• Proposed
  • Under Assessment
  • Preliminary Assessed
  • DDAssessed
  • 5Published

Hygrocybe reidii Kühner

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Scientific name
Hygrocybe reidii
Common names
Honey Waxcap
lúčnica Reidova
hygrophore de Reid
Medainā stiklene
IUCN Specialist Group
Mushroom, Bracket and Puffball
Assessment status
Preliminary Category
Proposed by
A. Martyn Ainsworth
A. Martyn Ainsworth
Comments etc.
Filip Fuljer, Anders Dahlberg, Wim A. Ozinga, Tatyana Svetasheva, Irmgard Krisai-Greilhuber, Pavel Nedelev, Nicolas Schwab, Inita Daniele, Jan Merta

Assessment Notes


Hygrocybe reidii belongs to the European waxcap assemblage whose members are globally red-listed based on the declining area/quality of their grassland habitat. This assemblage is declining across Europe due to changes in land use (agricultural intensification and decline of traditional farming practices) and increasing use of fertilizers and pesticides.
Decline in area and quality of available habitat has approached (or possibly exceeded) 30% over the last 50 years; the decline in population size over this time could be higher. This decline in habitat is expected to continue even more rapidly over the next 50 years (approximately three generations: one generation for species of Hygrocybe s.l. is around 17 years). Currently the population size probably exceeds 20,000 mature individuals hence criterion A is applicable. This species meets the threshold for VU A2c+3c+4c in Europe. There are indications from GenBank ITS sequence data that H. reidii sensu auct. Eur. is present in N. America hence it might be preferable to assess it globally as DD pending further molecular studies and survey work in USA and Canada.

Taxonomic notes

Why suggested for a Global Red List Assessment?

Geographic range

Geographic range based on type locality (France) and available barcoded collections from UK. Although there is no ex-type sequence yet available, the species is relatively morphologically distinct and there is no known evidence of cryptic taxa within the established species concept. Regarded as “probably widespread” in Europe (Boertmann, 2010). It would be justifiable to include all countries shown on dot map provided in Boertmann (2010). Distribution in N. America requires further study.

Population and Trends

The population size probably exceeds 20,000 mature individuals but exact figures are unknown. The population is decreasing in all known occupied European countries, caused by a cessation of small scale farming and traditional methods of grassland management. The eastern boundary of the range is, as is the case for all members of this assemblage, unclear because of lack of data.
According to the Food and Agriculture Organization of the United Nations (FAO), the area of grasslands in the EU declined by 12.8% over 13 y (1990-2003); only a few Member States managed to avoid this trend (Food and Agricultural Organisation of the United Nations 2006: FAO Statistical Yearbook – FAOSTAT). Based on this, the decline is inferred to be 30% over 30 years (past, future and ongoing) but may actually be as high as 50% over three generations (50 years; e.g., 1975-2025) and even higher over longer time-frames. This species has been recorded from woodland (Boertmann 2010), but is nonetheless a characteristic “waxcap grassland” species.

Population Trend: Decreasing

Habitat and Ecology

Hygrocybe reidii is an indicator of mycologically rich but nutrient-poor, semi-natural grassland (a member of the waxcap grassland assemblage). This habitat, which may be of low conservation concern for its plant and animal diversity, is rapidly disappearing worldwide due to changes in land use (intensification of farming practice, eutrophication and increased use of fertilizers and pesticides). Waxcaps are currently regarded as forming a biotrophic relationship with plants but the details remain unclear. Fruiting populations of waxcaps are nitrogen sensitive and dependent on a regime of grazing or mowing without applications of fertilizer or pesticide. The waxcap grassland assemblage is characterised by a large diversity of other fungal genera (including Entoloma, clavarioid taxa and geoglossoid taxa) that have similar nutrient and management requirements. Addition of fertilizers or cessation of grazing/mowing management is rapidly detrimental to fruiting community diversity.

Temperate Grassland


As a species dependent on semi-natural grasslands, Hygrocybe reidii is threatened by habitat loss and degradation due to a decrease in small scale, low intensity farming. The main reasons for decline involve land that is no longer farmed or, if still in the farming system, is subjected to ploughing, reseeding, fertiliser application (mainly of phosphorus and nitrogen), reduced grazing intensity and eutrophication.
According to NATURA 2000 reports (Calaciura and Spinelli 2008), grassland habitats are steadily decreasing, mainly due to abandonment or change in land use. According to the Food and Agriculture Organization of the United Nations (FAO), the area of grasslands in the EU declined by 12.8% from 1990 to 2003; only a few Member States managed to avoid this trend (Food and Agricultural Organisation of the United Nations 2006: FAO Statistical Yearbook – FAOSTAT). Pressure caused by land use changes on grassland habitats is steadily increasing. Some 60% of newly afforested areas in the EU formerly was used as permanent/seasonal grazing land or hay-production in natural meadows.
More than 75% of the grassland habitats in the EU are in an unfavourable conservation status, according to draft data provided by Member States under Article 17 of the Habitats Directive. Over the past decade, grassland butterflies have suffered large declines in Europe, with a reduction of abundance by almost 50%, with little sign of improvement (SEBI 2010 Biodiversity Indicators).
According to the European Environment Agency (2015), natural and semi-natural grasslands have undergone a major decline in recent decades. Grasslands have one of the lowest proportions (11%) of favourable condition assessments and one of the highest proportions of decreasing as-sessments of all the terrestrial ecosystems considered. About 49 % of EU assessments for the 45 grassland habitat types of Community interest are “unfavourable-bad”. Moreover, almost 50% of grassland-associated birds are declining and the conservation status of other species is mostly “un-favourable”. Grassland butterflies, for example, are declining severely and there is no sign of level-ling off. Accordingly, Janssen et al. (2016) (European Red List of Habitats) reported that 53 % of the grassland habitats in Europe are threatened to some degree (the second most threatened habitat type after “mires and bogs”).

