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1.
001-es BibID:
BIBFORM087060
035-os BibID:
(WoS)000520704800001 (Scopus)85079084984
Első szerző:
Hyde, Kevin D.
Cím:
Fungal diversity notes 1151-1276 : taxonomic and phylogenetic contributions on genera and species of fungal taxa / Hyde Kevin D., Dong Yang, Phookamsak Rungtiwa, Jeewon Rajesh, Bhat D. Jayarama, Jones E. B. Gareth, Liu Ning-Guo, Abeywickrama Pranami D., Mapook Ausana, Wei Deping, Perera Rekhani H., Manawasinghe Ishara S., Pem Dhandevi, Bundhun Digvijayini, Karunarathna Anuruddha, Ekanayaka Anusha H., Bao Dan-Feng, Li Junfu, Samarakoon Milan C., Chaiwan Napalai, Lin Chuan-Gen, Phutthacharoen Kunthida, Zhang Sheng-Nan, Senanayake Indunil C., Goonasekara Ishani D., Thambugala Kasun M., Phukhamsakda Chayanard, Tennakoon Danushka S., Jiang Hong-Bo, Yang Jing, Zeng Ming, Huanraluek Naruemon, Liu Jian-Kui (Jack), Wijesinghe Subodini N., Tian Qing, Tibpromma Saowaluck, Brahmanage Rashika S., Boonmee Saranyaphat, Huang Shi-Ke, Thiyagaraja Vinodhini, Lu Yong-Zhong, Jayawardena Ruvishika S., Dong Wei, Yang Er-Fu, Singh Sanjay K., Singh Shiv Mohan, Rana Shiwali, Lad Sneha S., Anand Garima, Devadatha Bandarupalli, Niranjan M., Sarma V. Venkateswara, Liimatainen Kare, Aguirre-Hudson Begona, Niskanen Tuula, Overall Andy, Alvarenga Renato Lúcio Mendes, Gibertoni Tatiana Baptista, Pfliegler Walter P., Horváth Enikő, Imre Alexandra, Alves Amanda Lucia, da Silva Santos Ana Carla, Tiago Patricia Vieira, Bulgakov Timur S., Wanasinghe Dhanushaka N., Bahkali Ali H., Doilom Mingkwan, Elgorban Abdallah M., Maharachchikumbura Sajeewa S. N., Rajeshkumar Kunhiraman C., Haelewaters Danny, Mortimer Peter E., Zhao Qi, Lumyong Saisamorn, Xu Jianchu, Sheng Jun
Dátum:
2020
ISSN:
1560-2745 1878-9129
Megjegyzések:
Fungal diversity notes is one of the important journal series of fungal taxonomy that provide detailed descriptions and illustrations of new fungal taxa, as well as providing new information of fungal taxa worldwide. This article is the 11th contribution to the fungal diversity notes series, in which 126 taxa distributed in two phyla, six classes, 24 orders and 55 families are described and illustrated. Taxa in this study were mainly collected from Italy by Erio Camporesi and also collected from China, India and Thailand, as well as in some other European, North American and South American countries. Taxa described in the present study include two new families, 12 new genera, 82 new species, fve new combinations and 25 new records on new hosts and new geographical distributions as well as sexual-asexual reports. The two new families are Eriomycetaceae (Dothideomycetes, family incertae sedis) and Fasciatisporaceae (Xylariales, Sordariomycetes). The twelve new genera comprise Bhagirathimyces (Phaeosphaeriaceae), Camporesiomyces (Tubeufaceae), Eriocamporesia (Cryphonectriaceae), Eriomyces (Eriomycetaceae), Neomonodictys (Pleurotheciaceae), Paraloratospora (Phaeosphaeriaceae), Paramonodictys (Parabambusicolaceae), Pseudoconlarium (Diaporthomycetidae, genus incertae sedis), Pseudomurilentithecium (Lentitheciaceae), Setoapiospora (Muyocopronaceae), Srinivasanomyces (Vibrisseaceae) and Xenoanthostomella (Xylariales, genera incertae sedis). The 82 new species comprise Acremonium chiangraiense, Adustochaete nivea, Angustimassarina camporesii, Bhagirathimyces himalayensis, Brunneoclavispora camporesii, Camarosporidiella camporesii, Camporesiomyces mali, Camposporium appendiculatum, Camposporium