Coprinopsis lagopus

Last updated
Coprinopsis lagopus
Hasenpfoten.jpg
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Fungi
Division: Basidiomycota
Class: Agaricomycetes
Order: Agaricales
Family: Psathyrellaceae
Genus: Coprinopsis
Species:
C. lagopus
Binomial name
Coprinopsis lagopus
(Fr.) Redhead, Vilgalys & Moncalvo (2001)
Synonyms
  • Agaricus lagopusFr. (1821)
  • Coprinus lagopus(Fr.) Fr. (1838)
Coprinopsis lagopus
Information icon.svg
Gills icon.png Gills on hymenium
Ovate cap icon.svg Cap is ovate
Free gills icon2.svg Hymenium is free
Bare stipe icon.svg Stipe is bare
Transparent spore print icon.svg
 Spore print is black
Saprotrophic fungus.svgEcology is saprotrophic
Mycomorphbox Question.pngEdibility is unknown

Coprinopsis lagopus is a species of fungus in the family Psathyrellaceae. Until 2001, the species was known as Coprinus lagopus; advances in the understanding of phylogenetic relationships between the various coprinoid species led to a major reorganization of that genus. [1] It is a delicate and short-lived fungus, the fruit bodies lasting only a few hours before dissolving into a black ink – a process called deliquescence. [2] The vague resemblance of the young fruit body to the paw of a white rabbit has earned this species the common name harefoot mushroom. [3]

Contents

Description

Cap of a mature specimen with deliquescing gills Coprinopsis lagopus 122149.jpg
Cap of a mature specimen with deliquescing gills

The fruit body size of Coprinopsis lagopus can vary tremendously. This fungus gives rise to very small fruit bodies (known as dwarf fruit-bodies), some of which are less than one-hundredth the size of the larger ones. In a series of experiments, Arthur Henry Reginald Buller grew spores on horse dung and noted a large range of size variation: the smallest specimen having a stem length of 1 mm and cap diameter of 0.75 mm, while the largest specimen had a stem length of 18.4 cm (7+14 in) and cap diameter of 2 cm. [4] Buller noted that the dwarf fruit-bodies are fully functional, producing and liberating spores in a manner identical with normal ones. The great variation in size has led some authors to erroneously name the dwarf fruit-bodies as new species. For example, George Edward Massee considered the dwarfs to be a new species, Coprinus radiatus. [2] In general, dwarf fruit-bodies have stem lengths from 1–10 mm tall and cap of 0.75–3 mm in diameter, while large specimens have stems that are 5–18.5 cm (2–7+14 in) tall and 2–5 mm wide, with cap diameters of 2–5 cm (34–2 in). [5] The thickness of the stem in the larger specimens is typically 4–6 mm thick, up to 0.8 mm thick at the club-shaped or bulbous base. [6]

The color of the cap surface is pale to very dark-brown at center beneath the whitish to silvery grey veil but becomes paler towards the margin. As the mushroom matures, the shape of the cap becomes more conical or convex, and finally flattens out, with edges curved upward. The veil is initially whitish, then turns to a silvery grey or grey-brown; it eventually splits up, becoming hairy (fibrillose). The gills are freely attached to the stem, very thin and crowded closely together. Initially, the color of the gills is white, then progresses to grayish-brown then to black as the spores mature. In maturity the gill edges dissolve (deliquesce) into a black liquid. [7]

Hare's foot inkcap mushrooms Coprinopsis lagopus in California garden.jpg
Hare's foot inkcap mushrooms

These mushrooms are evanescent, lasting only a few hours before dying; [8] the autodigestive process is enhanced in humid environments. The stem is whitish in color, and is hollow, hairy (flocculose) over the whole surface but especially at lower parts, and becomes smooth (glabrous) with age. The spore print is violet-black.

The species is nonpoisonous. [6] Its edibility is unknown but it is considered too small to be worthwhile. [5]

Microscopic features

Spores have dimensions of 11–13 x 6–8  μm. [8] They are ellipsoid or ovoid in shape, with a rounded base and apex, dark red-brown in color, and nonamyloid.

