Low oxygen storage improves tomato postharvest cold tolerance, especially for tomatoes cultivated with far-red led light
We investigated the effects of low oxygen storage on chilling injury development, colour development, respiration and H2O2 levels of ‘Merlice’ tomatoes cultivated with and without far red (FR) LED lighting during 20 days of shelf-life. Mature green (MG) and red (R) tomatoes were stored at 2 °C in combination with 0.5, 2.5, 5 and 21 kPa O2 for 15 days (experiment 1). MG tomatoes cultivated under either white LED or white LED light with FR LED light were stored at 2 °C in combination with 1, 5 and 21 O2 kPa for 14 days (experiment 2). Chilled MG and R tomatoes from experiment 1 showed decay, firmness loss and higher weight loss during shelf-life which were reduced under low oxygen conditions. FR during cultivation improved chilling tolerance of MG tomatoes. Fastest colour development and lowest respiration rate during shelf-life were observed for MG fruit cultivated with FR lighting prior to storage at 1 kPa O2/0 kPa CO2. H2O2 levels during the shelf-life were not affected during cold storage. The improved cold tolerance of MG tomatoes cultivated with FR lighting is likely due to lower oxygen uptake that led to both higher lycopene synthesis and less softening.
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| Format: | Article/Letter to editor biblioteca |
| Language: | English |
| Subjects: | Chilling injury, Controlled atmosphere, Far-red, |
| Online Access: | https://research.wur.nl/en/publications/low-oxygen-storage-improves-tomato-postharvest-cold-tolerance-esp |
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dig-wur-nl-wurpubs-5859092024-12-04 Affandi, Fahrizal Yusuf Verschoor, Jan A. Paillart, Maxence J.M. Verdonk, Julian C. Woltering, Ernst J. Schouten, Rob E. Article/Letter to editor Foods 10 (2021) 8 ISSN: 2304-8158 Low oxygen storage improves tomato postharvest cold tolerance, especially for tomatoes cultivated with far-red led light 2021 We investigated the effects of low oxygen storage on chilling injury development, colour development, respiration and H2O2 levels of ‘Merlice’ tomatoes cultivated with and without far red (FR) LED lighting during 20 days of shelf-life. Mature green (MG) and red (R) tomatoes were stored at 2 °C in combination with 0.5, 2.5, 5 and 21 kPa O2 for 15 days (experiment 1). MG tomatoes cultivated under either white LED or white LED light with FR LED light were stored at 2 °C in combination with 1, 5 and 21 O2 kPa for 14 days (experiment 2). Chilled MG and R tomatoes from experiment 1 showed decay, firmness loss and higher weight loss during shelf-life which were reduced under low oxygen conditions. FR during cultivation improved chilling tolerance of MG tomatoes. Fastest colour development and lowest respiration rate during shelf-life were observed for MG fruit cultivated with FR lighting prior to storage at 1 kPa O2/0 kPa CO2. H2O2 levels during the shelf-life were not affected during cold storage. The improved cold tolerance of MG tomatoes cultivated with FR lighting is likely due to lower oxygen uptake that led to both higher lycopene synthesis and less softening. en application/pdf https://research.wur.nl/en/publications/low-oxygen-storage-improves-tomato-postharvest-cold-tolerance-esp 10.3390/foods10081699 https://edepot.wur.nl/551978 Chilling injury Controlled atmosphere Far-red https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research |
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Chilling injury Controlled atmosphere Far-red Chilling injury Controlled atmosphere Far-red |
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Chilling injury Controlled atmosphere Far-red Chilling injury Controlled atmosphere Far-red Affandi, Fahrizal Yusuf Verschoor, Jan A. Paillart, Maxence J.M. Verdonk, Julian C. Woltering, Ernst J. Schouten, Rob E. Low oxygen storage improves tomato postharvest cold tolerance, especially for tomatoes cultivated with far-red led light |
| description |
We investigated the effects of low oxygen storage on chilling injury development, colour development, respiration and H2O2 levels of ‘Merlice’ tomatoes cultivated with and without far red (FR) LED lighting during 20 days of shelf-life. Mature green (MG) and red (R) tomatoes were stored at 2 °C in combination with 0.5, 2.5, 5 and 21 kPa O2 for 15 days (experiment 1). MG tomatoes cultivated under either white LED or white LED light with FR LED light were stored at 2 °C in combination with 1, 5 and 21 O2 kPa for 14 days (experiment 2). Chilled MG and R tomatoes from experiment 1 showed decay, firmness loss and higher weight loss during shelf-life which were reduced under low oxygen conditions. FR during cultivation improved chilling tolerance of MG tomatoes. Fastest colour development and lowest respiration rate during shelf-life were observed for MG fruit cultivated with FR lighting prior to storage at 1 kPa O2/0 kPa CO2. H2O2 levels during the shelf-life were not affected during cold storage. The improved cold tolerance of MG tomatoes cultivated with FR lighting is likely due to lower oxygen uptake that led to both higher lycopene synthesis and less softening. |
| format |
Article/Letter to editor |
| topic_facet |
Chilling injury Controlled atmosphere Far-red |
| author |
Affandi, Fahrizal Yusuf Verschoor, Jan A. Paillart, Maxence J.M. Verdonk, Julian C. Woltering, Ernst J. Schouten, Rob E. |
| author_facet |
Affandi, Fahrizal Yusuf Verschoor, Jan A. Paillart, Maxence J.M. Verdonk, Julian C. Woltering, Ernst J. Schouten, Rob E. |
| author_sort |
Affandi, Fahrizal Yusuf |
| title |
Low oxygen storage improves tomato postharvest cold tolerance, especially for tomatoes cultivated with far-red led light |
| title_short |
Low oxygen storage improves tomato postharvest cold tolerance, especially for tomatoes cultivated with far-red led light |
| title_full |
Low oxygen storage improves tomato postharvest cold tolerance, especially for tomatoes cultivated with far-red led light |
| title_fullStr |
Low oxygen storage improves tomato postharvest cold tolerance, especially for tomatoes cultivated with far-red led light |
| title_full_unstemmed |
Low oxygen storage improves tomato postharvest cold tolerance, especially for tomatoes cultivated with far-red led light |
| title_sort |
low oxygen storage improves tomato postharvest cold tolerance, especially for tomatoes cultivated with far-red led light |
| url |
https://research.wur.nl/en/publications/low-oxygen-storage-improves-tomato-postharvest-cold-tolerance-esp |
| work_keys_str_mv |
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| _version_ |
1819143552327745536 |