Table 2 in Morpho-phylogenetic evidence reveals new species in Rhytismataceae (Rhytismatales, Leotiomycetes, Ascomycota) from Guizhou Province, China

Table 2. Synopsis of Terriera species. The new species described in this study are indicated in bold. SpeciesHostAppearance of apotheciaAsciAscosporesOriginReferencesTerriera aequabilisOn dead leaves of Photinia villosaElliptical to sub-circular, straight or slightly curved to one side, ends rounded and opening by a single longitudinal split75-105 × 4.5-5.5 µm55-78 × 0.8-1 µm, filiform, aseptate, ends rounded, covered by a 0.3-0.5 µm wide gelatinous sheathJiangxi, ChinaLi et al. 2015bT. angularisOn leaves of Illicium simonsiiTriangular to quadrangular, rarely elliptical and opening by 3-4 radial splits or a longitudinal split105-130 × 5.5-6.5 µm70-90 × 1-1.2 µm, filiform, aseptate, slightly tapering towards the round base, covered by a 0.8-1 µm wide gelatinous sheathHubei, ChinaZhou et al. 2013T. arundinaceaOn decomposed leaves of Bambusa sp.Oblong to sublinear and opening by a single longitudinal split130-160 × 8-9 µm90-100 × 2-2.5 µm, slightly tapering towards the base, lacking gelatinous sheathJava, IndonesiaJohnston 2001T. asteliaeOn dead leaves of Asterlia sp.Elliptical to oblong, ends rounded, opening by a single longitudinal slit75-105 × 8-10.5 µm45-70 × 2-2.5 µm, slightly tapering towards both ends and slightly constricted near the centre, aseptate or 1-septate, gently curved, lacking gelatinous sheathNorthland, New ZealandJohnston 2001T. breveOn dead leaves of Carex, Unicinia and Gahnia spp.Oblong-elliptical, ends rounded, often sublinear, with a single longitudinal opening slit110-135(-160) × 6-7 µm(55-)60-75 × 1.5-2 µm, slightly tapering towards both ends, aseptate or 1-septate, gently curved or sigmoid, lacking gelatinous sheathCampbell I, New ZealandJohnston 2001T. camelliaeOn fallen leaves of Camellia sp.Subcircular to irregular bleached spots, elliptical or occasionally 3-lobed and opening by a longitudinal split85-120 × 5.5-6.5 µm52-80 × 1-1.2 µm, filiform, aseptate, covered by a ca. 0.5 µm wide gelatinous sheath.Fuzhou, ChinaChen et al. 2011T. camelliicolaOn twigs of Camellia sinensisElliptical, occasionally fusing to form elongated elliptical, opening by a single longitudinal split80-110 × 5-7 µm50-70 × 1 µm, filiform, aseptate, covered by a 0.5 µm wide gelatinous sheath.Assam, IndiaMinter and Sharma 1982T. cladophilaOn dead twigs of Vaccinium myrtillusElliptical, rounded at the ends, with a longitudinal opening split75-100 × 5.5-8 µm60-70 × 1 µm, filiform, aseptate, lacking gelatinous sheathNorwayTerrier 1942; Eriksson 1970T. clithrisOn dead leaves of unidentified monocotyledonCylindrical to linear, with longitudinal opening slit110-120 × 6.5-7.0 µm60-80 × 1-1.5 µm, slightly tapering towards both ends, lacking gelatinous sheathRio Grande Do Sul, BrazilJohnston 2001T. coacervataOn leaves of Lithocarpus cleistocarpusElliptical, sometimes branching into lobed or polygonal shapes, opening by a longitudinal split or by more than 3 lobes90-130 × 6.0-7.0 µm60-110 × 1.5-1.8 µm, filiform, aseptate, covered by a 1.0-1.5 µm wide gelatinous sheathAnhui, ChinaZheng et al. 2012T. dracaenaeOn dead leaves or stems of Dracaena sp.Oblong to oblong-elliptical, ends rounded, opening by a single longitudinal split130-140 (-160) × 6-7 µm100 × 2 µm, 1-septate, lacking gelatinous sheathCalifornia, USAJohnston 2001T. ellipticaOn living twigs of Rhododendron sp.Elliptical, ends rounded to subacute, opening by a longitudinal split135-175 × 7-9 μm60-85 × 1.5-2 μm, filiform, slightly tapering towards both ends, aseptate, covered by a 1-1.5 μm wide gelatinous sheathYunnan, ChinaZhang et al. 2015T. ficiOn dead leaves of Ficus vasculosaRounded or subrounded, with conspicuous edge and opening by a single longitudinal split90-115 × 4-5.5 µm65-80 × 0.8-1 µm, filiform, aseptate, rounded to obtuse