Morphological analysis

To enhance sporulation, double-autoclaved pine needles or double autoclaved grapevine wood pieces were placed onto the surface of synthetic nutrient-poor agar medium (SNA; Nirenberg 1976), and incubated at 25 °C in the dark for 2 wk (anamorphs) or 2–3 mo (teleomorphs). Measurements, photographs of characteristic structures and vertical sections through ascomata and conidiomata were made according to Damm et al. (2007). Microscopic preparations were made in clear lactic acid or water, with 30 measurements per structure, and observations were made with a Nikon SMZ800 dissecting microscope (DM) or with a Nikon Eclipse E600 microscope using differential interference contrast (DIC) illumination. Colony characters and pigment production were noted after 2 wk of growth on malt extract agar (MEA, 2 % malt extract, Oxoid Ltd., England; 1.5 % agar, Difco, USA) and 2 % potato-dextrose agar (PDA; Crous et al. 2009) incubated at 25 °C. Colony colours were rated according to Rayner (1970). Growth characteristics were studied on MEA plates incubated in the dark at temperatures ranging from 5–35 °C, in 5° intervals.

Phylogenetic analysis

Genomic DNA of the isolates was extracted using the method of Damm et al. (2008b). The 5.8S nuclear ribosomal gene with the two flanking internal transcribed spacers (ITS-1 and ITS-2), a 200-bp intron of the glyceraldehyde-3-phosphate dehydrogenase (GAPDH), a partial sequence of the translation elongation factor 1α (EF-1α), of the 28S nrDNA (LSU) and of the 18S nrDNA (SSU) were amplified and sequenced using the primer pairs ITS-1F (Gardes & Bruns 1993) + ITS-4 (White et al. 1990), GDF1 + GDR1 (Guerber et al. 2003), EF1-728F + EF1-986R (Carbone & Kohn 1999), NL1 + NL4 (O’Donnell 1993) and NS1 + NS8 (White et al. 1990) or NS1 + NS24 (Gargas & Taylor 1992), respectively. Additional primers were used for sequencing the SSU, NS2–NS5 (White et al. 1990). The LSU sequences were added to the outgroup (Lipomyces starkeyi U45824 and Saccharomyces cerevisiae J01355) and sequences obtained from GenBank (www.ncbi.nlm.nih.gov). The alignment was assembled and manually adjusted using Sequence Alignment Editor v2.0a11 (Rambaut 2002). Phylogenetic analysis was performed using PAUP (Phylogenetic Analysis Using Parsimony) v4.0b10 (Swofford 2000). Alignment gaps were treated as missing and all characters were unordered and of equal weight. Maximum parsimony analysis was performed using the heuristic search option with 100 random sequence additions and tree bisection and reconstruction (TBR) as the branch-swapping algorithm. The robustness of the trees obtained was evaluated by 1 000 bootstrap replications with 100 random sequence additions (Hillis & Bull 1993). Tree length, consistency index (CI), retention index (RI), rescaled consistency index (RC) and homoplasy index (HI) were calculated for the resulting tree. Since we could not assign or differentiate some of the taxa, we used SSU, LSU, ITS and for some taxa EF-1α and GAPDH sequences for sequence comparisons and in BLASTn searches (www.ncbi.nlm.nih.gov). Sequences derived in this study were lodged at GenBank, the alignment in TreeBASE (www.treebase.org/treebase-web/home.html), and taxonomic novelties in MycoBank (www.MycoBank.org; Crous et al. 2004).

Taxonomy

The Lecythophora-like fungi isolated from Prunus wood could be assigned to 13 species representing three phylogenetically distinct genera: Collophora gen. nov., Coniochaeta (anamorph: Lecythophora) and Phaeomoniella. Five species of Collophora, two species of Coniochaeta and four species of Phaeomoniella proved distinct from known species, and are newly described.

Collophora Damm & Crous, gen. nov. — MycoBank MB516622

Teleomorph. unknown.

Coloniis tarde crescentibus, humidis, albidis, cremeis vel rubicundis, mycelio aerio sparse evoluto vel nullo. Conidiophora unicellularia. Cellulae conidiogenae enteroblasticae, intercalares, redactae ad adenophiales breves, saepe cum collarettis sicut in hyphis. Conidia aggregata circum hyphas et in pagina agari. Conidiomata pseudopycnidialia, solitaria vel aggregate, subglobosa, superficialia vel semiimmersa, unilocularia vel multilocularia, pariete ex textura epidermoidea crassitunicata composito, irregulariter dehiscenti. Conidiophora hyalina, ramosa, septata, filiformia. Cellulae conidiogenae enteroblasticae, hyalinae, collis brevibus saepe acropleurogeniter formatis (in quoque cellulis sub septo lateraliter vel terminaliter formatis). Conidia pseudopycnidiarum et cellularum hypharum intercalarium minuta, hyalina, unicellularia, cylindracea vel ellipsoidea.

Type species. Collophora rubra Damm & Crous, sp. nov.

Etymology. Hyphae carry short necks or, more often, mere collarettes that release conidia (collarette Lat. = neckband, phorus Gr. = carrying).

Colonies slow-growing, moist, white, cream or reddish colours, with sparse or lacking aerial mycelium. Conidiophores reduced to conidiogenous cells. Conidiogenous cells enteroblastic, intercalary, reduced to very short adelophialides or more often with collarettes formed directly on hyphal cells. Conidia aggregated in masses around the hyphae and on the agar surface. Conidiomata pseudopycnidial, solitary or aggregated, subglobose, superficial or semi-immersed, uni- to multilocular, wall composed of thick-walled textura epidermoidea, dehiscence irregular. Conidiophores hyaline, branched, septate, filiform. Conidiogenous cells enteroblastic, hyaline, often short necks formed laterally in each cell just below the septum as well as terminally (acropleurogenous). Conidia of pseudopycnidia and intercalary hyphal cells small, hyaline, 1-celled, cylindrical to ellipsoidal.

Notes — The genus Collophora usually forms conidiomata in culture but no teleomorph, which distinguishes it from Lecythophora anamorphs of Coniochaeta species (Weber 2002) and the anamorph of Mycocalicium schefflerae (Samuels & Buchanan 1983) that form perithecia or apothecia in culture, respectively. Other Lecythophora-like anamorphs that do not form conidiomata may differ in colony colour, which is orange-yellow in Barrina polyspora (Ramaley 1997), or in pigmentation of the apical region, as in the Calosphaeriophora anamorph of Calosphaeria africana (Damm et al. 2008a), or in the shape of the intercalary phialides, as in the anamorph of Igneocumulus yuccae (Ramaley 2003), which has short, narrow necks that are often wider than long. ‘Lecythophora’ sp. 1 described by Weber (2002) forms discrete, ventricose phialides in old cultures. These phialides are often aggregated on dendroid conidiophores, and the vegetative hyphae are often very narrow (< 1 μm). These features were not observed in Collophora species. The anamorph of Munkovalsaria rubra produces a red pigment as do some Collophora species. However, cultures emit a strong odour of m-cresol and form no conidiomata. Intercalary phialides are arranged in irregularly branched conidiophores (Aptroot 1995).

Conidia of Phialemonium are formed on discrete, short-stalked conidial heads (Gams & McGinnis 1983), while conidia of Collophora usually emerge from collarettes attached directly to hyphae and become aggregated in masses around those hyphae and on the agar surface. Phialides of Humicolopsis are similar to those of Phialemonium. Also, Humicolopsis colonies turn grey to black due to the presence of dark chlamydospores (Marchand et al. 1976) that are not found in Collophora. Conidiogenous necks of Neotyphodium anamorphs of Epichloë are even longer than those of Phialemonium, and are aculeate (Morgan-Jones & Gams 1982, Glenn et al. 1996, Chen et al. 2009).

Some Phaeomoniella species and ‘ Lecythophora’ sp. 2 (Weber 2002) produce conidia in conidiomata as well as from dispersed conidiogenous cells. However, the conidiomata are pycnidial and not pseudopycnidial, which means they are usually not stromatic and unilocular. The conidiomatal wall is composed of textura angularis in Phaeomoniella and of textura globulosa in ‘ Lecythophora’ sp. 2, but not of textura epidermoidea as in Collophora. Also, the acropleurogenous conidiogenous cells of Collophora are distinctive in this comparison (Crous & Gams 2000, Weber 2002, Lee et al. 2006, this paper). Colonies of most Phaeomoniella species and of ‘ Lecythophora’ sp. 2 produce greenish pigments that do not occur in Collophora. Phialophora sessilis and Phialophora reptans colonies also differ in colour from Collophora: they are olivaceous-black due to pigmented hyphae and conidiogenous cells (de Hoog et al. 1999).

