Abstract
Brazil is the world's largest producer of passion fruit, a perishable fruit with reduced post-harvest shelf life, which limits its commercialization. For sweet passion fruit, Passiflora alata, there is little information about its postharvest conservation and shelf life under different storage conditions. Thus, the objective of the present study was to determine the post-harvest conservation of P. alata fruits packed on styrofoam trays rapped with 10 μm PVC film and HDPE 30 μm thick, coated with 18% carnauba wax and without any packaging; stored under ambient conditions (25 °C and 70% relative humidity) and refrigerated (10 °C and 90% relative humidity) for 14 days. The best results were obtained with P. alata fruits packaged on styrofoam trays rapped with 10 μm PVC flexible film and kept under refrigeration in a cold room at a temperature of 10 °C and relative humidity between 85% and 90% for a period of 10 to 14 days. Fruits of P. alata , for commercialization “in natura”, kept under ambient conditions, should not be packaged and have a shelf life of up to seven days.
Keywords:
sweet passion fruit; temperature; packaging; wax; color
1 Introduction
Brazil is one of the main diversity centers of the genus Passiflora, from where genetic resources of great importance have been obtained, characterized and used in the Brazilian Passiflora Breeding Program ( Cerqueira-Silva et al., 2016 Cerqueira-Silva, C. B. M., Faleiro, F. G., Jesus, O. N., Santos, E. S. L., & Souza, A. P. (2016). The Genetic Diversity, Conservation, and Use of Passion Fruit (Passiflora spp.). In: M. R. Ahuja, & S. M. Jain (Eds.) Genetic Diversity and Erosion in Plants -Case Histories. (Vol. 2, pp. 215-231). Switzerland: Springer International Publishing. http://dx.doi.org/10.1007/978-3-319-25954-3_5.
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). The species P. alata Curtis is native to Brazil, where it finds excellent ecological conditions for its development. Its fruit, rich in minerals and vitamins, is appreciated for the quality of its pulp, pleasant aroma and taste, as well as its pharmacological properties. Sweet passion fruit is consumed “in natura”, due to its tasty and sweet pulp ( Lawinscky et al., 2014 Lawinscky, P. R., Souza, M. M., Belo, G. O., Viana, A. J. C., Melo, C. A. F., & Oliveira, C. S. L. (2014). Morphological characterization and genetic diversity in Passiflora alata Curtis and P. cincinnata Mast. (Passifloraceae). Brazilian Journal of Botany, 37(3), 261-272. http://dx.doi.org/10.1007/s40415-014-0077-y.
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). Thus, the cultivation in Brazil is directed to the high valued fresh fruit market ( Osipi et al., 2011 Osipi, E. A. F., Lima, C. B., & Cossa, C. A. (2011). Influência de métodos de remoção do arilo na qualidade fisiológica de sementes de Passiflora alata Curtis. Revista Brasileira de Fruticultura . Volume Especial, 680-685. ).
There is little information on the quality and post-harvest conservation of P . alata fruits produced and marketed in the Federal District of Brazil ( Junqueira et al., 2003 Junqueira, N. T. V., Anselmo, R. M., Pinto, A. C. Q., Ramos, V. H. V., Pereira, A. V., & Nascimento, A. C. (2003). Severidade da antracnose e perda de matéria fresca de frutos de dez procedências de maracujazeiro-doce (Passiflora alata Dryander) em dois ambientes de armazenamento. Revista Brasileira de Fruticultura, 25(1), 71-73. http://dx.doi.org/10.1590/S0100-29452003000100021.
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). Presently, most of the studies are focused on yellow passion fruit (Passiflora edulis Sims) and, more recently, on Passiflora setacea ( Mota et al., 2003 Mota, W. F., Salomão, L. C. C., Cecon, P. R., & Finger, F. L. (2003). Ceras e embalagem plástica na conservação pós-colheita do maracujá-amarelo. Scientia Agrícola, 60(1), 51-57. http://dx.doi.org/10.1590/S0103-90162003000100008.
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; Mota et al., 2006 Mota, W. F., Salomão, L. C. C., Neres, C. R. L., Mizobutsi, G. P., & Neves, L. L. M. (2006). Uso de cera de carnaúba e saco plástico poliolefínico na conservação pós-colheita do maracujá-amarelo. Revista Brasileira de Fruticultura , 28(2), 190-193. http://dx.doi.org/10.1590/S0100-29452006000200008.
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; Rinaldi et al., 2017a Rinaldi, M. M., Dianese, A. C., Costa, A. M., Sussel, A. A. B., Faleiro, F. G., & Junqueira, N. T. V. (2017a). Effect of different packaging materials on the shelf life of passion fruits during ambient and low temperature storage. Journal of Postharvest Technology , 05(1), 7-16. ). Thus, more detailed studies on the post-harvest conservation of P. alata fruits are needed, in order to provide information that can help producers in the best strategy for commercialization and increase of its shelf life.
Several post-harvest studies aiming at defining the best storage temperature for Passiflora spp. fruits have been carried out, where the temperature varied between 6.5 °C and 12 °C and relative humidity between 85 and 90% ( Arjona et al., 1992 Arjona, H. E., Matta, F. B., & Garner, J. O. Jr (1992). Temperature and storage time affect quality of yellow passion fruit. HortScience, 27(7), 809-810. ; Silva et al., 1999 Silva, A. P., Lacerda, S. A., & Vieites, R. L. (1999). Conservação pós-colheita do maracujá doce com ceras comerciais. Boletim do Centro de Pesquisa de Processamento de Alimentos (B.CEPPA), 17(2), 103-114. ; Zapata, 1987 Zapata, L. E. M. (1987). El manejo precosecha, cosecha y postcosecha de maracuyá para la exportación. Tecnologia, 27(166), 7-33. ; Rinaldi et al., 2017b Rinaldi, M. M., Costa, A. M., Faleiro, F. G., & Junqueira, N. T. V. (2017b). Conservação pós-colheita de frutos de Passiflora setacea DC. submetidos a diferentes sanitizantes e temperaturas de armazenamento. Brazilian Journal of Food Technology, 20(0), e2016046. http://dx.doi.org/10.1590/1981-6723.4616.
