Screening of fungal strains responsible for strong fungistasis against Fusarium oxysporum f. sp. radicis-lycopersici in a coffee compost-amended soil
2005
Hamanaka, Y.(Tokyo Univ. of Agriculture and Technology, Fuchu (Japan)) | Toyota, K. | Hayashi Ikeda, K.
Disease incidence of crown and root rot of tomato, caused by Fusarium oxysporum f. sp. radicis-lycopersici J3 (FOL J3) was significantly lower in a soil (CC-soil) amended with coffee compost and chemical fertilizers (CF) than in a soil (CF-soil) amended with only CF. Germination of microconidia of various plant-pathogenic Fusarium oxysporum strains was consistently lower in the CC-soil than in the CF-soil, suggesting that the CC-soil possessed a higher degree of fungistasis. When the CC-soil was supplemented with rifampicin and kanamycin, germination of FOL J3 didn't increase, suggesting that the higher degree of fungistasis in the CC-soil may not be of bacterial origin. The substrate-induced respiration inhibition method demonstrated that the CC-soil possessed higher microbial activity and was dominated by fungi. PCR-DGGE analysis showed that the microbial community structure of the two soils was different. Fungal mycelia were isolated from the soils and the effect of the isolates on soil fungistasis was examined. Three isolates, all belonging to F. oxysporum out of 49 showed strongest suppressive effect on the germination of FOL J3 and two isolates suppressed Fusarium crown and root rot disease when they were inoculated into autoclaved CC-soil. These results might suggest that the isolates close to F. oxysporum were responsible for highly fungistatic capability in the CC-soil and were a possible source for disease suppression.
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