Geopyxis carbonaria (Alb. & Schwein.) Sacc. 1889

Der Gemeine Kohlenbecherling (Geopyxis carbonaria) ist eine weitgehend saprobiontische Pilzart auf Brandstellen aus der Familie der Feuerkissenverwandten (Pyronemataceae).

Merkmale

Makroskopische Merkmale

Der Gemeine Kohlenbecherling bildet becherförmige Apothecien, die anfangs hellrot bis orange, im späteren Alter gelb-braun bis braun gefärbt sind. Sie werden meist in Gruppen oder Büscheln gebildet und erreichen einen Durchmesser von 5 bis 15 mm. Der Rand ist deutlich heller blassgelb und flockig gezähnt. Die hellbraune Außenseite der Fruchtkörper ist glatt.^[1]

Mikroskopische Merkmale

Die keulig geformten Schläuche werden 180 bis 250 × 10 bis 11 µm groß und enthalten jeweils acht Ascosporen.^[2] Die Sporen selbst sind hyalin, ellipsoid geformt, glatt, besitzen keine Öltropfen und werden 13 bis 15 × 6 bis 8 μm groß.^[1] Die Paraphysen sind schmal, septiert und an der Basis gegabelt, ihre Spitze ist nicht verlängert.^[2]

Artabgrenzung

Der Gemeine Kohlenbecherling kann eventuell mit anderen gelb-orange gefärbten Becherlingen verwechselt werden, vor allem aber mit anderen, jedoch selteneren Gattungsvertretern.^[1] Besonders mit Geopyxis vulcanalis hat er große Ähnlichkeit, dieser besitzt tief ausgerandete Becher, die im Alter abgeflacht werden. Er wächst in Nadelwäldern, zwischen Moosen. Ein deutliches Kennzeichen ist sein Geruch nach Schwefel, wenn er zerdrückt wird.^[2]

Ökologie

Kohlenbecherlinge im verbrannten Nadelwald in Montana, USA

Der Gemeine Kohlenbecherling erscheint vom Frühjahr bis zum Herbst und hat eine bemerkenswerte Ökologie: Er tritt besonders auf Brandstellen auf, auf Waldbrandflächen kommt er zuweilen massenhaft vor.^[1] Er ist am Abbau von Koniferenwurzeln und Streu nach Bränden beteiligt und vermag Lignin abzubauen. Allerdings kann der Kohlenbecherling auch eine Mykorrhiza mit Bäumen, zumindest mit der Fichte, bilden.^[3]

Verbreitung

Der Gemeine Kohlenbecherling hat eine sehr weite Verbreitung in Europa von Spanien bis ins nördliche Skandinavien. In Nordamerika kommt er von Alaska bis Kalifornien und Quebe vor. Die Art tritt aber auch in Asien (Japan, Tadschikistan, Russland) und sogar Australien auf.^[4] In Mitteleuropa ist sie recht häufig, auf Waldbrandflächen manchmal massenhaft.^[1]

Systematik

Der Gemeine Kohlenbecherling wurde 1805 von Johannes Baptista von Albertini und Lewis David von Schweinitz als Peziza carbonaria erstbeschrieben. Pier Andrea Saccardo beschrieb 1889 die Art unter dem heute gültigen Namen Geopyxis carbonaria.^[5]

Literatur

• Svengunnar Ryman, Ingmar Holmåsen: Pilze. Über 1.500 Pilzarten ausführlich beschrieben und in natürlicher Umgebung fotografiert. Bernhard Thalacker, Braunschweig 1992, ISBN 3-87815-043-1, S. 630.

Einzelnachweise

1. ↑ ^{a b c d e} Svengunnar Ryman, Ingmar Holmåsen: Pilze. Über 1.500 Pilzarten ausführlich beschrieben und in natürlicher Umgebung fotografiert. Bernhard Thalacker, Braunschweig 1992, ISBN 3-87815-043-1, S. 630.
2. ↑ ^{a b c} Michael Beug, Alan E. Bessette, Arleen R. Bessette: Ascomycete Fungi of North America: A Mushroom Reference Guide. University of Texas Press, 2014, ISBN 978-0-292-75452-2 (Online – 502 Seiten).
3. ↑ Trude Vrålstad, Arne Holst-Jensen, Trond Schumacher: The postfire discomycete Geopyxis carbonaria (Ascomycota) is a biotrophic root associate with Norway spruce (Picea abies) in nature. In: Molecular Ecology. Band 7, Nr. 5, 1998, S. 609–616, doi:10.1046/j.1365-294x.1998.00365.x (Online, PDF).
4. ↑ Geopyxis carbonaria (Alb. & Schwein.) Sacc., 1889 – Checklist View. In: GBIF Portal. Abgerufen am 11. Mai 2016.
5. ↑ Geopyxis carbonaria. In: MycoBank. Abgerufen am 11. Mai 2016.

