Hygrocybe

Hygrocybe is a genus of agarics (gilled fungi) in the family Hygrophoraceae. Called waxcaps in English (sometimes waxy caps in North America), basidiocarps (fruit bodies) are often brightly coloured and have waxy to slimy caps, white spores, and smooth, ringless stems. In Europe they are characteristic of old, unimproved grasslands (termed waxcap grasslands) which are a declining habitat, making many Hygrocybe species of conservation concern. Elsewhere they are more typically found in woodlands. Most are ground-dwelling and all are believed to be moss associates. Around 150 species are recognized worldwide. Fruit bodies of several Hygrocybe species are considered edible and are sometimes offered for sale in local markets.

Hygrocybe
The scarlet H. coccinea and Cuphophyllus virgineus, Wyre Forest, UK
Scientific classification
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Genus:
Hygrocybe

(Fr.) P.Kumm. (1871)
Type species
Hygrocybe conica
(Schaeff.) P.Kumm. (1871)
Synonyms[1]
  • Godfrinia Maire (1902)
  • Bertrandia R.Heim (1936)
  • Pseudohygrocybe (Bon) Kovalenko (1988)

Taxonomy

History

Hygrocybe was first published in 1821 by Swedish mycologist Elias Magnus Fries as a subsection of Agaricus and in 1871 was raised to the rank of genus by Kummer. In several papers, Karsten and Murrill used the name Hydrocybe, but this is now taken as an orthographic variant of Hygrocybe. The generic name is derived from the Greek ῦγρὁς (= moist) + κυβη (= head).[2][3]

Despite its comparatively early publication, the genus Hygrocybe was not widely accepted until the 1970s, most previous authors treating it as a synonym of Hygrophorus, a related genus of ectomycorrhizal agarics.[2][4]

Hygrocybe itself has been split into subgenera, several of which – notably Cuphophyllus (= Camarophyllus sensu Singer, non Fries) and Gliophorus Herink – have subsequently been raised to generic rank. Some species, such as the mauve splitting waxcap (Humidicutis lewelliniae), have been described in the small genus Humidicutis.

Current status

Recent molecular research, based on cladistic analysis of DNA sequences, suggests that Hygrocybe as currently understood is paraphyletic and does not form a single clade within the Hygrophoraceae. As a result, the genus Cuphophyllus (comprising Hygrocybe pratensis and its allies) was removed from Hygrocybe sensu stricto, together with the genus Gliophorus (comprising Hygrocybe psittacina and its allies) and several other genera.[5][6][7][8]

Description

Fruit bodies of Hygrocybe species are all agaricoid, most (but not all) having smooth to slightly scaly caps that are convex to conical and waxy to slimy when damp. Many (but not all) are brightly coloured in shades of red, orange, or yellow – less commonly pink or green. Where present, the gills beneath the cap are often equally coloured and usually distant, thick, and waxy. One atypical South American species, Hygrocybe aphylla, lacks gills.[9] The stems of Hygrocybe species lack a ring. The spore print is white. Fruit bodies of some species, notably Hygrocybe conica, blacken with age or when bruised. Microscopically, Hygrocybe species lack true cystidia and have comparatively large, smooth, inamyloid basidiospores.[10]

Habitat, nutrition, and distribution

Most species of Hygrocybe are soil-dwelling, though a few (such as Hygrocybe mexicana and H. rosea) are only known from mossy tree trunks or logs.[11] In Europe, species are typical of unimproved (nutrient-poor), short-sward grasslands, often termed "waxcap grasslands",[12] but elsewhere they are more commonly found in woodland.

Their metabolism has long been debated, but recent research suggests that they are not saprotrophic [13][14] but rather symbiotically associated the roots of higher plants or mosses. Hyphae of H. conica have been detected in plant roots [14] and other waxcap species have been detected as systemic endophytes of Plantago lanceolata.[15]

Species are distributed worldwide, from the tropics to the sub-polar regions. Around 150 have been described to date.[16] Waxcaps receive most attention in northern Europe,[17] where they are found in nutrient-poor pastures.[10] However, outside Europe, waxcaps are more commonly associated with woodland habitats, for example the sclerophyll forests site at Lane Cove Bushland Park and Ferndale Park, Sydney.[18]

Conservation

In Europe, waxcap grasslands and their associated fungi are of conservation concern, since unimproved grasslands (formerly commonplace) have declined dramatically as a result of changes in agricultural practice. As a result, by 1993, 89% of European Hygrocybe species appeared on one or more national red lists of threatened fungi.[19]

