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Sarcoscypha coccinea

February 15, 2024

Sarcoscypha coccinea
Scientific classification
Domain: Eukaryota
Kingdom: Fungi
Division: Ascomycota
Class: Pezizomycetes
Order: Pezizales
Family: Sarcoscyphaceae
Genus: Sarcoscypha
Species:
S. coccinea
Binomial name
Sarcoscypha coccinea
(Scop.) Lambotte (1889)
Synonyms[1]
List
  • Helvella coccinea Schaeff. (1772)
  • Peziza coccinea Jacq. (1774)
  • Peziza cochleata Batsch (1783)
  • Peziza dichroa Holmsk. (1799)
  • Peziza coccinea Jacq. (1800)
  • Peziza aurantia Schumach. (1803)
  • Macroscyphus coccineus (Scop.) Gray (1821)
  • Peziza aurantiaca Pers. (1822)
  • Lachnea coccinea (Jacq.) Gillet (1887)
  • Lachnea coccinea (Jacq.) W.Phillips (1887)
  • Geopyxis coccinea (Scop.) Massee (1895)
  • Sarcoscypha coccinea (Scop.) Sacc. ex Durand (1900)
  • Plectania coccinea (Scop.) Fuckel ex Seaver (1928)
Sarcoscypha coccinea
Smooth hymenium
No distinct cap
Hymenium attachment is irregular or not applicable
Lacks a stipe
Ecology is saprotrophic
Edibility is edible

Sarcoscypha coccinea, commonly known as the scarlet elf cup, scarlet elf cap, or the scarlet cup, is a species of fungus in the family Sarcoscyphaceae of the order Pezizales. The fungus, widely distributed in the Northern Hemisphere, has been found in Africa, Asia, Europe, North and South America, and Australia. The type species of the genus Sarcoscypha, S. coccinea has been known by many names since its first appearance in the scientific literature in 1772. Phylogenetic analysis shows the species to be most closely related to other Sarcoscypha species that contain numerous small oil droplets in their spores, such as the North Atlantic island species S. macaronesica. Due to similar physical appearances and sometimes overlapping distributions, S. coccinea has often been confused with S. occidentalis, S. austriaca, and S. dudleyi.

The saprobic fungus grows on decaying sticks and branches in damp spots on forest floors, generally buried under leaf litter or in the soil. The cup-shaped fruit bodies are usually produced during the cooler months of winter and early spring. The brilliant red interior of the cups—from which both the common and scientific names are derived—contrasts with the lighter-colored exterior. The edibility of the fruit bodies is well established, but its small size, small abundance tough texture and insubstantial fruitings would dissuade most people from collecting for the table. The fungus has been used medicinally by the Oneida Native Americans, and also as a colorful component of table decorations in England. In the northern part of Russia, where fruitings are more frequent, it is consumed in salads, fried with smetana, or just used as colored dressing for meals. Molliardiomyces eucoccinea is the name given to the imperfect form of the fungus that lacks a sexually reproductive stage in its life cycle.

Taxonomy, naming, and phylogeny edit

The species was originally named Helvella coccinea by the Italian naturalist Giovanni Antonio Scopoli in 1772.[2] Other early names include Peziza coccinea (Nikolaus Joseph von Jacquin, 1774)[3] and Peziza dichroa (Theodor Holmskjold, 1799).[4] Although some authors in older literature have applied the generic name Plectania to the taxon following Karl Fuckel's 1870 name change[5] (e.g. Seaver, 1928;[6] Kanouse, 1948;[7] Nannfeldt, 1949;[8] Le Gal, 1953[9]), that name is now used for a fungus with brownish-black fruit bodies.[10] Sarcoscypha coccinea was given its current name by Jean Baptiste Émil Lambotte in 1889.[1]

 
Drawings by Jean Louis Émile Boudier

Obligate synonyms (different names for the same species based on one type) include Lachnea coccinea Gillet (1880),[11] Macroscyphus coccineus Gray (1821),[12] and Peziza dichroa Holmskjold (1799). Taxonomic synonyms (different names for the same species, based on different types) include Peziza aurantia Schumacher (1803), Peziza aurantiaca Persoon (1822), Peziza coccinea Jacquin (1774), Helvella coccinea Schaeffer (1774), Lachnea coccinea Phillips (1887), Geopyxis coccinea Massee (1895), Sarcoscypha coccinea Saccardo ex Durand (1900), Plectania coccinea (Fuckel ex Seaver), and Peziza cochleata Batsch (1783).[13]

Sarcoscypha coccinea is the type species of the genus Sarcoscypha, having been first explicitly designated as such in 1931 by Frederick Clements and Cornelius Lott Shear.[14] A 1990 publication revealed that the genus name Sarcoscypha had been used previously by Carl F. P. von Martius as the name of a tribe in the genus Peziza;[15] according to the rules of Botanical Nomenclature, this meant that the generic name Peziza had priority over Sarcoscypha. To address the taxonomical dilemma, the genus name Sarcoscypha was conserved against Peziza, with S. coccinea as the type species, to "avoid the creation of a new generic name for the scarlet cups and also to avoid the disadvantageous loss of a generic name widely used in the popular and scientific literature".[10] The specific epithet coccinea is derived from the Latin word meaning "deep red". The species is commonly known as the "scarlet elf cup",[16] the "scarlet elf cap",[17] or the "scarlet cup fungus".[18]

S. coccinea var. jurana was described by Jean Boudier (1903) as a variety of the species having a brighter and more orange-colored fruit body, and with flattened or blunt-ended ascospores.[19] Today it is known as the distinct species S. jurana.[20] S. coccinea var. albida, named by George Edward Massee in 1903 (as Geopyxis coccinea var. albida), has a cream-colored rather than red interior surface, but is otherwise identical to the typical variety.[21]

S. coccinea

S. macaronesica

S. austriaca

S. humberiana

S. knixoniana

Other Sarcoscypha spp.

