Daedaleopsis Confragosa Daedaleopsis

Total Page:16

File Type:pdf, Size:1020Kb

Daedaleopsis Confragosa Daedaleopsis © Demetrio Merino Alcántara [email protected] Condiciones de uso Daedaleopsis confragosa (Bolton) J. Schröt., in Cohn, Krypt.-Fl. Schlesien (Breslau) 3.1(25–32): 492 (1888) [1889] 20 mm 20 mm Polyporaceae, Polyporales, Incertae sedis, Agaricomycetes, Agaricomycotina, Basidiomycota, Fungi Sinónimos homotípicos: Boletus confragosus Bolton, Hist. fung. Halifax, App. (Huddersfield) 3: 160 (1792) [1791] Daedalea confragosa (Bolton) Pers., Syn. meth. fung. (Göttingen) 2: 501 (1801) Polyporus confragosus (Bolton) P. Kumm., Führ. Pilzk. (Zerbst): 59 (1871) Striglia confragosa (Bolton) Kuntze, Revis. gen. pl. (Leipzig) 2: 871 (1891) Lenzites confragosus (Bolton) Pat., Essai Tax. Hyménomyc. (Lons-le-Saunier): 89 (1900) Trametes confragosa (Bolton) Jørst., Atlas Champ. l'Europe, III, Polyporaceae (Praha) 1: 286 (1939) Ischnoderma confragosum (Bolton) Zmitr. [as 'confragosa'], Mycena 1(1): 92 (2001) Material estudiado: Francia, Aquitania, Osse en Aspe, Les Arrigaux, 30TXN8663, 931 m, en bosque de Abies sp. y Fagus sylvatica sobre madera sin determinar, 27-IX-2018, Dianora Estrada y Demetrio Merino, JA-CUSSTA: 9250. Descripción macroscópica: Carpóforo de 68 x 45 mm (alto x ancho), sésil, flabeliforme, con la cara externa rugosa, glabra, zonado concéntricamente con colo- res que van del blanquecino al marrón amarillento más o menos oscuro, margen agudo, blanco. Himenio en la cara inferior, delga- do, porado. Poros por lo general alargados, algunos redondeados, dispuestos en la dirección de los radios, que se manchan de marrón claro al roce, de (0,5-)0,8-2,0(-3,6) × (0,4-)0,5-0,8(-0,9) mm; N = 53; Me = 1,4 × 0,6 mm. Olor agradable, resinoso. Descripción microscópica: Basidios no observados. Basidiosporas no observadas. Sistema hifal trimítico, con hifas generativas septadas y fibuladas, hifas esqueléticas de paredes gruesas e hifas conectivas ramificadas. Daedaleopsis confragosa 20180927/20190504 Página 1 de 3 A. Poros. B. Sistema hifal. Daedaleopsis confragosa 20180927/20190504 Página 2 de 3 Observaciones En material seco no hemos conseguido ver ni basidios ni esporas, aunque la macroscopía es suficiente para la separación de esta especie. Daedaleopsis nitida (Durieu & Mont.) Zmitr. & Malysheva crece sobre Quercus y los poros son redondeados o exagonales pero no alargados (MERINO, 2016) Otras descripciones y fotografías MERINO D. (2016) Aportaciones Micológicas 25. Micobotánica-Jaén, XI-3. Pág. 80. https://www.micobotanicajaen.com/Revista/Hemeroteca/ PDF/A11N03.pdf Salvo indicación en contrario, las fotos están realizadas por Demetrio Merino. Daedaleopsis confragosa 20180927/20190504 Página 3 de 3 .
