Molecular phylogenetic analyses reveal three new Ceratocystis species and provide evidence for geographic differentiation of the genus in Africa

The emergence of wattle wilt disease on non-native Acacia mearnsii trees in Africa, caused by the indigenous fungus Ceratocystis albifundus, has highlighted a need to better understand the diversity, ecology and distribution of Ceratocystis species in natural African environments. In this study we a...

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Bibliographic Details
Published in:Mycological progress 2014-05, Vol.13 (2), p.219-240
Main Authors: Mbenoun, Michael, Wingfield, Michael J, Begoude Boyogueno, Aimé D, Wingfield, Brenda D, Roux, Jolanda
Format: Article
Language:English
Subjects:
Acacia mearnsii
Agricultural biotechnology
Biogeography
Biomedical and Life Sciences
Ceratocystis
Disease
Ecology
Ecosystems
Environmental conditions
Epidemics
Forestry
Fungi
Life Sciences
Microbiology
Moniliformis
Morphology
National parks
new species
Original Article
Pathogens
Phylogenetics
phylogeny
Plant Sciences
savannas
Taxonomy
trees
wilting
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Summary:The emergence of wattle wilt disease on non-native Acacia mearnsii trees in Africa, caused by the indigenous fungus Ceratocystis albifundus, has highlighted a need to better understand the diversity, ecology and distribution of Ceratocystis species in natural African environments. In this study we applied phylogenetic inference to identify and characterize isolates of Ceratocystis collected in a natural savanna ecosystem in South Africa. Three new species were recognized and are described as C. cryptoformis sp. nov. in the C. moniliformis complex, as well as C. thulamelensis sp. nov. and C. zambeziensis sp. nov., both residing in the C. fimbriata complex. Incorporating the new species into global phylogenies of Ceratocystis provided insights into the patterns of evolution and biogeography of this group of fungi. Notably, the African continent was identified as an important centre of diversification of Ceratocystis spp., from which several lineages of these fungi were shown to have radiated.
ISSN:1617-416X
1861-8952
DOI:10.1007/s11557-013-0907-5