Abstract

The rapid increase in the production of hardy kiwi fruit (A. arguta) since the beginning of the 21st century has required the development of new cultivation technologies and postharvest handling procedures in order to extend the supply and transport of the fruit to distant markets. Fruit storage focuses on the inhibition of ripening processes regulated by ethylene activity or respiration. Both of these are effectively regulated by appropriate concentrations of O2 and CO2 in the atmosphere surrounding the fruit. In this study, the effect of the concentration of both gases in the cold room on the physico-chemical indices of fruit quality, i.e., mass loss, firmness, soluble solids and monosaccharides content, titratable acidity and acid content, and color of the peel was evaluated. Studies have shown that high CO2 concentrations inhibit ripening processes more effectively than low O2 concentrations. Softening of berries as well as an increase in soluble solid contents was recorded during the first 4 weeks of storage in the fruit. However, the increase in monosaccharides was fairly stable throughout the study period. The increase in soluble solids content as well as the loss of acidity were more strongly determined by CO2 than O2, although the acid content in a 10% CO2 atmosphere did not change. Additionally, the fruits were greener after storage in 10% CO2, but the weakness was skin dulling and darkening. The results indicate that the use of high CO2 concentrations (5–10%) effectively inhibits ripening processes in fruit. After 12 weeks of storage, the fruit was still not suitable for direct consumption, which suggests that the storage period can be extended further.

Highlights

  • ultra-low oxygen (ULO), the fruit firmness (FF) decreased to the level characterizing the fruit as suitable for consumption, in the following year, the softening processes in dynamic controlled atmosphere (DCA) and ULO

  • Analysis of the results showed that the fruits stored in DCA and ULO technology lost their green color faster during storage (Table 10)

  • The aim of the experiment was to determine the effect of low O2 concentrations and high CO2 concentrations on the physicochemical parameters of hardy kiwi fruits

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Summary

Introduction

It is related to the high nutritional value of the fruit and the high productivity. These fruits, only a few centimeters long, are characterized by a unique taste and aroma, which arouses the curiosity of a growing group of consumers [2]. The productivity of this creeper was noticed over 1000 years ago in Asia [3]. Actinidia arguta shrubs tolerate the climatic conditions of Central and Eastern Europe due to their high frost resistance [8]

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