Effect of heat treatment with antioxidants on the content of bioactive compounds during storage of zucchini

Authors

DOI:

https://doi.org/10.15587/2312-8372.2016.60339

Keywords:

zucchini, storage, antioxidants, heat treatment, ascorbic acid, phenolic compounds, pigments

Abstract

The combination of heat treatment and exogenous antioxidants allows extending the storage time of zucchini. However, the effect of heat treatments with antioxidants on the complex of bioactive compounds is not considered. In this article, an influence of heat treatment with composition of antioxidants on the dynamics of ascorbic acid, phenolic compounds, chlorophylls and carotenoids during storage of zucchini is investigated.

It is established that heat treatment with composition of antioxidants inhibits the activity of ascorbate oxidase in zucchini in average of 25...27 %, allowing slow rate of decay of ascorbic acid at 25...33 % compared with control samples. After 24 days of storage amount of ascorbic acid in treated zucchini higher than in control zucchini after 12 days of storage. Amount of polyphenols grows during storage of zucchini. The applied treatment inhibited the growth rate of phenolic compounds on average 1,8 times for the Tarmino hybrid and 1,9 times for the Kavili hybrid compared with control zucchini. This inhibition is due to higher maintenance activity of polyphenol oxidase in treated zucchini. Heat treatment with antioxidants inhibits the degradation of chlorophyll and carotenoids. Treated zucchini contain for 15...17 % of chlorophylls and 19...22 % carotenoids more than control.

Thus, postharvest heat treatment with composition of antioxidant allows stabilizing the content of main bioactive compounds during storage of zucchini.

Author Biography

Олеся Петрівна Прісс, Tavria State Agrotechnological University, B. Khmelnitsky Avenue, 18, Melitopol, Ukraine, 72312

