The genus  Trichaptum  in North Asia

V. A. Mukhin; Мухин В. А.; H. Knudsen; Кнудсен Х.; P. Corfixen; Корфиксен П.; E. V. Zhuykova; Жуйкова Е. В.; I. O. Nepryakhin; Непряхин И. О.; D. K. Diyarova; Диярова Д. К.

doi:10.31857/S0026364823040074

The genus Trichaptum in North Asia

Authors: Mukhin V.A.¹^,2, Knudsen H.³, Corfixen P.³, Zhuykova E.V.¹, Nepryakhin I.O.¹, Diyarova D.K.¹
Affiliations:
1. Institute of Plant and Animal Ecology of the Ural Branch of the Russian Academy of Sciences
2. Ural Federal University
3. Botanical Museum
Issue: Vol 57, No 4 (2023)
Pages: 255-266
Section: БИОРАЗНООБРАЗИЕ, СИСТЕМАТИКА, ЭКОЛОГИЯ
URL: https://journals.rcsi.science/0026-3648/article/view/138084
DOI: https://doi.org/10.31857/S0026364823040074
EDN: https://elibrary.ru/VUZLDI
ID: 138084

Cite item

Full Text

Open Access
Restricted Access

Access granted
Restricted Access

Subscription Access

Abstract
About the authors
References
Supplementary files
Statistics

Abstract

It is shown that in North Asia (Urals, Siberia, Far East) the genus Trichaptum is represented by four widespread sympatric species (Trichaptum abietinum, T. biforme, T. fuscoviolaceum, T. laricinum) and T. quercinum found in the Far East. The geographic range of T. fuscoviolaceum, T. abietinum, T. biforme cover the whole of North Asia, whereas T. laricinum is absent in the Far East. The revealed sympatric nature of species is based on their predominant use of wood various coniferous (T. fuscoviolaceum, T. abietinum, T. laricinum) and deciduous (T. biforme) tree species. The widest trophic niche is in T. fuscoviolaceum and it overlaps by 70–80% with the niches of T. abietinum, T. laricinum. The narrowest trophic niche that does not overlap with other species of the genus is in T. biforme. The trophic spectra and preferences of all species in North Asia are close to those in Europe, and it shows stability and species specificity of these ecological characteristics. Phylogenetically, T. abietinum and T. fuscoviolaceum are the closest in ITS and LSU rDNA regions, while T. biforme and T. laricinum are strongly and equally distant from each other and from T. abietinum and T. fuscoviolaceum. During ITS and LSU clustering, the sequences are grouped in full accordance with the hymenophore structure of the fungi from which they were isolated; the same groups also include sequences of the corresponding fungi from Europe, China, and North America. This shows that in T. fuscoviolaceum, T. abietinum, T. biforme, T. laricinum, the structure of the hymenophore is a good diagnostic species character, and also that their North Asian populations do not show significant differences from European and North American populations. A database on diversity, distribution, ecology of fungi of the genus Trichaptum in North Asia has been uploaded to GBIF for public access.