Phylogeny and relationships of S. coccinea and related species based on ITS sequences and morphological characteristics.[22]

Within the large area that includes the temperate to alpine-boreal zone of the Northern Hemisphere (Europe and North America), only S. coccinea had been recognized until the 1980s. However, it had been known since the early 1900s that there existed several macroscopically indistinguishable taxa with various microscopic differences: the distribution and number of oil droplets in fresh spores; germination behavior; and spore shape. Detailed analysis and comparison of fresh specimens revealed that what had been collectively called "S. coccinea" actually consisted of four distinct species: S. austriaca, S. coccinea, S. dudleyi, and S. jurana.[23]

The phylogenetic relationships in the genus Sarcoscypha were analyzed by Francis Harrington in the late 1990s.[22][24] Her cladistic analysis combined comparisons of the sequences of the internal transcribed spacer in the non-functional RNA with fifteen traditional morphological characteristics, such as spore features, fruit body shape, and degree of curliness of the "hairs" that form the tomentum. Based on her analysis, S. coccinea is part of a clade that includes the species S. austriaca, S. macaronesica, S. knixoniana and S. humberiana.[22] All of these Sarcoscypha species have numerous, small oil droplets in their spores. Its closest relative, S. macaronesica, is found on the Canary Islands and Madeira; Harrington hypothesized that the most recent common ancestor of the two species originated in Europe and was later dispersed to the Macaronesian islands.[24]

Description edit

Initially spherical, the fruit bodies are later shallowly saucer- or cup-shaped with rolled-in rims, and measure 2–6 cm (0.8–2.4 in) in diameter.[18][25] The inner surface of the cup is deep red (fading to orange when dry) and smooth, while the outer surface is whitish and covered with a dense matted layer of tiny hairs (a tomentum). The stipe, when present, is stout and up to 4 cm (1.6 in) long (if deeply buried) by 0.3–0.7 cm (0.1–0.3 in) thick, and whitish, with a tomentum.[18] Color variants of the fungus exist that have reduced or absent pigmentation; these forms may be orange, yellow, or even white (as in the variety albida). In the Netherlands, white fruit bodies have been found growing in the polders.[26]

 
The stalks and outer surface are lighter in color than the interior.

Sarcoscypha coccinea is one of several fungi whose fruit bodies have been noted to make a "puffing" sound—an audible manifestation of spore-discharge where thousands of asci simultaneously explode to release a cloud of spores.[27]

Spores are 26–40 by 10–12 µm, elliptical, smooth, colorless, hyaline (translucent), and have small lipid droplets concentrated at either end.[28][25] The droplets are refractive to light and visible with light microscopy. In older, dried specimens (such as herbarium material), the droplets may coalesce and hinder the identification of species. Depending on their geographical origin, the spores may have a delicate mucilaginous sheath or "envelope"; European specimens are devoid of an envelope while specimens from North America invariably have one.[29]

The asci are long and cylindrical, and taper into a short stem-like base; they measure 300–375 by 14–16 µm.[7] Although in most Pezizales all of the ascospores are formed simultaneously through delimitation by an inner and outer membrane, in S. coccinea the ascospores located in the basal parts of the ascus develop faster.[30] The paraphyses (sterile filamentous hyphae present in the hymenium) are about 3 µm wide (and only slightly thickened at the apex), and contain red pigment granules.[31]

Anamorph form edit

Anamorphic or imperfect fungi are those that seem to lack a sexual stage in their life cycle, and typically reproduce by the process of mitosis in structures called conidia. In some cases, the sexual stage—or teleomorph stage—is later identified, and a teleomorph-anamorph relationship is established between the species. The International Code of Nomenclature for algae, fungi, and plants permits the recognition of two (or more) names for one and the same organism, one based on the teleomorph, the other(s) restricted to the anamorph. The name of the anamorphic state of S. coccinea is Molliardiomyces eucoccinea, first described by Marin Molliard in 1904. Molliard found the growth of the conidia to resemble those of the genera Coryne and Chlorosplenium rather than the Pezizaceae, and he considered that this suggested an affinity between Sarcoscypha and the family Helvellaceae.[32] In 1972, John W. Paden again described the anamorph,[33] but like Molliard, failed to give a complete description of the species. In 1984, Paden created a new genus he named Molliardiomyces to contain the anamorphic forms of several Sarcoscypha species, and set Molliardiomyces eucoccinea as the type species. This form produces colorless conidiophores (specialized stalks that bear conidia) that are usually irregularly branched, measuring 30–110 by 3.2–4.7 µm. The conidia are ellipsoidal to egg-shaped, smooth, translucent (hyaline), and 4.8–16.0 by 2.3–5.8 µm; they tend to accumulate in "mucilaginous masses".[34]

Similar species edit

 
Sarcoscypha austriaca
 
Sarcoscypha dudleyi

Similar species include S. dudleyi and S. austriaca, and in the literature, confusion amongst the three is common.[29] Examination of microscopic features is often required to definitively differentiate between the species. Sarcoscypha occidentalis has smaller cups (0.5–2.0 cm wide), a more pronounced stalk that is 1–3 cm long, and a smooth exterior surface.[35] Unlike S. coccinea, it is only found in the New World and in east and midwest North America, but not in the far west. It also occurs in Central America and the Caribbean.[36] In North America, S. austriaca and S. dudleyi are found in eastern regions of the continent. S. dudleyi has elliptical spores with rounded ends that are 25–33 by 12–14 µm and completely sheathed when fresh. S. austriaca has elliptical spores that are 29–36 by 12–15 µm that are not completely sheathed when fresh, but have small polar caps on either end.[37] The Macaronesian species S. macaronesica, frequently misidentified as S. coccinea, has smaller spores, typically measuring 20.5–28 by 7.3–11 µm and smaller fruit bodies—up to 2 cm (0.8 in) wide.[38]

Other similar species include Plectania melastoma, Plectania nannfeldtii, and Scutellinia scutellata.[25]

Ecology, habitat and distribution edit

A saprobic species,[39] Sarcoscypha coccinea grows on decaying woody material from various plants: the rose family, beech, hazel, willow, elm, and, in the Mediterranean, oak.[40] The fruit bodies of S. coccinea are often found growing singly or clustered in groups on buried or partly buried sticks in deciduous forests.[16] A Hungarian study noted that the fungus was found mainly on twigs of European hornbeam (Carpinus betulus) that were typically less than 5 cm (2.0 in) long.[41] Fruit bodies growing on sticks above the ground tend to be smaller than those on buried wood. Mushrooms that are sheltered from wind also grow larger than their more exposed counterparts.[42] The fruit bodies are persistent and may last for several weeks if the weather is cool.[43] The time required for the development of fruit bodies has been estimated to be about 24 weeks, although it was noted that "the maximum life span may well be more than 24 weeks because the decline of the colonies seemed to be associated more with sunny, windy weather rather than with old age."[42] One field guide calls the fungus "a welcome sight after a long, desperate winter and ... the harbinger of a new year of mushrooming."[44]

