Hostname: page-component-586b7cd67f-2plfb Total loading time: 0 Render date: 2024-11-26T11:06:57.101Z Has data issue: false hasContentIssue false

Procedure to optimize modified atmosphere packaging for fruit

Published online by Cambridge University Press:  15 January 2003

Patrick Varoquaux
Affiliation:
Institut national de la recherche agronomique, UMR 408 Sécurité et qualité des produits d'origine végétale, Domaine Saint-Paul, Site Agroparc, 84914 Avignon cedex 9, France
Barbara Gouble
Affiliation:
Institut national de la recherche agronomique, UMR 408 Sécurité et qualité des produits d'origine végétale, Domaine Saint-Paul, Site Agroparc, 84914 Avignon cedex 9, France
Marie-Noëlle Ducamp
Affiliation:
Cirad-Flhor, Bld de la Lironde, TA 50 / PS4, 34398 Montpellier Cedex 5, France
Guy Self
Affiliation:
Cirad-Flhor, Bld de la Lironde, TA 50 / PS4, 34398 Montpellier Cedex 5, France
Get access

Abstract

Introduction. The respiration of living plant tissues and the diffusion of gases through the packaging material modify the atmosphere composition in the fresh product package. This modified atmosphere (MA) can be beneficial to the storage of fruit tissues, but, if the permeances of the films are not properly optimized, the MA may be inefficient or even detrimental. To define the optimal permeances (or permeability) for O2, CO2 and water vapor of the packaging film, the respiration rate of plant tissue must be measured as a function of temperature and atmosphere, and the O2 and CO2 concentrations that maximize shelf life must be determined. The best combination of packaging films, type and condition of fresh produce and storage temperature may be computed and verified experimentally. Materials andmethods. The work presents methods for measurement of the respiration rate of plant tissue, then the influence of temperature and the influence of O2 and CO2 contents are studied. This makes it possible to determine the optimal O2 and CO2 concentrations and the optimal gas transmission rates of packaging material. Lastly, experiments regarding the simulation of modified atmospheres are described. Conclusion. The methodology presented in our work provides helpful information to meet the need of optimal fruit and vegetable packaging.

