Bibliotheksliste-Aarau-Dezember 2016
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Covered in Phylloboletellus and Numerous Clamps in Boletellus Fibuliger
PERSOONIA Published by the Rijksherbarium, Leiden Volume 11, Part 3, pp. 269-302 (1981) Notes on bolete taxonomy—III Rolf Singer Field Museum of Natural History, Chicago, U.S.A. have Contributions involving bolete taxonomy during the last ten years not only widened the knowledge and increased the number of species in the boletes and related lamellate and gastroid forms, but have also introduced a large number of of new data on characters useful for the generic and subgeneric taxonomy these is therefore timely to fungi,resulting, in part, in new taxonomical arrangements. It consider these new data with a view to integratingthem into an amended classifi- cation which, ifit pretends to be natural must take into account all observations of possible diagnostic value. It must also take into account all sufficiently described species from all phytogeographic regions. 1. Clamp connections Like any other character (including the spore print color), the presence or absence ofclamp connections in is neither in of the carpophores here nor other groups Basidiomycetes necessarily a generic or family character. This situation became very clear when occasional clamps were discovered in Phylloboletellus and numerous clamps in Boletellus fibuliger. Kiihner (1978-1980) rightly postulates that cytology and sexuality should be considered wherever at all possible. This, as he is well aware, is not feasible in most boletes, and we must be content to judgeclamp-occurrence per se, giving it importance wherever associated with other characters and within a well circumscribed and obviously homogeneous group such as Phlebopus, Paragyrodon, and Gyrodon. (Heinemann (1954) and Pegler & Young this is (1981) treat group on the family level.) Gyroporus, also clamp-bearing, considered close, but somewhat more removed than the other genera. -
<I>Phylloporus
VOLUME 2 DECEMBER 2018 Fungal Systematics and Evolution PAGES 341–359 doi.org/10.3114/fuse.2018.02.10 Phylloporus and Phylloboletellus are no longer alone: Phylloporopsis gen. nov. (Boletaceae), a new smooth-spored lamellate genus to accommodate the American species Phylloporus boletinoides A. Farid1*§, M. Gelardi2*, C. Angelini3,4, A.R. Franck5, F. Costanzo2, L. Kaminsky6, E. Ercole7, T.J. Baroni8, A.L. White1, J.R. Garey1, M.E. Smith6, A. Vizzini7§ 1Herbarium, Department of Cell Biology, Micriobiology and Molecular Biology, University of South Florida, Tampa, Florida 33620, USA 2Via Angelo Custode 4A, I-00061 Anguillara Sabazia, RM, Italy 3Via Cappuccini 78/8, I-33170 Pordenone, Italy 4National Botanical Garden of Santo Domingo, Santo Domingo, Dominican Republic 5Wertheim Conservatory, Department of Biological Sciences, Florida International University, Miami, Florida, 33199, USA 6Department of Plant pathology, University of Florida, Gainesville, Florida 32611, USA 7Department of Life Sciences and Systems Biology, University of Turin, Viale P.A. Mattioli 25, I-10125 Torino, Italy 8Department of Biological Sciences, State University of New York – College at Cortland, Cortland, NY 1304, USA *Authors contributed equally to this manuscript §Corresponding authors: [email protected], [email protected] Key words: Abstract: The monotypic genus Phylloporopsis is described as new to science based on Phylloporus boletinoides. This Boletales species occurs widely in eastern North America and Central America. It is reported for the first time from a neotropical lamellate boletes montane pine woodland in the Dominican Republic. The confirmation of this newly recognised monophyletic genus is molecular phylogeny supported and molecularly confirmed by phylogenetic inference based on multiple loci (ITS, 28S, TEF1-α, and RPB1). -
