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Russulàcies ( Katalanca; Valensiyaca )

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Russulàcia (Russulaceae) és una família de fongs dins l'ordre Russulales. Segons una estimació de l'any 2008 aquesta família conté 1.243 espècies.[1] Les espècies típicament tenen cossos fructífers amb estípit fràgil similar al guix, que es trenca amb un crac distintiu amb la carn porosa.

Gèneres

Aquesta família està dominada per dos gèneres:

Altres gèneres de Russulàcies inclouen Boidinia, Cystangium, Multifurca, i Pseudoxenasma.

Paràsits

Membres tant de Lactarius com de Russula són subjectes de ser parasitats pel fong Hypomyces lactifluorum. Aquests fongs també poden ser parasitats per la planta Monotropa uniflora (Indian Pipe), una planta micoheteròtrofa sense clorofil·la.

Referències

  1. Kirk PM, Cannon PF, Minter DW, Stalpers JA.. Dictionary of the Fungi.. 10a ed.. Wallingford: CABI, 2008, p. 609. ISBN 978-0-85199-826-8.

Enllaços externs

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Russulàcies: Brief Summary ( Katalanca; Valensiyaca )

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Russulàcia (Russulaceae) és una família de fongs dins l'ordre Russulales. Segons una estimació de l'any 2008 aquesta família conté 1.243 espècies. Les espècies típicament tenen cossos fructífers amb estípit fràgil similar al guix, que es trenca amb un crac distintiu amb la carn porosa.

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Holubinkovité ( Çekçe )

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Holubinkovité (Russulaceae) je čeleď převážně kloboukatých hub. Vzácně tvoří i plodnice gasteroidní nebo podzemní. Dužnina je charakteristicky lámavá a strukturou připomíná jablko. Jsou přítomny mléčnice, které u ryzců roní mléko.

Jsou to mykorhizní druhy hub, holubinka mandlová, holubinka nazelenalá, ryzec pravý a ryzec syrovinka jsou ceněné, chutné jedlé houby.

Rody


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Holubinkovité: Brief Summary ( Çekçe )

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Holubinkovité (Russulaceae) je čeleď převážně kloboukatých hub. Vzácně tvoří i plodnice gasteroidní nebo podzemní. Dužnina je charakteristicky lámavá a strukturou připomíná jablko. Jsou přítomny mléčnice, které u ryzců roní mléko.

Jsou to mykorhizní druhy hub, holubinka mandlová, holubinka nazelenalá, ryzec pravý a ryzec syrovinka jsou ceněné, chutné jedlé houby.

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Skørhat-familien ( Danca )

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Skørhat-familien (Russulaceae) er en familie i Skørhat-ordenen.

Slægter


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Täublingsverwandte ( Almanca )

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Die Täublingverwandten (Russulaceae[1]), in älterer Literatur teils auch „Sprödblättler“ genannt (was sich eigentlich nur auf die leicht brüchigen Lamellen der Täublinge und der Milchlinge bezieht)[2], sind eine Familie von Großpilzen aus der Ordnung der Täublingsartigen (Russulales).

Merkmale

 src=
Lachs-Reizker
Lactarius salmonicolor

Zu den Täublingsverwandten zählen sowohl Arten mit in Hut und Stiel gegliederten Fruchtkörpern, deren Unterbau für die Fruchtschicht (Hymenophor) aus Lamellen besteht, als auch Spezies mit knolligen, unterirdischen Fruchtkörpern und innen liegender Fruchtschicht (Hymenium). Die Farbe des Sporenpulvers reicht von weiß über cremefarben bis hin zu gelblich oder ocker. Markant ist neben den oft leuchtenden, auf wasserlöslichen Russupteridinen basierenden Farben das typische Bruchverhalten des Fleischs (Trama) bei den Vertretern der Gattung Milchlinge und Täublinge: Es bricht käseartig ohne aufzufasern. Dies liegt am Aufbau des Fleischs, der neben normalen Pilzfäden (Hyphen) auch Nester aus kugeligen Zellen (Sphaerocysten) enthält. Milchlinge enthalten zudem noch Laticiferen, bei denen bei Verletzung Milchsaft austritt. Die Pilzfäden der Täublingsartigen besitzen keine Schnallen an den Querwänden (Septen). Die Sporen sind bilateral symmetrisch, elliptisch bis fast kugelig geformt und zeigen einen glatten Fleck oberhalb des Hilarappendix auf der ansonsten mit Warzen, Stacheln, Leisten oder Rippen ornamentierten Oberfläche. Das Ornament ist mit Iodlösung anfärbbar.

Ökologie

Die Täublingsverwandten sind Mykorrhizapilze, die meist mit Bäumen oder Sträuchern, seltener mit krautigen Pflanzen vergesellschaftet sind.

Systematik

In Europa besteht die Familie Russulaceae fast ausschließlich aus den Täublingen (Russula) und den Milchlingen (Lactarius und Lactifluus). Molekulargenetische Untersuchungen konnten zur Klärung der Verwandtschaftsverhältnisse innerhalb der Familie beitragen,[3] wenngleich die infragenerische Systematik immer noch nicht vollständig bekannt ist.

Folgende Gattungen sind monophyletische Gruppen innerhalb der Familie[3]:

Die folgenden Gattungen von Arten mit geschlossenen (angiocarpen) Fruchtkörpern sind dagegen Formgruppen, die eigentlich zu Russula oder Lactarius gehören:[3]

Quellen

Literatur

  • Heinrich Dörfelt, Gottfried Jetschke (Hrsg.): Wörterbuch der Mycologie. 2. Auflage. Spektrum Akademischer Verlag, Heidelberg/Berlin 2001, ISBN 3-8274-0920-9.

Einzelnachweise

  1. Johannes Paulus Lotsy: Russulaceae. In: Vorträge über botanische Stammesgeschichte. Gehalten an der Reichsuniversität zu Leiden. Erster Band: Algen und Pilze, 1907, S. 708–710 (Online – Ein Lehrbuch der Pflanzensystematik, via Biodiversity Heritage Library (BHL) verfügbar).
  2. R. Lüder: Grundkurs Pilzbestimmung. 5. Auflage. Quelle & Meyer Verlag, Wiebelsheim 2018, ISBN 978-3-494-01750-1, S. 147.
  3. a b c Bart Buyck, Valérie Hofstetter, Ursula Eberhardt, Annemieke Verbeken, Frank Kauff: Walking the thin line between Russula and Lactarius: the dilemma of Russula sect. Ochricompactae. In: Fungal Diversity. Band 28, Nr. 2, 2008, S. 15–40 (PDF; 597 KB).

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Täublingsverwandte: Brief Summary ( Almanca )

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Die Täublingverwandten (Russulaceae), in älterer Literatur teils auch „Sprödblättler“ genannt (was sich eigentlich nur auf die leicht brüchigen Lamellen der Täublinge und der Milchlinge bezieht), sind eine Familie von Großpilzen aus der Ordnung der Täublingsartigen (Russulales).

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Russulaceae ( İngilizce )

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The Russulaceae are a diverse family of fungi in the order Russulales, with roughly 1,900 known species and a worldwide distribution. They comprise the brittlegills and the milk-caps, well-known mushroom-forming fungi that include some edible species. These gilled mushrooms are characterised by the brittle flesh of their fruitbodies.

In addition to these typical agaricoid forms, the family contains species with fruitbodies that are laterally striped (pleurotoid), closed (secotioid or gasteroid), or crust-like (corticioid). Molecular phylogenetics has demonstrated close affinities between species with very different fruitbody types and has discovered new, distinct lineages.

An important group of root-symbiotic ectomycorrhizal fungi in forests and shrublands around the world includes Lactifluus, Multifurca, Russula, and Lactarius. The crust-forming genera Boidinia, Gloeopeniophorella, and Pseudoxenasma, all wood-decay fungi, have basal positions in the family.

Systematics and taxonomy

The family Russulaceae was first validly named in 1907 by Dutch botanist Johannes Paulus Lotsy,[4] who included three genera: Russula, Lactarius, and Russulina (now considered a synonym of Russula). He emphasised features such as the granular flesh, thick gills, spiny spores, and milky hyphae and rounded cells (sphaerocytes).[1] A prior usage of "Russulariées" by French mycologist Ernst Roze in 1876[5] is not considered a valid publication, since the proper Latin termination for the family rank specified in article 18.4 of the nomenclature code was not used.[4][6]

Synonyms of Russulaceae include: Ernst Albert Gäumann's Lactariaceae (1926), Fernand Moreau's Asterosporaceae (1953),[2] and David Pegler and Thomas Young's Elasmomycetaceae (1979). The latter family was proposed to contain species with statismosporic (non-forcibly discharged) and symmetric spores, including the gasteroid genera Elasmomyces, Gymnomyces, Martellia, and Zelleromyces. Calonge and Martín reduced the Elasmomycetaceae to synonymy with the Russulaceae when molecular analysis confirmed the close genetic relationship between the gasteroid and agaricoid genera.[3]

Placement of the family

Historically, the gilled mushrooms of the family Russulaceae were classified with other gilled species in the order Agaricales,[7] but microscopical studies of spore and fruitbody flesh features raised the possibility that they were more closely related with certain "lower fungi" presenting nongilled, crust-like fruitbodies.[2][8][9] The use of molecular phylogenetics confirmed that these morphologically diverse fungi form a distinct lineage, first termed the "russuloid clade"[10][11] and today classified as order Russulales in the class Agaricomycetes.[12] The family's sister group within the order appears to be the crust-like Gloeocystidiellaceae.[13]

Internal systematics

Lactarius

Multifurca

Russula

Lactifluus

Boidinia

Gloeopeniophorella

Pseudoxenasma

Phylogeny of the Russulaceae; dashed lines indicate uncertain placement.[10][13][14][15]

