A review on the diversity, phylogeography and population genetics of <i>Amanita</i> mushrooms

Ping Zhang; Li-Ping Tang; Qing Cai; Jian-Ping Xu

doi:10.1080/21501203.2015.1042536

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Review | Open Access

A review on the diversity, phylogeography and population genetics of Amanita mushrooms

Ping Zhang^{^a}(

), Li-Ping Tang^{^b}, Qing Cai^{^c}, Jian-Ping Xu^{^d}

College of Life Science, Hunan Normal University, Changsha 410081, China

School of Pharmaceutical Sciences and Yunnan Key Laboratory of Pharmacology for Natural Products, Kunming Medical University, Kunming 650500, China

Key Laboratory for Plant Diversity and Biogeography of East Asia, Kunming Institute of Botany, Chinese Academy of Sciences, Kunming 650201, China

Department of Biology, McMaster University, Hamilton, ON L8S 4K1, Canada

Show Author Information

Abstract

Amanita mushrooms are important for both human beings and ecosystems. Some members in this genus are valued edible species, whereas some others are extremely poisonous, and most species are ectomycorrhizal. Significant progress has been made in recent years in our understanding of the diversity, phylogeography and population genetics of Amanita mushrooms. A significant reason for the progress was due to the increasing application of molecular methods in the analyses. In this review, we summarize the researches in the diversity, phylogeography and population genetics of Amanita mushrooms, with the focus on advances over the past 20 years. We also discussed future research directions, including several unresolved topical issues.

Keywords

phylogeny molecular markers ectomycorrhizal fungi Amanita

References

Bas C. 1975. A comparison of Torrendia (Gasteromycetes) with Amanita (Agaricales). Beih Nov Hedwig. 51: 53–61.

Google Scholar

Bas C. 1978. Studies in Amanita-I. Some species from Amazonia. Persoonia. 10: 1–22.

Google Scholar

Bas C. 2000. A broader view on Amanita. Bollettino del Gruppo Micologico g Bresadola. 43: 9–12.

Google Scholar

Bas C, de Meijer AAR. 1993. Amanita grallipes, a new species in Amanita subsection Vittadiniae from southern Brazil. Persoonia. 15: 345–350.

Google Scholar

Bhatt RP, Tulloss RE, Semwal KC, Bhatt VK, Moncalvo JM, Stephenson SL. 2003. Amanitaceae from India. A critically annotated checklist. Mycotaxon. 88: 249–270.

Google Scholar

Bonello P, Bruns TD, Gardes M. 1998. Genetic structure of a natural population of the ectomycorrhizal fungus Suillus pungens. New Phytol. 138: 533–542. doi: 10.1046/j.1469-8137.1998.00122.x

Crossref Google Scholar

Cai Q, Tulloss RE, Tang LP, Tolgor B, Zhang P, Chen ZH, Yang ZL. 2014. Multi-locus phylogeny of lethal amanitas: implications for species diversity and historical biogeography. BMC Evol Biol. 14: 143–158.

Crossref Google Scholar

Coker WC. 1917. The Amanitas of the eastern United States. J Elisha Mitchell Sci Soc. 33: 1–88.

Google Scholar

Dahlberg A. 2001. Community ecology of ectomycorrhizal fungi: an advancing interdisciplinary field. New Phytol. 150: 555–562. doi: 10.1046/j.1469-8137.2001.00142.x

Crossref Google Scholar

Deng W-Q, Li T-H, Li P, Yang ZL. 2014. A new species of Amanita section Lepidella from South China. Mycol Prog. 13: 211–217. doi: 10.1007/s11557-013-0906-6

Crossref Google Scholar

Drehmel D, Moncalvo JM, Vilgalys R. 1999. Molecular phylogeny of Amanita based on large-subunit ribosomal DNA sequences: implications for taxonomy and character evolution. Mycologia. 91: 610–618.