Gasteromycetes) of Alberta and Northwest Montana
University of Montana ScholarWorks at University of Montana Graduate Student Theses, Dissertations, & Professional Papers Graduate School 1975 A preliminary study of the flora and taxonomy of the order Lycoperdales (Gasteromycetes) of Alberta and northwest Montana William Blain Askew The University of Montana Follow this and additional works at: https://scholarworks.umt.edu/etd Let us know how access to this document benefits ou.y Recommended Citation Askew, William Blain, "A preliminary study of the flora and taxonomy of the order Lycoperdales (Gasteromycetes) of Alberta and northwest Montana" (1975). Graduate Student Theses, Dissertations, & Professional Papers. 6854. https://scholarworks.umt.edu/etd/6854 This Thesis is brought to you for free and open access by the Graduate School at ScholarWorks at University of Montana. It has been accepted for inclusion in Graduate Student Theses, Dissertations, & Professional Papers by an authorized administrator of ScholarWorks at University of Montana. For more information, please contact [email protected]. A PRELIMINARY STUDY OF THE FLORA AND TAXONOMY OF THE ORDER LYCOPERDALES (GASTEROMYCETES) OF ALBERTA AND NORTHWEST MONTANA By W. Blain Askew B,Ed., B.Sc,, University of Calgary, 1967, 1969* Presented in partial fulfillment of the requirements for the degree of Master of Arts UNIVERSITY OF MONTANA 1975 Approved 'by: Chairman, Board of Examiners ■ /Y, / £ 2 £ Date / UMI Number: EP37655 All rights reserved INFORMATION TO ALL USERS The quality of this reproduction is dependent upon the quality of the copy submitted. In the unlikely event that the author did not send a complete manuscript and there are missing pages, these will be noted. Also, if material had to be removed, a note will indicate the deletion. -
Revision of the Genus Cotylidia (Basidiomycota, Hymenochaetales) in the Czech Republic
CZECH MYCOLOGY 65(1): 1–13, JUNE 10, 2013 (ONLINE VERSION, ISSN 1805-1421) Revision of the genus Cotylidia (Basidiomycota, Hymenochaetales) in the Czech Republic 1 2 JIŘÍ KOUT *, LUCIE ZÍBAROVÁ 1Department of Biology, Geosciences and Environmental Education, Faculty of Education, University of West Bohemia, Klatovská 51, Plzeň, CZ-306 19, Czech Republic; [email protected] 2Department of Botany, Faculty of Natural Sciences, University of South Bohemia, Na Zlaté stoce 1, České Budějovice, CZ-370 05, Czech Republic; [email protected] *corresponding author Kout J., Zíbarová L. (2013): Revision of the genus Cotylidia (Basidiomycota, Hymenochaetales) in the Czech Republic. – Czech Mycol. 65(1): 1–13. To date, three species of the genus Cotylidia have been identified in the Czech Republic: C. muscigena, C. pannosa, and C. undulata. The occurrence of Cotylidia undulata in the Czech Re- public was already confirmed and a new locality is published here. The other two species are newly re- ported from the Czech Republic. The remaining two European Cotylidia species are not yet known from the area studied: C. carpatica and the badly known Mediterranean C. marsicana. Finally one specimen found during the study of herbarium material does not correspond well to any known Euro- pean species. The genus was reviewed based on fresh and herbarium specimens. The species of Cotylidia are described and an identification key is added. All three species are rarely reported fungi. Key words: hymenochaetoid clade, taxonomy, distribution, threatened fungi, Europe. Kout J., Zíbarová L. (2013): Revize rodu lupénka – Cotylidia (Basidiomycota, Hymenochaetales) v České republice. – Czech Mycol. 65(1): 1–13. -
