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DNA and RNA metabarcoding reveal shared dominant seed-borne fungi.

Created on 04 Jul 2026

Authors

Iva Franić, Patrick Sherwood, Kinga Stolarek, René Eschen, Jana Orbach, Simone Prospero, Michelle Cleary

Published in

Environmental microbiome. Jul 03, 2026. Epub Jul 03, 2026.

Abstract

Tree seeds harbor diverse fungal communities, including both pathogens and mutualists, that can influence plant health. These communities comprise living, metabolically active organisms as well as dormant or dead cells. Because only active fungi interact with their hosts, distinguishing active from inactive taxa is crucial, especially for environmental and phytosanitary monitoring. Traditional culturing methods capture living fungi but account for only a small fraction of the total fungal diversity. Currently, these methods are increasingly replaced by high-throughput DNA metabarcoding, which detects a broader range of taxa. However, DNA persists after cell death and occurs in dormant cells, preventing distinction between active and inactive fungi. In contrast, RNA metabarcoding may better reflect living fungal communities than the other two methods, though its use in assessing plant-associated fungi remains underexplored. We used culturing, DNA-, and RNA-based metabarcoding to compare fungal communities associated with seeds of three key European tree species (Fagus sylvatica, Abies alba, Pinus sylvestris).
Dominant fungal communities in seeds were strongly shaped by host species identity and were largely shared across DNA and RNA metabarcoding datasets, with roughly half of the most abundant genera detected by both methods. Differences between DNA- and RNA-derived communities were predominantly associated with rare taxa in the RNA dataset, although distinguishing true biological signals from noise introduced by different methodological workflows remains challenging. Several cultured genera, likely both abundant and metabolically active, were consistently detected by both approaches.
These results highlight the complementary nature of the three methods for characterising seed-associated fungi. Combining culturing, DNA- and RNA-based metabarcoding may provide the most comprehensive assessment of fungal diversity, while RNA metabarcoding alone offers a promising opportunity to identify the active members of fungal communities for improved environmental and phytosanitary monitoring.

PMID:
42400095
Bibliographic data and abstract were imported from PubMed on 04 Jul 2026.

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