Urnula craterium
Urnula craterium | |
---|---|
Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Fungi |
Division: | Ascomycota |
Class: | Pezizomycetes |
Order: | Pezizales |
Family: | Sarcosomataceae |
Genus: | Urnula |
Species: | U. craterium
|
Binomial name | |
Urnula craterium | |
Synonyms[1] | |
Urnula craterium | |
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Smooth hymenium | |
No distinct cap | |
Hymenium attachment is irregular or not applicable | |
Stipe is bare | |
Ecology is parasitic or saprotrophic | |
Edibility is inedible |
Urnula craterium is a species of cup fungus in the family Sarcosomataceae. Appearing in early spring, its distinctive goblet-shaped and dark-colored fruit bodies have earned it the common names crater cup, devil's urn and the gray urn. The asexual (imperfect), or conidial stage of U. craterium is a plant pathogen known as Conoplea globosa, which causes a canker disease of oak and several other hardwood tree species.
Urnula craterium is parasitic on oak and various other hardwoods; it is also saprobic, as the fruit bodies develop on fallen dead wood. The species is distributed in eastern North America, Europe, and Asia. It produces bioactive compounds that can inhibit the growth of other fungi.
Taxonomy
[edit]Urnula craterium was first described in 1822 by American botanist Lewis David de Schweinitz as Peziza craterium, based on a specimen found in North Carolina.[2] The species first appeared in the scientific literature under its current name when Elias Magnus Fries described the new genus Urnula in 1849, and set P. craterium as the type species.[3] In 1896, German mycologist Heinrich Rehm contentiously transferred the species to Geopyxis and declared the peripherally related Urnula terrestris as the new type species. Elsie Kupfer wrote to Rehm to clarify the rationale for his decision, and later explained:[4]
Urnula craterium was placed with its related species under Geopyxis, because Geopyxis was established by Persoon before Urnula by Fries; and that in order to retain the genus Urnula, under which Saccardo had placed Podophacidium terrestre of Niessl, [Rehm] restricted the genus to this latter fungus.
As Kupfer explains, Rehm did not justify why he believed U. craterium should be allied to Geopyxis, or why Podophacidium terrestre should be considered an Urnula. Kupfer's macro- and microscopic analysis of tissues from these and related genera proved that U. craterium represented a genus unrelated to Geopyxis, and Fries' classification was restored.[4]
Etymology
[edit]The genus name means "little urn"; the specific epithet is derived from the Latin cratera, referring to a type of bowl used in antiquity to mix wine with water.[5] It is commonly known as the devil's urn[6] and the gray urn.[7]
Description
[edit]The fruit bodies begin from dense, black mycelium on the surface of oak branches in contact with the ground. Starting out as rolls of cylindrical tissue 1 or more centimeters long and 3–4 mm wide, they expand slowly over the winter, and grow rapidly in the spring when the weather becomes warmer.[8]
The goblet-shaped fruit body (technically an ascocarp) is 3–4 cm (1+1⁄4–1+1⁄2 in) in diameter and 4–6 cm (1+1⁄2–2+1⁄4 in) deep; initially it is closed, but opens as it matures, leaving a ragged or smooth inrolled margin around a round opening.[9] The flesh of the ascocarp walls is tough and initially gelatinous, later becoming leathery.[10] The exterior of the ascocarp is brownish black to black, with a velvety surface, while the interior spore-bearing surface, the hymenium, is brownish black in color, usually somewhat paler than the outside. The outer surface may be partially covered with small flakelike patches of tissue.[11] When viewed with a magnifying glass, the "hairs" (fungal hyphae) making up the outer velvety surface are variable in length, and are thick-walled, blunt, and appear to wind from side to side (flexuous).[9] The ascocarp is connected to a stalk that is typically 3–4 cm (1+1⁄4–1+1⁄2 in) long by 0.4–0.8 cm (1⁄8–3⁄8 in) thick,[8] with black mycelia at its base.
