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Changes in climate-growth relationships in Larix decidua revealed by daily climatic data in the Tatra Mountains
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作者 Katarzyna Izworska Tomasz Zielonka Elżbieta Muter 《Forest Ecosystems》 2025年第6期1042-1049,共8页
Understanding climate-growth relationships is essential for adaptive forest management.By using a more detailed approach(daily climatic data),we sought to uncover finer-scale climatic effects on European larch(Larix d... Understanding climate-growth relationships is essential for adaptive forest management.By using a more detailed approach(daily climatic data),we sought to uncover finer-scale climatic effects on European larch(Larix decidua)growth in the Tatra Mountains(the Western Carpathians),providing a more nuanced understanding of the climate-growth response in the mountain ecosystem.We analyzed tree-ring width index(TRWI)chronology with daily mean temperature,insolation duration,and precipitation records from 1950 to 2019,and in two subperiods(1950-1984 and 1985-2019).Larch growth is strongly affected by temperature,insolation duration,and precipitation,but with different positive or negative influences and varied intensity across various subperiods.The climate-growth analysis indicates that larch benefited from warm,sunny,and dry late winters and springs,as well as warm summers during the entire analyzed period.However,in the last decades,the previously strong and significant influence of March-July temperature has mostly disappeared,becoming limited to only a few days(June).Notably,the formerly strong negative influence of summer and early autumn temperatures and insolation duration in the previous year disappeared.In the earlier subperiod,larch growth showed strong positive responses to late-summer/early autumn precipitation of the previous year and negative effects from spring to late-summer rainfall.In recent decades,these patterns have weakened but still limited the growth.Our results revealed significant changes in the larch growth response,highlighting its adaptability to fluctuating environmental conditions.In recent decades,the influence of temperature,insolation duration,and precipitation on radial growth has weakened,which suggests that climate change has had a positive impact on tree growth in the Tatra Mountains.These findings suggest that rising temperatures in European mountain regions may alter the climatic sensitivity of tree species.Understanding these changes is crucial to improving resilience-based management strategies in the face of climate change. 展开更多
关键词 Daily climate data Climate change Larix decidua Tree rings
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Fungal diversity notes 1818–1918:taxonomic and phylogenetic contributions on genera and species of fungi 被引量:1
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作者 Ishara S.Manawasinghe Kevin D.Hyde +152 位作者 Dhanushka N.Wanasinghe Samantha C.Karunarathna Sajeewa S.N.Maharachchikumbura Milan C.Samarakoon Hermann Voglmayr Ka‑Lai Pang Michael Wai‑Lun Chiang E.B.Gareth Jones Ramesh K.Saxena Arun Kumar Kunhiraman C.Rajeshkumar Laura Selbmann Claudia Coleine Yuwei Hu A.Martyn Ainsworth Kare Liimatainen Tuula Niskanen Anna Ralaiveloarisoa Elangovan Arumugam Kezhocuyi Kezo Malarvizhi Kaliyaperumal Sugantha Gunaseelan Asha J.Dissanayake Abdul Nasir Khalid Achala Jeevani Gajanayake Adam Flakus Alireza Armand AndréAptroot Andre Rodrigues Andrei Tsurykau Ángela López‑Villalba Antonio Roberto Gomes de Farias Antonio Sánchez Aristóteles Góes‑Neto Bruno T.Goto Carlos A.F.de Souza Charuwan Chuaseeharonnachai Chuan‑Gen Lin Cuijinyi Li Cvetomir M.Denchev Daniel Guerra‑Mateo Danushka S.Tennakoon De‑Ping Wei Dominik Begerow Eduardo Alves Elisandro Ricardo Drechsler‑Santos Enayra Silva Sousa Erika Valente de Medeiros Ewald Langer Fa Zhang Francisco A.de Souza Franco Magurno Gabriel G.Barreto Gabriel Moreno Gajanan Mane Genivaldo Alves‑Silva Gladstone Alves da Silva Guiyang Xia Hong‑Wei Shen Heng Gui Indunil C.Senanayake Janet Jennifer Luangsa‑ard Jia‑Wei Liu Jian‑Kui Liu Jian Ma Jie‑Ying Lin JoséEvando Aguiar Beserra Jr Jose F.Cano‑Lira Josepa Gené Kuniyil Harikrishnan Li Lu Lidiane A.dos Santos Lijian Xu Lorena T.Lacerda Luís F.P.Gusmão Marcela E.S.Cáceres Marcos Paz Saraiva Câmara Maria B.B.de Barros‑Barreto Mark S.Calabon Martin Kukwa Martin Kemler Maruzanete Pereira de Melo Masoomeh Ghobad‑Nejhad Mei Luo Mengmeng Ding Mingkwan Doilom Monthien Phonemany Muhammad Usman Naritsada Thongklang Nattawut Boonyuen Nikhil Ashtekar Nuwan D.Kularathnage Onden P.Sruthi Papichaya Kwantong Parayelil A.Ansil Pepijn W.Kooij Qi Zhao Rafael Ferreira Alfenas Rafael J.V.de Oliveira Raghvendra Singh Rejane Maria Ferreira da Silva Rameshwar Avchar Rashmi Morey Rohit Sharma Rong‑Ju Xu Rosa Mara B.da Silveira Rui‑Fang Xu Ruvishika S.Jayawardena Salna Nanu Salilaporn Nuankaew Saowaluck Tibpromma Saranyapath Boonmie Sayanh Somrithipol Sherin Varghese Silvino Intra Moreira Soumyadeep Rajwar Shu‑Cheng He T.K.Arun Kumar Teodor T.Denchev Thatsanee Luangharn Thays Gabrielle Lins de Oliveira Tian‑Ye Du Ting‑Chi Wen Tingting Du Tong Wu Veera Sri‑Indrasutdhi Vinson P.Doyle Vladimir Baulin Wei Dong Wen‑Li Li Wen‑Hua Lu Wenhui Tian Willie Anderson dos Vieira Wolfgang von Brackel Xian‑Dong Yu Xian Zhang Xiang‑Fu Liu Xing‑Can Peng Yanpeng Chen Yanyan Yang Ying Gao YinRu Xiong Yongxin Shu Yong‑Zhong Lu Yuan‑Min Shen Yueyan Zhou Yun Xia Zhang Wei Zhang Zong‑Long Luo Manawaduge Ayesha Madushani Ratchadawan Cheewangkoon Jia Ge Song Biao Xu 《Fungal Diversity》 2025年第1期1-261,共261页
