Oudemansiella mucida

Last updated

Oudemansiella mucida
Oudemansiella mucida JPG1.jpg
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Fungi
Division: Basidiomycota
Class: Agaricomycetes
Order: Agaricales
Family: Physalacriaceae
Genus: Oudemansiella
Species:
O. mucida
Binomial name
Oudemansiella mucida
(Schrad.) Hohn. (1794) [1]
Oudemansiella mucida
Information icon.svg
Gills icon.png Gills on hymenium
Umbonate cap icon.svgConvex cap icon.svg Cap is umbonate or convex
Adnexed gills icon2.svg Hymenium is adnexed
Ring stipe icon.svg Stipe has a ring
Saprotrophic fungus.svgEcology is saprotrophic
Mycomorphbox Edible.pngEdibility is edible

Oudemansiella mucida, commonly known as porcelain fungus, is a basidiomycete fungus of the family Physalacriaceae and native to Europe. [2]

Contents

O. mucida is a white, slimy wood-rot fungus and is strongly tied to rotting beech, where it grows in clusters. It is in season late summer to late autumn, and tiny fungi can then sometimes be seen parachuting from high branches, when they are dislodged by the wind on breezy days.

Taxonomy

Porcelain fungus has also been referred to as Beech Tuft, Poached Egg fungus or simply Porcelain Mushroom. Strongly tied to beech and being a delicate, white and slimy mushroom, it is reminiscent of porcelain or egg white; hence its English common names.

In 1794 Heinrich Adolf Schrader described the fungus and gave it the scientific name Agaricus mucidus. Its present accepted name dates from 1909, when Austrian mycologist ´Franz Xaver Rudolf von Höhnel transferred it to the genus Oudemansiella . The genus Oudemansiella was established in 1881 by Carlos Luigi Spegazzini and named in honour of the Dutch mycologist Cornelius Anton Jan Abraham Oudemans (1825–1906). The specific epithet mucida refers to the layer of transparent mucus that covers the caps of porcelain fungi. Synonyms of Oudemansiella mucida include Agaricus mucidus, Collybia mucida, Armillaria mucida and Mucidula mucida.

Description

Underside showing lamellae and stem Porcelain Fungus - Oudemansiella mucida (30691766066).jpg
Underside showing lamellae and stem

Caps are 2–8 cm across, strongly convex at first, but mildly flattening over time. They are pale greyish when young, becoming whiter and covered with a semi-translucent and slimy membrane, often with an ochraceous flush at the centre. The surface layer resembles spore-bearing tissue, with erect club-shaped cells, but lacks functional basidia (i.e. cap cuticle is hymeniform).

The slender stems are 30–100 mm tall and 3–10 mm wide, white striate above a substantial membranous ring and slightly scaly and greyish below.

Flesh is thin and white and the lamellae are adnate, broad and very distant.

Cystidia are thin-walled cylindric or utriform. Spore print is white, they are smooth and subglobose in shape and very thickwalled at 13–18×12–15 μm.

When porcelain mushrooms grow from the underside of the tree, the stems will curl in a way so the caps are all held horizontally, with the gills facing down.

O. mucida are seldom confused with other fungi.

Distribution and habitat

O. mucida on a beech trunk Buchen-Schleimrubling1377.jpg
O. mucida on a beech trunk

Porcelain fungus is native to Europe, and specific to beech wood, where it appears in autumn on dead tree trunks and fallen branches, occasionally on dead branches high up in living trees. It is saprobic or weakly parasitic to living beech trees. While it has a strong tie to beech, it has been found growing on oak on rare occasions.

O. mucida occurs throughout northern and central Europe, where beech is found and in its habitat this fungus is a common species. When O. mucida is found on a beech tree, it usually outcompetes other fungi locally by means of a powerful anti-fungal agent called strobilurin.

Chemistry

Porcelain fungus is generally not considered toxic. Some sources claim that it is mildly toxic though, while others consider it edible after washing (to remove the mucus). Still others, describe porcelain fungus as a good culinary mushroom and provide specific recipes for preparing it.

It has been discovered, that O. mucida releases a powerful fungicide that deters or even annihilates competitors. Known as strobilurins, these kinds of anti-fungal agents, have found use in the agricultural business as they protect crops from attacks by many Ascomycetes. Although subsequently improved upon by industrial chemists, the first strobilurin fungicides were isolated from wood-rotting mushroom fungi such as O. mucida and, in particular Strobilurus tenacellus ; another white-spored, wood-rotting fungus.

