Post-harvest assessment of tangerina ‘Dekopon’ fruits submitted to ultraviolet radiation C, passive modified atmosphere and benefit

Authors

DOI:

https://doi.org/10.33448/rsd-v9i6.3678

Keywords:

Citrus reticulata 'Shiranui'; UVC; Processing; Packaging; Quality.

Abstract

Tangerines have been gaining more and more market share, sharing space with oranges, showing themselves as a strong economic factor, mainly due to consumer preference for this product. However, studies are needed that can maintain the post-harvest quality of the fruit in an economical and efficient way. Therefore, the objective of this study was to evaluate physically and chemically the fruits of the 'Dekopon' tangerine variety, analyzing the influence of the presence and absence of processing and ultraviolet C (UVC) radiation, combined with three different packages under passive modified atmosphere (control , LDPE and EPS + PVC). The experiment was carried out in a completely randomized design (DIC) and 3 replications, using a 2x2x3x5 factorial scheme, with the presence and absence of beneficiation, application of 0 and 10 minutes of UVC radiation, passive modified atmosphere (control, LDPE, EPS + PVC) and days of analysis (0, 7, 14, 21 and 28 days), respectively. The data originated from the analyzes were submitted to analysis of variance (P <0.05), and when significant, the Scott-Knott means comparison test was performed at 5% probability. It is concluded that the beneficiation did not act in a beneficial way, while the association between ultraviolet light and passive modified atmosphere acted in maintaining the post-harvest attributes at room temperature.

References

Agustí, M. (2000). Citricultura. Madrid: Mundi-Prensa, 416 p.

Gutiérrez, O.A-., Malo, A.L-., Corona, N. R-. & Palou, E. (2017). Enhancement of UVC-light treatment of tangerine and grapefruit juices through ultrasonic atomization. Innovative Food Science and Emerging Technologies, Berlim, 39(1): 7-12.

AOAC - ASSOCIATION OFFICIAL ANALYTICAL CHEMISTS. Official Methods of Analysis of AOAC International. 18. ed. AOAC: Gaithersburg. 2012.

Banda, K., Caleb, O.J., Jacobs, K. & Opara, U.L. (2015). Effect of active-modified atmosphere packaging on the respiration rate and quality of pomegranate arils (cVol. Wonderful). Postharvest Biology and Technology, Amsterdam, 109(1): 97-105.

Belo, A.P.M. (2018). Caracterização sensorial e físico-química de tangerinas produzidas em goiás. 2018. 107 f. Tese (Doutorado em Agronomia)–Escola de Agronomia, Universidade Federal de Goiás, Goiânia.

Bhat, R., Amera, S.B., Voon, H.C., Karim, A.A. & Tze, L.M. (2011). Quality attributes of starfruit (Averrhoa carambola L.) juice treated with ultraviolet radiation. Food Chemistry, Bethesda, 127(1): 641–644.

Boonkorn, P., Gemma, H., Sugaya, S., Setha, S., Uthaibutra, J. & Whangchai, K. (2012). Impact of high-dose, short periods of ozone exposure on green mold and antioxidant enzyme activity of tangerine fruit. Postharvest Biology and Technology, Amsterdam, 67(1): 25-28.

Boonyakiat, D., Seehanam, P. & Rattanapanone, N. (2012). Effect of Fruit Size and Coating Material on Quality of Tangerine Fruit cVol. Sai Nam Phueng. Chiang Mai University Journal of Natural of Sciences, Su Thep, 11(2).

Brito Neto, J.F., Pereira, W.E., Cavalcanti, L.F., Araújo, R.C. & Lacerda, J.S. (2011). Produtividade e qualidade de frutos de mamoeiro ‘sunrise solo’ em função de doses de nitrogênio e boro. Semina: Ciências Agrárias, Londrina, 32(1): 69-80.

