Survival of clones of NAN Ophiostoma novo-ulmi around its probable centre of appearance in North America

Clive M. BRASIER; Susan A. KIRK

doi:10.1017/S0953756200002732

Abstract

275 isolates of Ophiostoma novo-ulmi, sampled across the southern Great Lakes region of North America from Wisconsin to Ohio in 1996, were analysed for vegetative compatibility (vc) types. Over 60% of the sample was a clonal vc component, comprising only two vc types (the AMSG and EUSG); the remainder of the sample was highly heterogeneous for vc types. Vc diversity was highest in Indiana and Michigan; close to where NAN O. novo-ulmi probably first appeared in North America. Each vc clone exhibited a uniform RAPD haplotype and a lower frequency of the A compared with the B mating type. This is consistent with the clones being mainly asexually spread, but with a potential for inbreeding, an unusual feature in a ‘genetic clone’. The heterogeneous component, however, exhibited diverse RAPD haplotypes and a near 1[ratio ]1 ratio of A[ratio ]B mating types, indicating that the mainly novel vc types of this component arise via sexual recombination. In Europe, dominant vc clones have been quickly replaced by novel vc types. In the Great Lakes region, however, vc clones appear to have survived for over 50 years despite a high potential for emergence of new vc types via sexual recombination. No differences were found between the clonal and heterogeneous components with regard to growth rate and pathogenicity, two important fitness parameters. Two other factors, a low level of selection imposed by deleterious d-factor viruses and a density dependent effect associated with vegetative incompatibility, may have favoured prolonged survival of the clones in North America.

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Brasier, Clive and Buck, Kenneth 2001. dsRNA Genetic Elements. p. 165.

Ma, Zhonghua Luo, Yong and Michailides, Themis J. 2004. Spatiotemporal Changes in the Population Structure of Botryosphaeria dothidea from California Pistachio Orchards. Phytopathology®, Vol. 94, Issue. 4, p. 326.

PAOLETTI, MATHIEU BUCK, KENNETH W. and BRASIER, CLIVE M. 2006. Selective acquisition of novel mating type and vegetative incompatibility genes via interspecies gene transfer in the globally invading eukaryote Ophiostoma novo‐ulmi. Molecular Ecology, Vol. 15, Issue. 1, p. 249.

Temple, Brad Pines, Philip A. and Hintz, William E. 2006. A nine-year genetic survey of the causal agent of Dutch elm disease, Ophiostoma novo-ulmi in Winnipeg, Canada. Mycological Research, Vol. 110, Issue. 5, p. 594.

Jacobi, W. R. Koski, R. D. Harrington, T. C. and Witcosky, J. J. 2007. Association of Ophiostoma novo-ulmi with Scolytus schevyrewi (Scolytidae) in Colorado. Plant Disease, Vol. 91, Issue. 3, p. 245.

Brasier, C. M. 2008. The biosecurity threat to the UK and global environment from international trade in plants. Plant Pathology, Vol. 57, Issue. 5, p. 792.

MILGROOM, MICHAEL G. SOTIROVSKI, KIRIL SPICA, DOMENICO DAVIS, JOANNE E. BREWER, MARIN T. MILEV, MILKO and CORTESI, PAOLO 2008. Clonal population structure of the chestnut blight fungus in expanding ranges in southeastern Europe. Molecular Ecology, Vol. 17, Issue. 20, p. 4446.

Brasier, C. M. and Kirk, S. A. 2010. Rapid emergence of hybrids between the two subspecies ofOphiostoma novo‐ulmiwith a high level of pathogenic fitness. Plant Pathology, Vol. 59, Issue. 1, p. 186.

Hintz, William Pinchback, Michael de la Bastide, Paul Burgess, Steven Jacobi, Volker Hamelin, Richard Breuil, Colette and Bernier, Louis 2011. Functional categorization of unique expressed sequence tags obtained from the yeast-like growth phase of the elm pathogen Ophiostoma novo-ulmi. BMC Genomics, Vol. 12, Issue. 1, p. 431.

Brasier, Clive and Webber, Joan 2013. Vegetative incompatibility in the ash dieback pathogen Hymenoscyphus pseudoalbidus and its ecological implications. Fungal Ecology, Vol. 6, Issue. 6, p. 501.

Hintz, William E Carneiro, Joyce S Kassatenko, Irina Varga, Aniko and James, Delano 2013. Two novel mitoviruses from a Canadian isolate of the Dutch elm pathogen Ophiostoma novo-ulmi (93–1224). Virology Journal, Vol. 10, Issue. 1,

Ghelardini, Luisa Pepori, Alessia Lucia Luchi, Nicola Capretti, Paolo and Santini, Alberto 2016. Drivers of emerging fungal diseases of forest trees. Forest Ecology and Management, Vol. 381, Issue. , p. 235.

Brasier, Clive King, Kevin Kirisits, Thomas Orton, Elizabeth and Webber, Joan 2017. High frequency of vegetative incompatibility combined with haploid selfing in the native European ash foliage coloniser Hymenoscyphus albidus. Fungal Ecology, Vol. 28, Issue. , p. 11.

Tziros, G. T. Nakopoulou, Z. G. Perlerou, C. and Diamandis, S. 2017. Current status of the Dutch elm disease pathogen populations affecting Ulmus minor in Greece. Forest Pathology, Vol. 47, Issue. 2,

Hessenauer, Pauline Fijarczyk, Anna Martin, Hélène Prunier, Julien Charron, Guillaume Chapuis, Jérôme Bernier, Louis Tanguay, Philippe Hamelin, Richard C. and Landry, Christian R. 2020. Hybridization and introgression drive genome evolution of Dutch elm disease pathogens. Nature Ecology & Evolution, Vol. 4, Issue. 4, p. 626.

Brasier, Clive Franceschini, Selma Forster, Jack and Kirk, Susan 2021. Enhanced Outcrossing, Directional Selection and Transgressive Segregation Drive Evolution of Novel Phenotypes in Hybrid Swarms of the Dutch Elm Disease Pathogen Ophiostoma novo-ulmi. Journal of Fungi, Vol. 7, Issue. 6, p. 452.

Jürisoo, Liina and ja Rein Drenkhan, Allar Padari 2021. Jalakasurma levikust ja ohtlikkusest Eestis. Forestry Studies, Vol. 74, Issue. 1, p. 88.

Bernier, Louis 2022. Forest Microbiology. p. 291.

2022.

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Survival of clones of NAN Ophiostoma novo-ulmi around its probable centre of appearance in North America

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Survival of clones of NAN Ophiostoma novo-ulmi around its probable centre of appearance in North America

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