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). Arjona et al. (1992) Arjona, H. E., Matta, F. B., & Garner, J. O. Jr (1992). Temperature and storage time affect quality of yellow passion fruit. HortScience, 27(7), 809-810. , reported a 30-day shelf life for yellow passion fruit (Passiflora edulis ) stored at 10 °C and 85% relative humidity. For Passiflora alata fruits, the temperature of 10 °C and 90% relative humidity were recommended during storage ( Rinaldi et al., 2017c Rinaldi, M. M., Costa, A. M., Dianese, A. C., & Sussel, A. A. B. (2017c). Recomendações de Manuseio e Conservação Pós-Colheita de Frutos de Passiflora setacea e Passiflora alata (Comunicado Técnico). Planaltina: Embrapa Cerrados. Retrieved from http://ainfo.cnptia.embrapa.br/digital/bitstream/item/164293/1/Comtec-179.pdf.
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). At post-harvest, physical and chemical changes in fruits can be reduced by the use of plastic packaging with passive or active modification of the internal atmosphere ( Arruda et al., 2011b) Arruda, M. C., Jacomino, A. P., Trevisan, M. J., Jeronimo, E. M., & Moretti, C. L. (2011b). Atmosfera modificada em laranja ‘Pera’ minimamente processada. Bragantia, 70(3), 664-671. http://dx.doi.org/10.1590/S0006-87052011000300023.
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. PVC film is practical and inexpensive, and has been widely used in the storage of fruits and vegetables, especially when associated with a refrigerated environment ( Cia et al., 2010 Cia, P., Benato, E. A., Valentini, S. R. T., Sanches, J., Ponzo, F. S., Flôres, D., & Terra, M. M. (2010). Atmosfera modificada e refrigeração para conservação pós-colheita de uva ‘Niágara Rosada’. Pesquisa Agropecuária Brasileira, 45(10), 1058-1065. http://dx.doi.org/10.1590/S0100-204X2010001000002.
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).
Carnauba wax, made from the fruit of a Brazilian palm, has been used as a coating on fruits and vegetables, conferring brightness and avoiding losses through transpiration. It is atoxic and can be consumed on unpeeled fruits, also, is easily removed with water ( Hagenmaier & Baker, 1994 Hagenmaier, R. D., & Baker, R. A. (1994). Wax microemulsions and emulsions as citrus coating. Journal of Agricultural and Food Chemistry, 42(4), 899-902. http://dx.doi.org/10.1021/jf00040a012.
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). In different reports, Mota et al. (2003) Mota, W. F., Salomão, L. C. C., Cecon, P. R., & Finger, F. L. (2003). Ceras e embalagem plástica na conservação pós-colheita do maracujá-amarelo. Scientia Agrícola, 60(1), 51-57. http://dx.doi.org/10.1590/S0103-90162003000100008.
http://dx.doi.org/10.1590/S0103-9016200...
and Mota et al. (2006) Mota, W. F., Salomão, L. C. C., Neres, C. R. L., Mizobutsi, G. P., & Neves, L. L. M. (2006). Uso de cera de carnaúba e saco plástico poliolefínico na conservação pós-colheita do maracujá-amarelo. Revista Brasileira de Fruticultura , 28(2), 190-193. http://dx.doi.org/10.1590/S0100-29452006000200008.
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showed that the use of carnauba wax significantly reduced the loss of fresh mass and wilting in passion fruit (Passiflora edulis) stored at room temperature and relative humidity. Blum et al. (2008) Blum, J., Hoffmann, F. B., Ayub, R. A., Jung, D. L., & Malgarim, M. B. (2008). Uso de cera na conservação pós-colheita do caqui cv. Giombo. Revista Brasileira de Fruticultura, 30(3), 830-833. http://dx.doi.org/10.1590/S0100-29452008000300046.
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reported that immersion of persimmon fruits (Diospyrus kaki) in a solution with 12.5% carnauba wax was efficient in maintaining ascorbic acid levels and tissue firmness, allowing storage for up to 49 days. Silva et al. (1999) Silva, A. P., Lacerda, S. A., & Vieites, R. L. (1999). Conservação pós-colheita do maracujá doce com ceras comerciais. Boletim do Centro de Pesquisa de Processamento de Alimentos (B.CEPPA), 17(2), 103-114. found that fruits of P. alata immersed in carnauba wax, and maintained at a temperature of 9 °C and relative humidity between 85% and 90%, also had lower loss of fresh mass and less wilting when compared to the untreated control. Junqueira et al. (2003) Junqueira, N. T. V., Anselmo, R. M., Pinto, A. C. Q., Ramos, V. H. V., Pereira, A. V., & Nascimento, A. C. (2003). Severidade da antracnose e perda de matéria fresca de frutos de dez procedências de maracujazeiro-doce (Passiflora alata Dryander) em dois ambientes de armazenamento. Revista Brasileira de Fruticultura, 25(1), 71-73. http://dx.doi.org/10.1590/S0100-29452003000100021.
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, reported that fruits of P. alata stored in refrigerated environment (5 °C and 90% RH) had lower fresh mass loss and lower incidence of anthracnose, the most common post-harvest fungal disease on P. alata , when compared to fruits kept at room temperature (23 °C and 65% RH). However, no precise recommendation was made regarding storage duration, nor a comparison using different packaging materials, such as PVC plastic, was evaluated.
The objective of this study was to determine the post-harvest conservation of P . alata fruits using different packaging materials, such as PVC, HDPE and carnauba wax, and storage conditions (ambient and refrigerated) for 14 days.
2 Material and methods
Passiflora alata fruits (Cultivar BRS Mel do Cerrado) used on the experiments came from the experimental fields of Embrapa Cerrados (Planaltina, DF, Brazil). The fruits were harvested with 20% of their surface colored yellow. Harvesting was done manually in the early hours of the day in order to avoid field heat. The fruits were washed in running water with subsequent drying on paper towels. According to Rinaldi et al. (2017c) Rinaldi, M. M., Costa, A. M., Dianese, A. C., & Sussel, A. A. B. (2017c). Recomendações de Manuseio e Conservação Pós-Colheita de Frutos de Passiflora setacea e Passiflora alata (Comunicado Técnico). Planaltina: Embrapa Cerrados. Retrieved from http://ainfo.cnptia.embrapa.br/digital/bitstream/item/164293/1/Comtec-179.pdf.
