Bankera
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Bankera
''Bankera'' is a genus of four species of tooth fungi in the family Bankeraceae. The genus was first circumscribed in 1951 by William Chambers Coker and Alma Holland Beers, but this publication was invalid according to the rules of botanical nomenclature. It was later published validly by Zdeněk Pouzar in 1955. The type species is '' B. fuligineoalba''. The genus is ectomycorrhizal with gymnosperms, usually with trees from the pine family. Fruitbodies of ''Bankera'' species are fleshy, usually with a centrally-placed stipe, and greyish-brown spines on the hymenial undersurface. The texture of the flesh ranges from soft to tough, but it lacks the zones associated with some other Bankeraceae genera. Dried flesh often has a fenugreek odor. Spores range in shape from more or less spherical to ellipsoid, and are hyaline (translucent), with thin walls. In deposit, they are white. ''Bankera'' has a monomitic hyphal system with brownish to hyaline, inflated generative hyphae. ...
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Bankera Cinerea
''Bankera'' is a genus of four species of tooth fungi in the family Bankeraceae. The genus was first circumscribed in 1951 by William Chambers Coker and Alma Holland Beers, but this publication was invalid according to the rules of botanical nomenclature. It was later published validly by Zdeněk Pouzar in 1955. The type species is '' B. fuligineoalba''. The genus is ectomycorrhizal with gymnosperms, usually with trees from the pine family. Fruitbodies of ''Bankera'' species are fleshy, usually with a centrally-placed stipe, and greyish-brown spines on the hymenial undersurface. The texture of the flesh ranges from soft to tough, but it lacks the zones associated with some other Bankeraceae genera. Dried flesh often has a fenugreek odor. Spores In biology, a spore is a unit of sexual or asexual reproduction that may be adapted for dispersal and for survival, often for extended periods of time, in unfavourable conditions. Spores form part of the life cycles ...
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Bankera Violascens
''Bankera'' is a genus of four species of tooth fungi in the family Bankeraceae. The genus was first circumscribed in 1951 by William Chambers Coker and Alma Holland Beers, but this publication was invalid according to the rules of botanical nomenclature. It was later published validly by Zdeněk Pouzar in 1955. The type species is '' B. fuligineoalba''. The genus is ectomycorrhizal with gymnosperms, usually with trees from the pine family. Fruitbodies of ''Bankera'' species are fleshy, usually with a centrally-placed stipe, and greyish-brown spines on the hymenial undersurface. The texture of the flesh ranges from soft to tough, but it lacks the zones associated with some other Bankeraceae genera. Dried flesh often has a fenugreek odor. Spores range in shape from more or less spherical to ellipsoid, and are hyaline (translucent), with thin walls. In deposit, they are white. ''Bankera'' has a monomitic hyphal system with brownish to hyaline, inflated generative ...
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Bankera Fuligineoalba
''Bankera'' is a genus of four species of tooth fungi in the family Bankeraceae. The genus was first circumscribed in 1951 by William Chambers Coker and Alma Holland Beers, but this publication was invalid according to the rules of botanical nomenclature. It was later published validly by Zdeněk Pouzar in 1955. The type species is '' B. fuligineoalba''. The genus is ectomycorrhizal with gymnosperms, usually with trees from the pine family. Fruitbodies of ''Bankera'' species are fleshy, usually with a centrally-placed stipe, and greyish-brown spines on the hymenial undersurface. The texture of the flesh ranges from soft to tough, but it lacks the zones associated with some other Bankeraceae genera. Dried flesh often has a fenugreek odor. Spores range in shape from more or less spherical to ellipsoid, and are hyaline (translucent), with thin walls. In deposit, they are white. ''Bankera'' has a monomitic hyphal system with brownish to hyaline, inflated generative ...
