Penetration of sweet cherry skin by 45Ca-salts: pathways and factors

Abstract Calcium is beneficial to sweet cherry physiology. The objective was to investigate factors affecting uptake of Ca into mature sweet cherry fruit through their skins. Penetration of 45 Ca-salts was monitored using whole fruit or excised fruit skins mounted in diffusion cells. Penetration of 45 CaCl 2 into intact fruit and through excised skins increased with time. Sealing the pedicel/fruit junction decreased penetration, but sealing the stylar scar had no effect. There was little difference in permeances of the fruit skin to 45 CaCl 2 , 45 Ca(NO 3 ) 2 , 45 Ca-formate, 45 Ca-acetate, 45 Ca-lactate or 45 Ca-propionate. Only 45 Ca-heptagluconate penetrated at a slower rate. Increasing temperature markedly increased Ca-penetration. Penetration was most rapid at 35 °C, intermediate at 22 °C and slowest at 12 °C. Increasing relative humidity (RH) from 0, 28, 75 to 100% increased penetration of 45 CaCl 2 , but penetration of 45 Ca-formate was restricted to 100% RH. Increasing the RH from 50 to 100% at 96 h after droplet application had no effect on penetration of 45 CaCl 2 , but increased penetration of 45 Ca-formate. The results reveal that: (1) the fruit/pedicel junction is a site of preferential Ca-uptake and (2) Ca-penetration is limited by the mobility of the Ca ion in the dried-down droplet residue when the point of deliquescence of the applied salt exceeds the ambient RH.