This article is the 17th in the Fungal Diversity Notes series which allows the researchers to publish fungal collections with updated reports of fungus-host and fungus-geography.Herein we report 97 taxa with four new ... This article is the 17th in the Fungal Diversity Notes series which allows the researchers to publish fungal collections with updated reports of fungus-host and fungus-geography.Herein we report 97 taxa with four new genera distributed in three phyla(Ascomycota,Glomeromycota and Mucoromycota),11 classes,38 orders and 62 families collected from various regions worldwide.This collection is further classified into taxa from 69 genera with four novel genera namely Jinshana,Lithophyllospora,Parapolyplosphaeria and Stegonsporiicola.Furthermore,71 new species,21 new records,one new combination and four novel phylogenetic placements are provided.The new species comprise Acrocalymma estuarinum,Aggregatorygma isidiatum,Alleppeysporonites elsikii,Amphibambusa aquatica,Apiospora hongheensis,Arthrobotrys tachengensis,Calonectria potisiana,Collariella hongheensis,Colletotrichum squamosae,Corynespora chengduensis,Diaporthe beijingensis,Dicellaesporites plicatus,Dicellaesporites verrucatus,Dictyoarthrinium endophyticum,Distoseptispora chiangraiensis,Dothiora eucalypti,Epicoccum indicum,Exesisporites chandrae,Fitzroyomyces pseudopandanicola,Fomitiporia exigua,Fomitiporia rondonii,Fulvifomes subthailandicus,Gigaspora siqueirae,Gymnopus ailaoensis,Hyalorbilia yunnanensis,Hygrocybe minimiholatra,H.mitsinjoensis,H.parviholatra,H.solis,H.vintsy,Helicogermslita kunmingensis,Jinshana tangtangiae,Kirschsteiniothelia dujuanhuensis,Lamproderma subcristatum,Leucoagaricus madagascarensis,Leucocoprinus mantadiaensis,Lithophyllospora australis,Marasmius qujingensis,Melomastia aquilariae,Monoporisporites jansoniusii,M.pattersonii,Monoporisporites valdiyae,Mucispora maesotensis,Mucor soli,Muyocopron yunnanensis,Nigrospora tomentosae,Ocellularia psorirregularis,Ophiocordyceps duyunensis,Oxneriaria nigrodisca,Oxydothis aquatica,O.filiforme,Phacidiella xishuangbannaensis,Phlebiopsis subgriseofuscescens,Pleurothecium takense,Pleurotus tuber-regium,Pseudochaetosphaeronema puerensis,Pseudodactylaria guttulate,Racheliella chinensis,Rhexoacrodictys fangensis,Roussoella neoaquatica,Rubroboletus pruinosus,Sanghuangporus subzonatus,Scytalidium assmuthi,Shrungabeeja kudremukhensis,Spirographa skorinae,Stanjehughesia bambusicola,Stegonsporiicola aurantiaca,Umbelopsis hingganensis,Vararia tenuata,Verruconis pakchongensis,Wongia bandungensis,and Zygosporium cymodoceae.The new combination is Parapolyplosphaeria thailandica(≡Polyplosphaeria thailandica).The 21 new hosts,geographical and habitat records comprise Acrocalymma fici,Apiculospora spartii,Aspergillus subramanianii,Camposporium ramosum,Clonostachys rogersoniana,Colletotrichum brevisporum,C.plurivorum,Collybiopsis gibbosa,Dictyosporium tratense,Distoseptispora adscendens,Exosporium livistonae,Ganoderma gibbosum,Graphis mikuraensis,Gymnosporangium paraphysatum,Lasiodiplodia thailandica,Moesziomyces bullatus,Penicillium cremeogriseum,P.echinulonalgiovense,P.javanicum,P.lanosocoeruleum,P.polonicum,and Pleurotus tuber-regium.Graphis chlorotica,G.panhalensis and G.parilis are given as novel phylogenetic placements.In addition,we provide the morphology of Tarzetta tibetensis which was missing in the previous Fungal Diversity Notes 1611–1716.Identification of characterization of all these taxa are supported by morphological and multigene phylogenetic analyses. 展开更多
关键词 71 new species 21 new records 4 new genera ASCOMYCOTA Basidiomycota DOTHIDEOMYCETES Fossil fungi LECANOROMYCETES Leotiomycetes GLOMEROMYCOTA SORDARIOMYCETES
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Towards a revised generic classification of lecanoroid lichens(Lecanoraceae,Ascomycota)based on molecular,morphological and chemical evidence 被引量:1
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作者 Xin Zhao Steven D.Leavitt +10 位作者 Zun Tian Zhao Lu Lu Zhang Ulf Arup Martin Grube Sergio Pérez-Ortega Christian Printzen LucynaŚliwa Ekaphan Kraichak Pradeep K.Divakar Ana Crespo H.Thorsten Lumbsch 《Fungal Diversity》 SCIE 2016年第3期293-304,共12页
