Wednesday, August 10, 2016: 8:15 AM
Macon Room (Sheraton Hotel Atlanta)
Stem end browning (SEB) in ‘Gala’ is becoming a significant problem for storage operators as volumes of fruit and hence storage periods are increasing. In this study we have investigated the effects of air, CA and DCA-Chlorophyll Fluorescence as well as the use of 1-methylcyclopropene on SEB incidence and severity taking two approaches. In the first, ‘Gala’ trees in a western NY orchard were either untreated or treated with the preharvest plant growth regulator Harvista™ (1-methylcyclopropene; 1-MCP) 1 week prior to the first harvest, spot picked for color early in the harvest window and then strip picked the following week. Fruit were cooled to 0.5 oC overnight and then either treated or not with SmartFresh (1-methylcyclopropene; 1-MCP) and kept in air, CA or DCA-CF (harvest 1 only) for up to 6 months. In the second, fruit were obtained from four orchards and stored in CA and DCA-CF after half of the fruit were treated with SmartFresh. In both experiments, O2 partial pressures were kept 0.2 kPa above the fluorescence-derived low O2 limit of 0.3 kPa, plus 1 kPa CO2, while CA conditions were 2 kPa O2 and 2 kPa CO2. In experiment 1, fruit were stored for 3 and 6 months, and in experiment 2 for 5 and 8 months. After removal from storage, fruit were kept at 20 oC for 1 and 7 days and assessed for quality and storage disorders. Fruit stored in DCA-CF had negligible SEB incidence at 3 months while fruit stored in air and CA all had higher levels with greater severity. After 6 months of storage, the level present in DCA-CF was similar to CA at 3 months, although the intensity was only slight. Use of Harvista™ lowered the level of SEB present in both CA and DCA-CF. Core browning was controlled by DCA-CF. In the second experiment, SEB incidence ranged from 0% to 67% in CA, and 0% to 10% in DCA-CF storage at 5 months. DCA-CF storage markedly delays the development of SEB incidence and severity.