In the genus Cyphellophora, conidia are septate, often sickle-shaped and pigmented (Decock et al. 2003), while in Collophora conidia are aseptate, hyaline to subhyaline and differently shaped. Cladorrhinum anamorphs of Apiosordaria and Cercophora form a reticulate system of hyaline or pale ochraceous, branched conidiophores, each cell with a lateral phialidic opening with widely flaring collarettes. Conidia of most species are dacryoid (Mouchacca & Gams 1993). Conidiogenous cells in Collophora differ by not being arranged as conidiophores or parts thereof. Collophora does not form aphanophialides as are characteristically seen in Aphanocladium (Gams 1971) and some species of Lecanicillium (Zare & Gams 2001). Usually, in Collophora, collarettes or periclinal wall thickenings are visible and several conidia are formed from each conidiogenous cell in basipetal succession.

There are few other fungal genera known that form conidiomata with filiform, acropleurogenously branched conidiophores (Sutton 1980). Among the genera with these characters is Catenophora, which produces conidiomata that are acervular, containing holoblastic conidiogenous cells, and pale brown conidia. Pyrenochaeta, Pleurophoma and Sirophoma have phialides and acropleurogenously branched conidiophores, but these structures are formed in pycnidia composed of thick-walled textura angularis, and have a single central, circular ostiole, while conidiomata of Collophora are pseudopycnidial with a wall formed by thick-walled textura epidermoidea and irregular dehiscence. Sirodothis (anamorph of Tympanis) differs in developing unilocular pycnidium-like structures on a basal stroma. Its conidiomatal wall is composed of textura angularis, while pseudopycnidia of Collophora are sessile or semi-immersed, often multilocular, and have a wall formed of thick-walled textura epidermoidea. Cytonema develops a characteristic rostrate ostiole, while conidiomata of Collophora open by irregular rupture.

Collophora is closely related to Pseudeurotium and other Pseudeurotiaceae (Fig. 1). However, Collophora species have phialidic conidiogenesis, while Teberdinia, the anamorph of Pseudeurotium, has sympodial conidiogenesis (Sogonov et al. 2005).

Collophora africana Damm & Crous, sp. nov. — MycoBank MB516623; Fig. 2

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Fig. 2

Collophora africana. a. Longitudinal section through a pseudopycnidium; b, c. pseudopycnidia on pine needle (b), and MEA medium (c); d, e, h. conidiophores lining the inner wall of pseudopycnidia; n. conidia formed in pseudopycnidia; f, g, j–m. conidiogenous cells on hyphal cells (arrow head: openings in plan view); i. conidia formed on hyphal cells. All from ex-type culture CBS 120872. a, d–n: DIC; b, c: DM. — Scale bars: a = 10 μm; b, c = 100 μm; d = 5 μm; d applies to d–n.

Collophorae rubrae similis, sed in vitro tarde crescentibus, conidiophoris pseudopycnidiarum magis ramosis, ramulis divergentibus, saepe < 2 μm latis, conidiis sicut in hyphis formatis, (2.5–)3.5–5.5(–8) × 1–2(–2.5) μm, conidiis conidiomatum 3–3.5(–4.5) × 1–1.5 μm.

Etymology. Named after its continent of origin, Africa.

Vegetative hyphae hyaline, 1–2 μm wide, smooth-walled, lacking chlamydospores. Sporulation abundant, conidia formed on hyphae and in pseudopycnidia. Conidiophores on hyphae reduced to conidiogenous cells. Conidiogenous cells enteroblastic, reduced to very short adelophialides or more often with collarettes formed directly on hyphal cells; necks cylindrical, 0.5–3 × 0.5–1 μm; collarettes cylindrical to narrowly funnel-shaped, very thin-walled, 0.5–2 long, opening 0.5–1 μm wide, often inconspicuous. Conidia aggregated in masses around the hyphae, hyaline, 1-celled, cylindrical to obovate, straight, with both ends obtuse or with a papillate apex, smooth-walled, containing small droplets, (2.5–)3.5–5.5(–8) × 1–2(–2.5) μm, mean ± SD = 4.5 ± 1.2 × 1.5 ± 0.3 μm, L/W ratio = 3.1. Microcyclic conidiation occurs, with conidia developing into mother cells, becoming > 10 μm long, 2–3 μm wide, and sometimes septate, with minute collarettes at one or both ends. Conidiomata pseudopycnidial, produced on pine needles, on SNA and on MEA in 2–4 wk; on pine needles solitary, subglobose, superficial, 50–250 μm wide; on agar medium solitary or within a stroma, dark brown, uni- to multilocular; wall 10–30 μm thick, composed of several layers of reddish brown textura epidermoidea with thick-walled, indistinctly delimited cells; opening by irregular rupture, often appearing cup-shaped when mature, surrounded by hyaline hyphal appendages. Conidiophores lining the inner conidiomatal cavity, hyaline, septate, usually not constricted at septa, 10–35 μm long, branched at the base and above, branches diverging, straight, filiform. Conidiogenous cells enteroblastic, hyaline, monophialidic, with conidiogenous loci formed intercalary immediately below the septum (acropleurogenously) as well as terminally, cylindrical when terminal, tapering slightly towards the tip, 4–7 × 1–1.5 μm, basal cells up to 2.5 μm wide; collarettes 0.5–1 μm long, opening < 0.5–1 μm, periclinal thickening visible. Conidia hyaline, 1-celled, cylindrical to ellipsoidal, straight, with both ends obtuse or with a slightly acute apex, smooth-walled, containing small droplets, 3–3.5(–4.5) × 1–1.5 μm, mean ± SD = 3.3 ± 0.3 × 1.4 ± 0.1 μm, L/W ratio = 2.4.

Culture characteristics — Colonies on PDA convex, slimy, with entire margin, white to pale rosy-buff and pale luteous, with thinly white to pale flesh floccose aerial mycelium; reverse white to pale luteous to rosy-vinaceous, turning red with age; entire medium scarlet to red due to diffuse pigment; on MEA umbonate, folded towards the centre, with radial growth rings and undulate margin; surface pale rosy-vinaceous to vinaceous-grey, with black spots and white, floccose-felty aerial mycelium in the centre; reverse peach to coral to dark vinaceous; sparse amounts of a red pigment released into medium; 5 mm diam in 2 wk (25 °C in the dark), min 5 °C, max 30 °C, opt 20 °C.

Specimen examined. South Africa, Western Cape Province, Paarl, from reddish brown necrosis in wood of P. salicina, 10 June 2004, U. Damm, CBS H-19993 holotype, culture ex-type CBS 120872 = STE-U 6113.

Notes — Collophora africana and Co. rubra both form red pigments that colour the colony and surrounding medium. The species are distinct in that the conidiomatal conidiophores of Co. africana branch basitonously and mesotonously with divergent branches, usually < 2 μm wide, while those of Co. rubra are less often branched and almost parallel in arrangement. The growth rate of Co. rubra is similar to that of Co. capensis, but conidia formed both in conidiomata and on hyphae are shorter.

The closest relative of Co. africana (STE-U 6113) is Co. capensis (STE-U 6199). The two species show only a few differences in sequence: two substitutions in ITS (99 % identity), three substitutions in LSU, one intron in SSU and five substitutions within the common introns (the ones that all Collophora species have), but no differences in GAPDH and EF-1α. Further, the ITS sequences of both Co. africana STE-U 6113 (GQ154570) and Co. capensis STE-U 6199 (GQ154571) are 96 % identical with those of Co. rubra STE-U 6109 (GQ154547) and 93 % identical with those of Co. pallida STE-U 6197 (GQ154575) and Co. paarla STE-U 6114 (GQ154586).