Type
Research Article
Copyright
© CIRAD, EDP Sciences

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Anonymous, Guide de bonnes pratiques hygiéniques concernant les produits végétaux prêts à l'emploi dits de " IVe gamme '', Bull. Off. Rép. Franç. 4 (1988) 221-232.
Ben-Yehoshua, S., Fang, D., Rodov, V., Fishman, S., New developments in modified atmosphere packaging, Plasticulture 106 (1995) 29-37.
Kader, A.A., Biochemical and physiological basis for effects of controlled and modified atmospheres on fruits and vegetables, Food Technol. 40 (1986) 99-104.
Carlin, F., Nguyen The, C., Hilbert, G., Chambroy, Y., Modified atmosphere packaging of fresh "ready-to-use'' grated carrots in polymeric films, J. Food Sci. 4 (1990) 1033-1038. CrossRef
Raghavan G.S.V., Gariepy Y., Orsat V., MA/CA storage of horticultural crops, in: Blanpied G.D., Bartsh J.A., Kline S.J., Hicks J.R. (Eds.), Sixth Int. Controlled Atmos. Res. Conf., Proc., vol. 2, Cornell Univ., lthaca, NY, USA, 1993, pp. 719-726.
Bower, J.H., Jobling, J.J., Patterson, B.D., Ryan, O.J., A method for measuring the respiration rate and respiratory quotient of detached plant tissues, Postharvest Biol. Technol. 13 (1998) 263-270. CrossRef
Chambroy, Y., Physiologie et température des produits frais découpés, Rev. Gén. Froid 3 (1989) 78-81.
Kader, http://postharvest.ucdavis.edu
Peppenlenbos, H.W., Van't Leven, J., Evaluation of four types of inhibition for modeling the influence of carbon dioxide on oxygen consumption of fruits and vegetables, Postharvest Biol. Technol. 7 (1995) 27-40. CrossRef
Kader A.A., Biological bases of O2 and CO2 effects on postharvest life of horticultural perishables, in: Salveit M., Seventh Int. Controlled Atmos. Res. Conf. Proc., Vol. 4, Vegetables and Ornamental, UCD, Davis CA, USA, 1997, pp. 160-163.
Bufler, G., Ethylene-enhanced 1-amino-cyclopropane 1-carboxylic acid synthase activity in ripening apples, Plant Physiol. 75 (1984) 192-195. CrossRef
Dixon, N.M., Kell, D.B., The inhibition by carbon dioxide on the growth and metabolism of microorganisms, J. Appl. Bacteriol. 67 (1989) 109-136. CrossRef
Talasila, P.C., Cameron, A.C., Joles, D.W., Frequency distribution of steady state oxygen partial pressures in modified atmosphere packages of cut broccoli, J. Am. Soc. Hortic. Sci. 119 (1994) 556-562.
Varoquaux, P., Gouble, B., Barron, C., Yildiz, F., Respiratory parameters and sugar catabolism of mushroom (Agaricus bisporus Lange), Postharvest Biol. Technol. 16 (1999) 51-61. CrossRef
Kramer, A., Revised tables for determining significance differences, Food Technol. 17 (1963) 124-125.
Doyon G., Prudhomme J.C., François S., Rémy L., Castaigne F., Estimation rapide des perméabilités au gaz carbonique et à l'oxygène des matériaux plastiques utilisés pour les produits horticoles frais. Calculatrice HP et PC compatible, ind. Alim. Agric. 4 (1996) 229-234.
Exama, A., Abul, J., Lencki, R.W., Lee, L.Z., Toupin, C., Suitability of plastic films for modified atmosphere packaging of fruits and vegetables, J. Food Sci. 6 (1993) 1365-1370. CrossRef
Fishman, S., Rodov, V., Peretz, J., Ben Yehoshua, S., Model for gas exchange dynamics in modified atmosphere package of fruits and vegetables, J. Food Sci. 66 (1995) 1083-1087.
Rogers C.E., Permeability and chemical resistance, in: Krieger R.E (Ed.), Engineering Design for Plastics, Baur E.I., New York, 1975, 682-683.
Gontard, N., Thibault, R., Cuq, B., Guilbert, S., influence of relative humidity and film composition on oxygen and carbon dioxide permeabilities of edible films, Agric. Food. Chem. 44 (1996) 1064-1069. CrossRef
Hertog, M.L.A.T.M., Peppenlenbos, H.W., Evelo, R.G., Tijskens, L.M.M.,. A dynamic and generic model of gas exchange of respiring produce: the effects of oxygen, carbon dioxide and temperature, Postharvest Biol. Technol. 14 (1998) 335-349. CrossRef
Varoquaux, P., Albagnac, C., Nguyen The, C., Varoquaux, F., Modified atmosphere packaging of fresh beansprouts, J. Sci. Food Agric. 70 (1996) 224-230. 3.0.CO;2-0>CrossRef
Peppenlenbos, H.W., Tijskens, L.M.M., Van't Leven, J., Wilkinson, E.C., Modelling oxidative and fermentative carbon dioxide production of fruits and vegetables, Postharvest Biol. Technol. 9 (1996) 283-295. CrossRef
Benkeblia, N., Varoquaux, P., Gouble, B., Selselet-Attou, G., Respiratory parameters of onion bulbs (Allium cepa) during storage. Effect of ionising radiation and temperature, J. Sci. Food Agric. 80 (2000) 1772-1778. 3.0.CO;2-5>CrossRef
Roy, S., Ananthewaran, R.C., Beelman, R.B., Modified atmosphere and modified humidity packaging of fresh mushroom, J. Food Sci. 61 (1996) 391-397.