Symphytum is a genus of flowering plants in the borage family, Boraginaceae. There are up to 35 species, known by the common name comfrey (pronounced //). Some species and hybrids, particularly S. officinale and S. × uplandicum, are used in gardening and herbal medicine. They are not to be confused with Cynoglossum virginianum, known as wild comfrey, another member of the borage family.
- Symphytum asperum – prickly comfrey, rough comfrey
- Symphytum bulbosum – bulbous comfrey
- Symphytum caucasicum – Caucasian comfrey
- Symphytum ibericum – creeping comfrey, Iberian comfrey,
- Symphytum officinale – comfrey
- Symphytum orientale – white comfrey
- Symphytum tauricum – Crimean comfrey
- Symphytum tuberosum – tuberous comfrey
- Symphytum × uplandicum (S. asperum × S. officinale, synonym: S. peregrinum) – Russian comfrey, healing herb, blackwort, bruisewort, wallwort, gum plant
This section needs additional citations for verification. (May 2018) (Learn how and when to remove this template message)
The Russian comfrey 'Bocking 14' cultivar was developed during the 1950s by Lawrence D Hills, the founder of the Henry Doubleday Research Association (the organic gardening organisation itself named after the Quaker pioneer who first introduced Russian comfrey into Britain in the nineteenth century) following trials at Bocking, near Braintree.
Comfrey is a source of fertilizer to the organic gardener. It is claimed[who?] that since it is very deep rooted it acts as a dynamic accumulator, mining a host of nutrients from the soil. In fact there is little scientific evidence that the nutrients in comfrey are more concentrated than in other plants, nor that the nutrients it has come from its deep roots rather than, as is the case in most plants, from its near-surface roots. The nutrients that are available in comfrey are made available through its fast-growing leaves (up to 1.8–2.3 kilograms (4.0–5.1 lb) per plant per cut) which, lacking fibres, quickly break down to a thick black liquid. There is also no risk of nitrogen loss when comfrey is dug into the soil as the C:N ratio of the leaves is lower than that of well-rotted compost. Comfrey is an excellent source of potassium, an essential plant nutrient needed for flower, seed and fruit production. Its leaves contain 2–3 times more potassium than farmyard manure, mined from deep in the subsoil, tapping into reserves that would not normally be available to plants.
There are various ways in which comfrey can be used as a fertilizer. These include:
- Comfrey as a compost activator – include comfrey in the compost heap to add nitrogen and help to heat the heap. Comfrey should not be added in quantity as it will quickly break down into a dark sludgy liquid that needs to be balanced with more fibrous, carbon-rich material.
- Comfrey as a mulch or side dressing – a two-inch layer of comfrey leaves placed around a crop will slowly break down and release plant nutrients; it is especially useful for crops that need extra potassium, such as fruit bearers but also reported to do well for potatoes. Comfrey can be slightly wilted before application optionally but either way, avoid using flowering stems as these can root.
- Comfrey as a companion plant for trees and other perennials – soil tests confirm that soil nutrients increase in the presence of comfrey even when it is not used as mulch, side dressing, or liquid fertilizer, but just allowed to grow.
- Comfrey potting mixture – originally devised to utilize peat, now environmental awareness has led to a leaf mold-based alternative being adopted instead; two-year-old, well decayed leaf mold should be used, this will absorb the nutrient-rich liquid released by the decaying comfrey. In a black plastic sack alternate 7–10 cm (2.8–3.9 in) layers of leaf mold and chopped comfrey leaves. Add a little dolomitic limestone to slightly raise pH. Leave for between 2–5 months depending on the season, checking that it does not dry out or become too wet. The mixture is ready when the comfrey leaves have rotted and are no longer visible. Use as a general potting compost, although it is too strong for seedlings.
Bocking 14 is sterile, and therefore will not set seed (one of its advantages over other cultivars as it will not spread out of control), thus is propagated from root cuttings. The gardener can produce his or her own "offsets" from mature, strongly growing plants by driving a spade horizontally through the leaf clumps about 7 cm (2.8 in) below the soil surface. This removes the crown, which can then be split into pieces. The original plant will quickly recover, and each piece can be replanted with the growing points just below the soil surface, and will quickly grow into new plants. When choosing plants to divide, ensure that they are strong healthy specimens with no signs of rust or mildew. When dividing comfrey plants, take care not to spread root fragments around, or dispose of on the compost heap, as each can re-root, and comfrey can be stubborn. Offsets can also be purchased by mail order from specialist nurseries in order to initially build up a stock of plants.
Phytochemistry, folk medicine, and toxicity
Folk medicine names for comfrey include knitbone, boneset and the derivation of its Latin name Symphytum (from the Greek symphis, meaning growing together of bones, and phyton, a plant), referring to its ancient uses. Similarly the common French name is consoude, meaning to weld together. The tradition in different cultures and languages suggest a common belief in its usefulness for mending bones.
Comfrey contains mixed phytochemicals in varying amounts, including allantoin, mucilage, saponins, tannins, pyrrolizidine alkaloids, inulin, and proteins, among others. Liver toxicity is associated with consuming this plant or its extracts. In modern herbalism, comfrey is most commonly used topically.
In 2001, the United States Food and Drug Administration issued a ban of comfrey products marketed for internal use, and a warning label for those intended for external use. Comfrey should not be used during pregnancy and lactation, in infants, and in people with liver, kidney, or vascular diseases.
- Miranda, Kimberley (9 July 2010). "Symphytum". hortweek.com. Retrieved 23 April 2017.
- "Cynoglossum virginianum". Natural Resources Conservation Service PLANTS Database. USDA. Retrieved 2018-11-20.
- "Symphytum ibericum". rhs.org.uk. Retrieved 23 April 2017.
- Teynor, Putnam, Doll, Kelling, Oelke, Undersander, and Oplinger. "Comfrey". Alternative Field Crops Manual. University of Wisconsin, Extension, Cooperative-Extension. Retrieved 25 March 2014.CS1 maint: Multiple names: authors list (link)
- "Comfrey". Drugs.com. 17 July 2017. Retrieved 22 May 2018.
- Miskelly, FG; Goodyer, LI (1992). "Hepatic and pulmonary complications of herbal medicines". Postgrad Med J. 68 (805): 935–936. doi:10.1136/pgmj.68.805.935. PMC 2399473. PMID 1494521.
- Miller, LG (1998). "Herbal medicinals: selected clinical considerations focusing on known or potential drug-herb interactions" (PDF). Arch Intern Med. 158 (20): 2200–2211. doi:10.1001/archinte.158.20.2200. PMID 9818800.
- "FDA/CFSAN - FDA Advises Dietary Supplement Manufacturers to Remove Comfrey Products From the Market". Retrieved 2007-06-01.
- Koll, R; Klingenburg, S (2002). "herapeutic characteristance and tolerance of topical comfrey preparations. Results of an observational study of patients". Fortschr Med Orig. 120 (1): 1–9. PMID 14518351.
- Yeong M.L.; Swinburn, Boyd; Kennedy, Mark; Nicholson, Gordon; et al. (1990). "Hepatic veno-occlusive disease associated with comfrey ingestion". Journal of Gastroenterology and Hepatology. 5 (2): 211–214. doi:10.1111/j.1440-1746.1990.tb01827.x. PMID 2103401.