Coprinopsis variegata
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Fungi
Division: Basidiomycota
Class: Agaricomycetes
Order: Agaricales
Family: Psathyrellaceae
Genus: Coprinopsis
Species:
C. variegata
Binomial name
Coprinopsis variegata
(Peck) Redhead, Vilgalys & Moncalvo (2001)
Synonyms
  • Coprinus variegatus Peck (1873)
  • Coprinus ebulbosus Peck (1895)
  • Coprinus quadrifidus Peck (1897)
  • Coprinus atramentarius var. variegatus (Peck) Rick (1961)
Coprinopsis variegata
View the Mycomorphbox template that generates the following list
Gills on hymenium
Cap is conical
Hymenium is free
Stipe has a ring
Spore print is black
Ecology is saprotrophic
Edibility is allergenic, can cause allergic reactions

Coprinopsis variegata, commonly known as the scaly ink cap or the feltscale inky cap, is a species of fungus in the family Psathyrellaceae. Distributed in eastern North America, it has a medium-sized, bell-shaped to flattened cap up to 7.5 cm (3.0 in) in diameter, with felt-like, patchy scales. The gills, initially white, turn black in maturity and eventually dissolve into a black "ink". Fruit bodies grow in clusters or groups on leaf litter or rotted hardwood, although the wood may be buried, giving the appearance of growing in the soil. The fungus is found in the United States, in areas east of the Great Plains. Coprinus ebulbosus and Coprinus quadrifidus are names assigned by Charles Horton Peck to what he believed were species distinct from C. variegata; they were later shown to represent the same species, and are now synonyms. The mushroom is not recommended for consumption, and has been shown to cause allergic reactions in susceptible individuals.

History and taxonomy

Peck described three species now considered synonymous with Coprinopsis variegata.

American mycologist Charles Horton Peck described three similar species over the course of a 24-year time period. The first, Coprinus variegata (1873),[1] followed later by C. ebulbosus (1895),[2] and finally C. quadrifidus (1897).[3] C. ebulbosus was initially considered a variety of the European species Coprinus picaceus (Bull. ex Fr.) S.F.Gray (currently known as Coprinopsis picacea[4]). Four years later, Peck published a more complete description of var. ebulbosus and raised it to species rank, having found it to differ consistently from C. picaceus in its smaller stature, lack of a bulbous stem base, and much smaller spores.[2]

The three species described by Peck were distinguished on the basis of physical features that were later found to be somewhat overlapping. In terms of microscopic characters, spore sizes were not sufficiently different between them to be used as discriminating taxonomic characters. Subsequent investigators of North American mushroom flora had difficulties in interpreting Peck's concepts of these three taxa and in confirming their presence in their regional investigations. For example, McIlvaine (1902),[5] Hard (1908),[6] and McDougall (1925)[7] reported (as variety or species) only C. ebulbosus. Bisby (1938),[8] Christensen (1946),[9] Smith (1958),[10] and Groves (1962)[11] mentioned only C. quadrifidus. Both Kauffman (1918) and Graham (1944)[12] described C. ebulbosus and C. quadrifidus;[13] Graham, however, only included C. quadrifidus in his key to his descriptions of Coprinus species. In 1979, W. Patrick published a comparative analysis of the three taxa from material collected by Peck, and, after concluding that the three were not sufficiently distinct to be considered separate species, reduced them to synonymy with Coprinopsis variegata, the earliest name.[14]

The specific epithet variegata derives from the Latin passive verb participle variegatus meaning "to have different colors, to variegate".[15] The synonym name quadrifidus refers to the four segments into which the cap frequently split when mature,[3] while ebulbosus means "not being bulbous". The mushroom is commonly known as the "scaly ink cap"[16] or the "feltscale inky cap".[17]

Description

Young fruit bodies are oval or egg-shaped.

The cap of C. variegata is thin, initially oval-shaped then bell-shaped, and then flattened with the margin turned upward; it reaches diameters of up to 12 in (30.5 cm). When young, the surface of the cap is covered with a woolly whitish or yellowish veil that breaks up into short-lived flakes or scales; this process reveals the radially striate (grooved) gray to grayish-brown cap surface. The gills are broad, thin, crowded closely together, and free from attachment to the stem. They are initially white but turn to dark purplish-brown as the spores mature. The stem is 4 to 12 in (10.2 to 30.5 cm) and up to 1 cm (0.4 in) thick, hollow, and whitish.[18] It is roughly the same width throughout the length of the stem, and may have a wispy, cotton-like ring present near the base.[14] Clusters of fruit bodies have a mass of rhizomorphs at the base called an ozonium.[10]

