Taxonomy and Phylogeny of Peniophora Sensu Lato (Russulales, Basidiomycota)
Abstract
1. Introduction
2. Materials and Methods
2.1. Morphological Studies
2.2. DNA Extraction and Sequencing
2.3. Phylogenetic Analyses
3. Results
3.1. Phylogenetic Analyses
Taxa | Voucher | Locality | ITS | 28S | Reference |
---|---|---|---|---|---|
Amylostereum chailletii | NH8031/1035 | Romania | AF506406 | AF506406 | [6] |
Asterostroma laxum | EL33-99 | Estonia | AF506410 | AF506410 | [6] |
A. muscicola | KHL9537 | Puerto Rico | AF506409 | AF506409 | [6] |
Baltazaria eurasiaticogalactina | CBS666.84 | France | — | AY293211 | [27] |
B. octopodites | FLOR 56449 | Brazil | MH260025 | MH260047 | [28] |
Confertobasidium olivaceoalbum | FP90196 | USA | AF511648 | AF511648 | [6] |
Dichostereum effuscatum | GG930915 | France | AF506390 | AF506390 | [6] |
D. pallescens | NH7046/673 | Canada | AF506392 | AF506392 | [6] |
Gloiothele lactescens | EL8-98 | Sweden | AF506453 | AF506453 | [6] |
G. lamellosa | KHL11031 | Venezuela | AF506454 | AF506454 | [6] |
Lachnocladium schweinfurthianum | KM 49740 | Cameroon | MH260033 | MH260051 | [28] |
L. sp. | KHL10556 | Jamaica | AF506461 | AF506461 | [6] |
Metulodontia nivea | NH13108/2712 | Russia | AF506423 | AF506423 | [6] |
Peniophora albobadia | CBS329.66 | France | MH858809 | MH870448 | [9] |
P. albobadia | He2159 | USA | MK588755 | MK588795 | Present study |
P. aurantiaca | UBCF:19732 | — | HQ604854 | HQ604854 | — |
P. aurantiaca | CBS396.50 | France | MH856678 | MH868195 | [9] |
P. bicornis | He3609 | China | MK588763 | MK588803 | Present study |
P. bicornis | He4767 | China | MK588764 | MK588804 | Present study |
P. borbonica | He4606 | China | MK588765 | MK588805 | Present study |
P. borbonica | He4597 | China | MK588766 | MK588806 | Present study |
P. cinerea | NH9808/1788 | Spain | AF506424 | AF506424 | [6] |
P. cinerea | CBS261.37 | Belgium | MH855905 | MH867412 | [9] |
P. cinerea | He3725 | China | MK588769 | MK588809 | Present study |
P. crassitunicata | CBS663.91 | Reunion | MH862292 | MH873972 | [9] |
P. crassitunicata | He3814 | China | MK588770 | MK588810 | Present study |
P. cremicolor | He5380 * | China | MK588791 | MK588831 | Present study |
P. duplex | TPDuB1022 | — | AF119519 | — | [29] |
P. duplex | CBS286.58 | Canada | MH857787 | MH869321 | [9] |
P. erikssonii | CBS287.58 | France | MH857788 | MH869322 | [9] |
P. erikssonii | Cui11871 | China | MK588771 | MK588811 | Present study |
P. exima | T-523 | USA | MK588772 | MK588812 | Present study |
P. fasticata | CBS942.96 | Ethiopia | MH862624 | — | [9] |
P. fissilis | CBS681.91 | Reunion | MH862298 | MH873975 | [9] |
P. fissilis | CBS684.91 | Mascarene Islands | MH862299 | MH873976 | [9] |
P. gilbertsonii | CBS357.95 | USA | MH862528 | MH874164 | [9] |
P. gilbertsonii | CBS360.95 | USA | MH862530 | MH874165 | [9] |
P. guadelupensis | CBS715.91 | Guadeloupe | MH862304 | MH873977 | [9] |
P. halimi | CBS863.84 | France | MH861844 | MH873532 | [9] |