Common over much of the Northern Hemisphere, S. coccinea occurs in the Midwest, in the valleys between the Pacific coast, the Sierra Nevada, and the Cascade Range. Its North American distribution extends north to various locations in Canada[29] and south to the Mexican state Jalisco.[45] The fungus has also been collected from Chile in South America.[46] It is also found in the Old World—Europe, Africa, Asia, Australia, and India.[36][47] Specimens collected from the Macaronesian islands that once thought to be S. coccinea were later determined to be the distinct species S. macaronesica.[23] A 1995 study of the occurrence of British Sarcoscypha (including S. coccinea and S. austriaca) concluded that S. coccinea was becoming very rare in Great Britain.[48] All species of Sarcoscypha, including S. coccinea, are Red-Listed in Europe.[49] In Turkey, it is considered critically endangered.[50]

Chemistry edit

 
Near Llandegfan, North Wales

The red color of the fruit bodies is caused by five types of carotenoid pigments, including plectaniaxanthin and β-carotene. Carotenoids are lipid-soluble and are stored within granules in the paraphyses.[51] British-Canadian mycologist Arthur Henry Reginald Buller suggested that pigments in fruit bodies exposed to the Sun absorb some of the Sun's rays, raising the temperature of the hymenium—hastening the development of the ascus and subsequent spore discharge.[52]

Lectins are sugar-binding proteins that are used in blood typing, biochemical studies and medical research. A lectin has been purified and characterized from S. coccinea fruit bodies that can bind selectively to several specific carbohydrate molecules, including lactose.[53]

Uses edit

Sarcoscypha coccinea was used as a medicinal fungus by the Oneida people and possibly by other tribes of the Iroquois Six Nations. The fungus, after being dried and ground up into a powder, was applied as a styptic, particularly to the navels of newborn children that were not healing properly after the umbilical cord had been severed. Pulverized fruit bodies were also kept under bandages made of soft-tanned deerskin.[6] In Scarborough, England, the fruit bodies used to be arranged with moss and leaves and sold as a table decoration.[54]

The species is said to be edible,[18][25] inedible,[55] or "not recommended",[43] depending on the author. Although its insubstantial fruit body and low numbers do not make it particularly suitable for the table, one source claims "children in the Jura are said to eat it raw on bread and butter; and one French author suggests adding the cups, with a little Kirsch, to a fresh fruit salad."[56][57] The fruit bodies have been noted to be a source of food for rodents in the winter, and slugs in the summer.[42]