In deposit, the spores are dark brown.[10] A light microscope may be used to reveal more features of the spores, including smooth surfaces, a dark brown color, an ellipsoid shape in face view and an egg shape in side view, and dimensions of 7.5–9.5 by 4–4.5 µm. The apex of the spore appears truncated because of the presence of a germ pore. The basidia (spore-bearing cells) are hyaline (translucent), with dimensions of 14–16 by 6.5–7.5 µm. The paraphyses are 9–11 by 8–10 µm, hyaline, and collapse readily. The pleurocystidia (cystidia present on the gill face) are abundant, roughly cylindrical, hyaline, and measure 100–150 by 20–35 µm. Cheilocystidia (cystidia on the edge of an gill) are present in young specimens, and are roughly ellipsoid, measuring 50–80 by 15–25 µm. Clamp connections are abundant in the hyphae in all tissues through the fruit body.[19]

The edibility of Coprinopsis variegata has not been clearly established, and opinions differ as to its desirability. One 1987 field guide to North American species warns against consumption, calling it "not recommended",[17] a conclusion shared in a 2006 field guide to Pennsylvanian and mid-Atlantic mushrooms, but not before describing it as "the best of the inky caps, with a richer flavor and better texture than the famous shaggy mane".[20] The bitter-tasting mushroom is not considered poisonous.[10] However, the fruit bodies are suspected to contain the Antabuse-like chemical coprine, which causes a poisoning reaction when consumed with alcohol.[21][22] Coprine has also been linked to testicular lesions in rats and dogs.[23] Additionally, cases of allergic reactions against extracts from mushroom tissues have been reported in skin tests.[24][25][26] Cases of gastric upset have also been reported.[27]

Similar species

Coprinopsis atramentaria

Coprinopsis atramentaria is a cosmopolitan species that is roughly similar in size, color, and stature, but does not have patchy woolly tufts on the cap like C. variegata.[28]

Ecology, habitat and distribution

The species is saprobic—deriving nutrients by decomposing and digesting organic matter—and grows in clusters or in groups on decaying leaf litter or well-decayed wood. It typically fruits in a narrow window from June to July; this spring and early summer fruiting distinguishes it from the more common Coprinus comatus and Coprinopsis atramentaria, which produce fruit bodies in late autumn.[14] It is found in the United States, in areas east of the Great Plains.[10]

Coprinopsis variegata can attack soil bacteria, such as species of Pseudomonas and Agrobacterium, and use them as nutrient sources. The fungus achieves this by growing specialized hyphae in the direction of the bacteria, sensing them with some chemoattractive mechanism not yet fully understood. The fungus then secretes compounds to digest the bacteria while growing assimilative hyphae to absorb the nutrients. The process is relatively rapid, and bacterial colonies can be assimilated in less than 24 hours.[29][30]