P. halimi | CBS864.84 | France | MH861845 | MH873533 | [9] |
P. incarnata | NH10271/1909 | Danmark | AF506425 | AF506425 | [6] |
P. incarnata | CBS399.50 | France | MH856681 | MH868198 | [9] |
P. junipericola | CBS349.54 | Sweden | MH857354 | — | [9] |
P. junipericola | He2462 | China | MK588773 | MK588813 | Present study |
P. kuehneri | CBS719.91 | Mascarene Islands | MH862307 | MH873980 | [9] |
P. kuehneri | He4745 | China | MK588757 | MK588797 | Present study |
P. kuehneroides | CBS731.91 | Mascarene Islands | MH862317 | MH873989 | [9] |
P. kuehneroides | CBS732.91 | Mascarene Islands | MH862318 | MH873990 | [9] |
P. laete | CBS256.56 | France | MH857617 | MH869165 | [9] |
P. laete | FCUG 2681 | Russia | GU322869 | — | [30] |
P. lassa | SP6129 | Russia | KJ509191 | — | [31] |
P. lassa | He3052 | China | MK588758 | MK588798 | Present study |
P. lassa | Dai17081A | China | MK588759 | MK588799 | Present study |
P. laurentii | CBS325.73 | Norway | — | MH872397 | [9] |
P. laxitexta | BAFC 3309 | Argentina | FJ882040 | — | [32] |
P. laxitexta | LGMF1159 | Brazil | JX559580 | — | [33] |
P. lilacea | CBS337.66 | Armenia | MH858813 | MH870452 | [9] |
P. limitata | olrim963 | Lithuania | AY787678 | — | [34] |
P. lycii | CBS264.56 | France | MH857624 | MH869169 | [9] |
P. lycii | Boid-437 | France | MK588774 | MK588814 | Present study |
P. major | He5528 * | China | MK588792 | MK588832 | Present study |
P. malaiensis | CBS679.91 | Singapore | MH862297 | MH873974 | [9] |
P. manshurica | He2956 | China | MK588776 | MK588816 | Present study |
P. manshurica | He3729 | China | MK588777 | MK588817 | Present study |
P. meridionalis | CBS289.58 | France | MH857789 | MH869323 | [9] |
P. molesta | CBS677.91 | Gabon | MH862295 | — | [9] |
P. molesta | CBS676.91 | Gabon | MH862294 | MH873973 | [9] |
P. monticola | CBS649.91 | Reunion | MH862289 | MH873970 | [9] |
P. nuda | He5280 | China | MK588778 | MK588818 | Present study |
P. nuda | HHB-4916-Sp | USA | MK588779 | MK588819 | Present study |
P. ovalispora | CBS653.91 | Mascarene Islands | MH862290 | MH873971 | [9] |
P. parvocystidiata | CBS716.91 | Guadeloupe | MH862305 | MH873978 | [9] |
P. piceae | olrim10 | Sweden | AY781264 | — | [35] |
P. piceae | 209 | Russia | JX507718 | — | [36] |
P. pilatiana | CBS265.56 | France | MH857625 | MH869170 | [9] |
P. pilatiana | CBS-A1/A2 | — | MK588780 | MK588820 | Present study |
P. pini | Hjm 18143 | Sweden | EU118651 | EU118651 | [7] |
P. pini | CBS274.56 | France | MH857632 | MH869177 | [9] |
P. pithya | CBS277.56 | France | MH857635 | MH869180 | [9] |
P. pithya | He3107 | China | MK588781 | MK588821 | Present study |
P. polygonia | CBS404.50 | France | MH856684 | MH868201 | [9] |
P. polygonia | He4651 | China | MK588782 | MK588822 | Present study |
P. proxima | CBS405.50 | France | MH856685 | MH868202 | [9] |
P. proxima | He5498 | China | MK588783 | MK588823 | Present study |
P. pseudopini | TPPpB1007 | — | AF119514 | — | [29] |