References edit

  1. ^ a b "Sarcoscypha coccinea (Scop.) Lambotte 1889". MycoBank. International Mycological Association. Retrieved 2010-08-21.
  2. ^ Scopoli JA. (1772). Flora carniolica (in Latin). Vol. 2 (2 ed.). Vienna, Austria: Sumptibus J.T. Trattner. p. 479.
  3. ^ Jacquin NJ. (1774). Flora Austriaca. Vol. 2. Vienna, Austria. p. 40.
  4. ^ Holmskjold T. (1799). Beata ruris otia fungis danicis (in Latin). Vol. 2. p. 20.
  5. ^ Fuckel L. (1870). "Symbolae mycologicae. Beiträge zur Kenntnis der rheinischen Pilze" [Contributions to the knowledge of mushrooms of the Rhein]. Jahrbücher des Nassauischen Vereins für Naturkunde (in German). 23–24: 324.
  6. ^ a b Seaver FJ. (1928). The North American Cup-Fungi (Operculates). New York, New York: Self published. pp. 191–2.
  7. ^ a b Kanouse BC. (1948). "The genus Plectania and its segregates in North America". Mycologia. 40 (4): 482–97. doi:10.2307/3755155. JSTOR 3755155.
  8. ^ Nannfeldt JA. (1949). "Contributions to the microflora of Sweden. 7. A new winter Discomycete, Urnula hiemalis Nannf. n. sp., and a short account of the Swedish species of Sarcoscyphaceae". Svensk Botanisk Tidskrift. 43: 468–84.
  9. ^ Le Gal M. (1953). "Les Discomycètes de Madagascar" [The Discomycetes of Madagascar]. Prodrome à Flore Mycologique de Madagascar et Dépendanes (in French). Paris, France: Muséum National d’Histoire Naturelle. 4: 1–465.
  10. ^ a b Korf RP; Harrington FA. (1990). "Proposal to conserve a type for Sarcoscypha (Fries) Boudier, S. coccinea (Jacq.) Lambotte (Fungi)". Taxon. 39 (2): 342–3. doi:10.2307/1223069. JSTOR 1223069.
  11. ^ "Lachnea coccinea (Jacq.) Gillet 1880". MycoBank. International Mycological Association. Retrieved 2010-08-21.
  12. ^ "Macroscyphus coccineus (Scop.) Gray 1821". MycoBank. International Mycological Association. Retrieved 2010-08-21.
  13. ^ "Peziza dichroa Holmsk. 1799". MycoBank. International Mycological Association. Retrieved 2010-08-21.
  14. ^ Korf and Harrington (1990), citing Clements FE; Shear CL. (1931). The Genera of Fungi. New York, NY.{{cite book}}: CS1 maint: location missing publisher (link)
  15. ^ von Martius CFP. (1817). Flora Cryptogamica Erlangensis (in Latin). Nuremberg, Germany: J.L. Schrag. p. 469.
  16. ^ a b McKnight VB; McKnight KH. (1987). A Field Guide to Mushrooms, North America. Boston, Massachusetts: Houghton Mifflin. p. 33. ISBN 978-0-395-91090-0.
  17. ^ Burrows I. (2005). Food from the Wild. London, UK: New Holland Publishers. p. 91. ISBN 978-1-84330-891-1.
  18. ^ a b c d Arora D. (1986). Mushrooms Demystified: A Comprehensive Guide to the Fleshy Fungi. Berkeley, California: Ten Speed Press. p. 836. ISBN 978-0-89815-169-5.
  19. ^ Boudier E. (1903). "Note sur quelques ascomycètes du Jura" [Notes on some ascomycetes of Jura]. Bulletin de la Société Zoologique de France (in French). 19: 193–9.
  20. ^ . Index Fungorum. CAB International. Archived from the original on 2011-06-10. Retrieved 2010-08-22.
  21. ^ Massee G. (1892). British Fungus-Flora. A Classified Text-Book of Mycology. Vol. 4. London, UK: George Bell & Sons. p. 378.
  22. ^ a b c Harrington FA. (1998). "Relationships among Sarcoscypha species: evidence from molecular and morphological characters". Mycologia. 90 (2): 235–43. doi:10.2307/3761299. JSTOR 3761299.
  23. ^ a b Baral HO. (1984). "Taxonomische und ökologische Studien über Sarcoscypha coccinea agg., Zinnoberrote Kelchbecherlinge. (Kurzfassung)" [Taxonomic and economic study on Sarcoscypha coccinea]. Zeitschrift für Mykologie (in German). 50 (1): 117–46.
  24. ^ a b Harrington FA; Potter D. (1997). "Phylogenetic relationships within Sarcoscypha based upon nucleotide sequences of the internal transcribed spacer of nuclear ribosomal DNA". Mycologia. 89 (2): 258–67. doi:10.2307/3761080. JSTOR 3761080.
  25. ^ a b c d Davis, R. Michael; Sommer, Robert; Menge, John A. (2012). Field Guide to Mushrooms of Western North America. Berkeley: University of California Press. pp. 386–387. ISBN 978-0-520-95360-4. OCLC 797915861.
  26. ^ Van Duuren Y; Van Duuren G. (2005). "Witte Rode kelkzwammen en op excursie met Hans-Otto Baral" [White Sarcoscypha coccinea fruitbodies and a foray with Hans-Otto Baral] (PDF). Coolia. 48 (3): 169–70.
  27. ^ Buller, 1958, pp. 329–31. Retrieved 2010-08-22.
  28. ^ Orr DB; Orr RT. (1980). Mushrooms of Western North America. California Natural History Guides. Berkeley, California: University of California Press. pp. 24–5. ISBN 978-0-520-03660-4.
  29. ^ a b c Harrington FA. (1990). "Sarcoscypha in North America (Pezizales, Sarcoscyphaceae)". Mycotaxon. 38: 417–58.
  30. ^ Merkus E. (1976). "Ultrastructure of the ascospore wall in Pezizales (Ascomycetes)—IV. Morchellaceae, Helvellaceae, Rhizinaceae, Thelebolaceae, and Sarcoscyphaceae. General discussion". Persoonia. 9: 1–38.
