Suppressiveness of 18 composts against 7 pathosystems : variability in pathogen response

6533b7d1fe1ef96bd125d93c

RESEARCH PRODUCT

Suppressiveness of 18 composts against 7 pathosystems : variability in pathogen response

Yona Chen D.j. Van Der Gaag Aad J. Termorshuizen Christian Steinberg B. Rämert Claude Alabouvette Jaak Ryckeboer Jan Lagerlöf Sharon Zmora-nahum E. Van Rijn Epaminondas J. Paplomatas Anastasios A. Malandrakis

subject

0106 biological sciences RHIZOCTONIA SOLANI potting mixes PHYTOPHTHORA CINNAMOMI Damping off Soil Science container media Phytophthora cinnamomi [SDV.SA.SDS]Life Sciences [q-bio]/Agricultural sciences/Soil study Wageningen UR Glastuinbouw 01 natural sciences Microbiology Rhizoctonia solani damping-off DISEASE SUPPRESSIVENESSS Biologische bedrijfssystemen Fusarium oxysporum waste Verticillium dahliae pythium-ultimum COMPOST FUSARIUM OXYSPORUM Biological Farming Systems 2. Zero hunger DISEASE PREDICTION biology soilborne plant-pathogens Wageningen UR Greenhouse Horticulture phytophthora-cinnamomi SPATHIPHYLUM CYLINDROCLADIUM 04 agricultural and veterinary sciences Phytophthora nicotianae biology.organism_classification PE&RC Potting soil SOILBORNE PLANT PATHOGENS Pythium ultimum PHYTOPHTHORA NICOTIANAE Agronomy organic amendments 040103 agronomy & agriculture soil microbial communities 0401 agriculture forestry and fisheries VERTICILLIUM DAHLIAE 010606 plant biology & botany rhizoctonia-solani

description

International audience; Compost is often reported as a substrate that is able to suppress soilborne plant pathogens, but suppression varies according to the type of compost and pathosystem. Reports often deal with a single pathogen while in reality crops are attacked by multiple plant pathogens. The goal of the present study was to evaluate the disease suppression ability of a wide range of composts for a range of plant pathogens. This study was conducted by a consortium of researchers from several European countries. Composts originated from different countries and source materials including green and yard waste, straw, bark, biowaste and municipal sewage. Suppressiveness of compost-amended (20% vol./vol.) peat-based potting soil was determined against Verticillium dahliae on eggplant, Rhizoctonia solani on cauliflower, Phytophthora nicotianae on tomato, Phytophthora cinnamomi on lupin and Cylindrocladium spathiphylli on Spathiphyllum sp., and of compost-amended loamy soil (20% vol./vol.) against R. solani on Pinus sylvestris and Fusarium oxysporum f. sp. lini on flax. From the 120 bioassays involving 18 composts and 7 pathosystems, significant disease suppression was found in 54% of the cases while only 3% of the cases showed significant disease enhancement. Pathogens were affected differently by the composts. In general, prediction of disease suppression was better when parameters derived from the compost mixes were used rather than those derived from the pure composts. Regression analyses of disease suppression of the individual pathogens with parameters of compost-amended peat-based mixes revealed the following groupings: (1) competition-sensitive: F. oxysporum and R. solani/cauliflower; (2) rhizosphere-affected: V. dahliae; (3) pH-related: P. nicotianae; and (4) specific/unknown: R. solani/pine, P. cinnamomi and C. spathiphylli. It was concluded that application of compost has in general a positive or no effect on disease suppression, and only rarely a disease stimulating effect.

year	journal	country	edition	language
2006-08-01

10.1016/j.soilbio.2006.03.002 https://hal.inrae.fr/hal-02668913