Pseudomonas tolaasii in cultivated mushroom (Agaricus bisporus) crops: effects of sodium hypochlorite on the bacterium and on blotch disease severity

Abstract

Sodium hypochlorite killed Pseudomonas tolaasii in water in 30 s at pH 6.0 when 5 mg/1 free available chlorine (FAC) was used. On glass beads 62.5 mg/1 FAC was necessary to kill the pathogen in 30 s. Peat and limestone mixture (‘casing’) prevented some cells of the pathogen being killed by chlorine. Casing treated with 50 and 100 mg/1 FAC still contained some Ps. tolaasii cells which were later able to multiply. Although some viable cells of the pathogen survived the use of 150 mg/1 FAC these were apparently unable to multiply. Mushroom tissue is more ‘disinfectant‐wasting’ than casing, the pathogen on it surviving 250 mg/1 FAC for 10 min. In controlled environmental experiments, use of 150 mg/1 FAC at mushroom ‘pinning’ (2.5 mm diameter primordia) gave as much control of blotch disease as was obtainable if chlorination began after casing. Delay in starting chlorination until the mushrooms were 10 to 15 mm in diameter resulted in blotch disease incidence and severity as severe as in unchlorinated controls. Disease incidence was not reduced when 50, 100 and 150 mg/1 FAC was used, but disease severity was significantly reduced when 150 mg/1 was used. Adjusting the pH of the water did not affect these results. On commercial farms, routine watering with 150 mg/1 FAC starting at pinning, checked frequently by the sodium arsenite titrimetric method, for 3 years, reduced the percentage of mushrooms discarded because of very severe Ps. tolaasii blotch from 5.2% to 0.6% on one farm and from 7.4% to 0.5% on another, but did not eliminate the disease completely.