Key to the Genera of Clavarioid Fungi in Northern Europe
Key to the genera of clavarioid fungi in Northern Europe Jens H. Petersen/Borgsjö 1999 University of Aarhus, Institute of Systematic Botany • www.mycokey.com Key to clavarioid genera – Jens H. Petersen/Borgsjö 1999 KEY TO THE GENERA OF CLAVARIOID FUNGI (BASIDIOMYCOTA) IN NORTHERN EUROPE 1. Fruitbodies repeatedly branched (coralloide) 2 Fruitbodies simple club-shaped or with one or two irregular branchings 12 2. Spore deposit ±brown 3 Spore deposit white to cream 4 3. Tops flattened, spathula like; hymenium not green with FeSO4; hyphae ±brown. Thelephora palmata Tops rounded to subcristate; hymenium green with FeSO4; Thelephora palmata – © Thomas Læssøe hyphae hyalin. Ramaria Ramaria eumorpha – © JHP 4. Apices flattened, spathula like; basidia with longitudinal internal walls. Tremellodendriopsis tuberosa Apices rounded to subcristate; basidia without internal walls 5 Tremellodendropsis tuberosa – © Jan Vesterholt 5. With a strong smell of naphthalene; flesh dimitic with sceletal hyphae. Pterula Without a smell of naphthalene; hyphal system monomitic 6 Pterula multifida – © JHP 2 Key to clavarioid genera – Jens H. Petersen/Borgsjö 1999 6. Flesh tough and elastic; fruitbody yellow; basidia tuning fork like. Calocera Flesh soft and fragile or colour different; basidia club-shaped 7 Calocera viscosa – © JHP 7. Tops truncate to trumpet-shaped; with gloeocystidia in the hymenium; spores amyloid. Clavicorona Tops acute to rounded; without gloeocystidia; spores non- amyloid 8 Clavicorona pyxidata – © Thomas Læssøe 8. Growing on wood, sawdust etc.; spores cylindrical to sigmoid. Lentaria Growing on soil; spores globose, subglobose to elliptical 9 Lentaria epichnoa – © Jacob Heilmann-Clausen 9. Basidia two-spored with horn-like sterigmata; spores globose; branches often wrinkled or with subcristate tops. -
Diversity of Species of the Genus Conocybe (Bolbitiaceae, Agaricales) Collected on Dung from Punjab, India
Mycosphere 6(1): 19–42(2015) ISSN 2077 7019 www.mycosphere.org Article Mycosphere Copyright © 2015 Online Edition Doi 10.5943/mycosphere/6/1/4 Diversity of species of the genus Conocybe (Bolbitiaceae, Agaricales) collected on dung from Punjab, India Amandeep K1*, Atri NS2 and Munruchi K2 1Desh Bhagat College of Education, Bardwal-Dhuri-148024, Punjab, India 2Department of Botany, Punjabi University, Patiala-147002, Punjab, India. Amandeep K, Atri NS, Munruchi K 2015 – Diversity of species of the genus Conocybe (Bolbitiaceae, Agaricales) collected on dung from Punjab, India. Mycosphere 6(1), 19–42, Doi 10.5943/mycosphere/6/1/4 Abstract A study of diversity of coprophilous species of Conocybe was carried out in Punjab state of India during the years 2007 to 2011. This research paper represents 22 collections belonging to 16 Conocybe species growing on five diverse dung types. The species include Conocybe albipes, C. apala, C. brachypodii, C. crispa, C. fuscimarginata, C. lenticulospora, C. leucopus, C. magnicapitata, C. microrrhiza var. coprophila var. nov., C. moseri, C. rickenii, C. subpubescens, C. subxerophytica var. subxerophytica, C. subxerophytica var. brunnea, C. uralensis and C. velutipes. For all these taxa, dung types on which they were found growing are mentioned and their distinctive characters are described and compared with similar taxa along with a key for their identification. The taxonomy of ten taxa is discussed along with the drawings of morphological and anatomical features. Conocybe microrrhiza var. coprophila is proposed as a new variety. As many as six taxa, namely C. albipes, C. fuscimarginata, C. lenticulospora, C. leucopus, C. moseri and C. -