In several countries, action has been taken to conserve waxcap grasslands and some of the rarer Hygrocybe species. Guidance

In the United Kingdom, some grasslands have gained a measure of legal protection as Sites of Special Scientific Interest because of their waxcap interest, notably Llanishen Reservoir in Cardiff, where the original SSSI notification by the Countryside Council for Wales in 2006 [20] was upheld following judicial review.[21]

Economic usage

Because Hygrocybe species cannot be maintained in culture,[19] none is cultivated commercially. Fruit bodies of a few species are considered edible in eastern Europe, south-east Asia, and Central America and are collected and consumed locally.[22]

Literature

No comprehensive monograph of the genus has yet been published. In Europe, however, species of Hygrocybe have been illustrated and described in a standard English-language guide by Boertmann (2010)[10] and also (together with Hygrophorus) in an Italian guide by Candusso (1997).[23] European species have also been covered, more briefly, in descriptive French keys by Bon (1990).[24] Dutch species were illustrated and described by Arnolds (1990).[25] No equivalent modern guides have been published for North America, the most recent being by Hesler & Smith (1963).[4] There is, however, a guide to Californian species by Largent (1985).[26] In Australia, Hygrocybe species have been illustrated and described by Young (2005)[27] and in New Zealand by Horak (1990).[28]

Species

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gollark: No.
gollark: This may require testing. It's not impossible that *somehow* `pcall` is using the "real" environment, but I have no idea what would cause htat.
gollark: ```lua -- if function is not from within the VM, return env from within sandbox function environment.getfenv(arg) local env if type(arg) == "number" then env = gf(arg + 1) else gf(arg) end if not env or env._HOST and string.find(env._HOST, "YAFSS") == nil then return gf() else return env end end```
gollark: Well, that's incredibly weird and I have no idea what causes that!

