1-MCP efficacy in extending storage life of ‘Bartlett’ pears is affected by harvest maturity, production elevation, and holding temperature during treatment delay

•‘Bartlett’ IEC was affected by harvest maturity and production elevation.•1-MCP efficacy was determined by fruit physiological stage.•1-MCP efficacy was reduced in fruit at late harvest.•1-MCP efficacy was reduced in fruit from high production elevation.•1-MCP efficacy was reduced by high holding temperature during treatment decay.

The efficacy of 1-methylcyclopropene (1-MCP) in extending storage life of the Pacific Northwest ‘Bartlett’ pear is inconsistent. The effects of harvest maturity [H1: flesh firmness (FF) ≈ 83.6 N; H2: FF ≈ 74.8 N], production elevation (E1 ≈ 150 m; E2 ≈ 610 m), and holding temperature (0 and 5 °C) prior to application of 1-MCP have been measured with respect to ethylene production, fruit quality, and storage disorders of ‘Bartlett’ fruit during 6 months of storage at −1.1 °C. 1-MCP at 0.3 μL L−1 for 24 h at 0 °C inhibited ethylene production, FF and green color losses, senescence disorders, and friction discoloration for H1 fruit from both elevations. However, 1-MCP efficacy was reduced moderately in E1H2 fruit and reduced to a greater extend in E2H2 fruit. Internal ethylene concentration (IEC) at harvest was not detected in H1 fruit from either elevation, but it accumulated in E1H2 and E2H2 fruit (E2H2 > E1H2). The holding temperature at 5 °C but not 0 °C for 12 d between harvest and 1-MCP treatment increased fruit IEC and ethylene production rate and reduced the fruit response to subsequent 1-MCP treatment. The fruit physiological stage at the moment of 1-MCP treatment determined the efficacy of 1-MCP in extending the storage life of ‘Bartlett’ pears. 1-MCP retarded development of ripening capacity and 10–14 d at 20 °C were needed to ripen 1-MCP treated ‘Bartlett’ pears to optimum eating quality following 5–6 months of cold storage.