References
- A
rhipova , N., Gaitnieks , T., Donis , J., Stenlid , J., Vasaitis , R., 2011. Decay, yield loss and associated fungi of grey alder (Alnus incana) in Latvia. Forestry, 84: 337–348. https://doi.org/10.1093/forestry/cpr018 - A
rhipova , N., Donis , J., Stenlid , J., Vasaitis , R., 2012. Heart-rot and associated fungi in Alnus glutinosa stands in Latvia. Scandinavian Journal of Forest Research, 27: 327–336. https://doi.org/10.1080/02827581.2012.670727 - B
adalyan , S., Shnyreva , A., Iotti , M., Zambonelli , A., 2015. Genetic resources and mycelial characteristics of several medicinal polypore mushrooms (Polyporales, Basidiomycetes). International Journal of Medicinal Mushrooms, 17: 371–384. https://doi.org/10.1615/IntJMedMushrooms.v17.i4.60 - B
adalyan , S.M., Zhuykova , E.V., Mukhin , V.A., 2022. The phylogenetic analysis of Armenian collections of medicinal tinder polypore Fomes fomentarius (Agaricomycetes, Polyporaceae). Italian Journal of Mycology, 51: 23–33. https://doi.org/10.6092/issn.2531-7342/14474 - B
aum , S., Sieber , T.N., Schwarze , F.W.M.R., Fink , S., 2003. Latent infections of Fomes fomentarius in the xylem of European beech (Fagus sylvatica). Mycological Progress, 2: 141–148. https://link.springer.com/article/10.1007/s11557-006-0052-5 - B
laschke , M., Heler , W., Ostrow , H., Hahn , C., Loy , H., Buẞler , H., Krieglsteiner , L., 2009. Naturnähezeiger-Holz bewohnende Pilze als Indikatoren für Strukturqualität [Indicators of nature value –Wood-inhabiting fungi as indicators of structural quality in forests]. Natur und Landschaft, 84 (12): 560-565. (In German). - C
añestro , G.J.A., 2022. Fomes inzengae. Micobotánica-Jaén, 27: 22–26. - C
artabia , M., Girometta , C.E., Baiguera , R.M., Buratti , S., Babbini , S., Bernicchia , A., Savino , E., 2022. 84: 560–566. Lignicolous fungi collected in Northern Italy: Identification and morphological description of isolates. Diversity, 14: 413. https://doi.org/10.3390/d14050413 - C
ooke , M.C., 1885. Præcursores ad monographia polyporu. Grevillea, 14: 17–21. - C
osta , D., Fernandes , T., Martins , F., Pereira José , A.,Tavares Rui , M., Santos Pedro , M., Baptista , P., Lino -Neto , T., 2021. Illuminating Olea europaea L. endophyte fungal community. Microbiological Research, 241: 126693. https://doi.org/10.1016/j.micres.2020.126693 - D
olatabad , H.K., Javan -Nikkhah , M., Shier , W.T., 2017. Evaluation of antifungal, phosphate solubilisation, and siderophore and chitinase release activities of endophytic fungi from Pistacia vera. Mycological Progress, 16: 777–790. [cit. 2024-11-21]. https://link.springer.com/article/10.1007/s11557-017-1315-z - D
onk , M.A., 1960. The generic names proposed for Polyporaceae. Persoonia, 1: 173–302. - D
resch , P., D´Aguano , M.N., Rosam , K., Grienke , U., Rollinger , J.M., Peintner , U., 2015. Fungal strain matters: colony growth and bioactivity of the European medicinal polypores Fomes fomentarius, Fomitopsis pinicola and Piptoporus betulinus. AMB Express, 5: 1–14. https://doi.org/10.1186/s13568-014-0093-0 - F
rancini , A., Pellegrini , E., Nali , C., 2012. Molecular identification of decay in the wood: theory and practice. In Lenzi , A. (ed.). Harmonic Code. Pisa: Edizioni ETS, p. 82–86. - F