Abstract The phylogenetic relationship of lecanoroid lichens is studied using two data sets:1)a 2-locus data set including 251 OTUs representing 150 species,and 2)a 6-locus data set with 82 OTUs representing 53 specie... Abstract The phylogenetic relationship of lecanoroid lichens is studied using two data sets:1)a 2-locus data set including 251 OTUs representing 150 species,and 2)a 6-locus data set with 82 OTUs representing 53 species.The genus Lecanora as currently circumscribed is shown to be highly polyphyletic and several genera,including Adelolecia,Arctopeltis,Bryonora,Carbonea,Frutidella,Lecidella,Miriquidica,Palicella,Protoparmeliopsis,Pyrrhospora,and Rhizoplaca are nested within Lecanora sensu lato.A core group of Lecanora is supported as monophyletic and includes species of the L.carpinea,L.rupicola,and L.subcarnea groups,and a core group of the L.subfusca group.Three monophyletic clades that are well supported in our analyses and well characterized by phenotypical characters are accepted here:1)Myriolecis to accommodate the Lecanora dispersa group and Arctopeltis;2)Protoparmeliopsis for the L.muralis group;and 3)Rhizoplaca is emended to include three placodioid taxa previously classified in Lecanora(L.novomexicana.L.opiniconensis,L.phaedrophthalma),whereas R.aspidophora and R.peltata are excluded from Rhizoplaca.The latter is transferred into Protoparmeliopsis.Lecidella is strongly supported as a monophyletic group.Our studies indicate the presence of additional clades of species currently placed in Lecanora sensu lato that warrant taxonomic recognition but additional data will be necessary before the circumscription of these entities is fully understood.37 new combinations are proposed into the genera Myriolecis(30),Protoparmeliopsis(2),and Rhizoplaca(5). 展开更多
关键词 Arctopeltis CLASSIFICATION Generic concept LECANORA Lichenized fungi Myriolecis Rhizoplaca Protoparmeliopsis Rhizoplaca TAXONOMY
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Forecasting the number of species of asexually reproducing fungi(Ascomycota and Basidiomycota) 被引量:2
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作者 Nalin N.Wijayawardene Alan J.L.Phillips +21 位作者 Diana Santos Pereira Dong-Qin Dai AndréAptroot Josiane S.Monteiro Irina S.Druzhinina Feng Cai Xinlei Fan Laura Selbmann Claudia Coleine Rafael F.Castañeda-Ruiz Martin Kukwa Adam Flakus Patricia Oliveira Fiuza Paul M.Kirk Kunhiraman C.Rajesh Kumar Ilesha S.leperuma Arachchi Nakarin Suwannarach Li-Zhou Tang Teun Boekhout Chen Shuhui Tan R.P.Prabath K.Jayasinghe Marco Thines 《Fungal Diversity》 SCIE 2022年第3期463-490,共28页
Asexually reproducing fungi play a significant role in essential processes in managed and wild ecosystems such as nutrients cycling and multitrophic interactions.A large number of such taxa are among the most notoriou... Asexually reproducing fungi play a significant role in essential processes in managed and wild ecosystems such as nutrients cycling and multitrophic interactions.A large number of such taxa are among the most notorious plant and animal pathogens.In addition,they have a key role in food production,biotechnology and medicine.Taxa without or rare sexual reproduction are distinguished based on their sporulating structures and conidiomata in traditional morphology-based taxonomy.The number,variation and diversity of asexually reproducing taxa are insufficiently known,even though fungi capable of asexual reproduction may provide an untapped,rich biological resource for future exploitation.Currently,ca.30,000 asexual species belonging to ca.3800 genera have been reported(including 1388 coelomycetous and 2265 hyphomycetous genera).Recent reports(2017–2020)reiterate that the number of asexually producing fungi is higher than the number of frequently sexually-reproducing fungi.With the advent of molecular tools and the abandonment of the dual nomenclature system for pleomorphic fungi,priority criteria were established and revisited in the latest outline of fungi and fungus-like taxa.However,species numbers and taxonomic boundaries of pleomorphic taxa and their synanamorphs or synasexual morphs have yet to be addressed.The number of species of speciose genera(e.g.Alternaria,Aspergillus,Cercospora,Fusarium,Phoma and Pseudocercospora),cryptic species,species of pleomorphic genera,less studied life modes(such as lichenicolous taxa,taxa from extreme environments)and species from biodiversity-rich areas still need evaluation to achieve more reliable estimates of their diversity.This paper discusses the current knowledge on the matter,with diversity estimates,and potential obstacles in several chapters on(1)speciose genera;(2)pleomorphic genera;(3)cryptic species;(4)well-studied but insufficiently resolved taxa,e.g.leaf inhabiting species,marine fungi,(5)less studied life modes,e.g.lichenicolous,rock-inhabiting fungi,insect-associated and yeast-forming taxa and(6)species from biodiversity-rich areas. 展开更多
关键词 Cryptic species DNA sequences Morphology Pleomorphism Speciose genera Species identificat
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Naming and outline of Dothideomycetes-2014 including proposals for the protection or suppression of generic names 被引量:6
