Abstract
Forest decline diseases are complex processes driven by biotic and abiotic factors. Although information about host–microbiome–environment interactions in agricultural systems is emerging rapidly, similar studies on tree health are still in their infancy. We used acute oak decline (AOD) as a model system to understand whether the rhizosphere physicochemical properties and microbiome are linked to tree health by studying these two factors in healthy and diseased trees located in three sites in different AOD stages—low, mid and severe. We found significant changes in the rhizosphere properties and microbiome composition across the different AOD sites and between the tree health conditions. Rhizosphere pH correlated with microbiome composition, with the microbial assemblages changing in more acidic soils. At the severe AOD site, the oak trees exhibited the lowest rhizosphere pH and distinct microbiome, regardless of their health condition, whereas, at the low and mid-stage AOD sites, only diseased trees showed lower pH and the microbial composition differed significantly from healthy trees. On these two sites, less extreme soil conditions and a high presence of host-beneficial microbiota were observed in the healthy oak trees. For the first time, this study gathers evidence of associations among tree health conditions, rhizosphere properties and microbiome as well as links aboveground tree decline symptoms to the belowground environment. This provides a baseline of rhizosphere community profiling of UK oak trees and paves the way for these associations to be investigated in other tree species suffering decline disease events.
Highlights
Forests are globally important systems [1], often damaged by disturbances, which leads to a significant loss of trees
To further characterize the rhizosphere properties and microbiome and their relation with site and tree health conditions, we excluded the bulk soil data because it is likely that this niche has different drivers from those found in the rhizosphere
At this site, which showed the lowest rhizosphere pH, acidification dramatically boosted C and N levels in the rhizosphere compared to bulk soil, and these elements were higher than those measured at Eastnor and Hatchlands
Summary
Forests are globally important systems [1], often damaged by disturbances, which leads to a significant loss of trees This is of great concern as humans and environments rely on the functions, goods, and services provided by these essential ecosystems [1,2,3]. Forests 2020, 11, 1153 inciting, and contributing [5] Predisposition factors are those related, in general, to site resilience and involve long-term influences of the environmental and/or biological factors that weaken the host before the onset of decline. The contributing factors include secondary pests and diseases that can be very destructive to weakened trees and bring them to death According to this concept, single or multiple factors within one category are not able, alone, to drive the decline [6]. In view of new research towards a deeper understanding of the mechanistic and functional components of plant–microbe interactions at the systems level [9], studies elucidating the drivers and mechanisms behind decline diseases in the UK are underway using oak decline as a platform for investigation
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