Influence of Concentration of Soda Ash, Temperature, and Immersion Period on the Control of Postharvest Green Mold of Oranges

Abstract

Oranges were inoculated with spores of Penicillium digitatum, the citrus green mold pathogen, and immersed 24 h later in heated soda ash (Na2CO3, sodium carbonate) solutions to control postharvest citrus green mold. Oranges were immersed for 1 or 2 min in solutions containing 0, 2, 4, or 6% (wt/vol) soda ash heated to 35.0, 40.6, 43.3, or 46.1°C. After 3 weeks of storage at 10°C, the number of decayed oranges was determined. Soda ash significantly controlled green mold in every test. The most effective control of green mold was obtained at 40.6 or 43.3°C with 4 or 6% soda ash. The concentration of soda ash greatly influenced efficacy, whereas the influences of temperature or immersion period on soda ash efficacy were small. Solutions of 4 and 6% soda ash were similar in efficacy and provided superior control of green mold compared with 2% soda ash. The control of green mold by soda ash solutions heated to 40.6 or 43.3°C was slightly superior to control by solutions heated to 35.0 or 46.1°C. The control of green mold by 1-min immersion of inoculated oranges in heated soda ash solutions was inferior to immersion for 2 min, but the magnitude of the difference, particularly with 6% soda ash, was small. A second-order response surface model without interactions was developed that closely described the influence of soda ash concentration, temperature, and immersion period on efficacy. The efficacy of soda ash under commercial conditions was better than that predicted by the model, probably because under commercial conditions the fruit were rinsed less thoroughly with water after treatment than in laboratory tests. The primary finding of this work was that soda ash controlled 24-h-old green mold infections at commercially useful levels using shorter immersion periods and lower temperatures than those recommended by other workers for the use of soda ash on lemons. The oranges were not visibly injured in any test.