ries , E., 1849. Summa vegetabilium Scandinaviae. Stockholm: A. Bonnier. 572 p. - F
riess , N., Müller , J.C., Aramendi , P., Bässler , C., Brändle , M., Bouget , C., Brin , A., Bussler , H., Georgiev , K.B., Gil , R., Gossner , M.M., Heilmann -Clausen , J., Isacsson , G., Krištín , A., Lachat , T., Larrieu , L., Magnanou , E., Maringer , A., Mergner , U., Mikoláš , M., Opgenoorth , L., Schmidl , J., Svoboda , M., Thorn , S., Vandekerkhove , K., Vrezec , A., Wagner , T., Winter , M.-B., Zapponi , L., Brandl , R., Seibold , S., 2019. Arthropod communities in fungal fruitbodies are weakly structured by climate and biogeography across European beech forests. Diversity and Distributions, 25: 783–796. https://doi.org/10.1111/ddi.12882 - G
áper , J., Pristaš , P., Gáperová , S., Maliničová , L., 2013. Molecular identification of Fomes fomentarius in hosts from urban and suburban areas in Slovakia. Folia Oecologica, 40: 22–27. [cit. 2024-11-06]. http://ife.sk/wp-content/uploads/2016/10/Gaper.pdf - G
áper , J., Gáperová S., 2014. Geografické rozšírenie a hostiteľské preferencie Fomes fomentarius [A worldwide geographical distribution and host preferences of Fomes fomentarius]. In Barta , M., Ferus , P. (eds). Dendrologické dni v Arboréte Mlyňany SAV 2014: Prostredie a vitalita drevín [Dendrological Days in Mlyňany Arboretum SAS 2014: Environment and tree vitality]. Zborník. Vieska and Žitavou: Arborétum Mlyňany, p. 57–63.(In Slovak). - G
áper , J., Murgašová , K., Pristaš , P., Gáperová , S., 2023. Prvý záznam o výskyte trúdnika Fomes fomentarius na smreku v Karpatoch s poznámkami o jeho výskyte na ihličnatých drevinách v Európe. The first record of the tinder polypore, Fomes fomentarius on spruce in the Carpathians with comments on its occurrence on coniferous hosts in Europe. Zprávy Lesnického Výzkumu, 68: 186–190. https://doi.org/10.59269/ZLV/2023/3/704 - G
arrido -Benavent , I., Velasco -Santos , J.M., Pérez -de -Gregorio , M.À., Pasaban , P.M., 2020. Fomes inzengae (Ces. & De Not.) Cooke in the Iberian Peninsula. Butlletí Societat Micológica Valenciana, 24: 151–170. - G
erault , A., 2005. Florule evolutive des Basidiomycotina du Finistere. Homobasidiomycetes. Paris: A. Gerault. 881 p. (In French). - G
holami , M., Amini , J., Abdollahzadeh , J., Ashengroph , M., 2019. Basidiomycetes fungi as biocontrol agents against take-all disease of wheat. Biological Control, 130: 34–43. https://doi.org/10.1016/j.biocontrol.2018.12.012 - H
ebert , P., 2024. Boldsystems, Public Data Portal - Record List [online]. Canada, Guelph. [cit. 2024-05-31]. https://boldsystems.org/index.php/Public_SearchTerms?query=Fomes%20fomentarius - H
eilman -Clausen , J., Bradshaw , R.H.W., Emborg , J., Hannon , G., 2007. The history and present conditions of Suserup Skov: A nemoral, deciduous forest reserve in a cultural landscape. Ecological Bulletins - Sweden, 52: 7–17. - H
olec , J., Kříž , M., Beran , M., Kolařík , M., 2015. Chromosera cyanophylla (Basidiomycota, Agaricales) –a rare fungus of Central European old-growth forests and its habitat preferences in Europe. Nova Hedwigia, 100: 189–204. https://doi.org/10.1127/nova_hedwigia/2014/0217 - I