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the sanitization of P. alata fruits is not recommended, as the use of sanitizers increases water loss, and fungal and bacterial infestation, reducing their shelf life. Afterwards, the fruits were submitted to the following treatments: (i) Manual coating with 18% carnauba wax, provided by Aruá - a postharvest technology company (São Paulo - SP); (ii) Packaging in 18cm x 23cm trays of expanded polystyrene (styrofoam), and rapped with 10 μm thick PVC film; (iii) Packaging in 19cm x 29cm plastic containers of high density polyethylene (HDPE) with a 30 μm thickness, and: (iv) Fruits washed in running water with subsequent drying on paper towels (control).
All treatments were stored in cold rooms at 10 °C and 90% relative humidity and at 25 °C with 70% relative humidity, in order to simulate the ambient condition. The storage period was 14 days.
At the beginning of storage (day zero) and at seven and 14 days, pH, titratable acidity, soluble solids and Ratio analyses were performed according to Carvalho et al. (1990) Carvalho, C. R. L., Mantovani, D. M. B., Carvalho, P. R. N., & Moraes, R. M. M. (1990). Análises químicas de alimentos (p. 121). Campinas: ITAL. . Color (L⃰, a⃰, b⃰) was determined by HunterLab brand MiniScan® EZ spectrophotometer, with five readings per fruit. The value of L⃰ defines the luminosity (L⃰ = 0 black and L⃰ = 100 white) and a⃰ and b⃰ are responsible for chromaticity (+ a⃰ red and - a⃰ green), b⃰ (+ b⃰ yellow and -b⃰ blue). Using the module L⃰, a⃰ and b* we are able to calculate the increase in fruit surface darkening (browning) ([(L⃰- L⃰0)2 + (a* - a*0)2 + (b* - b*0)2]1/2) and hue angle (color angle, 0º red, 90º yellow, 180º green, 270º blue and 360º black). The hue angle was calculated using the formula: [tangent arc (b*/a*)] for the a* positive and [tangent arc (b*/a*) (-1) + 90] for the a* negative, as recommended by HunterLab (2008) HunterLab. (2008). Insight on color: CIE L* a* b* color scale. Reston: HunterLab. . For the analysis of texture it was used the Brookfield texture Analyzer, model CT3 4500. The analysis consisted of the perforation resistance test (normal test), with the standards for Trigger (strength) set at 10 g. Deformation set at 10 mm and Speed set at 10 mm/s, using the TA 17 tip with a 30 mm D cone, 45°. The results were presented in Newton (N). Fresh weight loss was also assessed by calculating the difference in weight between the initial fruit mass and the mass at the moment of the evaluation. Also, O2 and CO2 concentration was measured inside the packages using CheckPoint II equipment developed by PBI-Dansensor America Inc. Gas concentration measurements were performed directly inside the packages by introducing the equipment´s needle through a silicone septum adapted to the packages containing the fruits ( Rinaldi et al., 2009 Rinaldi, M. M., Benedetti, B. C., Sarantópoulos, C. I. G., & Moretti, C. L. (2009). Estabilidade de repolho minimamente processado sob diferentes sistemas de embalagem. Food Science and Technology, 29(2), 310-315. http://dx.doi.org/10.1590/S0101-20612009000200012.
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).
The experimental design was completely randomized, in a 4 x 3 x 2 factorial scheme, with four types of packages (no packaging, PVC 10μm, 30 μm HDPE, 18% wax), three periods of analysis (zero, seven and 14 days) and two storage conditions (ambient condition and 10 °C). Three replicates were used for each treatment, and each replicate consisted of three fruits of P. alata. We were only able to fit three fruits per package due to their size. P. alata fruits presented the following characteristics: average weight of 192.54 g, height of 96.20 mm and diameter of 71.36 mm. In general, the weight of P. alata fruits varied from 120 to 300 grams. The amount of fruits and pulp volume used for the analyzes were statistically significant. For the color analysis, three fruits were used per treatment and five readings per fruit were performed on each test date, always in the same batch of fruits from the beginning to the end of storage. The data were submitted to analysis of variance using the F test and the means compared using Tukey´s test at 5% probability of error. All statistical analyzes were performed using the software Assistat version 7.7 ( Silva, 2015 Silva, F. A. S. (2015). ASSISTAT. Universidade Federal de Campina Grande. INPI 0004051-2. Versão 7.7 Beta (pt). Campina Grande: Assistat. Retrieved from http://www.assistat.com
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).
In the phytosanitary evaluation, the fruits were separated and packed, following the same design, the same treatments and storage conditions already mentioned. Evaluations of fungal incidence occurred on the first day of storage at seven and 14 days after the start of the experiment. At the end, the average incidence of fungi per replicate/per treatment/per evaluation was calculated. Statistical analysis was performed using the Tukey test (p <0.05) with the aid of the software Assistat version 7.7 ( Silva, 2015 Silva, F. A. S. (2015). ASSISTAT. Universidade Federal de Campina Grande. INPI 0004051-2. Versão 7.7 Beta (pt). Campina Grande: Assistat. Retrieved from http://www.assistat.com
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).
3 Results and discussion
The storage conditions and the use of packaging and wax provided significant changes in the physiological variables, which directly influenced the post-harvest shelf life of P. alata fruits. The same occurred in the reports of Junqueira et al. (2003) Junqueira, N. T. V., Anselmo, R. M., Pinto, A. C. Q., Ramos, V. H. V., Pereira, A. V., & Nascimento, A. C. (2003). Severidade da antracnose e perda de matéria fresca de frutos de dez procedências de maracujazeiro-doce (Passiflora alata Dryander) em dois ambientes de armazenamento. Revista Brasileira de Fruticultura, 25(1), 71-73. http://dx.doi.org/10.1590/S0100-29452003000100021.