A 2008 molecular phylogenetic study clarified the relationships among the mushroom-forming species of the family.[15] The authors demonstrated the existence of four distinct lineages of gilled mushrooms, which led to the description of Multifurca as a new genus separated from Russula[15] and the segregation of Lactifluus from Lactarius.[16][17]

Genera with closed fruitbodies within the family are form taxa instead of natural groups: Arcangeliella, Gastrolactarius, and Zelleromyces are phylogenetically part of Lactarius, while Cystangium, Elasmomyces, Gymnomyces, Macowanites, and Martellia belong to Russula.[3][16] Nevertheless, some of these genus names are still in use, as many of the concerned species have not yet formally been synonymised with Lactarius or Russula.[18]

The crust-like genera Boidinia, Gloeopeniophorella, and Pseudoxenasma, formerly placed in the Corticiaceae or Gloeocystidiellaceae, are now classified in the Russulaceae and basal to the clade of mushroom-forming species described above.[13][18] Studies have so far failed to clearly circumscribe and place these genera within the family.[10][13][14] Boidinia in its current extent is polyphyletic, with some species not falling into the Russulaceae.[10]

Species diversity

Altogether, the Russulaceae comprise around 1,900 accepted species.[18] Russula is by far the largest genus with c. 1100 species, Lactarius has c. 550, Lactifluus c. 120, Boidinia 13, Multifurca 6, Gloeopeniophorella 6, and Pseudoxenasma 1 species.[18][19] Closed-fruitbody species not yet synonymised with Lactarius or Russula (see above) account for some 150 species.[18]

New species in the Russulaceae continue to be described from various regions, such as the US,[20] Guyana,[21] Brazil,[22] Patagonia,[23] Togo,[24] Sri Lanka,[25] or Thailand.[25] It has been estimated that the real number of Russula species in North America alone (currently around 400 described) might be as high as 2000.[26] Cryptic species may increase true diversity: some morphologically well-defined species, especially in Lactifluus, have been shown to actually encompass several phylogenetic species.[27][28][29]

Description

Macroscopic characteristics

Comparison of brittle flesh texture in Russulaceae and the more fibrous flesh found in most other fungi

Three major types of fruitbodies occur in the Russulaceae: agaricoid and pleurotoid forms with a cap, gills, and a stipe; forms with closed (gasteroid) or partially closed (secotioid) fruitbodies, and corticioid, crust-like forms.

The agaricoid species in Lactarius, Lactifluus, Multifurca, and Russula are readily distinguished from other gilled mushrooms by the consistency of their flesh, which is granular, brittle and breaks easily, somewhat like a piece of chalk.[1][30] Russulaceae never have a volva,[30] but a partial veil can be found in some tropical species.[31][32] Gills are adnate to decurrent, and the colour of the spore print ranges from white to ochre or orange[15][33] (with the brown-spored Lactarius chromospermus as an exception[34]).

Caps can be dull to very colourful, the latter especially in Russula;[33] their size ranges from 17 mm diameter or less in Russula campinensis[35] to 30 cm (12 in) in Lactifluus vellereus.[33] Concentrically ringed (zonate) caps occur in all Multifurca[15] and several Lactarius species.[33] Laterally striped (pleurotoid) fruitbodies exist in some, mainly tropical Lactifluus and Russula species.[35][36][37][38] Taste is a distinguishing characteristic in many species, from mild to very acrid.[33] A conspicuous feature of the "milk-caps" in Lactarius, Lactifluus, and Multifurca furcata is the latex or "milk" their fruitbodies exude when bruised.[15][30]

The secotioid and gasteroid species in Lactarius and Russula are derived from agaricoid forms.[15][39] Secotioid species still have a stipe but the cap does not open fully, while in gasteroid species, fruitbodies are completely closed and the stipe is reduced; in both cases, the spore-bearing structure is made up of convoluted gills that are more or less crowded and anastomosed.[39] These closed-fruitbody species represent a continuum of secotioid to gasteroid, above-ground to below-ground fruitbodies, with spores forcibly discharged or not.[25][39][40] Secotioid or gasteroid Lactarius exude latex just like their agaricoid relatives.[3][25][40]

The corticioid species of Boidinia, Gloeopeniophorella, and Pseudoxenasma develop crust-like fruitbodies with a smooth, porous, or flaky surface and grow on tree logs or dead branches.[10][41][42][43]

Morphological variety of Russulaceae *These species belong phylogenetically to Lactarius.

Microscopic characteristics

Microscopical picture showing round shapes with rough, dark blue ridged textures
Spores of Lactarius rubidus, showing ornamentation with a blue, amyloid stain reaction that is typical for Russulaceae

All Russulaceae, including the corticioid species, are characterised by spherical to elliptic basidiospores with a faint to very distinct (e.g. warty, spiny, or crested) ornamentation that stains bluish-black with Melzer's reagent (an amyloid stain reaction).[10][30] Basidia (spore-bearing cells) are usually club-shaped and four-spored.[44] Russulaceae species do not have clamp connections.[45]

Characteristic cells with an oily content (gloeocystidia) are found in the hymenium. In Russulaceae, these show a positive colour reaction when treated with sulfoaldehydes (sulfovanillin is mostly used).[10][30] They are also present in the hyphal sheath of ectomycorrhizal roots colonised by Russulaceae.[14]

The feature responsible for the brittle fruitbody structure in the mushroom-forming species are globular cells, called sphaerocytes or sphaerocysts, that compose the flesh (trama) alongside the usual hyphae.[30] Sometimes, these cells are clustered, and the position and arrangement of these clusters differs among genera.[30]

Another particular trama cell type are lactiferous hyphae (also lactifers). These are hyphae carrying the "milk" or "latex" exuded by the milk-caps; they react positively with sulfoaldehydes, form an abundantly branched system in the trama and end as pseudocystidia in the hymenium.[30] In general, only Lactarius, Lactifluus and Multifurca furcata possess lactifers.[15] In Russula, similar hyphae can sometimes be observed in the trama, but these are not as abundantly branched as real lactifers and do not extend into the hymenium as pseudocystidia.[30] This traditional distinction line between the "milk-caps" and Russula is however less evident in some tropical species presenting intermediate states.[36]

Genera distinction

View showing cap surface of an ochre mushroom with darker, concentrical rings
Unidentified Multifurca species
Zonate caps are a feature of several species of Russulaceae in Lactarius and Multifurca.

Some characteristics of the mushroom-forming genera (marked with * below) can be less obvious or absent in tropical species.[15][36] Distinguishing between Lactarius and Lactifluus based on morphology alone is quite difficult, as clear synapomorphies for both genera have yet to be identified.[17] Most field guides treat the two genera together, often because Lactifluus is not yet recognised as a separate genus.[33][46]

  • Boidinia: corticioid; loose texture; surface smooth, with pores, or flaky; spores spherical with spiny to warty ornamentation.[10][41] Note that the genus is polyphyletic and needs to be redefined.[10]
  • Gloeopeniophorella: corticioid; surface almost smooth; hyphae without clamp connections; thick-walled cystidia (metuloids) and gloeocystidia present; spores with wrinkled (rugose) ornamentation.[43]
  • Lactarius: agaricoid or gasteroid; exuding latex*; caps sometimes zonate, viscose or glutinate, but never annulate; rarely thick-walled cells in cuticles of the cap (pileipellis) and the stipe (stipitipellis) and sphaerocytes in the gills.[15][17]
  • Lactifluus: agaricoid or pleurotoid; exuding latex*; caps never zonate, viscose or glutinate, but sometimes annulate; thick-walled cells in cap and stipe cuticles; often sphaerocytes in the gill trama.[15][17]
  • Multifurca: agaricoid; caps zonate (also visible in cut through trama); gills regularly forked; only M. furcata exuding latex; spore print orange; spores very small; microscopical trama and hymenium features very variable.[15]
  • Pseudoxenasma: corticioid; wax-like texture; gloeocystidia with spherical apical appendices; basidia developing laterally on hyphae (pleurobasidia); spores broadly ellipsoid to roughly spherical, with warty ornamentation.[42]
  • Russula: agaricoid, gasteroid or pleurotoid; never exuding latex; caps often brightly coloured with stipe and gills much paler; caps not zonate*; spore print white, cream, ochre, or orange; no true lactiferous hyphae*; sphaerocytes abundant in gill, cap, and stipe trama.[15][30]

Distribution

The Russulaceae as a whole have a worldwide distribution, but patterns differ among genera. Russula is the most widespread, found in North,[47][48] Central[49][50] and South America,[32][51] Europe,[33] temperate[52][53] and tropical Asia,[54][55] Africa,[56] and Australasia.[36][57][58] It is the only Russulaceae genus that occurs in the Nothofagus zone of temperate South America.[59]

Lactarius is mainly known from the north temperate zone, but some species also occur in tropical Asia and Africa.[17] Lactifluus has a more tropical distribution than Lactarius, with most species known from tropical Africa, Asia, South America, and Australasia, but some also occurring in the north temperate zone.[17] Multifurca is the rarest among the four mushroom genera, known only from some punctual records in North and Central America, Asia, and Australasia.[15][19]

Species of Lactarius, Lactifluus, and Russula have repeatedly been introduced with trees outside their native range: An overview article lists introductions in Chile, Argentina, Uruguay, Brazil, the US, Great Britain, the Faroe Islands, South Africa, China, Thailand, and New Zealand.[60]

Among the corticioid genera, Pseudoxenasma is only known from Europe.[61] In contrast, Boidinia species have been found in Europe,[62] Taiwan,[63] and Japan,[41] and Gloeopeniophorella species in North America,[64] South America,[43][65] Europe,[66] West Africa,[65] Taiwan,[63] Australia,[43] and New Zealand.[43]

Ecology

Ectomycorrhizal symbiosis

Landscape in an arctic setting with small trees and shrubs and ponds, at sunset
Arctic tundra, Canada
Dry, open woodland with mid-sized trees and high grass
Miombo woodland, Malawi
Ectomycorrhizal Russulaceae are found in a wide variety of habitats ranging from high latitudes to the tropics.