multiseptatum, Camposporium septatum, Canalisporium aquaticium, Clonostachys eriocamporesiana, Clonostachys eriocamporesii, Colletotrichum hederiicola, Coniochaeta vineae, Conioscypha verrucosa, Cortinarius ainsworthii, Cortinarius aurae, Cortinarius britannicus, Cortinarius heatherae, Cortinarius scoticus, Cortinarius subsaniosus, Cytospora fusispora, Cytospora rosigena, Diaporthe camporesii, Diaporthe nigra, Diatrypella yunnanensis, Dictyosporium muriformis, Didymella camporesii, Diutina bernali, Diutina sipiczkii, Eriocamporesia aurantia, Eriomyces heveae, Ernakulamia tanakae, Falciformispora uttaraditensis, Fasciatispora cocoes, Foliophoma camporesii, Fuscostagonospora camporesii, Helvella subtinta, Kalmusia erioi, Keissleriella camporesiana, Keissleriella camporesii, Lanspora cylindrospora, Loratospora arezzoensis, Mariannaea atlantica, Melanographium phoenicis, Montagnula camporesii, Neodidymelliopsis camporesii, Neokalmusia kunmingensis, Neoleptosporella camporesiana, Neomonodictys muriformis, Neomyrmecridium guizhouense, Neosetophoma camporesii, Paraloratospora camporesii, Paramonodictys solitarius, Periconia palmicola, Plenodomus triseptatus, Pseudocamarosporium camporesii, Pseudocercospora maetaengensis, Pseudochaetosphaeronema kunmingense, Pseudoconlarium punctiforme, Pseudodactylaria camporesiana, Pseudomurilentithecium camporesii, Pseudotetraploa rajmachiensis, Pseudotruncatella camporesii, Rhexocercosporidium senecionis, Rhytidhysteron camporesii, Rhytidhysteron erioi, Septoriella camporesii, Setoapiospora thailandica, Srinivasanomyces kangrensis, Tetraploa dwibahubeeja, Tetraploa pseudoaristata, Tetraploa thrayabahubeeja, Torula camporesii, Tremateia camporesii, Tremateia lamiacearum, Uzbekistanica pruni, Verruconis mangrovei, Wilcoxina verruculosa, Xenoanthostomella chromolaenae and Xenodidymella camporesii. The fve new combinations are Camporesiomyces patagoniensis, Camporesiomyces vaccinia, Camposporium lycopodiellae, Paraloratospora gahniae and Rhexocercosporidium microsporum. The 22 new records on host and geographical distribution comprise Arthrinium marii, Ascochyta medicaginicola, Ascochyta pisi, Astrocystis bambusicola, Camposporium pellucidum, Dendryphiella phitsanulokensis, Diaporthe foeniculina, Didymella macrostoma, Diplodia mutila, Diplodia seriata, Heterosphaeria patella, Hysterobrevium constrictum, Neodidymelliopsis ranunculi, Neovaginatispora fuckelii, Nothophoma quercina, Occultibambusa bambusae, Phaeosphaeria chinensis, Pseudopestalotiopsis theae, Pyxine berteriana, Tetraploa sasicola, Torula gaodangensis and Wojnowiciella dactylidis. In addition, the sexual morphs of Dissoconium eucalypti and Phaeosphaeriopsis pseudoagavacearum are reported from Laurus nobilis and Yucca gloriosa in Italy, respectively. The holomorph of Diaporthe cynaroidis is also reported for the frst time.
Tárgyszavak:
Természettudományok
Biológiai tudományok
idegen nyelvű folyóiratközlemény külföldi lapban
folyóiratcikk
Dothideomycetes
Basidiomycota
Lecanoromycetes
Pezizomycetes
Phylogeny
96 new taxa
Agaricomycetes
Ascomycota
Megjelenés:
Fungal Diversity. - 100 : 1 (2020), p. 5-277. -
További szerzők:
Dong, Yang
Phookamsak, Rungtiwa
Jeewon, Rajesh
Bhat, D. Jayarama
Jones, E. B. Gareth
Liu, Ning-Guo
Abeywickrama, Pranami D.
Mapook, Ausana
Wei, Deping
Perera, Rekhani H.
Manawasinghe, Ishara S.
Pem, Dhandevi
Bundhun, Digvijayini
Karunarathna, Anuruddha
Ekanayaka, Anusha H.
Bao, Dan-Feng
Li, Junfu
Samarakoon, Milan C.