See also

References

  1. Peck CH (1873). "V. Descriptions of new species of fungi". Bulletin of the Buffalo Society of Natural Sciences. 1: 41–72.
  2. 1 2 Peck CH (1895). "New species of fungi". Bulletin of the Torrey Botanical Club. 22 (12): 485–493. doi:10.2307/2477972. JSTOR 2477972.
  3. 1 2 Peck CH (1897). "Report of the State Botanist (1896)". Annual Report on the New York State Museum of Natural History. 50: 106.
  4. "Coprinopsis picacea (Bull.) Redhead, Vilgalys & Moncalvo 2001". MycoBank. International Mycological Association. Retrieved 2010-09-01.
  5. McIlvaine C. (1902). One Thousand American Fungi. Cambridge, MA: Houghton Mifflin.
  6. Hard ME (1908). The Mushroom Edible and Otherwise. Columbus, OH: Mushroom Publishing.
  7. McDougall WB (1973) [1925]. Mushrooms. West Glover, VT: Something Else Press.
  8. Bisby GR (1938). The Fungi of Manitoba and Saskatchewan. Ottawa, Canada: National Research Council of Canada.
  9. Christensen CM (1946). Keys to the Common Fleshy Fungi. Minneapolis, MN: Burgess.
  10. 1 2 3 4 5 Smith AH, Weber NS (1980). The Mushroom Hunter's Field Guide. Ann Arbor, MI: University of Michigan Press. p. 221. ISBN 0-472-85610-3.
  11. Groves JW (1962). Edible and Poisonous Mushrooms of Canada. Research Branch, Agriculture Canada. ISBN 978-0-660-10136-1.
  12. Graham VO (1944). Mushrooms of the Great Lakes Region. Chicago Academy of Sciences.
  13. Kauffman CH (1971) [1918]. The Gilled Mushrooms (Agaricaceae) of Michigan and the Great Lakes Region. New York, NY: Dover. pp. 118–167.
  14. 1 2 3 Patrick WW (1979). "Comparative morphology and taxonomic disposition of ebulbosus, quadrifidus, and variegatus in the genus Coprinus (Agaricales)". Mycotaxon. 10: 142–154.
  15. Brooker I, Boland D (2006). Forest Trees of Australia. Collingwood, Australia: CSIRO Publishing. p. 258. ISBN 0-643-06969-0.
  16. Roody WC (2003). Mushrooms of West Virginia and the Central Appalachians. Lexington, Kentucky: University Press of Kentucky. p. 206. ISBN 0-8131-9039-8.
  17. 1 2 McKnight VB, McKnight KH (1987). A Field Guide to Mushrooms: North America. Boston, MA: Houghton Mifflin. Plate 34. ISBN 0-395-91090-0.
  18. Kuo M. (2008). "Coprinopsis variegata". MushroomExpert.Com. Retrieved 2010-09-01.
  19. Smith AH (1948). "Studies in the dark-spored agarics". Mycologia. 40 (6): 669–707. doi:10.2307/3755317. JSTOR 3755317. PMID 18102857.
  20. Russell B. (2006). Field Guide to Wild Mushrooms of Pennsylvania and the Mid-Atlantic. Pennsylvania State University Press. pp. 24–5. ISBN 978-0-271-02891-0.
  21. Hatfield GM, Schaumberg JP (1978). "The disulfiram-like effects of Coprinus atramentarius and related mushrooms". In Salzman E, Rumack BH (eds.). Mushroom Poisoning: Diagnosis and Treatment. Boca Raton, FL: CRC Press. pp. 181–186. ISBN 0-8493-5185-5.
  22. Ammirati J, Traquair JA, Horgen PA (1985). Poisonous Mushrooms of the Northern United States and Canada. Fitzhenry & Whiteside in cooperation with Agriculture Canada. p. 131. ISBN 978-0-88902-977-4.
  23. Jönsson, Monica; Lindquist, Nils Gunnar; Plöen, Leif; Ekvärn, Sven; Kronevi, Tony (1979). "Testicular lesions of coprine and benzcoprine". Toxicology. 12 (2): 89–100. doi:10.1016/0300-483x(79)90035-0. PMID 473235.
  24. Davis WE, Horner WE, Salvaggin JE, Lehrer SB (1988). "Basidiospore allergens: Analysis of Coprinus quadrifidus spore, cap, and stalk extracts". Clinical & Experimental Allergy. 18 (3): 261–267. doi:10.1111/j.1365-2222.1988.tb02868.x. PMID 3396195. S2CID 33086450.
  25. O'Neil CE, Horner WE, Reed MA, Lopez M, Lehrer SB (1990). "Evaluation of Basidiomycete and Deuteromycete (Fungi Imperfecti) extracts for shared allergenic determinants". Clinical and Experimental Allergy. 20 (5): 533–538. doi:10.1111/j.1365-2222.1990.tb03146.x. PMID 2253084. S2CID 25854420.
  26. Lehrer SB, Hughes JM, Altman LC, Bousquet J, Davies RJ, Gell L, Li J, Lopez M, Malling HJ, Mathison DA, Sastre J, Schultze-Werninghaus G, Schwartz HJ (1994). "Prevalence of basidiomycete allergy in the USA and Europe and its relationship to allergic respiratory symptoms". Allergy. 49 (6): 460–465. doi:10.1111/j.1398-9995.1994.tb00840.x. PMID 8074266. S2CID 12348530.
  27. Miller Jr., Orson K.; Miller, Hope H. (2006). North American Mushrooms: A Field Guide to Edible and Inedible Fungi. Guilford, CN: FalconGuide. p. 229. ISBN 978-0-7627-3109-1.
  28. Healy RA, Huffman DR, Tiffany LH, Knaphaus G (2008). Mushrooms and Other Fungi of the Midcontinental United States. Bur Oak Guide. Iowa City, IA: University of Iowa Press. p. 63. ISBN 978-1-58729-627-7.
  29. Barron GL (1988). "Microcolonies of bacteria as a nutrient source for lignicolous and other fungi". Canadian Journal of Botany. 66 (12): 2505–2510. doi:10.1139/b88-340.
  30. van Elsas JD, Tam L, Finlay RD, Killham K, Trevors JT (2007). "Microbial interactions in the soil". In Trevors JT, van Elsas JD, Jansson JK (eds.). Modern Soil Microbiology. Boca Raton, FL: CRC Press. p. 205. ISBN 978-0-8247-2749-9.

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