Recommended publications
  • A Survey of Fungi at the University of Wisconsin-Waukesha Field Station
    University of Wisconsin Milwaukee UWM Digital Commons Field Station Bulletins UWM Field Station Spring 1993 A survey of fungi at the University of Wisconsin- Waukesha Field Station Alan D. Parker University of Wisconsin-Waukesha Follow this and additional works at: https://dc.uwm.edu/fieldstation_bulletins Part of the Forest Biology Commons, and the Zoology Commons Recommended Citation Parker, A.D. 1993 A survey of fungi at the University of Wisconsin-Waukesha Field Station. Field Station Bulletin 26(1): 1-10. This Article is brought to you for free and open access by UWM Digital Commons. It has been accepted for inclusion in Field Station Bulletins by an authorized administrator of UWM Digital Commons. For more information, please contact [email protected]. A Survey of Fungi at the University of Wisconsin-Waukesha Field Station Alan D. Parker Department of Biological Sciences University of Wisconsin-Waukesha Waukesha, Wisconsin 53188 Introduction The University of Wisconsin-Waukesha Field Station was founded in 1967 through the generous gift of a 98 acre farm by Ms. Gertrude Sherman. The facility is located approximately nine miles west of Waukesha on Highway 18, just south of the Waterville Road intersection. The site consists of rolling glacial deposits covered with old field vegetation, 20 acres of xeric oak woods, a small lake with marshlands and bog, and a cold water stream. Other communities are being estab- lished as a result of restoration work; among these are mesic prairie, oak opening, and stands of various conifers. A long-term study of higher fungi and Myxomycetes, primarily from the xeric oak woods, was started in 1978.
    [Show full text]
  • Phylogenetic Classification of Trametes
    TAXON 60 (6) • December 2011: 1567–1583 Justo & Hibbett • Phylogenetic classification of Trametes SYSTEMATICS AND PHYLOGENY Phylogenetic classification of Trametes (Basidiomycota, Polyporales) based on a five-marker dataset Alfredo Justo & David S. Hibbett Clark University, Biology Department, 950 Main St., Worcester, Massachusetts 01610, U.S.A. Author for correspondence: Alfredo Justo, [email protected] Abstract: The phylogeny of Trametes and related genera was studied using molecular data from ribosomal markers (nLSU, ITS) and protein-coding genes (RPB1, RPB2, TEF1-alpha) and consequences for the taxonomy and nomenclature of this group were considered. Separate datasets with rDNA data only, single datasets for each of the protein-coding genes, and a combined five-marker dataset were analyzed. Molecular analyses recover a strongly supported trametoid clade that includes most of Trametes species (including the type T. suaveolens, the T. versicolor group, and mainly tropical species such as T. maxima and T. cubensis) together with species of Lenzites and Pycnoporus and Coriolopsis polyzona. Our data confirm the positions of Trametes cervina (= Trametopsis cervina) in the phlebioid clade and of Trametes trogii (= Coriolopsis trogii) outside the trametoid clade, closely related to Coriolopsis gallica. The genus Coriolopsis, as currently defined, is polyphyletic, with the type species as part of the trametoid clade and at least two additional lineages occurring in the core polyporoid clade. In view of these results the use of a single generic name (Trametes) for the trametoid clade is considered to be the best taxonomic and nomenclatural option as the morphological concept of Trametes would remain almost unchanged, few new nomenclatural combinations would be necessary, and the classification of additional species (i.e., not yet described and/or sampled for mo- lecular data) in Trametes based on morphological characters alone will still be possible.