Detail of section through two gills of unexpanded fruit-body. s, short basidia; l, long basidia; p, paraphyses; c, cystidium; i, interlamellar space Coprinopsis lagopus Buller.jpg
Detail of section through two gills of unexpanded fruit-body. s, short basidia; l, long basidia; p, paraphyses; c, cystidium; i, interlamellar space

The cystidia found on the sides of the gills (pleurocystidia) are abundant in large fruit bodies, fewer in number in the smaller specimens. These cells are oval, rounded at the apex with a bulge in the middle, and contracted into a stalk at the base. The length of these cells is typically 100–130 μm, with a width of 35–45 μm. Before the cap expands, each cystidium completely branches an interlamellar space, with both ends attached to the gills, help together by clasping paraphyses. As the gill expands the cystidium breaks away from one gill and projects from the other gill. The basidia (spore-bearing cells) comes in two sizes; long basidia have dimensions of 40 × 8–10 μm, while the shorter basidia have dimensions of 23 × 8–10 μm. The basidia have four spores, which are attached by short sterigmata. [9]

Habitat and distribution

Coprinopsis lagopus grows solitarily or in groups in soil as well as on wood chips, [10] compost heaps, vegetable refuse, horse dung,[ citation needed ] or cattle dung [11] from autumn to mid-winter. It has a widespread distribution throughout the world.

Mature specimens with margins curled upwards Coprinopsis lagopus Strypemonde 2.jpg
Mature specimens with margins curled upwards

Similar species

The related species Coprinopsis lagopides(P. Karst) Redhead, Vilgalys & Montcalvo is similar in appearance, but more typically grows on a substrates like humus, or burnt or charred wood; it also tends to deliquesce more quickly and completely than C. lagopus. C. lagopides may be distinguished microscopically by its smaller spores (6–9 by 5–7 μm) that are roughly spherical or ovoid in shape, rather than elliptical as in C. lagopus. [6]

Bioactive compounds

Coprinopsis lagopus produces four sesquiterpene compounds that are collectively named lagopodins, which have some antibiotic activity. [12] A total synthesis of lagopodin A was achieved in 2006. [13]

Genetics

Coprinopis lagopus has been used as a model system for studying mushroom physiology and genetics for many decades. [14] [15] [16] [17]

See also

Related Research Articles

<span class="mw-page-title-main">Psathyrellaceae</span> Family of fungi

The Psathyrellaceae are a family of dark-spored agarics that generally have rather soft, fragile fruiting bodies, and are characterized by black, dark brown, rarely reddish, or even pastel-colored spore prints. About 50% of species produce fruiting bodies that dissolve into ink-like ooze when the spores are mature via autodigestion. Prior to phylogenetic research based upon DNA comparisons, most of the species that autodigested were classified as Coprinaceae, which contained all of the inky-cap mushrooms. However, the type species of Coprinus, Coprinus comatus, and a few other species, were found to be more closely related to Agaricaceae. The former genus Coprinus was split between two families, and the name "Coprinaceae" became a synonym of Agaricaceae in its 21st-century phylogenetic redefinition. Note that in the 19th and early 20th centuries the family name Agaricaceae had far broader application, while in the late 20th century it had a narrower application. The family name Psathyrellaceae is based on the former Coprinaceae subfamily name Psathyrelloideae. The type genus Psathyrella consists of species that produce fruiting bodies which do not liquify via autodigestion. Psathyrella remained a polyphyletic genus until it was split into several genera including 3 new ones in 2015. Lacrymaria is another genus that does not autodigest its fruiting bodies. It is characterized by rough basidiospores and lamellar edges that exude beads of clear liquid when in prime condition, hence the Latin reference, lacryma (tears).

<i>Coprinus comatus</i> Species of fungus

Coprinus comatus, commonly known as the shaggy ink cap, lawyer's wig, or shaggy mane, is a common fungus often seen growing on lawns, along gravel roads and waste areas. The young fruit bodies first appear as white cylinders emerging from the ground, then the bell-shaped caps open out. The caps are white, and covered with scales—this is the origin of the common names of the fungus. The gills beneath the cap are white, then pink, then turn black and deliquesce ('melt') into a black liquid filled with spores. This mushroom is unusual because it will turn black and dissolve itself in a matter of hours after being picked or depositing spores.

<i>Coprinopsis</i> Genus of fungi

Coprinopsis is a genus of mushrooms in the family Psathyrellaceae. Coprinopsis was split out of the genus Coprinus based on molecular data. The species Coprinopsis cinerea is a model organism for mushroom-forming basidiomycota, and its genome has recently been sequenced completely.

