Usage
  • 148 views
  • 305 downloads

Comparative Morphology and Phylogenetic Placement of Two Microsclerotial Black Fungi from Sphagnum

  • Author(s) / Creator(s)
  • Capnobotryella renispora and Scleroconidioma sphagnicola form black, irregularly shaped microsclerotia that are indistinguishable in gross morphology on leaves of Sphagnum fuscum. In culture, microsclerotia of these fungi were similar, in that mature component cells possessed thick, highly melanized cell walls, poorly defined organelles, large lipid bodies and simple septa. They were different in morphogenesis, in the way their component cells were organized and in disseminative propagules. Microsclerotia of S. sphagnicola formed phialidic conidiogenous cells on their surface, whereas in C. renispora, adjacent cells in mature microsclerotia often separated from each other by septum schizolysis and formed chlamydospores. The identification of C. renispora from Sphagnum is provisional despite a 100% ITS sequence match with data for a culture derived from the type strain. No holoblastic, reniform conidia typical of the species were formed in nature or in culture, and the SSU sequence for a separately preserved culture of the ex-type strain was markedly divergent. Parsimony analyses of nuclear ribosomal DNA sequences showed that these two fungi were related to separate orders of Dothideomycetes. Both SSU and ITS data supported a close relationship for S. sphagnicola to the Dothideales sensu stricto, while the closest ITS match was to Rhizosphaera spp. In the SSU analyses, C. renispora was nested within the Capnodiales.

  • Date created
    2003
  • Subjects / Keywords
  • Type of Item
    Article (Published)
  • DOI
    https://doi.org/10.7939/R3T281
  • License
    Copyright 2003 by The Mycological Society of America, Lawrence, KS 66044-8897
  • Language
  • Citation for previous publication
    • Comparative Morphology and Phylogenetic Placement of Two Microsclerotial Black Fungi from Sphagnum S. Hambleton, A. Tsuneda and R. S. Currah Mycologia , Vol. 95, No. 5 (Sep. - Oct., 2003), pp. 959-975