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Abstract
Fluorescent pseudomonads are involved in the natural suppressiveness of some soils to fusarium wilts. These bacteria have been applied successfully to suppress fusarium wilts of various plant species grown in conducive soils and growing substrates. Suppression of fusarium wilts by fluorescent pseudomonads can be ascribed to direct and indirect effects against pathogenic Fusarium oxysporum. Direct effects are expressed by a reduction of the saprophytic growth of the pathogen leading to delay and reduction of root infections. This antagonism was demonstrated to be related to siderophore‐mediated iron competition. Iron competition was also shown to enhance the antagonistic effect of non‐pathogenic F. oxysporum by making the pathogen more susceptible to fungal competition for carbon. Indirect effects of fluorescent pseudomonads against pathogenic F. oxysporum are mainly related to the induction of host plant resistance which can be associated with the bacterial lipopolysaccharides. Suppression of fusarium wilts by some fluorescent pseudomonads could also be related to their ability to detoxify fungal metabolites such as fusaric acid. Association of different mechanisms of suppression increases the efficacy and consistency of the biological control under various experimental conditions. Increased knowledge of mechanisms of suppression now enables management of the environment, to some extent, to favour expression of the beneficial activities. These activities are only expressed if the bacterial density is sufficiently high.
