Biological control of pythium root rot of chrysanthemum in small-scale hydroponic units

Abstract

The capacity of several strains of root-colonizing bacteria to suppressPythium aphanidermatum, Pythium dissotocum and root rot was investigated in chrysanthemums grown in single-plant hydroponic units containing an aerated nutrient solution. The strains were applied in the nutrient solution at a final density of 104 CFU ml−1 and 14 days later the root systems were inoculated withPythium by immersion in suspensions of 104 zoospores ml−1 solution. Controls received no bacteria, noPythium, or one of thePythium spp. but no bacteria. Strain effectiveness was estimated based on percent roots colonized byPythium and area under disease progress curves (AUDPC). In plants treated respectively withPseudomonas (Ps.)chlororaphis 63-28 andBacillus cereus HY06 and inoculated withP. aphanidermatum, root colonization by the pathogen was 83% and 72% lower than in the pathogen control, and AUDPC values were reduced by 61% and 65%. ForP. dissotocum, the respective strains reduced root colonization by 87% and 91%, and AUDPC values by 70% and 90%. In plants treated respectively withPs. chlororaphis Tx-1 andComamonas acidovorans C-4-7-28, root colonization byP. aphanidermatum was 84% and 80% lower than in the controls and AUDPC values were reduced by 66% and 57%; these strains did not suppressP. dissotocum. Burkholderia gladioli C-2-74 andC. acidovorans OCR-7-8-38, respectively, suppressed colonization of roots byP. dissotocum by 74% and 86%, and reduced AUDPC values by 60% and 70%, but were ineffective againstP. aphanidermatum. C. acidovorans OCR-7-8-39 reduced colonization and AUDPC values ofP. aphanidermatum by 57% and 42%, respectively.Pseudomonas corrugata 13,Ps. fluorescens 15 and JZ12, and three additional strains ofC. acidovorans were weakly or nonsuppressive againstP. aphanidermatum. Strains that reduced AUDPC values forP. aphanidermatum orP. dissotocum when applied at 104 CFU ml−1 were 11%–39% less effective at 103 CFU ml−1. Four tested strains (Ps. chlororaphis 63-28,Ps. chlororaphis Tx-1,B. cereus HY06, andB. gladioli C-7-24) in most instances suppressed root colonization and lowered AUDPC values ofP. aphanidermatum when applied at 14, 7 or 0 days before inoculation, but reduction of the respective variables was generally greater when the strains were applied at 14 days (63%–87% and 75%–78%) or 7 days (44%–47% and 31%–88%) than at 0 days (14%–31% and 23%–62%) before inoculation.Ps. chlororaphis Tx-1,Ps. chlororaphis 63-28 andB. cereus HY06 significantly suppressedP. aphanidermatum whether the temperature of the nutrient solution was high (32°C) or moderate (24°C). Taken together, the observations suggest thatPs. chlororaphis 63-28,B. cereus HY06,Ps. chlororaphis Tx-1,B. gladioli C-2-74 andC. acidovorans OCR-7-8-38 have the potential for controlling Pythium root rot in hydroponic chrysanthemums.