Hostname: page-component-cd9895bd7-gbm5v Total loading time: 0 Render date: 2024-12-18T17:39:18.043Z Has data issue: false hasContentIssue false
  • English
  • Français

Effects of Aloe vera coatingon postharvest quality of tomato

Published online by Cambridge University Press:  07 March 2014

Mario A. García ,
Marisabel Ventosa ,
Raúl Díaz ,
Silvia Falco  and
Alicia Casariego
Mario A. García*
Affiliation:
Pharm. Food Inst., Univ. Havana, St. 222 No. 2317, Havana, Cuba, ZC 13600. [email protected]
Marisabel Ventosa
Affiliation:
Pharm. Food Inst., Univ. Havana, St. 222 No. 2317, Havana, Cuba, ZC 13600. [email protected]
Raúl Díaz
Affiliation:
Pharm. Food Inst., Univ. Havana, St. 222 No. 2317, Havana, Cuba, ZC 13600. [email protected]
Silvia Falco
Affiliation:
Food Ind. Res. Inst., Carretera al Guatao km 3½, Havana, Cuba, ZC 19200
Alicia Casariego
Affiliation:
Pharm. Food Inst., Univ. Havana, St. 222 No. 2317, Havana, Cuba, ZC 13600. [email protected]
*
* Correspondence and reprints
Get access

Abstract

Introduction. Edible coatings are traditionally used to improve food appearance and preservation. They act as barriers during processing, handling and storage, and do not solely retard food deterioration, enhancing its quality, but are safe due to natural biocide activity, or to the incorporation of antimicrobial compounds. The aim of this work was to evaluate the effect of A. vera, applied as an edible coating, on the changes in physicochemical parameters related to tomato fruit quality during storage in ambient conditions (22 °C and 80% RH), as well as its role in controlling microbial spoilage. Materials and methods. The changes in physical, chemical and textural properties of commercial tomato cv. Charleston were evaluated during a storage period of 17 days in ambient conditions according to their coating (treatments), or not (control), with an aqueous extract of pure A. vera or diluted (2:1) in distilled water. Results. The pure aqueous extract of Aloe vera totally inhibited the growth of Rhizoctonia solani and Alternaria alternata, while it did not show antimicrobial activity against Phytophthora parasitica. The diluted aqueous extract of Aloe vera coating maintained the quality of the tomatoes during storage in ambient conditions, delaying ripening, although it did not constitute an effective barrier against weight loss. Conclusion. Our fundamental results may be useful to breeders and postharvest technologists, as well as distributors, importers and exporters, in handling and processing tomatoes.

Keywords

CubaLycopersicon sculentumfruitskeeping qualityedible filmsAloe veraantimicrobial propertiesCubaLycopersicon sculentumfruitsaptitude à la conservationfilm comestibleAloe verapropriété antimicrobienneCubaLycopersicon sculentumfrutasaptitud para la conservaciónfilm comestibleAloe verapropiedades antimicrobianas
Type
Original article
Information
Fruits , Volume 69 , Issue 2 , March 2014 , pp. 117 - 126
Copyright
© 2014 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