See also

Sources

Related Research Articles

<span class="mw-page-title-main">Mycology</span> Branch of biology concerned with the study of fungi

Mycology is the branch of biology concerned with the study of fungi, including their taxonomy, genetics, biochemical properties, and use by humans. Fungi can be a source of tinder, food, traditional medicine, as well as entheogens, poison, and infection. Mycology branches into the field of phytopathology, the study of plant diseases. The two disciplines are closely related, because the vast majority of plant pathogens are fungi. A biologist specializing in mycology is called a mycologist.

Strobilurins are a group of natural products and their synthetic analogs. A number of strobilurins are used in agriculture as fungicides. They are part of the larger group of QoIs, which act to inhibit the respiratory chain at the level of Complex III.

<i>Armillaria</i> Genus of fungi

Armillaria is a genus of fungi that includes the A. mellea species known as honey fungi that live on trees and woody shrubs. It includes about 10 species formerly categorized summarily as A. mellea. Armillarias are long-lived and form the largest living fungi in the world. The largest known organism covers more than 3.4 square miles (8.8 km2) in Oregon's Malheur National Forest and is estimated to be 2,500 years old. Some species of Armillaria display bioluminescence, resulting in foxfire.

<i>Armillaria mellea</i> Species of fungus

Armillaria mellea, commonly known as honey fungus, is an edible basidiomycete fungus in the genus Armillaria. It is a plant pathogen and part of a cryptic species complex of closely related and morphologically similar species. It causes Armillaria root rot in many plant species and produces mushrooms around the base of trees it has infected. The symptoms of infection appear in the crowns of infected trees as discoloured foliage, reduced growth, dieback of the branches and death. The mushrooms are edible but some people may be intolerant to them. This species is capable of producing light via bioluminescence in its mycelium.

<i>Omphalotus nidiformis</i> Species of bioluminescent fungus in the family Marasmiaceae

Omphalotus nidiformis, or ghost fungus, is a gilled basidiomycete mushroom most notable for its bioluminescent properties. It is known to be found primarily in southern Australia and Tasmania, but was reported from India in 2012 and 2018. The fan or funnel shaped fruit bodies are up to 30 cm (12 in) across, with cream-coloured caps overlain with shades of orange, brown, purple, or bluish-black. The white or cream gills run down the length of the stipe, which is up to 8 cm (3 in) long and tapers in thickness to the base. The fungus is both saprotrophic and parasitic, and its fruit bodies are generally found growing in overlapping clusters on a wide variety of dead or dying trees.

<i>Meripilus giganteus</i> Species of fungus

Meripilus giganteus is a polypore fungus in the family Meripilaceae. It causes a white rot in various types of broadleaved trees, particularly beech (Fagus), but also Abies, Picea, Pinus, Quercus and Ulmus species. This bracket fungus, commonly known as the giant polypore or black-staining polypore, is often found in large clumps at the base of trees, although fruiting bodies are sometimes found some distance away from the trunk, parasitizing the roots. M. giganteus has a circumboreal distribution in the northern Hemisphere, and is widely distributed in Europe. In the field, it is recognizable by the large, multi-capped fruiting body, as well as its pore surface that quickly darkens black when bruised or injured.

<i>Stropharia aeruginosa</i> Species of fungus

Stropharia aeruginosa, commonly known as the blue-green stropharia, or verdigris agaric, is a medium-sized green, slimy woodland mushroom, found on lawns, mulch and woodland from spring to autumn. The edibility of this mushroom is controversial - some sources claim that it is edible, while others claim it to be poisonous, although effects are little known and its toxic constituents undescribed.

<i>Lactarius blennius</i> Species of fungus

Lactarius blennius is a medium-sized mushroom of the genus Lactarius found commonly in beech forests in Europe, where it is mycorrhizal, favouring the European beech. It was first described by Elias Magnus Fries. Though its colour and size vary, it is distinctive because it is slimy when wet and exudes copious amounts of milk. It has been the subject of some chemical research, and it can be used to produce pigments and blennins. Blennins, some of which have shown potential medical application, are derived from lactarane, a chemical so named because of their association with Lactarius. The edibility of L. blennius is uncertain, with different mycologists suggesting that it is edible, inedible or even poisonous.