Geopyxis carbonaria is a species of fungus in the genus Geopyxis, family Pyronemataceae. First described to science in 1805, and given its current name in 1889, the species is commonly known as the charcoal loving elf-cup, dwarf acorn cup, stalked bonfire cup, or pixie cup. The small, goblet-shaped fruitbodies of the fungus are reddish-brown with a whitish fringe and measure up to 2 cm (3⁄4 in) across. They have a short, tapered stalk. Fruitbodies are commonly found on soil where brush has recently been burned, sometimes in great numbers. The fungus is distributed throughout many temperate regions of the Northern Hemisphere. It is found in Europe, Turkey, and North America. Although it is primarily a saprotrophic species, feeding on the decomposing organic matter remaining after a fire, it also forms biotrophic associations with the roots of Norway spruce.

Taxonomy

The fungus was first described scientifically in 1805 by Johannes Baptista von Albertini and Lewis David de Schweinitz as Peziza carbonaria.^[2] Mordecai Cubitt Cooke illustrated the fruitbodies, spores, and asci in his 1879 work Mycographia, seu Icones fungorum. Figures of fungi from all parts of the world.^[3] In 1889, Pier Andrea Saccardo transferred the fungus to the genus Geopyxis, giving the species its current name.^[4] Pustularia carbonaria, published by Heinrich Rehm in 1884,^[5] is a synonym of G. carbonaria.^[1] Louis-Joseph Grélet proposed the variety Geopyxis carbonaria var. sessilis in 1937, referring to forms producing fruitbodies without a stalk, but the taxon is not considered to have independent taxonomic significance.^[6] In 1860 Miles Berkeley and Moses Ashley Curtis described the species Peziza lepida from collections made in Japan as part of the North Pacific Exploring and Surveying Expedition (1853–1856).^[7] This taxon was synonymized with G. carbonaria by Mien Rifai in 1968, a taxonomic opinion corroborated by Donald Pfister about a decade later.^[8]

The specific epithet carbonaria derives from the Latin word for "charcoal".^[9] Common names given to the fungus include "charcoal loving elf-cup", "dwarf acorn cup",^[10] "pixie cup",^[11] and the British Mycological Society approved "stalked bonfire cup".^[12]

Description

The fruitbodies (ascocarps) of Geopyxis carbonaris are cup shaped, 1–2 cm wide, and have fringed whitish margins. The inner spore-bearing surface of the cup, the hymenium, is brick red and smooth, while the exterior surface is a dull yellow, and may be either smooth or have blister-like spots (pustules). The stipe, if present,^[13] is small (1–1.5 mm long and 1–2 mm wide), whitish in color, and expands abruptly into the cup.^[14] The brownish flesh of the fungus is thin and brittle. It does not have any distinctive taste, but has an unpleasant smell when crushed in water.^[15] It is inedible,^[16] with the fruitbodies being insubstantial anyway.^[11]

Microscopic characteristics

In mass, the spores are whitish.^[9] The spores are elliptical, smooth, hyaline, devoid of oil droplets (eguttulate), and have dimensions of 13–18 by 7–9 µm.^[17] They are thin walled and germinate and grow rapidly in vitro in the absence of external stimuli.^[18] The asci are 190–225 by 9–10 µm. The paraphyses are slightly club-shaped, unbranched, and have irregular orange-brown granules, with tips up to 5 µm wide, and are not forked or lobed. The hypothecium, the layer of cells below the hymenium, is made of densely packed, small irregular cells.^[17]

Similar species

Geopyxis vulcanalis (shown above) has yellower coloration than G. carbonaria.

The closely related vulcan elf cup (Geopyxis vulcanalis) has a pale orange to yellowish fruitbody that is deeply cup shaped before flattening in maturity, and its crushed flesh often has an odor of sulfur. It may be distinguished microscopically by its paraphyses, which lack the orange-brown granules characteristic of G. carbonaria. It also has larger spores, measuring 14–22 by 8–11 µm. Unlike G. carbonaria, it grows on substrates other than burned wood, including mosses, and needle duff.^[19] Tarzetta cupularis, which grows habitats similar to G. carbonaria, is distinguished microscopically by its spores that contain two oil droplets.^[20] Tarzetta catinus is also similar.^[21] Other genera with similar species with which G. carbonaria may be confused in the field include Aleuria, Caloscypha, Melastiza, and Sowerbyella.^[20]

Habitat and distribution

Geopyxis carbonaria is widespread on burned soil or charcoal in the spring and throughout the growing season.^[17] It is one of the most common pioneer species found on burned ground.^[9] The charred litter on the forest floor increases the underlying soil pH as well as the availability of minerals.^[22] Fruitbodies are produced from 16 to 139 weeks after a forest fire in areas with coniferous trees.^[23] Most fruitbodies are produced in the first year after a burn. The fungus prefers fruiting in microhabitats with thin postfire duff near standing burned tree trunks. Geopyxis carbonaria fruitbodies are often found in the same post-fire stands as morels, although the former is usually more abundant.^[24] Because the pixie cup fruits earlier than morels, it may serve as an indicator of imminent morel fruiting.^[25] Other cup fungi often found fruiting in the same area as G. carbonaria include those from the genera Aleuria, Anthracobia, Peziza, and Tarzetta.^[26]