Collophora capensis Damm & Crous, sp. nov. — MycoBank MB516624; Fig. 3

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Fig. 3

Collophora capensis. a. Longitudinal section through a pseudopycnidium; b, c. conidia oozing from pseudopycnidia on pine needles; d–f. conidiophores lining the inner wall of pseudopycnidia; g. conidia formed in pseudopycnidia; h. conidia formed on hyphal cells; i–n. conidiogenous cells on hyphal cells. All from ex-type culture CBS 120879. a, d–n: DIC; b, c: DM. — Scale bars: a = 20 μm; b = 100 μm; d = 5 μm; b applies to b, c; d applies to d–n.

Collophorae africanae similis, sed conidiis in hyphis intercalaribus et in pseudopycnidiis majoribus, (4–)4.5–6.5(–9) × 1–1.5(–2) μm et (4–)4.5–6(–7) × 1–1.5 μm.

Etymology. Name refers to the Cape Province of South Africa, where this fungus was collected.

Vegetative hyphae hyaline, 1.5–3 μm wide, smooth-walled, lacking chlamydospores. Sporulation abundant, conidia formed on hyphal cells, in hyphae (endoconidia) and in pseudopycnidia. Conidiophores on hyphae mostly reduced to conidiogenous cells, 2-celled, hyaline, cylindrical conidiophores rare, 15–20 × 1.5–2 μm. Conidiogenous cells enteroblastic, hyaline, mainly intercalary, mostly reduced to mere collarettes formed directly on hyphal cells; necks cylindrical to doliiform, 3–6 × 1–2 μm, discrete phialides cylindrical, constricted at the base or navicular, 5–12 × 1.5–2 μm; collarettes conspicuous, cylindrical or flaring, thin-walled, 1.5–2 μm long, opening 1 μm wide, with periclinal thickening visible. Conidia aggregated in masses around the hyphae, hyaline, 1-celled, cylindrical, sometimes curved, with both ends obtuse or attenuated to one side, smooth-walled, (4–)4.5–6.5(–9) × 1–1.5(–2) μm, mean ± SD = 5.5 ± 1.2 × 1.5 ± 0.3 μm, L/W ratio = 3.8. Microcyclic conidiation occurs, with conidia developing into mother cells, often becoming > 10 μm long, 2–3 μm wide, and sometimes becoming septate, with minute collarettes at one or both ends. Conidiomata pseudopycnidial, produced on pine needles, on SNA and on MEA in 2–4 wk, 80–200 μm diam, unilocular to convoluted, wall 15–25 μm, composed of several layers of brown textura epidermoidea with thick-walled, indistinctly delimited cells, opening by irregular rupture. Conidiophores lining the inner conidiomatal cavity, hyaline or slightly brown, branched at the base and above, septate, constricted at the septae, branches diverging, 20–40 μm long. Conidiogenous cells enteroblastic, hyaline, monophialidic, conidiogenous loci formed intercalary, immediately below the septum (acropleurogenously) as well as terminally, inflated, 4–7 × 2–3 μm, terminal phialides flask-shaped; collarettes inconspicuous, opening 0.5–1 μm, periclinal thickening visible. Conidia cylindrical or allantoid, with one end obtuse, the other one obtuse, truncate or attenuated, smooth-walled, (4–)4.5–6(–7) × 1–1.5 μm, mean ± SD = 5.5 ± 0.8 × 1.4 ± 0.1 μm, L/W ratio = 3.9

Culture characteristics — Colonies on PDA flat to umbonate, moist to slimy, with sparse, villose, white to apricot or lacking aerial mycelium and undulate margin; surface white, pale luteous, rosy-buff to bay, sometimes with rose or olivaceous-grey spots, white margin; reverse white, pale luteous to rosy-buff to scarlet or dark-vinaceous, sometimes little reddish pigment exuding into the medium; on MEA umbonate, with floccose-filty aerial mycelium in the centre and undulate margin; surface rosy-buff; reverse cinnamon, vinaceous to bay in the centre, white margin; 5 mm (25 °C) diam in 2 wk, min 5 °C, max 25 °C, opt 15 °C.

Specimen examined. South Africa, Western Cape Province, Paarl, from necrosis close to pruning wound in wood of P. salicina, 10 June 2004, U. Damm, CBS H-19994 holotype, culture ex-type CBS 120879 = STE-U 6199.

Notes — Collophora capensis is similar to Co. africana in growth rate. However, both conidia formed on hyphae as well as those formed in conidiomata are longer than conidia of all other Collophora species. Also, the conidia of other species are often allantoid and conidia of Co. africana are not. Additionally, minimum and optimum temperatures are lower than those for the other three species. Collophora africana is the closest relative of Co. capensis and shows only a few differences in DNA sequence (see above).

Collophora paarla Damm & Crous, sp. nov. — MycoBank 516625; Fig. 4

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Fig. 4

Collophora paarla. a–c. Conidiogenous cells on hyphal cells; d. conidia formed on hyphal cells; e, f. microcyclic conidiation; g, h. endoconidia. All from ex-type culture CBS 120877. a–h: DIC. — Scale bar: a = 5 μm; a applies to a–h.

Collophorae pallidae similis, sed conidiis majoribus, (3–)4–7.5(–11) × (0.5–)1–2(–3) μm.

Etymology. Name refers to Paarl, a town in the Western Cape Province of South Africa, where this fungus was collected.

Vegetative hyphae hyaline, 1.5–5 μm wide, lacking chlamydospores. Sporulation abundant, conidia formed on hyphal cells and in hyphae (endoconidia). Conidiophores mostly reduced to conidiogenous cells, directly formed on hyphae, conidiophores rare, hyaline, septate, 10–20 × 2–3 μm. Conidiogenous cells enteroblastic, intercalary, mostly reduced to mere openings with collarettes or short cylindrical necks, 2–4 × 1–2 μm, discrete conidiophores rare, cylindrical, sometimes ampulliform, 5–10 × 2–3 μm; collarettes cylindrical or flaring, 0.5 μm long, opening 0.5–1 μm. Conidia aggregated in masses around the hyphae, hyaline, 1-celled, cylindrical, with both ends obtuse or a papillate apex, smooth-walled, often biguttulate, (3–)4–7.5(–11) × (0.5–)1–2(–3) μm, mean ± SD = 5.8 ± 1.8 × 1.4 ± 0.4 μm, L/W ratio = 4.2. Microcyclic conidiation occurs, with conidia developing into mother cells, often > 10 μm long, 2–3 μm wide and sometimes septate, with minute collarettes at one or both ends. Endoconidia formed uni- and biseriately. Conidiomata not observed.

Culture characteristics — Colonies on PDA flat, moist, irregularly wrinkled in the centre, with undulate or erose margin, lacking aerial mycelium; first very pale rosy-buff, later buff to flesh; reverse first buff, later flesh, sometimes colony turns sulphur-yellow towards the margin or pure yellow in the centre and sulphur-yellow towards the margin and sulphur-yellow pigment released into medium; on MEA flat, moist, lacking aerial mycelium, with erose margin; rosy-vinaceous, reddish pigment turns medium apricot to umber; 14 mm diam in 2 wk (25 °C dark), min 5 °C, max 30 °C, opt 20 °C.

Specimen examined. South Africa, Western Cape Province, Paarl, from dark brown necrosis in wood of P. persica, 10 June 2004, U. Damm, CBS H-19996 holotype, culture ex-type CBS 120877 = STE-U 6114.

Notes — Collophora paarla is similar to Co. pallida in growth rate, initial colony colour and formation of endoconidia, but forms larger conidia (av. 5.8 μm) on intercalary hyphae than Co. pallida (av. 3.9 μm). Also, the vegetative hyphae are wider (1.5–5 μm) than those of Co. pallida (1–2 μm). Collophora paarla sometimes forms yellow pigments on PDA or reddish pigments on MEA; these coloured metabolites are not seen in Co. pallida. However, Co. paarla cultures do not turn scarlet as do those of Co. rubra and Co. africana.

There are only a few differences in the DNA sequences between Co. paarla (STE-U 6114) and Co. pallida (STE-U 6197). Compared to Co. pallida, (STE-U 6197) Co. paarla (STE-U 6114) has one insertion in ITS, which is 99 % identical. It has four differences in EF-1α (which is 98 % identical), two additional introns in SSU, five substitutions within the introns that all Collophora species have, but no differences in LSU and GAPDH sequences. In relation to Co. africana, Co. rubra and Co. tardicola, however, Co. paarla and Co. pallida show many differences in ITS (≥ 33 bp; 92–93 % identical), LSU (≥ 22 bp, 95 %), SSU (≥ 18 bp, incl. four additional introns and one less intron, 99 % identical), GAPDH (≥ 28 bp, > 70 %) and EF-1α (≥ 96 bp, hardly alignable).