References

  1. "Hygrocybe (Fr.) P. Kumm". MycoBank. International Mycological Association. Retrieved 2011-09-22.
  2. Rea C. (1922). British Basidiomycetaceae: A Handbook of the Larger British Fungi. Cambridge, UK: Cambridge University Press. p. 799.
  3. Cornelis, Schrevel (1826). Schrevelius' Greek lexicon, tr. into Engl. with numerous corrections. pp. 184–186. Retrieved 2011-10-04.
  4. Hesler LR, Smith AH (1963). North American species of Hygrophorus. University of Tennessee Press. p. 416.
  5. Kovalenko AE, Moncalvo J-M, Vilgalys R, Petersen RH, Hughes KW, Lodge DJ (2002). "Recent advances in molecular phylogeny of temperate Hygrophoraceae and concordance with morphology and ecology (abstract)". IMC7 Abstracts (146).
  6. Matheny PB, Curtis JM, Hofstetter V, Aime MC, Moncalvo JM, Ge ZW, Slot JC, Ammirati JF, Baroni TJ, Bougher NL, Hughes KW, Lodge DJ, Kerrigan RW, Seidl MT, Aanen DK, DeNitis M, Daniele GM, Desjardin DE, Kropp BR, Norvell LL, Parker A, Vellinga EC, Vilgalys R, Hibbett DS (2006). "Major clades of Agaricales: a multilocus phylogenetic overview" (PDF). Mycologia. 98 (6): 982–95. doi:10.3852/mycologia.98.6.982. PMID 17486974. Archived from the original (PDF) on 2016-03-03.
  7. Babos M, Halász K, Zagyva T, Zöld-Balogh Á, Szegő D, Bratek Z (2011). "Preliminary notes on dual relevance of ITS sequences and pigments in Hygrocybe taxonomy". Persoonia. 26: 99–107. doi:10.3767/003158511X578349. PMC 3160800. PMID 22025807.
  8. Lodge, D. Jean; Padamsee, Mahajabeen; Matheny, P. Brandon; Aime, M. Catherine; Cantrell, Sharon A.; Boertmann, David; Kovalenko, Alexander; Vizzini, Alfredo; Dentinger, Bryn T. M. (2014-01-01). "Molecular phylogeny, morphology, pigment chemistry and ecology in Hygrophoraceae (Agaricales)" (PDF). Fungal Diversity. 64 (1): 1–99. doi:10.1007/s13225-013-0259-0. ISSN 1560-2745.
  9. Læssøe T, Boertmann D (2008). "A new alamellate Hygrocybe species from Ecuador". Mycological Research. 112 (Pt 10): 1206–1209. doi:10.1016/j.mycres.2008.04.002. PMID 18703325.
  10. Boertmann D. (2010). The genus Hygrocybe (2nd ed.). Copenhagen: Danish Mycological Society. p. 200. ISBN 978-87-983581-7-6.
  11. Lodge DJ, Matheny PB, Cantrell SA, Moncalvo J-M, Vilgalys R, Redhead S (2006). "Delineating the Hygrophoraceae: character myths vs. gene trees (poster)" (PDF). Inoculum. 57 (4): 27.
  12. Rotheroe M, Newton A, Evans S, Feehan J (1996). "Waxcap-grassland survey". The Mycologist. 10: 23–25. doi:10.1016/s0269-915x(96)80046-2.
  13. Seitzman BH, Ouimette A, Mixon RL, Hobbie EA, Hibbett DS (2011). "Conservation of biotrophy in Hygrophoraceae inferred from combined stable isotope and phylogenetic analyses". Mycologia. 103 (2): 280–290. doi:10.3852/10-195. PMID 21139028.
  14. Halbwachs, Hans; Dentinger, Bryn T.M.; Detheridge, Andrew P.; Karasch, Peter; Griffith, Gareth W. (December 2013). "Hyphae of waxcap fungi colonise plant roots". Fungal Ecology. 6 (6): 487–492. doi:10.1016/j.funeco.2013.08.003. ISSN 1754-5048.
  15. Tello, Sofia A.; Silva-Flores, Patricia; Agerer, Reinhard; Halbwachs, Hans; Beck, Andreas; Peršoh, Derek (2014-08-01). "Hygrocybe virginea is a systemic endophyte of Plantago lanceolata". Mycological Progress. 13 (3): 471–475. doi:10.1007/s11557-013-0928-0. ISSN 1617-416X.
  16. Kirk PM, Cannon PF, Minter DW, Stalpers JA (2008). Dictionary of the Fungi (10th ed.). Wallingford, UK: CABI. p. 446. ISBN 978-0-85199-826-8.
  17. Griffith, G.W.; Gamarra, J.G.P.; Holden, E.M.; Mitchel, D.; Graham, A.; Evans, D.A.; Evans, S.E.; Aron, C.; Noordeloos, M.E.; Kirk, P.M.; Smith, S.L.N.; Woods, R.G.; Hale, A.D.; Easton, G.L.; Ratkowsky, D.A.; Stevens, D.P.; Halbwachs, H. (30 August 2014). "The international conservation importance of Welsh 'waxcap' grasslands". Mycosphere. 4 (5): 969–984. doi:10.5943/mycosphere/4.
  18. Published by: Department of Environment and Climate Change NSW. Protecting and restoring the fungi (sic) community of Lane Cove Bushland Park (PDF). ISBN 978-1-74122-965-3. Retrieved 18 May 2018.
  19. Griffith GW, Easton GL, Jones AW (2002). "Ecology and diversity of waxcap (Hygrocybe spp) fungi". Botanical Journal of Scotland. 54: 7–22. doi:10.1080/03746600208685025.
  20. "Llanishen reservoir action group news". archive.li. 2007-07-27. Retrieved 2018-05-21.
  21. WalesOnline (2007-02-06). "Legal ruling to help protect rare fungi". walesonline. Retrieved 2018-05-21.
  22. Boa ER. (2004). Wild edible fungi: a global overview of their use and importance to people. Food and Agriculture Organization of the United Nations. p. 147. ISBN 978-92-5-105157-3.
  23. Candusso M. (1997). Fungi Europaei 6: Hygrophorus s.l.. Alassio, Italy: Libreria Basso. p. 784.
  24. Bon M. (1990). Flore mycologique d'Europe 1: Les Hygrophores (in French). Amiens Cedex: CRDP de Picardie. p. 99.
  25. Arnolds E. (1990). Genus Hygrocybe in Flora Agaricina Neerlandica 2. Lisse, Netherlands: AA Balkema. pp. 71–111. ISBN 978-90-6191-971-1.
  26. Largent DL. (1985). The Agaricales (Gilled Fungi) of California 5: Hygrophoraceae. Eureka, California: Mad River Press. p. 220. ISBN 978-0-916422-54-7.
  27. Young AM. (2005). Fungi of Australia: Hygrophoraceae. Collingwood, Victoria: CSIRO Publishing. p. 188. ISBN 978-0-643-09195-5.
  28. Horak E. (1990). "Monograph of the New Zealand Hygrophoraceae (Agaricales)" (PDF). New Zealand Journal of Botany. 28 (3): 255–309. doi:10.1080/0028825x.1990.10412313.
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