Housing & urban areasAgro-industry farmingAgro-industry grazing, ranching or farmingAgricultural & forestry effluentsNutrient loadsHerbicides and pesticides

Conservation Actions

Site protection and management of habitats are both very important conservation actions for this species.
Grazing, at least before the onset of the fruiting season, is of fundamental importance. On sites (e.g. sloping ground, thin soils) where cattle would cause soil erosion, sheep are the preferred grazing animal. Mowing, with collection of ‘arisings’, can substitute for grazing.

Site/area protectionSite/area managementHabitat & natural process restorationConservation payments

Research needed

Further ecological research needed to clarify resource relations of waxcaps and full distribution range

Population size, distribution & trendsLife history & ecology

Use and Trade


Arnolds, E.J.M. (1990). Tribus Hygrocybeae in Bas, C., Kuyper, T.W., Noordeloos, M.E., Vellinga, E.C. (eds) Flora agaricina Neerlandica vol. 2, 70-111. Rotterdam, A.A. Balkema

Boertmann, D. (2010). The genus Hygrocybe. Fungi of Northern Europe 1. 2nd revised edition. Danish Mycological Society, Copenhagen.

European Environment Agency (2015). State of nature in the EU. Technical report No 2/2015. European Environment Agency, Copenhagen.

J.A.M. Janssen, J.S. Rodwell, M. García Criado, S. Gubbay, T. Haynes, A. Nieto, N. Sanders, F. Lan-ducci, J. Loidi, A. Ssymank, T. Tahvanainen, M. Valderrabano, A. Acosta, M. Aronsson, G. Arts, F. Attorre, E. Bergmeier, R.-J. Bijlsma, F. Bioret, C. Biţă-Nicolae, I. Biurrun, M. Calix, J. Capelo, A. Čar-ni, M. Chytrý, J. Dengler, P. Dimopoulos, F. Essl, H. Gardfjell, D. Gigante, G. Giusso del Galdo, M. Hájek, F. Jansen, J. Jansen, J. Kapfer, A. Mickolajczak, J.A. Molina, Z. Molnár, D. Paternoster, A. Piernik, B. Poulin, B. Renaux, J.H.J. Schaminée, K. Šumberová, H. Toivonen, T. Tonteri, I. Tsiripidis, R. Tzonev and M. Valachovič, (2016). European Red List of habitats. Part 2, terrestrial and freshwater habitats. European Union, Luxembourg.

Kautmanova, I., Knutsson, T., Krikorev, M., Læssøe, T. & Senn-Irlet, B. 2015. Hygrocybe ingrata. The IUCN Red List of Threatened Species 2015: e.T71595761A71595999. http://dx.doi.org/10.2305/IUCN.UK.2015-4.RLTS.T71595761A71595999.en. Downloaded on 21 February 2018.
Kautmanova, I., Knutsson, T., Krikorev, M., Læssøe, T. & von Bonsdorff, T. 2015. Hygrocybe citrinovirens. The IUCN Red List of Threatened Species 2015: e.T70406652A70406717. http://dx.doi.org/10.2305/IUCN.UK.2015-4.RLTS.T70406652A70406717.en. Downloaded on 21 February 2018.

Lodge D.J., Padamsee M., Matheny P.B., Aime M.C., Cantrell S.A., Boertmann D., Kovalenko A., Vizzini A., Dentinger B.T.M., Kirk P.M., Ainsworth A.M., Moncalvo J.-M., Vilgalys R., Larsson E., Lücking R., Griffith G.W., Smith M.E., Norvell L.L., Desjardin D.E., Redhead S.A., Ovrebo C.L., Lickey E.B., Ercole E., Hughes K.W., Courtecuisse R., Young, A., Binder M., Minnis A.M., Lindner D.L., Ortiz-Santana B., Haight J., Læssøe T., Baroni T.J., Geml J., Hattori T. (2014). Molecular phylogeny, morphology, pigment chemistry and ecology in Hygrophoraceae (Agaricales). Fungal Diversity 64:1-99.

Country occurrence

Regional Population and Trends

Country Trend Redlisted