<i>Lactarius glyciosmus</i> Species of fungus

Lactarius glyciosmus, commonly known as the coconut scented milk cap, is a semi-edible mushroom in the genus Lactarius. Mycorrhizal, it can be found growing in soil at the base of birch trees in Europe. It is typically coloured a greyish lilac, with the sometimes hollow stem a little lighter coloured than the cap. It has crowded, decurrent gills, and smells strongly of coconuts.

<i>Lactarius vietus</i> Species of fungus

Lactarius vietus is a species of fungus in the family Russulaceae, first described by Elias Magnus Fries. It produces moderately sized and brittle mushrooms, which grow on the forest floor or on rotting wood. The flattened-convex cap can vary in shape, sometimes forming the shape of a wide funnel. It is typically grey, but the colour varies. The species has crowded, light-coloured gills, which produce white milk. The spore print is typically whitish, but also varies considerably. The mushrooms typically have a strong, acrid taste and have been described as inedible, but other authors have described them as consumable after boiling. L. vietus feeds by forming an ectomycorrhizal relationship with surrounding trees, and it favours birch. It grows in autumn months and is fairly common in Europe, North America and eastern Asia.

<i>Oudemansiella australis</i> Species of fungus

Oudemansiella australis is a species of gilled mushroom in the family Physalacriaceae. It is found in Australasia, where it grows on rotting wood. It produces fruit bodies that are white, with caps up to 5.5 cm (2.2 in) in diameter, attached to short, thick stems.

<i>Mycena galericulata</i> Species of fungus

Mycena galericulata is a mushroom species commonly known as the common bonnet, the toque mycena, the common mycena or the rosy-gill fairy helmet. The type species of the genus Mycena was first described scientifically in 1772, but was not considered a Mycena until 1821. It is quite variable in color, size, and shape, which makes it somewhat difficult to reliably identify in the field. The mushrooms have caps with distinct radial grooves, particularly at the margin. The cap's color varies from grayish brown to dark brown and the shape ranges from bell-like to bluntly conical to flattened with an umbo. The stem is hollow, white, tough and thin, without a ring and often roots deeply into the wood on which it grows. The gills are white to grayish or even pinkish when mature and are connected by distinct cross-veins. The caps can reach 4 cm (1.6 in) in diameter, and have a mealy odor and taste. The spore print is white and the gills are pink at maturity, which can lead to possible confusion with species of the genus Pluteus. M. galericulata mushrooms grow mostly in clusters on the well-decayed stumps of deciduous and coniferous trees from spring to autumn. The species can generally be considered inedible. It is common and widespread in the entire temperate zone of the Northern Hemisphere, but it has also been reported from Africa.

<i>Mycena inclinata</i> Species of fungus

Mycena inclinata, commonly known as the clustered bonnet or the oak-stump bonnet cap, is a species of mushroom in the family Mycenaceae. The doubtfully edible mushroom has a reddish-brown bell-shaped cap up to 4.5 cm (1.8 in) in diameter. The thin stem is up to 9 cm (3.5 in) tall, whitish to yellow-brown at the top but progressively becoming reddish-brown towards the base in maturity, where they are covered by a yellowish mycelium that can be up to a third of the length of the stem. The gills are pale brown to pinkish, and the spore print is white. It is a widespread saprobic fungus, and has been found in Europe, North Africa, Asia, Australasia, and North America, where it grows in small groups or tufts on fallen logs and stumps, especially of oak. British mycologist E.J.H. Corner has described two varieties of the mushroom from Borneo. Lookalike species with which M. inclinata may be confused include M. galericulata and M. maculata.

<i>Mycena vitilis</i> Species of fungus

Mycena vitilis, commonly known as the snapping bonnet, is a species of inedible mushroom in the family Mycenaceae. It is found in Europe and North America, where it grows on the ground among leaves in damp places, especially under alder. The small pale gray to whitish fruit bodies are usually attached to small sticks buried in the leaves and detritus. They are distinguished by their long, slender stems that root into the ground, and by the grooved cap that reaches diameters of up to 2.2 cm (0.9 in). The grayish-white gills on the underside of the cap are distantly spaced, and adnately attached to the stem. M. vitilis contains strobilurin B, a fungicidal compound with potential use in agriculture.

