Jump to content

Inonotus obliquus

From Wikipedia, the free encyclopedia
(Redirected from Siberian Chaga)

Inonotus obliquus
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Fungi
Division: Basidiomycota
Class: Agaricomycetes
Order: Hymenochaetales
Family: Hymenochaetaceae
Genus: Inonotus
Species:
I. obliquus
Binomial name
Inonotus obliquus
(Ach. ex Pers.) Pilát (1942)
Synonyms[1]

Boletus obliquus Ach. ex Pers. (1801)
Polyporus obliquus (Ach. ex Pers.) Fr. (1821)
Physisporus obliquus (Ach. ex Pers.) Chevall. (1826)
Poria obliqua (Ach. ex Pers.) P.Karst. (1881)
Fomes obliquus (Ach. ex Pers.) Cooke (1885)
Phaeoporus obliquus (Ach. ex Pers.) J.Schröt. (1888)
Mucronoporus obliqua (Ach. ex Pers.) Ellis & Everh. (1889)
Scindalma obliquum (Ach. ex Pers.) Kuntze (1898)
Phellinus obliquus (Ach. ex Pers.) Pat. (1900)
Xanthochrous obliquus (Ach. ex Pers.) Bourdot & Galzin (1928)
Fuscoporia obliqua (Ach. ex Pers.) Aoshima (1951)

Inonotus obliquus, commonly called chaga (/ˈɑːɡə/; a Latinisation of the Russian word чага), is a fungus in the family Hymenochaetaceae. It is parasitic on birch and other trees. The sterile conk is irregularly formed and resembles burnt charcoal. It is not the fruiting body of the fungus, but a sclerotium or mass of mycelium, mostly black because of a substantial amount of melanin.[2][3]

Description

[edit]

Inonotus obliquus causes a white heart rot to develop in the host tree. The chaga spores enter the tree through wounds, particularly poorly healed branch stubs. The white rot decay will spread throughout the heartwood of the host. During the infection cycle, penetration of the sapwood occurs only around the sterile exterior mycelium mass.[4] The chaga fungus will continue to cause decay within the living tree for 10–80+ years. While the tree is alive, only sterile mycelial masses are produced (the black exterior conk). The sexual stage begins after the tree, or some portion of the tree, is killed by the infection. I. obliquus will begin to produce fertile fruiting bodies underneath the bark. These bodies begin as a whitish mass that turn to brown with time. Since the sexual stage occurs almost entirely under the bark, the fruiting body is rarely seen.[5] These fruiting bodies produce basidiospores which will spread the infection to other vulnerable trees.

The mycelial canker is about 10–25 centimetres (4–10 in) wide, while the underlying crust can be 5–50 cm (2–19+12 in) long.[6]

Chemistry

[edit]

The black sclerotium has large concentrations of melanin.[7][8] Chaga contains extremely high concentrations of oxalate, 2800–11200 mg total oxalates/100 g sclerotium, one of the highest reported in any organism.[9]

Similar species

[edit]

Similar species include Apiosporina morbosa, Diplodia tumefaciens, and Echinodontium tinctorium, as well as species of Fulvifomes and Fomitiporia.[6]

Distribution and habitat

[edit]

Inonotus obliquus is found most commonly in the Circumboreal Region of the Northern Hemisphere, where it is distributed in birch forests.[4]

Generally found growing on birch (Betula spp.) trees, it has also been found on alder (Alnus spp.), beech (Fagus spp.) and poplar (Populus spp.).[10]

Cultivation

[edit]

Attempts at cultivating this fungus on potato dextrose agar and other simulated media resulted in a reduced and markedly different production of metabolites.[11][12] Cultivated chaga developed a reduced number of phytosterols, particularly lanosterol, an intermediate in the synthesis of ergosterol and lanostane-type triterpenes.[11]

Uses

[edit]
Chaga chunks
Inonotus obliquus
View the Mycomorphbox template that generates the following list
Smooth hymenium
No distinct cap
Hymenium attachment is not applicable
Lacks a stipe
Ecology is parasitic
Edibility is choice

Chaga is traditionally grated into a fine powder and used to brew a beverage resembling coffee or tea which tastes strongly of Chinese herbal tea. However, caution is warranted with chronic use due to the extremely high concentrations of oxalates in chaga.[13]

Hot water extraction is a common preparation. A decoction is created by simmering blocklike pieces of the chaga in numerous quarts of water until the water is reduced and the remaining liquid contains a portion of the chaga's concentrated water-soluble compounds. Such preparations, produced in China and Japan, are exported worldwide. The β-D-glucans may have a content of approximately 35% in a pure extract.[14] If chaga tea is prepared at home, the chaga chunks can be reused multiple times.