<i>Psathyrella</i> Genus of fungi

Psathyrella is a large genus of about 400 species, and is similar to the genera Coprinellus, Coprinopsis, Coprinus and Panaeolus, usually with a thin cap and white or yellowish white hollow stem. The caps do not self digest as do those of Coprinellus and Coprinopsis. Some also have brown spores rather than black. These fungi are often drab-colored, difficult to identify, and all members are considered inedible or worthless and so they are often overlooked. However they are quite common and can occur at times when there are few other mushrooms to be seen. The first report of a gilled mushroom fruiting underwater is Psathyrella aquatica.

<i>Coprinopsis atramentaria</i> Species of fungus

Coprinopsis atramentaria, commonly known as the common ink cap, tippler's bane, or inky cap, is an edible mushroom found in Europe and North America. Previously known as Coprinus atramentarius, it is the second best known ink cap and previous member of the genus Coprinus after C. comatus. It is a widespread and common fungus found throughout the northern hemisphere. Clumps of mushrooms arise after rain from spring to autumn, commonly in urban and disturbed habitats such as vacant lots and lawns, as well as grassy areas. The grey-brown cap is initially bell-shaped before opening, after which it flattens and disintegrates. The flesh is thin and the taste mild. It can be eaten, but due to the presence of coprine within the mushroom, it is poisonous when consumed with alcohol, as it heightens the body's sensitivity to ethanol in a similar manner to the anti-alcoholism drug disulfiram.

Panaeolus africanus is a little brown mushroom that contains irregular amounts of the hallucinogens psilocybin and psilocin. It has been found in central Africa and southern Sudan.

<i>Coprinellus micaceus</i> Species of edible fungus in the family Psathyrellaceae with a cosmopolitan distribution

Coprinellus micaceus, commonly known as the mica cap, glistening inky cap, or shiny cap, is a common species of mushroom-forming fungus in the family Psathyrellaceae with a cosmopolitan distribution. The fruit bodies of the saprobe typically grow in clusters on or near rotting hardwood tree stumps or underground tree roots. Depending on their stage of development, the tawny-brown mushroom caps may range in shape from oval to bell-shaped to convex, and reach diameters up to 3 cm. The caps, marked with fine radial or linear grooves that extend nearly to the center, rest atop whitish stipes up to 10 cm (4 in) long. In young specimens, the entire cap surface is coated with a fine layer of reflective mica-like cells. Although small and with thin flesh, the mushrooms are usually bountiful, as they typically grow in dense clusters. A few hours after collection, the gills will begin to slowly dissolve into a black, inky, spore-laden liquid—an enzymatic process called autodigestion or deliquescence. The fruit bodies are edible before the gills blacken and dissolve, and cooking will stop the autodigestion process.

<i>Amanita abrupta</i> Species of fungus

Amanita abrupta, commonly known as the American abrupt-bulbed amanita or the American abrupt-bulbed lepidella, is a possibly toxic species of fungus in the family Amanitaceae. Named for the characteristic shape of its fruit bodies, this white Amanita has a slender stem, a cap covered with conical white warts, and an "abruptly enlarged" swollen base. This terrestrial species grows in mixed woods in eastern North America and eastern Asia, where it is thought to exist in a mycorrhizal relationship with a variety of both coniferous and deciduous tree species.

<i>Mycena nargan</i> Species of fungus in the family Mycenaceae

Mycena nargan, commonly known as the Nargan's bonnet, is a species of fungus in the family Mycenaceae, and the sole member of the section Nargan in the genus Mycena. Reported as a new species in 1995, it is known predominantly from Southern Australia. The saprobic fungus produces mushrooms that grow on well-decayed wood, often on the underside of wood lying in litter. The dark chestnut-coloured caps are covered with white, easily removed scales, and reach diameters of up to 2 cm (0.8 in) wide. The pale, slender stems are up to 5 cm (2.0 in) long and have white scales at the base. On the underside of the cap, the cream-coloured gills are widely spaced and bluntly attached to the stem. The edibility of the mushroom is unknown.

<i>Psilocybe hispanica</i> Species of fungus in the family Hymenogastraceae

Psilocybe hispanica is a species of fungus in the family Hymenogastraceae. It produces small brown mushrooms with conical to convex caps up to 10 mm (0.4 in) in diameter and stems 16 to 25 mm long by 0.5 to 1 mm thick. Reported as new to science in 2000, it is only known from the Pyrenees mountain range in northern Spain and southwestern France, where it grows on horse dung in grass fields at elevations of 1,700 to 2,300 m. The mushroom contains the psychoactive compound psilocybin. The possible depiction of this species in the 6,000-year-old Selva Pascuala rock art suggests that it might have been used in ancient religious rituals—the oldest evidence of such usage in prehistoric Europe.