The genera Lactarius, Lactifluus, Multifurca and Russula form a mutualistic ectomycorrhizal root symbiosis with trees and shrubs, exchanging mineral nutrients for photosynthetic sugar. They are one of several fungal lineages that have evolved such a lifestyle and are sometimes referred to as the "/russula-lactarius" clade in the scientific literature.[67] Worldwide, they are one of the most frequently encountered lineages on ectomycorrhizal roots.[68] While some tropical species were initially believed to be parasitic, the observation that species fruiting on tree trunks do form ectomycorrhiza in tropical Guyana supports the view of an exclusively symbiotic lineage.[35]

Associations are known with several plant families. In the Northern Hemisphere, these are essentially the well-known ectomycorrhizal trees and shrubs in the Betulaceae, Fagaceae, Pinaceae and Salicaceae,[33][46] but in arctic and alpine habitats, Russulaceae also associate with Bistorta vivipara (Polygonaceae),[69] Kobresia (Cyperaceae),[70] and Dryas octopetala (Rosaceae),[71] ectomycorrhizal plants untypic in their respective families. In the tropics, known plant partners include Dipterocarpaceae,[55][72] Fabaceae,[35][72] Nyctaginaceae,[73][74] Phyllanthaceae,[72] Polygonaceae (Coccoloba),[74] Sarcolaenaceae,[75] and the gymnosperm Gnetum gnemon,[76] and in the Southern Hemisphere, Nothofagaceae,[58][59][77] Myrtaceae (Eucalyptus[57] and Leptospermum[58][77]), and Rhamnaceae (Pomaderris).[78] Some Russulaceae are quite specialised in their ectomycorrhizal symbiosis, such as Lactarius and Russula species that only grow with Cistus shrubs in the Mediterranean basin.[79]

The different plant partners are reflected in the wide variety of habitats worldwide.[80] Ectomycorrhizal Russulaceae have been observed in arctic and alpine tundra,[69] boreal and alpine forest,[52][81] north temperate forest,[33][46] mires,[82] mediterranean forests and scrub (maquis),[79][83] miombo woodland,[56] tropical lowland rainforest,[55][74] tropical cloud forest,[84] tropical dry forest,[85] Australian eucalypt woodlands,[86] and south temperate forests.[59][77][78] Where they are introduced, they typically grow in plantations of their native host species, e.g. with pine in South Africa,[87] Eucalyptus in Thailand,[88] or birch in New Zealand.[77]

Other types of mycorrhiza

Club-shaped, crowded root-tips of a plant with its violet stem emerging in the middle
Root tips of the myco-heterotrophic plant Monotropa uniflora, with a mycorrhizal sheath formed by Russula brevipes

Some of the ectomycorrhizal Russulaceae are also involved in other types of root symbioses with plants.

A mutualistic association similar to ectomycorrhiza but with some hyphae penetrating into the plant root cells, termed arbutoid mycorrhiza,[89] is formed by Russulaceae with shrubs of the genera Arbutus[83] and Arctostaphylos,[90] both in subfamily Arbutoideae of the Ericaceae.[83][90]

Some Russulaceae are associated with myco-heterotrophic plants of the Ericaceae subfamily Monotropoideae, forming monotropoid mycorrhiza.[91][92] This is an epiparasitic relationship, where the heterotrophic plant ultimately derives its carbon from the primary, ectomycorrhizal plant partner of the fungus.[92] The association is often very specific, with the heterotrophic plants only associating with selected fungus partners, including Russulaceae.[91][93]

Russulaceae are also an important group of orchid mycorrhizal fungi.[94] This symbiosis is mutualistic in the case of green orchids,[89] but a partly or fully epiparasitic relationship in the case of myco-heterotrophic[95][96] and mixotrophic[97] orchids, respectively. In some cases, the association with Russulaceae is, as in monotropoid mycorrhiza, very specific: the Mediterranean orchid Limodorum abortivum predominantly associates with Russula delica and closely related species;[97] in Corallorhiza maculata, different genotypes of the same species have distinct Russula partners.[95]

Wood decay species

The corticioid species in Boidinia, Gloeopeniophorella, and Pseudoxenasma are saprotrophic, wood-degrading fungi that develop on dead wood.[10] Their early-branching positions in the phylogeny suggests this has been the ancestral trophic mode of the Russulaceae, and that the mycorrhizal lifestyle (see above) evolved later.[10] The saprotrophic nature of these species has been questioned, based on the observation that other inconspicuous, crust-forming fungi are ectomycorrhizal;[14] a subsequent author reaffirms nevertheless that "[n]one of the corticioid species in the family shows any sign of mycorrhizal activity."[13]

Hypogeous fruiting

Hypogeous fruitbodies, or fruitbodies developing below ground, occur in Lactarius and Russula and have previously been considered as distinct genera (see Systematics and taxonomy: Internal systematics). As such species are especially diverse in some warm and dry regions, e.g. in Spain,[3] California,[98] or Australia,[57] below-ground fruiting has been interpreted as an adaptation to drought.[39] However, hypogeous Russulaceae are also known from cold temperate regions[23][99] and tropical rainforest.[25] The fact that hypogeous species in the Russulaceae do not form their own lineages but are scattered in Russula or Lactarius shows that this type of fruiting evolved several times.[25] It is believed that these changes are evolutionarily quite recent.[25]

Parasites

A population of small, cream-coloured, gilled mushrooms growing on a black, old and partly degraded bigger mushroom
Asterophora parasitica grows on rotting Russulaceae fruitbodies.

Russulaceae fruitbodies are subject to parasitisation by other fungi. The genus Asterophora develops on old fruitbodies of the mushroom species in the family,[46] as does Dendrocollybia racemosa on at least Russula crassotunicata.[100] Fruitbodies of Lactifluus or Russula species otherwise hot-tasting and unpalatable are regarded as choice edibles in North America when infected by the "lobster mushroom" Hypomyces lactifluorum.[46] Heterotrophic plants, including orchids or monotropoids, also parasitise ectomycorrhizal Russulaceae and their plant partners – see above, Other types of mycorrhiza.

Threats and conservation

As with most fungi,[101] little information is available on the threat of extinction for Russulaceae species, and they have not been assessed in the International Union for the Conservation of Nature's Red List.[102] However, national lists contain some species of Lactarius, Lactifluus and Russula, indicating that they have small populations and are endangered, e.g. in Great Britain,[103] Switzerland,[104] the Czech Republic,[105] and New Zealand.[106]

Although data on Russulaceae themselves are scarce, more is known about the habitats they occur in, especially for the ectomycorrhizal species which depend on their host plants: Several of these habitats are affected by loss or degradation, such as peatlands,[107] Mediterranean forests and scrub[108] or tropical African dry woodland.[109] Similarly, dead wood, the habitat of the corticioid Russulaceae, is rare in many exploited forests and needs special management.[110]

Recent studies have found some traditional Russulaceae species to comprise several cryptic species (see Systematics and taxonomy: Species diversity). This may imply that distribution range and population size for each of such distinct species are smaller than previously thought.[111]

Edibility

Fruitbodies of two mushroom species, one blue and one orange, are presented on large plant leaves
Lactarius indigo and another Lactarius species for sale on a market in Guatemala

Several species of Lactarius, Lactifluus and Russula are valued as excellent edible mushrooms. This is the case for example for the north temperate species Lactarius deliciosus, Lactifluus volemus, or Russula vesca, and other species are popular in other parts of the world, e.g. Lactarius indigo in Mexico, or Lactifluus edulis in tropical Africa.[112] Some species, like Russula vesca, can even be eaten raw.[113] The brittle texture of Russula fruitbodies makes them different from other mushrooms and is not appreciated by some.[114]

Several species have a hot to very acrid taste and can cause gastrointestinal symptoms.[115] Despite this, such species are eaten in some regions, e.g. Lactarius torminosus in Finland[116] or Russia.[117] Often, they are parboiled or pickled to make them palatable,[118] and sometimes, they are used as spice, for example Russula emetica in Eastern Europe.[119] Some species are however truly poisonous: the East Asian and North American Russula subnigricans causes rhabdomyolysis and is potentially lethal,[120] and Lactarius turpis from Eurasia contains a mutagenic substance.[121]

Cultivation of edible Russulaceae, as in other ectomycorrhizal fungi, is challenging, since the presence of host trees is required. In spite of this difficulty, the European Lactarius deliciosus has been successfully grown in "mushroom orchards" in New Zealand.[122]

Chemistry

The finger of a hand are holding a light blue mushroom. On the tip of the thumb is a bright-blue colored substance somewhat resembling paint. Two fingertip-sized areas on the under surface of the mushroom have a dark blue discoloration.
Lactarius indigo contains a striking blue pigment.

Fruitbodies of Russulaceae have been the subject of natural product research, and different classes of organic compounds have been isolated from them.