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作者 Nalin N.Wijayawardene Pedro W.Crous +49 位作者 Paul M.Kirk David L.Hawksworth Saranyaphat Boonmee Uwe Braun Dong-Qin Dai Melvina J.D’souza Paul Diederich Asha Dissanayake Mingkhuan Doilom Singang Hongsanan E.B.Gareth Jones Johannes Z.Groenewald Ruvishika Jayawardena James D.Lawrey Jian-Kui Liu Robert Lücking Hugo Madrid Dimuthu S.Manamgoda Lucia Muggia Matthew P.Nelsen Rungtiwa Phookamsak Satinee Suetrong Kazuaki Tanaka Kasun M.Thambugala Dhanushka N.Wanasinghe Saowanee Wikee Ying Zhang Andre Aptroot H.A.Ariyawansa Ali H.Bahkali D.Jayarama Bhat Cécile Gueidan Putarak Chomnunti G.Sybren De Hoog Kerry Knudsen Wen-Jing Li Eric H.C.McKenzie Andrew N.Miller Alan J.L.Phillips Marcin Piatek Huzefa A.Raja Roger S.Shivas Bernad Slippers Joanne E.Taylor Qing Tian Yong Wang Joyce H.C.Woudenberg Lei Cai Walter M.Jaklitsch Kevin D.Hyde 《Fungal Diversity》 SCIE 2014年第6期1-55,共55页
Article 59.1,of the International Code of Nomenclature for Algae,Fungi,and Plants(ICN;Melbourne Code),which addresses the nomenclature of pleomorphic fungi,became effective from 30 July 2011.Since that date,each funga... Article 59.1,of the International Code of Nomenclature for Algae,Fungi,and Plants(ICN;Melbourne Code),which addresses the nomenclature of pleomorphic fungi,became effective from 30 July 2011.Since that date,each fungal species can have one nomenclaturally correct name in a particular classification.All other previously used names for this species will be considered as synonyms.The older generic epithet takes priority over the younger name.Any widely used younger names proposed for use,must comply with Art.57.2 and their usage should be approved by the Nomenclature Committee for Fungi(NCF).In this paper,we list all genera currently accepted by us in Dothideomycetes(belonging to 23 orders and 110 families),including pleomorphic and nonpleomorphic genera.In the case of pleomorphic genera,we follow the rulings of the current ICN and propose single generic names for future usage.The taxonomic placements of 1261 genera are listed as an outline.Protected names and suppressed names for 34 pleomorphic genera are listed separately.Notes and justifications are provided for possible proposed names after the list of genera.Notes are also provided on recent advances in our understanding of asexual and sexual morph linkages in Dothideomycetes.A phylogenetic tree based on four gene analyses supported 23 orders and 75 families,while 35 families still lack molecular data. 展开更多
关键词 Article 59.1 ASCOMYCOTA One name Phylogeny Pleomorphism
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Turbo-taxonomy to assemble a megadiverse lichen genus:seventy new species of Cora(Basidiomycota:Agaricales:Hygrophoraceae),honouring David Leslie Hawksworth’s seventieth birthday 被引量:1
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作者 Robert Lücking Manuela Dal Forno +50 位作者 Bibiana Moncada Luis Fernando Coca Leidy Yasmín Vargas-Mendoza AndréAptroot Laura Juliana Arias Betty Besal Frank Bungartz Diego Mauricio Cabrera-Amaya Marcela E.S.Cáceres JoséLuis Chaves Sionara Eliasaro Martha Cecilia Gutiérrez Jesús E.Hernández Marin María de losÁngeles Herrera-Campos María E.Holgado-Rojas Harald Jonitz Martin Kukwa Fabiane Lucheta Santiago Madriñán Marcelo Pinto Marcelli Suzana Maria de Azevedo Martins Joel A.Mercado-Díaz Jorge Alberto Molina Eduardo A.Morales Peter R.Nelson Freddy Nugra Francisco Ortega Telma Paredes Ayda Lucía Patiño Rouchi Nadine Peláez-Pulido Rosa Emilia Pérez Pérez Gary B.Perlmutter Eimy Rivas-Plata Javier Robayo Camilo Rodríguez Diego Fernando Simijaca Edier Soto-Medina Adriano Afonso Spielmann Alejandra Suárez-Corredor Jean-Marc Torres Carlos Alberto Vargas Alba Yánez-Ayabaca Gothamie Weerakoon Karina Wilk Marcela Celis Pacheco Mauricio Diazgranados Grischa Brokamp Thomas Borsch Patrick M.Gillevet Masoumeh Sikaroodi James D.Lawrey 《Fungal Diversity》 SCIE 2017年第3期139-207,共69页
Following a large-scale phylogenetic study of the lichenized genus Cora(Basidiomycota:Agaricales:Hygrophoraceae),we formally describe 70 new species,honouring the seventieth birthday of David Leslie Hawksworth,one of ... Following a large-scale phylogenetic study of the lichenized genus Cora(Basidiomycota:Agaricales:Hygrophoraceae),we formally describe 70 new species,honouring the seventieth birthday of David Leslie Hawksworth,one of the preeminent figures in mycology and lichenology in the past 50 years.Based on an updated phylogeny using the ITS fungal barcoding locus,we now recognize 189 taxa in a genus that until recently was considered to represent a single species;including this contribution,92 of these are formally recognized,including five taxa based on historical names or collections that have not been sequenced.Species of Cora can be recognized by a combination of morphological(size,colour,lobe configuration,surface hairs,hymenophore size and shape),anatomical(thallus thickness,cortex structure,photobiont type,hyphal papillae),and