P. pseudopini | DAOM-30124-Sp | Canada | MK588784 | MK588824 | Present study |
P. pseudoversicolor | CBS338.66 | France | MH858814 | MH870453 | [9] |
P. pseudoversicolor | He5132 | China | MK588785 | MK588825 | Present study |
P. quercina | CBS407.50 | France | MH856687 | MH868204 | [9] |
P. quercina | CBS408.50 | France | MH856688 | MH868205 | [9] |
P. reidii | CBS397.83 | France | MH861616 | MH873334 | [9] |
P. rhoica | CBS943.96 | Ethiopia | MH862625 | MH874246 | [9] |
P. roseoalba | CLZhao3513 | China | ON786559 | OP380690 | [16] |
P. roseoalba | CLZhao9401 | China | ON786560 | — | [16] |
P. roseoalba | He5031 | China | OP872571 | OP872575 | Present study |
P. rufa | CBS351.59 | Canada | MH857891 | MH869432 | [9] |
P. rufa | He2788 | China | MK588786 | MK588826 | Present study |
P. rufomarginata | CBS281.56 | France | MH857639 | MH869183 | [9] |
P. rufomarginata | CBS282.56 | France | MH857640 | MH869184 | [9] |
P. septentrionalis | CBS294.58 | Canada | MH857791 | MH869325 | [9] |
P. shenghuae | He3507 * | China | MK588788 | MK588828 | Present study |
P. shenghuae | He3535 | China | MK588789 | MK588829 | Present study |
P. shenghuae | He5447 | China | MK588790 | MK588830 | Present study |
P. simulans | CBS874.84 | France | MH861849 | MH873537 | [9] |
P. simulans | CBS875.84 | France | MH861850 | MH873538 | [9] |
P. sphaerocystidiata | HHB-8827-Sp | USA | MK588787 | MK588827 | Present study |
P. subsalmonea | CBS696.91 | Mascarene Islands | MH862302 | — | [9] |
P. subsalmonea | CBS697.91 | Mascarene Islands | MH862303 | — | [9] |
P. taiwanensis | He4870 | China | MK588775 | MK588815 | Present study |
P. taiwanensis | Wu 9206-28 | China | MK588793 | MK588833 | Present study |
P. taiwanensis | Wu 9209-14 | China | MK588794 | MK588834 | Present study |
P. tamaricicola | CBS438.62 | Morocco | MH858203 | MH869802 | [9] |
P. tamaricicola | CBS439.62 | Morocco | MH858204 | MH869803 | [9] |
P. trigonosperma | CBS402.83 | France | MH861618 | MH873335 | [9] |
P. trigonosperma | He3602 | China | MK588762 | MK588802 | Present study |
P. tristicula | CBS210.63 | Pakistan | MH858266 | — | [9] |
P. tristicula | He4775 | China | MH669235 | MH669239 | [37] |
P. versicolor | CBS358.61 | Morocco | MH858082 | MH869651 | [9] |
P. versiformis | CBS358.54 | France | MH857360 | MH868902 | [9] |
P. versiformis | He3029 | China | MK588756 | MK588796 | Present study |
P. vietnamensis | He5242 | Vietnam | MK588760 | MK588800 | Present study |
P. vietnamensis | He5252 * | Vietnam | MK588761 | MK588801 | Present study |
P. violaceolivida | CBS348.52 | France | MH857077 | MH868613 | [9] |
P. yunnanensi | CLZhao3978 | China | OP380617 | OP380689 | [16] |
P. yunnanensi | CLZhao7347 | China | OP380616 | — | [16] |
Scytinostroma jacksonii | NH6626/635 | Canada | AF506467 | AF506467 | [6] |
S. portentosum | EL11-99 | Sweden | AF506470 | AF506470 | [6] |
S. renisporum | CBS770.86 | Indonesia | MH862050 | MH873737 | [9] |
Vararia investiens | TAA164122 | Norway | AF506484 | AF506484 | [6] |