<i>Amanita nothofagi</i> Species of fungus

Amanita nothofagi is a species of fungus in the family Amanitaceae. Endemic to New Zealand, the species was first described by mycologist Greta Stevenson in 1962. The fruit bodies have dark brown caps that are up to 13 cm (5.1 in) in diameter and covered with patches of soft greyish-brown scales or warts. The gills underneath the cap are crowded together, free from attachment to the stem, and white, becoming tinged with yellow in age. The stem of the mushroom is 4–14 cm (1.6–5.5 in) long by 0.5–2.5 cm (0.2–1.0 in) thick, and has a ring. The spore print is white, and individual spores are spherical to ellipsoid, measuring 7.5–9 by 7.5–9 micrometres. The mushroom may be confused with another New Zealand species, A. australis, but can be distinguished by certain characteristics. Amanita nothofagi is a mycorrhizal species, and grows in association with native New Zealand trees such as Southern Beech.

<i>Tulosesus impatiens</i> Species of fungus

Tulosesus impatiens is a species of fungus in the family Psathyrellaceae. First described in 1821, it has been classified variously in the genera Psathyrella, Pseudocoprinus, Coprinarius, and Coprinus, before molecular phylogenetics reaffirmed it as a Coprinellus species in 2001. The fungus is found in North America and Europe, where the mushrooms grow on the ground in deciduous forests. The fruit bodies have buff caps that are up to 4 cm (1.6 in) in diameter, held by slender whitish stems that can be up to 10 cm (3.9 in) tall. Several other Coprinopsis species that resemble C. impatiens may be distinguished by differences in appearance, habit, or spore morphology.

<i>Coprinopsis variegata</i> Species of fungus

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.

<i>Protostropharia semiglobata</i> Species of fungus

Protostropharia semiglobata, commonly known as the dung roundhead, the halfglobe mushroom, or the hemispherical stropharia, is an agaric fungus of the family Strophariaceae. A common and widespread species with a cosmopolitan distribution, the fungus produces mushrooms on the dung of various wild and domesticated herbivores. The mushrooms have hemispherical straw yellow to buff-tan caps measuring 1–4 cm (0.4–1.6 in), greyish gills that become dark brown in age, and a slender, smooth stem 3–12 cm (1.2–4.7 in) long with a fragile ring.

<i>Parasola auricoma</i> Species of fungus

Parasola auricoma is a species of agaric fungus in the family Psathyrellaceae. First described scientifically in 1886, the species is found in Europe, Japan, and North America. The mushroom was reported in February 2019 in Colombia, in the city of Bogota by the mycologist Juan Camilo Rodriguez Martinez. The small, umbrella-shaped fruit bodies (mushrooms) of the fungus grow in grass or woodchips and are short-lived, usually collapsing with age in a few hours. The caps are up to 6 cm (2.4 in) wide, initially elliptical before flattening out, and colored reddish-brown to greyish, depending on their age and hydration. They are pleated with radial grooves extending from the center to the edge of the cap. The slender, whitish stems are up to 12 cm (4.7 in) long and a few millimeters thick. Microscopically, P. auricoma is characterized by the presence of setae in its cap cuticle. This characteristic, in addition to the relatively large, ellipsoid spores can be used to distinguish it from other morphologically similar Parasola species.

<i>Mycena chlorophos</i> Species of agaric fungus in the family Mycenaceae

Mycena chlorophos is a species of agaric fungus in the family Mycenaceae. First described in 1860, the fungus is found in subtropical Asia, including India, Japan, Taiwan, Polynesia, Indonesia, and Sri Lanka, in Australia, and Brazil. Fruit bodies (mushrooms) have pale brownish-grey sticky caps up to 30 mm (1.2 in) in diameter atop stems 6–30 mm (0.2–1.2 in) long and up to a millimeter thick. The mushrooms are bioluminescent and emit a pale green light. Fruiting occurs in forests on fallen woody debris such as dead twigs, branches, and logs. The fungus can be made to grow and fruit in laboratory conditions, and the growth conditions affecting bioluminescence have been investigated.