Microscopic features
[edit]The spores are ellipsoid or sausage-shaped (allantoid), smooth, and thin-walled. They are non-amyloid (not taking up iodine stain), and hyaline (translucent), with dimensions of 22–37 by 10–15 μm.[11] The spore-bearing cells, the asci are eight-spored, cylindrical, and measure 600 by 15–17 μm.[9] They are operculate, analogous to having a flip-top lid mechanism to release the spores. Interspersed among the asci are thin, filamentous, branched paraphyses that extend beyond the tops of the asci.[8]
Viewed with a microscope, the wall of the apothecium is made of three tissue layers of roughly equal thickness. The first layer of tissue is black, leathery and compact, and covered with a fine layer of brownish-black hairs (a tomentum); the second layer consists of loosely interlaced brown hyphae suspended in a gelatinous matrix. The third layer is the fertile, spore-bearing surface, the brownish-black hymenium.[8]
Spore development
[edit]The spores of U. craterium have a rapid and high percentage of germination. Germination requires only 1.5 hours, a relatively short time compared to another inoperculate species in the same family, Sarcoscypha coccinea, which requires 48 hours.[12] Furthermore, germination is possible under a wide temperature range, from 5 °C (41 °F) to 35 °C (95 °F), and wide soil pH range; the quality and quantity of light does not affect germination, although prolonged exposure to light does reduce germination efficiency.[12]
Imperfect state
[edit]The life cycle of Urnula craterium allows for both an imperfect (making asexual spores, or conidia) or perfect (making sexual spores) form; as has often happened in fungal taxonomy, the imperfect form was given a different name, because the relationship between the perfect and imperfect forms of the same species was not then known. The imperfect stage of Urnula craterium is the plant pathogenic species Conoplea globosa, known to cause a canker disease (Strumella canker) of oak and several other hardwoods.[13][14]
Similar species
[edit]Urnula padeniana, as well as most Plectania and Pseudoplectania species, are similar but are usually a more solid black and not crusty.[15] The cup fungus Plectania melastoma is smaller and the cup not as deep.[16] Bulgaria inquinans has a very shallow cup and Pseudosarcosoma latahense lacks the gelatinous interior.[15]
Ecology, habitat and distribution
[edit]Urnula craterium grows singly or clustered together, usually attached to sticks and branches (especially oak) that are partially buried in the ground.[8] The teleomorph state is saprobic, and decomposes hardwood;[17] the anamorph state is parasitic, and causes a canker of various hardwoods, including oaks, hickories, basswood and beech.[7] It is often found in deciduous forests, although it is sometimes inconspicuous due to its dark color, and because it may be partially covered with leaf litter. One of the first fleshy fungi to appear from March to May, U. craterium has been dubbed a "harbinger of spring",[18][19] and is sometimes encountered under melting snow.[18]
The distribution of U. craterium includes eastern North America,[7] Europe (including the Czech Republic,[20] Finland,[21] and Spain),[22] Japan,[23] and China.[24] It is red-listed as critically endangered in the Czech Republic.[20]
Uses
[edit]Edibility
[edit]This species is often listed in field guides as inedible,[25][18] or not recommended for consumption due to its tough texture.[11] Michael Kuo, in his 2007 book on edible mushrooms, lists the taste as "mediocre", and comments "the devil's urn is not as bad as I thought it was going to be. It's not good, mind you, but it would be possible to eat it with a forced smile if your Aunt Wanda served it to you."[17]
Bioactive compounds
[edit]Urnula craterium, when grown in liquid culture, produces bioactive chemicals that inhibit the growth of other fungi that are pathogenic to aspen; specifically, these chemical are antagonistic to aspen blue-stain fungi Ophiostoma crassivaginatum and O. piliferum, as well as the wood-decay fungus Phellinus tremulae.[26] Chemicals produced by U. craterium include pestalotin, 5,6-dehydropestalotin, 4-methoxy-3,5-dimethyl-pyran-2-one, and (4S)-3,4-dihydro-4,8-dihydroxy-1(2H)-napthalenone. However, none of these isolated compounds inhibits the aspen pathogens in vitro, suggesting the true nature of the antifungal mechanism in the devil's urn has not yet been resolved.[27]
References
[edit]- ^ "Urnula craterium (Schwein.) Fr. 1851". MycoBank. International Mycological Association. Retrieved 2011-01-05.
- ^ von Schweinitz LD. (1822). "Synopsis fungorum Carolinae superioris". Schriften der Naturforschenden Gesellschaft in Leipzig (in Latin). 1: 117.
- ^ Fries EM. (1849). Summa vegetabilium Scandinaviae (in Latin). Vol. 2. Stockholm & Leipzig: A. Bonnier. p. 364.
- ^ a b Kupfer EM. (1902). "Studies on Urnula and Geopyxis". Bulletin of the Torrey Botanical Club. 29 (3): 137–144. doi:10.2307/2478861. JSTOR 2478861. (subscription required)
- ^ "Latin Word Lookup". University of Notre Dame. Retrieved 2009-04-05.
- ^ Kuo M. (March 2004). "Urnula craterium: The Devil's Urn". MushroomExpert.Com. Retrieved 2011-01-05.
