บทคัดย่องานวิจัย

Impact of low-level atmospheric ozone-enrichment on black spot and anthracnose rot of tomato fruit

Nikos Tzortzakis, Ian Singleton and Jeremy Barnes

Postharvest Biology and Technology, Volume 47, Issue 1, January 2008, Pages 1-9

2008

บทคัดย่อ

Impact of low-level atmospheric ozone-enrichment on black spot and anthracnose rot of tomato fruit

Tomato fruit (Lycopersicon esculentum L.) were exposed to ozone concentrations between 0.005 (control) and 5.0 μmol mol1 up to 13 days at 13 °C, prior to, or following, inoculation by Alternaria alternata or Colletotrichum coccodes (causes of black spot and anthracnose, respectively). Low-level atmospheric ozone-enrichment resulted in a modest, but statistically significant, reduction in fungal lesion development; higher concentrations of the gas resulting in greater effects. This finding implies concentration-specific impacts o­n fungal lesion development. A fluorescent lection assay revealed that the ozone-induced inhibition of visible lesion development was reflected in a similar reduction in fungal biomass below the fruit surface. Fungal spore production in vivo, was markedly reduced when fruit were stored in an ozone-enriched atmosphere. Higher concentrations/duration of exposure resulted in greater reduction in spore production, with considerable benefits resulting from exposure to low levels of ozone (i.e. below the 0.2 μmol mol1 European threshold used for the protection of human health). In vitro, effects of ozone o­n spore germination depended o­n concentration and duration of exposure. Studies performed o­n fungi exposed to ozone o­n Potato Dextrose Agar at 13 °C and 95% relative humidity revealed no major effects o­n the growth of mycelia, implying the observed suppression of pathogen development was due in part to ozone-induced changes in fruit-pathogen interactions.