Aroma compounds are responsible for the particular odour or taste in some species, e.g. sotolon in the fenugreek-smelling Lactarius helvus,[123] or the similar quabalactone III in Lactarius rubidus which causes a maple syrup-like odour in dried specimens.[124] Pigments have been isolated from brightly coloured species, e.g. (7-isopropenyl-4-methylazulen-1-yl)methyl stearate from the blue Lactarius indigo[125] or russulaflavidin and a derivative from the yellow Russula flavida.[126] Some Russula species contain pigmented pteridine derivatives called russupteridines that are not found in the milk-caps.[127] Sesquiterpenes are characteristic secondary metabolites of many Russulaceae, especially milk-caps which have been quite intensively studied.[128][129] They are thought to be responsible for the hot taste in many species and may have deterrent, antifeeding functions in nature.[128]

Other metabolites isolated from different species include dibenzonaphtyridinone alkaloids,[128] prenylated phenols,[128] benzofurans,[128] chromenes,[128] natural rubber (polyisoprene),[130] sterols,[131] and the sugar alcohol volemitol.[132] Among toxic substances, Lactarius turpis contains the mutagenic alkaloid necatorin,[121] and the small compound cycloprop-2-ene carboxylic acid has been identified as the toxic agent in Russula subnigricans.[133] Some secondary metabolites showed antibiotic properties in laboratory tests.[128] An ethanolic extract of Russula delica was antibacterial,[134] and a lectin from Russula rosea showed antitumor activity.[135]

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  93. ^ Yang S, Pfister DH (2006). "Monotropa uniflora plants of eastern Massachusetts form mycorrhizae with a diversity of russulacean fungi". Mycologia. 98 (4): 535–40. doi:10.3852/mycologia.98.4.535. PMID 17139846. S2CID 39886589. open access
  94. ^ Dearnaley JD (September 2007). "Further advances in orchid mycorrhizal research" (PDF). Mycorrhiza. 17 (6): 475–486. doi:10.1007/s00572-007-0138-1. PMID 17582535. S2CID 6199725.
  95. ^ a b Taylor DL, Bruns TD, Hodges SA (January 2004). "Evidence for mycorrhizal races in a cheating orchid". Proceedings. Biological Sciences. 271 (1534): 35–43. doi:10.1098/rspb.2003.2557. PMC 1691555. PMID 15002769. open access
  96. ^ Roy M, Watthana S, Stier A, Richard F, Vessabutr S, Selosse MA (August 2009). "Two mycoheterotrophic orchids from Thailand tropical dipterocarpacean forests associate with a broad diversity of ectomycorrhizal fungi". BMC Biology. 7 (1): 51. doi:10.1186/1741-7007-7-51. PMC 2745373. PMID 19682351. open access
  97. ^ a b Girlanda M, Selosse MA, Cafasso D, Brilli F, Delfine S, Fabbian R, Ghignone S, Pinelli P, Segreto R, Loreto F, Cozzolino S, Perotto S (February 2006). "Inefficient photosynthesis in the Mediterranean orchid Limodorum abortivum is mirrored by specific association to ectomycorrhizal Russulaceae" (PDF). Molecular Ecology. 15 (2): 491–504. doi:10.1111/j.1365-294x.2005.02770.x. PMID 16448415. S2CID 40474597.
  98. ^ Smith ME, Trappe JM, Rizzo DM, Miller SL (May 2006). "Gymnomyces xerophilus sp. nov. (sequestrate Russulaceae), an ectomycorrhizal associate of Quercus in California". Mycological Research. 110 (Pt 5): 575–82. doi:10.1016/j.mycres.2006.03.001. PMID 16769510.
  99. ^ Nuytinck J, Verbeken A, Delarue S, Walleyn R (2003). "Systematics of European sequestrate lactarioid Russulaceae with spiny spore ornamentation". Belgian Journal of Botany. 136 (2): 145–153. JSTOR 20794526.
  100. ^ Machniki N, Wright LL, Allen A, Robertson CP, Meyer C, Birkebak JM, Ammirati JF (2006). "Russula crassotunicata identified as a host for Dendrocollybia racemosa" (PDF). Pacific Northwest Fungi. 1 (9): 1–7. doi:10.2509/pnwf.2006.001.009. open access
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  109. ^ Sjumpangani S, Chirwa PW, Akinnifesi FK, Sileshi G, Ajayi O (2009). "The miombo woodlands at the cross roads: Potential threats, sustainable livelihoods, policy gaps and challenges". Natural Resources Forum. 33 (2): 150–159. doi:10.1111/j.1477-8947.2009.01218.x.
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  112. ^ "Russulales News / Edibility and toxicity of Russulales". Museo delle scienze. Retrieved 2014-12-13.
  113. ^ Zeitlmayr L (1976). Wild Mushrooms: An Illustrated Handbook. London, UK: Transatlantic Arts. p. 44. ISBN 978-0-584-10324-3.
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  115. ^ Miller HR, Miller OK Jr (2006). North American Mushrooms: A Field Guide to Edible and Inedible Fungi. Guilford, Connecticut: Falcon Guides. p. 73. ISBN 978-0-7627-3109-1.
  116. ^ Veteläinen M, Huldén M, Pehu T (2008). State of plant genetic resources for food and agriculture in Finland. Second Finnish National Report (PDF). Country Report on the State of Plant Genetic Resources for Food and Agriculture (Report). Sastamala, Finland: Ministry of Agriculture and Forestry. p. 14.
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  118. ^ Roberts P, Evans S (2014). The Book of Fungi: A Life-Size Guide to Six Hundred Species from around the World. Chicago: University of Chicago Press. p. 595. ISBN 978-0-226-17719-9.
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  121. ^ a b Suortti T, von Wright A, Koskinen A (1983). "Necatorin, a highly mutagenic compound from Lactarius necator". Phytochemistry. 22 (12): 2873–2874. doi:10.1016/S0031-9422(00)97723-9.
  122. ^ Guerin-Laguette A, Cummings N, Butler RC, Willows A, Hesom-Williams N, Li S, Wang Y (October 2014). "Lactarius deliciosus and Pinus radiata in New Zealand: towards the development of innovative gourmet mushroom orchards". Mycorrhiza. 24 (7): 511–23. doi:10.1007/s00572-014-0570-y. PMID 24676792. S2CID 13077838.
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  124. ^ Wood WF, Brandes JA, Foy BD, Morgan CG, Mann TD, DeShazer DA (2012). "The maple syrup odour of the "candy cap" mushroom, Lactarius fragilis var. rubidus". Biochemical Systematics and Ecology. 43: 51–53. doi:10.1016/j.bse.2012.02.027.
  125. ^ Harmon AD, Weisgraber KH, Weiss U (1979). "Preformed azulene pigments of Lactarius indigo (Schw.) Fries (Russulaceae, Basidiomycetes)". Cellular and Molecular Life Sciences. 36 (1): 54–56. doi:10.1007/BF02003967. S2CID 21207966.
  126. ^ Fröde R, Bröckelmann M, Steffan B, Steglich W, Marumoto R (1995). "A novel type of triterpenoid quinone methide pigment from the toadstool Russula flavida (Agaricales)". Tetrahedron. 51 (9): 2553–2560. doi:10.1016/0040-4020(95)00012-W.
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  128. ^ a b c d e f g Vitari G, Vita-Finzi P (1995). "Sesquiterpenes and other secondary metabolites of genus Lactarius (Basidiomycetes): Chemistry and biological activity". Sesquiterpenes and other secondary metabolites of genus Lactarius (Basidiomycetes): Chemistry and biological activity. Studies in Natural Products Chemistry. Structure and Chemistry (Part D). Studies in Natural Products Chemistry. Vol. 17. Elsevier Science. pp. 153–206. doi:10.1016/S1572-5995(05)80084-5. ISBN 978-0-08-054198-3.
  129. ^ Kobata K, Kano S, Shibata H (1995). "New lactarane sesquiterpenoid from the fungus Russula emetica". Bioscience, Biotechnology, and Biochemistry. 59 (2): 316–318. doi:10.1271/bbb.59.316.
  130. ^ Tanaka Y, Kawahara S, Eng AH, Takei A, Ohya N (1994). "Structure of cis-polyisoprene from Lactarius mushrooms". Acta Biochimica Polonica. 41 (3): 303–9. doi:10.18388/abp.1994_4719. PMID 7856401.
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  134. ^ Yaltirak T, Aslim B, Ozturk S, Alli H (August 2009). "Antimicrobial and antioxidant activities of Russula delica Fr". Food and Chemical Toxicology. 47 (8): 2052–6. doi:10.1016/j.fct.2009.05.029. PMID 19481130.
  135. ^ Zhang G, Sun J, Wang H, Ng TB (August 2010). "First isolation and characterization of a novel lectin with potent antitumor activity from a Russula mushroom". Phytomedicine. 17 (10): 775–81. doi:10.1016/j.phymed.2010.02.001. PMID 20378319.

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Russulaceae: Brief Summary ( İngilizce )

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The Russulaceae are a diverse family of fungi in the order Russulales, with roughly 1,900 known species and a worldwide distribution. They comprise the brittlegills and the milk-caps, well-known mushroom-forming fungi that include some edible species. These gilled mushrooms are characterised by the brittle flesh of their fruitbodies.

In addition to these typical agaricoid forms, the family contains species with fruitbodies that are laterally striped (pleurotoid), closed (secotioid or gasteroid), or crust-like (corticioid). Molecular phylogenetics has demonstrated close affinities between species with very different fruitbody types and has discovered new, distinct lineages.

An important group of root-symbiotic ectomycorrhizal fungi in forests and shrublands around the world includes Lactifluus, Multifurca, Russula, and Lactarius. The crust-forming genera Boidinia, Gloeopeniophorella, and Pseudoxenasma, all wood-decay fungi, have basal positions in the family.

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Rusulacoj ( Esperanto )

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Rusulacoj (latine Russulaceae) estas familio de fungoj de la ordo Rusulaloj (latine Russulales), nomita laŭ la genro Rusulo (latine Russula).

Listo de genroj

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Russulaceae ( İspanyolca; Kastilyaca )

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Russulaceae es una familia de hongos del orden Russulales, que incluye 1.243 especies conocidas.[1]​ Las especies de esta familia se caracterizan por producir cuerpos fructíferos cuyo pie tiene una consistencia friable, parecida a la de la tiza, que se parten con un crujido similar al de la manzana o de la patata. Observada al microscopio, la estructura no está completamente formada por finas hifas, sino que también contiene abundantes células esféricas que aportan consistencia a la carne de la seta.