Collophora pallida Damm & Crous, sp. nov. — MycoBank MB516626; Fig. 5

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Fig. 5

Collophora pallida. a. Longitudinal section through a pseudopycnidium; b, c. conidia oozing from pseudopycnidium on grapevine wood; d, e. conidiophores lining the inner wall of pseudopycnidia; j. conidia formed in pseudopycnidia; f–i, k, l. conidiogenous cells on hyphal cells; m. endoconidia; n. microcyclic conidiation; o. conidia formed on hyphal cells. All from ex-type culture CBS 120878. a, d–o: DIC; b, c: DM. — Scale bars: a = 20 μm; b = 100 μm; d = 5 μm; d applies to d–o.

Collophorae rubrae similis, sed in vitro sine pigmento rubro, conidiophoris in pseudopycnidiis cum collarettis longe infundibularibus, conidiis in hyphis intercalaribus (2.5–)3–5(–7) × 1–1.5(–2) μm, conidiis in conidiomatibus hyalinis, aseptatis, cylindraceis, utrinque obtusis, (2.5–)3–3.5(–4) × 1–1.5(–2) μm.

Etymology. Named after the pale colour of the colony (pallidus Lat. = pale).

Vegetative hyphae hyaline, 1–2 μm wide, lacking chlamydospores. Sporulation abundant, conidia formed on hyphal cells, in hyphae (endospores) and in pseudopycnidia. Conidiophores on hyphae mostly reduced to conidiogenous cells, directly formed on hyphae; conidiophores rare, hyaline, septate, branched, 6–12 × 2–3 μm. Conidiogenous cells enteroblastic, mostly reduced to mere openings with collarettes formed directly on hyphal cells, adelophialides or discrete phialides rare; necks of adelophialides 1–3.5 × 1–2 μm, discrete phialides doliiform or ampulliform, often constricted at the base, 4–6 × 2–2.5 μm; collarettes cylindrical or flaring, frayed, < 0.5–1(–2) μm long, opening ≤ 0.5 μm. Conidia aggregated in masses around the hyphae, hyaline, 1-celled, cylindrical, with both ends obtuse or a papillate apex, smooth-walled, (2.5–)3–5(–7) × 1–1.5(–2) μm, mean ± SD = 3.9 ± 1 × 1.1 ± 0.2 μm, L/W ratio = 3.4. Microcyclic conidiation occurs, with conidia developing into mother cells often becoming > 10 μm long, 2–2.5 μm wide and sometimes septate and possessing minute collarettes at one or both ends. Endoconidia uniseriate within hyphae, hyaline, 1-celled, cylindrical to obovate, with both ends obtuse, smooth-walled, 3–4.5(–5) × 1–1.5 μm, mean ± SD = 3.3 ± 0.7 × 1.5 ± 0.1 μm, L/W ratio = 2.6. Conidiomata pseudopycnidial, produced on pine needles, on SNA and on MEA in 2–4 wk, subglobose, pale to dark brown, 100–900 μm diam, uni- to multilocular, wall composed of several layers of brown textura epidermoidea with thick-walled, indistinctly delimited cells, glabrous, opening by irregular rupture. Conidiophores lining the inner conidiomatal cavity, hyaline, smooth-walled, filiform, septate, constricted at the septa, branched (3–4 ×) at the base and above, 20–50 μm long, basal cell pigmented and 3.5–4.5 μm wide. Conidiogenous cells enteroblastic, hyaline, monophialidic, conidiogenous loci terminally, sometimes intercalary immediately below the transverse septae, 3.5–8 × 1.5–2.5 μm; collarette very long, tuft-like/funnel-shaped, 1–3 × 1–3 μm, openings 1–1.5 μm, periclinal wall thickening conspicuous. Conidia hyaline, aseptate, smooth-walled, cylindrical with obtuse ends, (2.5–)3–3.5(–4) × 1–1.5(–2) μm, mean ± SD = 3.2 ± 0.3 × 1.4 ± 0.2 μm, L/W ratio = 2.2

Culture characteristics — Colonies on PDA flat, moist, none or sparse floccose or villose aerial mycelium, surrounded by appressed funiculose mycelium, with undulate margin; white to very pale rosy-buff; on MEA: flat to umbonate, moist, mycelium appressed funiculose, with sparse, villose or lacking aerial mycelium and lobate margin; rosy-buff; 16 mm diam in 2 wk on PDA (25 °C dark), min 5 °C, max 30 °C, opt 20 °C.

Specimens examined. South Africa, Western Cape Province, Paarl, from necrosis close to pruning wound in wood of P. persica, 10 June 2004, U. Damm, CBS H-19995 holotype, culture ex-type CBS 120878 = STE-U 6197; Limpopo Province, Mookgopong, from necrosis in wood of P. salicina, 31 Aug. 2004, U. Damm, CBS 121443 = STE-U 6115.

Notes — Collophora paarla and Co. pallida are the only Collophora species for which endoconidia have been observed. Conidia formed on intercalary hyphae of Co. pallida are shorter (av. 3.9 μm) than those of Co. rubra (av. 4.8 μm), Co. africana (av. 4.5 μm), Co. capensis (av. 5.5 μm) and Co. paarla (av. 5.8 μm). Conidiophores in conidiomata differ from those of Co. rubra, Co. africana and Co. capensis in having very long collarettes (often 3 μm long). Unlike the four other species, Co. pallida has not observed to release any pigments into the surrounding medium. The colonies stay white to very pale rosy-buff. Collophora pallida is the closest relative of Co. paarla and shows only a few differences from it in the DNA sequences examined (see above).

Collophora rubra Damm & Crous, sp. nov. — MycoBank 516627; Fig. 6

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Fig. 6

Collophora rubra. a. Longitudinal section through a pseudopycnidium; b–d. pseudopycnidia on pine needle (b), grapevine wood (c) and MEA medium (d); e. conidia formed in pseudopycnidia; f. conidiophores lining the inner wall of a pseudopycnidium; g. hyphae on PDA medium; h–p. conidiogenous cells on hyphal cells; q–r. microcyclic conidiation; s. conidia formed on hyphal cells. All from ex-type culture CBS 120873. a, e, f, h–s: DIC; b–d, g: DM. — Scale bars: a = 20 μm; b, c = 100 μm; d, g = 200 μm; e, h = 5 μm; e applies to e, f; h applies to h–s.

Conidia enteroblastice formata, in conidiophoris redactis ad orificia cum collarettis sicut in hyphis et conidia acropleurogena vel terminalia, in conidiophoris filiformibus, ramosis, septatis, in pseudopycnidiis formatis. Conidia in hyphis (3.5–)4–5.5(–8) × 1–2(–3.5) μm et in conidiomatibus (3–)3.5–4(–4.5) × (1–)2 μm. In vitro cum pigmento rubro.

Etymology. Named after the red colour of the colony and the pigment exuded by the fungus (ruber Lat. = red).