lić , N., Davidović , S., Milić , M., Rajilić -Stojanović , M., Pecarski , D., Ivančić -Šantek , M., Mihajlovski , K., Dimitrijević -Branković , S., 2021. The agricultural waste utilization for exploration of the extracellular enzyme potential of three novel white-rot Basidiomycetes: Fomes fomentarius TMF2, Schizophyllum commune TMF3 and Bjerkandera adusta TMF1. Research Square, 1: 1–17. https://doi.org/10.21203/rs.3.rs-383866/v1 - IPNI, 2024. International Plant Names Index [online]. Great Britain, Kew. [cit. 2024-07-22]. http://www.ipni.org
- J
aber , S., Mercier , A., Knio , K., Brun , S., Kambris , Z., 2016. Isolation of fungi from dead arthropods and identification of a new mosquito natural pathogen. Parasites and Vectors, 9: 491–498. https://doi.org/10.1186/s13071-016-1763-3 - J
ames , G., Witten , D., Hastie , T., Tibshirani , R., 2013. An introduction to statistical learning: with applications in R. New York: Springer. 426 p. - J
uhásová , G., Ondrušková , E., Adamčíková , K., Kobza , M., 2011. Buk vo verejnej zeleni a pôvodcovia jeho poškodenia [Beech and its pests in urban greenery]. In Barna , M., Kulfan J., Bublinec , E. (eds). Buk a bukové ekosystémy Slovenska. Beech and beech ecosystems of Slovakia. Bratislava: VEDA, vydavateľstvo SAV, p. 513–526. (In Slovak). - J
údová , J., Dubíková , K., Gáperová , S., Gáper , J., Pristaš , P., 2012. The occurrence and rapid discrimination of Fomes fomentarius genotypes by ITS-RFLP analysis. Fungal Biology, 116: 155–160. https://doi.org/10.1016/j.funbio.2011.10.010 - K
irk , P. (ed.), 2024. The CABI Bioscience Database of Fungal Names [online]. Great Britain, Kew [cit. 2024-07-29]. http://www.indexfungorum.org - K
obza , M., Ostrovský , R., Adamčíková , K., Pastirčáková , K., 2022. Stability of trees infected by wood decay fungi estimated by acoustic tomography: a field survey. Trees -Structure and Function, 36: 103–112. https://doi.org/10.1007/s00468-021-02185-w - Krisai-G
reilhuber , I., 2020. Diversity and distribution of fungi in Austria. Let us search for fungi, take pictures, document them and thereby contribute to biodiversity research. In Austrian Citizen Science Conference 2020 - ACSC2020. Vienna, Austria, September 14–16, 2020. Proceedings of Science 2020. Vienna: Österreich Forscht, p. 1–6. - K
risai -Greilhuber , I., Friebes , G. (eds), 2024. Database of Austrian Fungi [online]. Wien, Austria. [cit. 2024-05-31]. https://pilzdaten-austria.eu/#tax/1000056 - L
anger , E., 2018. Aphyllophorales: indicators of nature value and habitat formers. In Blanz , O. (ed). Biodiversity and ecology of fungi, lichens, and mosses. Vienna, Austria: Verlag der Österreichischen Akademie der Wissenschaften, p. 449–457. - L
écuru , Ch ., Courtecuisse , R., Moreau , P.-A., 2019. Nomenclatural novelties. Index Fungorum, 384: 1. - L
ygis , V., Vasiliauskas , R., Stenlid , J., 2004. Planting Betula pendula on pine sites infested by Heterobasidion annosum: disease transfer, silvicultural evaluation, and community of wood-inhabiting fungi. Canadian Journal of Forest Research, 34: 120–130. https://doi.org/10.1139/x03-202 - M