at the apex, slightly tapering towards the rounded or subacute base, covered by a 0.5 µm wide gelatinous sheathHainan, ChinaWu et al. 2016T. fuegianaOn dead leaves of Rostkovia grandifloraOblong elliptical to broad-elliptical, ends rounded, opening by a single, longitudinal slit75-95 × 7-10 μm60-65 × 1.5-2.5 μm, slightly tapering towards both ends, 1-septate, lacking gelatinous sheathTierra del Fuego, ArgentinaJohnston 2001T. fourcroyaeOn dead leaves of Furcraea sp.Oblong-elliptical, ends rounded, with a single longitudinal opening slit95-110 × 5-6.5 µm60-70 × 1.5-2.5 μm, slightly tapering towards both ends, gently coiled or sigmoid, 1-septate, lacking gelatinous sheath.Sri LankaJohnston 2001T. guizhouensisOn dead leaves of Eriobotrya japonicaElliptical, occasionally curved, opening by a longitudinal split88-107 × 4-6 µm50-80 × 1-1.2 µm, filiform, slightly tapering towards both ends, aseptate, pluriguttulate, covered by a thin gelatinous sheathGuizhou, ChinaCai et al. 2020T. houjiashanensisOn dead leaves of Ilex cornutaElliptical, often curved, occasionally confluent, opening by a longitudinal split103-128 × 4-6 µm73-82 × 0.6-0.9 µm, filiform, slightly tapering towards both ends, aseptate, pluriguttulate, covered by an inconspicuous gelatinous sheathAnhui, ChinaCai et al. 2020T. huangshanensisOn leaves of Eurya muricata var. huianaElliptical, fusiform or subfusiform, straight or curved (lunate), sometimes 3-lobed or triangular, ends rounded to subacute, opening by a single longitudinal split100-120 × 5-7 µm58-90 × 1.5-2 µm, filiform, slightly tapering towards the base, aseptate, covered by a 1-1.5 µm thick gelatinous sheathAnhui, ChinaYang et al. 2011T. ilicisOn dead leaves of Ilex pernyiElliptical, occasionally curved, triangular or confluent, opening by a longitudinal split117-139 × 4-7 µm52-84 × ca. 1 µm, filiform, slightly tapering towards both ends, aseptate, pluriguttulate, covered by a thin gelatinous sheathHubei, ChinaCai et al. 2020T. illiciicolaOn dead leaves of Lithocarpus cleistocarpusSubcircular to broad-elliptical, opening by a longitudinal split90-135 × 4.0-5.0 µm65-95 × 1 µm, filiform, aseptate, covered by an inconspicuous gelatinous sheathAnhui, ChinaZheng et al. 2011T. intraepidermalisOn fallen leaves of Photinia prunifoliaWidely elliptical, sometimes elliptical or subcircular, occasionally triangular, straight or curved to one side slightly, ends round to obtuse, opening by a single longitudinal split or by three radial splits90-135 × 5.5-7.5 µm70-105 × 1-1.5 µm, with upper end rounded to obtuse, slightly tapering towards the rounded base, covered by a 0.5 μm wide gelatinous sheathHunan, ChinaLu et al. 2015T. javanicaOn dead leaves of Elettaria sp.Oblong-elliptical to sublinear, ends acute, opening by a single longitudinal slit85-95 × 5.5-7 µm50-60 × 1.5 µm, but the detailed morphological characters were not seenJava, IndonesiaJohnston 2001T. karstiOn dead branch of unidentified hostElliptical or oblong-elliptical, ends slightly acute to obtuse, with a single longitudinal opening split(103-)110-122.5 × 5.5-7 µm55-66 × 1.5-2.0 µm, filiform, gradually tapering towards both ends, aseptate, lacking gelatinous sheathGuihzou, ChinaIn this studyT. latiascusOn dead leaves of Euterpe and Heliconia spp.Oblong-elliptical, with a single longitudinal opening slit80-95 × 7-8.5 µm40-50 × 2-2.5 µm, with 1(-3)-septate, slightly tapering to both endsAmazonas, BrazilJohnston 2001T. longissimaOn dead leaves of Bambusaceae sp.Oblong to sublinear, ends rounded, opening by a single, longitudinal slit175-210 × 6-6.5 µmApproximately 120-130 µm long, but the detailed morphological characters were not seenPotaro-Siparuni region VII, GuyanaJohnston 2001T. mangiferaeOn dead leaves of Aucuba japonica and Mangifera indicaEllipsoidal, with a longitudinal opening split80-90 × 5-6 µm70-80 × 1 µm, filiform, lacking gelatinous