ecogeographical features(substrate,habitat,distribution),and a keytable allowing the identification of all accepted taxa is provided.The new species are:Cora accipiter Moncada,Madrin˜a´n&Lücking spec.nov.,C.applanata Moncada,Soto-Medina&Lücking spec.nov.,C.arachnodavidea Moncada,Dal Forno&Lücking spec.nov.,C.arborescens Dal Forno,Chaves&Lücking spec.nov.,C.arcabucana Moncada,C.Rodrı´guez&Lücking spec.nov.,C.aturucoa Lücking,Moncada&C.Vargas spec.nov.,C.auriculeslia Moncada,Ya´nez-Ayabaca&Lücking spec.nov.,C.barbifera Moncada,Patin˜o&Lücking spec.nov.,C.boleslia Lücking,E.Morales&Dal Forno spec.nov.,C.caliginosa Holgado,Rivas Plata&Perlmutter spec.nov.,C.campestris Dal Forno,Eliasaro&Spielmann spec.nov.,C.canari Nugra,Dal Forno&Lücking spec.nov.,C.caraana Lücking,Martins&Lucheta spec.nov.,C.casasolana Moncada,R.-E.Pe´rez&Lücking spec.nov.,C.caucensis Moncada,M.Gut.&Lücking spec.nov.,C.celestinoa Moncada,CabreraAmaya&Lücking spec.nov.,C.comaltepeca Moncada,R.-E.Pe´rez&Herrera-Camp.spec.nov.,C.corani Lücking,E.Morales&Dal Forno spec.nov.,C.corelleslia Moncada,A.Sua´rez-Corredor&Lücking spec.nov.,C.crispoleslia Moncada,J.Molina&Lücking spec.nov.,C.cuzcoensis Holgado,Rivas Plata&Perlmutter spec.nov.,C.dalehana Moncada,Madrin˜a´n&Lücking spec.nov.,C.davibogotana Lücking,Moncada&Coca spec.nov.,C.davicrinita Moncada,Madrin˜a´n&Lücking spec.nov.,C.davidia Moncada,L.Vargas&Lücking spec.nov.,C.dewisanti Moncada,A.Sua´rez-Corredor&Lücking spec.nov.,C.dulcis Moncada,R.-E.Pe´rez&Lücking spec.nov.,C.elephas Lücking,Moncada&L.Vargas spec.nov.,C.fuscodavidiana Lücking,Moncada&L.Vargas spec.nov.,C.garagoa Simijaca,Moncada&Lücking spec.nov.,C.gigantea Lücking,Moncada&Coca spec.nov.,C.gomeziana Dal Forno,Chaves&Lücking spec.nov.,C.guajalitensis Lücking,Robayo&Dal Forno spec.nov.,C.hafecesweorthensis Moncada,Lücking&R.Pela´ez spec.nov.,C.haledana Dal Forno,Chaves&Lücking spec.nov.,C.hawksworthiana Dal Forno,P.Nelson&Lücking spec.nov.,C.hochesuordensis Lücking,E.Morales&Dal Forno spec.nov.,C.hymenocarpa Lücking,Chaves&Lawrey spec.nov.,C.imi Lücking,Chaves&Lawrey spec.nov.,C.itabaiana Dal Forno,Aptroot&M.Ca´ceres spec.nov.,C.leslactuca nov.,C.maxima Wilk,Dal Forno&Lücking spec.nov.,C.minutula Lücking,Moncada&Ya´nez-Ayabaca spec.nov.,C.palaeotropica Weerakoon,Aptroot&Lücking spec.nov.,C.palustris Dal Forno,Chaves&Lücking spec.nov.,C.parabovei Dal Forno,Kukwa&Lücking spec.nov.,C.paraciferrii Lücking,Moncada&J.E.Hern.spec.nov.,C.paraminor Dal Forno,Chaves&Lücking spec.nov.,C.pastorum Moncada,Patin˜o&Lücking spec.nov.,C.pichinchensis Paredes,Jonitz&Dal Forno spec.nov.,C.pikynasa J.-M.Torres,Moncada&Lücking spec.nov.,C.pseudobovei Wilk,Dal Forno&Lücking spec.nov.,C.pseudocorani Lücking,E.Morales&Dal Forno spec.nov.,C.putumayensis L.J.Arias,Moncada&Lücking spec.nov.,C.quillacinga Moncada,F.Ortega&Lücking spec.nov.,C.rothesiorum Moncada,Madrin˜a´n&Lücking spec.nov.,C.rubrosanguinea Nugra,Moncada&Lücking spec.nov.,C.santacruzensis Dal Forno,Bungartz&Ya´nezAyabaca,spec.nov.,C.schizophylloides Moncada,C.Rodrı´guez&Lücking spec.nov.,C.smaragdina Lücking,Rivas Plata&Chaves spec.nov.,C.soredavidia Dal Forno,Marcelli&Lücking spec.nov.,C.subdavicrinita Moncada,J.Molina&Lücking spec.nov.,C.suturifera Nugra,Besal&Lücking spec.nov.,C.terrestris Dal Forno,Chaves&Lücking spec.nov.,C.terricoleslia Wilk,Dal Forno&Lücking spec.nov.,C.udebeceana Moncada,R.Pela´ez&Lücking,Moncada&R.Pela´ez spec.Lücking spec.nov.,C.urceolata Moncada,Coca&Lücking spec.nov.,C.verjonensis Lücking,Moncada&Dal Forno spec.nov.,C.viliewoa Lücking,Chaves&Soto-Medina spec.nov.,and C.yukiboa Mercado-Dı´az,Moncada&Lücking spec.nov.Furthermore,the taxonomic status of the recently described or recognized species C.arachnoidea,C.aspera,C.ciferrii,and C.reticulifera,is revised. 展开更多
关键词 Bolivia Citizen science Chile Mexico Puerto Rico Sri Lanka
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Fungal diversity notes 1919–2016:taxonomic and phylogenetic contributions to fungal taxa
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作者 Bin Cao Dorji Phurbu +116 位作者 Anna Ralaiveloarisoa Kare Liimatainen Tuula Niskanen Virginia Ramírez‑Cruz Alexander James Bradshaw Bryn TMDentinger Florencia Ramírez‑Guillén Alonso Cortés‑Pérez Laura Guzmán‑Dávalos Alma Rosa Villalobos‑Arámbula Oscar Castro‑Jauregui Paula Santos da Silva Rory Day Naveed Davoodian Teresa Lebel Michael Castellano Tom WMay Merje Toome Jack Vasey Katharina Hofer Rajaram Thangavel Mark Braithwaite Lewis Braithwaite Arun Kumar Dutta Pinaki Chattopadhyay Niranjan Roy Bhaben Tanti Pinky Rani Biswas Elangovan Arumugam Kezhocuyi Kezo Malarvizhi Kaliyaperumal Ramesh Murugadoss Jing‑Xin Ji Makoto Kakishima Jerry Cooper Jorinde Nuytinck Zong‑Long Luo Wen‑Peng Wang Xian Zhang Ting‑Chi Wen Ao‑Li Jia Xin‑Lei Fan Ning Jiang Ning Jiao Ying Zhang Ishara SManawasinghe Hua Li Yin‑Ru Xiong Tao Zhou Qing‑Ling Tan Tamotsu Hoshino Phaedra Lagaet Ruben De Lange Annemieke Verbeken Lowie Tondeleir Cathrin Manz Felix Hampe Chang‑Lin Zhao Yang Yang Gui‑Qing Zhang