Caleb, O.J., Mahajan, P.V., Said, F.A.A-. & Opara, U.L. (2013). Modified atmosphere packaging technology of fresh and fresh-cut produce and the microbial consequences – A review. Food and Bioprocess Technology, Cham, 6(1): 303-329.

Caleb, O.J., Opara, U.L. & Witthuhn, C.R. (2012). Modified atmosphere packaging of pomegranate fruit and arils: a review. Food and Bioprocess Technology, Cham, 5(1): 15-30.

Camargo, R.B., Terao, D., Peixoto, A.R., Ono, E.O., Cavalcanti, L.S. & Costa, R.M.da. (2012). Atmosfera modificada na conservação da qualidade de uva ‘Thompson Seedless’ e na redução da podridão de Aspergillus. Summa phytopathol, Botucatu, 38(3).

Chahal, T.S. & Singh, N. (2017). Studies on fruit growth and development in Daisy tangerine. Indian Journal of Horticulture, Nova Deli, 74(1): 27-32.

Chitarra, M.I. & Chitarra; A.B. (2005). Pós-colheita de frutas e hortaliças: fisiologia e manuseio. 2. ed. Lavras: Revisada e ampliada, 785 p.

Costa, M.G.dosS.da, Salomão, L.C.C., Siqueira, D.L.de, Cecon, P.R., Aquino, D.F., Lins, L.C.R. de & Alves, R.R. (2017). Ethylene degreening treatment of ‘Ponkan’ tangerine in the north of the Minas Gerais State, Brazil. Comunicata Scientiae, Terezina, 8(4): 544-554.

Couto, M.A.L. & Brazaca, S.G.C-. (2010). Quantificação de vitamina C e capacidade antioxidante de variedades cítricas. Ciência e Tecnologia de Alimentos, Campinas, 30(1): 15-19.

Duarte, T.F.; Bron, I.U.; Ribeiro, R.V.; Machado, E.C.; Mazzafera, P. & Shimizu, M.M. (2011). Efeito da carga pendente na qualidade de frutos de laranjeira ‘Valência'. Revista Brasileira de Fruticultura, Jaboticabal, 33(3): 823-829.

Ghidelli, C. & Gago, M.B.P-. (2017). Recent advances in modified atmosphere packaging and edible coatings to maintain quality of fresh-cut fruits and vegetables. Critical Reviews in Food Science and Nutrition, Boca Raton, 58(1): 662-679.

Hagenmaier, R.D. (2002). The flavor of mandarin hybrids with different coatings. Postharvest Biology and Technology, Amsterdam, 24(1): 79-87.

Hovsepyan, O., Farashbandi, F.Z., Askari, G. & Hassanzadeh, A. (2018). A survey on scientific authenticity of health information in Iranian popular magazines: A case study. Journal of Education and Health Promotion, Isfahan, 27(7).

IAL. Instituto Adolfo Lutz. Normas Analíticas do Instituto Adolfo Lutz: Métodos Químicos e Físicos Para Análise de Alimentos. 3 ed. São Paulo: IAL, 2008.

Jin, T.Z., Huang, M., Niemira, B.A., Cheng, L. (2016). Microbial Reduction and Sensory Quality Preservation of Fresh Ginseng Roots Using Nonthermal Processing and Antimicrobial Packaging. Journal of Food Processing and Preservation, Chichester, 41(1).

Kader, A.A. & Yehoshua, S.B-. (2000). Effects of superatmospheric oxygen levels on postharvest physiology and quality of fresh fruits and vegetables. Postharvest Biology and Technology, Amsterdam, 20(1): 1-13.

Kader, A.A. (2002). Modified atmosphere during transport and storage. In: KADER, A.A. Postharvest technology of horticultural crops. Oakland: University of California. 144 p.

Khalid, S., Malik, A.U., Khan, A.S., Khan, M.N., Ullah, M. I., Abbas, T. & Khalid, M. S. (2017). Tree age and fruit size in relation to postharvest respiration and quality changes in “Kinnow” mandarin fruit under ambient storage. Scientia Horticulturae, Viterbo, 220(1): 183–192.