Crossref Google Scholar

Dunstan WA, Dell B, Malajczuk N. 1998. The diversity of ectomycorrhizal fungi associated with introduced Pinus spp. in the southern hemisphere, with particular reference to western Australia. Mycorrhiza. 8: 71–79. doi: 10.1007/s005720050215

Crossref Google Scholar

Eicker A, Van Greuning J, Reid D. 1993. Amanita reidii: a new species from South Africa. Mycotaxon. 47: 433–437.

Google Scholar

Fries EM. 1821. Systema mycologicum I. Gryphiswaldiae: Ernesti Mauritii.

Fries EM. 1838. Epicrisis Systematis Mycologici. Uppsala (Sweden): Typographia Academica.

Garrido N, Bresinsky A. 1985. Amanita merxmuelleri (Agaricales), eine neue art aus Nothofagus-Wäldern Chiles. Bot Jahrb Syst. 107:521–540.

Google Scholar

Geml J, Laursen GA, O’neill K, Nusbaum HC, Taylor D. 2006. Beringian origins and cryptic speciation events in the fly agaric (Amanita muscaria). Mol Ecol. 15:225–239. doi:10.1111/j.1365-294X.2005.02799.x

Crossref Google Scholar

Geml J, Tulloss RE, Laursen GA, Sazanova NA, Taylor DL. 2008. Evidence for strong inter- and intracontinental phylogeographic structure in Amanita muscaria, a wind-dispersed ectomycorrhizal basidiomycete. Mol Phylogenet Evol. 48:694–701. doi:10.1016/j.ympev.2008.04.029

Crossref Google Scholar

Gilbert EJ. 1941. Amanitaceae. Iconographia Mycologica. 27:201–427.

Google Scholar

Harkness HW, Moore JP. 1880. Catalogue of the Pacific Coast Fungi. San Francisco (CA): California Academy of Sciences.

Crossref

Hibbett DS. 2007. After the gold rush, or before the flood? Evolutionary morphology of mushroom-forming fungi (Agaricomycetes) in the early 21st century. Mycol Res. 111:1001–1018. doi:10.1016/j.mycres.2007.01.012

Crossref Google Scholar

Imazeki R, Hongo T. 1987. Colored illustrations of mushrooms of Japan. Vol. 1. Osaka: Hoikusha.

Google Scholar

Jenkins DT. 1986. Amanita of North America. Eureca (CA): Mad River Press.

Junghans DT, Gomes EA, Guimarães WV, Barros EG, Araújo EF. 1998. Genetic diversity of the ectomycorrhizal fungus Pisolithus tinctorius based on RAPD-PCR analysis. Mycorrhiza. 7:243–248. doi:10.1007/s005720050187

Crossref Google Scholar

Justo A, Morgenstern I, Hallen-Adams HE, Hibbett DS. 2010. Convergent evolution of sequestrate forms in Amanita under Mediterranean climate conditions. Mycologia. 102:675–688. doi:10.3852/09-191

Crossref Google Scholar

Li D-W. 2005. Release and dispersal of basidiospores from Amanita muscaria var. alba and their infiltration into a residence. Mycol Res. 109:1235–1242. doi:10.1017/S0953756205003953

Crossref Google Scholar

Li F, Cai Q. 2014. Amanita heishidingensis, a new species of Amanita sect. Lepidella from China. Mycol Prog. 13:1191–1197. doi:10.1007/s11557-014-1008-9

Crossref Google Scholar

Liang Y, Guo L-D, Ma K-P. 2005. Population genetic structure of an ectomycorrhizal fungus Amanita manginiana in a subtropical forest over two years. Mycorrhiza. 15:137–142. doi:10.1007/s00572-004-0311-8

Crossref Google Scholar

Lin C-P, Huang J-P, Wu C-S, Hsu C-Y, Chaw S-M. 2010. Comparative chloroplast genomics reveals the evolution of Pinaceae genera and subfamilies. Genome Biol Evol. 2:504–517. doi:10.1093/gbe/evq036

Crossref Google Scholar

Malencon G. 1955. Le dévelopement de Torrendia pulchella Bres. et son importance morphogénétique. Rev Mycol. 20:81–130.