Dong‑Qin Dai Michal Tomšovsky Teodor TDenchev Cvetomir MDenchev étienne Léveillé‑Bourret Martin Kemler Yan‑Peng Chen Sajeewa SNMaharachchikumbura Zi‑Xuan Feng Long Wang Qi‑Ming Wang Shan‑Ping Wan Fu‑Qiang Yu Jian‑Kui Liu Hong‑Zhi Du Na Wu Hong‑Li Hu Ji‑Yu Su Zong‑Hua Wang Yan‑Ping Hu Hao Yu Jing Wang Yi‑Hua Yang Wei Dong Yong‑Xin Shu Hai‑Jun Zhao Chao‑Qun Wang Wen‑Xiao Xia Chun‑Fang Liao Mingkwan Doilom Guo‑Jie Li Nakarin Suwannarach Chanokned Senwanna Yusufjon Gafforov Adam Flakus Tomasz Suchan Oscar Plata Pamela Rodriguez‑Flakus Juna Tamang Krishnendu Acharya Hong‑De Yang Ruvishika Shehali Jayawardena Assiata Tiendrebeogo Cony Decock Irénée Somda Anne Legrève Yu Yang Yuan‑Pin Xiao Xian‑Zhi Zhou Jia‑Xin Li Naritsada Thongklang Xi‑Xi Han Wen‑Qiang Yang Shi‑Hui Wang Mao‑Qiang He Kevin DHyde Rui‑Lin Zhao 《Fungal Diversity》 2025年第3期425-651,共227页
This article is the 18th contribution to the Fungal Diversity Notes series,in which we document 98 taxa across two phyla,eight classes,21 orders,46 families,and 59 genera.The represent samples of taxa were collected f... This article is the 18th contribution to the Fungal Diversity Notes series,in which we document 98 taxa across two phyla,eight classes,21 orders,46 families,and 59 genera.The represent samples of taxa were collected from a diverse range of regions,including Australia,Benin,Bolivia,Burkina Faso,Cameroon,Canada,China,Czechia,India,Japan,Madagascar,Mexico,New Zealand,Sri Lanka,Thailand,Togo,USA,Uzbekistan and Venezuela.Among these,we introduce one new genus,59 new species,13 new combinations,one new name and 24 new records,along with information on their hosts and geographic distributions.The newly introduced genus is Fusicastoreum,and the newly described species include:Acrogenospora guangxiensis,Agaricus longistipitatus,A.sunanensis,Anthosulcatispora sichuanensis,Anthracoidea siccatae,Bjerkandera meridionalis,Camarophyllopsis brunnea,Candolleomyces analalavaensis,C.kely,C.macrosporus,Ceriporia yunnanensis,Choiromyces mongolicus,Colletotrichum duohuaense,Coprinus variicolor,Cystoderma alticola,C.microspore,C.yadongense,Cytospora lhaluensis,Diaporthe amberina,D.mangiferae,Elsinoe fuzhouensis,Epicocum maxima,Fulvifomes shailashikhara,Fusarium tuberculatum,Fusicastoreum arenarium,F.occidentale,F.pisiglareum,F.trappei,Gyalidea lluxitensis,Gymnopilus rimopileus,Hohenbuehelia triloba,Hymenagaricus ruber,Hypholoma darjeelingensis,Laccaria guizhouensis,Lactifluus aureoelephanti,L.croceivillus,Leucoagaricus ankarafantsikaensis,L.rutilus,Micropsalliota squamulosa,M.vinacea,Neomyrmecridium triseptatum,Niesslia wurfbainiae,Nigropunctata conspicosa,Ophiocordyceps jilinensis,Oxydothis dehongensis,Panaeolus ranwuensis,Pestalotiopsis buxicola,Pleurocordyceps puerensis,Pseudocercospora cunninghamia,Psilocybe zhushanensis,Remotididymella tachibana,Russula gaoligongensis,R.guilinensis,R.pseudovirescens,Sarocladium solani,Septoriella saviya-ramazanovaii,Seriascoma oblonga,Talaromyces pseudorugulosus and Tricholosporum madagascariense.Additionally,species newly transferred from Psilocybe include Deconica caespitosa,D.californica,D.goniospora,D.josecastilloi,D.latispora,D.novozoncuantlensis,D.oregonensis,D.venezuelana and D.vialis.Russula afroscrobiculata is newly transferred from Lactarius afroscrobiculatus,and Puccinia hamamelidis,P.hydrangeicola,P.philadelphi are newly transferred from Aecidium.Furthermore,the new name Puccinia shojiana is proposed as a replacement for Aecidium akebiae.The 24 new records of hosts and geographical distributions include:Agaricus pallidobrunneus,Bovista cretacea,Candolleomyces subsingeri,Clitopilus chichawatniensis,Collybiopsis gibbosa,C.subumbilicata,Curvularia geniculate,Cystoderma japonicum,Cytospora diatrypelloidea,C.schulzeri,Elsinoe leucospermi,Fulvifomes aurantiacus,Laccaria macrobasidia,Menisporopsis pandanicola,M.pirozynskii,Multifurca pseudofurcata,Musicillium elettariae,Myrmecridium pulvericola,Ophiocordyceps asiana,O.campes,Phellinus resupinatus,Phylloporia afrospathulata,Tropicoporus linteus and Typhula incarnate.All taxa are supported by both morphological and phylogenetic analyses. 展开更多
关键词 ASCOMYCOTA BASIDIOMYCOTA New combination New genus New name New record New species
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Fungal diversity notes 1611-1716:taxonomic and phylogenetic contributions on fungal genera and species emphasis in south China 被引量:2