Kays, S.J. (1191). Postharvest physiology of perishable plant products. New York: Van Nostrand Reinhold, 532 p.

Lugo, V.L-., López, S.H-., Díaz, C.B-., Núñez, F.U-. & Bilyeu, B. (2009). A comparative study of natural, formaldehydetreated and copolymer-grafted orange peel for Pb(II) adsorption under batch and continuous mode. Journal Hazard, 161(1): 1255–1264.

Lu, J.Y., Stevens, C., Khan, V.A. & Kabwe, M. (1991). The effect of ultraviolet irradiation on shelf-life and ripening of peaches and apples. Food Quality, Campinas, 44(1): 299-305.

Malgarim, M.B., Cantillano, R.F F., Oliveira, R.P.de & Treptow, R.de. (2008). Qualidade pós-colheita de citros “Nova‟ em diferentes períodos de armazenamento e comercialização. Revista Brasileira de Agrociência, Pelotas, 14(1): 19-23.

Mangaraj, S., Goswami, T.K. & Mahajan, P.V. (2009). Applications of plastic films for modified atmosphere packaging of fruits and vegetables: a review. Food Engineering Reviews, Cham, 1(1): 133–158.

Mccarthy, M.J., Heil, J.R., Kruegermann, C. & Desvignes, D. (1191). Acid Requirement for pH Modification of Processed Foods. Journal of Food Science, 56(4): 1750-3841.

Miguel, A.C.A., Dias, J.R.P.S., Spoto, M.H.F., Benato, R.T.R-. (2007). Qualidade de tomate ‘Débora’ minimamente processado armazenado em dois tipos de embalagens. Horticultura Brasileira, Brasília, 25(4).

Minolta. Precise color communication: color control from feeling to instrumentation. Ransey: Minolta Corporation INstrument Systems Division, 1994.

Mohamed, N.T.S., Ding, P., Ghazali, H.M. & Kadir, J. (2017). Biochemical and cell wall ultrastructural changes in crown tissue of banana (Musa AAA “Berangan”) fruit as mediated by UVC irradiation against crown rot fungal infection. Postharvest Biology and Technology, Amsterdam, 128(1): 144-152.

Obenland, D., Collin, S., Mackey, B., Sievert, J. & Arpaia, M.L. (2011). Storage temperature and time influences sensory quality of mandarins by altering soluble solids, acidity and aroma volatile composition. Postharvest Biology and Technology, Amsterdam, 59(1): 187-193.

Obenland, D., Collin, S., Sievert, J. & Arpaia, M.L. (2013). Mandarin flavor and aroma volatile composition are strongly influenced by holding temperature. Postharvest Biology and Technology, Amsterdam, 82(1): 6-14.

Oliveira, C.A.de, Brunini, M.A. & Nunes, G. S. (2014). Qualidade da tangerina ‘Ponkan’ comercializada na ceagespentreposto de Ribeirão Preto-SP. Nucleus, Ituverava, 11(2).

Oliveira Júnior, E.N., Santos, C.D., Abreu, C.M.P., Corrêa, A.D. & Santos, J.Z.L. (2004). Posharvest changes of “fruta-de-lobo” (Solanum lycocarpum St. Hil.) during the ripening proess: physical-chemical, chemical and enzymatic analysis. Revista Brasileira de Frticultura, Jaboticabal, 26(1): 410-413.

Oliveira, M., Abadias, M., Usall, J., Torres, R., Teixidó, N. & Viñas, I. (2015). Application of Modified Atmosphere Packaging as a safety approach to fresh-cut fruits and vegetables – A review. Trends in Food Science & Technology, Norwich, 46(1): 13-26.

Oliveira, S.B.de. (2015). Tratamento hidrotérmico associado a etanol no controle de salmonella sppp. em manga “Tommy Atkins” pós-colheita. 96 f. Tese (Doutorado em tecnologia de alimentos)–Faculdade de Engenharia de alimentos, Universidade Estadual de Campinas, Botucatu.