Vegetative hyphae hyaline, 1–3 μm wide, smooth-walled, lacking chlamydospores. Sporulation abundant, conidia formed on hyphae directly and in pseudopycnidia. Conidiophores on hyphae reduced to conidiogenous cells. Conidiogenous cells enteroblastic, reduced to very short adelophialides or more often with collarettes formed directly on hyphal cells; necks cylindrical, 1–4 × 0.5–2 μm; collarettes cylindrical or narrowly funnel-shaped, very thin-walled, 0.5–3 μm long, opening 0.5–1(–2) μm wide. Conidia aggregated in masses around the hyphae, hyaline, 1-celled, cylindrical to obovate, often slightly bent, with both ends obtuse or with a papillate apex, smooth to verruculose, (3.5–)4–5.5(–8) × 1–2(–3.5) μm, mean ± SD = 4.8 ± 0.9 × 1.5 ± 0.5 μm, L/W ratio = 3.25, containing small droplets. Microcyclic conidiation occurs, conidia developing into mother cells, often becoming > 10 μm long, 2–3 μm wide, and sometimes septate, with minute collarettes at one or both ends. Conidiomata pseudopycnidial, produced on pine needles, on SNA and on MEA in 2–4 wk; on pine needles solitary, subglobose, with irregular surface, superficial or semi-immersed, 90–600 μm wide; on agar medium solitary or within a stroma, uni- to multilocular; wall up to 60 μm thick, composed of several layers of reddish brown textura epidermoidea with thick-walled, indistinctly delimited cells, opening with an irregular rupture, mature conidiomata often appearing cup-shaped, surrounded by hyaline to brown hyphal appendages, nearly glabrous to completely covered with hairs. Conidiophores lining the inner conidiomatal cavity, hyaline, septate, slightly constricted at the base, sometimes branched at the base, more rarely above, filiform, straight or slightly zigzag-shaped, in almost parallel arrangement, 20–60 μm long. Conidiogenous cells enteroblastic, hyaline, monophialidic, conidiogenous loci formed intercalary, immediately below the septum (acropleurogenously) as well as terminally, 4–8 × 2–2.5 μm; collarettes cylindrical, short, often inconspicuous, 0.5–1 μm long, opening 0.5–1 μm. Conidia hyaline, cylindrical to ellipsoidal, with both ends obtuse or one end slightly acute, sometimes slightly curved, smooth-walled, containing small droplets, (3–)3.5–4(–4.5) × (1–)2 μm, mean ± SD = 3.7 ± 0.4 × 1.5 ± 0.2 μm, L/W ratio = 2.5.

Culture characteristics — Colonies on PDA flat, moist, undulate margin, rust to apricot in the centre, pale luteous or saffron towards margin, with black spots and little white to rust floccose aerial mycelium in middle, turning red to blood colour with age; reverse same colours, entire medium scarlet to red due to diffuse pigment; on MEA flat, undulate margin, colony centre vinaceous to dark vinaceous with black spots and white to pale flesh aerial mycelium, margin and entire medium red to scarlet due to diffuse pigment; reverse blood colour in the centre, red to scarlet at margin; 10 mm diam in 2 wk (25 °C dark), min 5 °C, max 30 °C, opt 20 °C.

Specimens examined. South Africa, Western Cape Province, Paarl, from reddish brown V-shaped necrosis close to several pruning wounds in wood of P. persica, 10 June 2004, U. Damm, CBS H-19992 holotype, culture ex-type CBS 120873 = STE-U 6109; Limpopo Province, Mookgopong, from brown necrosis close to pruning wound in wood of P. persica var. nucipersica, 10 June 2004, U. Damm, CBS 121441 = STE-U 6198.

Notes — The formation of a red pigment is the most striking character of Co. rubra. It shares this character with Co. africana, but the latter differs in growth rate and in producing more strongly branched conidiophores formed within conidiomata. Collophora capensis, which occasionally exudes small amounts of a reddish pigment, produces larger conidia both on hyphae and in conidiomata.

The ITS sequence of Co. rubra STE-U 6109 (GQ154547) is 96 % identical with that of Co. africana STE-U 6113 (GQ154570) and Co. capensis STE-U 6199 (GQ154571) and 92 % identical with ITS sequences of Co. pallida STE-U 6197 (GQ154575) and Co. paarla STE-U 6114 (GQ154586).

Coniochaeta africana Damm & Crous, sp. nov. — MycoBank MB516628; Fig. 7

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Fig. 7

Coniochaeta africana. a, b. Immature perithecia; c. setae; d–l. conidiogenous cells; m. conidia. All from ex-type culture CBS 120868. a, c–m: DIC; b: DM. — Scale bars: a = 50 μm; b = 100 μm; c = 10 μm; d = 5 μm; d applies to d–m.

Anamorph. Lecythophora sp.

Lecythophorae statui anamorpho Coniochaetae lignariae similis, sed collis bifurcate ramosis cum polyphialidibus, conidiis cylindraceis, leniter curvatis, 3.5–5.5(–7) × 1.5–2 μm.

Etymology. Named after its continent of origin, Africa.

Ascomata perithecial, solitary, superficial on pine needles, and superficial or immersed in SNA, subglobose; outer wall consists of dark brown textura angularis, setose, with a central ostiole, up to 140 μm diam, remaining immature (no asci or ascospores). Setae brown, cylindrical, tapering to a round tip, generally straight, aseptate, smooth-walled or verruculose, 2–3 μm wide, up to 40 μm long. Vegetative hyphae hyaline, 1.5–3 μm wide, lacking chlamydospores. Conidiophores mainly reduced to conidiogenous cells; discrete conidiophores rare, cylindrical to ventricose. Conidiogenous cells enteroblastic, hyaline, often polyphialidic, mainly intercalary; discrete phialides cylindrical to ventricose, 10–13 × 2 μm; necks of intercalary phialides may be short cylindrical, with or without a broad base tapering to the tip, or bifurcately branched with two openings, or ampulliform, with necks 1–7 μm long (including collarette), 1–3.5 μm wide; collarettes short, cylindrical, 0.5–1 μm long, opening 0.5–1 μm wide, with indistinct periclinal wall thickening. Sporulation abundant. Conidia aggregated in heads, hyaline, 1-celled, smooth-walled, cylindrical with round ends or with one end slightly acute, sometimes slightly curved, occasionally biguttulate, 3.5–5.5(–7) × 1.5–2 μm, mean ± SD = 4.5 ± 0.9 × 1.7 ± 0.2 μm. Microcyclic conidiation occurs.

Culture characteristics — Colonies on PDA flat, with felt-like aerial mycelium and fimbriate margin; ochraceous to luteous in middle, white to amber at margin; 15 mm diam in 2 wk (25 °C dark), min 5 °C, max > 35 °C, opt ≥ 35 °C.

Specimen examined. South Africa, Limpopo Province, Mookgopong, from necrosis in wood of P. salicina, 31 Aug. 2004, U. Damm, CBS H-19990 holotype, culture ex-type CBS 120868 = STE-U 5952.

Notes — The key in Weber (2002) leads to C. ligniaria; however, C. africana forms polyphialides on bifurcately branched necks, while C. ligniaria does not. Additionally, cultures of C. africana are slower growing than those of C. ligniaria, reaching only 15 mm in 14 d, and remain in shades of yellow, while cultures of C. ligniaria reach 25–40 mm in 14 d, and become salmon with age. These characters also do not apply to any other Coniochaeta species with a Lecythophora anamorph.

A BLASTn search showed that the LSU sequence of C. africana isolate STE-U 5952 (GQ154601) differed in ≥ 5 bp (99 % identity) from LSU sequences of L. mutabilis (e.g. EF517490, AB100628), 8 bp (99 % identity) from C. ligniaria AY198388 and 9 bp (98 % identity) from L. lignicola AB261978. The ITS sequence of C. africana (GQ154539) differs from that of C. velutina isolates STE-U 5950 and 6105 (GQ154542, GQ154544) in 26 bp (95 % identical). The ITS sequence of C. africana strain STE-U 5952 is similar to sequences of C. nepalica (DQ093664, 95 % identical), C. ligniaria (AY198390, 94 % identical), L. luteoviridis (DQ404354, 94 % identical) and L. hoffannii (AY781227, 94 % identical).

Coniochaeta prunicola Damm & Crous, sp. nov. — MycoBank MB516629; Fig. 8

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Fig. 8

Coniochaeta prunicola. a. Longitudinal section through a perithecium; b. perithecium; c. perithecium with asci; d. peridium; e. setae; f–h. asci with ascospores; i, j. ascospores; k–r. conidiogenous cells; s. conidia. All from ex-type culture CBS 120875. a, c–s: DIC; b: DM. — Scale bars: a, c = 50 μm; d, f = 10 μm; e = 20 μm; i, k = 5 μm; a applies to a, b; f applies to f–h; i applies to i, j; k applies to k–s.

Anamorph. Lecythophora sp. Coniochaetae velutinae similis, sed coloniis in vitro non atro-brunescentibus. Ascosporae uniseriatae, unicellulares, brunneae, laeves, late amygdaliformes, cum rima germinali longitudinali, (7.5–)8.5–10(–11) × (5–)6–7.5(–8) × (3–)4–5 μm.

Etymology. Named after the host from which it was isolated, Prunus.

