Article

PHYTO-THREATS: Addressing Threats to UK Forests and Woodlands from Phytophthora; Identifying Risks of Spread in Trade and Methods for Mitigation

Details

Citation

Green S, Cooke DEL, Dunn M, Barwell L, Purse B, Chapman DS, Valatin G, Schlenzig A, Barbrook J, Pettitt T, Price C, Perez-Sierra A, Frederickson-Matika D, Pritchard L & Thorpe P (2021) PHYTO-THREATS: Addressing Threats to UK Forests and Woodlands from Phytophthora; Identifying Risks of Spread in Trade and Methods for Mitigation. Forests, 12 (12), Art. No.: 1617. https://doi.org/10.3390/f12121617

Abstract
The multidisciplinary ‘Phyto-threats’ project was initiated in 2016 to address the increasing risks to UK forest and woodland ecosystems from trade-disseminated Phytophthora. A major component of this project was to examine the risk of Phytophthora spread through nursery and trade practices. Close to 4000 water and root samples were collected from plant nurseries located across the UK over a three-year period. Approximately half of the samples tested positive for Phytophthora DNA using a metabarcoding approach with 63 Phytophthora species identified across nurseries, including quarantine-regulated pathogens and species not previously reported in the UK. Phytophthora diversity within nurseries was linked to high-risk management practices such as use of open rather than closed water sources. Analyses of global Phytophthora risks identified biological traits and trade pathways that explained global spread and host range, and which may be of value for horizon-scanning. Phytophthoras having a higher oospore wall index and faster growth rates had wider host ranges, whereas cold-tolerant species had broader geographic and latitudinal ranges. Annual workshops revealed how stakeholder and sector ‘appetite’ for nursery accreditation increased over three years, although an exploratory cost-benefit analysis indicated that the predicted benefits of introducing best practice expected by nurseries outweigh their costs only when a wider range of pests and diseases (for example, Xylella) is considered. However, scenario analyses demonstrated the significant potential carbon costs to society from the introduction and spread of a new tree-infecting Phytophthora: Thus, the overall net benefit to society from nurseries adopting best practice could be substantial.

Keywords
Phytophthora; plant nursery; risk models; trait analyses; stakeholder perspectives; accreditation; cost-benefit; carbon costs

Notes
Additional co-authors: Peter J. A. Cock, Eva Randall, Beatrix Keillor, and Mariella Marzano

Journal
Forests: Volume 12, Issue 12

StatusPublished
FundersBiotechnology and Biological Sciences Research Council
Publication date31/12/2021
Publication date online23/11/2021
Date accepted by journal17/11/2021
URLhttp://hdl.handle.net/1893/33920
eISSN1999-4907

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Dr Daniel Chapman

Dr Daniel Chapman

Senior Lecturer, Biological and Environmental Sciences

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