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and Silva et al. (1999) Silva, A. P., Lacerda, S. A., & Vieites, R. L. (1999). Conservação pós-colheita do maracujá doce com ceras comerciais. Boletim do Centro de Pesquisa de Processamento de Alimentos (B.CEPPA), 17(2), 103-114. .
The values of pH, which ranged from 3.34 to 4.17, increased in all treatments under ambient condition after 14 days of storage. The carnauba wax treatment finished the experiment with a pH of 4.17. The other treatments, in spite of the significant increase in pH, remained below 3.9, which follows the Identity and Quality Standards (PIQ) for passion fruit pulp (Passiflora spp.) of the Ministry of Agriculture ( Brasil, 2000 Brasil. Ministério da Agricultura e do Abastecimento. (2000, Janeiro 10). Anexo VII – Regulamento técnico para fixação dos padrões de identidade e qualidade para polpa de maracuja (Instrução Normativa nº 01, de 7 de janeiro de 2000). Diário Oficial [da] República Federativa do Brasil. ) ( Table 1 ).
Evaluation of the pH, titratable acidity and soluble solids in P. alata fruit during storage under two different environmental conditions.
The increase in pH values during the storage of vegetable products is related to the reduction in the acidity levels, which normally occurs, since the acids present in the fruit can be used in the metabolic processes taking place after harvest ( Rinaldi et al., 2017a Rinaldi, M. M., Dianese, A. C., Costa, A. M., Sussel, A. A. B., Faleiro, F. G., & Junqueira, N. T. V. (2017a). Effect of different packaging materials on the shelf life of passion fruits during ambient and low temperature storage. Journal of Postharvest Technology , 05(1), 7-16. ).
In fruits kept under refrigeration at 10 °C, there was no significant variation in pH over the 14 days, regardless of the treatment, and values remained between 3.34 and 3.59, therefore within the standards indicated by the PIQ (Passiflora spp.) ( Brasil, 2000 Brasil. Ministério da Agricultura e do Abastecimento. (2000, Janeiro 10). Anexo VII – Regulamento técnico para fixação dos padrões de identidade e qualidade para polpa de maracuja (Instrução Normativa nº 01, de 7 de janeiro de 2000). Diário Oficial [da] República Federativa do Brasil. ) ( Table 1 ). Silva et al. (1999) Silva, A. P., Lacerda, S. A., & Vieites, R. L. (1999). Conservação pós-colheita do maracujá doce com ceras comerciais. Boletim do Centro de Pesquisa de Processamento de Alimentos (B.CEPPA), 17(2), 103-114. , also reported similar results after 14 days of refrigerated storage. The results of both experiments demonstrate the efficiency of this type of storage in maintaining the pH of P . alata fruits.
The titratable acidity values were between 1.03 and 1.78 g of anhydrous citric acid/100 mL ( Table 1 ), showing no significant variation between the treatments maintained at the same temperature. The fruits stored at 10 °C showed the highest titratable acidity levels, which was already expected and could be explained by the greater conservation of the initial characteristics of the fruits when kept under refrigeration. Rinaldi et al. (2017b) Rinaldi, M. M., Costa, A. M., Faleiro, F. G., & Junqueira, N. T. V. (2017b). Conservação pós-colheita de frutos de Passiflora setacea DC. submetidos a diferentes sanitizantes e temperaturas de armazenamento. Brazilian Journal of Food Technology, 20(0), e2016046. http://dx.doi.org/10.1590/1981-6723.4616.
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also observed higher values of acidity in P. setacea fruits kept under refrigeration when compared to those maintained under ambient conditions. Acidity reduction is higher in fruits kept at higher temperatures due to higher metabolic activity ( Arruda et al., 2011a Arruda, M. C., Fischer, I. H., Jeronimo, E. M., Zanette, M. M., & Silva, B. L. (2011a). Efeito de produtos químicos e temperaturas de armazenamento na pós-colheita de maracujá-amarelo. Semina: Ciências Agrárias , 32(1), 201-208. http://dx.doi.org/10.5433/1679-0359.2011v32n1p201.
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).
The loss of organic acids occurs with the metabolic processes of fruit maturation and senescence, as a result of its use as a substrate in the respiratory process or due to the conversion of organic acids to sugars ( Moreno et al., 2016 Moreno, M. B., Cantillano, R. F. F., Rombaldi, C. V., & Manica-Berto, R. (2016). Quality of minimally processed ‘fuji’ apple under refrigerated storage and treatment with additives. Revista Brasileira de Fruticultura, 38(4), e-532. http://dx.doi.org/10.1590/0100-29452016532.
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). Although not statistically significant, oscillation occurred in titratable acidity values in fruits kept under refrigeration, which may be related to the intrinsic characteristics of the sample and to other factors still unknown for this species. Alves et al. (2012) Alves, R. R., Salomão, L. C. C., Siqueira, D. L., Cecon, P. R., & Silva, D. F. P. (2012). Relações entre características físicas e químicas de frutos de maracujazeiro-doce cultivado em Viçosa-MG. Revista Brasileira de Fruticultura, 34(2), 619-623. http://dx.doi.org/10.1590/S0100-29452012000200038.
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also observed variation (0.55% to 1.82% citric acid) in sweet passion fruit fruits produced in Viçosa - MG.