Ascomata perithecial, solitary, superficial on pine needles, immersed or superficial on PDA, subglobose to pyriform, with a central ostiole, 200–250 μm diam, neck 50–60 μm long; peridium pseudoparenchymatous, 20–25 μm (5–8 layers), outer wall consists of dark brown textura angularis, setose. Setae brown (or hyaline), straight, cylindrical, tapering to a round tip, smooth-walled or granulate, 2–3.5 μm wide, up to 80 μm long. Paraphyses hyaline, septate, 2–3 × 60–100 μm. Asci grow from the bottom of the perithecium between paraphyses, unitunicate, cylindrical, apedicillate, 8 ascospores/ascus, 65–73 × 8–10 μm (av. 69 × 9.5 μm). Ascospores uniseriate, 1-celled, brown, smooth-walled, first ‘saucer-shaped’ (broadly-ellipsoidal in top view and reniform from the side) with granular contents; mature ascospores broadly almond-shaped, ellipsoidal with a longitudinal germ slit (7.5–)8.5–10(–11) × (5–)6–7.5(–8) × (3–)4–5 μm, mean ± SD = 9.2 ± 0.6 × 6.7 ± 0.6 × 4.5 ± 0.6 μm. Vegetative hyphae hyaline, 1–4 μm wide, lacking chlamydospores. Conidiophores formed directly on hyphae, mostly reduced to conidiogenous cells, rarely 2-celled. Conidiogenous cells enteroblastic, adelophialides either short cylindrical or with a broader base tapering to the tip or ampulliform, 3–6 × 1–3 μm; discrete phialides ampulliform, often constricted at the basal septum and sometimes attenuated at the base, 4–15 × 2.5–3.5 μm, generally monophialides, but sometimes polyphialides; collarette distinct, cylindrical, 1–2(–4) μm long, opening 0.5–1 μm wide, periclinal wall thickening indistinct. Sporulation abundant. Conidia aggregated in heads, hyaline, 1-celled, smooth-walled, mainly allantoid, sometimes cylindrical or ovoid, (2.5–)3.5–6(–8) × 1–2(–3.0) μm, mean ± SD = 4.8 ± 1.2 × 1.3 ± 0.5 μm. Microcyclic conidiation not observed.

Culture characteristics — Colonies on PDA flat, with sparse aerial mycelium; pale saffron, pale buff to white; 28 mm diam in 2 wk (25 °C dark), min 5 °C, max > 35 °C, opt ≥ 35 °C.

Specimens examined. South Africa, Western Cape Province, Robertson, from olivaceous V-shaped necrosis in wood of P. armeniaca, 23 Aug. 2005, U. Damm, CBS H-19991 holotype, culture ex-type CBS 120875 = STE-U 6107; Limpopo Province, Mookgopong, from necrosis in wood of P. salicina, 31 Aug. 2004, U. Damm, CBS 121445 = STE-U 5953.

Notes — The key in Asgari et al. (2007) leads to C. velutina, except that the ascospores of that species have guttules. However, cultures of C. prunicola do not turn dark as those of C. velutina (Weber 2002) do; the latter was also isolated in this study. Coniochaeta prunicola isolates produce larger ascospores than C. velutina, which produced ascospores measuring 5.5–8 × 4–4.5 × 3–4 μm. These dimensions correspond to those provided by Munk (1957), (6–8 × 4–6 × 3–4 μm). The anamorph of C. prunicola is also similar to that of C. velutina, but the collarette in the latter is shorter, up to 1 μm long, and the conidia are wider and not regularly allantoid. All former Coniochaetidium, Ephemeroascus and Poroconiochaeta species transferred into Coniochaeta by García et al. (2006) differed from C. prunicola by having ornamented or broadly umbonate ascospores, or by lacking Lecythophora anamorphs. Most of the remaining Coniochaeta species have different ascospore sizes, except for C. calligoni, C. pilifera and C. trivialis (syn.: Hypocopra pilosella). Asci of these three exceptional species are longer and narrower than those of C. prunicola, respectively measuring 70–110 × 6–9 μm, 96–139 × 7–8 μm and 80–90 × 7–8 μm (Saccardo 1891, Bayer 1924, Byzova & Vasyagina 1981).

While LSU sequences of isolates STE-U 6105 and 5950 (GQ154605, GQ154604) are identical to that of C. velutina AF353594 (CBS 110474), confirming these isolates as C. velutina, the sequences of C. prunicola isolates STE-U 5953 and 6107 (GQ154603, GQ154602) differ from C. velutina (EU999180, AF353594) sequences (98 % identity). Other closely related species, C. mutabilis (e.g. AY219880) and C. ligniaria (AY198388), have 99 % and 98 % sequence identity, respectively, with the LSU sequences of C. prunicola. The most similar ITS sequences derived from identified strains and found in BLASTn searches and in our own comparisons were those accessed in GenBank as DQ404354 (L. luteoviridis), AY198390 (C. ligniaria), AY781227 (L. hoffmannii), GQ154544 and GQ154542 (C. velutina) and GQ154539 (C. africana) are 93 % identical.

Phaeomoniella dura Damm & Crous, sp. nov. — MycoBank MB516630; Fig. 9

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Fig. 9

Phaeomoniella dura. a. Longitudinal section through a pycnidium; b, c. conidia oozing from pycnidium on pine needle; d, e. conidiogenous cells lining the inner wall of pycnidia; f. conidia formed in pycnidia; g–m. conidiogenous cells on hyphal cells; n. conidia formed on hyphal cells. All from ex-type culture CBS 120882. a, d–n: DIC; b, c: DM. — Scale bars: a = 20 μm; b = 100 μm; d = 5 μm; b applies to b, c; d applies to d–n.

Phaeomoniellae prunicolae similis, sed culturis albidis vel bubalinis, solidis et phialidibus in pycnidiis aggregatis in conidiophoris ramosis, conidiis in pycnidiis hyalinis, unicellularibus, cylindraceis, interdum leniter curvatis, utrinque obtusis, (2.5–)3–3.5(–4) × 1(–1.5) μm, conidiis in hyphis formatis hyalinis, unicellularibus, interdum septatis, cylindraceis, extremo unico obtuso, extremo altero attenuato, 3–6(–10) × 1–2(–3) μm.

Etymology. Named after the tough mycelium (durus Lat. = tough).

Vegetative hyphae hyaline, 1–2.5 μm wide, smooth-walled, lacking chlamydospores; mycelium on PDA tough, leathery. Sporulation abundant; conidia formed on hyphal cells and in pycnidia. Conidiophores on hyphae often reduced to conidiogenous cells; if not, then 2–3-celled, unbranched, 10–20 × 1.5 μm. Conidiogenous cells enteroblastic, rarely occurring as discrete phialides, mostly reduced to adelophialides or more often with collarettes formed directly on hyphal cells; collarettes distinct, cylindrical, 0.5–1 long, opening 0.5 μm wide, with cylindrical to conical necks, 1–2 × 1–2 μm; discrete phialides cylindrical to subcylindrical, sometimes constricted at the base, 5–7 × 1–1.5 μm. Conidia aggregated in masses around the hyphae, hyaline, 1-celled, sometimes septate when very large, cylindrical, with one end obtuse and the other end attenuated; smooth-walled, sometimes biguttulate with tiny droplets, 3–6(–10) × 1–2(–3) μm, mean ± SD = 4.5 ± 1.3 × 1.3 ± 0.5 μm, L/W ratio = 3.5. Microcyclic conidial formation rare. Conidiomata pycnidial, produced on pine needles on SNA and on MEA in 2–4 wk; on pine needles solitary, subglobose, superficial, 50–240 μm wide, unilocular, opening by irregular rupture, with wall composed of brown textura angularis. Conidiophores hyaline, branched and septate. Conidiogenous cells enteroblastic, hyaline, consisting of discrete phialides that are ampulliform to conical, 3–6 × 2–4 μm; with cylindrical collarettes, 0.5–1 μm long, opening 0.5–1 μm. Conidia hyaline, 1-celled, cylindrical, sometimes slightly curved, with both ends obtuse, smooth-walled, sometimes biguttulate with tiny droplets, (2.5–)3–3.5(–4) × 1(–1.5) μm, mean ± SD = 3.1 ± 0.3 × 1.1 ± 0.1 μm, L/W ratio = 2.9.