archica , A., Pellegrini , E., Remorini , D., Massai , R., Lorenzini , G., Nali , C., Bernardi , R., 2017. Age matters: the struggle for life of a monumental tree. Agrochimica, 61: 110–122. https://dx.doi.org/10.12871/00021857201722 - Mihál, I., Bučinová, K., Pavlíková, J., 2009. Mycoflora of beech forests in the Kremnické vrchy Mts (Central Slovakia). Folia Oecologica, 36: 23–31. [cit. 2024-09-14]. http://ife.sk/wp-content/uploads/2016/10/
- M
ihál , I., Cicák , A., Bučinová , K., 2011. Spoločenstvá a funkcie húb v bukových porastoch [Fungal communities and their roles in beech stands]. In Barna , M., Kulfan J., Bublinec , E. (eds). Buk a bukové ekosystémy Slovenska. Beech and beech ecosystems of Slovakia. Bratislava: VEDA, vydavateľstvo SAV, p. 329–350. (In Slovak). - M
ouhamadou , B., Molitor , C., Baptist , F., Sage , L., Clément , J.Ch., Lavorel , S., Monier , A., Geremia , R.A., 2011. Differences in fungal communities associated to Festuca paniculata roots in subalpine grasslands. Fungal Diversity, 47: 55–63. https://doi.org/10.1007/s13225-011-0091-3 - M
ukhin , V.A., Zhuykova , E.V., Badalyan , S.M., 2018. Genetic variability of the medicinal tinder bracket poly-pore, Fomes fomentarius (Agaricomycetes), from the Asian part of Russia. International Journal of Medicinal Mushrooms, 20: 561–568. https://doi.org/10.1615/InJMedMushrooms.2018026278 - O
górek , R., 2018. Fungal communities on rock surfaces in Demänovská Ice Cave and Demänovská Cave of Liberty (Slovakia). Geomicrobiology Journal, 35: 266–276. https://doi.org/10.1080/01490451.2017.1348409 - P
eintner , U., Kuhnert -Finkernagel , R., Wille , V., Biasoli , F., Shiryaev , A., Perini , C., 2019. How to resolve cryptic species of polypores: an example of Fomes. IMA Fungus, 10: 17. https://doi.org/10.1186/s43008-019-0016-4 - P
érez -Izguierdo , L., Morin , E., Maurice , J.P., Martin , F., Rincón , A., Beée , 2017. A new promising phylogenetic marker to study the diversity of fungal communities: The Glycoside Hydrolase 63 gene. Molecular Ecology Resources, 17: e1–e11. https://doi.org/10.1111/1755-0998.12678 - P
ilotti , M., Gervasi , F., Brunetti , A., 2005. Molecular identification of Fomitiporia mediterranea and Eutypa lata/Libertella blepharis in Platanus × acerifolia. Journal of Phytopathology, 153: 193–202. https://doi.org/10.1111/j.1439-0434.2005.00950.x - P
irronitto , S., Teng , F., Chandelier , A., 2022. Le dépérissement du hêtre en Ardenne : résultat d’une étude menée de 2019 à 2022 [Beech dieback in the Ardennes: results of a study carried out from 2019 to 2022]. Forêt.Nature, 164: 35–42. (In French). - P
irronitto , S., Teng , F., Verheyen , C., Gaucet , V., Henin , J.-M., Jourez , B., Schmitz , S., Chandelier , A., 2024. Characterization of Fomes fomentarius s.s. and F. inzengae in Belgian beech forests. Forests, 15: 221. https://doi.org/10.3390/f15020221 - P
ovilaitienė , A, Gedminas , A., Varnagirytė -Kabašinskienė , I., Marčiulynienė , D., Marčiulynas , A., Lynikienė , J., Mishcherikova , V., Menkis , A., 2022. Changes in chemical properties and fungal communities of mineral soil after clear-cutting and reforestation of Scots pine (Pinus sylvestris L.) sites. Forests, 13: 1780. https://doi.org/10.3390/f13111780 - R
einprecht , L., Repák , M., Iždinský , J., Vidholdová , Z., 2022. Decay resistance of nano-zinc oxide, and PEG 6000, and thermally modified wood. Forests, 13: 731. https://doi.org/10.3390/f13050731 - S
