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     Advance Journal of Food Science and Technology


Effects of Micro-vacuum Storage on Post-harvest Physiological and Physicochemical Characteristics of Laiyang Pear (Pyrus bretschneideri Reld)

Mingcong Fan, Wenxiang Li, Xingkai Kou, Yanan Sun and Xinlei Hu
Food Science and Engineering College, Qingdao Agricultural University, Qingdao 266109, P.R. China
Advance Journal of Food Science and Technology  2016  10:726-734
http://dx.doi.org/10.19026/ajfst.10.2253  |  © The Author(s) 2016
Received: May ‎1, ‎2015  |  Accepted: May ‎10, ‎2015  |  Published: April 05, 2016

Abstract

The aim of this study was to compare the physiological and physicochemical characteristics of Laiyang pears after 40 days of storage at 3±1°C under both MV and CA storage systems. During the storage period, physiological and physicochemical characteristics of the fruits were evaluated at an interval of 8 days. The results showed that respiratory intensity, ethylene production, relative conductivity and malondialdehyde were decreased in fruits stored under MV storage systems. It could also inhibit the reduction of fruit weight loss, firmness, total soluble solids and titratable acidity. Compared to CA storage systems, MV storage systems have better ability to prolong the shelf life and to maintain the fruit quality of Laiyang pears.

Keywords:

Laiyang pear, micro-vacuum equipment, physiological characteristics, physicochemical characteristics,


