ABSTRACT'Regina' sweet cherry fruit (Prunus avium L.) harvested from trees grown on vigorous and semi-dwarfing rootstocks was stored in normal atmosphere (NA) at 8°C and 2°C, and in a controlled atmosphere (CA) 3% O 2 + 5% CO 2 at 2°C for two weeks. At harvest time, the fruits differed in the measured quality parameters (firmness, soluble solids content -SSC, titratable acidity -TA) depending on the rootstock. The storage conditions and the rootstocks significantly influenced the fruit quality parameters after storage. Generally, reduced fruit firmness and TA, and higher SSC and SSC/TA ratio were observed at the end of the storage period. Among the rootstocks, the lowest soluble solids content was found in the fruit from trees on the vigorous F12/1 rootstock. The lower storage temperature decreased the SSC independently of the storage atmosphere composition. Firmer fruit was found in CA 2°C compared with the other two treatments. The greatest loss of weight was found after fruit storage in NA 8°C. The extent of fruit decay depended on the season, storage conditions and the rootstock. Storage in NA 8°C of the fruit grown on F12/1 rootstock resulted in the highest percentage of fungal decay. The best retention of the green colour of the peduncle was noted in CA 2°C. The findings on how the rootstocks affect sweet cherry fruit properties can be useful for sweet cherry breeding programmes, as well as for sweet cherry crop production and storage technologies.Ke y wor d s: firmness, fruit decay, soluble solids content, titratable acidity
Fruits of the sweet cherry cultivar 'Regina' collected from trees growing on seven rootstocks were stored in a cold room at 2 °C with a normal (NA) and controlled atmosphere (15% and 20% CO 2 and 5% O 2-CA1 and CA2) for 2 weeks. The rootstocks on which the trees grew and the storage conditions significantly affected all fruit parameters tested during both years of the experiment. Fruit from Damil rootstock exhibited higher mean firmness than fruit from Colt rootstock. The effect of rootstocks on the value of soluble solids content (SSC) varied, wherein the fruits from Tabel Edabriz and Damil were characterized by high SSC mean content. The organic acids content (TA) was significantly lower after storage than during harvest time. Fruits from Tabel Edabriz trees were characterized by faster ripening, as was evident by the higher SSC to TA ratio. The amount of mass lost depended significantly and only on the storage conditions-sweet cherries from both CA combinations had the lowest mass losses. The percentage of fruits showing disease symptoms was largely dependent on the weather conditions in the orchard the year before the fruit harvest, as well as atmosphere composition and RH during fruit storage. Cold storage conditions with a high (20%) CO 2 content are recommended for the short-term storage of sweet cherry fruits because they preserve fruit quality parameters: a low decrease in firmness, maintenance of a high SSC/TA ratio, a low percent of fungal infections, and good preservation of green color in the peduncle.
During each season, pears were harvested on three dates at four-day intervals. The fruit was stored for 150 days in temperatures of 0-0.5°C in common cold storage (NA -normal atmosphere) and also in controlled atmospheres (CA) of different gaseous content: 0.8% CO 2 + 2% O 2 , 2% CO 2 + 2% O 2 and 3% CO 2 + 3% O 2 . After removing the pears from storage they were additionally stored for seven days in a temperature of 17°C -simulated shelf life. The content of chlorophyll pigments (chlorophyll a + b) was determined after each harvest date, storage time and simulated shelf life. Based on the results, I concluded that the a + b chlorophyll content in the peel of both pear cultivars significantly decreased along with the subsequent harvest date. In addition, the storage conditions had a significant influence on the studied factor. Compared to the normal atmosphere, the controlled atmosphere conditions were more efficient in slowing the yellowing of the fruit due to reduced chlorophyll degradation. The atmosphere consisting of 3% CO 2 + 3% O 2 or 2% CO 2 + 2% O 2 was more favourable for the higher content of chlorophyll a + b in the peel of 'Conference' pears than 0.8% CO 2 + 2% O 2 . In the case of 'Concorde' pears, the influence of particular compositions of CA on the content of chlorophyll a + b changed over the years.
The research was carried out on apples of the cultivar ‘Red Jonaprince’ in two storage seasons of 2015/2016 and 2016/2017. Both 1-MCP-treated and untreated apples were stored for 120 and 150 days at 2°C and 90–92% relative humidity in a regular cold store (NA) and in two atmospheric controlled storages, i.e. 2% CO2 and 2% O2 (CA) and 2% CO2 and 1.2% O2 (ULO). Apples were evaluated directly after the storage and after 7 days of simulated shelf-life. It was shown that storage conditions had significant impact on the value of apple quality traits. The effectiveness of the post-harvest 1-MCP treatment of apples manifested in different manner depending on the tested trait and storage conditions. 1-MCP delayed the softening of apples, but only those stored in CA and ULO. It effectively limited the decrease in titratable acidity, especially of apples from NA and ULO. A positive effect of 1-MCP in NA conditions on the soluble solids content was observed, as well as a reduction in the natural loss of weight and the percentage of fruits with the symptoms of fungal decay.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.