  31. ^ Hanlin RT. (1990). Illustrated Genera of Ascomycetes. St. Paul, Minnesota: American Phytopathological Society. pp. 54–5. ISBN 978-0-89054-107-4.
  32. ^ Molliard M. (1904). "Forme conidienne de Sarcoscypha coccinea (Jacq.) Cooke. Bull" [Condidial form of Sarcoscypha coccinea (Jacq.) Cooke. Bull]. Bulletin Trimestriel de la Société Mycologique de France (in French). 20: 138–41.
  33. ^ Paden JW. (1972). "Imperfect states and the taxonomy of the Pezizales". Persoonia. 6: 405–14.
  34. ^ Paden JW. (1984). "A new genus of Hyphomycetes with teleomorphs in the Sarcoscyphaceae (Pezizales, Sarcoscyphineae)". Canadian Journal of Botany. 62 (2): 211–8. doi:10.1139/b84-035.
  35. ^ Miller HR; Miller OK. (2006). North American Mushrooms: A Field Guide to Edible and Inedible Fungi. Guilford, Connecticut: Falcon Guide. p. 536. ISBN 978-0-7627-3109-1.
  36. ^ a b Denison WC. (1972). "Central American Pezizales. IV. The genera Sarcoscypha, Pithya, and Nanoscypha". Mycologia. 64 (3): 609–23. doi:10.2307/3757876. JSTOR 3757876.
  37. ^ Kuo M. (2012). "Sarcoscypha dudleyi & Sarcoscypha austriaca". MushroomExpert.Com. Retrieved 2016-03-22.
  38. ^ Korf RP; Zhuang W-Y. (1991). "A preliminary Discomycete flora of Macaronesia: part 11, Sarcoscyphineae". Mycotaxon. 40: 1–11.
  39. ^ Kuo M. (2006). "Sarcoscypha coccinea". MushroomExpert.com. Retrieved 2016-03-22.
  40. ^ Baral HO. (2004). "Host specificity, plant communities". The European and North-American species of Sarcoscypha. Retrieved 2010-08-22.
  41. ^ Bratek Z; Balazs T; Halasz K; Zld-Balogh A. (2003). "Adatok a Sarcoscypha es Microstoma Nemzetsegek fajainak karpat-medencei elterjedese ismeretehez" [Data on the genera Sarcoscypha and Microstoma in the Carpathian basin]. Mikologiai Kozlemenyek (in Hungarian). 42 (3): 3–16. ISSN 0133-9095.
  42. ^ a b c Brown RP. (1980). "Observations on Sarcoscypha coccinea and Disciotis venosa in North Wales during 1978–1979". Bulletin of the British Mycological Society. 14 (2): 130–5. doi:10.1016/S0007-1528(80)80008-3.
  43. ^ a b Smith AH; Weber NS. (1980). The Mushroom Hunter's Field Guide. Ann Arbor, Michigan: University of Michigan Press. p. 28. ISBN 978-0-472-85610-7.
  44. ^ Abel D; Horn B; Kay R (1993). A Guide to Kansas Mushrooms. Lawrence, Kansas: University Press of Kansas. p. 238. ISBN 978-0-7006-0571-2.
  45. ^ Téllez-Bañuelos C; Guzmán-Dávalos L; Guzmán G. (1988). "Contribucion al conocimiento de los hongos de le reserva de la biosfera de la Sierra de Manantlan, Jalisco" [Contribution to the knowledge of the fungi from the biosphere reserve of Sierra de Manantlan state of Jalisco Mexico]. Revista Mexicana de Micologia (in Spanish). 4: 123–30. ISSN 0187-3180.
  46. ^ Tortella GR; Rubilar O; Gianfreda L; Valenzuela E; Diez MC. (2008). "Enzymatic characterization of Chilean native wood-rotting fungi for potential use in the bioremediation of polluted environments with chlorophenols". World Journal of Microbiology and Biotechnology. 24 (12): 2805–18. doi:10.1007/s11274-008-9810-7. hdl:10533/142003. S2CID 85152759.
  47. ^ Zhishu B; Zheng G; Taihui L. (1993). The Macrofungus Flora of China's Guangdong Province (Chinese University Press). New York, NY: Columbia University Press. p. 37. ISBN 962-201-556-5.
  48. ^ Butterfill GB; Spooner BM. (1995). "Sarcoscypha (Pezizales) in Britain". Mycologist. 9 (1): 20–6. doi:10.1016/S0269-915X(09)80243-7.
  49. ^ Baral HO. (2004). "Geographical Distribution". The European and North-American species of Sarcoscypha. Retrieved 2016-03-22.
  50. ^ Çinar H; Sermenli HB; Işiloğlu M. (2014). "Some critically endangered species From Turkey" (PDF). Fungal Conservation (4): 26–28.
  51. ^ Arpin N. (1968). "Les caroténoïdes des Discomycètes: essai chimiotaxinomique" [Carotenoids of the Discomycetes: chemotaxonomic analysis]. Bulletin Mensuel de la Société Linnéenne de Lyon (in French). 28 (Suppl): 1–169.
  52. ^ Buller, 1958, p. 301. Retrieved 2010-08-22.
  53. ^ Antoniuk VO. (2005). . Ukrainskii Biokhimicheskii Zhurnal (in Ukrainian). 77 (3): 96–103. PMID 16566135. Archived from the original on 2011-08-31.{{cite journal}}: CS1 maint: bot: original URL status unknown (link)
  54. ^ Dickinson C; Lucas J. (1982). VNR Color Dictionary of Mushrooms. Van Nostrand Reinhold. pp. 20–1. ISBN 978-0-442-21998-7.
  55. ^ Baker N. (2006). Nick Baker's British Wildlife. New Holland Publishers. p. 155. ISBN 978-1-84537-271-2.
  56. ^ "Pezize (in French, original recipe on Kirsch liquor and Grand Marnier blend with S. coccinea)". Supertoinette. Retrieved 2017-05-02.
  57. ^ Davidson JL; Davidson A; Saberi H; Jaine T. (2006). The Oxford Companion to Food. Oxford [Oxfordshire]: Oxford University Press. p. 234. ISBN 978-0-19-280681-9.

