Abstract
Forests and woodlands worldwide are being severely impacted by invasive Phytophthora species, with initial outbreaks in some cases occurring on host trees located in public parks and gardens. These highly disturbed sites with diverse planting practices may indeed act as harbours for invasive Phytophthora pathogens which are particularly well adapted to surviving in soil. High throughput Illumina sequencing was used to analyse Phytophthora species diversity in soil samples collected from 14 public garden/amenity woodland sites in northern Britain. Bioinformatic analyses revealed some limitations to using internal transcribed spacer as the barcode region; namely reporting of false positives and ambiguous species matches. Taking this into account, 35 distinct sequences were amplified across the sites, corresponding to 23 known Phytophthora species as well as twelve oomycete sequences with no match to any known Phytophthora species. Phytophthora pseudosyringae and P. austrocedri, both of which cause serious damage to trees and are regarded as fairly recent introductions to Britain, were the two most abundant Phytophthora species detected. There was no evidence that any of the detected Phytophthora species were more associated with any one type of host, healthy or otherwise. This study has demonstrated the ubiquity and diversity of Phytophthora species endemic in highly managed, extensively planted soil environments in Britain. Suggested improvements to the methodology and the practical implications of the findings in terms of mitigating Phytophthora spread and impact are discussed.
Highlights
Invasive pests and pathogens are of increasing concern globally, largely due to humanmediated intercontinental spread via trade and other pathways (Hulbert et al, 2017)
This study has demonstrated the ubiquity and diversity of Phytophthora species endemic in highly managed, extensively planted soils in northern Britain
Many of the Phytophthora species found here have previously been recorded in plant nurseries across Europe (Jung et al, 2016), and our findings highlight the potential risks posed by spread of Phytophthora-contaminated soil and planting material
Summary
Invasive pests and pathogens are of increasing concern globally, largely due to humanmediated intercontinental spread via trade and other pathways (Hulbert et al, 2017). Phytophthora, a diverse genus of filamentous oomycete plant pathogens, has provided some of the most notorious examples of invasive and highly destructive plant disease epidemics worldwide. These include the potato late blight pathogen P. infestans (Goss et al, 2014) and the two forest pathogens, P. cinnamomi (Dobrowolski et al, 2003) and P. ramorum (Goss, Carbone & Grünwald, 2009). The number of clades will no doubt expand as the true global diversity of this genus of plant pathogens is revealed, with some estimates suggesting that the total number of species could be close to 500 (Brasier, 2008)
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