The use of organic soil amendments to enhance the suppressiveness of natural soils has been
proposed as an additional strategy to control plant diseases. Avocado is one of the main
subtropical crops in southern Spain and white root rot, caused by the fungus Rosellinia necatrix,
one of the most serious problems. Previous studies on this pathosystem have shown that
application of composted almond shells caused a change in soil microbial communities of both
population and functional level. In this work, evaluation of the suppressive capacity of almond
shells amended soils have performed. “In vitro” assays using two different susceptible plants,
Persea americana (avocado) and Triticum aestivum (wheat), indicate a clear relationship
between soil microbial communities and suppressiveness. Addition of composted almond shells
to the agricultural soil resulted in increased suppressiveness against R. necatrix, directly
associated to microbial components, since suppressiveness was reduced when the soil was
pasteurized, and partially recovered when the pasteurized soil was complemented with field
soil. Different strains producing antifungal compounds were correlated with suppressiveness by
molecular approaches.