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Bankera Mollis
''Bankera'' is a genus of four species of tooth fungi in the family Bankeraceae. The genus was first circumscribed in 1951 by William Chambers Coker and Alma Holland Beers, but this publication was invalid according to the rules of botanical nomenclature. It was later published validly by Zdeněk Pouzar in 1955. The type species is '' B. fuligineoalba''. The genus is ectomycorrhizal with gymnosperms, usually with trees from the pine family. Fruitbodies of ''Bankera'' species are fleshy, usually with a centrally-placed stipe, and greyish-brown spines on the hymenial undersurface. The texture of the flesh ranges from soft to tough, but it lacks the zones associated with some other Bankeraceae genera. Dried flesh often has a fenugreek odor. Spores range in shape from more or less spherical to ellipsoid, and are hyaline (translucent), with thin walls. In deposit, they are white. ''Bankera'' has a monomitic hyphal system with brownish to hyaline, inflated generative ...
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Bankeraceae
The ''Bankeraceae'' are a family of fungi in the order Thelephorales. Taxa are terrestrial, and ectomycorrhizal with plant species in families such as Pinaceae or Fagaceae. The family was circumscribed by Marinus Anton Donk in 1961. According to a 2008 estimate, the family contains 6 genera and 98 species. Genera The family consists of the following genera: * '' Bankera'' * '' Boletopsis'' * '' Corneroporus'' * '' Hydnellum'' * '' Phellodon'' * ''Sarcodon ''Sarcodon'' is a genus of fungi in the family Bankeraceae, which is part of the order Thelephorales The Thelephorales are an order of fungi in the class Agaricomycetes. The order includes corticioid and hydnoid fungi, together with a few ...'' References External links * * Thelephorales Basidiomycota families {{Agaricomycetes-stub ...
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Thelephorales
The Thelephorales are an order (biology), order of fungi in the class (biology), class Agaricomycetes. The order includes corticioid fungi, corticioid and hydnoid fungi, together with a few polypores and clavarioid fungi, clavarioid species. Most fungi within the Thelephorales are ectomycorrhizal. None is of any great economic importance, though ''Sarcodon imbricatus'' is edible and commercially marketed, whilst several species have been used for craft dyeing. Taxonomy History Though "the Thelephorales" were referred to in passing by E.J.H. Corner in 1968, the order was not formally published till 1976 when German mycologist Franz Oberwinkler first described it as encompassing the family (biology), families Thelephoraceae and Bankeraceae. As originally conceived, species within the order had diverse basidiocarp (fruit body) forms, but shared several features in common, notably similarities in basidiospore shape (most having spiny to warted, often lobed spores) and similarities in ...
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Hydnoid Fungi
The hydnoid fungi are a group of fungi in the Basidiomycota with basidiocarps (fruit bodies) producing spores on pendant, tooth-like or spine-like projections. They are colloquially called tooth fungi. Originally such fungi were referred to the genus ''Hydnum'' ("hydnoid" means ''Hydnum''-like), but it is now known that not all hydnoid species are closely related. History ''Hydnum'' was one of the original genera created by Linnaeus in his ''Species Plantarum'' of 1753. It contained all species of fungi with fruit bodies bearing pendant, tooth-like projections. Subsequent authors described around 900 species in the genus. With increasing use of the microscope, it became clear that not all tooth fungi were closely related and most ''Hydnum'' species were gradually moved to other genera. The Dutch mycologist Rudolph Arnold Maas Geesteranus paid particular attention to the group, producing a series of papers reviewing the taxonomy of hydnoid fungi. The original genus ''Hydnum'' is ...
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Basidiocarp
In fungi, a basidiocarp, basidiome, or basidioma () is the sporocarp of a basidiomycete, the multicellular structure on which the spore-producing hymenium is borne. Basidiocarps are characteristic of the hymenomycetes; rusts and smuts do not produce such structures. As with other sporocarps, epigeous (above-ground) basidiocarps that are visible to the naked eye (especially those with a more or less agaricoid morphology) are commonly referred to as mushrooms, while hypogeous (underground) basidiocarps are usually called false truffles. Structure All basidiocarps serve as the structure on which the hymenium is produced. Basidia are found on the surface of the hymenium, and the basidia ultimately produce spores. In its simplest form, a basidiocarp consists of an undifferentiated fruiting structure with a hymenium on the surface; such a structure is characteristic of many simple jelly and club fungi. In more complex basidiocarps, there is differentiation into a stipe, a pileus ...