Keywords

Basidiomycota, biodiversity, distribution, ecology

References

Barsukova T.N. Xylotrophic basidiomycetes of the Altai State Reserve. Mikologiya i fitopatologiya. 1998. V. 32 (5). P. 11–17 (in Russ.).
Barsukova T.N. Addition to the flora of xylotrophic basidiomycetes of the Altai State Reserve. Mikologiya i fitopatologiya. 1999. V. 33 (5). P. 319–321 (in Russ.).
Bolshakov S.Yu., Volobuev S.V., Ezhov O.N. et al. Aphyllophoroid fungi of the European part of Russia: an annotated list of species. S.Yu. Bolshakov, S.V. Volobuev (eds.). SPbETU “LETI”, SPb., 2022 (in Russ.).
Bondartsev A.S. Polypore fungi of the European part of the USSR and the Caucasus. Publishing House of the Academy of Sciences of the USSR, Moscow, Leningrad, 1953 (in Russ.).
Bondartseva M.A. Definitorium fungorum Rossiae. Ordo Aphyllophorales. Fasc. 2. Familiae Albatrellaceae, Aporpiaceae, Boletopsidaceae, Bondarzewiaceae, Corticiaceae (genera tubuliferae), Fistulinaceae, Ganodermataceae, Lachnocladiaceae (genus tubiliferus), Phaeolaceae, Polyporaceae (genera tubuliferae), Poriaceae, Rigidoporaceae. Nauka, SPb., 1998 (in Russ.).
Bondartseva M.A. To the flora of tinder fungi of Siberia. 1. Tinder fungi of Altai. Novosti sistematiki nizshikh rasteniy. 1973. V. 10. P. 127–133 (in Russ.).
Bondartseva M.A. To the flora of tinder fungi of Siberia. 2. Tinder fungi of the Irkutsk region. Novosti sistematiki nizshikh rasteniy. 1975. V. 12. P. 192–196 (in Russ.).
Bondartseva M.A., Uranchimeg G. Aphyllophoroid fungi of the Khentei region of Mongolia. Novosti sistematiki nizshikh rasteniy. 1993. V. 29. P. 41–44 (in Russ.).
Burnett J.H. Speciation in fungi. Trans. Brit. Mycol. Soc. 1983. V. 81 (1). P. 1–14.
Chelysheva L.P. The most important wood-decaying fungi in the drying spruce forests of Northern Sikhote-Alin. Trudy Dalnevostochnogo nauchno-issledovatelskogo instituta lesnogo khozyaystva. 1965. № 7. P. 345–355 (in Russ.).
Dai Y.C. Changbai wood-rotting fungi. 7.A checklist of the polypores. Fung. Sci. 1996. V. 11 (3, 4). P. 79–105.
Farr D.F., Bills G.F., Chamuris G.P. et al. Fungi on plants and plant products in the United States. St. Paul, Minnesota, The American Phytopathological Society (APS) Press, 1989.
Gardes M., Bruns T.D. ITS primers with enhanced specificity for basidiomycetes – application to the identification of mycorrhizae and rusts. Molecular Ecology. 1993. V. 2 (2). P. 113–118. https://doi.org/10.1111/j.1365-294X.1993.tb00005.x
Gilbertson R.L., Ryvarden L. North American Polypores, vol. 2: Megaspoporia–Wrightoporia. Oslo, Fungiflora A/S, 1987.
Hansen L., Knudsen H. Nordic macromycetes. Vol. 3. Heterobasidiod, aphyllophoroid and gastromycetoid basidiomycetes. Copenhagen, Nordsvamp, 1997.
Index Fungorum. CABI Bioscience, 2023. http://www.indexfungorum.org. Accessed 23.03.2023.
Jülich W. Kleine Kryptogamenflora. Band IIb/1. Basidiomyceten 1. Teil. Die Nichtblätterpilze, Gallertpilze und Bauchpilze. Jena, VEB Gustav Fisher Verlag, 1984.
Kauserud H., Schumacher T. Ribosomal DNA variation, recombination and inheritance in the basidiomycete Trichaptum abietinum: implications for reticulate evolution. Heredity (Edinb). 2003. V. 91 (2). P. 163–172.
Kimura M. A simple method for estimating evolutionary rate of base substitutions through comparative studies of nucleotide sequences. Journal of Molecular Evolution. 1980. V. 16. P. 111–120.
Ko K.S., Hong S.G., Jung H.S. Phylogenetic analysis of Trichaptum based on nuclear 18S, 5.8S and ITS ribosomal DNA sequences. Mycologia. 1997. V. 89 (5). P. 727–734. https://doi.org/10.2307/3761129