Cited books edit

 
Wikimedia Commons has media related to Sarcoscypha coccinea.
  • Buller AHR. (1958). Researches on Fungi. Vol. 6. New York, New York: Hafner Publishing.

February 15, 2024
sarcoscypha, coccinea, scientific, classificationdomain, eukaryotakingdom, fungidivision, ascomycotaclass, pezizomycetesorder, pezizalesfamily, sarcoscyphaceaegenus, sarcoscyphaspecies, coccineabinomial, name, scop, lambotte, 1889, synonyms, listhelvella, cocc. Sarcoscypha coccineaScientific classificationDomain EukaryotaKingdom FungiDivision AscomycotaClass PezizomycetesOrder PezizalesFamily SarcoscyphaceaeGenus SarcoscyphaSpecies S coccineaBinomial nameSarcoscypha coccinea Scop Lambotte 1889 Synonyms 1 ListHelvella coccinea Schaeff 1772 Peziza coccinea Jacq 1774 Peziza cochleata Batsch 1783 Peziza dichroa Holmsk 1799 Peziza coccinea Jacq 1800 Peziza aurantia Schumach 1803 Macroscyphus coccineus Scop Gray 1821 Peziza aurantiaca Pers 1822 Lachnea coccinea Jacq Gillet 1887 Lachnea coccinea Jacq W Phillips 1887 Geopyxis coccinea Scop Massee 1895 Sarcoscypha coccinea Scop Sacc ex Durand 1900 Plectania coccinea Scop Fuckel ex Seaver 1928 Sarcoscypha coccineaMycological characteristicsSmooth hymeniumNo distinct capHymenium attachment is irregular or not applicableLacks a stipeEcology is saprotrophicEdibility is edible Sarcoscypha coccinea commonly known as the scarlet elf cup scarlet elf cap or the scarlet cup is a species of fungus in the family Sarcoscyphaceae of the order Pezizales The fungus widely distributed in the Northern Hemisphere has been found in Africa Asia Europe North and South America and Australia The type species of the genus Sarcoscypha S coccinea has been known by many names since its first appearance in the scientific literature in 1772 Phylogenetic analysis shows the species to be most closely related to other Sarcoscypha species that contain numerous small oil droplets in their spores such as the North Atlantic island species S macaronesica Due to similar physical appearances and sometimes overlapping distributions S coccinea has often been confused with S occidentalis S austriaca and S dudleyi The saprobic fungus grows on decaying sticks and branches in damp spots on forest floors generally buried under leaf litter or in the soil The cup shaped fruit bodies are usually produced during the cooler months of winter and early spring The brilliant red interior of the cups from which both the common and scientific names are derived contrasts with the lighter colored exterior The edibility of the fruit bodies is well established but its small size small abundance tough texture and insubstantial fruitings would dissuade most people from collecting for the table The fungus has been used medicinally by the Oneida Native Americans and also as a colorful component of table decorations in England In the northern part of Russia where fruitings are more frequent it is consumed in salads fried with smetana or just used as colored dressing for meals Molliardiomyces eucoccinea is the name given to the imperfect form of the fungus that lacks a sexually reproductive stage in its life cycle Contents 1 Taxonomy naming and phylogeny 2 Description 2 1 Anamorph form 2 2 Similar species 3 Ecology habitat and distribution 4 Chemistry 5 Uses 6 References 6 1 Cited booksTaxonomy naming and phylogeny editThe species was originally named Helvella coccinea by the Italian naturalist Giovanni Antonio Scopoli in 1772 2 Other early names include Peziza coccinea Nikolaus Joseph von Jacquin 1774 3 and Peziza dichroa Theodor Holmskjold 1799 4 Although some authors in older literature have applied the generic name Plectania to the taxon following Karl Fuckel s 1870 name change 5 e g Seaver 1928 6 Kanouse 1948 7 Nannfeldt 1949 8 Le Gal 1953 9 that name is now used for a fungus with brownish black fruit bodies 10 Sarcoscypha coccinea was given its current name by Jean Baptiste Emil Lambotte in 1889 1 nbsp Drawings by Jean Louis Emile BoudierObligate synonyms different names for the same species based on one type include Lachnea coccinea Gillet 1880 11 Macroscyphus coccineus Gray 1821 12 and Peziza dichroa Holmskjold 1799 Taxonomic synonyms different names for the same species based on different types include Peziza aurantia Schumacher 1803 Peziza aurantiaca Persoon 1822 Peziza coccinea Jacquin 1774 Helvella coccinea Schaeffer 1774 Lachnea coccinea Phillips 1887 Geopyxis coccinea Massee 1895 Sarcoscypha coccinea Saccardo ex Durand 1900 Plectania coccinea Fuckel ex Seaver and Peziza cochleata Batsch 1783 13 Sarcoscypha coccinea is the type species of the genus Sarcoscypha having been first explicitly designated as such in 1931 by Frederick Clements and Cornelius Lott Shear 14 A 1990 publication revealed that the genus name Sarcoscypha had been used previously by Carl F P von Martius as the name of a tribe in the genus Peziza 15 according to the rules of Botanical Nomenclature this meant that the generic name Peziza had priority over Sarcoscypha To address the taxonomical dilemma the genus name Sarcoscypha was conserved against Peziza with S coccinea as the type species to avoid the creation of a new generic name for the scarlet cups and also to avoid the disadvantageous loss of a generic name widely used in the popular and scientific literature 10 The specific epithet coccinea is derived from the Latin word meaning deep red The species is commonly known as the scarlet elf cup 16 the scarlet elf cap 17 or the scarlet cup fungus 18 S coccinea var jurana was described by Jean Boudier 1903 as a variety of the species having a brighter and more orange colored fruit body and with flattened or blunt ended ascospores 19 Today it is known as the distinct species S jurana 20 S coccinea var albida named by George Edward Massee in 1903 as Geopyxis coccinea var albida has a cream colored rather than red interior surface but is otherwise identical to the typical variety 21 S coccineaS macaronesicaS austriacaS humberianaS knixonianaOther Sarcoscypha spp Phylogeny and relationships of S coccinea and related species based on ITS sequences and morphological characteristics 22 Within the large area that includes the temperate to alpine boreal zone of the Northern Hemisphere Europe and North America only S coccinea had been recognized until the 1980s However it had been known since the early 1900s that there existed several macroscopically indistinguishable taxa with various microscopic differences the distribution and number of oil droplets in fresh spores germination behavior and spore shape Detailed analysis and comparison of fresh specimens revealed that what had been collectively called S coccinea actually consisted of four distinct species S austriaca S coccinea S dudleyi and S jurana 23 The phylogenetic relationships in the genus Sarcoscypha were analyzed by Francis Harrington in the late 1990s 22 24 Her cladistic analysis combined comparisons of the sequences of the internal transcribed spacer in the non functional RNA with fifteen traditional morphological characteristics such as spore features fruit body shape and degree of curliness of the hairs that form the tomentum Based on her analysis S coccinea is part of a clade that includes the species S austriaca S macaronesica S knixoniana and S humberiana 22 All of these Sarcoscypha species have numerous small oil droplets in their spores Its closest relative S macaronesica is found on the Canary Islands and Madeira Harrington hypothesized that the most recent common ancestor of the two species originated in Europe and was later dispersed to the Macaronesian islands 24 Description editInitially spherical the fruit bodies are later shallowly saucer or cup shaped with rolled in rims and measure 2 6 cm 0 8 2 4 in in diameter 18 25 The inner surface of the cup is deep red fading to orange when dry and smooth while the outer surface is whitish and covered with a dense matted layer of tiny hairs a tomentum The stipe when present is stout and up to 4 cm 1 6 in long if deeply buried by 0 3 0 7 cm 0 1 0 3 in thick and whitish with a tomentum 18 Color variants of the fungus exist that have reduced or absent pigmentation these forms may be orange yellow or even white as in the variety albida In the Netherlands white fruit bodies have been found growing in the polders 26 nbsp The stalks and outer surface are lighter in color