Fernando A. Fernández

Molecular systematics of the Sordariales: the order and the family Lasiosphaeriaceae redefined

The Sordariales is a taxonomically diverse group that has contained from seven to 14 families in recent years. The largest family is the Lasiosphaer-iaceae, which has contained between 33 and 53 genera, depending on the chosen classification. To determine the affinities and taxonomic placement of the Lasiosphaeriaceae and other families in the Sordariales, taxa representing every family in the Sordariales and most of the genera in the Lasiosphaeriaceae were targeted for phylogenetic analysis using partial sequences of the large-subunit (LSU) nrDNA. Based on molecular data, only genera within the families Chaetomiaceae, Lasiosphaeriaceae and Sordariaceae are retained within the redefined Sordariales. The order is a coherent group with morphologies that vary along well-defined lines, including large ascomata with large-celled membraneous or coriaceous walls and ascospores that show variation on a distinctive developmental theme, often with appendages or sheaths. The paraphyletic chaetomiaceous complex and the strongly supported Sordariaceae are nested among taxa traditionally placed in the Lasiosphaeriaceae. Analyses also indicate that 11 genera belong in the paraphyletic lasiosphaeriaceous complex. These taxa share a similar developmental pattern in their ascospore morphology that extends to the Sordariales as a whole. Based on these similarities in morphology, 13 additional genera are retained within the lasiosphaeriaceous complex and more than 35 genera have relationships in the order overall. Based on LSU data, 17 genera that have been assigned to the Lasiosphaeriaceae sensu lato are transferred to other families outside the Sordariales and 22 additional genera with differing morphologies subsequently are transferred out of the order. Two new orders, Coniochaetales and Chaetosphaeriales, are recognized for the families Coniochaetaceae and Chaetosphaeriaceae respectively. The Boliniaceae is accepted in the Boliniales, and the Nitschkiaceae is accepted in the Coronophorales. Annulatascaceae and Cephalothecaceae are placed in Sordariomycetidae inc. sed., and Batistiaceae is placed in the Euascomycetes inc. sed.

Molecular systematics of the Coronophorales and new species of Bertia, Lasiobertia and Nitschkia

The Nitschkiaceae has been placed in the Coronophorales or the Sordariales in recent years. Most recently it was accepted in the Coronophorales and placed in the Hypocreomycetidae based on sequence data from large subunit nrDNA. To confirm and corroborate the taxonomic placement and monophyly of the Coronophorales, additional taxa representing the diversity of the group were targeted for phylogenetic analysis using partial sequences of the large subunit nrDNA (LSU). Based on molecular data, the Coronophorales is found to be monophyletic and its placement in the Hypocreomycetidae is maintained. The order is a coherent group with morphologies that include superficial, often turbinate, often collabent ascomata that may or may not contain a quellkorper and asci that are often stipitate and at times polysporous. Three species with accepted Nitschkia names, together with Fracchiaea broomeiana and Acanthonitschkea argentinensis, comprise the paraphyletic nitschkiaceous complex. Two new families, Chaetosphaerellaceae and Scortechiniaceae fams nov., are described for the clades containing Chaetosphaerella and Crassochaeta and the taxa having a quellkorper (Euacanthe, Neofracchiaea and Scortechinia) respectively. The Bertiaceae is accepted for the clade containing Bertia species. Three new species are described: Bertia tropicalis, Lasiobertia portoricensis, and Nitschkia meniscoidea spp. nov.

Paramphisphaeria costaricensis gen. et sp. nov. and Pachytrype rimosa sp. nov. from Costa Rica

Paramphisphaeria is described as a new genus on the basis of the single species, P. costaricensis. It differs from Amphisphaeria spp. primarily in having bicellular ascospores with a germ slit and in having an ascus apical ring that does not become blue in iodine. It resembles Amphisphaeria in its brown color and lack of constriction at the septum of the ascospore. An anamorph is unknown. It tentatively is placed in the Xylariaceae for reasons discussed. Pachytrype rimosa is described as a new species.

Curviclavula, a new genus of anamorphic Helotiales (Leotiomycetes) isolated from air

A new genus Curviclavula, with C. anemophila as the type species, is established to accommodate a hyphomycetous anamorph isolated from a culturable air sample collected outdoors in New Mexico, USA. The fungus is morphologically distinct in having 1–5 times dichotomously branched conidiophores and integrated, terminal or intercalary, indeterminate, irregularly sympodial conidiogenous cells with 1–2 flattened, inconspicuous, non-protuberant, and neither thickened nor darkened conidiogenous loci. The conidia are variable in shape, occasionally didymosporous or phragmosporous, but usually minutely cheiroid at first and composed of a subcylindrical to obconical, often inflated, straight or curved basal cell that bears a subglobose lateral cell and a short row of 2–4 cells. The apical cell of the developing conidium curves and fuses with the lateral and adjacent cells once in contact to eventually forming a tightly appressed, subglobose to broadly clavate conidium. Conidial secession is schizolytic, but the conidial basal cells often show minute marginal frills and darkened hila. Phylogenetic analyses using DNA sequences from the nuclear ribosomal large subunit and internal transcribed spacer region also supported Curviclavula as distinct and placed it within the Helotiales (Leotiomycetes, Ascomycota) with strong affinity to the family Hyaloscyphaceae.

Ophiorosellinia costaricensis gen. et sp. nov., a xylariaceous fungus with scolecosporous ascospores

A pyrenomycete featuring uniperitheciate stromata embedded in a subiculum and asci with iodine-positive apical ascal rings that bear scolecosporous ascospores is described as new. The fungus, Ophiorosellinia costaricensis, is known only from the type location in Costa Rica. It has been cultured, but no anamorph was discovered.