    [Show full text]
  • Anti-Staphylococcal and Antioxidant Properties of Crude Ethanolic Extracts of Macrofungi Collected from the Philippines
    Pharmacogn J. 2018; 10(1):106-109 A Multifaceted Journal in the field of Natural Products and Pharmacognosy Original Article www.phcogj.com | www.journalonweb.com/pj | www.phcog.net Anti-Staphylococcal and Antioxidant Properties of Crude Ethanolic Extracts of Macrofungi Collected from the Philippines Christine May Gaylan1, John Carlo Estebal1, Ourlad Alzeus G. Tantengco2, Elena M. Ragragio1 ABSTRACT Introduction: Macrofungi have been used in the Philippines as source of food and traditional medicines. However, these macrofungi in the Philippines have not yet been studied for different biological activities. Thus, this research determined the potential antibacterial and antioxidant activities of crude ethanolic extracts of seven macrofungi collected in Bataan, Philippines. Methods: Kirby-Bauer disk diffusion assay and broth microdilution method were used to screen for the antibacterial activity and DPPH scavenging assay for the determination of antioxidant activity. Results: F. rosea, G. applanatum, G. lucidum and P. pinisitus exhibited zones of inhibition ranging from 6.55 ± 0.23 mm to 7.43 ± 0.29 mm against S. aureus, D. confragosa, F. rosea, G. lucidum, M. xanthopus and P. pinisitus showed antimicrobial activities against S. aureus with an MIC50 ranging from 1250 μg/mL to 10000 μg/mL. F. rosea, G. applanatum, G. lucidum, M. xanthopus exhibited excellent antioxidant activity with F. rosea having the highest antioxidant activity among all the extracts tested (3.0 μg/mL). Conclusion: Based on the results, these Philippine macrofungi showed antistaphylococcal activity independent of 1 Christine May Gaylan , the antioxidant activity. These can be further studied as potential sources of antibacterial and John Carlo Estebal1, antioxidant compounds.
    [Show full text]
  • New Records of Polypores from Iran, with a Checklist of Polypores for Gilan Province
    CZECH MYCOLOGY 68(2): 139–148, SEPTEMBER 27, 2016 (ONLINE VERSION, ISSN 1805-1421) New records of polypores from Iran, with a checklist of polypores for Gilan Province 1 2 MOHAMMAD AMOOPOUR ,MASOOMEH GHOBAD-NEJHAD *, 1 SEYED AKBAR KHODAPARAST 1 Department of Plant Protection, Faculty of Agricultural Sciences, University of Gilan, P.O. Box 41635-1314, Rasht 4188958643, Iran. 2 Department of Biotechnology, Iranian Research Organization for Science and Technology (IROST), P.O. Box 3353-5111, Tehran 3353136846, Iran; [email protected] *corresponding author Amoopour M., Ghobad-Nejhad M., Khodaparast S.A. (2016): New records of polypores from Iran, with a checklist of polypores for Gilan Province. – Czech Mycol. 68(2): 139–148. As a result of a survey of poroid basidiomycetes in Gilan Province, Antrodiella fragrans, Ceriporia aurantiocarnescens, Oligoporus tephroleucus, Polyporus udus,andTyromyces kmetii are newly reported from Iran, and the following seven species are reported as new to this province: Coriolopsis gallica, Fomitiporia punctata, Hapalopilus nidulans, Inonotus cuticularis, Oligo- porus hibernicus, Phylloporia ribis,andPolyporus tuberaster. An updated checklist of polypores for Gilan Province is provided. Altogether, 66 polypores are known from Gilan up to now. Key words: fungi, hyrcanian forests, poroid basidiomycetes. Article history: received 28 July 2016, revised 13 September 2016, accepted 14 September 2016, published online 27 September 2016. Amoopour M., Ghobad-Nejhad M., Khodaparast S.A. (2016): Nové nálezy chorošů pro Írán a checklist chorošů provincie Gilan. – Czech Mycol. 68(2): 139–148. Jako výsledek systematického výzkumu chorošotvarých hub v provincii Gilan jsou publikovány nové druhy pro Írán: Antrodiella fragrans, Ceriporia aurantiocarnescens, Oligoporus tephroleu- cus, Polyporus udus a Tyromyces kmetii.