abor , M., 2020. Ein Citizen Science Projekt der Österreichischen Mykologischen Gesellschaft [A citizen science project of the Austrian Mycological Society]. In Austrian Citizen Science Conference 2020 - ACSC2020. Vienna, Austria, September 14–16, 2020. Proceedings of Science 2020. Vienna: Österreich Forscht, p. 1–22. (In German). - S
chmidt , O., Gaiser , O., Dujesiefken , D., 2012. Molecular identification of decay fungi in the wood of urban trees. European Journal of Forest Research, 131: 885–891. https://doi.org/10.1007/s10342-011-0562-9 - S
mith , G.R., Finlay , R.D., Stenlid , J., Vasaitis , R., Menkis , A., 2017. Growing evidence for facultative biotrophy in saprotrophic fungi: data from microcosm tests with 201 species of wood-decay basidiomycetes. New Phytologist, 215: 747–755. https://doi.org/10.1111nph.14551 - S
ocietà Crittogamologica Italiana , 1861. Erbario Crittogamico Italiano, 13: 601–650. - T
herneau , T., Atkinson , B., 2019. rpart: Recursive Partitioning and Regression Trees. R package version 4.1-15 [online]. [cit. 2024-10-02]. https://CRAN.R-project.org/package=rpart - T
omšovský , M., Kaeochulsri , S., Kudláček , T., Dálya , L.B., 2023. Ecological, morphological and phylogenetic survey of Fomes fomentarius and F. inzengae (Agaricomycetes, Polyporaceae) co-occurring in the same geographic area in Central Europe. Mycological Progress, 22: 79. https://doi.org/10.1007/s11557-023-01928-y - T
rovão , J., Mesquita , N., Paiva , D.S., Paiva de Carvalho , H., Avelar , L., Portugal , A., 2013. Can arthropods act as vectors of fungal dispersion in heritage collections? A case study on the archive of the University of Coimbra, Portugal. International Biodeterioration and Biodegradation, 79: 49–55. https://doi.org/10.1016/j.ibiod.2012.10.015 - V
elasco , J.M., Mateos , F.J., Hernández , E., Marcos , J., Gómez , J.I., Fernández , L.A., 2023. Nuevas aportaciones corológicas de macromicetos para Salamanca (IMSA-2) [New chorological contributions of macromycetes to Salamanca (IMSA-2)]. Setas de Salamanca, 1: 5–58. (In Spanish). - V
olkenant , K., 2007. Entwicklung von Pilzgesellschaften im Verlauf des Holzzerfalls von Fagus sylvatica im Nationalpark Kellerwald-Edersee [Development of fungal communities during the progress of Fagus sylvatica wood decay in the Kellerwald-Edersee National Park]. Berichte des Forschungszentrums Waldökosysteme, 199: 1–161.(In German). - W
yszkowska , J., Borowik , A., Kucharski , J., 2022. The role of grass compost and Zea mays in alleviating toxic effects of tetracycline on the soil bacteria community. International Journal of Environmental Research and Public Health, 19: 7357. https://doi.org/10.3390/ijerph19127357 - Z
huykova , E.V., Mukhin , V.A., 2022. Diversity and ecological features of phylogenetic lineages of tinder fungus in the Urals. Russian Journal of Ecology, 53: 366–372. https://doi.org/10.1134/S1067413622050113 - Z
úbrik , M., Kunca , A., Novotný , J., 2008. Hmyz a huby: Atlas poškodení lesných drevín [Insects and fungi: Atlas of damage to woody plants]. Zvolen: Národné lesnícke centrum –Lesnícky výskumný ústav. 178 p. (In Slovak).