than the interior Sarcoscypha coccinea is one of several fungi whose fruit bodies have been noted to make a puffing sound an audible manifestation of spore discharge where thousands of asci simultaneously explode to release a cloud of spores 27 Spores are 26 40 by 10 12 µm elliptical smooth colorless hyaline translucent and have small lipid droplets concentrated at either end 28 25 The droplets are refractive to light and visible with light microscopy In older dried specimens such as herbarium material the droplets may coalesce and hinder the identification of species Depending on their geographical origin the spores may have a delicate mucilaginous sheath or envelope European specimens are devoid of an envelope while specimens from North America invariably have one 29 The asci are long and cylindrical and taper into a short stem like base they measure 300 375 by 14 16 µm 7 Although in most Pezizales all of the ascospores are formed simultaneously through delimitation by an inner and outer membrane in S coccinea the ascospores located in the basal parts of the ascus develop faster 30 The paraphyses sterile filamentous hyphae present in the hymenium are about 3 µm wide and only slightly thickened at the apex and contain red pigment granules 31 Anamorph form edit Anamorphic or imperfect fungi are those that seem to lack a sexual stage in their life cycle and typically reproduce by the process of mitosis in structures called conidia In some cases the sexual stage or teleomorph stage is later identified and a teleomorph anamorph relationship is established between the species The International Code of Nomenclature for algae fungi and plants permits the recognition of two or more names for one and the same organism one based on the teleomorph the other s restricted to the anamorph The name of the anamorphic state of S coccinea is Molliardiomyces eucoccinea first described by Marin Molliard in 1904 Molliard found the growth of the conidia to resemble those of the genera Coryne and Chlorosplenium rather than the Pezizaceae and he considered that this suggested an affinity between Sarcoscypha and the family Helvellaceae 32 In 1972 John W Paden again described the anamorph 33 but like Molliard failed to give a complete description of the species In 1984 Paden created a new genus he named Molliardiomyces to contain the anamorphic forms of several Sarcoscypha species and set Molliardiomyces eucoccinea as the type species This form produces colorless conidiophores specialized stalks that bear conidia that are usually irregularly branched measuring 30 110 by 3 2 4 7 µm The conidia are ellipsoidal to egg shaped smooth translucent hyaline and 4 8 16 0 by 2 3 5 8 µm they tend to accumulate in mucilaginous masses 34 Similar species edit nbsp Sarcoscypha austriaca nbsp Sarcoscypha dudleyi Similar species include S dudleyi and S austriaca and in the literature confusion amongst the three is common 29 Examination of microscopic features is often required to definitively differentiate between the species Sarcoscypha occidentalis has smaller cups 0 5 2 0 cm wide a more pronounced stalk that is 1 3 cm long and a smooth exterior surface 35 Unlike S coccinea it is only found in the New World and in east and midwest North America but not in the far west It also occurs in Central America and the Caribbean 36 In North America S austriaca and S dudleyi are found in eastern regions of the continent S dudleyi has elliptical spores with rounded ends that are 25 33 by 12 14 µm and completely sheathed when fresh S austriaca has elliptical spores that are 29 36 by 12 15 µm that are not completely sheathed when fresh but have small polar caps on either end 37 The Macaronesian species S macaronesica frequently misidentified as S coccinea has smaller spores typically measuring 20 5 28 by 7 3 11 µm and smaller fruit bodies up to 2 cm 0 8 in wide 38 Other similar species include Plectania melastoma Plectania nannfeldtii and Scutellinia scutellata 25 Ecology habitat and distribution editA saprobic species 39 Sarcoscypha coccinea grows on decaying woody material from various plants the rose family beech hazel willow elm and in the Mediterranean oak 40 The fruit bodies of S coccinea are often found growing singly or clustered in groups on buried or partly buried sticks in deciduous forests 16 A Hungarian study noted that the fungus was found mainly on twigs of European hornbeam Carpinus betulus that were typically less than 5 cm 2 0 in long 41 Fruit bodies growing on sticks above the ground tend to be smaller than those on buried wood Mushrooms that are sheltered from wind also grow larger than their more exposed counterparts 42 The fruit bodies are persistent and may last for several weeks if the weather is cool 43 The time required for the development of fruit bodies has been estimated to be about 24 weeks although it was noted that the maximum life span may well be more than 24 weeks because the decline of the colonies seemed to be associated more with sunny windy weather rather than with old age 42 One field guide calls the fungus a welcome sight after a long desperate winter and the harbinger of a new year of mushrooming 44 Common over much of the Northern Hemisphere S coccinea occurs in the Midwest in the valleys between the Pacific coast the Sierra Nevada and the Cascade Range Its North American distribution extends north to various locations in Canada 29 and south to the Mexican state Jalisco 45 The fungus has also been collected from Chile in South America 46 It is also found in the Old World Europe Africa Asia Australia and India 36 47 Specimens collected from the Macaronesian islands that once thought to be S coccinea were later determined to be the distinct species S macaronesica 23 A 1995 study of the occurrence of British Sarcoscypha including S coccinea and S austriaca concluded that S coccinea was becoming very rare in Great Britain 48 All species of Sarcoscypha including S coccinea are Red Listed in Europe 49 In Turkey it is considered critically endangered 50 Chemistry edit nbsp Near Llandegfan North WalesThe red color of the fruit bodies is caused by five types of carotenoid pigments including plectaniaxanthin and b carotene Carotenoids are lipid soluble and are stored within granules in the paraphyses 51 British Canadian mycologist Arthur Henry Reginald Buller suggested that pigments in fruit bodies exposed to the Sun absorb some of the Sun s rays raising the temperature of the hymenium hastening the development of the ascus and subsequent spore discharge 52 Lectins are sugar binding proteins that are used in blood typing biochemical studies and medical research A lectin has been purified and characterized from S coccinea fruit bodies that can bind selectively to several specific carbohydrate molecules including lactose 53 Uses editSarcoscypha coccinea was used as a medicinal fungus by the Oneida people and possibly by other tribes of the Iroquois Six Nations The fungus after being dried and ground up into a powder was applied as a styptic particularly to the navels of newborn children that were not healing properly after the umbilical cord had been severed Pulverized fruit bodies were also kept under bandages made of soft tanned deerskin 6 In Scarborough England the fruit bodies used to be arranged with moss and leaves and sold as a table decoration 54 The species is said to be edible 18 25 inedible 55 or not recommended 43 depending on the author Although its insubstantial fruit body and low numbers do not make it particularly suitable for the table one source claims children in the Jura are said to eat it raw on bread and butter and one French author suggests adding the cups with a little Kirsch to a fresh fruit salad 56 57 The fruit bodies have been noted to be a source of food for rodents in the winter and slugs in the summer 42 References edit a b Sarcoscypha coccinea Scop Lambotte 1889 MycoBank International Mycological Association Retrieved 2010 08 21 Scopoli JA 1772 Flora carniolica in Latin Vol 2 2 ed Vienna Austria Sumptibus J T Trattner p 479 Jacquin NJ 1774 Flora Austriaca Vol 2 Vienna Austria p 40 Holmskjold T 1799 Beata ruris otia fungis danicis in Latin Vol 2 p 20 Fuckel L 1870 Symbolae mycologicae Beitrage zur Kenntnis der rheinischen Pilze Contributions to the knowledge of mushrooms of the Rhein Jahrbucher des Nassauischen