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作者 Indunil C.Senanayake Walter Rossi +104 位作者 Marco Leonardi Alex Weir Mark McHugh Kunhiraman C.Rajeshkumar Rajnish K.Verma Samantha C.Karunarathna Saowaluck Tibpromma Nikhil Ashtekar Sreejith K.Ashtamoorthy Sanjay Raveendran Gurmeet Kour Aishwarya Singh Saúl De la Peña-Lastra Antonio Mateos Miroslav Kolařík Vladimír Antonín HanaŠevčíková Fernando Esteve-Raventós Ellen Larsson Fermín Pancorbo Gabriel Moreno Alberto Altés Yolanda Turégano Tian-Ye Du Li Lu Qi-Rui Li Ji-Chuan Kang Sugantha Gunaseelan Kezhocuyi Kezo Malarvizhi Kaliyaperumal Jizhen Fu Milan C.Samarakoon Yusufjon Gafforov Shakhnoza Teshaboeva Pradeep C.Kunjan Arya Chamaparambath Adam Flakus Javier Etayo Pamela Rodriguez-Flakus Mikhail P.Zhurbenko Nimali Ide Silva Danushka S.Tennakoon KPDeepna Latha Patinjareveettil Manimohan KNAnil Raj Mark S.Calabon Abdollah Ahmadpour Zeinab Heidarian Zahra Alavi Fatemeh Alavi Youbert Ghosta Razmig Azizi Mei Luo Min-Ping Zhao Nuwan D.Kularathnage Li Hua Yun-Hui Yang Chun-Fang Liao Hai-Jun Zhao Anis S.Lestari Subashini C.Jayasiri Feng-Ming Yu Lei Lei Jian-Wei Liu Omid Karimi Song-Ming Tang Ya-Ru Sun Yong Wang Ming Zeng Zin H.Htet Benedetto T.Linaldeddu Artur Alves Alan J.L.Phillips Carlo Bregant Lucio Montecchio AndréDe Kesel Vincent P.Hustad Andrew N.Miller Anna G.Fedosova Viktor Kučera Mubashar Raza Muzammil Hussain Yan-Peng Chen Vinodhini Thiyagaraja Deecksha Gomdola Achala R.Rathnayaka Asha J.Dissanayake Nakarin Suwannarach Sinang Hongsanan Sajeewa S.N.Maharachchikumbura Lakmali S.Dissanayake Nalin N.Wijayawardene Rungtiwa Phookamsak Saisamorn Lumyong E.B.Gareth Jones Neelamanie Yapa Dhanushka N.Wanasinghe Ning Xie Mingkwan Doilom Ishara S.Manawasinghe Jian-Kui(Jack)Liu Qi Zhao Biao Xu Kevin D.Hyde Jiage Song 《Fungal Diversity》 SCIE 2023年第5期161-403,共243页
This article is the 15th contribution in the Fungal Diversity Notes series,wherein 115 taxa from three phyla,nine classes,28 orders,48 families,and 64 genera are treated.Fungal taxa described and illustrated in the pr... This article is the 15th contribution in the Fungal Diversity Notes series,wherein 115 taxa from three phyla,nine classes,28 orders,48 families,and 64 genera are treated.Fungal taxa described and illustrated in the present study include a new family,five new genera,61 new species,five new combinations,one synonym,one new variety and 31 records on new hosts or new geographical distributions.Ageratinicolaceae fam.nov.is introduced and accommodated in Pleosporales.The new genera introduced in this study are Ageratinicola,Kevinia,Pseudomultiseptospora(Parabambusicolaceae),Marasmiellomycena,and Vizzinia(Porotheleaceae).Newly described species are Abrothallus altoandinus,Ageratinicola kunmingensis,Allocryptovalsa aceris,Allophoma yuccae,Apiospora cannae,A.elliptica,A.pallidesporae,Boeremia wisteriae,Calycina papaeana,Clypeo-coccum lichenostigmoides,Coniochaeta riskali-shoyakubovii,Cryphonectria kunmingensis,Diaporthe angustiapiculata,D.campylandrae,D.longipapillata,Diatrypella guangdongense,Dothiorella franceschinii,Endocalyx phoenicis,Epicoc-cum terminosporum,Fulvifomes karaiensis,F.pannaensis,Ganoderma ghatensis,Hysterobrevium baoshanense,Inocybe avellaneorosea,I.lucida,Jahnula oblonga,Kevinia lignicola,Kirschsteiniothelia guangdongensis,Laboulbenia caprina,L.clavulata,L.cobiae,L.cosmodisci,L.nilotica,L.omalii,L.robusta,L.similis,L.stigmatophora,Laccaria rubriporus,Lasiodiplodia morindae,Lyophyllum agnijum,Marasmiellomycena pseudoomphaliiformis,Melomastia beihaiensis,Nemania guangdongensis,Nigrograna thailandica,Nigrospora ficuum,Oxydothis chinensis,O.yunnanensis,Petriella thailandica,Phaeoacremonium chinensis,Phialocephala chinensis,Phytophthora debattistii,Polyplosphaeria nigrospora,Pronectria loweniae,Seriascoma acutispora,Setoseptoria bambusae,Stictis anomianthi,Tarzetta tibetensis,Tarzetta urceolata,Tetraploa obpyriformis,Trichoglossum beninense,and Tricoderma pyrrosiae.We provide an emendation for Urnula ailaoshanensis Agaricus duplocingulatoides var.brevisporus introduced as a new variety based on morphology and phylogeny. 展开更多
关键词 AGARICOMYCETES ASCOMYCOTA Basidiomycota DOTHIDEOMYCETES Eurotiomycetes Fungal diversity Geoglossomycetes Geographical distribution Host records Incertae sedis Laboulbeniomycetes LECANOROMYCETES Leotiomycetes Novel taxa New combination OOMYCOTA Peronosporea Pezizomycetes Phylogeny SORDARIOMYCETES South Chinese fungi Taxonomy
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Fungal diversity notes 2017-2122:taxonomic and phylogenetic contributions to freshwater fungi and other fungal taxa
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作者 Wei Dong Kevin D.Hyde +135 位作者 Rajesh Jeewon Samantha C.Karunarathna Huang Zhang Walter Rossi Marco Leonardi Kezhocuyi Kezo Malarvizhi Kaliyaperumal Yong‑Xin Shu Chun‑Lin Yang Fei‑Hu Wang Feng Liu Jian Ma Jing‑Yi Zhang Yong‑Zhong Lu Mohamed A.Abdel‑Wahab Ana F.Leão Fábio A.Custódio Thiago O.Condé Olinto L.Pereira Chun‑Fang Liao Hai‑Jun Zhao Rong‑Ju Xu Qi Zhao Tian‑Ye Du Saowaluck Tibpromma Jutamart Monkai Saisamorn Lumyong Shu‑Cheng He Digvijayini Bundhun Yu Yang Yuanpin Xiao Danushka S.Tennakoon Li‑Su Han Dong‑Qin Dai Hua Li Yunhui Yang Ishara Sandeepani Manawasinghe Nimali I.de Silva Mark S.Calabon Guang‑Cong Ren De‑Ping Wei Ting‑Chi Wen Xia Tang Alireza Armand Ruvishika S.Jayawardena Raghvendra Singh Soumyadeep Rajwar Shambhu Kumar Yan‑Yan Yang Entaj Tarafder Krishnendu Acharya Hong‑Wei Shen Zong‑Long Luo Jian‑Wei Liu Fu‑Qiang Yu Yan‑Xia Li Yanpeng Chen Sajeewa S.N.Maharachchikumbura Shivannegowda Mahadevakumar Pullabhotla