Yellow passion fruit (P. edulis) usually has high acidity levels, due to the fact that its fruits are rich in organic acids. Of the non-volatile acids present in yellow passion fruit juice, citric acid is predominant (83%), followed by malic (16%), lactic, malonic, succinic and ascorbic acid ( Freitas, 2007 Freitas, V. M. (2007). Estudos das Alterações do Suco de Maracujá Integral em Embalagem do Tipo Pet e Vidro (Dissertação de mestrado). Universidade Federal do Ceará, Brasil, Fortaleza. ). The chemical composition of passion fruit may vary due to a number of factors, including species, harvest time, fruit size, maturation stage, development stage, soil fertility, post-harvest handling and others ( Garcia, 1980 Garcia, J. L. M. (1980). Maracujá: da cultura ao processamento e comercialização (Série FrutasTropicais, 9). Campinas: Instituto de Tecnologia de Alimentos. ). In P. alata fruits, the minimum acidity limit (2.5 g 100 g-1) allowed by Brazilian legislation for passion fruit juices, generally, was not observed, which was already expected since this species presents fruits with less acidity and more sugar content in their composition ( Vasconcellos et al., 2001 Vasconcellos, M. A., Brandão, J. U. T. Fo, & Vieites, R. L. (2001). Maracujá-doce. In: C. H. Brukner & M. C. Picanço (Eds.). Maracujá: tecnologia de produção, pós-colheita, agroindústria, mercado (pp. 387-408). Porto Alegre: Cinco Continentes. ; Brasil, 2000 Brasil. Ministério da Agricultura e do Abastecimento. (2000, Janeiro 10). Anexo VII – Regulamento técnico para fixação dos padrões de identidade e qualidade para polpa de maracuja (Instrução Normativa nº 01, de 7 de janeiro de 2000). Diário Oficial [da] República Federativa do Brasil. ).
The values of soluble solids ranged from 18.57 ºBrix to 13.27 ºBrix, and the fruits stored at 10 °C did not present significant variation, unlike the 30 μm HDPE and 18% carnauba wax treatments kept at room temperature, which presented soluble solid values statistically lower than the other treatments after 14 days of storage ( Table 1 ). Rinaldi et al. (2017b) Rinaldi, M. M., Costa, A. M., Faleiro, F. G., & Junqueira, N. T. V. (2017b). Conservação pós-colheita de frutos de Passiflora setacea DC. submetidos a diferentes sanitizantes e temperaturas de armazenamento. Brazilian Journal of Food Technology, 20(0), e2016046. http://dx.doi.org/10.1590/1981-6723.4616.
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, reported a significant decrease in soluble solids contents in setacea passion fruit during storage, both refrigerated and at room temperature. However, Arruda et al. (2011a) Arruda, M. C., Fischer, I. H., Jeronimo, E. M., Zanette, M. M., & Silva, B. L. (2011a). Efeito de produtos químicos e temperaturas de armazenamento na pós-colheita de maracujá-amarelo. Semina: Ciências Agrárias , 32(1), 201-208. http://dx.doi.org/10.5433/1679-0359.2011v32n1p201.
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found that the soluble solids content of yellow passion fruit (P. edulis) fruits was not influenced by the time and type of storage, remaining stable throughout the experiment. However, Silva et al. (1999) Silva, A. P., Lacerda, S. A., & Vieites, R. L. (1999). Conservação pós-colheita do maracujá doce com ceras comerciais. Boletim do Centro de Pesquisa de Processamento de Alimentos (B.CEPPA), 17(2), 103-114. reported that soluble solid contents in fruits of P. alata kept at 9 oC increased during the storage period, contrary to what occurred in the present report. Thus, it is possible to observe a great variation of results according to the species studied. Nevertheless, in the present study, the values of all treatments are, generally, above the minimum level required by the Ministry of Agriculture (11 °Brix) for fresh passion fruit juice ( Brasil, 2000 Brasil. Ministério da Agricultura e do Abastecimento. (2000, Janeiro 10). Anexo VII – Regulamento técnico para fixação dos padrões de identidade e qualidade para polpa de maracuja (Instrução Normativa nº 01, de 7 de janeiro de 2000). Diário Oficial [da] República Federativa do Brasil. ). The food industry uses soluble solids content as an indicator of fruit quality, with preference for fruits with contents above 13 °Brix ( Bruckner et al., 2002 Bruckner, C. H., Meletti, L. M. M., Otoni, W. C., & Zerbini, F. M. Jr (2002). Maracujazeiro. In C. H. Bruckner (Ed.). Melhoramento de fruteiras tropicais (pp. 373-410). Viçosa: UFV. ). Therefore, all treatments here applied maintained the required standard at the end of the 14 days of storage.
The ratio SS/AT (Ratio) is an organoleptic evaluation, which represents the balance between these two variables and has a direct correlation to flavor and aroma. Generally, fruits with higher Ratio values present mild taste and better sensorial acceptance, being preferred by consumers ( Barankevicz et al., 2015 Barankevicz, G. B., Novello, D., Resende, J. T. V., Schwarz, K., & Santos, E. F. (2015). Características físicas e químicas da polpa de híbridos de tomateiro, durante o armazenamento congelado. Horticultura Brasileira , 33(1), 7-11. http://dx.doi.org/10.1590/S0102-053620150000100002.
http://dx.doi.org/10.1590/S0102-0536201...
). The Ratio values for the present trial remained between 9.69 and 14.35, when stored at room temperature at 25 °C, and between 9.78 and 11.98, under refrigeration at 10 °C ( Table 2 ). The lowest Ratio value was at 14 days in the 30μm HDPE treatment, and the highest value was in the 18% carnauba wax treatment also at 14 days of storage, both at room temperature. Rinaldi et al. (2017b) Rinaldi, M. M., Costa, A. M., Faleiro, F. G., & Junqueira, N. T. V. (2017b). Conservação pós-colheita de frutos de Passiflora setacea DC. submetidos a diferentes sanitizantes e temperaturas de armazenamento. Brazilian Journal of Food Technology, 20(0), e2016046. http://dx.doi.org/10.1590/1981-6723.4616.
http://dx.doi.org/10.1590/1981-6723.461...
reported a significant Ratio increase at the end of the storage period, at, both, room temperature and under refrigeration. In the present study, the only significant variation occurred in the fruits packed in 30μm HDPE maintained under ambient conditions ( Table 2 ). Typicaly, the higher the Ratio, the more palatable will be the juice or the fruit pulp, since the soluble solids content is high and the acidity is low ( Cavalcante et al., 2016 Cavalcante, N. R., Krause, W., Carvalho, J. F., Rocha, M. K. P., Palú, E. G., & Silva, C. A. (2016). Productivity, fruit physicochemical qualityand distinctiveness of passion fruit populations. Revista Brasileira de Fruticultura, 38(4), e-142. http://dx.doi.org/10.1590/0100-29452016142.
http://dx.doi.org/10.1590/0100-29452016...
