Efficacy of electrolyzed oxidizing water (EOW) on grape berries for inactivating of Aspergillus carbonarius growth and Ochratoxin A production.

Contamination of vineyards from black Aspergilli is a well-known condition that cause the accumulation of ochratoxin A (OTA) in grapes and derived products. This contamination is strongly related to climatic conditions, geographical regions (South Mediterranean climate is highly conducive), grape varieties, damage by insects, although, great variations may occur from one year to another. Among the black Aspergilli commonly found in infected grapes, Aspergillus carbonarius is considered the main responsible of OTA contamination, with A. niger at secondary extent. To minimise the black Aspergilli infection and limit OTA concentrations in grapes, several strategies are commonly adopted, including the implementations of good agricultural practices and the use of pesticides and fungicides. These strategies are essential to manage the problem, but since they are insufficient when extremely favourable condition occurs in the vineyard, new strategies, aimed to reduce OTA risk in vineyards, are necessary. In this respect, implementation of electrolysed oxidising water (EOW) in agriculture has arising during the last decade as an interesting alternative to replace or limit the use of chemicals. The efficacy of EOW was also demonstrated in post-harvest for reduction of gray mold and brown rot on surfaces of peaches and grapes. In this study, we screened for the first time the efficacy of EOW generated by EVA System® 100 apparatus (Industrie De Nora S.p.A., Milan, Italy) at different concentrations of free chlorine (ranging from 0.0125 to 0.4 g/L) on conidial germination and growth of A. carbonarius and A. niger. A good fungicidal activity was achieved after 2-10 minutes treatment with EOW containing 0.4-0.2 g/L of free chlorine, although A. carbonarius conidia were more resistant to EOW than A. niger conidia. Then EOW at 0.4 g/L free chlorine was tested on detached berries of Primitivo and Aglianico wine grape varieties that were singularly infected with A. niger and A. carbonarius. Treatments with Switch (cyprodinil and fludioxonil) at 0.8 g/L, a fungicide regularly used in vineyard against black Aspergilli, were used as positive controls. Percentage of infected berries, McKinney index, and OTA concentrations were used to evaluate the efficacy of the EOW treatment. On Aglianico grape berries EOW and Switch produced an almost complete reduction on percentage of infection, McKinney index and OTA concentration compared to the control. On Primitivo grape berries EOW treatment reduced more than half the percentage of infections and McKinney index for both A. carbonarius and A. niger, although Switch showed a better performance. A significant reduction of OTA concentration was observed for EOW and Switch treatments. These results evidence for the first time that EOW is effective to reduce black Aspergilli inoculum and OTA contamination on grape berries.