Google Scholar

Manos PS, Stanford AM. 2001. The historical biogeography of Fagaceae: tracking the tertiary history of temperate and subtropical forests of the Northern Hemisphere. Int J Plant Sci. 162:77–93. doi:10.1086/323280

Crossref Google Scholar

Moncalvo J-M, Vilgalys R, Redhead SA, Johnson JE, James TY, Aime MC, Hofstetter V, Verduin SJW, Larsson E, Baroni TJ, et al. 2002. One hundred seventeen clades of euagarics. Mol Phylogenet Evol. 23:357–400. doi:10.1016/S1055-7903(02)00027-1

Crossref Google Scholar

Moser M. 1983. Keys to agarics and boleti (polyporales, boletales, agaricales, russulales). London: Roger Phillips.

Nagasawa E, Hongo T. 1985. Some agarics from the San-in district, Japan. Memoirs of National Science Museum, Tokyo. 18:73–88.

Google Scholar

Nagasawa E, Mitani S. 2000. A new species of Amanita section Lepidella from Japan. Memoirs of the National Science Museum, Tokyo. 32:93–97.

Google Scholar

Neville P, Poumarat S. 2004. Amaniteae: Amanita, Limacella & Torrendia. Fungi Europaei Vol. 9. Alssio: Edizioni Candusso.

Google Scholar

Oda T, Tanaka C, Tsuda M. 1999. Molecular phylogeny of Japanese Amanita species based on nucleotide sequences of the internal transcribed spacer region of nuclear ribosomal DNA. Mycoscience. 40:57–64. doi:10.1007/BF02465674

Crossref Google Scholar

Oda T, Tanaka C, Tsuda M. 2001. Amanita imazekii-a new species in Amanita section Caesareae. Mycologia. 93:1231–1234.

Crossref Google Scholar

Oda T, Tanaka C, Tsuda M. 2002a. Two new species of Amanita from Japan. Mycoscience. 43:351–355. doi:10.1007/S102670200051

Crossref Google Scholar

Oda T, Tanaka C, Tsuda M. 2002b. Amanita concentrica: a new species in Amanita section Amanita from Japan. Mycoscience. 43:81–83. doi:10.1007/s102670200013

Crossref Google Scholar

Oda T, Tanaka C, Tsuda M. 2004. Molecular phylogeny and biogeography of the widely distributed Amanita species, A. muscaria and A. pant henna. Mycol Res. 108:885–896. doi:10.1017/S0953756204000620

Crossref Google Scholar

Oda T, Yamazaki T, Tanaka C, Terashita T, Taniguchi N, Tsuda M. 2002c. Amanita ibotengutake sp. nov., a poisonous fungus from Japan. Mycol Prog. 1:355–365. doi:10.1007/s11557-006-0032-9

Crossref Google Scholar

Persoon CH. 1801. Synopsis methodica fungorum. Gottingae: H Dieterich.

Petersen RH, Halling RE. 1993. Mating systems in the Xerulaceae: Oudemansiella. Trans Mycol Soc Jpn. 34:409–422.

Google Scholar

Petersen RH, Hughes KW, Redhead SA, Psurtseva N, Methven AS. 1999. Mating systems in the Xerulaceae (Agaricales, Basidiomycotina): Flammulina. Mycoscience. 40:411–426. doi:10.1007/BF02464396

Crossref Google Scholar

Pringle A, Adams RI, Cross HB, Bruns TD. 2009. The ectomycorrhizal fungus Amanita phalloides was introduced and is expanding its range on the west coast of North America. Mol Ecol. 18:817–833. doi:10.1111/j.1365-294X.2008.04030.x

Crossref Google Scholar

Pringle A, Vellinga EC. 2006. Last chance to know? using literature to explore the biogeography and invasion biology of the death cap mushroom Amanita phalloides (Vaill. Ex fr.: Fr.) link. Biol Invasions. 8:1131–1144. doi:10.1007/s10530-005-3804-2

Crossref Google Scholar

Redecker D, Szaro TM, Bowman RJ, Bruns TD. 2001. Small genets of Lactarius xanthogalactus, Russula cremoricolor and Amanita francheti in late-stage ectomycorrhizal successions. Mol Ecol. 10:1025–1034. doi:10.1046/j.1365-294X.2001.01230.x

