Modified Atmosphere Packaging Reduces Pericarp Browning and Maintains the Quality of ‘Huong Chi’ Longan Fruit (Dimocarpus Longan) Pretreated with Citric Acid

Date Received: May 14, 2020

Date Published: Dec 31, 2020

Views

1790

Download

604

Section:

ENGINEERING AND TECHNOLOGY

How to Cite:

Thuy, N., & Hanh, N. (2020). Modified Atmosphere Packaging Reduces Pericarp Browning and Maintains the Quality of ‘Huong Chi’ Longan Fruit (Dimocarpus Longan) Pretreated with Citric Acid. Vietnam Journal of Agricultural Sciences, 3(4), 854–863. https://doi.org/10.31817/vjas.2020.3.4.08

Modified Atmosphere Packaging Reduces Pericarp Browning and Maintains the Quality of ‘Huong Chi’ Longan Fruit (Dimocarpus Longan) Pretreated with Citric Acid

Nguyen Thi Bich Thuy (*) 1   , Nguyen Thi Hanh 1

  • Corresponding author: ntbthuy@vnua.edu.vn
  • 1 Faculty of Food Science and Technology, Vietnam National University of Agriculture, Hanoi 131000, Vietnam
  • Keywords

    longan fruit, modified atmosphere packaging, browning

    Abstract


    Longan ‘Huong Chi’ (Dimocarpus longan Lour.) is one of the most favorite and widely exported fruits in Vietnam, but the trading of longan faces considerable challenges due to rapid pericarp browning and decay. Our study aimed to determine the effects of modified atmospheres generated by low-density polyethylene (LDPE), polypropylene bag (PP), and LifeSpan L201 films on the quality and pericarp browning of ‘Huong Chi’ longan fruit pre-treated with 3.0 % citric acid and stored at 5oC. The results showed that LifeSpan L201 and LDPE packaging created an equilibrium atmosphere of 10.66 ± 0.78% O2, 4.44 ± 0.64% CO2, and 15.04 ± 0.89% O2, 2.96 ± 0.61% CO2,  respectively. The modified atmospheres generated by LifeSpan L201 and LDPE delayed pericarp browning, maintained the total soluble solids (TSS) and vitamin C content, and reduced decay in longan fruit. Meanwhile, the PP packaging resulted in an improperly modified atmosphere which led to severe decay and browning in cold storage conditions. 

    References

    Apai W. (2010). Effects of fruit dipping in hydrochloric acid then rinsing in water on fruit decay and browning of longan fruit. Crop Protection. 29(10): 1184-1189.

    Apai W., Sardsud V., Boonprasom P. & Sardsud U. (2009). Effects of chitosan and citric acid on pericarp browning and polyphenol oxidase activity of longan fruit. Songklanakarin Journal of Science & Technology. 31(6): 621-628.

    Chamnan S., Varith J., Jaturonglumlert S., Klinkajorn P. & Phimphimol J. (2019). The effect of packaging materials on the quality of freshness of longan fumigated with medium concentration-ozone gas. Pertanika Journal of Science and Technology. 27: 159-168.

    Chen M., Lin H., Zhang S., Lin Y., Chen Y. & Lin Y. (2015). Effects of adenosine triphosphate (ATP) treatment on postharvest physiology, quality and storage behavior of longan fruit. Food and Bioprocess Technology. 8(5): 971-982.

    Chen S., Chen J., Hong Q. & Lin H. (2000). Current situation and advances in post-harvest storage and transportation technologies of longan fruit. I International Symposium on Litchi and Longan 558. 343-351.

    Cheng Y., Liu L., Zhao G., Shen C., Yan H., Guan J. & Yang K. (2015). The effects of modified atmosphere packaging on core browning and the expression patterns of PPO and PAL genes in ‘Yali’pears during cold storage. LWT-Food Science and Technology. 60(2): 1243-1248.

    Chumyam A., Shank L., Faiyue B., Uthaibutra J. & Saengnil K. (2017). Effects of chlorine dioxide fumigation on redox balancing potential of antioxidative ascorbate-glutathione cycle in ‘Daw’ longan fruit during storage. Scientia Horticulturae. 222: 76-83.