Chaiwan, Napalai
Lin, Chuan-Gen
Phutthacharoen, Kunthida
Zhang, Sheng-Nan
Senanayake, Indunil C.
Goonasekara, Ishani D.
Thambugala, Kasun M.
Phukhamsakda, Chayanard
Tennakoon, Danushka S.
Jiang, Hong-Bo
Yang, Jing
Zeng, Ming
Huanraluek, Naruemon
Liu, Jian-Kui (Jack)
Wijesinghe, Subodini N.
Tian, Qing
Tibpromma, Saowaluck
Brahmanage, Rashika S.
Boonmee, Saranyaphat
Huang, Shi-Ke
Thiyagaraja, Vinodhini
Lu, Yong-Zhong
Jayawardena, Ruvishika S.
Dong, Wei
Yang, Er-Fu
Singh, Sanjay K.
Singh, Shiv Mohan
Rana, Shiwali
Lad, Sneha S.
Anand, Garima
Devadatha, Bandarupalli
Niranjan, M.
Sarma, V. Venkateswara
Liimatainen, Kare
Aguirre-Hudson, Begoña
Niskanen, Tuula
Overall, Andy
Alvarenga, Renato Lúcio Mendes
Gibertoni, Tatiana Baptista
Pfliegler Valter Péter (1986-) (molekuláris biológus)
Horváth Enikő (1987-) (biológus)
Imre Alexandra (1992-) (biomérnök, biotechnológus)
Alves, Amanda Lucia
da Silva Santos, Ana Carla
Tiago, Patricia Vieira
Bulgakov, Timur S.
Wanasinghe, Dhanushka N.
Bahkali, Ali H.
Doilom, Mingkwan
Elgorban, Abdallah M.
Maharachchikumbura, Sajeewa S. N.
Rajeshkumar, Kunhiraman C.
Haelewaters, Danny
Mortimer, Peter E.
Zhao, Qi
Lumyong, Saisamorn
Xu, Jianchu
Sheng, Jun
Pályázati támogatás:
ÚNKP-19-3-I-DE-234
Egyéb
Internet cím:
Szerző által megadott URL
DOI
Intézményi repozitóriumban (DEA) tárolt változat
Borító:
Saját polcon:
2.
001-es BibID:
BIBFORM055087
Első szerző:
Pfliegler Valter Péter (molekuláris biológus)
Cím:
Diversity of Candida zemplinina isolates inferred from RAPD, micro/minisatellite and physiological analysis / Walter P. Pfliegler, Enikő Horváth, Zoltán Kállai, Matthias Sipiczki
Dátum:
2014
ISSN:
0944-5013
Megjegyzések:
Among non-Saccharomyces wine yeasts, Candida zemlpinina is one of the frequently isolated and oenologically important species. It is mostly known from European winemaking areas and it has become one of the key species of non-Saccharomyces wine yeasts to study. Investigating the diversity of C. zemplinina isolates is important for a deeper understanding of the non-Saccharomyces wine yeasts and for the yeast starter industry, as numerous researches have pointed to the potential use of this species in winemaking. For assessing the biodiversity of a larger number of strains, RAPD and micro/minisatellite PCR is often the method of choice, however, this technique is often unstandardized. Whereas some laboratories use these methods for species identifications, others apply RAPD primers for determining intraspecies diversity. In this study, we have tested 5 different RAPD and micro/minisatellite primers on strains of C. zemplinina isolated from different locations. We show that after a rigorous PCR-optimization aimed at reproducibility and comparability of band patterns with these PCR-reactions, diversity of different strains from a wide range of geographic locations is relatively low. The analysis of several oenologically important physiological traits of the strains showed a relatively low level of diversity as well. We also demonstrate that the intraspecific diversity of C. zemplinina observable with different techniques (RAPD, micro/minisatellite or physiological analysis) may be fairly different and not necessarily comparable.
Tárgyszavak:
Természettudományok
Biológiai tudományok
idegen nyelvű folyóiratközlemény külföldi lapban
Megjelenés:
Microbiological Research. - 169 : 5-6 (2014), p. 402-410. -
További szerzők:
Horváth Enikő (1987-) (biológus)
Kállai Zoltán (1986-) (biológus)
Sipiczki Mátyás (1948-) (biológus)
Internet cím:
Szerző által megadott URL
DOI
Intézményi repozitóriumban (DEA) tárolt változat
Borító:
Saját polcon:
3.