V. ochroleuca | JS24400 | Norway | AF506485 | AF506485 | [6] |
Vesiculomyces citrinus | EL53-97 | Sweden | AF506486 | AF506486 | [6] |
3.2. Taxonomy
A key to Peniophora species in China | |
1. Dendrohyphidia well-developed, brown | P. versiformis |
1. Dendrohyphidia absent, or colorless when present | 2 |
2. Lamprocystidia brown over the entire length | 3 |
2. Lamprocystidia colorless or only brown at the basal part | 6 |
3. Skeletocystidia present | 4 |
3. Skeletocystidia absent | 5 |
4. Basidiospores 10–12.5 × 3.7–4.2 µm | P. tristicula |
4. Basidiospores 5.2–7.5 × 2–3.5 µm | P. kuehneri |
5. Basidiospores triangular, on palms | P. trignosperma |
5. Basidiospores cylindrical to narrowly ellipsoid or ovoid, on angiosperms | P. lassa |
6. Dendrohyphidia present, often colorless and may be difficult to see | 7 |
6. Dendrohyphidia absent | 8 |
7. Lamprocystidia absent; basidiospores > 7.5 µm long | P. polygonia |
7. Lamprocystidia present; basidiospores < 7.5 µm long | P. meridionalis |
8. Basidiospores ellipsoid or ovoid | 9 |
8. Basidiospores cylindrical or allantoid | 12 |
9. Basidiospores ovoid | P. roseoalba |
9. Basidiospores ellipsoid | 10 |
10. Generative hyphae with clamps | P. proxima |
10. Generative hyphae without clamps | 11 |
11. Basidiospores 9–13 × 6–7 µm | P. cremicolor |
11. Basidiospores 11–20 × 8–14 µm | P. erikssonii |
12. Basidiomes red | 13 |
12. Basidiomes grey, cream, pale orange, pinkish, yellowish or purplish | 14 |
13. Basidiomes pulvinate, only found on Populus | P. rufa |
13. Basidiomes effused, found on other hosts | P. pseudoversicolor |
14. Generative hyphae without clamps | 15 |
14. Generative hyphae with clamps | 19 |
15. Basidia with two sterigmata | P. bicornis |
15. Basidia with four sterigmata | 16 |
16. Basidiospores > 10 µm long | P. major |
16. Basidiospores < 10 µm long | 17 |
17. Basidiospores < 7 µm long | P. malaiensis |
17. Basidiospores > 7 µm long | 18 |
18. Basidiomes up to 1.2 mm thick; basidia thick-walled | P. borbonica |
18. Basidiomes up to 200 µm thick; basidia thin-walled | P. shenghuae |
19. Gloeocystidia indistinct or absent | 20 |
19. Gloeocystidia present | 22 |
20. Basidiomes pinkish, effused-reflexed, usually on Quercus. | P. manshurica |
20. Basidiomes greyish, resupinate, on gymnosperms or angiosperms | 21 |
21. Lamprocystidia 40–80 × 6–14 µm; on Juniperus | P. junipericola |
21. Lamprocystidia 15–25 × 5–10 µm; on gymnosperms or angiosperms | P. cinerea |
22. Gloeocystidia distinctly thick-walled, with walls up to 2–3 µm thick | P. crassitunicata |
22. Gloeocystidia thin- to slightly thick-walled, with walls < 1 µm thick | 23 |
23. Lamprocystidia up to 20 µm wide; basidiospores up to 7 µm long | P. pithya |
23. Lamprocystidia up to 12 µm wide; basidiospores up to 10 µm long | 24 |
24. Gloeocystidia 30–80 × 8–20 µm; basidiospores 2.5–3.5 µm wide | P. nuda |
24. Gloeocystidia 12.5–58 × 5.5–15.5 µm; basidiospores 3–5.5 µm wide | P. yunnanensis |
4. Discussion
Author Contributions