Culture characteristics — Colonies on PDA flat, moist to slimy, folded towards the centre, with entire margin and sparse, villose, white, aerial mycelium; surface white to pale buff with tiny black spots, sometimes pale honey at centre; on MEA flat, folded towards the centre, with undulate margin, grey-olivaceous with tiny black spots towards the centre, buff at the margin; 20 mm in diam after 2 wk (25 °C dark), min 5 °C, max 30 °C, opt 20 °C.

Specimen examined. South Africa, Limpopo Province, Mookgopong, from necrosis in wood of P. salicina, 31 Aug. 2004, U. Damm, CBS H-19999 holotype, culture ex-type CBS 120882 = STE-U 6122.

Notes — Conidia formed in the mycelium are longer than those of most species, except P. zymoides (mainly 3.5–6 × 0.8–1.9 μm, Lee et al. 2006). Colonies of P. dura are, however, much faster growing than P. zymoides and lack any greenish or greyish colours.

BLASTn results show that the ITS sequence of P. dura strain STE-U 6122 (GQ154597) displays differences from sequences of P. pinifoliorum (DQ270240, 88 % identical), P. chlamydospora (e.g. AF197973, 86 % identical), P. zymoides (e.g. DQ270242, 85 % identical) and P. capensis (FJ37239, 84 % identical). ITS sequences of P. prunicola (GQ154590), P. effusa (GQ154598), P. tardicola (GQ154599) are 88 %, 86 % and 86 % identical.

Phaeomoniella effusa Damm & Crous, sp. nov. — MycoBank MB516631; Fig. 10

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Fig. 10

Phaeomoniella effusa. a. Longitudinal section through a pycnidium; b. conidia oozing from pycnidium on pine needle; c. conidia formed in pycnidia; d, e. conidiogenous cells lining the inner wall of pycnidia; f–k, m–o. conidiogenous cells on hyphal cells; l. conidia formed on hyphal cells. All from ex-type culture CBS 120883. a, c–o: DIC; b: DM. — Scale bars: a = 20 μm; b = 500 μm; c = 5 μm; c applies to c–o.

Phaeomoniellae prunicolae similis, sed in vitro pigmentis viridibus uniformiter dispersis. Differt ab omnibus speciebus generis phialidibus in pycnidiis late ellipsoidibus, leniter angularibus, periclinaliter distincte incrassatis, sed sine collarettis distinctis, conidiis in pycnidiis hyalinis, unicellularibus, cylindraceis, interdum leniter curvatis, utrinque obtusis, (2–)2.5–5(–6) × 1–2 μm, et conidiis in hyphis formatis hyalinis, unicellularibus, cylindraceis vel obovatis, interdum leniter curvatis, utrinque obtusis, (2–)2.5–3.5(–4.5) × 1–1.5 μm.

Etymology. Named after the effuse growth of the colonies (effusus Lat. = effuse).

Vegetative hyphae hyaline, 1–3 μm wide, smooth-walled, lacking chlamydospores. Sporulation abundant; conidia formed on hyphae and in pycnidia. Conidiophores on hyphae mainly reduced to conidiogenous cells, few 2-celled conidiophores, sub-cylindrical to navicular, 12–22 × 2 μm. Conidiogenous cells enteroblastic, discrete phialides rare, mostly reduced to very short adelophialides or more often with collarettes formed directly on hyphal cells; with cylindrical to conical necks, 1.5–3 × 1–2 μm, distinct phialides navicular or elongate-ampulliform and attenuated at the base, 7–12 × 2 μm; collarettes and periclinal thickening conspicuous, collarettes cylindrical to narrowly funnel-shaped, thin-walled, 0.5–2 long, opening 0.5–1 μm wide. Conidia aggregated in masses around the hyphae, hyaline, 1-celled, cylindrical to obovate, sometimes slightly curved, both ends obtuse, smooth-walled, containing small droplets, (2–)2.5–3.5(–4.5) × 1–1.5 μm, mean ± SD = 3.0 ± 0.6 × 1.2 ± 0.1 μm, L/W ratio = 2.4. Microcyclic conidiation not observed. Conidiomata pycnidial, produced on pine needles on SNA and on MEA in 2–4 wk; on pine needles solitary, subglobose, superficial, 100–350 μm wide, unilocular, opening by irregular rupture, wall composed of brown textura angularis. Conidiophores reduced to conidiogenous cells. Conidiogenous cells enteroblastic, hyaline, broadly ellipsoidal, somewhat angular, resembling wall cells, 3–5 × 4–6 μm; opening 0.5 μm, periclinal thickening as a broad ring around opening, collarette very short or inconspicuous. Conidia hyaline, 1-celled, cylindrical, sometimes slightly curved, both ends obtuse, smooth-walled, containing small droplets, (2–)2.5–5(–6) × 1–2 μm, mean ± SD = 3.5 ± 0.7 × 1.5 ± 0.2 μm, L/W ratio = 2.3.

Culture characteristics — Colonies on PDA flat, moist, with sparse aerial mycelium in the centre and undulate to lobate margin; herbage-green, dark herbage-green to olivaceous, white at the margin and sometimes in the centre; on MEA flat, moist, with radial growth rings, very little villose, olivaceous-grey aerial mycelium, with entire margin; olivaceous-grey to pale olivaceous-grey; 32 mm diam in 2 wk (25 °C dark), min 5 °C, max 35 °C, opt 30 °C.

Specimen examined. South Africa, Western Cape Province, Paarl, from necrosis in wood of P. persica, 10 June 2004, U. Damm, CBS H-19998 holotype, culture ex-type CBS 120883 = STE-U 6121.

Notes— Phaeomoniella effusa is similar to P. prunicola, but greenish pigments are more uniformly distributed in the culture or emerge in radial growth rings. Phialides in pycnidia of P. effusa are broadly ellipsoidal, somewhat angular, with pronounced periclinal thickening, but with inconspicuous collarette, while those of P. prunicola are ampulliform with a cylindrical collarette.

BLASTn results of the ITS sequence of P. effusa strain STE-U 6121 (GQ154598) display differences to sequences of P. pinifoliorum (DQ270240, 88 % identical), P. capensis (FJ37239, 87 % identical), P. zymoides (e.g. DQ270242, 86 % identical) and P. chlamydospora (e.g. AB278179, 84 % identical). ITS sequences of P. prunicola (GQ154590), P. tardicola (GQ154599), P. dura (GQ154597) are 89 %, 88 % and 86 % identical.

Phaeomoniella prunicola Damm & Crous, sp. nov. — MycoBank MB516632; Fig. 11

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Fig. 11

Phaeomoniella prunicola. a. Longitudinal section through a pycnidium; b. conidia oozing from pycnidium on pine needle; c, d. conidiogenous cells lining the inner wall of pycnidia; e. conidia formed in pycnidia; f–k. conidiogenous cells on hyphal cells (arrow heads: openings in plan view); l. conidia formed on hyphal cells. All from ex-type culture CBS 120876. a, c–l: DIC; b: DM. — Scale bars: a = 20 μm; b = 50 μm; c = 5 μm; c applies to c–l.

Phaeomoniellae chlamydosporae similis, sed conidiis in mycelio persaepe enteroblastice formatis ad orificia lateralia hypharum, unicellularibus, cylindraceis vel ellipsoidibus, utrinque obtusis vel basi obtusa et apice papillato, (2–)2.5–4(–4.5) × 1–1.5(–2) μm, et conidiis in phialidibus simplicibus in pycnidiis hyalinis, cylindraceis vel ellipsoidibus, (2–)2.5–4 × 1–1.5 μm.

Etymology. Named after the host genus, Prunus.