Crossref Google Scholar

Reid DA, Eicker A. 1991. South African fungi: the genus Amanita. Mycol Res. 95:80–95. doi:10.1016/S0953-7562(09)81364-6

Crossref Google Scholar

Sánchez-Ramírez S, Tulloss RE, Amalfi M, Moncalvo J-M. 2015. Palaeotropical origins, boreotropical distribution and increased rates of diversiﬁcation in a clade of edible ectomycorrhizal mushrooms (Amanita section Caesareae). J Biogeogr. 42:351–363. doi:10.1111/jbi.12402

Crossref Google Scholar

Sawyer NA, Chambers SM, Cairney JWG. 1999. Molecular investigation of genet distribution and genetic variation of Cortinarius rotundisporus in eastern Australian sclerophyll forests. New Phytol. 142:561–568. doi:10.1046/j.1469-8137.1999.00417.x

Crossref Google Scholar

Sawyer NA, Chambers SM, Cairney JWG. 2001. Distribution and persistence of Amanita muscaria genotypes in Australian Pinus radiata plantations. Mycol Res. 105:966–970. doi:10.1017/S0953756201004488

Crossref Google Scholar

Sawyer NA, Chambers SM, Cairney JWG. 2003. Distribution of Amanita spp. genotypes under eastern Australian sclerophyll vegetation. Mycol Res. 107:1157–1162. doi:10.1017/S0953756203008426

Crossref Google Scholar

Schweinitz LD. 1834. Synopsis fungorum in America boreali. Trans Am Philosophical Soc. 4:141–316.

Crossref Google Scholar

Simmons C, Henkel T, Bas C. 2002. The genus Amanita in the Pakaraima mountains of Guyana. Persoonia. 17:563–582.

Google Scholar

Taylor T. 1897. Student’s hand-book of mushrooms of America Edible and Poisonous. Washington, DC: A.R. Taylor.

Crossref

Timonen S, Tammi H, Sen R. 1997. Outcome of interactions between genets of two Suillus spp. and different Pinus sylvestris genotype combinations: identity and distribution of ectomycorrhizas and effects on early seedling growth in N-limited nursery soil. New Phytol. 137:691–702. doi:10.1046/j.1469-8137.1997.00871.x

Crossref Google Scholar

Tulloss RE. 2005. Amanita–distribution in the Americas, with comparison to eastern and southern Asia and notes on spore character variation with latitude and ecology. Mycotaxon. 93:189–231.

Google Scholar

Tulloss RE, Bhatt R, Stephenson S, Kumar A. 1995. Studies on Amanita (Amanitaceae) in West Virginia and adjacent areas of the Mid-Appalachians, preliminary results. Mycotaxon. 56:243–293.

Google Scholar

Tulloss RE, Iqbal SH, Khalid AN, Bhatt RP, Bhatt VK. 2001. Studies in Amanita (Amanitaceae) from southern Asia. I. some species of Pakistan’s Northwest Frontier Province. Mycotaxon. 77:455–490.

Google Scholar

Tulloss RE, Lindgren JE. 1994. Amanita novinupta—a rubescent, white species from the western United States and southwestern Canada. Mycotaxon. 51:179–190.

Google Scholar

Tulloss RE, Ovrebo CL, Halling RE. 1992. Studies on Amanita (Agaricales) from Andean Colombia. Mem New York Bot Gard. 66:1–46.

Google Scholar

Weiß M, Yang ZL, Oberwinkler F. 1998. Molecular phylogenetic studies in the genus Amanita. Can J Bot. 76:1170–1179.

Crossref Google Scholar

Wolfe BE, Richard F, Cross HB, Pringle A. 2010. Distribution and abundance of the introduced ectomycorrhizal fungus Amanita phalloides in North America. New Phytol. 185:803–816. doi:10.1111/j.1469-8137.2009.03097.x

Crossref Google Scholar

Wood AE. 1997. Studies in the genus Amanita (Agaricales) in Australia. Austral Syst Bot. 10:723–854.