Vereins fur Naturkunde in German 23 24 324 a b Seaver FJ 1928 The North American Cup Fungi Operculates New York New York Self published pp 191 2 a b Kanouse BC 1948 The genus Plectania and its segregates in North America Mycologia 40 4 482 97 doi 10 2307 3755155 JSTOR 3755155 Nannfeldt JA 1949 Contributions to the microflora of Sweden 7 A new winter Discomycete Urnula hiemalis Nannf n sp and a short account of the Swedish species of Sarcoscyphaceae Svensk Botanisk Tidskrift 43 468 84 Le Gal M 1953 Les Discomycetes de Madagascar The Discomycetes of Madagascar Prodrome a Flore Mycologique de Madagascar et Dependanes in French Paris France Museum National d Histoire Naturelle 4 1 465 a b Korf RP Harrington FA 1990 Proposal to conserve a type for Sarcoscypha Fries Boudier S coccinea Jacq Lambotte Fungi Taxon 39 2 342 3 doi 10 2307 1223069 JSTOR 1223069 Lachnea coccinea Jacq Gillet 1880 MycoBank International Mycological Association Retrieved 2010 08 21 Macroscyphus coccineus Scop Gray 1821 MycoBank International Mycological Association Retrieved 2010 08 21 Peziza dichroa Holmsk 1799 MycoBank International Mycological Association Retrieved 2010 08 21 Korf and Harrington 1990 citing Clements FE Shear CL 1931 The Genera of Fungi New York NY a href Template Cite book html title Template Cite book cite book a CS1 maint location missing publisher link von Martius CFP 1817 Flora Cryptogamica Erlangensis in Latin Nuremberg Germany J L Schrag p 469 a b McKnight VB McKnight KH 1987 A Field Guide to Mushrooms North America Boston Massachusetts Houghton Mifflin p 33 ISBN 978 0 395 91090 0 Burrows I 2005 Food from the Wild London UK New Holland Publishers p 91 ISBN 978 1 84330 891 1 a b c d Arora D 1986 Mushrooms Demystified A Comprehensive Guide to the Fleshy Fungi Berkeley California Ten Speed Press p 836 ISBN 978 0 89815 169 5 Boudier E 1903 Note sur quelques ascomycetes du Jura Notes on some ascomycetes of Jura Bulletin de la Societe Zoologique de France in French 19 193 9 Species synonymy Sarcoscypha jurana Boud Baral Index Fungorum CAB International Archived from the original on 2011 06 10 Retrieved 2010 08 22 Massee G 1892 British Fungus Flora A Classified Text Book of Mycology Vol 4 London UK George Bell amp Sons p 378 a b c Harrington FA 1998 Relationships among Sarcoscypha species evidence from molecular and morphological characters Mycologia 90 2 235 43 doi 10 2307 3761299 JSTOR 3761299 a b Baral HO 1984 Taxonomische und okologische Studien uber Sarcoscypha coccinea agg Zinnoberrote Kelchbecherlinge Kurzfassung Taxonomic and economic study on Sarcoscypha coccinea Zeitschrift fur Mykologie in German 50 1 117 46 a b Harrington FA Potter D 1997 Phylogenetic relationships within Sarcoscypha based upon nucleotide sequences of the internal transcribed spacer of nuclear ribosomal DNA Mycologia 89 2 258 67 doi 10 2307 3761080 JSTOR 3761080 a b c d Davis R Michael Sommer Robert Menge John A 2012 Field Guide to Mushrooms of Western North America Berkeley University of California Press pp 386 387 ISBN 978 0 520 95360 4 OCLC 797915861 Van Duuren Y Van Duuren G 2005 Witte Rode kelkzwammen en op excursie met Hans Otto Baral White Sarcoscypha coccinea fruitbodies and a foray with Hans Otto Baral PDF Coolia 48 3 169 70 Buller 1958 pp 329 31 Retrieved 2010 08 22 Orr DB Orr RT 1980 Mushrooms of Western North America California Natural History Guides Berkeley California University of California Press pp 24 5 ISBN 978 0 520 03660 4 a b c Harrington FA 1990 Sarcoscypha in North America Pezizales Sarcoscyphaceae Mycotaxon 38 417 58 Merkus E 1976 Ultrastructure of the ascospore wall in Pezizales Ascomycetes IV Morchellaceae Helvellaceae Rhizinaceae Thelebolaceae and Sarcoscyphaceae General discussion Persoonia 9 1 38 Hanlin RT 1990 Illustrated Genera of Ascomycetes St Paul Minnesota American Phytopathological Society pp 54 5 ISBN 978 0 89054 107 4 Molliard M 1904 Forme conidienne de Sarcoscypha coccinea Jacq Cooke Bull Condidial form of Sarcoscypha coccinea Jacq Cooke Bull Bulletin Trimestriel de la Societe Mycologique de France in French 20 138 41 Paden JW 1972 Imperfect states and the taxonomy of the Pezizales Persoonia 6 405 14 Paden JW 1984 A new genus of Hyphomycetes with teleomorphs in the Sarcoscyphaceae Pezizales Sarcoscyphineae Canadian Journal of Botany 62 2 211 8 doi 10 1139 b84 035 Miller HR Miller OK 2006 North American Mushrooms A Field Guide to Edible and Inedible Fungi Guilford Connecticut Falcon Guide p 536 ISBN 978 0 7627 3109 1 a b Denison WC 1972 Central American Pezizales IV The genera Sarcoscypha Pithya and Nanoscypha Mycologia 64 3 609 23 doi 10 2307 3757876 JSTOR 3757876 Kuo M 2012 Sarcoscypha dudleyi amp Sarcoscypha austriaca MushroomExpert Com Retrieved 2016 03 22 Korf RP Zhuang W Y 1991 A preliminary Discomycete flora of Macaronesia part 11 Sarcoscyphineae Mycotaxon 40 1 11 Kuo M 2006 Sarcoscypha coccinea MushroomExpert com Retrieved 2016 03 22 Baral HO 2004 Host specificity plant communities The European and North American species of Sarcoscypha Retrieved 2010 08 22 Bratek Z Balazs T Halasz K Zld Balogh A 2003 Adatok a Sarcoscypha es Microstoma Nemzetsegek fajainak karpat medencei elterjedese ismeretehez Data on the genera Sarcoscypha and Microstoma in the Carpathian basin Mikologiai Kozlemenyek in Hungarian 42 3 3 16 ISSN 0133 9095 a b c Brown RP 1980 Observations on Sarcoscypha coccinea and Disciotis venosa in North Wales during 1978 1979 Bulletin of the British Mycological Society 14 2 130 5 doi 10 1016 S0007 1528 80 80008 3 a b Smith AH Weber NS 1980 The Mushroom Hunter s Field Guide Ann Arbor Michigan University of Michigan Press p 28 ISBN 978 0 472 85610 7 Abel D Horn B Kay R 1993 A Guide to Kansas Mushrooms Lawrence Kansas University Press of Kansas p 238 ISBN 978 0 7006 0571 2 Tellez Banuelos C Guzman Davalos L Guzman G 1988 Contribucion al conocimiento de los hongos de le reserva de la biosfera de la Sierra de Manantlan Jalisco Contribution to the knowledge of the fungi from the biosphere reserve of Sierra de Manantlan state of Jalisco Mexico Revista Mexicana de Micologia in Spanish 4 123 30 ISSN 0187 3180 Tortella GR Rubilar O Gianfreda L Valenzuela E Diez MC 2008 Enzymatic characterization of Chilean native wood rotting fungi for potential use in the bioremediation of polluted environments with chlorophenols World Journal of Microbiology and Biotechnology 24 12 2805 18 doi 10 1007 s11274 008 9810 7 hdl 10533 142003 S2CID 85152759 Zhishu B Zheng G Taihui L 1993 The Macrofungus Flora of China s Guangdong Province Chinese University Press New York NY Columbia University Press p 37 ISBN 962 201 556 5 Butterfill GB Spooner BM 1995 Sarcoscypha Pezizales in Britain Mycologist 9 1 20 6 doi 10 1016 S0269 915X 09 80243 7 Baral HO 2004 Geographical Distribution The European and North American species of Sarcoscypha Retrieved 2016 03 22 Cinar H Sermenli HB Isiloglu M 2014 Some critically endangered species From Turkey PDF Fungal Conservation 4 26 28 Arpin N 1968 Les carotenoides des Discomycetes essai chimiotaxinomique Carotenoids of the Discomycetes chemotaxonomic analysis Bulletin Mensuel de la Societe Linneenne de Lyon in French 28 Suppl 1 169 Buller 1958 p 301 Retrieved 2010 08 22 Antoniuk VO 2005 Purification and study of carbohydrate specificity of lectin from Sarcoscypha coccinea Fr Lambette Ukrainskii Biokhimicheskii Zhurnal in Ukrainian 77 3 96 103 PMID 16566135 Archived from the original on 2011 08 31 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint bot original URL status unknown link Dickinson C Lucas J 1982 VNR Color Dictionary of Mushrooms Van Nostrand Reinhold pp 20 1 ISBN 978 0 442 21998 7 Baker N 2006 Nick Baker s British Wildlife New Holland Publishers p 155 ISBN 978 1 84537 271 2 Pezize in French original recipe on Kirsch liquor and Grand Marnier blend with S coccinea Supertoinette Retrieved 2017 05 02 Davidson JL Davidson A Saberi H Jaine T 2006 The Oxford Companion to Food Oxford Oxfordshire Oxford University Press p 234 ISBN 978 0 19 280681 9 Cited books edit nbsp Wikimedia Commons has media related to Sarcoscypha coccinea Buller AHR 1958 Researches on Fungi Vol 6 New York New York Hafner Publishing Retrieved from https en wikipedia org w index php title Sarcoscypha coccinea amp oldid 1194668283, wikipedia, wiki, book, books, library,

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