Candidate of Agricultural Sciences, Associate Professor

Department of technology of processing and storage of agricultural products

References

  1. Saboo, S. S., Thorat, P. K., Tapadiya, G. G., Khadabadi, S. S. (2013). Ancient and recent medicinal uses of cucurbitaceae family. International Journal of Therapeutic Applications, Vol. 9, 11–19.
  2. Rahman, A. H. M. M., Anisuzzaman, M., Ahmed, F. et al. (2008). Study of Nutritive Value And Medicinal Uses of Cultivated Cucurbits. Journal of Applied Sciences Research, Vol. 4, № 5, 555–558.
  3. Rodas-Gaitan, H. A., Rodriguez-Fuentes, H., Ojeda-Zacarias, M. D. et al. (2012). Macronutrients absorption curves in Italian squash (Cucurbita pepo L.). Revista Fitotecnia Mexicana, Vol. 35, 57–60.
  4. Iswaldi, I., Gomez-Caravaca, A. M., Lozano-Sanchez, J. et al. (2013, January). Profiling of phenolic and other polar compounds in zucchini (Cucurbita pepo L.) by reverse-phase high-performance liquid chromatography coupled to quadrupole time-of-flight mass spectrometry. Food Research International, Vol. 50, № 1, 77–84. doi:10.1016/j.foodres.2012.09.030
  5. Lee, L., Arul, J., Lencki, R., Castaigne, F. (1996, January). A review on modified atmosphere packaging and preservation of fresh fruits and vegetables: Physiological basis and practical aspects–part II. Packaging Technology and Science, Vol. 9, № 1, 1–17. doi:10.1002/(sici)1099-1522(199601)9:1%3C1::aid-pts349%3E3.0.co;2-w
  6. Dhall, R. K. (2013, January). Advances in Edible Coatings for Fresh Fruits and Vegetables: A Review. Critical Reviews in Food Science and Nutrition, Vol. 53, 5, 435–450. doi:10.1080/10408398.2010.541568
  7. Sugar, D. (2009, April 1). Influence of temperature and humidity in management of postharvest decay. Stewart Postharvest Review, Vol. 5, № 2, 1‒5. doi:10.2212/spr.2009.2.1
  8. McCollum, T. G. (2007, May). Squash. Agricultural Handbook Number 66 (HB-66): The Commercial Storage of Fruits, Vegetables, and Florist And Nursery Stocks. Washington: United States Department of Agriculture. Available: http://www.ba.ars.usda.gov/hb66/squash.pdf
  9. Wang, C. Y. (1995, January). Effect of temperature preconditioning on catalase, peroxidase, and superoxide dismutase in chilled zucchini squash. Postharvest Biology and Technology, Vol. 5, № 1-2, 67‒76. doi:10.1016/0925-5214(94)00020-S
  10. Lurie, S., Pedreschi, R. (2014, June 25). Fundamental aspects of postharvest heat treatments. Horticulture Research, Vol. 1, 14030. doi:10.1038/hortres.2014.30
  11. Kasim, M. U., Kasim, R. (2011). Vapor Heat Treatment Increase Quality and Prevent Chilling Injury of Cucumbers (Cucumis melo L. cv. Silor). American-Eurasian J. Agric. & Environ. Sci., Vol. 11, № 2, 269–274.
  12. Wang, C. Y. (1994, April). Combined treatment of heat shock and low temperature conditioning reduces chilling injury in zucchini squash. Postharvest Biology and Technology, Vol. 4, № 1-2, 65‒73. doi:10.1016/0925-5214(94)90008-6
  13. Wang, C. Y. (2010, June). Alleviation of chilling injury in tropical and subtropical fruits. Proceedings of the III International symposium on tropical and subtropical fruits. ISHS Acta Horticulturae, 864. Fortaleza, Ceará, Brazil, 267‒273. doi:10.17660/ActaHortic.2010.864.35
  14. Priss, O. Р., Kalitka, V. V. (2014). Reduction of losses during storage vegetables sensitive to low temperatures. Progressive technique and technology of food production and restaurant industry trade, 1 (19), 209–221.
  15. Priss, O. Р., Kalitka, V. V. (2015). Effect of heat treatment with antioxidants on respiratory substrates during storage of zucchini. Technology Audit And Production Reserves, 6(4(26)), 45–50. doi:10.15587/2312-8372.2015.56230
  16. Priss, O. P., Prokudina, T. F., Zhukova, V. F.; assignee: Tavria State Agrotechnological University. (12.05.2009). Rechovyna dlia obrobky plodovykh ovochiv pered zberihanniam. Patent of Ukraine № 41177, А23В 7/00, А23L 3/34. Appl. № u 2008 13962. Filed 04.12.2008. Bull. № 9. Available: http://uapatents.com/2-41177-rechovina-dlya-obrobki-plodovikh-ovochiv-pered-zberigannyam.html
  17. Naichenko, V. M. (2001). Workshop on technology storage and processing of fruits and vegetables with the basics of commodity. Kyiv: FADA LTD, 211.
  18. Musiienko, M. M., Parshykova, T. V., Slavnyi, P. C. (2001). Spectrophotometric methods in practice, physiology, biochemistry and ecology of plants. Kyiv: Fitosotsiotsentr, 200.
  19. Pochynok, Kh. N. (1976). Methods for biochemical analysis of plants. Kyiv: Naukova dumka, 334.
  20. Sanmartin, M., Pateraki, I., Chatzopoulou, F., Kanellis, A. K. (2006, September 21). Differential expression of the ascorbate oxidase multigene family during fruit development and in response to stress. Planta, Vol. 225, № 4, 873–885. doi:10.1007/s00425-006-0399-5
  21. Bin Saari, N., Fujita, S., Miyazoe, R., Okugawa, M. (1995, August). Distribution of ascorbate oxidase activities in the fruits of family cucurbitaceae and some of their properties. Journal of Food Biochemistry, Vol. 19, № 4, 321–327. doi:10.1111/j.1745-4514.1995.tb00537.x
  22. Yahia, E. M., Contreras-Padilla, M., Gonzalez-Aguilar, G. (2001, November). Ascorbic Acid Content in Relation to Ascorbic Acid Oxidase Activity and Polyamine Content in Tomato and Bell Pepper Fruits During Development, Maturation and Senescence. LWT – Food Science and Technology, Vol. 34, № 7, 452–457. doi:10.1006/fstl.2001.0790
  23. Gajewski, M., Roslon, W. (2002). Changes in the content of polyphenolic acids and carotenoids in zucchini squash fruits (Cucurbita pepo var. giromontina Alef) in relation to the maturity stage and storage conditions. Folia Horticulturae, Vol. 14, № 1, 155–162.
  24. Amiot, M. J., Fleuriet, A., Cheynier, V., Nicolas, J. (1997). Phenolic compounds and oxidative mechanisms in fruit and vegetables. Phytochemistry of fruit and vegetables. Proceedings of the phytochemical society of Europe, Vol. 41. Oxford, GBR: Clarendon Press, 51–85.
  25. Hortensteiner, S. (2006, June). Chlorophyll degradation during senescence. Annual Review of Plant Biology, Vol. 57, № 1, 55–77. doi:10.1146/annurev.arplant.57.032905.105212
  26. Yamauchi, N., Watada, A. E. (1994). Effectiveness of various phenolic compounds in degradation of chlorophyl by in vitro peroxidase-hydrogen, peroxide system. Journal of the Japanese Society for Horticultural Science, Vol. 63, № 2, 439–444. doi:10.2503/jjshs.63.439

Downloads

Published

2016-01-21

How to Cite

Прісс, О. П. (2016). Effect of heat treatment with antioxidants on the content of bioactive compounds during storage of zucchini. Technology Audit and Production Reserves, 1(1(27), 72–76. https://doi.org/10.15587/2312-8372.2016.60339

Issue

Vol. 1 No. 1(27) (2016): Mechanical engineering and machine building. Energy, energy-saving technologies and equipment

Section

Technologies of food, light and chemical industry

License

Copyright (c) 2016 Олеся Петрівна Прісс

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

The consolidation and conditions for the transfer of copyright (identification of authorship) is carried out in the License Agreement. In particular, the authors reserve the right to the authorship of their manuscript and transfer the first publication of this work to the journal under the terms of the Creative Commons CC BY license. At the same time, they have the right to conclude on their own additional agreements concerning the non-exclusive distribution of the work in the form in which it was published by this journal, but provided that the link to the first publication of the article in this journal is preserved.