New fungal genera, Tectonidula gen. nov. for Calosphaeria-like fungi with holoblastic-denticulate conidiogenesis and Natantiella gen. nov. for three species segregated from Ceratostomella
{"title":"New fungal genera, Tectonidula gen. nov. for Calosphaeria-like fungi with holoblastic-denticulate conidiogenesis and Natantiella gen. nov. for three species segregated from Ceratostomella","authors":"Martina Réblová , Václav Štěpánek","doi":"10.1016/j.mycres.2009.06.003","DOIUrl":null,"url":null,"abstract":"<div><p>Two morphologically similar groups of ascomycetes with globose to subglobose perithecia, elongate necks, unitunicate asci floating freely at maturity, and hyaline ascospores currently placed in <em>Calosphaeria s. lat.</em> and <em>Ceratostomella s. lat.</em>, respectively, are studied. The <em>Calosphaeria</em>-like fungi have groups of perithecia growing between cortex and wood, arranged in circular groups with converging necks and piercing the cortex in a common point; the asci with a shallow apical ring and U- to horseshoe-shaped hyaline ascospores are compared with <em>Calosphaeria pulchella</em>, the type species of the genus. Conidiogenesis of the investigated <em>Calosphaeria</em>-like fungi is holoblastic-denticulate; ramichloridium-like and sporothrix-like conidiophores and conidia were formed <em>in vitro</em>. Ascospore and ascus morphology, structure of the ascal apex, ascogenous system, mode of conidiogenesis and the large subunit rRNA sequences of this group differ considerably from <em>C. pulchella</em> and both groups are unrelated. Thus a new genus, <em>Tectonidula</em>, is described with two accepted species, <em>T. hippocrepida</em> and <em>T. fagi</em>; they are separated by ascospore and ascus morphology and holoblastic-denticulate conidiogenesis from the core species of <em>Calosphaeria</em>. The placement of <em>Tectonidula</em> among perithecial ascomycetes is discussed. The relationship of <em>Tectonidula</em> with <em>Barbatosphaeria</em> and two ramichloridium-like hyphomycetous genera <em>Rhodoveronaea</em> and <em>Myrmecridium</em> is investigated. Three species formerly attributed to <em>Ceratostomella</em> are studied. The revision of the herbarium type specimen and fresh material of <em>Ceratostomella ligneola</em> revealed that it is conspecific with <em>Ceratostomella ampullasca</em> and <em>Ceratostomella similis</em>. The LSU phylogeny clearly separated <em>C. ligneola</em> from <em>Ceratostomella s. str</em>. and morphologically similar <em>Lentomitella</em>. On the basis of molecular sequence data and detailed comparison of morphology of asci, ascospores and ascogenous system the genus <em>Natantiella</em> is described for <em>C. ligneola</em> with <em>C. ampullasca</em> and <em>C. similis</em> as its synonyms. <em>Natantiella</em> produced sterile mycelium <em>in vitro</em>.</p></div>","PeriodicalId":19045,"journal":{"name":"Mycological research","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2009-09-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.1016/j.mycres.2009.06.003","citationCount":"15","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Mycological research","FirstCategoryId":"1085","ListUrlMain":"https://www.sciencedirect.com/science/article/pii/S0953756209001002","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 15
Abstract
Two morphologically similar groups of ascomycetes with globose to subglobose perithecia, elongate necks, unitunicate asci floating freely at maturity, and hyaline ascospores currently placed in Calosphaeria s. lat. and Ceratostomella s. lat., respectively, are studied. The Calosphaeria-like fungi have groups of perithecia growing between cortex and wood, arranged in circular groups with converging necks and piercing the cortex in a common point; the asci with a shallow apical ring and U- to horseshoe-shaped hyaline ascospores are compared with Calosphaeria pulchella, the type species of the genus. Conidiogenesis of the investigated Calosphaeria-like fungi is holoblastic-denticulate; ramichloridium-like and sporothrix-like conidiophores and conidia were formed in vitro. Ascospore and ascus morphology, structure of the ascal apex, ascogenous system, mode of conidiogenesis and the large subunit rRNA sequences of this group differ considerably from C. pulchella and both groups are unrelated. Thus a new genus, Tectonidula, is described with two accepted species, T. hippocrepida and T. fagi; they are separated by ascospore and ascus morphology and holoblastic-denticulate conidiogenesis from the core species of Calosphaeria. The placement of Tectonidula among perithecial ascomycetes is discussed. The relationship of Tectonidula with Barbatosphaeria and two ramichloridium-like hyphomycetous genera Rhodoveronaea and Myrmecridium is investigated. Three species formerly attributed to Ceratostomella are studied. The revision of the herbarium type specimen and fresh material of Ceratostomella ligneola revealed that it is conspecific with Ceratostomella ampullasca and Ceratostomella similis. The LSU phylogeny clearly separated C. ligneola from Ceratostomella s. str. and morphologically similar Lentomitella. On the basis of molecular sequence data and detailed comparison of morphology of asci, ascospores and ascogenous system the genus Natantiella is described for C. ligneola with C. ampullasca and C. similis as its synonyms. Natantiella produced sterile mycelium in vitro.