    [Show full text]
  • Fungi of the Baldwin Woods Forest Preserve - Rice Tract Based on Surveys Conducted in 2020 by Sherry Kay and Ben Sikes
    Fungi of the Baldwin Woods Forest Preserve - Rice Tract Based on surveys conducted in 2020 by Sherry Kay and Ben Sikes Scientific name Common name Comments Agaricus silvicola Wood Mushroom Allodus podophylli Mayapple Rust Amanita flavoconia group Yellow Patches Amanita vaginata group 4 different taxa Arcyria cinerea Myxomycete (Slime mold) Arcyria sp. Myxomycete (Slime mold) Arcyria denudata Myxomycete (Slime mold) Armillaria mellea group Honey Mushroom Auricularia americana Cloud Ear Biscogniauxia atropunctata Bisporella citrina Yellow Fairy Cups Bjerkandera adusta Smoky Bracket Camarops petersii Dog's Nose Fungus Cantharellus "cibarius" Chanterelle Ceratiomyxa fruticulosa Honeycomb Coral Slime Mold Myxomycete (Slime mold) Cerioporus squamosus Dryad's Saddle Cheimonophyllum candidissimum Class Agaricomycetes Coprinellus radians Orange-mat Coprinus Coprinopsis variegata Scaly Ink Cap Cortinarius alboviolaceus Cortinarius coloratus Crepidotus herbarum Crepidotus mollis Peeling Oysterling Crucibulum laeve Common Bird's Nest Dacryopinax spathularia Fan-shaped Jelly-fungus Daedaleopsis confragosa Thin-walled Maze Polypore Diatrype stigma Common Tarcrust Ductifera pululahuana Jelly Fungus Exidia glandulosa Black Jelly Roll Fuligo septica Dog Vomit Myxomycete (Slime mold) Fuscoporia gilva Mustard Yellow Polypore Galiella rufa Peanut Butter Cup Gymnopus dryophilus Oak-loving Gymnopus Gymnopus spongiosus Gyromitra brunnea Carolina False Morel; Big Red Hapalopilus nidulans Tender Nesting Polypore Hydnochaete olivacea Brown-toothed Crust Hymenochaete
    [Show full text]
  • Molecular Evaluation of Species Delimitation and Barcoding of Daedaleopsis Confragosa Specimens in Austria
    ZOBODAT - www.zobodat.at Zoologisch-Botanische Datenbank/Zoological-Botanical Database Digitale Literatur/Digital Literature Zeitschrift/Journal: Österreichische Zeitschrift für Pilzkunde Jahr/Year: 2015 Band/Volume: 24 Autor(en)/Author(s): Mentrida Sonia, Krisai-Greilhuber Irmgard, Voglmayr Hermann Artikel/Article: Molecular evaluation of species delimitation and barcoding of Daedaleopsis confragosa specimens in Austria. 173-179 Österr. Z. Pilzk. 24 (2015) – Austrian J. Mycol. 24 (2015) 173 Molecular evaluation of species delimitation and barcoding of Daedaleopsis confragosa specimens in Austria SONIA MENTRIDA IRMGARD KRISAI-GREILHUBER HERMANN VOGLMAYR Department of Botany and Biodiversity research University of Vienna Rennweg 14 1030 Wien, Austria Email: [email protected] Accepted 25. November 2015 Key words: Polypores, Daedaleopsis, Polyporaceae. – ITS rDNA, species boundary, systematics. – Mycobiota of Austria. Abstract: Herbarium material of Daedaleopsis confragosa, D. tricolor and D. nitida collected in dif- ferent regions of Austria, Hungary, Italy and France was molecularly analysed. Species boundaries were tested by sequencing the fungal barcoding region ITS rDNA. The results confirm that Dae- daleopsis confragosa and D. tricolor cannot be separated on species level when using ITS data. The same conclusion has already been drawn for Czech specimens by KOUKOL & al. 2014 (Cech Mycol. 66: 107–119) with a multigene analysis. Zusammenfassung: Herbarmaterial von Daedaleopsis confragosa, D. tricolor und D. nitida aus verschiedenen Regionen in Österreich, aus Ungarn, Italien und Frankreich wurde moleku- lar analysiert. Die Artabgrenzung wurde durch Sequenzierung der pilzlichen Barcoderegion ITS rDNA getestet. Die Ergebnisse bestätigen, dass Daedaleopsis confragosa und D. tricolor unter Verwendung der ITS-Daten nicht auf Artniveau getrennt werden können. Diese Schlussfolgerung wurde bereits für tschechische Aufsammlungen anhand einer Multigen- Analyse durch KOUKOL & al.
