Milking bonnet

Appearance

The cap of M. galopus is egg-shaped when young, later becoming conic to somewhat bell-shaped, and eventually reaching a diameter of 0.5 to 2.5 cm (0.2 to 1.0 in). In age it often has a margin curved inward, and a prominent umbo. The cap surface has a hoary sheen (remnants of the universal veil that once covered the immature fruit body) that soon sloughs off, leaving it naked and smooth. The cap margin, which is initially pressed against the stem, is translucent when moist, so that the outline of the gills underneath the cap may be seen, and has deep narrow grooves when dry. The color is largely fuscous-black except for the whitish margin that fades to pale gray; the umbo remains blackish or becomes dark gray, sometimes with a very pale ashy gray over all when moist, and opaque and ashy gray after drying. The flesh is thin, soft, and fragile, without any distinctive odor and taste.

The gills are subdistantly spaced, narrow, ascending-adnate, whitish to gray, usually darker in age, with edges that are pallid or grayish. The stem is 4 to 8 cm (1.6 to 3.1 in) (rarely up to 12 cm) long, 1–2 mm thick, equal in length throughout, smooth, and fragile. The lower portion of the stem is dark blackish-brown to a dark ashy color. The apex of the stem is pallid, and the whitish base covered with coarse, stiff hairs. When broken it exudes a white milk-like liquid. The variety candida is similar in appearance to the main variety, except its fruit body is completely white. Variety nigra has a dark or blackish-gray cap, and gills that are initially whitish before turning gray.

Although not poisonous, M. galopus and the varieties candida and nigra are inedible.

Naming

The mushroom was first described as Agaricus galopus by Christian Hendrik Persoon in 1800, and later transferred to the genus Mycena by Paul Kummer in 1871. An Australian taxon formerly considered a variety, Mycena galopus var. mellea, was raised to species level and renamed M. thunderboltensis in 1998. The variety candida was described by Jakob Emanuel Lange in 1914 based on specimens he found in Denmark; variety nigra was named by Carleton Rea in 1922. Mycena galopoda is an orthographical variant spelling.

The specific epithet galopus is derived from the Greek γαλα "milk", and πονς "foot". The mushroom is commonly known as the "milking bonnet", or the "milk-drop Mycena". The varieties candida and nigra are the white and black milking bonnets, respectively.

Distribution

In the United States, it is very abundant along the Pacific Coast from Washington to California, and also in Tennessee and North Carolina;[10] its northern distribution extends to Canada (Nova Scotia). In Europe, it has been collected from Britain, Germany, and Norway.

Behavior

Mycena galopus is a saprobic fungus, and plays an important role in forest ecosystems as a decomposer of leaf litter. It has been estimated in the UK to account for a large portion of the decomposition of the autumn leaf litter in British woodlands. It is able to break down the lignin and cellulose components of leaf litter. Grown in axenic culture in the laboratory, the fungus mycelium has been shown to degrade (in addition to lignin and cellulose) hemicelluloses, protein, soluble carbohydrates, and purified xylan and pectin using enzymes such as polyphenol oxidases, cellulases, and catalase. It is particularly adept at breaking down lignin, which is the second most abundant renewable organic compound in the biosphere, after cellulose. Research also suggests that the fungus weathers soil minerals, making them more available to mycorrhizal plants. Phosphorus, an important macronutrient influencing plant growth, typically occurs in primary minerals like apatite, or other organic complexes, and its low solubility often results in low phosphorus availability in soil. The biological activity of M. galopus mycelium can increase the availability of phosphorus and other nutrients, both as a result of soil acidification due to cation uptake and via the release of weathering agents such low molecular mass organic acids. Studies have shown that the fungus is sensitive to low concentrations of sulphite (SO32-), a byproduct of sulphur dioxide pollution, suggesting that this pollution can be toxic to the growth of the fungus (and the subsequent decomposition of leaf litter) at environmentally relevant concentrations.

Habitat

The fruit bodies of Mycena galopus grow in groups to scattered on humus under hardwoods or conifers.