Funding
Institutional Review Board Statement
Informed Consent Statement
Data Availability Statement
Conflicts of Interest
References
- Eriksson, J. A taxonomical study with special reference to the Swedish species. Symb. Bot. Ups. 1950, 10, 1–76. [Google Scholar]
- Boidin, J.; Lanquetin, P. Peniophora (sect. Duportella) kuehneri et halimi novae sp.; réflexions sur les genres Peniophora et Duportella. Bull. Mens. Soc. Linn. Lyon 1974, 43, 47–60. [Google Scholar]
- Boidin, J.; Lanquetin, P.; Gilles, G. Les Peniophoraceae de la zone intertropicale (Basidiomycètes, Aphyllophorales). A. Espèces paléotropicales. Bull. Trimest. Société Mycol. Fr. 1991, 107, 91–156. [Google Scholar]
- Boidin, J.; Mugnier, J.; Canales, R. Taxonomie molecularies des Aphyllophorales. Mycotaxon 1998, 66, 445–491. [Google Scholar]
- Andreasen, M.; Hallenberg, N. A taxonomic survey of the Peniophoraceae. Synop. Fungorum 2009, 26, 56–119. [Google Scholar]
- Larsson, E.; Larsson, K.H. Phylogenetic relationships of russuloid basidiomycetes with emphasis on aphyllophoralean taxa. Mycologia 2003, 95, 1037–1065. [Google Scholar] [CrossRef]
- Larsson, K.H. Re-thinking the classification of corticioid fungi. Mycol. Res. 2007, 111, 1040–1063. [Google Scholar] [CrossRef]
- Miller, S.L.; Larsson, E.; Larsson, K.H.; Verbeken, A.; Nuytinck, J. Perspectives in the new Russulales. Mycologia 2006, 98, 960–970. [Google Scholar] [CrossRef] [PubMed]
- Vu, D.; Groenewald, M.; De Vries, M.; Gehrmann, T.; Stielow, B.; Eberhardt, U.; Al-Hatmi, A.; Groenewald, J.Z.; Cardinali, G.; Houbraken, J.; et al. Large-scale generation and analysis of filamentous fungal DNA barcodes boosts coverage for kingdom fungi and reveals thresholds for fungal species and higher taxon delimitation. Stud. Mycol. 2019, 91, 23–36. [Google Scholar] [CrossRef] [PubMed]
- Wu, S.H. New records of the Corticiaceae from mainland China. Mycotaxon 2002, 82, 289–294. [Google Scholar]
- Wu, S.H. A study of Peniophora species with simple-septate hyphae occurring in Taiwan. Mycotaxon 2003, 85, 187–199. [Google Scholar]
- Wu, S.H. Twenty species of corticioid fungi newly recorded from China. Mycotaxon 2008, 104, 79–88. [Google Scholar]
- Wu, S.H. Survey of corticioid fungi in Taiwan, to 2010. Fungal Sci. 2010, 25, 49–60. [Google Scholar]
- Maekawa, N. Japanece Corticaceaea II. Rep. Tottori Mycol. Inst. 1994, 32, 1–123. [Google Scholar]
- Maekawa, N.; Yang, Z.L.; Zang, M. Corticioid Fungi (Basidiomycetes) collected in Sichuan Province, China. Mycotaxon 2002, 83, 81–95. [Google Scholar]
- Zou, L.; Zhang, X.; Deng, Y.; Zhao, C. Four New Wood-Inhabiting Fungal Species of Peniophoraceae (Russulales, Basidiomycota) from the Yunnan-Guizhou Plateau, China. J. Fungi 2022, 8, 1227. [Google Scholar] [CrossRef]
- Kornerup, A.; Wanscher, J.H. Methuen Handbook of Colour, 3rd ed.; Methuen: London, UK, 1978; p. 493. [Google Scholar]