sheathJava, IndonesiaKoorders 1907; Li et al. 2014T. meitanensisOn dead culms of unidentified hostElliptical to oblong-elliptical, ends slightly acute to obtuse, opening by a single longitudinal split(98.5-)113-125.5(-131.5) × 6-7.5 µm47-54.5 × 1.5-2.5 µm, filiform, gradually tapering towards both ends, aseptate, lacking gelatinous sheathGuizhou, ChinaIn this studyT. nematoideaOn dead leaves of Gahnia sp.Elliptical to sublinear, with a single longitudinal opening slit70-80 × 5-6.5 µm30-35 × 1 µm, slightly tapering towards both ends, gently curved or sigmoid, 1-septate, lacking gelatinous sheathNorthland, New ZealandJohnston 2001T. nitensOn leaves of Cyclobalanopsis myrsinifoliaSuborbicular or broadly elliptical, straight or slightly curved, opening by a single longitudinal split95-150 × 1-1.2 µm68-115 × 0.8-1.2 µm, filiform, aseptate, round at the apex, slightly tapering towards the acute base, covered by a thin gelatinous sheathAnhui, ChinaChen et al. 2013T. pandaniOn dead leaves of Pandanus sp.Oblong to oblong-elliptical, ends rounded, opening by a single longitudinal slit100-120 × 5-6 µm50-70 × 1-1.5 µm, lacking gelatinous sheathSan Juan, Puerto RicoJohnston 2001T. pandanicolaOn dead leaves of Pandanus sp.Elliptical, with rounded to subacute ends, opening by a longitudinal split50-66 × 4-5 µm55-78 × 1-2 µm, filiform, slightly tapering towards both ends, aseptate, lacking gelatinous sheathPrachuap Khiri Khan, ThailandTibpromma et al. 2018T. petrakiiOn fallen leaves of Smilax bracteataElongate-elliptical, strongly curved or triangular, often coalesced, opening by a longitudinal split85-110 × 4-5 µm(60-)70-85 × 0.8 µm, filiform, aseptate, covered by a thin gelatinous sheathYunnan, ChinaSong et al. 2012T. rotundataOn fallen leaves of Quercus sp.Elliptical, occasionally triangular, ends rounded, opening by a longitudinal split or occasionally by teeth90-120 × 4-5.5 µm70-90(-95) × 0.8-1 µm, filiform, aseptate, lacking gelatinous sheathYunnan, ChinaSong et al. 2012T. sacchariOn dead leaves and leaf bases of Saccharum officinarumNarrow-oblong to sublinear, with a single longitudinal opening split90-100 × 5-7 µm50-60 × 1.5 µm, lacking gelatinous sheathHawaii, USAJohnston 2001T. samuelsiiOn dead leaves of unidentified monocotyledonOblong to sublinear, ends rounded, opening by a single longitudinal slit125-140 × 7-8 µm(65-)75-90 × 2 µm, slightly tapering towards both ends, 1-septate, lacking gelatinous sheathAmazonas, BrazilJohnston 2001; 2003T. sigmoideosporaOn dead fallen leaves of unidentified hostElliptical, ends rounded to subacute, opening by a single longitudinal split(93.5-)102-121 × 5-6 μm79-95 × 5-2 μm, filiform, slightly tapering towards both ends, aseptate, lacking gelatinous sheathGuizhou, ChinaIn this studyT. simplexOn fallen leaves of Trachelospermum jasminoide sElliptical to ovate, ends obtuse, rounded or slightly acute, opening by a single longitudinal split which is sometimes branched in the triangular ascomata72-95(-105) × 4.8-5.2 µm(45-)56-82 × 1-1.2 µm, filiform, slightly tapering towards the rounded base, covered by a 0.8-1 µm wide gelatinous sheathAnhui, ChinaGao et al. 2012T. stevensiiOn dead leaves of Vincentia sp.Oblong, ends rounded, opening by a single longitudinal slit100-125 × 5-6 µm60-80 × 1.5-2 µm, lacking gelatinous sheathHawaii, USAJohnston 2001T. thailandicaOn dead branch of unidentified hostElliptical, ends rounded to subacute, opening by a longitudinal split80-105 × 3.4-6.6 µm38-60 × 1-1.5 µm, filiform, slightly tapering towards both ends, aseptate, lacking gelatinous sheathChiang Rai, ThailandHyde et al. 2016T. transversaOn dead leaves of Pandanus sp.Elliptical or oblong-elliptical, ends slightly acute to obtuse, opening by a single longitudinal split70-86 × 5-6 µm45-68 × 1-1.2 µm, filiform, slightly tapering towards both ends, aseptate, covered by a 0.5 µm wide gelatinous sheathHainan, ChinaLi et al. 2015a