    [Show full text]
  • Savez Društav Genetičara Jugoslavije
    UDC 575. https://doi.org/10.2298/GENSR1802519G Original scientific paper MOLECULAR TAXONOMY AND PHYLOGENETICS OF Daedaleopsis confragosa (Bolt.: Fr.) J. Schröt. FROM WILD CHERRY IN SERBIA Vladislava GALOVIĆ1*, Miroslav MARKOVIĆ1, Predrag PAP1, Martin MULETT4, Milana RAKIĆ2, Aleksandar VASILJEVIĆ3, Saša PEKEČ1 1University of Novi Sad, Institute of Lowland Forestry and Environment, Novi Sad, Serbia 2University of Novi Sad, Faculty of Sciences, Department of Biology and Ecology, Novi Sad, Serbia 3Gljivarsko društvo Novi Sad, Novi Sad, Serbia 4Centre for Forestry and Climate Change (Centre for Forestry and Climate change Forest Research, Alice Holt Lodge Farnham Surrey GU104LH UK Galović V., M. Marković, P. Pap, M. Mulett, M. Rakić, A. Vasiljević, S. Pekeč (2018): Molecular taxonomy and phylogenetics of Daedaleopsis confragosa (Bolt.: Fr.) J. Schröt. from wild cherry in Serbia.- Genetika, Vol 50, No.2, 519-532, 2018. Daedaleopsis spp., a lignicolous fungus causes of white rot on wild cherry and other broadleaved species and makes economic losses in Serbian forestry. The paper presents results of two morphologically distinct fungi Daedaleopsis confragosa and Daedaleopsis tricolor isolated from native populations of wild cherry (Prunus avium L.) found in the sites of Protected Forests of Serbia. Morphological appearance of D. tricolor was found more abundant in comparison to D. confragosa species. Samples from Serbia were analysed using morphometric and molecular tools and compared with isolates from United Kingdom and published sequences from Sweden, Austria, Hungary, Germany, Canada, France, USA and Czech Republic to give the taxonomic insight and their genetic relatedness using fungal barcoding region ITS rDNA. Results from BLAST search confirmed morphology of the isolates to their taxonomic affiliation as D.
    [Show full text]
  • 1,3-?-Glucan Content of Local Medicinal
    http://wjst.wu.ac.th Agricultural Technology and Biological Sciences 1,3-β-glucan Content of Local Medicinal Mushrooms from the Southern Region of Thailand Suvit SUWANNO* and Chiraporn PHUTPHAT Faculty of Environmental Management, Prince of Songkla University, Songkhla 90112, Thailand (*Corresponding author’s e-mail: [email protected]) Received: 2 July 2016, Revised: 13 December 2016, Accepted: 16 January 2017 Abstract Local medicinal mushrooms were collected from the Songkhla, Phatthalung, Trang, and Satun provinces during the rainy season. There were 13 specimens identified among the collected samples. Among the samples, one species belonged to the genus of Ganoderma and exhibited a value for 1,3-β- glucan content that was significantly different (p ≤ 0.05) from all other species of local medicinal mushrooms. The 1,3-β-glucan content was the highest in the strains of Ganoderma calidophilum (90.22 mg/g) and Amauroderma rugosum (89.24 mg/g). Some of the more efficacious compounds of Ganoderma were 1,6-branched 1,3-β-glucan, which have been reported to inhibit tumor growth by stimulating the immune system via the activation of macrophage, the balance of T helper cell populations, and subsequent effects on natural killer (NK) cells. Moreover, environmental factors, such as vegetation, soil characteristics, and forest stand, as well as microclimate, were found to be contributory to local medicinal mushroom habitats, and significantly accumulated with bioactive compounds or nutraceutical products, such as 1,3-β-glucan content. Keywords: Medicinal mushrooms, mycelia extraction, nutraceutical, bioactive compounds, 1,3-β-glucan Introduction Medicinal mushrooms have been identified as remarkable therapeutic agents in traditional folk medicines and are important ingredients in popular culinary products all over the world.