Artés F., Artés-Hernández F., Tratamientos postrecolección del tomate fresco. Tendencias e Innovaciones, in: Namesny A. (Ed.), Tomates. Producción y comercio, Ed. Hortic. S.L. Reus, Spain, 2004.
Kader A.A., Modified atmospheres during transport and storage, in: Kader A.A. (Ed.), Postharvest technology of horticultural crops, Univ. Calif., U.S.A., 2000.
Escriche, A.J., Marín, J.G., Alteraciones de origen patológico en la postrecolección. III. Tomate, Phytoma 65 (1995) 2633.Google Scholar
Díaz, R., Casariego, A., Rodríguez, J., Martínez, A., García, M., Coberturas de quitosana como método de envasado activo en vegetales enteros y cortados, Cienc. Tecnol. Alim. 20 (2010) 3136.Google Scholar
Wilcock, A., Pun, M., Khanona, J., Aung, M., Consumer attitudes, knowledge and behaviour: a review of food safety issues, Trends Food Sci. Technol. 15 (2004) 5666.CrossRefGoogle Scholar
Aguiar, R.P., Miranda, M.R.A., Lima, A.M.P., Mosca, J.L., Moreira, R.A., Eneas, J., Effect of a galactomannan coating on mango postharvest physicochemical quality parameters and physiology, Fruits 66 (2011) 269278.CrossRefGoogle Scholar
García, M., Películas y cubiertas de quitosana en la conservación de vegetales, Cienc. Tecnol. Alim. 18 (2008) 7176.Google Scholar
Cha, D.S., Chinnan, M., Biopolymer-based antimicrobial packaging: a review, Crit. Rev. Food Sci. Nutr. 44 (2004) 223237.CrossRefGoogle ScholarPubMed
Rodríguez, M., Ramos, V., Del Blanco, L., Agulló, E., Preservación de tomates con aplicación de capas de quitosano, Inf. Tecnol. 11 (2000) 2531.Google Scholar
Moore, E.D., MacAnalley, B.H., A drink containing mucilaginous polysaccharides and its preparation, U.S. Patent 5 (1995) 443, 830.Google Scholar
He, Q., Changhong, L., Kojo, E., Tian,, Z., Quality and safety assurance in the processing of Aloe vera gel juice, Food Control 16 (2005) 95104.CrossRefGoogle Scholar
Davis, R.H., DiDonato, J.J., Hartman,, G.M., Haas, R.C., Anti-inflammatory and wound healing activity of a growth substance in Aloe vera, J. Am. Podiat. Med. Assoc. 84 (1994) 7781.CrossRefGoogle ScholarPubMed
Grindlay, D., Reynolds, T., The Aloe vera phenomenon: A review of the properties and modern used of the leaf parenchyma gel, J. Ethnopharmacol. 16 (1986) 117151.CrossRefGoogle ScholarPubMed
Heggers, J.P., Kucukcelebi, A., Listengarten, D., Stabenau, J., Ko, F., Broemeling, L.D., Beneficial effect of Aloe on wound healing in an excisional wound model, J. Altern. Complement. Med. 2 (1996) 271277.CrossRefGoogle Scholar
Reynolds, T., Dweck,, A.C., Aloe vera leaf gel: a review update, J. Ethnopharmacol. 68 (1999) 337.CrossRefGoogle ScholarPubMed
Yao, H., Chen, Y., Li, S., Huang, L., Chen, W., Lin, X., Promotion proliferation effect of a polysaccharide from Aloe barbadensis Miller on human fibroblasts in vitro, Int. J. Biol. Macromol. 45 (2009) 152156.CrossRefGoogle Scholar
Zhang, X.F., Wang, H.M., Song, Y.L., Nie, L.H., Wang, L.F., Liu, B., Shen, P.P., Liu, Y., Isolation, structure elucidation, antioxidative and immunomodulatory properties of two novel dihydrocoumarins from Aloe vera, Bioorg. Med. Chem. Lett. 16 (2006) 949953.CrossRefGoogle Scholar
Yagi, A., Hamada, K., Mihashi, K., Harada, N., Nishioka, I., Structure determination of polysaccharides in Aloe saponaria (Hill) haw (Liliaceae), J. Pharmacol. Sci. 73 (2002) 6265.CrossRefGoogle Scholar
Serrano, M., Valverde, J.M., Guillén, F., Castillo, S., Martinez-Romero, D., Valero, D., Use of Aloe vera gel coating preserves the functional properties of table grapes, J. Agr. Food Chem. 54 (2006) 38823886.CrossRefGoogle Scholar
Martínez-Romero D., Serrano M., Valero D., Castillo S., Aplicación de Aloe vera como recubrimiento sobre frutas y hortalizas, Spain Patent 200302937, 2003.
Martínez-Romero, D., Alburquerque, N., Valverde, J.M., Guillén, F., Castillo,, S., Valero, D., Serrano, M., Postharvest sweet cherry quality and safety maintenance by Aloe vera treatment: a new edible coating, Postharvest Biol. Tecnol. 39 (2006) 93100.CrossRefGoogle Scholar
Ahmed, M.J., Singh, Z., Khan, A.S., Postharvest Aloe vera gel-coating modulates fruit ripening and quality of ‘Arctic Snow’ nectarine kept in ambient and cold storage, Int. J. Food Sci. Technol. 44 (2009) 10241033.CrossRefGoogle Scholar