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Stipe (mycology)
In mycology, a stipe () is the stem or stalk-like feature supporting the cap of a mushroom. Like all tissues of the mushroom other than the hymenium, the stipe is composed of sterile hyphal tissue. In many instances, however, the fertile hymenium extends down the stipe some distance. Fungi that have stipes are said to be stipitate. The evolutionary benefit of a stipe is generally considered to be in mediating spore dispersal. An elevated mushroom will more easily release its spores into wind currents or onto passing animals. Nevertheless, many mushrooms do not have stipes, including cup fungi, puffballs, earthstars, some polypores, jelly fungi, ergots, and smuts. It is often the case that features of the stipe are required to make a positive identification of a mushroom. Such distinguishing characters include: # the texture of the stipe (fibrous, brittle, chalky, leathery, firm, etc.) # whether it has remains of a partial veil (such as an annulus or cortina) or universal ve ...
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Hymenium
The hymenium is the tissue layer on the hymenophore of a fungal fruiting body where the cells develop into basidia or asci, which produce spores. In some species all of the cells of the hymenium develop into basidia or asci, while in others some cells develop into sterile cells called cystidia (basidiomycetes) or paraphyses (ascomycetes). Cystidia are often important for microscopic identification. The subhymenium consists of the supportive hyphae from which the cells of the hymenium grow, beneath which is the hymenophoral trama, the hyphae that make up the mass of the hymenophore. The position of the hymenium is traditionally the first characteristic used in the classification and identification of mushrooms. Below are some examples of the diverse types which exist among the macroscopic Basidiomycota and Ascomycota. * In agarics, the hymenium is on the vertical faces of the gills. * In boletes and polypores, it is in a spongy mass of downward-pointing tubes. * In puffballs, ...
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Trama (mycology)
In mycology, the term trama is used in two ways. In the broad sense, it is the inner, fleshy portion of a mushroom's basidiocarp, or fruit body. It is distinct from the outer layer of tissue, known as the pileipellis or cuticle, and from the spore-bearing tissue layer known as the hymenium. In essence, the trama is the tissue that is commonly referred to as the "flesh" of mushrooms and similar fungi.Largent D, Johnson D, Watling R. 1977. ''How to Identify Mushrooms to Genus III: Microscopic Features''. Arcata, CA: Mad River Press. . pp. 60–70. The second use is more specific, and refers to the "hymenophoral trama" that supports the hymenium. It is similarly interior, connective tissue, but it is more specifically the central layer of hyphae running from the underside of the mushroom cap to the lamella or gill, upon which the hymenium rests. Various types have been classified by their structure, including trametoid, cantharelloid, boletoid, and agaricoid, with agaricoid the ...
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Fungi
A fungus ( : fungi or funguses) is any member of the group of eukaryotic organisms that includes microorganisms such as yeasts and molds, as well as the more familiar mushrooms. These organisms are classified as a kingdom, separately from the other eukaryotic kingdoms, which by one traditional classification include Plantae, Animalia, Protozoa, and Chromista. A characteristic that places fungi in a different kingdom from plants, bacteria, and some protists is chitin in their cell walls. Fungi, like animals, are heterotrophs; they acquire their food by absorbing dissolved molecules, typically by secreting digestive enzymes into their environment. Fungi do not photosynthesize. Growth is their means of mobility, except for spores (a few of which are flagellated), which may travel through the air or water. Fungi are the principal decomposers in ecological systems. These and other differences place fungi in a single group of related organisms, named the ''Eumycota'' (''t ...
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