Vegetative hyphae hyaline to pale yellow-green, 1.5–2.5 μm wide, lacking chlamydospores. Sporulation abundant, conidia formed on hyphae and in pycnidia. Conidiophores on hyphae hyaline, mainly reduced to conidiogenous cells, few 2-celled cylindrical conidiophores present, 11 × 2.5 μm. Conidiogenous cells enteroblastic, discrete phialides rare, intercalary phialides dominating, often collarettes directly on openings in hyphal cells, necks short cylindrical or with a broader base tapering to the tip, 0.5–5 × 0.5–2 μm; collarettes cylindrical, 0.5–2 μm long, opening 0.5–1(–2) μm wide, periclinal thickening inconspicuous, discrete phialides cylindrical, 3–7 × 1.5–2 μm. Conidia aggregated in heads or in masses around the hyphae, hyaline, 1-celled, cylindrical to ellipsoidal, with both ends obtuse or obtuse base and papillate apex, smooth-walled, (2–)2.5–4(–4.5) × 1–1.5(–2) μm, mean ± SD = 3.2 ± 0.6 × 1.2 ± 0.2 μm, L/W ratio = 2.6, a few exceptionally large conidia occur that are obovate, up to 6.5 × 3 μm, some biguttulate (very small droplets). Microcyclic conidiation observed. Conidiomata pycnidial, produced on pine needles on SNA and on MEA in 2–4 wk; on pine needles solitary, globose, superficial, up to 150 μm wide, on agar medium inside a stroma, brown, unilocular, opening by irregular rupture, wall 2–4 cell-layers thick, composed of brown thick-walled textura angularis. Conidiophores hyaline, mainly reduced to conidiogenous cells. Conidiogenous cells enteroblastic, hyaline to pale brown, ampulliform tapering towards a neck with a cylindrical collarette, 3–5 × 2–2.5 μm; collarettes 0.5–1.5 μm long, opening 0.5–1 μm, periclinal thickening sometimes visible. Conidia hyaline, cylindrical to ellipsoidal, (2–)2.5–4 × 1–1.5 μm, mean ± SD = 3.1 ± 0.5 × 1.2 ± 0.2 μm, L/W ratio = 2.6.

Culture characteristics — Colonies on PDA flat, moist, surface folded towards the centre, lacking aerial mycelium, with fimbriate margin; pale luteous to pale buff, centre, margin or sectors of the colony turn dark greenish to grey-olivaceous with age; on MEA flat, moist, olivaceous-black in the centre and at the margin, zone between smoke-grey and olivaceous-black, mottled, fimbriate margin; 22 mm diam after 14 d (25 °C, dark), min 5 °C, max 35 °C, opt 20 °C.

Specimens examined. South Africa, Limpopo Province, Mookgopong, from necrosis in wood of P. persica, 31 Aug. 2004, U. Damm, CBS H-19997 holotype, culture ex-type CBS 120876 = STE-U 6118; Western Cape Province, Paarl, from necrosis in wood of P. salicina, 10 June 2004, U. Damm, STE-U 6117.

Notes — Conidia formed in the mycelium are narrower than those of P. pinifoliorum, and shorter than conidia of P. dura and P. zymoides (Lee et al. 2006). Unlike in P. chlamydospora, discrete phialides or conidiophores are rare (Crous et al. 1996, Crous & Gams 2000). Colonies are much faster-growing than those of P. tardicola. The species differs from P. effusa by the irregular emergence of defined areas of dark greenish pigment in cultures, either in the centre or margin of the colony or in patches, spots or sectors.

BLASTn results of the ITS sequence of P. prunicola strain STE-U 6118 (GQ154590) display differences to sequences of P. pinifoliorum (DQ270240, 90 % identical), P. zymoides (e.g. DQ270242, 88 % identical), P. chlamydospora (e.g. EU018414, 86 % identical) and P. capensis (FJ37239, 85 % identical). ITS sequences of P. effusa (GQ154598), P. dura (GQ154597), P. tardicola (GQ154599) are 89 %, 88 % and 85 % identical.

Phaeomoniella tardicola Damm & Crous, sp. nov. — MycoBank MB516633; Fig. 12

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Fig. 12

Phaeomoniella tardicola. a. Longitudinal section through a pycnidium; b. pycnidium ruptured by slide preparation showing one-cell layered wall cells acting as conidiogenous cells (arrow head); c. conidia oozing from pycnidia on pine needle; d–f. conidiogenous cells lining the inner wall of pycnidia; g. conidia formed in pycnidia; h. conidia formed on hyphal cells; i–l, n–o. conidiogenous cells on hyphal cells (arrow head: opening in hyphae with collarette); m. microcyclic conidiation. All from ex-type culture CBS 121757. a, b, d–o: DIC; c: DM. — Scale bars: a = 10 μm; b, d = 5 μm; c = 50 μm; d applies to d–o.

Phaeomoniellae prunicolae similis, sed culturis tarde crescentibus, albidis vel bubalinis et pycnidiis 15–80 μm diam, cum conidiis unicellularibus, hyalinis, cylindraceis vel obovatis, 2–4.5(–7) × 1–1.5(–2) μm, conidiis in hyphis hyalinis, unicellularibus, leniter curvatis, 3–3.5(–4) × 1–1.5 μm.

Etymology. Named after the slow growth of the fungus (tardus Lat. = slow, -cola Lat. = growing).

Vegetative hyphae hyaline, 1–2 μm wide, septate, lacking chlamydospores. Sporulation abundant, conidia formed on hyphae and in pycnidia. Conidiophores on hyphae reduced to conidiogenous cells. Conidiogenous cells enteroblastic, reduced to mere openings formed directly on hyphal cells, rarely to short necks, discrete phialides very rare; necks 0.5–1(–5) μm long, 0.5–1 μm wide; collarettes mostly inconspicuous, opening ≤ 0.5 μm wide. Conidia 1-celled, hyaline, cylindrical to obovate, smooth-walled, 2–4.5(–7) × 1–1.5(–2) μm, mean ± SD = 3.2 ± 1.2 × 1.3 ± 0.3 μm, L/W ratio = 2.5. Microcyclic conidiation rarely observed. Conidiomata pycnidial, produced on pine needles on SNA, and on MEA in 2–4 wk, solitary, subglobose, superficial, pale to dark brown, globose to subglobose, 15–80 μm diam, unilocular, opening by irregular rupture, wall 1–2 cell layers thick, composed of pale brown textura angularis. Conidiophores reduced to conidiogenous cells. Conidiogenous cells enteroblastic, in very small pycnidia wall only one layer, these wall cells also act as conidiogenous cells, in bigger pycnidia discrete phialides, hyaline or brown, ampulliform to angular, 4–5 × 3–5 μm; collarettes 0.5–1 μm long, opening 0.5–1 μm. Conidia hyaline, 1-celled, cylindrical, sometimes slightly curved, smooth, 3–3.5(–4) × 1–1.5 μm, mean ± SD = 3.2 ± 0.3 × 1.3 ± 0.2 μm, L/W ratio = 2.5.

Culture characteristics — Colonies on PDA umbonate or raised, moist, lacking aerial mycelium, with a folded surface, and fine dentate margin; white to pale buff; on MEA dome-shaped, moist, none or very little short, villose aerial mycelium, strongly folded surface, sometimes bursting at the edges, with lobate margin; white, pale rosy-buff to buff; 4 mm in 14 d (25 °C), min 15 °C, max 30 °C, opt 25 °C.

Specimen examined. South Africa, Western Cape Province, Robertson, from pale brown necrosis in wood of P. armeniaca, 23 Aug. 2005, U. Damm, CBS H-20000 holotype, culture ex-type CBS 121757 = STE-U 6123.

Notes — The typical feature of this species is the extremely slow growth of the umbonate, raised or dome-shaped, white to buff cultures and the very small pycnidia. These features distinguish this species from the two other species with pale colony colours, P. dura and P. pinifoliorum. While most of the species grow at 5 °C, the minimum growth temperature of P. tardicola is 15 °C, a trait it shares only with P. chlamydospora.

BLASTn results of the ITS sequence of P. tardicola strain STE-U 6123 (GQ154599) display differences from sequences of P. pinifoliorum (DQ270240, 91 % identical), P. capensis (FJ37239, 86 % identical), P. chlamydospora (e.g. AF266656, 85 % identical) and P. zymoides (e.g. DQ270242, 84 % identical). ITS sequences of P. effusa (GQ154598), P. dura (GQ154597), P. prunicola (GQ154590) are 88 %, 86 % and 85 % identical.

The authors acknowledge the University of Stellenbosch, National Research Foundation, THRIP, Winetech and the Deciduous Fruit Producer’s Trust for financial support. Prof. Uwe Braun, Martin-Luther-Universität Halle-Wittenberg, Halle, Germany, is kindly thanked for providing the Latin diagnoses.