Panus conchatus

Panus conchatus
Scientific classification
Kingdom: Fungi
Division: Basidiomycota
Class: Agaricomycetes
Order: Polyporales
Family: Polyporaceae
Genus: Panus
Species: P. conchatus
Binomial name
Panus conchatus
(Bull.) Fr. (1838)
Synonyms[1]
  • Agaricus conchatus Bull. (1787)
  • Agaricus inconstans var. conchatus (Bull.) Pers. (1801)
  • Lentinus conchatus (Bull.) J.Schröt. (1889)
  • Pocillaria conchata (Bull.) Kuntze (1891)
  • Lentinopanus conchatus (Bull.) Pilát (1941)
  • Panus torulosus var. conchatus (Bull.) Kauffman (1918)
Panus conchatus
View the Mycomorphbox template that generates the following list

Mycological characteristics

gills on hymenium

cap is convex

or flat
hymenium is decurrent
stipe is bare
spore print is white
ecology is saprotrophic
edibility: inedible

Panus conchatus, commonly known as the lilac oysterling, is an inedible species of mushroom that occurs throughout the Northern Hemisphere. Its fruitbodies are characterized by a smooth, lilac- or tan-colored cap, and decurrent gills. The fungus is saprophytic and fruits on the decomposing wood of a wide variety of deciduous and coniferous trees. Despite being a gilled species, phylogenetic analysis has shown it is closely related to the pored species found in the family Polyporaceae.

Taxonomy

The species was originally described under the name Agaricus conchatus by French mycologist Jean Baptiste François Pierre Bulliard in volume 7 of his 1787 Herbier de la France.[2] Elias Magnus Fries transferred it to the genus Panus in 1838.[3]

The specific epithet conchatus is derived from the Latin word meaning "shell-like".[4] It is commonly known as the lilac oysterling.[5]

Panus conchatus mushrooms have an extremely variable morphology that changes with the age of the fruitbodies. Young specimens are pliable and fleshy, colored lilac to purple, and have a monomitic hyphal system (containing only generative hyphae). Old fruitbodies lose the coloring and develop a tough texture. They have a dimitic hyphal system, containing both generative and skeletal hyphae. Because of this variability in fruitbody morphology, the fungus has been described several times under different names by different mycologists.[6] The following are heterotypic synonyms of Panus conchatus (based on a different type):[1]

Description

The cap is 5 to 15 centimetres (2.0 to 5.9 in) in diameter, and is initially convex, but later flattens or becomes centrally depressed in maturity. The cap is tan, lilac or reddish-brown, and smooth (glabrous); in age the surface may crack into small flattened scales.[16] The cap margin is inrolled and often has a wavy or lobed outline. The flesh is tough and whitish. The gills are attached in a decurrently (running down the length of the stem), and are narrow and often forked. The gills initially have a violet tinge, but later become an or reddish-violet. The stem is 2 to 3 centimetres (0.8 to 1.2 in) long and 1 to 3 centimetres (0.4 to 1.2 in) thick, roughly the same color as the cap, but covered with violet hairs; it is attached to the cap laterally, or off-center.[17] The spore print is white.

Viewed microscopically, spores are elliptical, smooth, and non-amyloid, with dimensions of 5–7 by 2.5–3.5 µm. The pleurocystidia are either enlarged in the middle (ventricose) or enlarged and spherical at the tip (capitate); these cells have dimensions of 35–45 by 8–11 µm.[18]

Habitat and distribution

Panus conchatus is a saprobic species – deriving nutrition from rotting or decaying organic matter – and fruit bodies can be found on hardwood stumps, logs and sticks, usually crowded together in clusters.[17] Typical hosts include wood of deciduous trees—especially beech, poplar, birch, and oak, and less frequently on ash and elm. Coniferous hosts include fir, spruce, pine, and yew.[6]

Found throughout the Northern Hemisphere,[19] this species has been collected in North America,[17] and Europe.[20]

Edibility

Although believed to be non-toxic,[16] P. conchatus is not recommended for consumption due to its tough and leathery texture.[18]

Phylogenetics

The general growth form, or habit, of P. conchatus is pleurotoid, referring to its growth on wood, the presence of gills, and roughly semicircular-shaped caps and off-center stem attachment to the cap. A study of this and various other pleurotoid species using phylogenetic analysis determined that despite the presence of gills, P. conchatus is closely related to mushrooms with pores, hence their placement in the Polyporaceae family.[21]

