Henrietta Myburg

Cryphonectria canker on Tibouchina in South Africa

Cryphonectria cubensis is an important canker pathogen of plantation Eucalyptus spp. in tropical and sub-tropical areas of the world, including South Africa. It is best known on Eucalyptus spp., but it also occurs on Syzygium aromaticum (clove). In 1998, C. cubensis was found to cause cankers on the non-myrtaceous hosts Tibouchina urvilleana and T. lepidota in Colombia. In this study, we report on a similar canker disease that has recently been found in South Africa on T. granulosa commonly grown as an ornamental tree. The identity of the pathogen was determined through morphological comparisons and phylogenetic analyses of ITS and β-tubulin gene sequences. The pathogenicity of the fungus was also tested on T. granulosa and E. grandis. Morphological as well as DNA sequence comparisons showed that the fungus on T. granulosa is the same as C. cubensis occurring on Eucalyptus spp. in South Africa. Pathogenicity tests on T. granulosa and E. grandis clones showed that the fungus from T. granulosa is able to cause cankers on both hosts.

Conspecificity of Endothia eugeniae and Cryphonectria cubensis : a re-evaluation based on morphology and DNA sequence data

Abstract Cryphonectria cubensis and Endothia eugeniae are fungal pathogens of Eucalyptus and clove that were reduced to synonymy on the basis of results of cross-inoculation studies, isozyme analysis, cultural studies, and morphology. A previous phylogenetic study on Cryphonectria, based on sequence variation in the ITS region of the ribosomal RNA operon, also supported the conspecificity of C. cubensis and E. eugeniae, but was based on only one E. eugeniae isolate. New collections from clove in Brazil and Indonesia have become available, providing the opportunity to reconsider the conspecificity of C. cubensis and E. eugeniae. The occurrence of C. cubensis on clove was confirmed based on morphological comparisons and phylogenetic analyses of ribosomal DNA and β-tubulin gene sequence data. In addition to C. cubensis, other fungi morphologically similar to Cryphonectria species on the basis of their orange stromata were present on some clove specimens, but no isolates were available for these fungi. Furthermore, some isolates, for which no herbarium material exists, grouped separately from the C. cubensis clade and closer to the Cryphonectria clade. The presence of more than one closely related fungus on clove raises questions relating to the legitimacy of the synonymy of E. eugeniae and C. cubensis. Based on the presence of C. cubensis on the type specimen of E. eugeniae, we recognize the synonymy of the two fungi but provide evidence that other fungi, more closely related to Cryphonectria spp. than to C. cubensis, are present on clove.

Phylogenetic relationships of Cryphonectria and Endothia species, based on DNA sequence data and morphology

The fungal genera Endothia and Cryphonectria include some of the most important pathogens of forest trees. Despite available new technology, no comprehensive comparative study based on DNA sequence data and morphology has been done on the available isolates representing these two genera. The main objectives of this study were to assess the phylogenetic relationships among species of Cryphonectria and Endothia, for which cultures are available, and to establish a taxonomic framework based on DNA sequence and morphological data, which will aid future studies and identification of species in these and related genera. Comparisons were based on sequence variation found in the ITS region of the ribosomal RNA operon and two regions of the β-tu-bulin gene. In addition, the morphology of these species was examined. The phylogenetic data indicated that Endothia and Cryphonectria reside in two distinct phylogenetic clades. Cryphonectria parasitica, C. macrospora, C. nitschkei, C. eucalypti and C. radicalis represented the Cryphonectria clade. Endothia gyrosa and E. singularis were included in the Endothia clade. An isolate representing E. viridistroma grouped outside the Endothia clade and separately from other groups. Other clades outside the one encompassing Cryphonectria were those represented by the C. cubensis isolates and fungi isolated from Elaeocarpus dentatus originating from New Zealand. These clades could be distinguished from Endothia and Cryphonectria, based on anamorph morphology, stromatal structure and ascospore septation. Cryphonectria and Endothia, therefore, appear to be paraphyletic and taxonomic relationships for these fungi need to be revised.

Rostraureum tropicale gen. sp. nov. (Diaporthales) associated with dying Terminalia ivorensis in Ecuador

Terminalia ivorensis, a tree of central African origin, is planted in several tropical countries for timber and veneer production. During the course of a recent disease survey, an unknown fungus was found associated with basal cankers on dying T. ivorensis in Ecuador. The fungus has orange fruiting structures and septate, fusoid ascospores, similar to those of Cryphonectria, a well-known genus of canker pathogens. The aim of this study was to identify the fungus and to assess its pathogenicity. Identification was based on morphological characteristics as well as DNA sequence data. DNA sequence data from the ITS regions of the rDNA operon and two regions of the beta-tubulin gene, were compared with published sequences of Cryphonectria species and the closely related genera Endothia and Chrysoporthe. Pathogenicity tests were conducted on T. superba saplings. Morphological characterisations revealed that the conidiomata of the fungus from T. ivorensis, differed from those typical of Cryphonectria in being superficial and rostrate. Only Cryphonectria longirostris was similar to the fungus from T. ivorensis, but could be distinguished from it based on conidial size. Phylogenetic analyses showed that the fungus from T. ivorensis grouped closely with species of Cryphonectria, Chrysoporthe and Endothia, yet formed a distinct clade. Pathogenicity tests on T. superba provided evidence that the fungus is able to cause distinct stem cankers. We conclude that the pathogenic fungus from T. ivorensis represents a new genus and new species in the Diaporthales and we provide the name Rostraureum tropicale for it. The genus is typified by R. tropicale. Furthermore, C. longirostris is transferred to Rostraureum.