Oligotrophic bacteria and root disease suppression in organically managed soils
The objective of this thesis was to obtain a better understanding of soil health in terms of microbial and chemical characteristics as well as suppression of soil borne plant pathogens. Organic soils were chosen as an appropriate model for studying soil health. Four different organic amendments were applied on two experimental fields with different crop history, providing a diverse range of soil quality levels. Many soil microbial variables were measured, including copiotrophic and oligotrophic bacterial populations, the abundance and diversity of Eubacteria, Alphaproteobacteria, Pseudomonas and fungal communities, as well as several microbial genes involved in nitrogen cycling. Plant disease suppressiveness was used as a quantitative integrative parameter reflecting the health status of soils. Rhizoctonia solani on beet and Fusarium oxysporum on flax were selected as pathosystems; areas under disease progress curves were measured in bioassays with differentially amended field soils and were related to soil parameters. Combined rather than single amendments enhanced Fusarium suppression, but Rhizoctonia suppression was more related to crop history than organic amendments. No universal correlations were found between disease suppression and microbial and chemical parameters, although pH and organic matter affected microbial communities and Fusarium wilt. A significant relation between ammonia oxidizing bacteria and disease suppression was observed for both pathogens; this relation was likely indirect via nitrogen availability and pH. No direct relationship was found between quantities of N cycling genes and disease suppression. A specific emphasis was put on the potential role of oligotrophic bacteria in soil health and disease suppression. Bacteria isolated on low carbon medium (10 mg C/L) were repeatedly transferred onto this medium to select true oligotrophic bacteria. Most isolates could grow on both low carbon and higher carbon (1000 mg C/L) media and belonged to Streptomyces, Rhizobium, Bradyrhizobium and Mesorhizobium. A new oligotrophic isolate was identified as Collimonas sp. IS343 and its interaction with R. solani was studied. This strain was better adapted to oligotrophic conditions than a copiotrophic Collimonas reference strain and was more effective in controlling R. solani. This thesis provided a better understanding of some aspects of soil health and emphasized the role of oligotrophic bacteria, a poorly understood but very important group of soil inhabitants.
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| Format: | Doctoral thesis biblioteca |
| Language: | English |
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Wageningen University
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| Subjects: | flax, fusarium oxysporum, linum usitatissimum, models, organic farming, plant pathogens, soil bacteria, soil management, soil suppressiveness, soilborne pathogens, thanatephorus cucumeris, biologische landbouw, bodembacteriën, bodembeheer, bodempathogenen, bodemweerbaarheid, modellen, plantenziekteverwekkers, vlas, |
| Online Access: | https://research.wur.nl/en/publications/oligotrophic-bacteria-and-root-disease-suppression-in-organically |
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