Metabarcoding Analysis Reveals Microbial Diversity and Potential Soilborne Pathogens Associated with Almond Dieback and Decline
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Abstract
Almond decline and dieback have become significant challenges in newly established
orchards, with symptoms including internal necrosis, canker, and external gummosis.
This work aims to explore the potential fungal and bacterial causative agents through
metabarcoding and traditional culture plate isolation across six almond cultivars. Our
results emphasize the multifactorial nature of almond decline and dieback, with possible
co-infections by opportunistic fungi and bacteria playing a central role. Classical isolation identified 47 fungal species or genera, including Diaporthe amygdali, Diplodia corticola, Phytophthora sp., and several Fusarium species. Almond metabarcoding revealed a more diverse microbial community, highlighting the prevalence of soilborne pathogens such as
Neocosmospora rubicola, Dactylonectria estremocensis, and Plectosphaerella niemeijerarum. Soil metabarcoding suggested that these pathogens likely originate from nursery substrates
or soils shared with other crops, such as olives and vineyards, that serve as a source
of inoculum. ‘Soleta’ generally presented lower richness when compared to the other
tested cultivars, suggesting a higher degree of biotic stress and decreased plant resilience.
This study highlights the value of integrating NGS approaches to comprehensively study
complex diseases and the need for further research on pathogen interactions and cultivar
susceptibility for the future development of new sustainable, targeted management
strategies in almond orchards.
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Citation
Albuquerque, A.; Patanita,
M.; Ribeiro, J.A.; Campos, M.D.;
Santos, F.; Monteiro, T.; Basaloco, M.;
Félix, M.d.R. Metabarcoding Analysis
Reveals Microbial Diversity and
Potential Soilborne Pathogens
Associated with Almond Dieback and
Decline. Plants 2025, 14, 2309.
https://doi.org/10.3390/plants14152309