Crossref Google Scholar

Yang ZL. 1997. Die Amanita-Arten von Suedwestchina. Bibl Mycol. 170:1–240.

Google Scholar

Yang ZL. 2000a. Species diversity of the genus Amanita (Basidiomycetes) in China. Acta Botanica Yunnanica. 22:135–142.

Google Scholar

Yang ZL. 2000b. On taxonomic studies of the Chinese Amanitae. Mycosystema. 19:435–440.

Google Scholar

Yang ZL. 2002. Revision of Amanita collections made from Jilin Province, Northeastern China. Mycotaxon. 83:67–76.

Google Scholar

Yang ZL. 2005. Flora fungorum sinicorum. Vol. 27. Amanitaceae (in Chinese). Beijing: Science Press.

Google Scholar

Yang ZL. 2011. Molecular techniques revolutionize knowledge of basidiomycete evolution. Fungal Divers. 50:47–58. doi:10.1007/s13225-011-0121-1

Crossref Google Scholar

Yang ZL, Doi Y. 1999. A contribution to the knowledge of Amanita (Amanitaceae, Agaricales) in Japan. Bull Natl Sci Museum Ser B. 25:107–130.

Google Scholar

Yang ZL, Li TH. 2001. Notes on three white Amanitae of section Phalloideae (Amanitaceae) from China. Mycotaxon. 78:439–448.

Google Scholar

Yang ZL, Li TH, Wu XL. 2001. Revision of Amanita collections made from Hainan, southern China. Fungal Divers. 6:146–165.

Google Scholar

Yang ZL, Oberwinkler F. 1999. Die Fruchtköperentwicklung von Amanita muscaria (Basidiomycetes). Nova Hedwigia. 68:441–468.

Crossref Google Scholar

Yang ZL, Weiß M, Kottke I, Oberwinkler F, Nehls U, Guttenberger M, Hampp R. 1999. Chapter 8. Amanita. In: Cairney JWG, Chambers SM, editors Ectomycorrhizal Fungi: key Genera in profile. Germany: Springer-Verlag; p. 201–230.

Crossref Google Scholar

Yang ZL, Weiß M, Oberwinkler F. 2004. New species of Amanita from eastern Himalayas and adjacent regions. Mycologia. 96:636–646.

Crossref Google Scholar

Yang ZL, Zhang LF. 2002. Revision of collections of Amanita (Agaricales) from Hunan Province, central China. Acta Botanica Yunnanica. 24:715–722.

Google Scholar

Zhang LF, Yang JB, Yang ZL. 2004. Molecular phylogeny of eastern Asian species of Amanita (Agaricales, Basidiomycota): taxonomic and biogeographic implications. Fungal Divers. 17:219–238.

Google Scholar

Zhang P, Chen ZH, Xiao B, Tolgor B, Bao HY, Yang ZL. 2010. Lethal amanitas of East Asia characterized by morphological and molecular data. Fungal Divers. 42:119–133. doi:10.1007/s13225-010-0018-4

Crossref Google Scholar

Zhou ZH, Miwa M, Hogetsu T. 2000. Genet distribution of ectomycorrhizal fungus Suillus grevillei populations in two Larix kaempferi stands over two years. J Plant Res. 113:365–374. doi:10.1007/PL00013944

Crossref Google Scholar

Zhou ZH, Miwa M, Matsuda Y, Hogetsu T. 2001. Spatial distribution of the subterranean mycelia and ectomycorrhizae of Suillus grevillei genets. J Plant Res. 114:179–185. doi:10.1007/PL00013981

Crossref Google Scholar

Mycology

Volume 6 Issue 2,
June 2015

Pages 86-93

DOI: 10.1080/21501203.2015.1042536

Cite this article:

Zhang P, Tang L-P, Cai Q, et al. A review on the diversity, phylogeography and population genetics of Amanita mushrooms. Mycology, 2015, 6(2): 86-93. https://doi.org/10.1080/21501203.2015.1042536

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Received: 26 February 2015

Accepted: 13 April 2015

Published: 09 June 2015

This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.