Development of Oxygen Concentration Gradients in Flesh Tissues of Bulky Plant Organs

Abstract

Steady-state oxygen diffusion in flesh of apples (Malus domestics Borkh. cvs. Braeburn and Cox's Orange Pippin), Asian pears (Pyrus serotina Rehder. cvs. Hosui and Kosui), and nectarines [Prunus persica (L.) Batsch. cvs. Red Gold and Sunglo] was studied using a nondestructive method at 20C. Fruit flesh was found to exert a significant resistance to O₂ diffusion resulting in measurable O₂ gradients between tissues immediately beneath the skin and those at the fruit center for all these fruits. The magnitude of these O₂ gradients varied between crops and cultivars and depended on the respiration rate and on effective O₂ diffusivity in fruit flesh (D_e). Values of D_c varied with the cultivar and were broadly consistent with intercellular space volume. The range of D_e values obtained suggested that 0₂ diffusion in fruit flesh takes place in a combination of series and parallel modes in the intercellular space and fluid/solid matrix of the flesh. The results imply that O₂ diffusivity in flesh tissues must be taken into consideration in the determination of critical external O₂ level in controlled/modified atmosphere (CA/MA) storage.