Site-Based Patterns of Variation in Leaf Endophytes and Ecophysiological Performance in Sweet Birch (<i>Betula lenta</i> L.) in the Southern Appalachian Mountains, USA: A Preliminary Study

Site-Based Patterns of Variation in Leaf Endophytes and Ecophysiological Performance in Sweet Birch (<i>Betula lenta</i> L.) in the Southern Appalachian Mountains, USA: A Preliminary Study

Foliar endophytic fungi (FEF) live within leaves without causing visible signs of disease. FEF occur in all vascular plants, yet the exact nature of interactions between specific FEF and their hosts is not well understood. Some FEF are associated with enhanced water use efficiency, nutrient acquisit...

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Bibliographic Details
Main Authors: Grace A. Dougherty, Grace C. Zaboski, Eric A. Griffin, Alisa A. Hove
Format: Article
Language:English
Published: MDPI AG 2025-04-01
Series:Ecologies
Subjects:
Appalachia
drought stress
elevation
fungal endophytes
IRGA
photosynthesis
Online Access:https://www.mdpi.com/2673-4133/6/2/30
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Summary:Foliar endophytic fungi (FEF) live within leaves without causing visible signs of disease. FEF occur in all vascular plants, yet the exact nature of interactions between specific FEF and their hosts is not well understood. Some FEF are associated with enhanced water use efficiency, nutrient acquisition, and defense. However, others may have negative effects under high-stress conditions. We examined a series of gas exchange traits in sweet birch (<i>Betula lenta</i>, Fagaceae) along an elevation gradient in the Pisgah National Forest Asheville, North Carolina, USA. From these leaves, we cultured surface-sterilized samples to examine FEF frequency and diversity. FEF cultures were categorized by morphotype and identified through analysis of internal transcribed spacer (<i>ITS</i>) sequences. FEF colonization frequency was 100% across all sites, and we identified 68 distinct morphotypes. Genetic identification of a subset of cultures suggests highly diverse FEF communities within this study system. Leaf gas exchange traits showed significant correlations with elevation at the site level, supporting the hypothesis that water stress increases with increasing elevation. However, further research is needed to determine associations between FEF communities and elevation. These findings, especially considering the limited sample size and small spatial scale of this study, indicate that the southern Appalachians are a promising region for future studies of FEF in forest systems.
ISSN:2673-4133

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