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Geographic isolation of Diplodia scrobiculata and its association with native Pinus radiata

Published online by Cambridge University Press:  23 December 2004

Treena I. BURGESS
Affiliation:
Forestry and Agriculture Biotechnology Institute, University of Pretoria, Pretoria 0002, Republic of South Africa. E-mail: tburgess@central.murdoch.edu.au School of Biological Sciences and Biotechnology, Murdoch University, Perth, WA 6150, Australia.
Thomas R. GORDON
Affiliation:
Department of Plant Pathology, University of California, Davis, 95616, USA.
Michael J. WINGFIELD
Affiliation:
Forestry and Agriculture Biotechnology Institute, University of Pretoria, Pretoria 0002, Republic of South Africa. E-mail: tburgess@central.murdoch.edu.au
Brenda D. WINGFIELD
Affiliation:
Department of Genetics, University of Pretoria, Pretoria 0002, Republic of South Africa.
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Abstract

Diplodia pinea (syn. Sphaeropsis sapinea) is a well-known latent pathogen of Pinus spp. with a worldwide distribution. As such, this fungus is native where pines are endemic in the northern hemisphere and it has been introduced into all countries of the Southern Hemisphere where pines are exotic. The newly described D. scrobiculata (formerly known as the B morphotype of D. pinea) is thought to have a much more limited distribution. D. scrobiculata was first reported as an endophyte and weak pathogen of P. banksiana, where it was found to coexist with D. pinea. Diplodia scrobiculata is now known to have a much broader distribution in Northern America and Europe. In this study, seven Simple Sequence Repeat (SSR) markers were used to evaluate genetic diversity and gene flow between populations of D. scrobiculata. Results indicate a strong geographic isolation between populations of D. scrobiculata from different regions in North America, with unique alleles fixed in the different populations. The data fits the isolation by distance model indicating limited dispersal. Geographic isolation in combination with isolation by distance suggests prolonged reproductive isolation. Intensive collections of endophytes from native P. radiata in California have yielded only D. scrobiculata and not the significantly more pathogenic D. pinea. SSR analysis of three populations of D. scrobiculata from native P. radiata identified many shared alleles among the populations and moderate to high gene flow between them. The three Californian populations are distant and distinct from populations of D. scrobiculata from elsewhere. Under stress conditions, P. radiata is known to be very susceptible to D. pinea in plantations in the Southern Hemisphere. Native P. radiata is currently experiencing severe stress due to pitch canker caused by Fusarium circinatum. Such stress would provide ideal conditions for an associated outbreak of D. pinea. Thus, it is critical to prevent the movement of D. pinea into the last remaining native stands of P. radiata.

Type
Research Article
Copyright
© The British Mycological Society 2004

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