).
Evaluation of the Ratio, fresh weight loss and texture in P. alata fruit during storage under two different environmental conditions.
A vegetable product fresh weight loss (FWL) is directly related to its storage condition. Fruits stored at 10 °C and 90% relative humidity had less than 10% weight loss in all treatments, especially the fruit packed in 30 μm HDPE and 10 μm PVC, which had a significantly better performance than the untreated control and the 18% carnauba wax treatment ( Table 2 ). At 25 °C and 70% relative humidity the FWL at 14 days of storage was above 30% in the untreated control and in the 18% carnauba wax tratment ( Table 2 ). In the treatments with 30 μm HDPE and 10 μm PVC, the percentage after 14 days was lower than 10%, that is, similar to the same treatments under refrigeration ( Table 2 ). The use of plastic films and refrigeration significantly decrease FWL, as both reduce the respiration rate and minimize water loss ( Fonseca et al., 2000 Fonseca, S. C., Oliveira, F. A. R., Lino, I. B. M., Brecht, J., & Chau, K. V. (2000). Modelling O2 and CO2 exchange for development of perforation-mediated modified atmosphere packaging. Journal of Food Engineering, 43(1), 9-15. http://dx.doi.org/10.1016/S0260-8774(99)00122-3.
http://dx.doi.org/10.1016/S0260-8774(99...
; Chitarra & Chitarra, 2005 Chitarra, M. I. F., & Chitarra, A. B. (2005). Pós-colheita de frutas e hortaliças: fisiologia e manuseio (2. ed.). Lavras: UFLA. ). Diminishing weight loss and fruit wrinkling is of fundamental importance, since fresh passion fruit acceptance in the market is based on weight and appearance ( Rotili et al., 2013a Rotili, M. C. C., Coutro, S., Celant, V. M., Vorpagel, J. A., Barp, F. K., Salibe, A. B., & Braga, G. C. (2013a). Composição, atividade antioxidante e qualidade do maracujá-amarelo durante armazenamento. Semina: Ciências Agrárias , 34(1), 227-240. http://dx.doi.org/10.5433/1679-0359.2013v34n1p227.
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).
Texture influences post-harvest fruit handling, because it is directly related to firmness, resistance and integrity of the fruit tissues ( Cenci, 2006 Cenci, S. A. (2006). Boas práticas de pós-colheita de frutas e hortaliças na agricultura familiar. In F. Nascimento No (Ed.). Recomendações básicas para a aplicação das boas práticas agropecuárias e de fabricação na agricultura familiar (p. 67-80). Brasília: Embrapa Informação Tecnológica. ). Firmness is reduced during maturation, which is attributed to changes in the pectin molecules ( Canteri et al., 2012 Canteri, M. H. G., Moreno, L., Wosiacki, G., & Scheer, A. P. (2012). Pectina: da matéria-prima ao produto final. Polímeros, 22(2), 149-157. http://dx.doi.org/10.1590/S0104-14282012005000024.
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), catalyzed by the enzymes pectinmethylesterase and polygalacturonase ( Pinheiro, 2008 Pinheiro, D. M. (2008). Introdução. In M. G. B. Koblitz (Org.). Bioquímica de Alimentos: teoria e aplicações práticas. Rio de Janeiro: Guanabara Koogan. ). In the present work, the fruit kept under ambient conditions had a significant reduction in texture after seven days of storage, and the 10 μm PVC treatment was the only one lacking significant loss between the seventh and fourteenth day of storage ( Table 2 ). Also, the 10 μm PVC treatment was the only one in refrigerated storage that maintained statistically uniform texture values in the first seven days ( Table 2 ). Although, the refrigerated environment was not effective in maintaining fruit resistance after 14 days of storage, since there was a statistically significant reduction of texture in all treatments ( Table 2 ). This result agrees with Silva et al. (1999) Silva, A. P., Lacerda, S. A., & Vieites, R. L. (1999). Conservação pós-colheita do maracujá doce com ceras comerciais. Boletim do Centro de Pesquisa de Processamento de Alimentos (B.CEPPA), 17(2), 103-114. , who also showed significant texture loss in the refrigerated storage of P . alata fruits.
Color determination is a crucial quality trait in food and a main parameter to stimulate purchase, especially if the products are packaged ( Aday et al., 2013 Aday, M. S., Buyukcan, M. B., & Caner, C. (2013). Maintaining the quality of strawberries by combined effect of aqueous chlorine dioxide with modified atmosphere packaging. Journal of Food Processing and Preservation, 37(5), 568-581. http://dx.doi.org/10.1111/j.1745-4549.2012.00697.x.
http://dx.doi.org/10.1111/j.1745-4549.2...
). The increase on tissue browning ( Table 3 ) is directly linked to the luminosity index. Both variables are concomitant, that is, the lower the luminosity index, the higher are the levels of tissue browning on the fruit ( Rinaldi et al., 2017a Rinaldi, M. M., Dianese, A. C., Costa, A. M., Sussel, A. A. B., Faleiro, F. G., & Junqueira, N. T. V. (2017a). Effect of different packaging materials on the shelf life of passion fruits during ambient and low temperature storage. Journal of Postharvest Technology , 05(1), 7-16. ). The values at room temperature ranged from zero to 36.39 ( Table 3 ). The refrigerated fruit also presented variation regarding their coloration, but this occurred in a smaller scale, and could be explained due to the decrease on metabolic activity caused by the lower temperatures ( Table 3 ) ( Fonseca et al., 2000 Fonseca, S. C., Oliveira, F. A. R., Lino, I. B. M., Brecht, J., & Chau, K. V. (2000). Modelling O2 and CO2 exchange for development of perforation-mediated modified atmosphere packaging. Journal of Food Engineering, 43(1), 9-15. http://dx.doi.org/10.1016/S0260-8774(99)00122-3.
http://dx.doi.org/10.1016/S0260-8774(99...
). The untreated control and fruits coated with 18% carnauba wax had the highest browning indexes at room temperature ( Table 3 ).
