about which had the worst infestation of nettles, and one of them said to the other, "I'll eat any nettle of yours that's longer than mine."<ref>Template:Cite news</ref><ref>Template:Cite newsTemplate:Cbignore</ref>
Traditional medicineEdit
As Old English {{#invoke:Lang|lang}}, nettle is one of the nine plants invoked in the pagan Anglo-Saxon Nine Herbs Charm, recorded in 10th-century traditional medicine. Nettle was believed to be a galactagogue – a substance that promotes lactation.<ref>Template:Cite journal</ref> Urtication, or flogging with nettles, is the process of deliberately applying stinging nettles to the skin to provoke inflammation. An agent thus used was considered to be a rubefacient (something that causes redness), used as a folk remedy for treating rheumatism.<ref name="BBC">Template:Cite news</ref> A study undertaken in 2000 showed that nettles were an effective therapy in relieving the pain of arthritis.<ref>Template:Cite news</ref><ref>Template:Cite journal</ref>
ChastisementEdit
In indigenous justice systems in Ecuador, urtication was used as punishment for severe crimes in 2010. The sentenced perpetrator of a crime was flogged with stinging nettle, in public, naked, whilst being showered with freezing cold ice water.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>
Textiles and fibreEdit
Nettle stems contain a bast fibre that has been traditionally used for the same purposes as linen and is produced by a similar retting process. Unlike cotton, nettles grow easily without pesticides. The fibres are coarser, however.<ref>Template:Cite news</ref>
Historically, nettles have been used to make clothing for almost 3,000 years, as ancient nettle textiles from the Bronze Age have been found in Denmark.<ref>Template:Cite journal</ref> It is widely believed that German Army uniforms were almost all made from nettle during World War I due to a shortage of cotton, although there is little evidence to support this.<ref>Edom, G.(2019), From Sting to Spin: A History of Nettle Fibre, Urtica Books</ref> More recently, companies in Austria, Germany, and Italy have started to produce commercial nettle textiles.<ref>Neustatter, Angela (27 February 2008). "Rash thinking". The Guardian.</ref><ref>Flintoff, John-Paul (20 August 2009). "Second skin: why wearing nettles is the next big thing". The Ecologist.</ref>
The fibre content in nettle shows a high variability and reaches from below 1% to 17%. Under middle-European conditions, stems yield typically between 45 and 55 dt / ha (decitons per hectare), which is comparable to flax stem yield. Due to the variable fibre content, the fibre yields vary between 0.2 and 7 dt / ha, but the yields are normally in the range between 2 and 4 dt / ha.<ref>Template:Cite news</ref> Fibre varieties are normally cloning varieties and therefore planted from vegetative propagated plantlets. Direct seeding is possible, but leads to great heterogeneity in maturity.<ref>Template:Cite journal</ref>
Nettles may be used as a dye-stuff, producing yellow from the roots, or yellowish green from the leaves.<ref>Piers Warren, 101 uses for Stinging Nettles (2006), p. 65, Template:ISBN.</ref>
FeedEdit
Nutrient contentsEdit
Fresh leaves contain approximately 82.4% water, 17.6% dry matter, 5.5% protein, 0.7 to 3.3% fat, and 7.1% carbohydrates.<ref name="Lutomski-1983">Template:Cite journal</ref> Mature leaves contain about 40% α- linolenic acid, a valuable omega-3 acid.<ref name="Guil-Guerrero-2003">Template:Cite journal</ref> For exact fatty acid contents see Table 1. Seeds contain much more fatty acid than leaves.<ref name="Guil-Guerrero-2003"/>
| Mature leaves | Young leaves | Seeds | Stems | Roots | ||
|---|---|---|---|---|---|---|
| Moisture (% fresh weight) | 72.8 (±Template:Nbs5.1) | 82.0 (±Template:Nbs3.7) | 47.6 (±Template:Nbs2.1) | 50.1 (±Template:Nbs2.4) | 40.3 (±Template:Nbs2.8) | |
| Saponifiable oil (% fresh weight) | 2.1 (±Template:Nbs0.3) | 3.3 (±Template:Nbs0.2) | 15.1 (±Template:Nbs2.0) | 1.5 (±Template:Nbs0.1) | 0.1 (±Template:Nbs0.0) | |
| Fatty acids (% of saponifiable oil) | ||||||
| Palmitic | 16:0 | 17.9 (±Template:Nbs1.1) | 20.1 (±Template:Nbs0.9) | 25.4 (±Template:Nbs1.9) | 23.6 (±Template:Nbs2.1) | 24.0 (±Template:Nbs0.8) |
| Palmitoleic | 16:1n-7 | 3.0 (±Template:Nbs0.2) | 3.9 (±Template:Nbs0.3) | 0.7 (±Template:Nbs0.0) | 0.5 (±Template:Nbs0.0) | 2.6 (±Template:Nbs0.3) |
| Stearic | 18:0 | 1.6 (±Template:Nbs0.3) | 1.9 (±Template:Nbs0.1) | 2.3 (±Template:Nbs0.3) | 1.8 (±Template:Nbs0.2) | 1.6 (±Template:Nbs0.1) |