Major Clades of Agaricales: a Multilocus Phylogenetic Overview
Mycologia, 98(6), 2006, pp. 982–995. # 2006 by The Mycological Society of America, Lawrence, KS 66044-8897 Major clades of Agaricales: a multilocus phylogenetic overview P. Brandon Matheny1 Duur K. Aanen Judd M. Curtis Laboratory of Genetics, Arboretumlaan 4, 6703 BD, Biology Department, Clark University, 950 Main Street, Wageningen, The Netherlands Worcester, Massachusetts, 01610 Matthew DeNitis Vale´rie Hofstetter 127 Harrington Way, Worcester, Massachusetts 01604 Department of Biology, Box 90338, Duke University, Durham, North Carolina 27708 Graciela M. Daniele Instituto Multidisciplinario de Biologı´a Vegetal, M. Catherine Aime CONICET-Universidad Nacional de Co´rdoba, Casilla USDA-ARS, Systematic Botany and Mycology de Correo 495, 5000 Co´rdoba, Argentina Laboratory, Room 304, Building 011A, 10300 Baltimore Avenue, Beltsville, Maryland 20705-2350 Dennis E. Desjardin Department of Biology, San Francisco State University, Jean-Marc Moncalvo San Francisco, California 94132 Centre for Biodiversity and Conservation Biology, Royal Ontario Museum and Department of Botany, University Bradley R. Kropp of Toronto, Toronto, Ontario, M5S 2C6 Canada Department of Biology, Utah State University, Logan, Utah 84322 Zai-Wei Ge Zhu-Liang Yang Lorelei L. Norvell Kunming Institute of Botany, Chinese Academy of Pacific Northwest Mycology Service, 6720 NW Skyline Sciences, Kunming 650204, P.R. China Boulevard, Portland, Oregon 97229-1309 Jason C. Slot Andrew Parker Biology Department, Clark University, 950 Main Street, 127 Raven Way, Metaline Falls, Washington 99153- Worcester, Massachusetts, 01609 9720 Joseph F. Ammirati Else C. Vellinga University of Washington, Biology Department, Box Department of Plant and Microbial Biology, 111 355325, Seattle, Washington 98195 Koshland Hall, University of California, Berkeley, California 94720-3102 Timothy J. -
How Many Fungi Make Sclerotia?
fungal ecology xxx (2014) 1e10 available at www.sciencedirect.com ScienceDirect journal homepage: www.elsevier.com/locate/funeco Short Communication How many fungi make sclerotia? Matthew E. SMITHa,*, Terry W. HENKELb, Jeffrey A. ROLLINSa aUniversity of Florida, Department of Plant Pathology, Gainesville, FL 32611-0680, USA bHumboldt State University of Florida, Department of Biological Sciences, Arcata, CA 95521, USA article info abstract Article history: Most fungi produce some type of durable microscopic structure such as a spore that is Received 25 April 2014 important for dispersal and/or survival under adverse conditions, but many species also Revision received 23 July 2014 produce dense aggregations of tissue called sclerotia. These structures help fungi to survive Accepted 28 July 2014 challenging conditions such as freezing, desiccation, microbial attack, or the absence of a Available online - host. During studies of hypogeous fungi we encountered morphologically distinct sclerotia Corresponding editor: in nature that were not linked with a known fungus. These observations suggested that Dr. Jean Lodge many unrelated fungi with diverse trophic modes may form sclerotia, but that these structures have been overlooked. To identify the phylogenetic affiliations and trophic Keywords: modes of sclerotium-forming fungi, we conducted a literature review and sequenced DNA Chemical defense from fresh sclerotium collections. We found that sclerotium-forming fungi are ecologically Ectomycorrhizal diverse and phylogenetically dispersed among 85 genera in 20 orders of Dikarya, suggesting Plant pathogens that the ability to form sclerotia probably evolved 14 different times in fungi. Saprotrophic ª 2014 Elsevier Ltd and The British Mycological Society. All rights reserved. Sclerotium Fungi are among the most diverse lineages of eukaryotes with features such as a hyphal thallus, non-flagellated cells, and an estimated 5.1 million species (Blackwell, 2011). -