    [Show full text]
  • Characterization of Ganoderma Lucidum Laccase and Degradation Of
    PEER-REVIEWED ARTICLE bioresources.com Lignocellulose Degradation by Daedaleopsis confragosa and D. tricolor Mirjana Stajić,a,* Jasmina Ćilerdžić,a Milica Galić,a Žarko Ivanović,b and Jelena Vukojević a The properties and capacities of the ligninolytic enzymes of Daedaleopsis spp. are still unknown. This is the first study on the effect of plant residues and period of cultivation on the properties of Mn-oxidizing peroxidases and laccases of D. confragosa and D. tricolor, as well as their ligninolytic potentials. Wheat straw was the optimal carbon source for synthesis of highly active Mn-dependent peroxidases (4126.9 U/L in D. confragosa and 2037.9 U/L in D. tricolor). However, laccases were the predominant enzymes, and the best inducer of their activity (up 16000.0 U/L) was cherry sawdust. Wheat straw was the most susceptible plant residue to the effect of the enzymes, and extent of lignin degradation was 43.3% after 14 days of fermentation with D. tricolor. However, D. confragosa was a more effective lignin degrader, as it converted even 21.3% wheat straw lignin on the 6th day of cultivation. The results of the study clearly showed that delignification extent depends on mushroom species and on the type of plant residue, which is extremely important for potential use in biotechnological processes. Keywords: Daedaleopsis spp; Delignification; Ligninolytic enzymes; Lignocellulosic residues; Solid-state fermentation. Contact information: a: University of Belgrade, Faculty of Biology, Takovska 43, 11000 Belgrade, Serbia; b: Institute for Plant Protection and Environment; Teodora Drajzera 9; 11000 Belgrade; Serbia; * Corresponding author: [email protected] INTRODUCTION A large amount of lignocellulosic residue is produced annually worldwide (150 billion tons), and the dominant biomass differs depending on the region (Asim et al.
    [Show full text]
  • Preliminary Bioactivity Screening of Crude Extracts of Six Wild Macrofungi from Pine Forests in Benguet and Mt
    Manila Journal of Science 13 (2020), pp. 74–88 Preliminary Bioactivity Screening of Crude Extracts of Six Wild Macrofungi From Pine Forests in Benguet and Mt. Province, Philippines Audrey Glenn L. Culliao,1,* Rhoda S. Lumang-ay,2 Gloria Meryl T. Kingat,3 Tomasa P. Colallad,3 and Maria Victoria P. Canaria2 1Department of Medical Laboratory Science, School of Natural Science, Saint Louis University, Baguio City, Philippines 2Department of Pharmacy, School of Natural Science, Saint Louis University, Baguio City, Philippines 3Department of Biology, School of Natural Science, Saint Louis University, Baguio City, Philippines *E-mail: [email protected] ABSTRACT This study investigated the pharmacological significance of wild macrofungi collected from pine forests in Benguet and Mt. Province, Philippines, to help address a number of health-related conditions, such as oxidative stress, thrombosis, and bacterial infections. Six wild macrofungi were subjected to chloroform and ethanol extraction, and their crude extracts were screened for their total phenolic content (TPC), antioxidant, lethality, thrombolytic, and antibacterial activities. The ethanol extract of Daedaleopsis confragosa has the highest TPC at 49.28 ± 0.30 μg gallic acid equivalent (GAE)/mg extract and percent free radical inhibition activity at 74.59 ± 0.11%, which was comparable to the pure compound quercetin at 74.33 ± 0.32%. On the other hand, the ethanol extracts of Scleroderma citrinum and Postia fragilis have the most potent median effective concentration (EC50) at 431.01 ± 17.82 and 469.63 ± 15.25 μg/mL. Only the ethanol extract of Daedaleopsis confragosa exhibited low toxicity (median lethal concentration (LC50) = 565.90 μg/mL) while the rest of the test extracts are not toxic.