| Oleic | 18:1n-9 | 1.7 (±Template:Nbs0.2) | 2.8 (±Template:Nbs0.2) | 4.8 (±Template:Nbs0.3) | 2.1 (±Template:Nbs0.2) | 8.7 (±Template:Nbs0.5) |
| Linoleic | 18:2n-6 | 11.6 (±Template:Nbs1.0) | 18.1 (±Template:Nbs1.3) | 22.7 (±Template:Nbs1.9) | 33.8 (±Template:Nbs2.9) | 34.3 (±Template:Nbs2.7) |
| α- Linolenic | 18:3n-3 | 40.7 (±Template:Nbs3.2) | 29.6 (±Template:Nbs2.1) | 6.6 (±Template:Nbs4.9) | 12.2 (±Template:Nbs1.0) | 2.3 (±Template:Nbs0.1) |
| Gadoleic | 20:1n-9 | 0.8 (±Template:Nbs0.0) | 0.7 (±Template:Nbs0.0) | 2.1 (±Template:Nbs0.2) | 1.5 (±Template:Nbs0.1) | 1.2 (±Template:Nbs0.0) |
| Erucic | 22:1n-9 | 0.4 (±Template:Nbs0.0) | 0.5 (±Template:Nbs0.1) | 1.2 (±Template:Nbs0.2) | 0.9 (±Template:Nbs0.2) | 0.9 (±Template:Nbs0.1) |
| Omega-3 : Omega-6 Ratio | n-3/n-6 | 3.51 | 1.64 | 0.29 | 0.65 | 0.07 |
Minerals (Ca, K, Mg, P, Si, S, Cl) and trace elements (Ti, 80 ppm,<ref>Template:Cite book</ref> Mn, Cu, Fe) contents depend mostly on the soil and the season.<ref name="Lutomski-1983" />
Carotenoids can be found primarily in the leaves, where different forms of lutein, xanthophyll and carotene are present (Table 2). Some carotenes are precursors of vitamin A (retinol), their retinol equivalents RE or retinol activity equivalents per g dry weight are 1.33 for mature leaves and 0.9 for young leaves.<ref name="Lutomski-1983"/> Nettle contains much less carotenes and retinol than carrots, which contain 8.35 RE per g fresh weight.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> Depending on the batch and the leaf and stem content, nettle contains only traces of zeaxanthin or between 20–60 mg/kg of dry matter.<ref name="Lutomski-1983"/><ref name="Loetscher-2013">Template:Cite journal</ref> Nettle contains ascorbic acid (vitamin C), riboflavin (vitamin B2), pantothenic acid, vitamin K1<ref name="Lutomski-1983"/> and tocopherols (vitamin E).<ref name="Loetscher-2013"/> The highest vitamin contents can be found in the leaves.<ref name="Lutomski-1983"/>
| Mature leaves | Young leaves | ||
|---|---|---|---|
| Total identified carotenoids | 74.8 | 51.4 | |
| Xanthophylls | Neoxanthin | 5.0 (±Template:Nbs0.2) | 2.6 (±Template:Nbs0.2) 0 |
| Violaxanthin | 11.0 (±Template:Nbs0.2) | 7.2 (±Template:Nbs0.6) | |
| Zeaxanthin | traces | traces | |
| β-cryptoxanthin | traces | traces | |
| Luteins | 13-cis-lutein | 0.4 (±Template:Nbs0.0) | 0.4 (±Template:Nbs0.0) |
| 13'-cis-lutein | 8.4 (±Template:Nbs0.4) | 5.0 (±Template:Nbs0.6) | |
| All-trans-lutein | 32.4 (±Template:Nbs1.0) | 23.6 (±Template:Nbs0.8) | |
| 9-cis-lutein | 1.2 (±Template:Nbs0.2) | 1.0 (±Template:Nbs0.2) | |
| 9'-cis-lutein | 4.4 (±Template:Nbs0.4) | 3.4 (±Template:Nbs0.6) | |
| Carotenes | All-trans-β-carotene | 5.6 (±Template:Nbs0.7) | 3.8 (±Template:Nbs0.3) |
| β-carotene-cis-isomers | 4.8 (±Template:Nbs0.2) | 3.2 (±Template:Nbs0.2) | |
| Lycopene | 1.6 (±Template:Nbs0.1) | 1.2 (±Template:Nbs0.1) | |
| Retinol equivalent | RE / g dry wt | 1.33 (±Template:Nbs0.3) | 0.90 (±Template:Nbs0.3) |
Poultry: Egg yolk colouring in laying hensEdit
In laying hens, nettle can be used as an egg yolk colourant instead of artificial pigments or other natural pigments (derived from marigold for yellow). Nettle has high carotenoid contents, especially lutein, Template:Nowrap and zeaxanthin, of which lutein and zeaxanthin act as yellow pigments.<ref name="Loetscher-2013"/><ref>Template:Cite journal</ref><ref>Template:Cite journal</ref> Feeding as little as 6.25 g dry nettle per kg feed is as effective as the synthetic pigments to colour the egg yolk. Feeding nettle has no detrimental effect on the performance of the laying hens or on the general quality of eggs.<ref name="Loetscher-2013"/>
RuminantsEdit
Ruminants avoid fresh stinging nettles; however, if the nettles are wilted or dry, voluntary intake can be high.Template:Citation needed
| Ryegrass silage | Nettle silage | ||
|---|---|---|---|
| Dry matter | DM | 235 | 415 |
| Metabolizable energy (MJ/ kg DM) | ME | 11.3 | 9.8 |
| Crude protein | CP | 177 | 171 |
| Neutral detergent fibre | NDF | 536 | 552 |
| Acid detergent fibre | ADF | 338 | 434 |
| Starch | - | - | |
| Ash | 113 | 118 |
Use in agriculture / horticultureEdit
In the European Union, nettle extract can be used as an insecticide, fungicide, and acaricide under Basic Substance regulations. As an insecticide, nettle extract can be used for the control of codling moth, diamondback moth, and spider mites. As a fungicide, it can be used for the control of Pythium root rot, powdery mildew, early blight, late blight, Septoria blight, Alternaria leaf spot, and grey mould.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>