The fungus is found in Europe (from where it was originally described),^[27] and is widespread throughout North America. The North American distribution extends north to Alaska.^[11] In 2010, it was reported for the first time from Turkey.^[15]

Ecology

A solitary G. carbonaria fruitbody growing on burnt woody debris

Although primarily a saprotrophic fungus involved in the post-fire breakdown of duff and coniferous roots, Geopyxis carbonaria has been shown to be capable of forming ectomycorrhizae with Norway spruce (Picea abies).^[18] It had been demonstrated earlier in laboratory experiments that the fungus has a biotrophic interaction with lodgepole pine (Pinus contorta). The hyphae of G. carbonaria were able to infect the cortex of the tree seedling, but did not penetrate the endodermis. These traits suggest that the fungus is a moderate pathogen, with limited ability to cause reductions in seed germination.^[28][29] Additionally, the fungus produces the enzyme polyphenol oxidase, and can break down the complex organic polymer lignin—features characteristic of saprotrophic fungi.^[30] The formation of a rudimentary Hartig net, a characteristic of mycorrhizal fungi, indicated that G. carbonaria might be capable of forming mutualistic relationships under the right conditions. Vrålstad and colleagues suggest that its below-ground association with spruce roots protects it from physical damage in the event of a fire, and the extensive fruitbody production after a fire may reflect "a successful fungal escape from a dying host where the fungus no longer can maintain its biotrophic association".^[18]

Large fruitings of the fungus are often associated with damage to the host tree, such as that which occurs with burning. A field study conducted in Norway demonstrated that fruit bodies were more likely to be found in areas that were heavily burned, compared to locations with light to moderate burning where the trees remained viable, or in clearcut areas. Fruiting was much denser in spruce forests—with up to 700–1000 fruitbodies per square meter—than in pine forests, where fruitbodies were sporadic.^[18] Fruitbodies grew by the millions in the year following the Yellowstone fires of 1988.^[9]

References

Wikimedia Commons has media related to Geopyxis carbonaria.

Tuhapeekrik (Geopyxis carbonaria) on kottseente hulka kuuluv seeneliik.

Seent on leitud ka Eestist.^[1]

Viited

Välislingid

• Tuhapeekrik andmebaasis eElurikkus

Vos an lenga piemontèisa Për amprende a dovré 'l sistema dle parlà locaj ch'a varda sì.

Fin a 2 cm ëd diàmetr, copa ancreusa, con un bòrd crostos. Imenòfor baross. Gamba débol peui ciàira.

Ambient

A chërs an sle carbonere.

Comestibilità

A venta mai mangé un bolè trovà se un a l'é nen un bon conossidor dij bolè!
Sensa anteresse alimentar.

Arferiment bibliogràfich për chi a veul fé dj'arserche pì ancreuse

Geopyxis carbonaria (Alb. & Schwein. : Fr.) Saccardo

Aiuto per
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Contributor Travajòt
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Garstnica wypaleniskowa (Geopyxis carbonaria (Alb. & Schwein.) Sacc.) – gatunek grzybów z rodziny Pyronemataceae^[1].

Systematyka i nazewnictwo

Pozycja w klasyfikacji według Index Fungorum: Geopyxis, yronemataceae, Pezizales, Pezizomycetidae, Pezizomycetes, Pezizomycotina, Ascomycota, Fungi^[1].

Po raz pierwszy takson ten zdiagnozowali w 1805 r. Albertini i Schweinitz nadając mu nazwę Peziza carbonaria. Obecną, uznaną przez Index Fungorum nazwę nadał mu w 1889 r. Saccardo, przenosząc go do rodzaju Geopyxis^[1].

Synonimy nazwy naukowej^[2]:

• Aleuria carbonaria (Alb. & Schwein.) Gillet 1879
• Geopyxis carbonaria var. sessilis Grélet 1937
• Peziza carbonaria Alb. & Schwein. 1805
• Peziza cupularis var. carbonaria (Alb. & Schwein.) Weinm. 1836
• Pustularia carbonaria (Alb. & Schwein.) Rehm 1884

Nazwa polska według checklist^[3].

Morfologia

Owocniki

Miseczkowate owocniki (askokarpy) mają średnicę 0,5-2 cm, osadzone są na krótkim trzonie o wymiarach 0,5-1 na 0,1-0,2 cm<^[4]. Wnętrze owocnika jest ceglastoczerwone i gładkie, na zewnątrz ma barwę brudnożółtą albo ochrową^[5].

Zarodniki

Askospory są eliptyczne, gładkie, hialinowe, pozbawione kropli tłuszczu, o wymiarach 13-18 × 7-9 µm. Worki o wymiarach 190-225 × 9-10 mikrometrów. Parafizy (wstawki) buławowate, nierozgałęzione, mają nieregularne pomarańczowo-brązowe ziarnistości, o zakończeniach szerokości 5 µm. Hypotecjum, warstwa komórek poniżej hymenium, utworzona jest z gęsto upakowanych, nieregularnych komórek^[6].

Występowanie

Owocniki tego grzyba wyrastają na wypaleniskach i zwęglonym drewnie.

Przypisy