# Controlled inoculation provides insight into western redcedar resistance to multiple root- and butt-rot pathogens

**Authors:** Jun-Jun Liu, Sydney Houston, Mike Cruickshank, Arezoo Zamany, Isabel Leal, Cosmin Filipescu

PMC · DOI: 10.3389/fpls.2025.1669570 · 2025-10-14

## TL;DR

This study explores how western redcedar resists root and butt rot diseases, using controlled experiments and molecular tools to improve forest health management.

## Contribution

The study introduces controlled inoculation methods and molecular diagnostics to assess latent infections in western redcedar.

## Key findings

- Two inoculation methods were developed to study root- and butt-rot diseases in western redcedar seedlings.
- Latent infections were detected in asymptomatic seedlings using ITS-NGS, impacting growth despite no visible symptoms.
- Disease incidence varied among pathogens, with some causing decay while others remained latent.

## Abstract

Western redcedar (Thuja plicata Donn) is one of the most valuable forest species in western North America, but high incidence of root- and butt-rot diseases has resulted in large economic losses. During a long history of host–microbe co-evolution, redcedar has gained highly quantitative disease resistance to these pathogens compared to other conifer species. Despite this, genetic disease resistance has rarely been incorporated into redcedar breeding programs. This study evaluated redcedar resistance to the root- and butt-rot diseases caused by eight wood decay fungi. Two artificial inoculation methods, using wood block-stick and dowel-plug inoculums, were developed for infection of three-year-old seedlings under controlled greenhouse conditions. Disease symptoms and infection processes were assessed over 18 months post inoculation. Disease incidence rates ranged from 10% to 60% for five pathogens (Armillaria ostoyae, Coniferiporia weirii, Heterobasidion occidentale, Poriella subacida, and Postia balsamea). Among these, only C. weirii and Poriella subacida caused symptoms of both wood discoloration and decay. Infection processes varied among the five pathogens. The remaining three decay fungi (Porodaedalea pini, Postia sericeomollis, and Obba rivulosa) did not cause obvious disease symptoms. However, molecular diagnosis using next-generation sequencing of the internal transcribed spacer region (ITS-NGS) detected target pathogens in asymptomatic but inoculated seedlings. These latent infections were characterized by high incidence rates and intermediate levels of molecular infection severity (MIS), which significantly impaired seedling growth. The continuous MIS variation among asymptomatic seedlings highlights latent infection as a key quantitative trait for screening resistance in western redcedar. This study provides essential insights into disease development and latent infection in western redcedar, contributing to improved prediction of disease outbreaks, forest health management, and the development of early intervention strategies. The inoculation methods and molecular diagnostics established here offer valuable tools for integrating disease resistance into western redcedar breeding programs.

## Linked entities

- **Species:** Armillaria ostoyae (taxon 47428), Coniferiporia weirii (taxon 135589), Heterobasidion occidentale (taxon 942053), Poriella subacida (taxon 2872513), Porodaedalea pini (taxon 108901), Postia sericeomollis (taxon 83240), Obba rivulosa (taxon 1052685)

## Full-text entities

- **Diseases:** root- and butt-rot (MESH:D005535), discoloration (MESH:D014075), Infection (MESH:D007239)
- **Species:** Postia sericeomollis (species) [taxon 83240], Porodaedalea pini (pine conk, species) [taxon 108901], Coniferiporia weirii (species) [taxon 135589], Poriella subacida (species) [taxon 2872513], Juniperus virginiana (red cedar, species) [taxon 39584], Armillaria ostoyae (species) [taxon 47428], Oligoporus balsameus (species) [taxon 81048], Heterobasidion occidentale (species) [taxon 942053], Obba rivulosa (species) [taxon 1052685]

## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12558954/full.md

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Source: https://tomesphere.com/paper/PMC12558954