- White, T.J.; Bruns, T.; Lee, S.; Taylor, J. PCR Protocols: A guide to methods and applications. In Amplification and Direct Sequencing of Fungal Ribosomal RNA Genes for Phylogenetics; Innis, M.A., Gelfand, D.H., Sninsky, J.J., White, T.J., Eds.; Academic Press: San Diego, CA, USA, 1990; pp. 315–322. [Google Scholar]
- Vilgalys, R.; Hester, M. Rapid genetic identification and mapping of enzymatically amplified ribosomal DNA from several Cryptococcus species. J. Bacteriol. 1990, 172, 4238–4246. [Google Scholar] [CrossRef] [PubMed]
- Hall, T.A. BioEdit: A user-friendly biological sequence alignment editor and analysis program for Windows 95/98/NT. Nucleic Acids Symp. Ser. 1999, 41, 95–98. [Google Scholar]
- Katoh, K.; Rozewicki, J.; Yamada, K.D. MAFFT online service: Multiple sequence alignment, interactive sequence choice and visualization. Brief. Bioinform. 2019, 20, 1160–1166. [Google Scholar] [CrossRef] [PubMed]
- Maddison, W.P.; Maddison, D.R. Mesquite: A Modular System for Evolutionary Analysis. Version 3.5.1. 2018. Available online: http://www.mesquiteproject.org (accessed on 20 October 2022).
- Swofford, D.L. PAUP*: Phylogenetic Analysis Using Parsimony (*and Other Methods); Version 4.0b10; Sinauer Associates: Sunderland, UK, 2002; Available online: http://paup.csit.fsu.edu/ (accessed on 25 October 2022).
- Stamatakis, A. RAxML Version 8: A tool for phylogenetic analysis and post-analysis of large phylogenies. Bioinformatics 2014, 30, 1312–1313. [Google Scholar] [CrossRef] [PubMed]
- Ronquist, F.; Teslenko, M.; Van Der Mark, P.; Ayres, D.L.; Darling, A.; Höhna, S.; Larget, B.; Liu, L.; Suchard, M.A.; Huelsenbeck, J.P. MrBayes 3.2: Efficient Bayesian phylogenetic inference and model choice across a large model space. Syst. Biol. 2012, 61, 539–542. [Google Scholar] [CrossRef] [PubMed]
- Darriba, D.; Taboada, G.L.; Doallo, R.; Posada, D. ModelTest 2: More models, new heuristics and parallel computing. Nat. Methods 2012, 9, 772. [Google Scholar] [CrossRef]
- Binder, M.; Hibbett, D.S.; Larsson, K.H.; Larsson, E.; Langer, E.; Langer, G. The phylogenetic distribution of resupinate forms across the major clades of mushroom-forming fungi (Homobasidiomycetes). Syst. Biodivers. 2005, 3, 113–157. [Google Scholar] [CrossRef]
- Leal-Dutra, C.A.; Neves, M.A.; Griffith, G.W.; Reck, M.A.; Clasen, L.A.; Dentinger, B.T. Reclassification of Parapterulicium Corner (Pterulaceae, Agaricales), contributions to Lachnocladiaceae and Peniophoraceae (Russulales) and introduction of Baltazaria gen. nov. MycoKeys 2018, 37, 39–56. [Google Scholar] [CrossRef] [PubMed]
- Hsiau, P.T.; Harrington, T.C. Phylogenetics and adaptations of basidiomycetous fungi fed upon by bark beetles (Coleoptera: Scolytidae). Symbiosis 2003, 34, 111–131. [Google Scholar]
- Hallenberg, N.; Yurchenko, E.O.; Ghobad-Nejhad, M. Peniophora pseudonuda is a synonym of P. laeta. Mycotaxon 2010, 112, 153–162. [Google Scholar] [CrossRef]
- Spirin, V.; Kout, J. Duportella lassa sp. nov. from Northeast Asia. Mycotaxon 2015, 130, 483–488. [Google Scholar] [CrossRef]
