Tylopilus
| Tylopilus | |
|---|---|
 |
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| Tylopilus felleus | |
| Scientific classification | |
| Kingdom: | Fungi |
| Division: | Basidiomycota |
| Class: | Agaricomycetes |
| Order: | Boletales |
| Family: | Boletaceae |
| Genus: |
Tylopilus P.Karst. (1881) |
| Type species | |
|
Tylopilus felleus (Bull.) P.Karst. (1881) |
|
| Synonyms | |
Tylopilus is a genus of over 100 species of mycorrhizal bolete fungi separated from Boletus. Its best known member is the bitter bolete (Tylopilus felleus), the only species found in Europe. More species are found in North America, such as the edible species T. alboater, and the tropics. Australia is another continent where many species are found. All members of the genus form mycorrhizal relationships with trees. Members of the genus are distinguished by their pinkish pore surfaces.
The genus was first defined by Petter Adolf Karsten in 1881. The type species, Tylopilus felleus, was originally described in 1788 as a species of Boletus by French mycologist Pierre Bulliard.Tylopilus means "bumpy or swollen pileus", from the Greek tylos "bump" and pilos "hat".
Molecular analysis indicates the genus, like other large genera within the Boletales, is polyphyletic. A lineage of Tylopilus chromapes (now Harrya chromapes and related species) has been shown to be only distantly related to other members of Tylopilus. Hence T. chromapes is now the type species of the new genus Harrya and, related to it, several Australian species moved to Australopilus.T. valens was also moved to its own genus, Pseudoaustroboletus.
Fruit bodies of the genus Tylopilus are encountered as large stout bolete mushrooms, which generally arise from the ground or occasionally from wood. They have stout stipes, which do not have a ring. A key field character which distinguishes them from members of the genus Boletus is the presence of their pink-tinged pores (though these may be white when young). The "pink pore" feature is a polyphyletic morphology that does not unite the Tylopilus species using traditional morphological characters (Smith and Thiers or Singer's concepts). The spore print manifests various shades of pinkish-brown, through reddish-brown and even chocolate brown.
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