Pacheco, C.deA. (2015). Aspectos histológicos, físico-químicos, sensoriais e fitotécnicos da tangerina Fremont. 99 f. Tese (Doutorado agricultura tropical e subtropical)–Instituto Agronômico de Campinas, Campinas.

Pacheco, C.deA., Azevedo, F.A.de; Barros, V.N.P.de; Yaly, M.C. & Bernardi, M. R.V-. (2017). Fremont - IAC 543: tangerine with potential for the brazilian market. Revista Brasileira de Fruticultura, Jaboticabal, 39(especial).

Pech, J.C. (2002). Unravelling the mechanisms of fruit ripening and development of sensory quality thought the manipulation of ethylene biosynthesis in melon. In: Natoadvanced Research Worshopon Biology And Biotechnologyof The Plant Hormone Ethylene, 2002, Murcia. Anais... Murcia.

Porat, R., Weiss, B., Cohen, L., Daus, A. & Biton, A. (2005). Effects of polyethylene wax content and composition on taste, quality, and emission of off-flavor volatiles in ‘Mor’ mandarins. Postharvest Biology and Technology, Amsterdam, 38(1): 262-268.

Ribeiro, C., Canada, J. & Alvarenga, B. (2012). Prospects of UV radiation for application in postharvest technology. Emirates Journal of Food and Agriculture, Abu Dhabi, 24(1): 586-597.

Rodoni, L.M., Hasperué, J.H., Ortiz, C.M., Lemoine, M.L., Concellón, A. & Vicente, A.R. (2016). Combined use of mild heat treatment and refrigeration to extend the postharvest life of organic pepper sticks, as affected by fruit maturity stage. Postharvest Biology and Technology, Amsterdam, 117(1): 168-176.

Graü, M.A.R-., Oliu, G.O-., Fortuny, R.S-., Belloso, O.M-. (2009). The use of packaging techniques to maintain freshness in fresh-cut fruits and vegetables: a review. International Journal of Food Science Technology, Chichester, 44(1): 875-889.

Sanches, A.G., Silva, M B.da; Moreira, E.G.S., Cosme, S.S. & Cordeiro, C.A.M. (2017). Radiação UVC na longevidade pós-colheita de tangerinas sob refrigeração. Revista Agrarian, Dourados, 10(36): 129-135.

Sartori, I.A., Koller, O.C., Schwarz, S.F., Bender, R.J. & Schäfer, G. (2002). Maturação de frutos de seis cultivares de laranjas-doces na depressão central do Rio Grande do Sul. Revista Brasileira de Fruticultura, Jaboticabal, 24(2): 364-369.

Shaarawi, S.M.A. & Nagy, K.S. (2017). Effect of Modified Atmosphere Packaging on Fruit Quality of “Wonderful” Pomegranate under Cold Storage Conditions. Middle East Journal of Agriculture Research, Cairo, 6(2): 495-505.

Sharma, P. & Singh, R.P. (2013). Evaluation of antioxidant activity in foods with special reference to TEAC method. American Journal of Food Technology, Dubai, 8(1): 83‑101.

Silva, A.P.G.da; Silva, S.deM., Schunemann, A.P.P., Dantas, A.L., Dantas, R.L., Silva, J.A.da & Mendonça, R.M.N. (2014). Índices de identidade e qualidade de tangerina ‘Ponkan’ produzida no estado da Paraíba. Revista Agropecuária Técnica, Paraíba, 35(1): 143-149.

Silva, F.S.O., Pereira, E.C., Alves, A.A., Mendonça, V., Santos, E.C.dos & Almeida, J.P.N.de. (2018). Armazenamento e qualidade pós-colheita de frutos de figueira cVol. Roxo de Valinhos no Oeste Potiguar, Revista de Ciências Agrárias, Lisboa, 61(1).

