Initial Analysis of Plant Soil for Evidence of Pathogens Associated with a Disease of Seedling <i>Ocotea monteverdensis</i>

Initial Analysis of Plant Soil for Evidence of Pathogens Associated with a Disease of Seedling <i>Ocotea monteverdensis</i>

Seedlings of the ecologically important, critically endangered tree <i>Ocotea monteverdensisis</i> experience high mortality in the Monteverde, Costa Rica, cloud forests at the onset of the wet season, yet there are no studies suggesting the disease etiology. Here, healthy and diseased p...

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Bibliographic Details
Main Authors: William D. Eaton, Debra A. Hamilton, Alexander Lemenze, Patricia Soteropoulos
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Microorganisms
Subjects:
tropical seedling disease
fungal plant pathogens
<i>Mycosphaerella</i> disease
Online Access:https://www.mdpi.com/2076-2607/13/7/1682
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Summary:Seedlings of the ecologically important, critically endangered tree <i>Ocotea monteverdensisis</i> experience high mortality in the Monteverde, Costa Rica, cloud forests at the onset of the wet season, yet there are no studies suggesting the disease etiology. Here, healthy and diseased plant root and bulk soils were analyzed for various carbon and nitrogen (N) metrics and respiration levels, and DNA sequence-based bacterial and fungal community compositions. All nitrogen metric levels were greater in diseased vs. healthy plant root soils, which could enhance pathogen growth and pathogenic mechanisms. Greater DNA percentages from several potential pathogens were found in diseased vs. healthy plant root soils, suggesting this disease may be associated with a root pathogen. The DNA of the fungus <i>Mycosphaerella</i> was at greater levels in diseased vs. healthy plant root soils than other potential pathogens. <i>Mycosphaerella</i> causes similar diseases in other plants, including coffee, after onset of the wet season. The <i>O. monteverdensis</i> disease also occurs in seedlings planted within or near former coffee plantations at wet season onset. Distance-based linear model analyses indicated that NO<sub>3</sub><sup>−</sup> levels best predicted the pattern of fungal pathogens in the soils, and <i>Mycosphaerella</i> and <i>Tremella</i> best predicted the patterns of the different N metrics in the soils, supporting their possible roles in this disease.
ISSN:2076-2607

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