Land use change rather than surrounding vegetation affects fungal endophyte assemblages in the African wild olive

Context Land use change can significantly affect plant-fungal interactions. Objectives We assessed how fungal endophytes within African wild olive ( Olea europaea subsp. cuspidata ) twigs are influenced by different levels of land use change and differences in surrounding vegetation types. Methods T...

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Bibliographic Details
Published in:Landscape ecology 2023-12, Vol.38 (12), p.3153-3171
Main Authors: Ngubane, Nombuso P., Dreyer, Leanne L., Slippers, Bernard, Kemler, Martin, Witfeld, Frederick, Begerow, Dominik, Brachmann, Andreas, Roets, Francois
Format: Article
Language:English
Subjects:
Biomedical and Life Sciences
Composition
DNA barcoding
Ecological effects
Ecology
Endophytes
Environmental Management
Fungi
Habitats
Land use
Landscape Ecology
Landscape/Regional and Urban Planning
Life Sciences
Nature Conservation
Network analysis
Oleaceae
Olives
Plants (botany)
Research Article
Sustainable Development
Trees
Vegetation
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Summary:Context Land use change can significantly affect plant-fungal interactions. Objectives We assessed how fungal endophytes within African wild olive ( Olea europaea subsp. cuspidata ) twigs are influenced by different levels of land use change and differences in surrounding vegetation types. Methods Twigs were sampled in the Western Cape Province (South Africa) and their fungal endophyte assemblages were characterised using culture-independent DNA metabarcoding. We assessed the effects of land use change (natural, semi-natural and planted (completely transformed)) and differences in surrounding vegetation types (grasses/low-growing plants versus shrubs/trees versus other olives) using fungal endophyte alpha and beta diversity measures. Co-occurrence networks were constructed to assess assemblage connectivity under different scenarios and to identify OTUs of potential ecological significance. Results OTU richness, but not abundance, was significantly influenced by both land use change and differences in the surrounding vegetation types. Planted African olives and those surrounded by heterospecific trees harboured the highest OTU richness. Only levels of land use change significantly influenced fungal endophyte assemblage composition. Specifically, fungal assemblages from natural habitats were distinct from those in planted and semi-natural habitats, which were similar to each other. Co-occurrence network analyses revealed that cohesive and species rich networks could only be maintained within the natural habitats. Conclusion These findings suggest that although the African olive is widespread, the identity and composition of their associated fungal assemblages are particularly sensitive to land use change. This study highlights the importance of conserving natural habitats, not just for the plants, but also for the maintenance of their associated fungal endophytes.
ISSN:0921-2973
1572-9761
DOI:10.1007/s10980-023-01772-1