Géneros

La familia contiene a dos géneros de hongos muy bien conocidos:

  • El género Lactarius, que se caracteriza por exudar una sustancia lechosa —látex— cuando son cortados o presionados. Este líquido puede ser anaranjado, rojo, violáceo, amarillo o blanco, y a menudo puede cambiar de color en contacto con el aire. Algunas especies de Lactarius son comestibles muy apreciados, como el Lactarius deliciosus.

Otros géneros de Russulaceae son: Boidinia, Cystangium, Multifurca y Pseudoxenasma.

Consistencia característica

 src=
Pie partido de Lactarius vellereus, donde se aprecia la rotura característica en las especies de esta familia.
 src=
El pie de Suillus variegatus, de la familia Boletaceae, se parte en forma de fibras.

La carne del pie de las setas de la familia Russulaceae posee una característica que la distingue de la de otros tipos de hongos, ya que este se parte de forma parecida a la carne de una manzana, mientras que en la mayoría de las otras familias se rompe en forma de fibras. Esto es debido a la presencia de un tipo celular esférico de gran tamaño, que puede diferenciarse de las hifas observando la estructura del tejido por medio de un microscopio.

Parásitos

Los miembros de Lactarius y Russula son parasitados por Hypomyces lactifluorum. Este ascomiceto reemplaza la carne del hongo al que parasita por sus propias células. Los hongos de Russulaceae también pueden ser parasitados por Monotropa uniflora, una planta micoheterótrofa que no produce clorofila.

Referencias

  1. Kirk PM, Cannon PF, Minter DW, Stalpers JA. (2008). Dictionary of the Fungi. (en inglés) (10th edición). Wallingford: CABI. p. 609. ISBN 9780851998268. (requiere registro).

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Russulaceae: Brief Summary ( İspanyolca; Kastilyaca )

wikipedia ES tarafından sağlandı

Russulaceae es una familia de hongos del orden Russulales, que incluye 1.243 especies conocidas.​ Las especies de esta familia se caracterizan por producir cuerpos fructíferos cuyo pie tiene una consistencia friable, parecida a la de la tiza, que se parten con un crujido similar al de la manzana o de la patata. Observada al microscopio, la estructura no está completamente formada por finas hifas, sino que también contiene abundantes células esféricas que aportan consistencia a la carne de la seta.

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Pilvikulised ( Estonyaca )

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Pilvikulised (Russulaceae) on pilvikulaadset seltsi kuuluv sugukond seeni.

Seltsi on arvatud järgmised perekonnad:

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Russulaceae ( Baskça )

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Russulaceae familia Russulales ordenako onddo familia bat da. Talde honetako espezieek hanka harikorrak eta klarionaren antzekoak dauzkate, modu berezian hausten direnak.

Generoak

Familia honetan bi genero nagusi daude:

  • Russula generoak 160 espezie inguru barne hartzen ditu, horietako asko bereizteko zailak. Hainbat perretxiko jangarri daude talde honetan; estimatuenak gibelurdina (Russula virescens) eta urritxa (Russula cyanoxantha) dira.
  • Lactarius generoko perretxikoek esne antzeko substantzia bat jariatzen dute txapeletik. Esnegorria (Lactarius deliciosus) talde honetakoa da.
Biologia Artikulu hau biologiari buruzko zirriborroa da. Wikipedia lagun dezakezu edukia osatuz.
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Russulaceae: Brief Summary ( Baskça )

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Russulaceae familia Russulales ordenako onddo familia bat da. Talde honetako espezieek hanka harikorrak eta klarionaren antzekoak dauzkate, modu berezian hausten direnak.

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Haperot ja rouskut ( Fince )

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Haperot ja rouskut (Russulaceae) on helttasieniin kuuluva heimo, johon kuuluu kaksi sukua: haperot ja rouskut. Heimon lajeilla on tyypillinen itiöemän rakenne, joka lohkeaa napsahtaen kuin raaka porkkana. Itiöemän rakenne ei siis ole yhtä kuituista kuin esimerkiksi suppilovahverolla. Mikroskooppinen tarkastelu osoittaa, että rouskuilla että haperoilla on kuviolliset itiöt.[2]

Lähteet

  1. Taksonomian lähde: MycoBank Luettu 15.8.2008
  2. Tuomo Niemelä: Laji, suku ja tieteellinen nimi (s. 10 teoksessa Salo, P., Niemelä, T., Nummela-Salo, U. & Ohenoja, E. (toim.). Suomen helttasienten ja tattien ekologia, levinneisyys ja uhanalaisuus. Suomen ympäristö 769.) 2005. Suomen Ympäristökeskus, Helsinki.
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Haperot ja rouskut: Brief Summary ( Fince )

wikipedia FI tarafından sağlandı

Haperot ja rouskut (Russulaceae) on helttasieniin kuuluva heimo, johon kuuluu kaksi sukua: haperot ja rouskut. Heimon lajeilla on tyypillinen itiöemän rakenne, joka lohkeaa napsahtaen kuin raaka porkkana. Itiöemän rakenne ei siis ole yhtä kuituista kuin esimerkiksi suppilovahverolla. Mikroskooppinen tarkastelu osoittaa, että rouskuilla että haperoilla on kuviolliset itiöt.

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Russulaceae ( Fransızca )

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Les Russulaceae (Russulacées) sont une famille de champignons, appartenant à l'ordre des Russulales, qui se caractérisent, entre autres, par une chair cassante comme de la craie et exsudant parfois du latex.

Classification phylogénique

Principaux clades proches des Russulaceae

Phylogramme des Russulaceae

Principaux clades et genres des Russulaceae,

certains taxons ne sont pas encore précisés, les analyses phylogénétiques distribuant certaines espèces du genre Gymonmyces.

Description des genres

Liste des genres Linnéens

D'après la 10e édition du Dictionary of the Fungi (2007) :

Taxonomie

Taxon : Russulaceae Lotsy, Vortr. bot. Stammesgesch.: 708 (1907)
Genre type : Russula Pers.

Validité nomenclaturale :

  • Non Roze, Bull. Soc. bot. Fr. 23: 110 (1876), nom.inval., Art. 32.1(c) , Art. 32.1(b); Voir Art. 18.4.
  • (en) Rolf Singer, The Agaricales in Modern Taxonomy, vol. 1, Koenigstein, Koenigstein Königstein im Taunus, Germany: Koeltz Scientific Books, 1986, 4e éd., 981 p., 73 pls. p. (ISBN 3-87429-254-1)
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Russulaceae: Brief Summary ( Fransızca )

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Les Russulaceae (Russulacées) sont une famille de champignons, appartenant à l'ordre des Russulales, qui se caractérisent, entre autres, par une chair cassante comme de la craie et exsudant parfois du latex.

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Russulaceae ( İtalyanca )

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Le Russulaceae sono una famiglia di funghi appartenente all'ordine delle Russulales. Le specie di questa famiglia hanno gambi friabili, gessosi, che si rompono in maniera netta, come una carota ma con carne porosa. Dal punto di vista microscopico le cellule non sono tutte ife allungate e sottili, cosa che conferisce loro resistenza ed un aspetto più fibroso alla rottura. La carne, invece, contiene anche molte grosse cellule sferiche (sferocisti), che le conferiscono una maggior consistenza.

Generi

I due generi più conosciuti sono:

  • Il genere Russula, che comprende circa 160 specie, la maggior parte delle quali è difficile da identificare. Essi hanno lamelle fragili e non essudano lattice al taglio come avviene nel genere Lactarius. Vi sono molte specie commestibili (Russula vesca, Russula virescens o Russula aurata).
  • Il genere Lactarius, caratterizzato da funghi con cappelli e gambi che, al tocco o al taglio, essudano una sostanza lattiginosa ("il lattice"), ed in gran parte micorrizici. Il lattice può essere arancio, rosso, lilla, bianco e giallo e può mutare il suo colore finale dopo l'esposizione all'aria.

Altri generi delle Russulaceae sono il Boidinia, il Cystangium, il Multifurca, il Pseudoxenasma e il Zelleromyces.

Caratteristica consistenza della carne

 src=
Gambo rotto di Lactarius vellereus
 src=
Gambo rotto di Suillus variegatus

Una caratteristica importante che distingue le Russulaceae dagli altri tipi di funghi è la consistenza del gambo. Nelle Russula e Lactarius, esso si rompe come la polpa di una mela, mentre in gran parte delle altre famiglie si sfibra. Le immagini mettono a confronto il gambo rotto di un Lactarius vellereus con quello di Suillus variegatus, appartenente alla famiglia delle Boletaceae.

Parassiti

I Lactarius e i Russula sono spesso parassitati dal Hypomyces lactifluorum. Questo ascomycota rimpiazza la carne del fungo ospite, rendendolo commestibile, anche se può diventare piccante se l'ospite è una specie tipo il Lactarius piperatus. Questi funghi possono anche essere parassitati dal Monotropa uniflora, una pianta microeterotrofa a cui manca clorofilla.

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Russulaceae: Brief Summary ( İtalyanca )

wikipedia IT tarafından sağlandı

Le Russulaceae sono una famiglia di funghi appartenente all'ordine delle Russulales. Le specie di questa famiglia hanno gambi friabili, gessosi, che si rompono in maniera netta, come una carota ma con carne porosa. Dal punto di vista microscopico le cellule non sono tutte ife allungate e sottili, cosa che conferisce loro resistenza ed un aspetto più fibroso alla rottura. La carne, invece, contiene anche molte grosse cellule sferiche (sferocisti), che le conferiscono una maggior consistenza.

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Ūmėdiniai ( Litvanca )

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LogoIF.png

Ūmėdiniai (lot. Russulaceae, vok. Täublingsartige) – ūmėdiečių (Russulales) eilės grybų šeima.

