Abstract
Disease outbreaks caused by introduced Phytophthora species have been increasing in British forests and woodlands in recent years. A better knowledge of the Phytophthora communities already present in the UK is of great importance when developing management and mitigation strategies for these diseases. To do this, soils were sampled in “disturbed” sites, meaning sites frequently visited by the public, with recent and new plantings or soil disturbances versus more “natural” forest and woodland sites with little disturbance or management. Phytophthora diversity was assessed using high-throughput Illumina sequencing targeting the widely accepted barcoding Internal Transcribed Spacer 1 (ITS1) region of rRNA and comparing it with the mitochondrial cytochrome c oxidase I (COI) gene. Isolation of Phytophthora was run in parallel. Nothophytophthora spp. and Phytophthora spp. were detected in 79 and 41 of the 132 locations of the 14 studied sites when using ITS or COI, respectively. A total of 20 Phytophthora amplicon sequence variants (ASVs) were assigned to known Phytophthora species from eight clades (1a, 2, 2b, 3a, 5, 6b, 7a, 8b, 8c, 8d, 10a, and 10b) and 12 ASVs from six clades (1a, 2c, 3a, 3b, 6b, 7a, 8b, 8c, and 8d) when using ITS or COI, respectively. Only at two locations were the results in agreement for ITS, COI, and isolation. Additionally, 21 and 17 unknown Phytophthora phylotypes were detected using the ITS and COI, respectively. Several Phytophthora spp. within clades 7 and 8, including very important forest pathogens such as P. austrocedri and P. ramorum, were identified and found more frequently at “disturbed” sites. Additionally, eight ASVs identified as Nothophytophthora spp. were detected representing the first report of species within this new genus in Britain. Only three species not known to be present in Britain (P. castaneae, P. capsici, and P. fallax) were detected with the ITS primers and not with COI. To confirm the presence of these or any potential new Phytophthora species, sites should be re-sampled for confirmation. Additionally, there is a need to confirm if these species are a threat to British trees and try to establish any eradication measures required to mitigate Phytophthora spread in Britain.
Highlights
This article is an open access articleIn recent years, several outbreaks caused by Phytophthora (P. ramorum, P. kernoviae,P lateralis, P. pseudosyringae and P. austrocedri) have emerged in Britain and worldwide to cause significant mortality on a range of woody hosts [1,2,3,4,5,6,7]
Results from next-generation sequencing (NGS) analysis of c oxidase I (COI) sequences from British soil samples revealed a total of 54 amplicon sequence variants (ASVs) clustered within the genus Phytophthora that were assigned to 12 known
The main species detected using COI sequences that were in agreement with the three databases were P. cactorum, P. cinnamomi, P. europaea, P. gonapodyides, P. megasperma, P. plurivora, P. pseudosyringae, P. primulae, P. quercina, P. ramorum, P. syringae and P. uliginosa
Summary
This article is an open access articleIn recent years, several outbreaks caused by Phytophthora (P. ramorum, P. kernoviae,P lateralis, P. pseudosyringae and P. austrocedri) have emerged in Britain and worldwide to cause significant mortality on a range of woody hosts [1,2,3,4,5,6,7]. As we witness the devastating impact of Phytophthora on the natural ecosystem, an increasing number of studies have looked at species composition in diverse environments such as nurseries [8,9,10,11], agricultural distributed under the terms and conditions of the Creative Commons. Many new species have been recovered with a lot of these not formally described yet. In some cases, these newly discovered species are endemic to limited geographic areas, and their potential impact on the environment remains to be elucidated [16,20,21,22]. The soil environment plays an integral role in the spread and establishment of Phytophthora pathogens, which can persist long term in soil in the form of resilient thick-walled spores
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