Kolesnikov B.P., Lyubarsky L.V. Wood-decaying fungi of the Eastern slopes of the middle Sikhote-Alin. Trudy Sikhote-Alinskogo gosudarstvennogo zapovednika. 1963. № 3. P. 59–70 (in Russ.).
Kotiranta H., Shiryaev A.G., Spirin V. Aphyllophoroid fungi (Basidiomycota) of Tuva Republic, southern Siberia, Russia. Folia Cryptog. Estonica. 2016. Fasc. 53. P. 51–64. https://doi.org/10.12697/fce.2016.53.07
Kumar S., Stecher G., Tamura K. MEGA7: Molecular evolutionary genetics analysis version 7.0 for bigger datasets. Molec. Biol. Evol. 2016. V. 33 (7). P. 1870–1874. https://doi.org/10.1093/molbev/msw054
Levins R. Evolution in changing environments. Princeton Univ. Press, Princeton, 1968.
MacArthur R.H. Geographical ecology: Patterns in the distribution of Species. New York, Harper and Row, 1972.
Mikhaleva L.G. Preliminary materials for the study of wood-decaying aphyllophoroid fungi in Yakutia. Mikologiya i fitopatologiya. 1993. V. 27 (5). P. 16–25 (in Russ.).
Mukhin V., Nepriakhin I. The genus Trichaptum in the Asian part of Russia. Occurrence dataset accessed via GBIF.org on 2022-08-17. https://doi.org/10.15468/g9uf65
Mukhin V.A. Biota of xylotrophic basidiomycetes of the West Siberian Plain. Ural publishing company “Nauka”, Ekaterinburg, 1993 (in Russ.).
Mukhin V.A., Kotiranta H. Wood-decaying fungi of northernmost forests in river Khatanga basin. Mikologiya i fitopatologiya. 2001. V. 35 (5). P. 41–47.
Mukhin V.A., Ushakova N.V. Geoelemental composition of xylotrophic polypore fungi in Central Yakutia. In: Flora and vegetation of the cryolithozone. Part 1. Flora of permafrost: Materials of scientific and practical conference. Yakutsk, 2003, pp. 90–105 (in Russ.).
Nei M., Kumar S. Molecular evolution and phylogenetics. Oxford University Press, N.Y., 2000.
Nilsson R.H., Kristiansson E., Ryberg M. et al. Intraspecific ITS variability in the kingdom Fungi as expressed in the international sequence databases and its implications for molecular species identification. Evolutionary Bioinformatics. 2008. V. 4. P. 193–201.
Nizovtsev V.A., Marchenko N.A., Prokhorov B.B. Physical-geographical natural zoning. Great Russian Encyclopedia: site [Electronic resource]. 2004–2017. www.old.bigenc.ru/geography/text/11315 Accessed 18.04.2023 (in Russ.).
Parmasto E. Studies on Yakutian fungi. III. Izvestiya Akademii nauk Estonskoy SSR. 1977. P. 15–28.
Parmasto E., Parmasto I. Variation of basidiospores in the Hymenomycetes and its significance to their taxonomy. Bibi. Mycol. 1987. V. 115. P. 1–168.
Pianka E.R. The structure of lizard communities. Ann. Rev. Ecol. Syst. 1973. V. 4. P. 53–74.
Porter T.M., Golding G. Factors that affect large subunit ribosomal DNA amplicon sequencing studies of fungal communities: Classification method, primer choice, and error. PlOS One. 2012. 7 (4). e35749. https://doi.org/10.1371/journal.pone.0035749
Rozas J., Ferrer-Mata A., Sánchez-Del Barrio J.C. et al. DnaSP 6: DNA Sequence polymorphism analysis of large datasets. Mol. Biol. Evol. 2017. V. 34 (12). P. 3299–3302. https://doi.org/10.1093/molbev/msx248
Ryvarden L., Gilbertson R.L. European polypores. V. 7. Pt 2: Meruliopsis – Tyromyces. Fungiflora, Oslo, 1994.
Sazanova N.A. Macromycetes of the Magadan region. North-Eastern Scientific Center FEB RAS, Magadan, 2009 (in Russ.).
Seierstad K.S., Fossdal R., Miettinen O. et al. Contrasting genetic structuring in the closely related basidiomycetes Trichaptum abietinum and Trichaptum fuscoviolaceum (Hymenochaetales). Fungal Biol. V. 125 (4). 2021. P. 269–275. https://doi.org/10.1016/j.funbio.2020.11.001