Evaluation of the fruit browning and hue angle in P. alata fruit under two different storage conditions.
Passiflora alata has a yellowish color when harvested at its ideal maturation point. The hue angle is expressed in degrees, in which 90° corresponds to the color yellow ( Tibola et al., 2005 Tibola, C. S., Lucchetta, L., Zanuzo, M. R., Silva, P. R., Ferri, V. C., & Rombaldi, C. V. (2005). Inibição da ação do etileno na conservação de caquis (Diospyrus kaki L.)‘fuyu’. Revista Brasileira de Fruticultura , 27(1), 36-39. http://dx.doi.org/10.1590/S0100-29452005000100011.
http://dx.doi.org/10.1590/S0100-2945200...
). In the present study, the highest observed value was 74.360 shortly after harvest (zero storage days) ( Table 3 ). During the storage period, the hue angle did not present estatistically significant variations among the different treatments in both environments ( Table 3 ). These results do not comply with the report by Rinaldi et al. (2017b) Rinaldi, M. M., Costa, A. M., Faleiro, F. G., & Junqueira, N. T. V. (2017b). Conservação pós-colheita de frutos de Passiflora setacea DC. submetidos a diferentes sanitizantes e temperaturas de armazenamento. Brazilian Journal of Food Technology, 20(0), e2016046. http://dx.doi.org/10.1590/1981-6723.4616.
http://dx.doi.org/10.1590/1981-6723.461...
, which observed a significant reduction on hue angle values in P. setacea fruit stored at ambient conditions (25 °C). The hue angle values obtained in the present experiment suggest that P. alata fruit presented a reddish yellow color during storage.
Oxygen and carbon dioxide concentrations inside the 10 μm PVC and 30 μm HDPE packages provide information on the gas exchange between the fruit and the environment around them. If fruits are submitted to conditions of low O2 concentration and high concentrations of CO2, this can result in fruit tissue stress, which may manifest itself through different symptoms, such as irregular maturation, physiological disorders, fermentation and rotting ( Kader et al., 1989 Kader, A. A., Zagory, D., Kerbel, E. L., & Wang, C. Y. (1989). Modified atmosphere packaging of fruits and vegetables. Critical Reviews in Food Science and Nutrition , 28(1), 1-30. http://dx.doi.org/10.1080/10408398909527490. PMid:2647417.
http://dx.doi.org/10.1080/1040839890952...
).
Cia et al. (2010) Cia, P., Benato, E. A., Valentini, S. R. T., Sanches, J., Ponzo, F. S., Flôres, D., & Terra, M. M. (2010). Atmosfera modificada e refrigeração para conservação pós-colheita de uva ‘Niágara Rosada’. Pesquisa Agropecuária Brasileira, 45(10), 1058-1065. http://dx.doi.org/10.1590/S0100-204X2010001000002.
http://dx.doi.org/10.1590/S0100-204X201...
, observed very small changes in the atmosphere (O2 and CO2) of PVC packaging during refrigerated storage of grapes, and its non-interference with the metabolism of the fruit, when compared to other plastic films, such as polyethylene. Unlike the report by Cia et al. (2010) Cia, P., Benato, E. A., Valentini, S. R. T., Sanches, J., Ponzo, F. S., Flôres, D., & Terra, M. M. (2010). Atmosfera modificada e refrigeração para conservação pós-colheita de uva ‘Niágara Rosada’. Pesquisa Agropecuária Brasileira, 45(10), 1058-1065. http://dx.doi.org/10.1590/S0100-204X2010001000002.
http://dx.doi.org/10.1590/S0100-204X201...
in the present study, the concentrations of O2 and CO2 varied significantly in both cases over the entire storage period under both refrigerated and ambient conditions ( Table 4 ). This variation did not have deleterious action on the fruits, it showed that both packages were permeable to these gases, which allowed gas exchanges with the environment, avoiding the occurrence of physiological imbalances that could have a negative effect on the quality of the fruits during the 14 days of storage ( Oliveira et al., 2014 Oliveira, J., Silva, I. G., Silva, P. P., & Spoto, M. H. F. (2014). Atmosfera modificada e refrigeração para conservação pós-colheita de camu-camu. Ciência Rural, 44(6), 1126-1133. http://dx.doi.org/10.1590/S0103-84782014000600028.
http://dx.doi.org/10.1590/S0103-8478201...
; Rinaldi et al., 2017b Rinaldi, M. M., Costa, A. M., Faleiro, F. G., & Junqueira, N. T. V. (2017b). Conservação pós-colheita de frutos de Passiflora setacea DC. submetidos a diferentes sanitizantes e temperaturas de armazenamento. Brazilian Journal of Food Technology, 20(0), e2016046. http://dx.doi.org/10.1590/1981-6723.4616.
http://dx.doi.org/10.1590/1981-6723.461...
).
Evaluation of the oxigen and carbon dioxide percentage inside packaged treatments and anthracnose incidence on P. alata fruit during storage under two different environmental conditions.
As for the phytosanitary evaluation, fruits kept at 10 °C did not show symptoms of infestation by any post-harvest pathogens during the 14 days of storage ( Benato et al., 2002 Benato, E. A., Sigrist, J. M., Hanashiro, M. M., Magalhães, M. J. M., & Binotti, C. (2002). Avaliação de fungicidas e produtos alternativos no controle de podridões pós-colheita em maracujá-amarelo. Summa Phytopathologica , 28(4), 299-304. ; Junqueira et al., 2003 Junqueira, N. T. V., Anselmo, R. M., Pinto, A. C. Q., Ramos, V. H. V., Pereira, A. V., & Nascimento, A. C. (2003). Severidade da antracnose e perda de matéria fresca de frutos de dez procedências de maracujazeiro-doce (Passiflora alata Dryander) em dois ambientes de armazenamento. Revista Brasileira de Fruticultura, 25(1), 71-73. http://dx.doi.org/10.1590/S0100-29452003000100021.
http://dx.doi.org/10.1590/S0100-2945200...