Research

Panus conchatus contains a laccase, a polyphenol oxidase enzyme. These enzymes have potential in industrial applications for pulp bleaching, wastewater treatment in mills, and removal of phenolic compounds in the food industry. Most laccases have an active site containing four copper molecules, and are known as blue copper phenol oxidases. P. conchatus, however, contains a white laccase that lacks the typical blue copper color.[22] The crudely purified enzyme has been used for pulp bleaching[23] and wastewater decoloration in experimental studies.[24]

References

  1. 1 2 "Panus conchatus (Bull.) Fr. 1838". MycoBank. International Mycological Association. Retrieved 2015-01-11.
  2. Bulliard JBF. (1787). Herbier de la France (PDF) (in French) 7. p. plate 298.
  3. Fries EM. (1838). Epicrisis Systematis Mycologici, seu Synopsis Hymenomycetum (in Latin). Uppsala, Sweden: Typographia Academica. p. 398.
  4. Brown DE (2003). "PLEUROTOID species in the Pacific Northwest". Pacific Northwest Key Council. Retrieved 2009-04-05.
  5. Holden L. "English Names for fungi 2014". British Mycological Society. Retrieved 2016-01-11.
  6. 1 2 Pegler DN. The genus Lentinus. A World Monograph. Kew Bulletin Additional Series 10. London, UK: Her Majesty'sStationary Office. pp. 134–136. ISBN 978-0-11-242627-1.
  7. Schaeffer JC. (1774). Fungorum qui in Bavaria et Palatinatu circa Ratisbonam nascuntur Icones (in Latin) 4. Regensburg. p. 20.
  8. Batsch AJGK. (1783). Elenchus fungorum (in Latin and German). p. 89.
  9. Berkeley MJ. (1851). "Decades of fungi. Decades XXXII, XXXIII. Sikkim Himalaya fungi, collected by Dr. J.D. Hooker". Hooker's Journal of Botany and Kew Garden Miscellany 3: 39–49.
  10. Baglietto F. (1865). "Materiali per la Micologia italiana". Commentario della Società Crittogamologica Italiana (in Italian) 2 (2): 261–265.
  11. Berkeley MJ, Broome CE. (1874). "Enumeration of the fungi of Ceylon. Part II". Botanical Journal of the Linnean Society 14: 29–141 (see p. 42).
  12. Schulzer S. (1878). "Mycologische Beiträge. III" (in German) 28: 423–436.
  13. Schulzer S. (1885). "Einige neue Pilz-Species und Varietäten aus Slavonien". Hedwigia (in German and Latin) 24 (4): 129–151.
  14. Schröter J. (1885). Kryptogamen-Flora von Schlesien (in German). 3–1(1). Lehre, Germany: Cramer. p. 554.
  15. Peck CH. (1906). "New species of fungi". Bulletin of the Torrey Botanical Club 33 (4): 213–221.
  16. 1 2 Wood M, Stevens F. "California Fungi: Panus conchatus". Retrieved 2009-04-05.
  17. 1 2 3 Orr DB, Orr RT. (1979). Mushrooms of Western North America. Berkeley, California: University of California Press. p. 251. ISBN 0-520-03656-5.
  18. 1 2 Kuo M. "Panus conchatus". MushroomExpert.com. Retrieved 2009-04-05.
  19. Johnson JE, Methven AS. (1994). "Panus conchatus: cultural characters and mating data". Mycologia 86 (1): 146–50. doi:10.2307/3760731. JSTOR 3760731.
  20. "Rogers Mushrooms | Mushroom Pictures & Mushroom Reference". Rogers Mushrooms. Retrieved 2009-04-05.
  21. Thorn RG, Moncalvo J-M, Reddy CA, Vilgalys R. (2000). "Phylogenetic analyses and the distribution of nematophagy support a monophyletic pleurotaceae within the polyphyletic pleurotoid-lentinoid fungi". Mycologia 92 (2): 241–52. doi:10.2307/3761557. JSTOR 3761557.
  22. Zhou P, Fu C, Fu S, Zhan H. (2014). "Purification and characterization of white laccase from the white-rot fungus Panus conchatus". Bioresources 9 (2): 1964–1976.
  23. Mo JL, Fu SY, Zhan HY. (2006). "Improving laccase activity of Panus conchatus by mutagenesis and used for biobleaching". Transactions of China Pulp and Paper 21: 29–33.
  24. Ding S, Wang J. (2012). "Preparation of immobilized Panus conchatus bio-balls for fur dye wastewater". Proceedings of the 2012 Second International Conference on Electric Technology and Civil Engineering. Washington, DC, USA: IEEE Computer Society. pp. 2005–2009. ISBN 978-0-7695-4704-6.

External links

This article is issued from Wikipedia - version of the Saturday, February 13, 2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.