Potawatomi people use the fungus, called shkitagen in their language, as a firekeeping tinder. According to Potawatomi biologist Robin Wall Kimmerer, "Once an ember meets shkitagen it will not go out but smolders slowly in the fungal matrix, holding its heat. Even the smallest spark, so fleeting and easily lost, will be held and nurtured if it lands on a cube of shkitagen."[15]

Common names

[edit]

The name chaga comes from the Russian name of the fungus, чага, čaga, which in turn is borrowed from the word for "mushroom" in Komi, тшак, tšak, the language of the indigenous peoples in the Kama River Basin, west of the Ural Mountains. It is also known as the clinker polypore, cinder conk, black mass and birch canker polypore.[16] In England and officially in Canada, it is known as the sterile conk trunk rot of birch.[17]

See also

[edit]

References

[edit]
  1. ^ "Inonotus obliquus (Ach. ex Pers.) Pilát 1942". MycoBank. International Mycological Association. Retrieved 11 October 2011.
  2. ^ Babitskaya, VG; Shcherba, VV; Lkonnikova, NV (2000). "Melanin complex of the fungus Inonotus obliquus". Appl Biochem Microbiol. 36 (4): 377–381. doi:10.1007/BF02738046. S2CID 46047121.
  3. ^ Meuninck, Jim (2017). Foraging Mushrooms Oregon: Finding, Identifying, and Preparing Edible Wild Mushrooms. Falcon Guides. p. 111. ISBN 978-1-4930-2669-2.
  4. ^ a b Lee, Min-Woong; Hur, Hyeon; Chang, Kwang-Choon; Lee, Tae-Soo; Ka, Kang-Hyeon; Jankovsky, L. (December 2008). "Introduction to Distribution and Ecology of Sterile Conks of Inonotus obliquus". Mycobiology. 36 (4): 199–202. doi:10.4489/MYCO.2008.36.4.199. ISSN 1229-8093. PMC 3755195. PMID 23997626.
  5. ^ MushroomExpert.Com. "Inonotus obliquus (MushroomExpert.Com)". mushroomexpert.com. Retrieved 15 August 2017.
  6. ^ a b Audubon (2023). Mushrooms of North America. Knopf. p. 143. ISBN 978-0-593-31998-7.
  7. ^ Babitskaya, VG; Shcherba, VV; Lkonnikova, NV; Bisko, NA; Mitropolskaya, NY (2002). "Melanin complex from medicinal mushroom Inonotus obliquus (Pers: Fr) Pilát (chaga) (Aphyllophoromyceditdeae)". Int J Med Mushrooms. 4: 139–145.
  8. ^ Lee, JH; Hyun, CK (September 2014). "Insulin-sensitizing and beneficial lipid-metabolic effects of the water-soluble melanin complex extracted from Inonotus obliquus". Phytother Res. 28 (9): 1320–1328. doi:10.1002/ptr.5131. PMID 24615848. S2CID 23095628.
  9. ^ Kikuchi, Y; Seta, K; Y, Ogawa; et al. (June 2014). "Chaga mushroom-induced oxalate nephropathy". Clin Nephrol. 81 (6): 440–444. doi:10.5414/CN107655. PMID 23149251.
  10. ^ Ryvarden L, Gilbertson RL (1993). European polypores. Part 1. Oslo: Fungiflora-Fungiflora. pp. 1–387.
  11. ^ a b Zheng, W. F.; Liu, T.; Xiang, X. Y.; Gu, Q. (July 2007). "Sterol composition in field-grown and cultured mycelia of Inonotus obliquus". Yao Xue Xue Bao = Acta Pharmaceutica Sinica. 42 (7): 750–756. PMID 17882960.
  12. ^ Zheng W, Miao K, Liu Y, Zhao Y, Zhang M, Pan S, et al. (2010). "Chemical diversity of biologically active metabolites in the sclerotia of Inonotus obliquus and submerged culture strategies for up-regulating their production". Applied Microbiology and Biotechnology. 87 (4): 1237–54. doi:10.1007/s00253-010-2682-4. PMID 20532760. S2CID 22145043.
  13. ^ Lee, Sua; Lee, Hua Young (8 May 2020). "Development of End Stage Renal Disease after Long-Term Ingestion of Chaga Mushroom: Case Report and Review of Literature". Journal of Korean Medical Science. 35 (19): e122. doi:10.3346/jkms.2020.35.e122. PMC 7234858. PMID 32419395.
  14. ^ Rhee, S.Y. (2008). "A comparative study of analytical methods for alkali-soluble β-glucan in medicinal mushroom, Chaga (Inonotus obliquus)". LWT – Food Science and Technology. 41 (3): 545–549. doi:10.1016/j.lwt.2007.03.028.
  15. ^ Kimmerer, Robin Wall (2013). "Shkitagen: People of the Seventh Fire". Braiding sweetgrass (1st ed.). Minneapolis, Minnesota: Milkweed Editions. ISBN 978-1-57131-335-5.
  16. ^ Needham, Arthur (16 December 2005). "Clinker Polypore, Chaga". Archived from the original on 9 September 2011. Retrieved 10 October 2011.
  17. ^ "Sterile conk trunk rot of birch". Canadian Forest Service, Natural Resources Canada, Government of Canada. 4 August 2015. Retrieved 15 August 2017.
[edit]

Media related to Inonotus obliquus at Wikimedia Commons