- Robles, C.A.; Carmarán, C.C.; Lopez, S.E. Screening of xylophagous fungi associated with Platanus acerifolia in urban landscapes: Biodiversity and potential biodeterioration. Landsc. Urban Plan. 2011, 100, 129–135. [Google Scholar] [CrossRef]
- Hokama, Y.; Savi, D.C.; Assad, B.; Aluizio, R.; Gomes-Figueiredo, J.; Adamoski, D.; Glienke, C. Endophytic fungi isolated from Vochysia divergens in the Pantanal, Mato Grosso do Sul: Diversity, phylogeny and biocontrol of Phyllosticta citricarpa. In Endophytic Fungi: Divers. Charact. Biocontrol; Hughes, E., Ed.; Nova Publishers: New York, NY, USA, 2016; pp. 93–124. [Google Scholar]
- Lygis, V.; Vasiliauskas, R.; Larsson, K.H.; Stenlid, J. Wood-inhabiting fungi in stems of Fraxinus excelsior in declining ash stands of northern Lithuania, with particular reference to Armillaria cepistipes. Scand. J. For. Res. 2005, 20, 337–346. [Google Scholar] [CrossRef]
- Vasiliauskas, R.; Larsson, E.; Larsson, K.H.; Stenlid, J. Persistence and long-term impact of Rotstop biological control agent on mycodiversity in Picea abies stumps. Biol. Control. 2005, 32, 295–304. [Google Scholar] [CrossRef]
- Grum-Grzhimaylo, O.A.; Debets, A.J.; Bilanenko, E.N. The diversity of microfungi in peatlands originated from the White Sea. Mycologia 2016, 108, 233–254. [Google Scholar] [CrossRef] [PubMed]
- Liu, S.L.; He, S.H. Taxonomy and phylogeny of Dichostereum (Russulales), with descriptions of three new species from southern China. MycoKeys 2018, 40, 111–126. [Google Scholar] [CrossRef]
- Boidin, J. Les Peniophoraceae des parties tempérées et froides de l’hémisphère nord (Basidiomycotina). Publ. Société Linnéenne Lyon 1994, 63, 317–334. [Google Scholar] [CrossRef]
- Hjortstam, K.; Ryvarden, L. Some new tropical genera and species of corticioid fungi (Basidiomycotina, Aphyllophorales). Synop. Fungorum 2004, 18, 20–32. [Google Scholar]
- Boidin, J.; Lanquetin, P. Sur quelques corticiés (Basidiomycotina) de l’Ethiopie. Cryptogamie Mycologie 1995, 16, 85–99. [Google Scholar]
- Zhao, C.L.; Cui, B.K.; Song, J.; Dai, Y.C. Fragiliporiaceae, a new family of Polyporales (Basidiomycota). Fungal Divers. 2015, 70, 115–126. [Google Scholar] [CrossRef]
- Chen, J.J.; Cui, B.K.; Dai, Y.C. Global diversity and molecular systematics of Wrightoporia s.l. (Russulales, Basidiomycota). Persoonia 2016, 37, 21–36. [Google Scholar] [CrossRef] [PubMed]
- Han, M.L.; Chen, Y.Y.; Shen, L.L.; Song, J.; Vlasák, J.; Dai, Y.C.; Cui, B.K. Taxonomy and phylogeny of the brown-rot fungi: Fomitopsis and its related genera. Fungal Divers. 2016, 80, 343–373. [Google Scholar] [CrossRef]
- Cui, B.K.; Li, H.J.; Ji, X.; Zhou, J.L.; Song, J.; Si, J.; Dai, Y.C. Species diversity, taxonomy and phylogeny of Polyporaceae (Basidiomycota) in China. Fungal Divers. 2019, 97, 137–302. [Google Scholar] [CrossRef]
- Wu, F.; Zhou, L.W.; Vlasák, J.; Dai, Y.C. Global diversity and systematics of Hymenochaetaceae with poroid hymenophore. Fungal Divers. 2022, 113, 1–192. [Google Scholar] [CrossRef]
