Aglaonema is an important perennial herbaceous foliage plant. Taiwan has superior climate conditions, and thus has potential for export potted Aglaonema to Japan. Ethylene arising from anthropogenic and biological sources could occasionally accumulated to physiologically active concentrations inside enclosed areas during storage to alternate poststorage quality of foliage plants. This study investigated the effects of ethylene during storage and 1-methylcyclopropene (1-MCP) pretreatment on post-storage leaf senescence as measured by changes in quality, photosynthesis, chloroplasts, and antioxidative reaction of the fully developed leaves and the lowest leaves in Aglaonema cultivars. The purpose was to determine the cause of ethylene damage, and the effectiveness of 1-MCP protection. Potted plants of ‘Chalit’s Fantasy’, ‘Curtisii’ and ‘White Tip’ were treated with 0-4.5 μL•L-1 ethylene during storage at 16℃ for 5 d. ‘Chalit’s Fantasy’ treated with 0 - 4.5 μL•L-1 ethylene did not produce any chlorotic leaves and all stored plants were of excellent quality, with high SPAD-502 and Fv/Fm values. Increased number of chlorotic leaves and reduced quality rating were recorded in ‘Curtisii’ treated with 4.5 μL•L-1 ethylene or ‘White Tip’ treated with 2.5 μL•L-1 ethylene, as compared with 0 μL•L-1 ethylene. Both the SPAD-502 value and Fv/Fm value of ‘Curtisii’ and ‘White Tip’ decreased as ethylene concentration increased from 0 to 4.5 μL•L-1. Potted plants of ‘Chalit’s Fantasy’ and ‘White Tip’ were stored in a dark room at 16℃ for 5 d. Three treatments were employed in this study while plants were being stored. The first treatment (CK) was plants stored without ethylene or 1-MCP treatment. The second treatment (ET) was plants treated with 3.0 μL•L-1 ethylene during storage. The third treatment (MCP/ET) was plants stored with 3.0 μL•L-1 ethylene followed by pretreatment with 600 nL•L-1 1-MCP for 6 h. Results showed that ET treatment did not affect the stomatal conductance in either cultivars or leaves. ET treatment reduced the net CO2 assimilation rate and potential photochemical efficiency of photosystem Ⅱ (Fv/Fm) in the lowest leaves of ‘White Tip’. MCP/ET treatment resulted in increased net CO2 assimilation rate and Fv/Fm in the lowest leaves of ‘White Tip’, as compared with ET treatment. Chloroplast number in a palisade or spongy mesophyll cell did not differ among treatments in the lowest leaves of ‘Chalit’s Fantasy’. However, the lowest leaves of ethylene-treated ‘White Tip’ had fewer chloroplasts in the mesophyll cells, had more and larger plastoglobules in the chloroplasts, and had looser granal stacking with enlarged thylakoid lumens. MCP/ET treatment prevented ethylene injury, and maintained the quantity and structural integrity of chloroplasts. Regardless of the fully developed or the lowest leaves, no differences were found in hydrogen peroxide (H2O2) and chlorophyll concentrations, and relative injury (RI) value among CK, ET and MCP/ET treatments in ‘Chalit’s Fantasy’. In ‘White Tip’, ET treatment resulted in increased H2O2 concentration and RI value, and reduced chlorophyll concentration, APX and CAT activity in the lowest leaves. There were no differences in H2O2 and chlorophyll concentrations and RI value between CK and ET treatments in the fully developed leaves of ‘White Tip’. Ehylene did not alter postharvest performance of ‘Chalit’s Fantasy’. In contrast, ethylene increased number of chlorotic leaves, decreased quality rating, the SPAD-502 value, and Fv/Fm value in ‘Silver Bay’, ‘Silver Queen’, ‘Pattaya Beauty’, ‘White Tip’, and ‘King of Siam’. ‘Silver Bay’ had fewer number of chlorotic leaves and higher quality rating, SPAD-502, and Fv/Fm values than ‘Silver Queen’, ‘Pattaya Beauty’, ‘White Tip’, and ‘King of Siam’. The number of chlorotic leaves decreased, and SPAD-502 and Fv/Fm values increased with increasing 1-MCP concentration × time. Treatment with 1-MCP concentration × time (300 nL•L-1•h) was effective in reducing the number of chlorotic leaves, and maintaining SPAD-502 and Fv/Fm values in ‘Silver Bay’. In other cultivars, higher 1-MCP concentration × time (400-900 nL•L-1•h) was required to maintain poststorage quality. This study also measured H2O2 concentration, CAT, APX, SOD, and GR activity and total ascorbate concentration in the lowest leaves of six cultivars before storage. H2O2 concentration, CAT and APX activity were higher in ‘Chalit’s Fantasy’ than other cultivars.