GardeningEdit
Nettles have a number of uses in the vegetable garden, including the potential for encouraging beneficial insects. Since nettles prefer to grow in phosphorus-rich and nitrogen rich soils that have recently been disturbed (and thus aerated), the growth of nettles is an indicator that an area has high fertility (especially phosphate and nitrate),<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> and thus is an indicator to gardeners as to the quality of the soil.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>
Nettles contain nitrogenous compounds, so are used as a compost activator<ref>Template:Cite news</ref> or can be used to make a liquid fertilizer, which although low in phosphate, is useful in supplying magnesium, sulphur, and iron.<ref>Pears, Pauline, et al. HDRA Encyclopedia Of Organic Gardening, p. 207, Dorling Kindersley Ltd, London, 2005.</ref><ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> They are also one of the few plants that can tolerate, and flourish in, soils rich in poultry droppings.
The stinging nettle is the red admiral caterpillar's primary host plant and can attract migrating red admiral butterflies to a garden.<ref>Template:Cite journal</ref> U. dioica can be a troubling weed, and mowing can increase plant density.<ref name="Anderson-1999">Template:Cite book</ref> Regular and persistent tilling will greatly reduce its numbers, and the use of herbicides such as Template:Nowrap and glyphosate are effective control measures.<ref name="Anderson-1999"/>
In cultureEdit
In Great Britain and Ireland, U. dioica and the annual nettle Urtica urens are the only common stinging plants and have found a place in several figures of speech in the English language. Shakespeare's Hotspur urges that "out of this nettle, danger, we pluck this flower, safety" (Henry IV, Part 1, Act II Scene 3). The figure of speech "to grasp the nettle" probably originated from Aesop's fable "The Boy and the Nettle".<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> In Seán O'Casey's Juno and the Paycock, one of the characters quotes Aesop "Gently touch a nettle and it'll sting you for your pains/Grasp it as a lad of mettle and soft as silk remains". The metaphor may refer to the fact that if a nettle plant is grasped firmly rather than brushed against, it does not sting so readily, because the hairs are crushed down flat and do not penetrate the skin so easily.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>
In the German language, the idiom {{#invoke:Lang|lang}}, or to sit in nettles, means to get into trouble. In Germanic mythology, the God of thunder, Thor, was associated with nettles, and that's where the saying "lightning won't strike into nettles" comes from.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> The idiom is used in Croatian, Hungarian, Serbian, and many other Indo-European languages. In Dutch, a {{#invoke:Lang|lang}} means a predicament. In French, the idiom {{#invoke:Lang|lang}} (do not push granny into the nettles) means that we should be careful not to abuse a situation. The name urticaria for hives comes from the Latin name of nettle ({{#invoke:Lang|lang}}, from urere, to burn).
The English word 'nettled', meaning irritated or angry, is derived from 'nettle'.<ref>Template:Cite OED</ref>
There is a common idea in Great Britain that the nettle was introduced by the Romans,<ref>Template:Cite news</ref> but Plant Atlas 2020 treats it as native.<ref name="BSBIAtlas-2020">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> The idea of its introduction was mentioned by William Camden in his book Britannia of 1586.<ref>Template:Cite news</ref> However, in 2011, an early Bronze Age burial cist on Whitehorse Hill,<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref>Template:Cite news</ref> Dartmoor, Devon, was excavated. The cist dated from between 1730 and 1600 BC. It contained various high value beads as well as fragments of a sash made from nettle fibre. It is possible that the sash was traded from mainland Europe, but perhaps more probable that it was locally made.
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- Template:Cite journal
- Schofield, Janice J. (1998). Nettles Template:ISBN
- Thiselton-Dyer, T. F., (1889). The Folk-Lore of Plants.
- Glawe, G. A. (2006). Sex ratio variation and sex determination in Urtica diocia. Template:ISBN