PRAVILNIK O PREKOGRANIĈNOM PROMETU I TRGOVINI ZAŠTIĆENIM VRSTAMA ("Sl
PRAVILNIK O PREKOGRANIĈNOM PROMETU I TRGOVINI ZAŠTIĆENIM VRSTAMA ("Sl. glasnik RS", br. 99/2009 i 6/2014) I OSNOVNE ODREDBE Ĉlan 1 Ovim pravilnikom propisuju se: uslovi pod kojima se obavlja uvoz, izvoz, unos, iznos ili tranzit, trgovina i uzgoj ugroţenih i zaštićenih biljnih i ţivotinjskih divljih vrsta (u daljem tekstu: zaštićene vrste), njihovih delova i derivata; izdavanje dozvola i drugih akata (potvrde, sertifikati, mišljenja); dokumentacija koja se podnosi uz zahtev za izdavanje dozvola, sadrţina i izgled dozvole; spiskovi vrsta, njihovih delova i derivata koji podleţu izdavanju dozvola, odnosno drugih akata; vrste, njihovi delovi i derivati ĉiji je uvoz odnosno izvoz zabranjen, ograniĉen ili obustavljen; izuzeci od izdavanja dozvole; naĉin obeleţavanja ţivotinja ili pošiljki; naĉin sprovoĊenja nadzora i voĊenja evidencije i izrada izveštaja. Ĉlan 2 Izrazi upotrebljeni u ovom pravilniku imaju sledeće znaĉenje: 1) datum sticanja je datum kada je primerak uzet iz prirode, roĊen u zatoĉeništvu ili veštaĉki razmnoţen, ili ukoliko takav datum ne moţe biti dokazan, sledeći datum kojim se dokazuje prvo posedovanje primeraka; 2) deo je svaki deo ţivotinje, biljke ili gljive, nezavisno od toga da li je u sveţem, sirovom, osušenom ili preraĊenom stanju; 3) derivat je svaki preraĊeni deo ţivotinje, biljke, gljive ili telesna teĉnost. Derivati većinom nisu prepoznatljivi deo primerka od kojeg potiĉu; 4) država porekla je drţava u kojoj je primerak uzet iz prirode, roĊen i uzgojen u zatoĉeništvu ili veštaĉki razmnoţen; 5) druga generacija potomaka -
Notes on Mycenastrum Corium in Turkey
MANTAR DERGİSİ/The Journal of Fungus Nisan(2020)11(1)84-89 Geliş(Recevied) :04.03.2020 Araştırma Makalesi/Research Article Kabul(Accepted) :26.03.2020 Doi: 10.30708.mantar.698688 Notes On Mycenastrum corium in Turkey 1 1 Deniz ALTUNTAŞ , Ergin ŞAHİN , Şanlı KABAKTEPE2, Ilgaz AKATA1* *Sorumlu yazar: [email protected] 1 Ankara University, Faculty of Science, Department of Biology, Tandoğan, Ankara, Orcid ID: 0000-0003-0142-6188/ [email protected] Orcid ID: 0000-0003-1711-738X/ [email protected] Orcid ID: 0000-0002-1731-1302/ [email protected] 2Malatya Turgut Ozal University, Battalgazi Vocat Sch., Battalgazi, Malatya, Turkey Orcid ID: 0000-0001-8286-9225/[email protected] Abstract: The current study was conducted based on Mycenastrum samples collected from Muğla province (Turkey) on September 12, 2019. The samples were identified based on both conventional methods and ITS rDNA region-based molecular phylogeny. By taking into account the high sequence similarity between the collected samples (ANK Akata & Altuntas 551) and Mycenastrum corium (Guers.) Desv. the relevant specimen was considered to be M. corium and the morphological data also strengthen this finding. This species was reported for the second time from Turkey. With this study, the molecular analysis and a short description of the Turkish M. corium were provided for the first time along with SEM images of spores and capillitium, illustrations of macro and microscopic structures. Key words: Mycenastrum corium, mycobiota, gasteroid fungi, Turkey Türkiye'deki Mycenastrum corium Üzerine Notlar Öz: Bu çalışmanın amacı, 12 Eylül 2019'da Muğla ilinden (Türkiye) toplanan Mycenastrum örneklerine dayanmaktadır. -