001-es BibID:
BIBFORM074051
035-os BibID:
(cikkazonosító)1193 (WOS)000434951800001 (Scopus)85048341000
Első szerző:
Sipiczki Mátyás (biológus)
Cím:
Birth-and-Death Evolution and Reticulation of ITS Segments of Metschnikowia andauensis and Metschnikowia fructicola rDNA Repeats / Sipiczki Matthias, Horvath Eniko, Pfliegler Walter P.
Dátum:
2018
ISSN:
1664-302X
Megjegyzések:
The internal transcribed spacer (ITS) region (ITS1, 5.8S rDNA, and ITS2) separates the genes coding for the SSU 18S and the LSU 26S genes in the rDNA units which are organized into long tandem arrays in the overwhelming majority of fungi. As members of a multigenic family, these units are subject of concerted evolution, which homogenizes their sequences. Exceptions have been observed in certain groups of plants and in a few fungal species. In our previous study we described exceptionally high degree of sequence diversity in the D1/D2 domains of two pulcherrimin-producing Metschnikowia (Saccharomycotina) species which appeared to evolve by reticulation. The major goals of this study were the examination of the diversity of the ITS segments and their evolution. We show that the ITS sequences of these species are not homogenized either, differ from each other by up to 38 substitutions and indels which have dramatic effects on the predicted secondary structures of the transcripts. The high intragenomic diversity makes the D1/D2 domains and the ITS spacers unsuitable for barcoding of these species and therefore the taxonomic position of strains previously assigned to them needs revision. By analyzing the genome sequence of the M. fructicola type strain, we also show that the rDNA of this species is fragmented, contains pseudogenes and thus evolves by the birth-and-death mechanism rather than by homogenisation, which is unusual in yeasts. The results of the network analysis of the sequences further indicate that the ITS regions are also involved in reticulation. M. andauensis and M. fructicola can form interspecies hybrids and their hybrids segregate, providing thus possibilities for reticulation of the rDNA repeats.
Tárgyszavak:
Természettudományok
Biológiai tudományok
idegen nyelvű folyóiratközlemény külföldi lapban
folyóiratcikk
structure prediction
yeast
ribosomal RNA
ITS
evolution
pseudogene
reticulation
hybridisation
Megjelenés:
Frontiers in Microbiology. - 9 (2018), p. 1-16. -
További szerzők:
Horváth Enikő (1987-) (biológus)
Pfliegler Valter Péter (1986-) (molekuláris biológus)
Pályázati támogatás:
K-124417
Egyéb
TÁMOP-4.2.4.A/2-11/1-2012-0001
Egyéb
Internet cím:
Szerző által megadott URL
DOI
Intézményi repozitóriumban (DEA) tárolt változat
Borító:
Saját polcon:
4.
001-es BibID:
BIBFORM087059
035-os BibID:
(WoS)000527631600001 (Scopus)85090565616
Első szerző:
Wijayawardene, Nalin N.
Cím:
Outline of Fungi and fungus-like taxa / Wijayawardene, N.N.; Hyde, K.D.; Al-Ani, L.K.T.; Tedersoo, L.; Haelewaters, D.; Rajeshkumar, K.C.; Zhao, R.L.; Aptroot, A.; Leontyev, D.V.; Saxena, R.K.; Tokarev, Y.S.; Dai, D.Q.; Letcher, P.M.; Stephenson, S.L.; Ertz, D.; Lumbsch, H.T.; Kukwa, M.; Issi, I.V.; Madrid, H.; Phillips, A.J.L.; Selbmann, L.; Pfliegler, W.P.; Horváth, E.; Bensch, K.; Kirk, P.M.; Kolaříková, K.; Raja, H.A.; Radek, R.; Papp, V.; Dima, B.; Ma, J.; Malosso, E.; Takamatsu, S.; Rambold, G.; Gannibal, P.B.; Triebel, D.; Gautam, A.K.; Avasthi, S.; Suetrong, S.; Timdal, E.; Fryar, S.C.; Delgado, G.; Réblová, M.; Doilom, M.; Dolatabadi, S.; Pawowska, J.; Humber, R.A.; Kodsueb, R.; Sánchez-Castro, I.; Goto, B.T.; Silva, D.K.A.; de, Souza, F.A.; Oehl, F.; da, Silva, G.A.; Silva, I.R.; Baszkowski, J.; Jobim, K.; Maia, L.C.; Barbosa, F.R.; Fiuza, P.O.; Divakar, P.K;., Shenoy, B.D.; Castañeda-Ruiz, R.F.; Somrithipol, S.; Lateef, A.A.; Karunarathna, S.C.; Tibpromma, S.; Mortimer, P.E.; Wanasinghe, D.N.; Phookamsak, R.; Xu, J.; Wang, Y.; Tian, F.; Alvarado, P.; Li, D.W.; Kušan, I.; Matočec , N.; Maharachchikumbura, S.S.N.; Papizadeh, M.; Heredia, G.; Wartchow, F.; Bakhshi, M.; Boehm, E.; Youssef, N.; Hustad, V.P.; Lawrey, J.D.; Santiago, A.L.C.M.A.; Bezerra, J.D.P.; Souza-Motta, C.M.; Firmino, A.L.; Tian, Q.; Houbraken, J.; Hongsanan, S.; Tanaka, K.; Dissanayake, A.J.; Monteiro, J.S.; Grossart, H.P.; Suija, A.; Weerakoon, G.; Etayo, J.; Tsurykau, A.; Vázquez, V.; Mungai, P.; Damm, U.; Li, Q.R.; Zhang, H.; Boonmee, S.; Lu, Y.Z.; Becerra, A.G.; Kendrick, B.; Brearley, F.Q.; Motiejūnaitė, J.; Sharma, B.; Khare, R.; Gaikwad, S.; Wijesundara, D.S.A.; Tang, L.Z.; He, M.Q.; Flakus, A.; Rodriguez-Flakus, P.; Zhurbenko, M.P.; McKenzie, E.H.C.; Stadler, M.; Bhat, D.J.; Liu, J.K.; Raza, M.; Jeewon, R.; Nassonova, E.S.; Prieto, M.; Jayalal, R.G.U.; Erdoğdu, M.; Yurkov, A.; Schnittler, M.; Shchepin, O.N.; Novozhilov, Y.K.; Silva-Filho, A.G.S.; Liu, P.; Cavender, J.C.; Kang, Y.; Mohammad, S.; Zhang, L.F.; Xu, R.F.; Li, Y.M.; Dayarathne, M.C.; Ekanayaka, A.H.; Wen, T.C.; Deng, C.Y.; Pereira, O.L.; Navathe, S.; Hawksworth, D.L.; Fan, X.L.; Dissanayake, L.S.; Kuhnert, E.; Thines, M.
Dátum:
2020
ISSN:
2077-7019
Megjegyzések:
This article provides an outline of the classification of the kingdom Fungi (including fossil fungi. i.e. dispersed spores, mycelia, sporophores, mycorrhizas). We treat 19 phyla of fungi. These are Aphelidiomycota, Ascomycota, Basidiobolomycota, Basidiomycota, Blastocladiomycota, Calcarisporiellomycota, Caulochytriomycota, Chytridiomycota, Entomophthoromycota, Entorrhizomycota, Glomeromycota, Kickxellomycota, Monoblepharomycota, Mortierellomycota, Mucoromycota, Neocallimastigomycota, Olpidiomycota, Rozellomycota and Zoopagomycota. The placement of all fungal genera is provided at the class-, order- and family-level. The described number of species per genus is also given. Notes are provided of taxa for which recent changes or disagreements have been presented. Fungus-like taxa that were traditionally treated as fungi are also incorporated in this outline (i.e. Eumycetozoa, Dictyosteliomycetes, Ceratiomyxomycetes and Myxomycetes). Four new taxa are introduced: Amblyosporida ord. nov. Neopereziida ord. nov. and Ovavesiculida ord. nov. in Rozellomycota, and Protosporangiaceae fam. nov. in Dictyosteliomycetes. Two different classifications (in outline section and in discussion) are provided for Glomeromycota and Leotiomycetes based on recent studies. The phylogenetic reconstruction of a four-gene dataset (18S and 28S rRNA, RPB1, RPB2) of 433 taxa is presented, including all currently described orders of fungi.
Tárgyszavak:
Természettudományok
Biológiai tudományok
idegen nyelvű folyóiratközlemény külföldi lapban
folyóiratcikk
Microsporidia
Ascomycota
Amblyosporida ord. nov.
