Deconstructing the evolutionary complexity between rust fungi (Pucciniales) and their plant hosts

The rust fungi (Pucciniales) are the most speciose natural group of plant pathogens, members of which possess the most complex lifecycles in Fungi. How natural selection works on the Pucciniales has been the subject of several hypotheses in mycology. This study uses molecular age estimation using se...

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Bibliographic Details
Published in:Studies in mycology 2018-03, Vol.89 (1), p.143-152
Main Authors: Aime, M.C., Bell, C.D., Wilson, A.W.
Format: Article
Language:English
Subjects:
Basidiomycota
Biogenic Radiation
Biological Specialization
Hologenetic Ladder Hypothesis
Melampsorineae
Phytopathogenic Fungi
Pucciniaceae
Pucciniomycotina
Research Paper
Uredinales
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Summary:The rust fungi (Pucciniales) are the most speciose natural group of plant pathogens, members of which possess the most complex lifecycles in Fungi. How natural selection works on the Pucciniales has been the subject of several hypotheses in mycology. This study uses molecular age estimation using sequence data from multiple loci, and cophylogeny reconciliation analyses to test hypotheses regarding how the aecial and telial stages in the lifecycle of rust fungi may have differentially impacted their diversification. Molecular age estimates show that the timing of diversification in the Pucciniales correlates with the diversification of their gymnosperm and angiosperm hosts. Host reconciliation analyses suggest that systematic relationships of hosts from the aecial stage of the Pucciniales lifecycle better reflect the systematic relationships among the Pucciniales. The results demonstrate the relative importance of this stage on the overall evolution of the Pucciniales and supports hypotheses made by Leppik over half a century ago. This study represents the first evaluation of how different life stages in the Pucciniales shape the evolution of these fungi.
ISSN:0166-0616
1872-9797
DOI:10.1016/j.simyco.2018.02.002