    [Show full text]
  • Daedaleopsis Genus in Siberia and the Far East of Russia
    Proceedings BDI-2020, 17-26 doi: 10.3897/ap.2.e58134 III Russian National Conference “Information Technology in Biodiversity Research” Daedaleopsis Genus in Siberia and the Far East of Russia Viktoria D. Vladykina*(a), Victor A. Mukhin (b), Susanna M. Badalyan (c) (a) ORCID: 0000-0002-4877-2259, Department of Biodiversity and Bioecology, Institute of Natural Sciences and Mathematics, Ural Federal University named after the first President of Russia B.N. Yeltsin, 19 Mira Street, 620003 Ekaterinburg, Russia (b) ORCID: 0000-0003-4509-4699, Department of Biodiversity and Bioecology, Institute of Natural Sciences and Mathematics, Ural Federal University named after the first President of Russia B.N. Yeltsin, 19 Mira Street, 620003 Ekaterinburg, Russia, Institute of Plant and Animal Ecology, Ural Branch of Russian Academy of Sciences, 202, 8 Marta Street, 620144, Ekaterinburg, Russia (c) ORCID: 0000-0001-9273-5730, Laboratory of Fungal Biology and Biotechnology, Institute of Pharmacy, Yerevan State University, 1 A. Manoogian Street, 0025 Yerevan, Armenia Abstract The current article discusses the findings of the study of biodiversity, distribution, and ecology of Daedaleopsis species in the Siberia and Russian Far East are presented. In this part of Eurasia, the genus Daedaleopsis is represented by 3 species, D. confragosa, D. tricolor and D. septentrionalis. They are distributed in all regions of Siberia and the Russian Far East (the most common are D. confragosa and D. tricolor) and contribute to the decomposition of woody debris of several deciduous (Acer, Alnus, Betula, Carpinus, Chosenia, Crataegus Quercus, Padus, Populus, Salix, Sorbus, Tilia) and rarely coniferous (Abies) trees. Each species has its own pattern of geographical and substrate distribution.
    [Show full text]
  • Seven Islands State Birding Park, Knox Co., TN
    Seven Islands State Birding Park, Knox Co., TN Place cursor over cells with red SPECIES LIST triangles to view pictures By Cumberland Mycological Society, Crossville, TN and/or comments click on underlined species for web links to details about those species Sep-09 May-10 Scientific name common names (if applicable) Agaricus placomyces "Eastern Flat-topped Agaricus" x Agaricus pocillator none x Amanita amerirubescens "Blusher" x Amanita gemmata complex "Gem-studded Amanita" x Armillaria tabescens syn. Clitocybe tabescens "Ringless Honey Mushroom" x Aureoboletus auriporus syn. Boletus auriporus syn. Boletus viridiflavus "Gold-pored Bolete" x Auricularia "auricula-judae" syn. A. "auricula" [misapplied names ] "Wood Ear," "Jelly Ear," "Tree Ear" x x Bisporella citrina syn. Helotium citrinum, syn. Calycella citrina "Yellow Fairy Cups" x Boletus atkinsonii Atkinson's Bolete x Boletus curtisii none x Boletus discolor syn. B. erythropus ssp. discolor, syn. B. luridiformis ssp. discolor none x Boletus fraternus/ rubellus/ campestris complex x Boletus pallidus "Pale Bolete" x Callistosporium luteo-olivaceum syn. Collybia luteo-olivaceous none x Calvatia craniiformis "Skull-shaped Puffball" x Cantharellus persicinus "Peach Chanterelle" x Cerrena unicolor syn. Trametes unicolor, syn. Daedalea unicolor "Mossy Maze Polypore" x Chlorophyllum molybdites syn. Lepiota morganii "Green-gilled Lepiota" x Crepidotus applanatus var. applanatus "Flat Crep" x Dacrymyces palmatus “Orange Jelly Cap” x Daedaleopsis confragosa syn. Daedalea confragosa "Thin-maze Flat Polypore" x Ductifera pululahuana syn. Tremella pululahuana, syn. Exidia alba "White Jelly Fungus" x x Exidia recisa "Amber Jelly Roll" x Ganoderma applanatum syn. G. lipsiense "Artist's Conk" x Geastrum triplex "Collared Earthstar" x Gloeoporus dichrous syn. Caloporus dichrous, syn.
    [Show full text]