- Chen, C.C.; Chen, C.Y.; Wu, S.H. Species diversity, taxonomy and multi-gene phylogeny of phlebioid clade (Phanerochaetaceae, Irpicaceae, Meruliaceae) of Polyporales. Fungal Divers. 2021, 111, 337–442. [Google Scholar] [CrossRef]
- He, S.H.; Dai, Y.C. Taxonomy and phylogeny of Hymenochaete and allied genera of Hymenochaetaceae (Basidiomycota) in China. Fungal Divers. 2012, 56, 77–93. [Google Scholar] [CrossRef]
- Li, Y.; Nakasone, K.K.; Chen, C.C.; Zhao, C.L.; Cao, T.; Yuan, H.S.; He, S.H. Taxonomy and phylogeny of Cystostereaceae (Agaricales, Basidiomycota): A new genus, five new species, and three new combinations. J. Fungi 2022, 8, 1229. [Google Scholar] [CrossRef] [PubMed]
- Liu, S.L.; Nakasone, K.K.; Wu, S.H.; He, S.H.; Dai, Y.C. Taxonomy and phylogeny of Lopharia s.s., Dendrodontia, Dentocorticium and Fuscocerrena (Basidiomycota, Polyporales). MycoKeys 2018, 32, 25–48. [Google Scholar] [CrossRef]
- Riebeseh, J.; Yurchenko, E.; Nakasone, K.K.; Langer, E. Phylogenetic and morphological studies in Xylodon (Hymenochaetales, Basidiomycota) with the addition of four new species. MycoKeys 2019, 47, 97–137. [Google Scholar] [CrossRef]
- Yurchenko, E. The Genus Peniophora (Basidiomycota) of Eastern Europe: Morphology, Taxonomy, Ecology, Distribution; National Academy of Sciences of Belarus, VF Kuprevich Insitute of Experimental Botany: Minsk, Belarus, 2010. [Google Scholar]
- Dai, Y.C. A revised checklist of corticioid and hydnoid fungi in China for 2010. Mycoscience 2011, 52, 69–79. [Google Scholar] [CrossRef]
- Wang, H.; He, X.; Zhao, C.L. Scytinostroma yunnanense sp. nov. (Russulales, Basidiomycota) evidenced by morphological characteristics and phylogenetic analyses in China. Phytotaxa 2020, 451, 145–153. [Google Scholar] [CrossRef]
- Liu, S.L.; He, S.H. The genus Vararia (Russulales, Basidiomycota) in China. Two new species and two new Chinese records. Nord. J. Bot. 2016, 34, 553–558. [Google Scholar] [CrossRef]
- Liu, S.L.; Tian, Y.; Nie, T.; Thawthong, A.; Hyde, K.D.; Xu, L.L.; He, S.H. Updates on East Asian Asterostroma (Russulales, Basidiomycota): New species and new records from Thailand and China. Mycol. Prog. 2017, 16, 667–676. [Google Scholar] [CrossRef]
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Xu, Y.-L.; Tian, Y.; He, S.-H. Taxonomy and Phylogeny of Peniophora Sensu Lato (Russulales, Basidiomycota). J. Fungi 2023, 9, 93. https://doi.org/10.3390/jof9010093
Xu Y-L, Tian Y, He S-H. Taxonomy and Phylogeny of Peniophora Sensu Lato (Russulales, Basidiomycota). Journal of Fungi. 2023; 9(1):93. https://doi.org/10.3390/jof9010093
Chicago/Turabian StyleXu, Yun-Lin, Yan Tian, and Shuang-Hui He. 2023. "Taxonomy and Phylogeny of Peniophora Sensu Lato (Russulales, Basidiomycota)" Journal of Fungi 9, no. 1: 93. https://doi.org/10.3390/jof9010093
APA StyleXu, Y.-L., Tian, Y., & He, S.-H. (2023). Taxonomy and Phylogeny of Peniophora Sensu Lato (Russulales, Basidiomycota). Journal of Fungi, 9(1), 93. https://doi.org/10.3390/jof9010093