Lietuvoje auga dvi gentys, virš 120 rūšių:

Į Lietuvos raudonąją knygą įrašytos šios rūšys:

Vikiteka

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Russulafamilie ( Felemenkçe; Flemish )

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Russulafamilie: Brief Summary ( Felemenkçe; Flemish )

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Kremlefamilien ( Norveççe )

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Kremlefamilien er en familie av sopper. Til familien hører kremler og risker, i tillegg til blant annet noen asiatiske arter.

Eksterne lenker

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Kremlefamilien: Brief Summary ( Norveççe )

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Kremlefamilien er en familie av sopper. Til familien hører kremler og risker, i tillegg til blant annet noen asiatiske arter.

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Gołąbkowate ( Lehçe )

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Gołąbkowate (Russulaceae Lotsy) – rodzina grzybów z rzędu gołąbkowców (Russulales)[1].

Charakterystyka

Rodzina Russulaceae zawiera gatunki naziemnych grzybów wytwarzających owocniki mięsiste o hymenoforze blaszkowym. U niektórych miąższ po przełamaniu przebarwia się. Zarodniki gołąbkowatych są brodawkowane, a ich wysyp barwy białej, kremowej lub żółtej[2].

Systematyka

Pozycja w klasyfikacji według Index Fungorum: Russulales, Incertae sedis, Agaricomycetes, Agaricomycotina, Basidiomycota, Fungi[1].

Według aktualizowanej klasyfikacji Index Fungorum bazującej na Dictionary of the Fungi do rodziny tej należą rodzaje[3]:

Polskie nazwy na podstawie pracy Władysława Wojewody z 2003 r[4].

Przypisy

  1. a b Index Fungorum (ang.). [dostęp 2017-01-10].
  2. Barbara Gumińska, Władysław Wojewoda: Grzyby i ich oznaczanie. Wyd. III. Warszawa: Państwowe Wydawnictwo Rolnicze i Leśne, 1985, s. 58, 212. ISBN 83-09-00714-0.
  3. CABI databases (ang.). [dostęp 2016-05-07].
  4. Władysław Wojewoda: Checklist of Polish Larger Basidiomycetes. Krytyczna lista wielkoowocnikowych grzybów podstawkowych Polski. Kraków: W. Szafer Institute of Botany, Polish Academy of Sciences, 2003. ISBN 83-89648-09-1.
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Gołąbkowate: Brief Summary ( Lehçe )

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Gołąbkowate (Russulaceae Lotsy) – rodzina grzybów z rzędu gołąbkowców (Russulales).

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Russulaceae ( Portekizce )

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Russulaceae é uma família de fungi da ordem Russulales.

Os géneros mais conhecidos são Russula e Lactarius.

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Russulaceae ( Romence; Moldovaca )

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Russulaceae (Johannes Paulus Lotsy, 1907) este o familie diversă de ciuperci din încrengătura Basidiomycota în ordinul Russulales,[1] fiind ciuperci tericole cu lame, ectomicorizante. Familia include 7 genuri cu aproximativ 1260 de specii cunoscute cu o răspândire globală.[2]

Descriere (fără Pseudoxenasma)

  • Pălăria: Ea are un diametru de mărime medie între 4-15 cm, care este convexă, apoi plană, uneori este adâncită la centru, neseparabilă cu piciorul, cuticula fiind netedă, la vârf cu apendice, de formă variabilă și de obicei viu colorată.
  • Lamele: Ele sunt sfărâmicioase, foarte rar elastice, egale, inegale, sau chiar bifurcate, cu trama regulată, fiind libere, adnate sau decurente la picior, mai mult sau mai puțin bombate, cu muchii homomorfe sau heteromorfe. Coloritul este în primul rând alb până crem sau ocru, mai rar galben, portocaliu sau roșu. . Sporii sunt rotunjori până elipsoidali, verucoși, echinulați sau reticulați, mai rar aproape netezi, cu ornamentații amiloide. Pulberea sporilor este albă, crem, galben-aurie sau ocru.
  • Piciorul: El este situat central, destul de scurt, dar relativ gros (cu o grosime de până la 4 cm), fiind inițial plin, în vârstă adeseori spongios sau găunos, nu rar ușor îngroșat la bază. El este lipsit de volvă, inel sau cortină.
  • Carnea: Ea este cărnoasă și consistentă, granulată, sfărâmicioasă, constituită din sferociste, însoțite de filamente subțiri, uneori de vase secretoare de latex. Gustul poate fi dulce, iute, amar sau pișcător.

Sistematică și taxonomie

Aici sunt listate precum scurt descrise cele 7 (8) genuri conform Paul Michael Kirk în Mycobank:[3]

Genuri

În detaliu:

  • Boidinia: este un gen de bureți corticoizi în familia Russulaceae. Genul este larg distribuit și conține 10 specii. Dar genul Boidinia probabil nu este monofiletic și are nevoie de o redefinire taxonomică.[4]
  • Cystangium este un gen de ciuperci din familia Russulaceae. Genul conține 32 de specii care sunt distribuite în Australia și America de Sud. Taxonul este parte filogenetică a genului Russula și astfel probabil, un sinonim. Cu toate acestea, acesta încă nu a fost declarat oficial sinonim și continuă să fie folosit de taxonomiști.[5]
  • Lactarius este un gen de ciuperci din familia Russulaceae cu global aproximativ 450 de specii și în Europa cu peste 130 care emană după tăiere un suc lipicios de culoare variabilă
  • Lactifluus: este un gen de ciuperci din familia Russulaceae care a fost separat de genul Lactarius pe baza de studii moleculare filogenetice, cu global aproximativ 50 de specii. Majoritatea lor se dezvoltă în regiuni tropicale. Bureții acestui gen au o pălărie nu zonară, o ornamentare amiloidoză a sporilor, o carne sfărâmicioasă a corpurilor fructifere și emană după tăiere un suc lipicios de culoare variabilă. Discuția despre afilierea unor specii la acest gen încă nu este terminată
  • Multifurca este un gen cu 6 specii, intermediar situat din punct de vedere morfologic între Lactarius și Russula. Corpurile fructifere sunt zonare, au lame adnate la picior sub-decurente. Un (lapte (latex) ca și în Lactarius și Lactifluus) este prezent numai în Multifurca furcata. Sporii sunt portocalii, fiind foarte mici și ornamentate doar slab.[6]
  • Pseudoxenasma este un gen cu numai o specie, găsită și descrisă în Suedia (1976)[7] Ea se deosebește enorm în aspectul exterior de membrii altor genuri din familie.
  • Russula este un gen de ciuperci din familia Russulaceae care cuprinde aproximativ 750 de specii global iar peste 90 în Europa. Bureții nu emană un suc după tăiere. Cuticulele ciupercilor sunt colorate foarte variabil, iar tijele sunt la cele mai multe specii albe.
  • Zelleromyces este un gen gasteroid (produce sporii în interiorul corpului fructifer) cu 30 de specii. Analize filogenetice arată că speciile Zelleromyces sunt apropiat înrudite cu genul Lactarius.[8]

Genurile familiei în imagini

Note

  1. ^ Index Fngorum
  2. ^ Paul Michael Kirk, Paul Francis Cannon, J. C. David: „Russulales. In: Dictionary of the fungi”, nr. 9, Editura Centre for Agriculture and Biosciences International (CABI), Wallingford 2001, ISBN 978-0851993775
  3. ^ Mycobank
  4. ^ Larsson E, Larsson K-H (2003): „Phylogenetic relationships of russuloid basidiomycetes with emphasis on aphyllophoralean taxa”, în: „Mycologia”, nr 95, p. 1037–1065
  5. ^ Bart Buyck, Bart; Valérie Hofstetter, Annemieke Verbeken, Ruben Walleyn: „Proposal to conserve Lactarius nom. cons. (Basidiomycota) with a conserved type”, în revista „Taxon”, vol. 59, nr. 1, Editura International Association for Plant Taxonomy, februarie 2010, p. 295-296
  6. ^ Buyck B, Hofstetter V, Eberhardt U, Verbeken A, Kauff F (2008). "Walking the thin line between Russula and Lactarius: the dilemma of Russula sect. Ochricompactae" (PDF). Fungal Diversity. 28: 15–40
  7. ^ Hjortstam K, Larsson K-H (1976). "Pseudoxenasma, a new genus of Corticiaceae (Basidiomycetes)". Mycotaxon. 4 (1): 307–311
  8. ^ Calonge FD, Martín MP (2000). "Morphological and molecular data on the taxonomy of Gymnomyces, Martellia and Zelleromyces (Elasmomycetaceae, Russulales)" (PDF). Mycotaxon. 76: 9–15

Bibliografie

  • Bruno Cetto, „ I funghi dal vero”, volumele 1-7
  • Ernst Gäumann: „Vergleichende Morphologie der Pilze”, Editura Gustav Fischer, Jena 1926
  • Meinhard Michael Moser: „ Röhrlinge und Blätterpilze - Kleine Kryptogamenflora Mitteleuropas” ediția a 5-ea, vol. 2, Editura Gustav Fischer, Stuttgart 1983.
  • Rolf Singer: „Die Pilze Mitteleuropas”, vol. 5 și 6: „Die Röhrlinge, pârțile 1 și 2”, Editura Justus Klinkhardt, Bad Heilbrunn 1965-1967

Legături externe

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Russulaceae: Brief Summary ( Romence; Moldovaca )

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Russulaceae (Johannes Paulus Lotsy, 1907) este o familie diversă de ciuperci din încrengătura Basidiomycota în ordinul Russulales, fiind ciuperci tericole cu lame, ectomicorizante. Familia include 7 genuri cu aproximativ 1260 de specii cunoscute cu o răspândire globală.

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Golobičarke ( İspanyolca; Kastilyaca )

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Boidinia
Cystangium
Lactarius (mlečnica)
Multifurca
Pseudoxenasma
Russula (golobica)
Zelleromyces

Golobičarke (znanstveno ime Russulaceae) so družina gliv iz reda golobičarji.