Basal clades
Emendation
Four new taxa
Neopereziida ord. nov.
Megjelenés:
Mycosphere. - 11 : 1 (2020), p. 1060-1456. -
További szerzők:
Hyde, Kevin D.
Al-Ani, L.K.T.
Tedersoo, L.
Haelewaters, Danny
Rajeshkumar, Kunhiraman C.
Zhao, R.L.
Aptroot, André
Leontyev, D. V.
Saxena, Krishna
Tokarev, Y. S.
Dai, Dong Qin
Letcher, P.M.
Stephenson, S.L.
Ertz, Damien
Lumbsch, H. Thorsten
Kukwa, Martin
Issi, I.V.
Madrid, Hugo
Phillips, Alan J. L.
Selbmann, Laura
Pfliegler Valter Péter (1986-) (molekuláris biológus)
Horváth Enikő (1987-) (biológus)
Bensch, Konstanze
Kirk, Paul M.
Kolaříková, K.
Raja, Huzefa A.
Radek, R.
Papp V.
Dima, B.
Ma, J.-X.
Malosso, E.
Takamatsu, Susumu
Rambold, G.
Gannibal, P.B.
Triebel, D.
Gautam, A.K.
Avasthi, S.
Suetrong, Satinee
Timdal, Einar
Fryar, S.C.
Delgado, G.
Réblová, M.
Doilom, Mingkwan
Dolatabadi, S.
Pawowska, J.
Humber, R.A.
Kodsueb, Rampai
Sánchez-Castro, I.
Goto, B. T.
Silva, D.K.A.
de Souza, F.A.
Oehl, F.
da Silva, G.A.
Silva, I.R.
Baszkowski, J.
Jobim, K.
Maia, L. C.
Barbosa, F. A. R.
Fiuza, Patrícia O.
Divakar, P.K
Shenoy, Belle D.
Castañeda-Ruiz, Rafael F.
Somrithipol, S.
Lateef, Adebola Azeez
Karunarathna, Samantha C.
Tibpromma, Saowaluck
Mortimer, Peter E.
Wanasinghe, Dhanushka N.
Phookamsak, Rungtiwa
Xu, J.
Wang, Y.
Tian, F.
Alvarado, P.
Li, D.W.
Kušan, I.
Matočec, N.
Maharachchikumbura, Sajeewa S. N.
Papizadeh, Moslem
Heredia, Gabriela
Wartchow, F.
Bakhshi, M.
Boehm, E.
Youssef, N.
Hustad, V. P.
Lawrey, J.D.
Santiago, A.L.C.M.A.
Bezerra, J.D.P.
Souza-Motta, C.M.
Firmino, A.L.
Tian, Qing
Houbraken, Jos
Hongsanan, S.
Tanaka, K.
Dissanayake, Asha J.
Monteiro, Josiane Santana
Grossart, Hans-Peter
Suija, Ave
Weerakoon, Gothamie
Etayo, Javier
Tsurykau, A.
Vázquez, V.
Mungai, P.
Damm, U.
Li, Q.R.
Zhang, H.
Boonmee, Saranyaphat
Lu, Y.Z.
Becerra, A.G.
Kendrick, B.
Brearley, Francis Q.
Motiejūnaitė, J.
Sharma, Bharati O.
Khare, R.
Gaikwad, Subhash
Wijesundara, D.S.A.
Tang, Li Zhou
He, M.Q.
Flakus, A.
Rodriguez-Flakus, P.
Zhurbenko, M.P.
McKenzie, E. H. C.
Stadler, M.
Bhat, D. Jayarama
Liu, Jian-Kui (Jack)
Raza, M.
Jeewon, Rajesh
Nassonova, E.S.
Prieto, Maria
Jayalal, R. G. U.
Erdoğdu, M.
Yurkov, Andrey
Schnittler, M.
Shchepin, O.N.
Novozhilov, Y.K.
Silva-Filho, A.G.S.
Liu, P.
Cavender, J.C.
Kang, Y.
Mohammad, S.
Zhang, L.F.
Xu, R.F.
Li, Y.M.
Dayarathne, Monika C.
Ekanayaka, Anusha H.
Wen, T.C.
Deng, C.Y.
Pereira, O.L.
Navathe, S.
Hawksworth, David L.
Fan, X. L.
Dissanayake, L.S.
Kuhnert, E.
Thines, M.
Internet cím:
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DOI
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