- ^ a b c Hodgson M. (1996). No Shit! There I Was...Gone Wild (No Shit! There I Was . . . Gone Wild). Merrillville, Indiana: ICS Books. p. 539. ISBN 978-1-57034-041-3.
- ^ a b c d e Wolf FA. (1958). "Mechanism of apothecial opening and ascospore expulsion by the cup-fungus Urnula craterium". Mycologia. 50 (6): 837–843. doi:10.2307/3755908. JSTOR 3755908.
- ^ a b c Healy RA, Huffman DR, Tiffany LH, Knaphaus G (2008). Mushrooms and Other Fungi of the Midcontinental United States (Bur Oak Guide). Iowa City: University of Iowa Press. p. 295. ISBN 978-1-58729-627-7.
- ^ Metzler V, Metzler S (1992). Texas Mushrooms: a Field Guide. Austin, Texas: University of Texas Press. p. 330. ISBN 978-0-292-75125-5.
- ^ a b c Weber NS, Smith AH (1980). The Mushroom Hunter's Field Guide. Ann Arbor, Michigan: University of Michigan Press. p. 32. ISBN 978-0-472-85610-7.
- ^ a b Fergus CL, Schein RD (1960). "Effect of environment on germination of ascospores of Urnula craterium". Mycologia. 52 (5): 719–725. doi:10.2307/3755871. JSTOR 3755871.
- ^ Hughes SJ. (1951). "Microfungi V. Conoplea Pers. and Exosporium Link". Canadian Journal of Botany. 38 (4): 659–696. doi:10.1139/b60-059.
- ^ Pirone PP, Hartman JR, Pirone TP, Pirone TP, Sall MA (2000). Pirone's Tree Maintenance. Oxford, Oxfordshire: Oxford University Press. p. 435. ISBN 978-0-19-511991-6.
- ^ a b Audubon (2023). Mushrooms of North America. Knopf. p. 50. ISBN 978-0-593-31998-7.
- ^ Arora D. (1991). All that the Rain Promises and More: A Hip Pocket Guide to Western Mushrooms. Berkeley, California: Ten Speed Press. p. 830. ISBN 978-0-89815-388-0.
- ^ a b Kuo M. (2007). 100 Edible Mushrooms. Ann Arbor, Michigan: The University of Michigan Press. pp. 94–96. ISBN 978-0-472-03126-9.
- ^ a b c McKnight VB, McKnight KH (1987). A Field Guide to Mushrooms, North America. Boston, Massachusetts: Houghton Mifflin. p. 36. ISBN 978-0-395-91090-0.
- ^ Volk T. (May 2005). "Urnula craterium, the black tulip fungus". Tom Volk's Fungus of the Month. Retrieved 2009-04-05.
- ^ a b Marounek D. (2007). "Nalez urnicky poharove – Urnula craterium (Schwein.) Fr. na Roudnicku" [Find of Urnula craterium (Schwein.) Fr. near Roudnicku]. Mykologicky Sbornik (in Czech). 84 (1): 11–12. ISSN 0374-9436.
- ^ Lindholm T. "Finds of vernal mushrooms in Tenala Tenhola Finland". Memoranda Societatis Pro Fauna et Flora Fennica (in Finnish). 59 (4): 153–154. ISSN 0373-6873.
- ^ Calonge FD, Garcia A, Sanz M, Bastardo J. "Some interesting fungi found in Spain, with special reference to the province of Valladolid". Micologia Italiana. 32 (2): 42–52. ISSN 0390-0460.
- ^ Otani Y. (1980). "Sarcoscyphineae of Japan". Nippon Kingakukai Kaiho (in Japanese). 21 (2): 149–179. ISSN 0029-0289.
- ^ Zhuang WY, Wang Z (1998). "Sarcosomataceous discomycetes in China". Mycotaxon. 67: 355–364.
- ^ Miller HR, Miller OK (2006). North American Mushrooms: a Field Guide to Edible and Inedible Fungi. Guilford, Connecticut: Falcon Guide. p. 539. ISBN 978-0-7627-3109-1.
- ^ Ayer WA. (1995). "Application of natural products chemistry to a biological problem". Canadian Journal of Chemistry. 73 (4): 465–470. doi:10.1139/v95-061.
- ^ Ayer WA, Trifonov LS, Hutchison LJ, Chakravarty P (2000). "Metabolites from a wood-inhabiting cup fungus, Urnula craterium". Natural Product Research. 14 (6): 405–410. doi:10.1080/10575630008043776. S2CID 98485177.