<i>Coprinopsis radiata</i> Species of fungus

Coprinopsis radiata, formerly known as Coprinus radiatus, and commonly known as the miniature woolly inky cap, is a coprophilous fungus that grows on herbivore dung. It is heterothallic.

<i>Coprinus sterquilinus</i> Species of fungus

Coprinus sterquilinus, the midden ink cap, is a species of fungus in the family Agaricaceae. It grows on animal dung and occurs in Europe, Asia and America.

Coprinopsis martinii is a species of mushroom producing fungus in the family Psathyrellaceae.

<i>Coprinopsis nivea</i> Species of fungus

Coprinopsis nivea is a species of mushroom producing fungus in the family Psathyrellaceae. It is commonly known as the snowy inkcap.

References

  1. Redhead SA, Vilgalys R, Moncalvo J-M, Johnson J, Hopple JS Jr (2001). "Coprinus Persoon and the disposition of Coprinus species sensu lato". Taxon. 50 (1): 203–41. doi:10.2307/1224525. JSTOR   1224525.
  2. 1 2 Buller (1924), p. 302.
  3. Crosier WF, Patrick SR, Heit CE, McSwain E (1949). "The Harefoot Mushroom, Coprinus lagopus Fr., on fruits used commercially as seedstocks". Science . 110 (2844): 13–14. Bibcode:1949Sci...110...13C. doi:10.1126/science.110.2844.13. PMID   17753812.
  4. Buller (1924), pp. 83–5.
  5. 1 2 Davis, R. Michael; Sommer, Robert; Menge, John A. (2012). Field Guide to Mushrooms of Western North America. Berkeley: University of California Press. p. 207. ISBN   978-0-520-95360-4. OCLC   797915861.
  6. 1 2 3 Miller HR, Miller OK (2006). North American Mushrooms: A Field Guide to Edible and Inedible Fungi. Guilford, CN: Falcon Guide. p. 232. ISBN   978-0-7627-3109-1.
  7. Kuo M. "Coprinopsis lagopus". MushroomExpert.Com. Retrieved 2009-03-22.
  8. 1 2 "Coprinopsis lagopus". California Fungi. Retrieved 2009-03-22.
  9. Buller, pp. 306–7.
  10. Trudell, Steve; Ammirati, Joe (2009). Mushrooms of the Pacific Northwest. Timber Press Field Guides. Portland, OR: Timber Press. p. 197. ISBN   978-0-88192-935-5.
  11. Pauline, N'Douba Amako; Claude, Kouassi Kouadio; Clovis, Koffi N'Dono Boni; Allal, Douira; Koutoua, Ayolié (2022). "Coprophilous fungi of Daloa city: New species for the fungal flora of Côte d'Ivoire". GSC Biological and Pharmaceutical Sciences. 20 (3): 251–260. doi: 10.30574/gscbps.2022.20.3.0362 .
  12. Botton CR, Siehr DJ (1975). "Hydroxylagopodin B, a sesquiterpene quinone from a mutant strain of Coprinus macrorhizus var. microsporus". Phytochemistry. 14 (5–6): 1433. Bibcode:1975PChem..14.1433B. doi:10.1016/S0031-9422(00)98645-X.
  13. Srikrishna A, Lakshmi BV, Ravikumar PC (2006). "The first total synthesis of (+/-)-lagopodin A". Tetrahedron Letters. 47 (8): 1277–81. doi:10.1016/j.tetlet.2005.12.071.
  14. Day PR (1960). "The structure of the mating type locus in Coprinus lagopus". Genetics. 45 (5): 641–50. doi:10.1093/genetics/45.5.641. PMC   1210076 . PMID   17247950.
  15. Clark E, Bowbury RJ (1964). "Studies of methionine synthesis in Coprinus lagopus". Journal of General Microbiology. 36 (3): 333–9. doi: 10.1099/00221287-36-3-333 . PMID   14217348.
  16. Casselton LA (1965). "The production and behavior of diploids of Coprinus lagopus". Genetics Research. 124 (2): 190–208. doi: 10.1017/S0016672300004080 . PMID   14345906.
  17. Lu BC. (1978). "Meiosis in Coprinus. VIII. A time-course study of the fusion and division of the spindle pole body during meiosis". Journal of Cell Biology. 76 (3): 761–66. doi:10.1083/jcb.76.3.761. PMC   2109999 . PMID   564915.

Cited texts

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.