Teixeira, F. & Novello, D. (2020). Aspectos físico-químicos, nutricionais e sensoriais da adição de subprodutos de frutos do gênero Citrus em produtos de gelificação: uma revisão sistemática. Research, Society and Development, 9(3).

Teixeira, P.deT.L., Giacomelli, S.R. & Piton, R. (2017). Caracterização morfológica e físico-químico dos frutos das tangerineiras 'Okitsu', 'Marisol' e do tangoreiro 'Ortanique'. Investigación Agraria, San Lorenzo, 19(1).

Terao, D., Nechet, K.deL., Ponte, M.S., Maia, A.deH.N., Almeida, A.V.D. & Vieira, B.de A.H-. (2017). Physical postharvest treatments combined with antagonistic yeast on the control of orange green mold. Scientia Horticulturae, Viterbo, 224(1): 317-323.

Teruya, T., Teruya, Y., Sugiyama, S. & Woo, J. (2015). Method for manufacturing composition containing nobiletin and tangeretin derived from citrus fruits, and composition containing nobiletin and tangeretin obtained thereby. Patent Application Publication. United States. Pub. No., US 2015/0283196A1.

Tiecher, A. (2010). Efeito da radiação UVC na expressão gênica e nas respostas bioquímico-fisiológicas em frutos de tomate (Solanum lycopersicum Mill.). 70 f. Dissertação (Mestrado em ciências)–Faculdade de Agronomia Eliseu Maciel, Universidade Federal de Pelotas, Pelotas.

Tietel, Z., Fallik, E., Lewinsohn, E. & Porat, R. (2012). Importance of storage temperatures in maintaining flavor and quality of mandarins. Postharvest Biology and Technology, Amsterdam, 64(1): 175-182.

Tietel, Z., Lewinsohn, E., Fallik, E. & Porat, R. (2011). Elucidating the roles of etanol fermentation in causing off-flavors in mandarins. Journal of Agricultural and Food Chemistry, Munique, 59(1): 11779-11785.

Todisco, K. M., Clemente, E. & Rosa, C.I.L.F. (2012). Conservação e qualidade pós-colheita de laranjas “folha murcha” armazenadas em duas temperaturas. Revista em Agronegócios e Meio Ambiente, Maringá, 5(3): 579-591.

Tzortzakis, N. & Chrysargyris, A. (2016). Postharvest ozone application for the preservation of fruits and vegetables. Food Reviews International, United Kingdom, 3(3): 270-315.

Vaclavik, V.A. & Christian, E.W. (2014). Essentials of Food Science. ed. Cham: Food Science Text Series, 495 pp.

Vasconcelos, L.H.C. (2015). Radiação ultravioleta C e embalagens na conservação pós-colheita de cajá-manga. 90 f. Dissertação (Mestrado em engenharia agrícola)– Campus de Ciências Exatas e Tecnológicas, Universidade Estadual de Goiás, Anápolis.

Ummarat, N., Arpaia, M.L. & Obenland, D. (2015). Physiological, biochemical and sensory characterization of the response to waxing and storage of two mandarin varieties differing in postharvest ethanol accumulation. Postharvest Biology and Technology, Amsterdam, 109(1): 82-96.

Zhang, M., Meng, X., Bhandari, B., Fang, Z. & Chen, H. (2015). Recent application of modified atmosphere packaging (MAP) in fresh and fresh-cut foods. Food Reviews International, United Kingdom, 31(1): 172-193.

Published

24/04/2020

How to Cite

VASCONCELOS, L. H. C.; SILVA, F. A. da; COSTA, I. C. da; VASCONCELOS, R. F. Post-harvest assessment of tangerina ‘Dekopon’ fruits submitted to ultraviolet radiation C, passive modified atmosphere and benefit. Research, Society and Development, [S. l.], v. 9, n. 6, p. e200963678, 2020. DOI: 10.33448/rsd-v9i6.3678. Disponível em: https://rsdjournal.org/index.php/rsd/article/view/3678. Acesso em: 22 dec. 2024.

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Education Sciences