4.7 Article

The climate-driven distribution and response to global change of soil-borne pathogens in agroecosystems

Journal

GLOBAL ECOLOGY AND BIOGEOGRAPHY
Volume 32, Issue 5, Pages 766-779

Publisher

WILEY
DOI: 10.1111/geb.13662

Keywords

abundance; agricultural fields; diversity; fungal pathogens; Fusarium; global change; soil-borne; subsoil

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This study examined the distribution patterns and environmental drivers of fungal soil-borne pathogens in agricultural fields across China. It found that climate factors, such as temperature and precipitation, regulated the abundance and richness of these pathogens, with higher levels in the topsoil. The dominant pathogens were identified as two phylotypes belonging to the genus Fusarium, and their abundance was negatively correlated with precipitation and temperature. These findings have important implications for pathogen control and crop production.
AimSoil-borne pathogens severely affect crop production, but the present distribution of agricultural soil-borne pathogens and their response to global changes are unexplored at large spatial scales. Here, we examine the nationwide-scale distribution patterns, dominant taxa and environmental drivers of fungal soil-borne pathogens, and their response to warming, nutrient enrichment and their interaction. LocationChina. Time periodJuly and August 2019. Major taxa studiedFungal plant pathogens. MethodsThrough nationwide field surveys of 711 top- and subsoil samples in 51 cropland locations, we investigated the distribution patterns, environmental drivers and dominant taxa of fungal plant pathogens. We then conducted a mesocosm experiment with soils collected at 40 survey locations to evaluate the response patterns of fungal pathogens to global changes, including warming, nutrient enrichment and their interaction. ResultsWe observed that the abundance and richness of potential soil-borne pathogens were higher in the topsoil than in the subsoil. Mean annual temperature and mean annual precipitation as the main drivers had a stronger effect on the abundance, richness and community of pathogens in the topsoil than subsoil. Two phylotypes, belonging to genus Fusarium, were the dominant soil-borne pathogens accounting for approximately one third of total abundance, and their abundances (e.g. relative and absolute abundance via quantitative polymerase chain reaction) were negatively correlated with precipitation and temperature. The mesocosm experiment simulating global changes further revealed that the abundance and richness distributions of soil pathogens predicted the direction of their response to global changes, with a positive response in pathogen-poor soil and negative in pathogen-rich soil. We further constructed spatial atlases of the dominant soil-borne pathogens and their responses to global changes in agricultural fields. Main conclusionsOur findings suggest that the current distribution of potential soil-borne pathogens is regulated by climate, which could affect their future dynamics and is vital to agricultural practices for pathogen control and crop production.

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