<i>Panellus stipticus</i> Species of fungus in the family Mycenaceae found in Asia, Australia, Europe, and North America

Panellus stipticus, commonly known as the bitter oyster, the astringent panus, the luminescent panellus, or the stiptic fungus, is a species of fungus. It belongs in the family Mycenaceae, and the type species of the genus Panellus. A common and widely distributed species, it is found in Asia, Australia, Europe, and North America, where it grows in groups or dense overlapping clusters on the logs, stumps, and trunks of deciduous trees, especially beech, oak, and birch. During the development of the fruit bodies, the mushrooms start out as tiny white knobs, which, over a period of one to three months, develop into fan- or kidney-shaped caps that measure up to 3 cm (1.2 in) broad. The caps are orange-yellow to brownish, and attached to the decaying wood by short stubby stalks that are connected off-center or on the side of the caps. The fungus was given its current scientific name in 1879, but has been known by many names since French mycologist Jean Bulliard first described it as Agaricus stypticus in 1783. Molecular phylogenetic analysis revealed P. stipticus to have a close genetic relationship with members of the genus Mycena.

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

Amanita australis is a species of fungus in the family Amanitaceae. It produces small- to medium-sized fruit bodies, with brown caps up to 9 centimetres in diameter covered with pyramidal warts. The gills on the underside of the cap are white, closely crowded together, and free from attachment to the stem. The stem, up to 9 cm long, has a ring and a bulbous base. The mushroom may be confused with another endemic New Zealand species, A. nothofagi, but can be distinguished by differences in microscopic characteristics.

<i>Hygrophorus eburneus</i> Species of fungus

Hygrophorus eburneus, commonly known as the ivory waxy cap or the cowboy's handkerchief, is a species of edible mushroom in the waxgill family of fungi. Hygrophorus eburneus is the type species of the genus Hygrophorus. The fruit bodies are medium-sized, pure white, and when wet are covered in a layer of slime thick enough to make the mushroom difficult to pick up. The gills are broadly attached to the stem or running down it; as the family name suggests, they feel waxy when rubbed between the fingers.

<i>Strobilurus tenacellus</i> Species of fungus

Strobilurus tenacellus, commonly known as the pinecone cap, is a species of agaric fungus in the family Physalacriaceae. It is found in Asia and Europe, where it grows on the fallen cones of pine and spruce trees. The fruit bodies (mushrooms) are small, with convex to flat, reddish to brownish caps up to 15 mm (0.6 in) in diameter, set atop thin cylindrical stems up to 4–7.5 cm (1.6–3.0 in) long with a rooting base. A characteristic microscopic feature of the mushroom is the sharp, thin-walled cystidia found on the stipe, gills, and cap. The mushrooms, sometimes described as edible, are too small to be of culinary interest. The fungus releases compounds called strobilurins that suppress the growth and development of other fungi. Derivatives of these compounds are used as an important class of agricultural fungicides.

<i>Mycena purpureofusca</i> Species of fungus

Mycena purpureofusca, commonly known as the purple edge bonnet, is a species of agaric fungus in the family Mycenaceae. First described by Charles Horton Peck in 1885, the species is found in Europe and North America, where it grows on the decaying wood and debris of conifers, including cones. Fruit bodies have conical to bell-shaped purple caps up to 2.5 cm (1 in) set atop slender stipes up to 10 cm (4 in) long. The mushroom is named for the characteristic dark greyish-purple color of its gill edges. In the field, M. purpureofusca mushrooms can usually be distinguished from similar species by characteristics such as the dark purple gill edges, the deep purple cap center, and its cartilagineous consistency. The fungus contains a laccase enzyme that has been investigated scientifically for its potential to detoxify recalcitrant industrial dyes used in textile dyeing and printing processes.

<span class="mw-page-title-main">Oudemansin A</span> Chemical compound

Oudemansin A is a natural product first isolated from the basidiomycete fungus Oudemansiella mucida. Its chemical structure was determined by X-ray crystallography in 1979 and absolute stereochemistry by total synthesis. Two closely related derivatives, oudemansin B and X have also been isolated from other basidiomycetes. They are all biologically active against many filamentous fungi and yeasts but with insufficient potency and stability to become useful commercial products. However, their discovery, together with the strobilurins led to agricultural fungicides including azoxystrobin with the same mechanism of action.

References

Further reading

Commons-logo.svg Media related to Oudemansiella mucida at Wikimedia Commons