Vineyard maturity increases arbuscular mycorrhizal and decreases plant pathogen fungal relative abundance in bulk soil across a 1,000 km Chilean gradient
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Date
Authors
Marín, César
Dittrich, Felix
Vasar, Martti
Gainza, Felipe
Silva-Flores, Patricia
Aguilera, Paula
Dittrich, Felix
Vasar, Martti
Gainza, Felipe
Silva-Flores, Patricia
Aguilera, Paula
Authors
Date
Datos de publicación:
10.1002/ppp3.10598
Keywords
Arbuscular Mycorrhizal Fungi - Biotic Stress - Chilean Vineyards - Grapevines - Terroir - Hongos Micorrízicos Arbusculares - Estrés Biótico - Viñedos Chilenos - Vides - Terroir
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Abstract
Societal Impact Statement: Wine production has a significant impact on the global economy. Despite this, the microbial composition of the terroir has not been studied sufficiently, particularly in the southern hemisphere. Here, we investigated how bulk soil fungal communities are affected by several abiotic and biotic factors across 1,000 km of Chilean vineyards. We found that geographical distance was the main driver of vineyard soil fungal communities. Irrespective of variety, older vineyards host a higher relative abundance of arbuscular mycorrhizal fungi (AMF) and a lower relative abundance of plant pathogenic fungi. This result could lead to significant recommendations on when to apply AMF-based inoculants. Summary: The microbial dimension of the terroir has been increasingly recognized as an essential factor determining vineyard productivity and quality. Despite this, few studies have analyzed the factors affecting soil fungal communities of vineyards in the southern hemisphere. Across a 1,000 km gradient encompassing 34 Chilean vineyards, we investigated the effects of grapevine variety, geographical distance, maturity, and soil chemical properties on the diversity and composition of soil fungi. We implemented standard soil chemical analyses and ITS-based DNA metabarcoding of bulk soil. We found that the total soil fungal composition was significantly affected by geographical distance but not by grapevine variety and maturity. Soil chemical dissimilarity also significantly affected soil fungal composition. When analyzing specific fungal guilds, we found a contrasting successional pattern: arbuscular mycorrhizal fungal relative abundance was significantly higher at medium and old-maturity vineyards compared with young vineyards, on which plant pathogenic fungi had a markedly lower abundance. Our results present several caveats: the molecular marker was not the most commonly used for arbuscular mycorrhizal fungi, bulk soil was sampled (instead of roots), and all abundances were relative. Still, this study constitutes one of the most extensive studies on soil fungi both for vineyards and Chile and might have practical implications, as knowing the drivers of fungal and mycorrhizal biodiversity can inform agricultural management decisions. © 2025 Elsevier B.V., All rights reserved.
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Keywords
Arbuscular Mycorrhizal Fungi , Biotic Stress , Chilean Vineyards , Grapevines , Terroir , Hongos Micorrízicos Arbusculares , Estrés Biótico , Viñedos Chilenos , Vides , Terroir
Citation
10.1002/ppp3.10598