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Phenotypic and genetic variation in the Dothistroma-Pinus pathosystem

Perry, Annika ORCID: https://orcid.org/0000-0002-7889-7597. 2016 Phenotypic and genetic variation in the Dothistroma-Pinus pathosystem. University of Edinburgh, Institute of Evolutionary Biology, PhD Thesis, 247pp.

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Abstract/Summary

Trees and forests are under increasing threat from pathogens which cause huge economic and ecological damage. The unprecedented global movement of pathogens into new areas creates novel pathosystems, while the changing climate affects the dynamics of endemic pathosystems. Co-evolution within endemic pathosystems affects the genetic composition of hosts and pathogens. Spatial heterogeneity in pathogen pressure leads to genetic variation in disease-related traits among host populations. In contrast, novel hosts or populations are expected to be highly susceptible to exotic pathogens as there has been no evolution of defence responses. Host response to disease can therefore be an indicator of a novel or endemic pathosystem. The long term resilience of forests to pathogens depends on the adaptive capacity of both the host and pathogen species. Establishing the extent of genetic and phenotypic variation within both the host and pathogen is therefore fundamental in understanding past, current and future pathosystem dynamics. The most significant current threat to Scots pine (Pinus sylvestris) is Dothistroma needle blight (DNB) caused by the foliar pathogen Dothistroma septosporum which is assumed to be exotic to Great Britain. This study aimed to increase understanding of the genetic and phenotypic variation in this pathosystem. Results from this study show that there are high levels of variation in the Dothistroma – Pinus pathosystem. Genetic variation, elucidated using neutral genetic markers, mating type specific markers and in vitro analysis of phenotypic variation in D. septosporum collected from Scottish pinewoods, was found to be high: there was high allelic diversity, particularly within plantation forests outside the native pinewood range, and high phenotypic plasticity in response to different temperature treatments. Both mating type idiomorphs were found in one forest which demonstrates their potential for sexual as well as asexual reproduction. There is also tentative evidence from this study that the pathogen is either introduced to Great Britain or that endemic pathogen populations have been augmented with introduced pathogens. Artificial and natural inoculations of native Scots pine provenances with D. septosporum indicate that there is considerable variation in susceptibility to DNB across the native range in Scotland and that variation in this trait is both highly heritable and evolvable. Furthermore, provenance mean susceptibility to DNB is negatively and significantly associated with water-related variables at site of origin, a finding that is potentially indicative of a co-evolutionary history between host and pathogen. Genetic differences among individuals which are ‘resistant’ or ‘susceptible’ to DNB were identified in Pinus radiata for which there has been extensive research in this pathosystem, by comparing the transcriptome sequences of the two phenotypic groups. Nearly half of the genetic differences identified among phenotypes were found in genes with a putative defence function. In conclusion, native Scots pine provenances contain the necessary heritable genetic diversity to evolve a decrease in their susceptibility to D. septosporum through natural selection in response to elevated prevalence of this pathogen. However, implementation of key native pinewood management strategies, including encouraging regeneration in particular, are necessary in order to facilitate the adaptive evolution of native forests to increased levels of DNB. The effectiveness of this response will depend on the rapidity of adaptation of the pathogen. Measures to limit adaptation where possible, including the use of pathogen monitoring and control in nurseries and the limitation of pathogen movement into native pinewoods, should be continued.

Item Type: Publication - Thesis (PhD)
UKCEH and CEH Sections/Science Areas: Watt
Additional Keywords: Pinus sylvestris, Dothistroma septosporum, Dothistroma needle blight, quantitative genetics, adaptation, heritability, susceptibility, resistance
NORA Subject Terms: Ecology and Environment
Date made live: 18 Apr 2016 11:44 +0 (UTC)
URI: https://nora.nerc.ac.uk/id/eprint/513394

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