Od lističark se golobičarke ločijo po kroglastih celicah v mesu, zaradi katerih le-to ni vlaknasto, ampak sirnato mehko.

Rodovi

V družini sta dva bolj znana rodova:

  • Golobica (Russula) - v tem rodu je okoli 160 vrst, ki se med seboj izredno težko ločijo. Med njimi je veliko užitnih vrst.
  • Mlečnica (Lactarius) - značilno za ta rod je, da na ranjenih mestih te gobe izcejajo mleček. Med mlečnicami je veliko užitnih vrst, med katerimi je pri nas najbolj znana užitna sirovka.

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Golobičarke: Brief Summary ( İspanyolca; Kastilyaca )

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Golobičarke (znanstveno ime Russulaceae) so družina gliv iz reda golobičarji.

Od lističark se golobičarke ločijo po kroglastih celicah v mesu, zaradi katerih le-to ni vlaknasto, ampak sirnato mehko.

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Сироїжкові (родина) ( Ukraynaca )

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  1. Kirk PM, Cannon PF, Minter DW, Stalpers JA. Dictionary of the Fungi. — 10th ed. — Wallingford : CABI, 2008. — С. 609. — ISBN 0-85199-826-7.
  2. Костіков І. Ю., Джаган В. В., Демченко Е. М., Бойко О. А., Бойко В. Р., Романенко П. О. Ботаніка. Водорості та гриби: Навчальний посібник. — 2-ге видання, переробл. — Київ : Арістей, 2006. — С. 395. — ISBN 966-8458-67-2.
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Сироїжкові (родина): Brief Summary ( Ukraynaca )

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Kirk PM, Cannon PF, Minter DW, Stalpers JA. Dictionary of the Fungi. — 10th ed. — Wallingford : CABI, 2008. — С. 609. — ISBN 0-85199-826-7. Костіков І. Ю., Джаган В. В., Демченко Е. М., Бойко О. А., Бойко В. Р., Романенко П. О. Ботаніка. Водорості та гриби: Навчальний посібник. — 2-ге видання, переробл. — Київ : Арістей, 2006. — С. 395. — ISBN 966-8458-67-2.
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Russulaceae ( Vietnamca )

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Russulaceae là một họ nấm trong bộ Russulales, bao gồm khoảng 1900 loài đã được ghi nhận. Đây là một họ nấm có sự đa dạng về loài cùng với phân bố rộng rãi trên toàn thế giới.

Phân bố

Trong họ nấm Russulaceae, chi Russula là loài phổ biến nhất, có thể được tìm thấy ở Bắc,[4][5] Trung[6][7] và Nam Mỹ,[8][9] châu Âu,[10] khu vực ôn đới[11][12] và nhiệt đới châu Á,[13][14] châu Phi,[15]châu Úc.[16][17][18]

Hệ thống và phân loại

Họ Russulaceae lần đầu tiên được đặt tên bởi khoa học người Đức Johannes Paulus Lotsy bao gồm ba chi: Russula, Lactarius, và Russulina (nay được coi là một từ loại của Russula). Ông đã nhấn mạnh các đặc điểm như thịt thăn, mỡ dày, các bào tử nhọn, và sợi nơ sữa và các tế bào hình tròn (sphaerocytes). Một cách sử dụng trước đây của "Russulariées" bởi nhà nhân chủng học người Pháp Ernst Roze năm 1876. Không được coi là một ấn bản hợp lệ, vì việc chấm dứt Latin thích hợp cho hạng họ này quy định tại điều 18.4 của mã số danh mục không được sử dụng

Loại của Russulaceae bao gồm: Lactariaceae được Ernst Albert Gäumann (1926), Asterosporaceae bởi Fernand Moreau (1953), David Pegler và Elasmomycetaceae của Thomas Young (1979). Họ thứ hai được để chứa các loài có statismosporic (không buộc cai nghiện) và các tử bào đối xứng, bao gồm cả tiểu sinh học trong Elasmomyces, Gymnomyces, Martellia, và Zelleromyces. Calonge và Martín đã làm giảm Elasmomycetaceae thành các từ loại với họ Russulaceae khi phân tích phân tử khẳng định mối quan hệ di truyền gần gũi giữa các tiểu và của Agaricus

Vị trí của họ loại

Russulaceaee của Họ Nấm họ Russulaceae đã được phân loại với các loài có vỏ khác theo thứ tự Agaricales

Hệ thống nội bộ






Lactarius



Multifurca




Russula




Lactifluus




Boidinia



Gloeopeniophorella



Pseudoxenasma



Phylogeny của Russulaceae; đường nét đứt sơ đồ của loại nấm Russulaceae

Nghiên cứu phát sinh loài phân tử 2008 đã làm rõ mối quan hệ giữa các loài nấm hình thành trong gia đình. Các tác giả sinh học đã chứng minh sự tồn tại bốn họ nấm khác nhau gilled, dẫn đến các mô tả về multifurca như một chi mới tách ra từ Russula

Xem thêm

Chú thích

  1. ^ Lotsy, JP. (1907). Vorträge über botanische Stammesgeschichte [Lectures on botanical phylogeny, held at the Imperial University of Leiden] (bằng tiếng Đức). Jena, Germany: Gustav Fischer. tr. 708. Bảo trì CS1: Ngôn ngữ không rõ (link) Ấn phẩm cho phép truy cập mở - đọc miễn phí
  2. ^ Pegler DN, Young TW (1979). “The gasteroid Russulales”. Transactions of the British Mycological Society 72 (3). tr. 353–388. doi:10.1016/S0007-1536(79)80143-6.
  3. ^ Calonge FD, Martín MP (2000). “Morphological and molecular data on the taxonomy of Gymnomyces, Martellia and Zelleromyces (Elasmomycetaceae, Russulales)” (PDF). Mycotaxon 76. tr. 9–15. Ấn phẩm cho phép truy cập mở - đọc miễn phí
  4. ^ Earle FS. (1902). “A key to the North American species of Russula – I”. Torreya 2 (7). tr. 101–103. JSTOR 40594086. Ấn phẩm cho phép truy cập mở - đọc miễn phí
  5. ^ Earle FS. (1902). “A key to the North American species of Russula – II”. Torreya 2 (8). tr. 117–119. JSTOR 40594096. Ấn phẩm cho phép truy cập mở - đọc miễn phí
  6. ^ Gómez-Pignataro LD, Alfaro RM (1996). “Basidiomicetes de Costa Rica. De Russulae novae”. Revista de Biología Tropical (bằng tiếng Tây Ban Nha và Anh) 44 (Suppl. 4). tr. 25–37. Bảo trì CS1: Ngôn ngữ không rõ (link) Ấn phẩm cho phép truy cập mở - đọc miễn phí
  7. ^ Buyck B, Ovrebo CL (2002). “New and interesting Russula species from Panamá”. Mycologia 94 (5). tr. 888–901. JSTOR 3761704. PMID 21156563. doi:10.2307/3761704. Ấn phẩm cho phép truy cập mở - đọc miễn phí
  8. ^ Singer R, Aurajuo I, Ivory MH (1983). “The ectotrophically mycorrhizal fungi of the neotropical lowlands, especially central Amazonia”. Beihefte zur Nova Hedwigia. tr. 1–352.
  9. ^ Sá MC, Baseia IG, Wartchow F (2013). “Checklist of Russulaceae from Brazil” (PDF). Mycotaxon. online 125. tr. 303. Ấn phẩm cho phép truy cập mở - đọc miễn phí
  10. ^ Courtecuisse R, Duhem B (2013). Champignons de France et d'Europe [Mushrooms of France and Europe]. Guide Delachaux (bằng tiếng Pháp). Paris: Delachaux & Niestlé. ISBN 978-2-603-02038-8. Bảo trì CS1: Ngôn ngữ không rõ (link)
  11. ^ Guo J, Karunarathna SC, Mortimer PE, Xu J, Hyde KD (2014). “Phylogenetic diversity of Russula from Xiaozhongdian, Yunnan, China, inferred from Internal Transcribed Spacer sequence data” (PDF). Chiang Mai Journal of Science 41 (4). tr. 811–821.
  12. ^ Gorbunova IA. (2014). “Biota of agaricoid and gasteriod basidiomycetes of dryad tundras of the Altai-Sayan mountain area (Southern Siberia)”. Contemporary problems of Ecology 7 (1). tr. 39–44. doi:10.1134/S1995425514010065.
  13. ^ Lee LS, Alexander IJ, Watling R (1997). “Ectomycorrhizas and putative ectomycorrhizal fungi of Shorea leprosula Miq. (Dipterocarpaceae)”. Mycorrhiza 7 (2). tr. 63–81. doi:10.1007/s005720050165.
  14. ^ Natarajan KN, Senthilarasu G, Kumaresan V, Rivière T (2005). “Diversity in ectomycorrhizal fungi of a dipterocarp forest in Western Ghats” (PDF). Current Science 88 (12). tr. 1893–1895. Ấn phẩm cho phép truy cập mở - đọc miễn phí
  15. ^ Verbeken A, Buyck B (2002). “Diversity and ecology of tropical ectomycorrhizal fungi in Africa”. Trong Watling R, Frankland JC, Ainsworth AM, Isaac S, Robinson CH. Tropical Mycology: Macromycetes (PDF). Wallingford, UK: CAB International. tr. 11–21. Ấn phẩm cho phép truy cập mở - đọc miễn phí
  16. ^ Buyck B, Horak E (1999). “New taxa of pleurotoid Russulaceae”. Mycologia 91 (3). tr. 532–537. JSTOR 3761355. doi:10.2307/3761355.
  17. ^ Bougher NL. (1996). “Diversity of ectomycorrhizal fungi associated with eucalypts in Australia”. Trong Brundett M, Dell B, Malajczuk N và đồng nghiệp. Mycorrhizas for plantation forestry in Asia (PDF). ACIAR Proceedings. tr. 8–15. ISBN 978-1-86320-167-4. Gợi ý |số biên tập viên= (trợ giúp) Ấn phẩm cho phép truy cập mở - đọc miễn phí
  18. ^ McNabb RFR. (1973). “Russulaceae of New Zealand 2. Russula Pers. ex S. F. Gray”. New Zealand Journal of Botany 11 (4). tr. 673–730. doi:10.1080/0028825X.1973.10430308. Ấn phẩm cho phép truy cập mở - đọc miễn phí

Liên kết ngoài

 src= Wikispecies có thông tin sinh học về Russulaceae
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Russulaceae: Brief Summary ( Vietnamca )

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Russulaceae là một họ nấm trong bộ Russulales, bao gồm khoảng 1900 loài đã được ghi nhận. Đây là một họ nấm có sự đa dạng về loài cùng với phân bố rộng rãi trên toàn thế giới.