V.S.R.N.Sarma Chalasani Danteswari Appa Rao Podile Siddaiah Chandranayaka Jafar Abdollahzadeh Pezhman Amirashayeri Sodabeh Piri Kakihai Samaneh Bashiri Filip Karpowicz Stanislav Glejdura Vladimir Kunca Anna Ronikier MichałRonikier Ryszard Rutkowski Piotr Mleczko Nakarin Suwannarach Jaturong Kumla Chanokned Senwanna Yusufjon Gafforov Massimo Sanna Alberto Mua Giuseppe Porcu Marco Casula Andrea C.Rinaldi Leila Mohammadi Hamidi Abdollah Ahmadpour Youbert Ghosta Magdalena Oset Martin Kukwa Beata Guzow‑Krzemińska Muhammad Usman Abdul Nasir Khalid Emilia Anna Ossowska Magdalena Kosecka Steven L.Miller Terry W.Henkel M.Catherine Aime Oğuzhan Kaygusuz Ditte Bandini Meike Piepenbring Aisulu Kabdraisova Sten Svantesson Renato Juciano Ferreira María P.Martín Iuri Goulart Baseia Levente Kiss Yu Pei Tan Niloofar Vaghefi Roger G.Shivas Li‑Jia Chen Song‑Qi Cheng Yu‑Shan Liang Liu‑Huan Chen Naveenkumar Chellapan Elangovan Arumugam Vigneshwari Vasan Priyadarshini Subramani Ramesh Murugadoss Naghmeh Afshari Deecksha Gomdola Ya‑Ru Sun Pranami D.Abeywickrama Ying Gao Antonio Roberto Gomes de Farias Heng Gui Leila Suduri Mohammad Javan‑Nikkhah Esmaeil Hashemlou Xing‑Guo Tian Patricia Velez Abril Hernandez‑Monroy Jaime Gasca‑Pineda Asha J.Dissanayake Napalai Chaiwan Na Wu Indunil Chinthani Senanayake Mingkwan Doilom 《Fungal Diversity》 2025年第5期185-459,共275页
This article is the 19th contribution to the fungal diversity notes series,in which 106 taxa distributed in 3 phyla,11 classes,35 orders,and 64 families are treated.Taxa described in the present study include a new fa... This article is the 19th contribution to the fungal diversity notes series,in which 106 taxa distributed in 3 phyla,11 classes,35 orders,and 64 families are treated.Taxa described in the present study include a new family,5 new genera,69 new species,3 new combinations,25 new host,habitat,and geographical records,a new name,a new collection,as well as reinstating a previously suppressed genus.The newly established family is Parasporidesmiaceae and the five new genera described herein are Dematiodidymosporum,Neoacrogenospora,Parasporidesmium,Speluncomyces,and Uniomyces.The 69 new species are Acrocalymma triseptatum,Agaricus darjeelingensis,Annellophorella aquatica,Anteaglonium menghaiense,Balsamia microspora,Bambusicola dehongensis,Barriopsis menglaense,Benjaminiomyces bergonzoi,Camporesiomyces aquaticus,Camporesiomyces wurfbainiae,Cercospora palmata,Chrysomphalina cantharella,Colletotrichum heteropanacicola,Conioscypha guizhouensis,Conioscypha yadongensis,Cora dalfornoae,Cylindromonium brasiliense,Dematiodidymosporum aquaticum,Distoseptispora dinghuensis,Distoseptispora zunyiensis,Ebollia neocarnea,Eudimeromyces aequatorialis,Eudimeromyces euconni,Funalia indica,Fuscosporella ovalis,Fuscosporella yunnanensis,Halobasidium csapodyae,Halokirschsteiniothelia hunanensis,Hongkongmyces xishuangbannaensis,Inocybe ispartaensis,Laboulbenia neofrancoisiana,Lachnella kunmingensis,Lasmenia thailandica,Leptospora cannabini,Lycoperdon sridharii,Myxospora neomasonii,Natipusilla aquatica,Neoacrogenospora aquatica,Neomassaria sinensis,Neovaginatispora juglandis,Niesslia yunnanensis,Ophiocordyceps aseptatospora,Oxneriaria sheosarensis,Paramicrosphaeropsis vitis,Paramyrothecium strychni,Parapaucispora aquatica,Parasporidesmium aquaticum,Parmelia neosaxatilis,Periconia bambusicola,Periconia neohongheensis,Peroneutypa thailandica,Polyozellus albus,Porina magnoliae,Porostereum subspadiceum,Pseudosperma subvolvatum,Pseudothyridariella caseariae,Rhexocercosporidium ferulae,Russula rubroglutinata,Septoriella iranica,Seriascoma asexuale,Sesquicillium flavum,Sirastachys zhongkaiensis,Speluncomyces lunatus,Sporidesmiella yunnanensis,Striaticonidium xishuangbannaensis,Trametopsis indica,Tulostoma hyderabadensis,Uniomyces hakkeijimanus,and Virgaria guizhouensis.The three new combinations are Lycoperdon alpinum,Lycoperdon lloydii,and Lycoperdon macrogemmae.The 25 new records comprise Acremonium sclerotigenum,Agroathelia rolfsii,Alfaria terrestris,Aspergillus cejpii,Colletotrichum brevisporum,Coriolopsis brunneoleuca,Coriolopsis hainanensis,Cytospora tamaricicola,Fomitopsis malicola,Fulvifomes fastuosus,Fulvifomes thailandicus,Funalia cystidiata,Funalia subgallica,Longididymella vitalbae,Lopharia mirabilis,Metarhizium viridulum,Neopestalotiopsis haikouensis,Occultibambusa aquatica,Phaeoacremonium scolyti,Phaeocytostroma virdimurae,Puccinia mysuruensis,Rhizopus stolonifer,Serpula similis,Trametes ellipsospora,and Vamsapriya shiwandashanensis.In addition,the new name is Irpiciporus pseudoxuchilensis,and the new collection is Aspergillus sydowii.The previously suppressed genus Eudimeromyces has been taxonomically reinstated. 展开更多
关键词 75 New taxa 25 New records Agaricomycetes Ascomycota Basidiomycota Cystobasidiomycetes Dothideomycetes Eurotiomycetes Laboulbeniomycetes Lecanoromycetes Leotiomycetes Mucoromycetes Mucoromycota Pezizomycetes Pucciniomycetes Sordariomycetes
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