; Muniz et al., 2003 Muniz, M. F. S., Rocha, D. F., Silveira, N. S. S., & Menezes, M. (2003). Identification of fungi causal agents of postharvest diseases on comercialized fruits in Alagoas, Brazil. Summa Phytopathologica, 29(1), 38-42. ; Arruda et al., 2011a) Arruda, M. C., Fischer, I. H., Jeronimo, E. M., Zanette, M. M., & Silva, B. L. (2011a). Efeito de produtos químicos e temperaturas de armazenamento na pós-colheita de maracujá-amarelo. Semina: Ciências Agrárias , 32(1), 201-208. http://dx.doi.org/10.5433/1679-0359.2011v32n1p201.
http://dx.doi.org/10.5433/1679-0359.201...
. The result confirms the reports of Junqueira et al. (2003) Junqueira, N. T. V., Anselmo, R. M., Pinto, A. C. Q., Ramos, V. H. V., Pereira, A. V., & Nascimento, A. C. (2003). Severidade da antracnose e perda de matéria fresca de frutos de dez procedências de maracujazeiro-doce (Passiflora alata Dryander) em dois ambientes de armazenamento. Revista Brasileira de Fruticultura, 25(1), 71-73. http://dx.doi.org/10.1590/S0100-29452003000100021.
http://dx.doi.org/10.1590/S0100-2945200...
, Arruda et al. (2011a) Arruda, M. C., Fischer, I. H., Jeronimo, E. M., Zanette, M. M., & Silva, B. L. (2011a). Efeito de produtos químicos e temperaturas de armazenamento na pós-colheita de maracujá-amarelo. Semina: Ciências Agrárias , 32(1), 201-208. http://dx.doi.org/10.5433/1679-0359.2011v32n1p201.
http://dx.doi.org/10.5433/1679-0359.201...
, Rotili et al. (2013a) Rotili, M. C. C., Coutro, S., Celant, V. M., Vorpagel, J. A., Barp, F. K., Salibe, A. B., & Braga, G. C. (2013a). Composição, atividade antioxidante e qualidade do maracujá-amarelo durante armazenamento. Semina: Ciências Agrárias , 34(1), 227-240. http://dx.doi.org/10.5433/1679-0359.2013v34n1p227.
http://dx.doi.org/10.5433/1679-0359.201...
, Rotili et al. (2013b) Rotili, M. C. C., Vorpagel, J. A., Braga, G. C., Kuhn, O. J., & Salibe, A. B. (2013b). Atividade antioxidante, composição química e conservação do maracujá-amarelo embalado com filme PVC. Revista Brasileira de Fruticultura , 35(4), 942-952. http://dx.doi.org/10.1590/S0100-29452013000400004.
http://dx.doi.org/10.1590/S0100-2945201...
and Rinaldi et al. (2017b) Rinaldi, M. M., Costa, A. M., Faleiro, F. G., & Junqueira, N. T. V. (2017b). Conservação pós-colheita de frutos de Passiflora setacea DC. submetidos a diferentes sanitizantes e temperaturas de armazenamento. Brazilian Journal of Food Technology, 20(0), e2016046. http://dx.doi.org/10.1590/1981-6723.4616.
http://dx.doi.org/10.1590/1981-6723.461...
who also reported a significant reduction in the incidence of post-harvest pathogens in sweet, yellow, and setacea passion fruit stored under refrigeration, regardless of whether they were wrapped in plastic films or not.
The most common fungal disease in post-harvest passion fruit is anthracnose, caused by Colletototricum spp. ( Silva & Durigan, 2000 Silva, A. P., & Durigan, J. F. (2000). Colheita e conservação pós-colheita do maracujá. Informe Agropecuário, 21, 67-71. ). In the treatments kept at room temperature, it was verified that the fruit without packaging presented the lowest percentage of anthracnose incidence, 11%, with carnauba wax having the second best performance, with 33% ( Table 4 ). The fruit packed in 10 μm PVC and 30 μm HDPE showed the highest incidences of anthracnose, concluding that the use of plastic packaging at ambient conditions favors the proliferation of fungal pathogens. Rinaldi et al. (2017b) Rinaldi, M. M., Costa, A. M., Faleiro, F. G., & Junqueira, N. T. V. (2017b). Conservação pós-colheita de frutos de Passiflora setacea DC. submetidos a diferentes sanitizantes e temperaturas de armazenamento. Brazilian Journal of Food Technology, 20(0), e2016046. http://dx.doi.org/10.1590/1981-6723.4616.
http://dx.doi.org/10.1590/1981-6723.461...
and Barros et al. (1994) Barros, J. C., Goes, Á., & Minam, K. (1994). Condições de conservação pós-colheita de frutos de pimentão (Capsicum annum L.). Scientia Agrícola, 51(2), 363-368. http://dx.doi.org/10.1590/S0103-90161994000200024.
http://dx.doi.org/10.1590/S0103-9016199...
reported similar results, stating that plastic packaging, at room temperature, increased moisture around the fruit, favoring the development of post-harvest diseases.
4 Conclusion
It is not recommended to keep P. alata fruit under ambient condition, but, if it is the option available, they should not be packaged and have a short shelf life, as there are significant losses of fresh weight and texture after seven days. For the refrigerated condition, at 10 °C, the 10 μm PVC packaging is recommended, as it showed low fresh weight loss and no fungal infestation, after 14 days of storage, and better texture preservation, after 7 days of storage.
Acknowledgements
The authors wish to thank the National Council for Scientific and Technological Development (CNPq) Project No. 404847/2012-09 for financial support, and the Brazilian Agricultural Research Corporation (Embrapa) for their support in the development of this research project.
-
Practical Application: Passiflora alata fruit kept under refrigeration (10 °C/R.H. between 85% and 90%), and packaged on styrofoam trays rapped with 10 μm PVC flexible film, have a shelf life of 14 days. Under ambient conditions, should not be packaged and have a shelf life of up to seven days.
References
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Publication Dates
-
Publication in this collection
07 Feb 2019 -
Date of issue
Oct-Dec 2019
History
-
Received
20 Apr 2018 -
Accepted
09 Nov 2018