Respiration and C2H4 production in various harvested crops held in CO2-enriched atmospheres

• Published in: Journal of the American Society for Horticultural Science Vol. 115; no. 6; pp. 975 - 978
• Main Authors: Kubo, Y. (Okayama University, Okayama, Japan), Inaba, A, Nakamura, R
• Format: Journal Article
• Language: English
• Published: 01.11.1990
• Subjects: ALMACENAMIENTO EN ATMOSF CONTROL; DIOXIDO DE CARBONO; DIOXYDE DE CARBONE; ETHYLENE; ETILENO; FISIOLOGIA POSTCOSECHA; FRUIT; FRUTO; HORTALIZAS; LEGUME; PHYSIOLOGIE APRES RECOLTE; PRODUCCION; PRODUCTION; RESPIRACION; RESPIRATION; STOCKAGE EN ATMOSPHERE CONTROLEE
• ISSN: 0003-1062; 2327-9788
• DOI: 10.21273/jashs.115.6.975

The respiration rate (O2 uptake) and the rate of C2H4 production were measured before, during, and after 24 hours of treatment with 60% CO2 (20% O2) in 18 kinds of fruits and vegetables by use of an automated system connected to a microcomputer. High CO2 decreased respiration only in climacteric fruit and broccoli, which were producing C2H4. Ethylene production decreased with CO2 treatment of peaches, tomatoes, and broccoli, but that of bananas increased. In five nonclimacteric fruits (three citrus species, grapes, and Japanese pears) and several vegetables (carrots, onions, cauliflower, and cabbage), in which C2H4 production was not detected, high CO2 affected respiration little, if at all. When eggplants, cucumbers, podded peas, spinach, and lettuce were treated with high CO2, C2H4 production began and respiration increased. These results indicate that the respiratory responses of harvested horticultural crops to high CO2 might be mediated by the effects of CO2 on the action and/or synthesis of C2H4