    Duan X., Zhang H., Zhang D., Sheng J., Lin H. & Jiang Y. (2011). Role of hydroxyl radical in modification of cell wall polysaccharides and aril breakdown during senescence of harvested longan fruit. Food Chemistry.

    (1): 203-207.

    Hodges D. M., Lester G. E., Munro K. D. & Toivonen P. M. (2004). Oxidative stress: importance for postharvest quality. HortScience. 39(5): 924-929.

    Hussein Z., Caleb O. J., Jacobs K., Manley M. & Opara U. L. (2015). Effect of perforation-mediated modified atmosphere packaging and storage duration on physicochemical properties and microbial quality of fresh minimally processed ‘Acco’pomegranate arils. LWT-Food Science and Technology. 64(2): 911-918.

    Jiang Y. & Li Y. (2001). Effects of chitosan coating on postharvest life and quality of longan fruit. Food Chemistry. 73(2): 139-143.

    Jiang Y., Zhang Z., Joyce D. C. & Ketsa S. (2002). Postharvest biology and handling of longan fruit (Dimocarpus longan Lour.). Postharvest Biology and Technology. 26(3): 241-252.

    Kader A. A., Zagory D., Kerbel E. L. & Wang C. Y. (1989). Modified atmosphere packaging of fruits and vegetables. Critical Reviews in Food Science and Nutrition. 28(1): 1-30.

    Khan M. R., Sripethdee C., Chinsirikul W., Sane A. & Chonhenchob V. (2016). Effects of film permeability on reducing pericarp browning, preventing postharvest decay and extending shelf life of modified atmosphere-retail packaged longan fruits. International Journal of Food Science and Technology. 51(8): 1925-1931.

    Khan M. R., Suwanamornlert P., Leelaphiwat P., Chinsirikul W. & Chonhenchob V. (2017). Quality and biochemical changes of longan (Dimocarpus longan Lour cv. Daw) fruit under different controlled atmosphere conditions. International Journal of Food Science and Technology. 52(10): 2163-2170.

    Li L., Li X.-H. & Ban Z.-J. (2010). A mathematical model of the modified atmosphere packaging (MAP) system for the gas transmission rate of fruit produce. Food Technology and Biotechnology. 48(1): 71-78.

    Nguyen T. B. T., Ketsa S. & van Doorn W. G. (2004). Effect of modified atmosphere packaging on chilling-induced peel browning in banana. Postharvest Biology and Technology. 31(3): 313-317.

    Pesis E., Dvir O., Feygenberg O., Arie R. B., Ackerman M. & Lichter A. (2002). Production of acetaldehyde and ethanol during maturation and modified atmosphere storage of litchi fruit. Postharvest Biology and Technology. 26(2): 157-165.

    Saengnil K., Chumyam A., Faiyue B. & Uthaibutra J. (2014). Use of chlorine dioxide fumigation to alleviate enzymatic browning of harvested ‘Daw’ longan pericarp during storage under ambient conditions. Postharvest Biology and Technology. 91: 49-56.

    Sivakumar D. & Bautista-Baños S. (2014). A review on the use of essential oils for postharvest decay control and maintenance of fruit quality during storage. Crop Protection. 64: 27-37.

    Sivakumar D. & Korsten L. (2006). Influence of modified atmosphere packaging and postharvest treatments on quality retention of litchi cv. Mauritius. Postharvest Biology and Technology. 41(2): 135-142.

    Tian S., Xu Y., Jiang A. & Gong Q. (2002). Physiological and quality responses of longan fruit to high O2 or high CO2 atmospheres in storage. Postharvest Biology and Technology. 24(3): 335-340.

    Wang Y., Bai J. & Long L. E. (2015). Quality and

    physiological responses of two late-season sweet cherry cultivars ‘Lapins’ and ‘Skeena’ to modified atmosphere packaging (MAP) during simulated long distance ocean shipping. Postharvest Biology and Technology. 110: 1-8.

    Wang Y. & Sugar D. (2013). Internal browning disorder and fruit quality in modified atmosphere packaged ‘Bartlett’ pears during storage and transit. Postharvest Biology and Technology. 83: 72-82.