Abstract
Plums are highly perishable fruit. The short postharvest life confines their supply to distant markets. Among various factors, rapid softening, higher respiration, and ethylene production are most critical for the safe and prolonged storage of plums. The short postharvest life poses a serious restraint for its proper storage and transportation. The rapid postharvest fruit softening and successive microbial infestations lead to significant economic losses during supply chain and marketing of plums. The storage of plums under low temperature is recommended for the extension of its storage life. However, the extended low-temperature storage leads to various physiological disorders, such as chilling injury, internal browning, flesh reddening, abnormal ripening, gel formation, reddish discoloration, flesh breakdown, increased decay, and the loss of consumer acceptance. Adopting improved production and postharvest management protocols, as well as in-depth understanding of the physiology of plum fruit, may facilitate the extension of storage life and maintenance of its quality.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Abdi, N., Holford, P., & McGlasson, W. B. (1997a). Effects of harvest maturity on the storage life of Japanese type plums. Australian Journal of Experimental Agriculture, 37, 391–397.
Abdi, N., Holford, P., McGlasson, W. B., & Mizrahi, Y. (1997b). Ripening behaviour and responses to propylene in four cultivars of Japanese type plums. Postharvest Biology and Technology, 12, 21–34.
Abdi, N., McGlasson, W. B., Holford, P., Williams, M., & Mizrahi, Y. (1998). Responses of climacteric and suppressed-climacteric plums to treatment with propylene and 1-methylcyclopropene. Postharvest Biology and Technology, 14, 29–39.
Abu-Kpawoh, J. C., Xi, Y. F., Zhang, Y. Z., & Jin, Y. F. (2002). Polyamine accumulation following hot-water dips influences chilling injury and decay in ‘Friar’ plum fruit. Journal of Food Science, 67, 2649–2653.
Acevedo, C. A., López, D. A., Tapia, M. J., Enrione, J., Skurtys, O., Pedreschi, F., Brown, D. L., Creixell, W., & Osorio, F. (2012). Using RGB image processing for designing an alginate edible film. Food and Bioprocess Technology, 5, 1511–1520.
Alcaraz-Lopez, C., Botia, M., Alcaraz, C. F., & Riquelme, F. (2003). Effects of foliar sprays containing calcium, magnesium and titanium on plum (Prunus domestica L.) fruit quality. Journal of Plant Physiology, 160, 1441–1446.
Ali, S., Khan, A. S., & Malik, A. U. (2016a). Postharvest L-cysteine application delayed pericarp browning, suppressed lipid peroxidation and maintained antioxidative activities of litchi fruit. Postharvest Biology and Technology, 121, 135–142.
Ali, S., Khan, A. S., Malik, A. U., & Shahid, M. (2016b). Effect of controlled atmosphere storage on pericarp browning, bioactive compounds and antioxidant enzymes of litchi fruits. Food Chemistry, 206, 18–29.
Bal, E. (2013). Postharvest application of chitosan and low temperature storage affect respiration rate and quality of plum fruits. Journal of Agricultural Science and Technology, 15, 1219–1230.
Berman, M. E., & DeJong, T. M. (1996). Water stress and crop load effects on fruit fresh and dry weights in peach (Prunus persica). Tree Physiology, 16, 859–864.
Brackmann, A., Steffens, C. A., Mello, A. M., & Vizzotto, M. (2001). Storage of ‘Reubennel’ and ‘Pluma 7’ plums in intermittent cold storage and controlled atmosphere. Revista Cientifica Rural, 6, 71–76.
Briano, R., Girgenti, V., Giuggioli, N. R., & Peano, C. (2015). Performance of different box bags for map to preserve the quality of ‘Angeleno’ plums in transport storage conditions. Acta Horticulturae, 1079, 561–566.
Brummell, D. A., Cin, V. D., Lurie, S., Crisosto, C. H., & Labavitch, J. M. (2004). Cell wall metabolism during the development of chilling injury in cold-stored peach fruit: association of mealiness with arrested disassembly of cell wall pectins. Journal of Experimental Botany, 55, 2041–2052.
Candan, A. P., Graell, J., & Larrigaudière, C. (2011). Postharvest quality and chilling injury of plums: benefits of 1-methylcyclopropene. Spanish Journal of Agricultural Research, 9, 554–564.
Cantín, C. M., Crisosto, C. H., & Day, K. R. (2008). Evaluation of the effect of different modified atmosphere packaging box liners on the quality and shelf life of ‘Friar’ plums. HortTechnology, 18, 261–265.
Casquero, P. A., & Guerra, M. (2009). Harvest parameters to optimise storage life of European plum ‘Oullins Gage’. International Journal of Food Science and Technology, 44, 2049–2054.