Tolmachev A.I. Introduction to plant geography. Publishing house of LSU, Leningrad, 1974 (in Russ.).
Vandermeer J.H. Niche theory. Ann. Rev. Ecol. Syst. 1972. V. 3. P. 107–132.
Vasák J., Vlasák J.Jr. Trichaptum (Basidiomycota) in tropical America: a sequence study. Mycosphere. 2017. V. 8 (6). P. 1217–1227. https://doi.org/10.5943/MYCOSPHERE/8/6/8
Vasilyeva L.N., Nazarova M.M. Fungi of the station “Snow Valley”. In: Components of biogeocoenoses of tundra-forests of the Northern Sea of Okhotsk. Vladivostok, DVNTs AN SSSR, 1977. P. 57–61 (in Russ.).
Vladykina V.D., Mukhin V.A., Badalyan S.M. Daedaleopsis genus in Siberia and the Far East of Russia. In: III Russian National Conference “Information Technology in Biodiversity Research”, vol. 2: Proceedings. Ekaterinburg, 2020. P. 17–26.
Барсукова Т.Н. (Barsukova) Ксилотрофные базидиомицеты Алтайского государственного заповедника // Микология и фитопатология. 1998. Т. 32. № 5. С. 11–17.
Барсукова Т.Н. (Barsukova) Дополнение к флоре ксилотрофных базидиомицетов Алтайского государственного заповедника // Микология и фитопатология. 1999. Т. 33. № 5. С. 319–321.
Большаков С.Ю., Волобуев С.В., Ежов О.Н. и др. (Bolshakov et al.) Афиллофороидные грибы европейской части России: аннотированный список видов. С.Ю. Большаков, С.В. Волобуев (отв. ред.) СПб.: Изд-во СПбЭТУ “ЛЭТИ”, 2022. 578 с.
Бондарцев А.С. (Bondartsev) Трутовые грибы европейской части СССР и Кавказа. М.; Л., Изд-во АН СССР, 1953. 1106 с.
Бондарцева М.А. (Bondartseva) К флоре трутовых грибов Сибири. 1. Трутовики Алтая // Новости систематики низших растений. 1973. Т. 10. С. 127–133.
Бондарцева М.А. (Bondartseva) К флоре трутовых грибов Сибири. 2. Трутовики Иркутской области // Новости систематики низших растений. 1975. С. 192–196.
Бондарцева М.А. (Bondartseva) Определитель грибов России. Порядок Афиллофоровые. Вып. 2. СПб.: Наука, 1998. 391 с.
Бондарцева М.А., Уранчимэг Г. (Bondartseva, Uranchimeg) Афиллофоровые грибы Хэнтэйского района Монголии // Новости систематики низших растений. 1993. Т. 29. С. 41–44.
Васильева Л.Н., Назарова М.М. (Vasilyeva, Nazarova) Грибы стационара “Снежная долина”. Компоненты биогеоценозов тундролесий Северного Охотоморья. Владивосток: ДВНЦ АН СССР, 1977. С. 57–61.
Колесников Б.П., Любарский Л.В. (Kolesnikov, Lyubarsky) Дереворазрушающие грибы Восточных склонов среднего Сихотэ-Алиня // Тр. Сихотэ-Алинского гос. заповедника. 1963. Вып. 3. С. 59–70.
Михалева Л.Г. (Mikhaleva) Предварительные материалы к изучению дереворазрушающих аффилофоровых грибов Якутии // Микология и фитопатология. 1993. Т. 27. № 5. С. 16–25.
Мухин В.А. (Mukhin) Биота ксилотрофных базидиомицетов Западно-Сибирской равнины. Екатеринбург: УИФ “Наука”, 1993. 231 с.
Мухин В.А., Ушакова Н.В. (Mukhin, Ushakova) Геоэлементный состав ксилотрофных трутовых грибов центральной Якутии. Флора и растительность криолитозоны. Ч. 1. Флора криолитозоны: Мат-лы научно-практической конф. Якутск, ЯФ ГУ “Изд-во СО РАН”, 2003. С. 90–105.
Низовцев В.А., Марченко Н.А., Прохоров Б.Б. (Nizovtsev et al.) Физико-географическое (природное) районирование. Большая Российская энциклопедия: сайт [Электронный ресурс]. 2004–2017. www.old.bigenc.ru/geography/text/11315. Просмотрено 18.04.2023.
Сазанова Н.А. (Sazanova) Макромицеты Магаданской области. Магадан: СВНЦ ДВО РАН, 2009. 197 с.
Толмачев А.И. (Tolmachev) Введение в географию растений. Л., Изд-во ЛГУ, 1974. 124 с.
Челышева Л.П. (Chelysheva) Важнейшие дереворазрушающие грибы в усыхающих ельниках Северного Сихотэ-Алиня // Тр. ДальНИИЛХ. 1965. Вып. 7. С. 345–355.