References

  1. Cavalcanti, A.L., I.A. Ramos, R.B. Leite, M. da Costa Oliveira, K. de Melo Menezes et al., 2010. Endogenous pH, titratable acidity and total soluble solid content of mouthwashes available in the Brazilian market. Eur. J. Dent., 4(2): 156-159.
  2. Chen, H.J., H.L. Yang, H.Y. Gao, J. Long, F. Tao et al., 2013. Effect of hypobaric storage on quality, antioxidant enzyme and antioxidant capability of the Chinese bayberry fruits. Chem. Cent. J., 7(1): 1-7.
  3. Dhindsa, R.S., D.P. Plumb and T.A. Thorpe, 1981. Leaf senescence correlated with increased levels of membrane permeability and lipid peroxidation and decreased levels of superoxide disniutase and catalase. Exp. Bot. 32: 93-101.
    CrossRef    
  4. Dilley, D.R., 2003. Hypobaric storage of perishable commodities fruits, vegetables, flowers and seedlings. Acta Sci. Pol-Hortoru., 62: 61-70.
  5. Echeverria, E. and J. Valich, 1989. Enzymes of sugars and acid metabolism in stored ‘valencia oranges. J. Am. Soc. Hortic. Sci., 114: 445-449.
  6. Glenn, G.M. and B.W. Poovaiah, 1990. Calcium-mediated postharvest changes in texture and cell wall structure and composition in golden delicious apples. J. Am. Soc. Hortic. Sci., 1: 15-19.
  7. Hallett, I.C., E.A. MacRae and T.F. Wegryzyn, 1992. Changes in kiwi fruit cell wall ultra-structure and cell packing during postharvest ripening. Plant Sci., 153: 49-60.
    CrossRef    
  8. Harker, F.R., R.J. Redgwell, I.C. Hallet, S.H. Murray and G. Carter, 1997. Texture of fresh fruit. Hortic Rev., 20: 212-224.
    CrossRef    
  9. Ju, Z.Q., Y.S. Duan and Z.G. Ju, 2000. Plant oil emulsion modifies internal atmosphere, delays fruit ripening and inhibits internal browning in Chinese pears. Postharvest Biol. Tec., 20: 243-250.
    CrossRef    Direct Link
  10. Kirandeep, K., W.S. Dhillon and B.V.C. Mahajan, 2013. Effect of different packaging materials and storage intervals on physical and biochemical characteristics of pear. J. Food Sci. Tech., 50(1): 147-152.
    CrossRef    
  11. Lange, D.L., 2000. New film technologies for horticultural products. HortTechnology, 10: 487-490.
    Direct Link
  12. Lara, I., R.M. Mio, T. Fuentes, G. Sayez, J. Graell and M.L. López, 2003. Biosynthesis of volatile aroma compounds in pear fruit stored under long-term controlled-atmosphere conditions. Postharvest Biol. Tec., 29(1): 29-39.
    CrossRef    
  13. Li, F.J., X.H. Zhang, B.C. Song, J.Z. Li, Z.L. Shang and J.F. Guan, 2013. Combined effects of 1-MCP and MAP on the fruit quality of pear (Pyrus bretschneideri Reld cv. Laiyang) during cold storage. Sci. Hortic-Amsterdam, 164: 544-551.
    CrossRef    Direct Link
  14. Li, W.X. and M. Zhang, 2006. Effect of three-stage hypobaric storage on cell wall components, texture and cell structure of green asparagus. J. Food Eng., 77: 112-118.
    CrossRef    Direct Link
  15. Li, W.X., M. Zhang and H.Q. Yu, 2006. Study on hypobaric storage of green asparagus. J. Food Eng., 73(3): 225-230.
    CrossRef    Direct Link
  16. Li, W.X., M. Zhang and S.J. Wang, 2008. Effect of three-stage hypobaric storage on membrane lipid peroxidation and activities of defense enzyme in green asparagus. LWT-Food Sci. Technol., 41: 2175-2181.
    Direct Link
  17. Liu, R.L., T.F. Lai, Y. Xu and S.P. Tian, 2013. Changes in physiology and quality of Laiyang pear in long time storage. Sci. Hortic-Amsterdam, 150: 31-36.
    CrossRef    Direct Link
  18. Marangoni, A.G., T. Palma and D.W. Stanley, 1996. Membrane effects in postharvest physiology. Postharvest Biol. Tec., 7: 193-217.
    CrossRef    Direct Link
  19. McMurchie, E.J., W.B. McGlasson and I.L. Eaks, 1972. Treatment of fruit with propylene gives information about the biogenesis of ethylene. Nature, 237: 235-236.
    Direct Link
  20. Mir, N. and R.M. Beaudry, 2004. Modified Atmosphere Packaging. In: Gross, K.C., C.Y. Wang and M. Saltveit, (Eds.), the Commercial Storage of Fruits, Vegetables and Florist and Nursery Stocks. Agriculture Handbook No. 66, USDA, ARS, Washington, D.C.
  21. Paliyath, G. and M.J. Droillard, 1992. The mechanisms of membrane deterioration and disassembly during senescence. Plant Physiol. Bioch., 30: 789-812.
    Direct Link
  22. Pasquariello, M.S., P. Rega, T. Migliozzi, L.R. Capuano, M. Scortichini and M. Petriccione, 2013. Effect of cold storage and shelf life on physiological and quality traits of early ripening pear cultivars. Sci. Hortic-Amsterdam, 162: 341-350.
    Direct Link
  23. Pastori, G.M. and L.A. Del Rio, 1997. Natural senescence of pea leaves: An activated oxygen-mediated function for peroxisomes. Plant Physiol., 113: 411-418.
    CrossRef    PMid:12223615 PMCid:PMC158155    Direct Link
  24. Sommer, N.F., F.G. Mitchell and J.R. Buchanan, 1979. Controlled atmosphere and added carbon-monoxide to slow softening and suppress storage rot and surface mold of Kiwi fruits. Hortscience, 14(3): 461-462.
  25. Thompson, J.E., R.L. Legge and R.F. Barber, 1987. The role of free radicals in senescence and wounding. New Phytol., 105: 317-344.
    CrossRef    
  26. Veltman, R.H., R.M. Kho, A.C.R. van Schaik, M.G. Sanders and J. Oosterhaven, 2000. Ascorbic acid and tissue browning in pears (Pyrus communis L. cvs Rocha and Conference) under controlled atmosphere conditions. Postharvest Biol. Tec., 19(2): 129-137.
    CrossRef    
  27. Wang, S.Q., 2004. Micro-vacuum storage facility. China's Patent: CN 1530290A, 2004-09-22.
  28. Wang, Y. and D. Sugar, 2013. Internal browning disorder and fruit quality in modified atmosphere packaged “Bartlett” pears during storage and transit. Postharvest Biol Tec., 83: 72-82.
    CrossRef    
  29. Wills, R.B.H., F.M. Scriven, H. Greenfield, 1983. Nutrient composition of stone fruit (Prunus spp.) cultivars: Apricot, cherry, nectarine, peach and plum. J. Sci. Food Agr., 34: 1383-1389.
    CrossRef    
  30. Wills, R.B.H., P.A. Cambridge and K.J. Scott, 1980. Use of flesh firmness and other objective tests to determine consumer acceptability of delicious apples. Aust. J. Exp. Agr. Anim. Husb., 20: 252-256.
    CrossRef    
  31. Ye, Z., R. Rodriguez, A.Tran, H. Hoang, D. De los Santos and S. Brown, 2000. The developmental transition to flowering represses ascorbate peroxidase activity and induces enzymatic lipid peroxidation in leaf tissue in Arabidopsis thaliana. Plant Sci., 158: 115-127.
    CrossRef    Direct Link

Competing interests

The authors have no competing interests.

Open Access Policy

This article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made.

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The authors have no competing interests.

ISSN (Online):  2042-4876
ISSN (Print):   2042-4868
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