Phylogenetic Relationships of Rhizoctonia Fungi Within the Cantharellales
fungal biology 120 (2016) 603e619 journal homepage: www.elsevier.com/locate/funbio Phylogenetic relationships of Rhizoctonia fungi within the Cantharellales Dolores GONZALEZa,*, Marianela RODRIGUEZ-CARRESb, Teun BOEKHOUTc, Joost STALPERSc, Eiko E. KURAMAEd, Andreia K. NAKATANIe, Rytas VILGALYSf, Marc A. CUBETAb aInstituto de Ecologıa, A.C., Red de Biodiversidad y Sistematica, Carretera Antigua a Coatepec No. 351, El Haya, 91070 Xalapa, Veracruz, Mexico bDepartment of Plant Pathology, North Carolina State University, Center for Integrated Fungal Research, Campus Box 7251, Raleigh, NC 27695, USA cCBS Fungal Biodiversity Centre, Uppsalalaan 8, 3584 CT Utrecht, The Netherlands dDepartment of Microbial Ecology, Netherlands Institute of Ecology (NIOO/KNAW), Droevendaalsesteeg 10, 6708 PB Wageningen, The Netherlands eUNESP, Faculdade de Ci^encias Agronomicas,^ CP 237, 18603-970 Botucatu, SP, Brazil fDepartment of Biology, Duke University, Durham, NC 27708, USA article info abstract Article history: Phylogenetic relationships of Rhizoctonia fungi within the order Cantharellales were studied Received 2 January 2015 using sequence data from portions of the ribosomal DNA cluster regions ITS-LSU, rpb2, tef1, Received in revised form and atp6 for 50 taxa, and public sequence data from the rpb2 locus for 165 taxa. Data sets 1 January 2016 were analysed individually and combined using Maximum Parsimony, Maximum Likeli- Accepted 19 January 2016 hood, and Bayesian Phylogenetic Inference methods. All analyses supported the mono- Available online 29 January 2016 phyly of the family Ceratobasidiaceae, which comprises the genera Ceratobasidium and Corresponding Editor: Thanatephorus. Multi-locus analysis revealed 10 well-supported monophyletic groups that Joseph W. Spatafora were consistent with previous separation into anastomosis groups based on hyphal fusion criteria. -
Phylogeny of Lyophyllum Section Difformia Does Hon-Shimeji (L
Phylogeny of Lyophyllum section Difformia Does hon-shimeji (L. shimeji) occur in Sweden? Henrik Sundberg Degree project for Master of Science in Botanical Systematics and Evolution 30 hec Department of Plant and Environmental Sciences University of Gothenburg ABSTRACT ........................................................................................................................................................... 2 1. INTRODUCTION ............................................................................................................................................. 3 1.1. BACKGROUND ............................................................................................................................................. 3 1.2. WHAT IS HON-SHIMEJI? ............................................................................................................................. 3 2. PROBLEMS & OBJECTIVES ........................................................................................................................ 4 3. LITERATURE REVIEW ................................................................................................................................. 4 3.1. GENERAL ECOLOGY AND DISTRIBUTION OF THE GENUS LYOPHYLLUM P. KARST. ................................... 4 3.2. TAXONOMY ................................................................................................................................................. 4 3.2.1. Traditional classification of the genus Lyophyllum .........................................................................