Phylogeography, origin and population structure of the self-fertile emerging plant pathogen Phytophthora pseudosyringae
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J_ČLÁNEK
Datum
2024Autor
Mullett, Martin
Harris, Anna R.
Scanu, Bruno
Van Poucke, Kris
LeBoldus, Jared
Stamm, Elizabeth
Bourret, Tyler B.
Christova, Petya K.
Oliva, Jonás
Redondo, Miguel A.
Talgø, Venche
Corcobado Sánchez, Tamara
Milenković, Ivan
Goncalves Horta Jung, Marília do Rosário
Webber, Joan
Heungens, Kurt
Jung, Thomas
Metadata
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Phytophthora pseudosyringae is a self-fertile pathogen of woody plants, particularly associated with tree species from the genera Fagus, Notholithocarpus, Nothofagus and Quercus, which is found across Europe and in parts of North America and Chile. It can behave as a soil pathogen infecting roots and the stem collar region, as well as an aerial pathogen infecting leaves, twigs and stem barks, causing particular damage in the United Kingdom and western North America. The population structure, migration and potential outcrossing of a worldwide collection of isolates were investigated using genotyping-by-sequencing. Coalescent-based migration analysis revealed that the North American population originated from Europe. Historical gene flow has occurred between the continents in both directions to some extent, yet contemporary migration is overwhelmingly from Europe to North America. Two broad population clusters dominate the global population of the pathogen, with a subgroup derived from one of the main clusters found only in western North America. Index of association and network analyses indicate an influential level of outcrossing has occurred in this preferentially inbreeding, homothallic oomycete. Outcrossing between the two main population clusters has created distinct subgroups of admixed individuals that are, however, less common than the main population clusters. Differences in life history traits between the two main population clusters should be further investigated together with virulence and host range tests to evaluate the risk each population poses to natural environments worldwide.