Anon. Dep. Agric., United states standards for grades of fresh tomatoes, U.S. Dep. Agric. (USDA), Wash., D.C., U.S.A., 1991.
Wills R., McGlasson B., Graham D., Joyce, D., Introducción a la fisiología y manipulación poscosecha de frutas, hortalizas y plantas ornamentales, 2nd ed., Acribia, Zaragoza, Spain, 1998, 240 p.
Anon., Productos de frutas y vegetales. Determinación del pH, NC-ISO 1842, Of. Nac. Normal., La Habana, Cuba, 2001.
Anon., Productos de frutas y vegetales. Determinación de la acidez valorable, NC-ISO 750, Of. Nac. Normal., La Habana, Cuba, 2001.
Anon., Productos de frutas y vegetales. Determinación del contenido de sólidos solubles. Método refractométrico, NC-ISO 2173, Of. Nac. Normal., La Habana, Cuba, 2001.
Hayakawa, M., Deman, J., Interpretation of cone penetrometer consistency measurements of fats, J. Texture Stud. 13 (1982) 201210.CrossRefGoogle Scholar
Anon., Official methods of analysis, 17th ed., in: Horwitz W. (Ed.), Assoc. Off. Anal. Chem. (AOAC), Wash., DC., U.S.A., 2003.
Anon., STATSOFT. Statistics for Windows: release 5.1, Tulsa, U.S.A., 1998.
Jasso de Rodríguez, D., Hernández-Castillo, D., Rodríguez-García, R., Angulo-Sánchez, J.L., Antifungal activity in vitro of Aloe vera pulp and liquid fraction against plant pathogenic fungi, Ind. Crop. Prod. 21 (2005) 8187.CrossRefGoogle Scholar
Ali, M.I.A., Shalaby, N.M.M., Elgamai, M.H.A., Mousa, A.S.M., Antifungal effects of different plant extracts and their major components of selected Aloe species, Phytother. Res. 13 (1999) 401407.3.0.CO;2-K>CrossRefGoogle ScholarPubMed
Ferro, V.A., Bradbury, F., Cameron, P., Shakir, E., Rahman, S.R., Stinson, W.H., In vitro susceptibilities of Shigella flexneri and Streptococcus pyogenes to inner gel of Aloe barbadensis Miller, Antimicrob. Agents Chemother. 47 (2003) 11371139.CrossRefGoogle ScholarPubMed
García M., Empleo de coberturas de quitosana en la conservación de productos hortofrutícolas, Univ. Havana, Thesis, Havana, Cuba, 2009, 80 p.
Gross K.C., Wang C.Y., Saltveit M., The commercial storage of fruits, vegetables, and florist and nursery stocks, in: Agricultural handbook No. 66, USDA, U.S.A., 2003.
Giovannoni, J.J., Genetic regulation of fruit development and ripening, Plant Cell 16 (2004) 170180.CrossRefGoogle ScholarPubMed
Park, H.J., Chinnan, M.S., Shewfelt, R.L., Edible coating effects on storage life and quality of tomatoes, J. Food Sci. 59 (1994) 568570.CrossRefGoogle Scholar
Beckles, D.M., Hong, N., Stamova, L., Luengwilai, K., Biochemical factors contributing to tomato fruit sugar content: a review, Fruits 67 (2012) 4964.CrossRefGoogle Scholar
Santa-Cruz S., Aplicación del ozono en el tratamiento poscosecha de tomate (Lycopersicon esculentum Mill.), Univ. Havana, Thesis, Havana, Cuba, 2007, 62 p.
Ramírez, H., Encina-Rodríguez, L.I., Benavides-Mendoza, A., Robledo-Torres, V., Hernández-Dávila, J., Alonso-Corona, S., Influencia de la temperatura sobre procesos fisiológicos en postcosecha de tomate (Lycopersicon esculentum Mill.), Nueva Época 1 (2004) 3137.Google Scholar
Valverde, J.M., Valero, D., Martinez-Romero, D., Guillén, F., Castillo, S., Serrano, M., Novel edible coating based on Aloe vera gel to maintain table grape quality and safety, J. Agr. Food Chem. 53 (2005) 78077813.CrossRefGoogle Scholar
Pal, R.K., Roy, S.K., Srivastava, S.S., Storage performance of Kinnow mandarins in evaporative cool chamber and ambient conditions, J. Food Sci. Technol. 34 (1997) 200203.Google Scholar
Getinet, H., Seyoum, T., The effect of cultivar, maturity stage and storage environment on quality of tomatoes, J. Food Eng. 87 (2008) 467478.CrossRefGoogle Scholar
Morillon, V., Debeaufort, F., Blond, G., Capelle, M., Voilley, A., Factors affecting the moisture permeability of lipid-based edible films: a review, Crit. Rev. Food Sci. Nutr. 42 (2002) 6789.CrossRefGoogle ScholarPubMed
Pérez-Gago, M.B., Rojas, C., Del Río, M.A., Effect of lipid type and amount of edible hydroxypropyl methylcellulose-lipid composite coatings used to protect postharvest quality of Mandarins cv. Fortune, J. Food Sci. 67 (2002) 29032910.CrossRefGoogle Scholar
Ni, Y., Turner, D., Yates, K.M., Tizard, I., Isolation and characterization of structural components of Aloe vera L. leaf pulp, Int. Immunopharmacol. 4 (2004) 17451755.CrossRefGoogle ScholarPubMed