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Сыроежковые ( Rusça )

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Латинское название Russulaceae Lotsy, 1907 Роды Ареал
изображение
распространение Russulaceae в СССР

wikispecies:
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ITIS 936516 NCBI 5401

Сырое́жковые, или руссуловые (лат. Russulaceae) — семейство грибов из отдела базидиомицетов.

Морфология

Плодовые тела мясистые, шляпконожечные или неправильной округлой формы (Zelleromyces).

Мякоть почти всегда белая, содержит крупные пузыревидные клетки (сфероцисты), придающие ей слегка зернистый вид на разломе, а с возрастом — слегка рассыпчатую консистенцию.

Гименофор пластинчатый. Пластинки приросшие, выемчатые, нисходящие, до почти свободных.

Общее и частное покрывала отсутствуют.

Споровый порошок белый или желтовато-кремовый до охристого, сами споры эллиптической формы.

Представители

К Russulaceae относятся хорошо известные грибы родов сыроежка (Russula) и млечник (Lactarius). У млечников в мякоти плодовых тел имеются толстостенные гифы с млечным соком различного цвета, иногда изменяющим цвет на воздухе. Сыроежки отличаются от млечников отсутствием млечных сосудов и млечного сока. Они встречаются часто, однако неопытному человеку трудно ориентироваться в разнообразии и полиморфности видов этих грибов.

Экология

Семейство включает многочисленные виды сапротрофов и микоризных грибов, сосуществующих с различными лиственными и хвойными деревьями и при этом нередко довольно узкоспециализированых.

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Asterophora lycoperdoides паразитирует на подгруздках и груздях

На грибах семейства изредка паразитируют шляпочные грибы рода астерофора (Asterophora): астерофора дождевиковидная (Asterophora lycoperdoides) — на Russula adusta, а также на Lactarius vellereus; астерофора паразитическая (Asterophora parasitica) — на Russula nigricans, R. adusta, R. delica. В Северной Америке на сыроежковых паразитирует гриб-аскомицет Hypomyces lactifluorum. Иногда считают, что на этих грибах могут паразитировать подъельники — сапрофитные растения, не имеющие хлорофилла.

На отмерших плодовых телах крупных груздей и подгруздков поселяются грибы из рода коллибияколлибия кудрявая (Collybia cirrhata), коллибия клубеньковая (Collybia tuberosa).

Практическое значение

Большинство сыроежек и млечников съедобны или условно-съедобны, некоторые слабо токсичны, имеется некоторое количество несъедобных (как правило, из-за своего слишком острого, либо горького вкуса, или неприятного запаха) видов.

Литература

  • Гарибова Л. В., Сидорова И. И. Грибы. Энциклопедия природы России. — М.: 1999.
  • «Funghi», — Instituto Geografico De Agostini, Novara, Italia, 1997
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Сыроежковые: Brief Summary ( Rusça )

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См. также: Сыроежковые (порядок)

Сырое́жковые, или руссуловые (лат. Russulaceae) — семейство грибов из отдела базидиомицетов.

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红菇科 ( Çince )

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红菇科学名Russulaceae)是担子菌门紅菇目中的一科。根據2008年進行種類估計,其下共有1243種[4],是一個龐大的別。

特性

這一的特點是其子實體易碎,和其像粉筆一般的菌柄,其有獨特的裂紋,類似胡蘿蔔,但多孔。

紅菇屬

其下目前大約有750個已知種[5],但是各種之間難以互相分辨。裂開時,不會有白色的乳汁流出。有些菇類可以食用[6],但也有些有毒[7]

乳菇屬

特點是有一種乳白色的物質(乳膠)。亦有些菇類可以食用[8],但也有些有毒[9]

其他

亦有BoidiniaCystangiumLactariusMultifurcaPseudoxenasmaRussulaZelleromyces之屬[3]

參見

參考資料

  1. ^ [1][永久失效連結]
  2. ^ 池田良幸『北陸のきのこ図鑑』ISBN 978-4-89379-092-7
  3. ^ 3.0 3.1 [2]
  4. ^ Kirk PM, Cannon PF, Minter DW, Stalpers JA. Dictionary of the Fungi. 10th. Wallingford: CABI. 2008: 609. ISBN 978-0-85199-826-8.
  5. ^ Ludwig Beenken: Die Gattung Russula: Untersuchungen zu ihrer Systematik anhand von Ektomykorrhizen. Dissertation, LMU München: Fakultät für Biologie (2004). PDF zum Download
  6. ^ 如金頭菇
  7. ^ 存档副本. [2011-05-27]. (原始内容存档于2010-01-17).例如點柄臭黃菇(Russula senecisImai)。
  8. ^ 如松乳菇Lactarius deliciosus
  9. ^ 存档副本. [2011-05-27]. (原始内容存档于2010-01-17).例如辣乳菇(Lactarius piperatus)。
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红菇科: Brief Summary ( Çince )

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红菇科(学名:Russulaceae)是担子菌门紅菇目中的一科。根據2008年進行種類估計,其下共有1243種,是一個龐大的別。

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ベニタケ科 ( Japonca )

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ベニタケ科 Russula emetica.jpg
ドクベニタケ
Russula emetica (Schaeff.:Fr.) Gray
分類 : 菌界 Fungi : 担子菌門 Basidiomycota 亜門 : 菌蕈亜門 Hymenomycotina : 真正担子菌綱 Homobasidiomycetes : ハラタケ目 Agaricales : ベニタケ科 Russulaceae 下位分類(属)

ベニタケ科(Russulaceae)はハラタケ目キノコ分類は若いとき半球型。古いものは中央が窪むものが多い。傘の縁は破れたり、反り返ったりするものがある。胞子紋は白色が多いが、黄土色のものもある。は中心性で下部が細くなっている。柄の内部は中空、髄質のものが多いが、中実のものもある。つぼつばはない。ひだは離生、又は垂生。は繊維状の菌糸ではなく、球状の細胞から成るためぼそぼそで、ちぎりやすい。いわゆる「縦に裂くことのできないキノコ」とはこうした組織構造をもつベニタケ科のキノコのことである。もちろん、縦に裂くことができないものは毒キノコであるという説は迷信であり、ベニタケ科には食用になるキノコと毒キノコの両方が含まれる。胞子は球状かやや楕円回転型で表面に模様がある。多くが菌根菌であるため人工栽培が困難であるのみならず、人工培地上での菌糸株の培養維持すらも難しいものが多い。ハラタケ目とされているが、マイタケに形態の似た木材腐朽菌であるミヤマトンビマイ科等とともにベニタケ目Russulales)とする説が提唱されている。

種類[編集]

  • ベニタケ属Russula(Pers.:Fr)Gray
    • ツギハギハツ節(Sect. Pelliculariae
    • シロハツモドキ節(Sect. Delicoarchaeae
    • シロハツ節(Sect. Plorantes
    • アカカバイロタケ節(Sect. Crassotunicatae
    • クロハツ節(Sect. Compactae
    • カレバハツ節(Sect. Pachycystides
    • ススケベニタケ節(Sect. Decolorantes
    • クサハツ節(Sect. Ingratae
    • ヤブレベニタケ節(Sect. Rigidae
    • ドクベニタケ節(Sect. Russula
  • チチタケ属Lactarius(DC.)Gray
    • ヒメシロチチタケ節(Sect. Panuoidei
    • チチタケ節(Sect. Dulces
    • クロチチタケ節(Sect. Plinthogali
    • ツチカブリ節(Sect. Albati
    • ヒメチチタケ節(Sect. Russulares
    • カラハツタケ節(Sect. Lactarius
    • ハツタケ節(Sect. Dapetes

参考文献[編集]

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ベニタケ科: Brief Summary ( Japonca )

wikipedia 日本語 tarafından sağlandı

ベニタケ科(Russulaceae)はハラタケ目キノコ分類は若いとき半球型。古いものは中央が窪むものが多い。傘の縁は破れたり、反り返ったりするものがある。胞子紋は白色が多いが、黄土色のものもある。は中心性で下部が細くなっている。柄の内部は中空、髄質のものが多いが、中実のものもある。つぼつばはない。ひだは離生、又は垂生。は繊維状の菌糸ではなく、球状の細胞から成るためぼそぼそで、ちぎりやすい。いわゆる「縦に裂くことのできないキノコ」とはこうした組織構造をもつベニタケ科のキノコのことである。もちろん、縦に裂くことができないものは毒キノコであるという説は迷信であり、ベニタケ科には食用になるキノコと毒キノコの両方が含まれる。胞子は球状かやや楕円回転型で表面に模様がある。多くが菌根菌であるため人工栽培が困難であるのみならず、人工培地上での菌糸株の培養維持すらも難しいものが多い。ハラタケ目とされているが、マイタケに形態の似た木材腐朽菌であるミヤマトンビマイ科等とともにベニタケ目Russulales)とする説が提唱されている。

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