Chen, Z., & Zhu, C. (2011). Combined effects of aqueous chlorine dioxide and ultrasonic treatments on postharvest storage quality of plum fruit (Prunus salicina L.) Postharvest Biology and Technology, 61, 117–123.
Cheng, Y., Liu, L., Yuan, C., & Guan, J. (2016). Molecular characterization of ethylene-regulated anthocyanin biosynthesis in plums during fruit ripening. Plant Molecular Biology Reporter, 34, 777–785.
Choi, W. S., Singh, S., & Lee, Y. S. (2016). Characterization of edible film containing essential oils in hydroxypropyl methylcellulose and its effect on quality attributes of ‘Formosa’ plum (Prunus salicina L.) LWT-Food Science and Technology, 70, 213–222.
Creelman, R. A., & Mullet, J. E. (1997). Biosynthesis and action of jasmonates in plants. Annual Review of Plant Physiology and Plant Molecular Biology, 48, 355–381.
Crisosto, C. H. (1994). Stone fruit maturity indices: A descriptive review. Postharvest News and Information, 5, 65–68.
Crisosto, C. H., & Costa, G. (2008). Preharvest factors affecting peach quality. In D. R. Layne (Ed.), The peach: Botany, production and uses (pp. 536–550). CAB International.
Crisosto, C. H., & Crisosto, G. M. (2005). Relationship between ripe soluble solids concentration (RSSC) and consumer acceptance of high and low acid melting flesh peach and nectarine (Prunus persica (L.) Batsch) cultivars. Postharvest Biology and Technology, 38, 239–246.
Crisosto, C. H., & Kader, A. A. (2000). Plum and fresh prune postharvest quality maintenance guidelines. Davis, CA: Department of Pomology, University of California Communication Services.
Crisosto, C. H., Mitchell, F. G., & Johnson, R. S. (1995). Factors in fresh market stone fruit quality. Postharvest News and Information, 6, 17–21.
Crisosto, C. H., Crisosto, G. M., Echeverria, G., & Puy, J. (2007). Segregation of plum and pluot cultivars according to their organoleptic characteristics. Postharvest Biology and Technology, 44, 271–276.
Crouch, I. J. (1998). Effect of modified atmosphere packaging (MAP) on control of shrivel and overall quality of ‘Laetitia’ plums. Acta Horticulturae, 464, 393–396.
Cuevas, F. J., Moreno-Rojas, J. M., Arroyo, F., Daza, A., & Ruiz-Moreno, M. J. (2016). Effect of management (organic vs conventional) on volatile profiles of six plum cultivars (Prunus salicina Lindl.). A chemometric approach for varietal classification and determination of potential markers. Food Chemistry, 199, 479–484.
Cuquel, F. L., Motta, A. C. V., Tutida, I., & De Mio, L. L. M. (2011). Nitrogen and potassium fertilization affecting the plum postharvest quality. Revista Brasileira de Fruticultura, 33, 328–336.
Daane, K., Johnson, R., Michailides, T., Crisosto, C., Dlott, J., Ramirez, H., Yokota, G., & Morgan, D. (1995). Excess nitrogen raises nectarine susceptibility to disease and insects. California Agriculture, 49(4), 13–18.
Davarynejad, G. H., Zarei, M., Nasrabadi, M. E., & Ardakani, E. (2015). Effects of salicylic acid and putrescine on storability, quality attributes and antioxidant activity of plum cv. ‘Santa Rosa’. Journal of Food Science and Technology, 52, 2053–2062.
Daza, A., García-Galavís, P. A., Grande, M. J., & Santamaría, C. (2008). Fruit quality parameters of ‘Pioneer’ Japanese plums produced on eight different rootstocks. Scientia Horticulturae, 118, 206–211.
Daza, A., Camacho, M., Galindo, I., Arroyo, F. T., Casanova, L., & Santamaría, C. (2012). Comparative fruit quality parameters of several Japanese plum varieties in two newly established orchards, organic and conventionally managed. International Journal of Food Science and Technology, 47, 341–349.
Díaz-Mula, H. M., Zapata, P. J., Guillén, F., Castillo, S., Martínez-Romero, D., Valero, D., & Serrano, M. (2008). Changes in physicochemical and nutritive parameters and bioactive compounds during development and on-tree ripening of eight plum cultivars: A comparative study. Journal of the Science of Food and Agriculture, 88, 2499–2507.
Díaz-Mula, H. M., Zapata, P. J., Guillén, F., Martínez-Romero, D., Castillo, S., Serrano, M., & Valero, D. (2009). Changes in hydrophilic and lipophilic antioxidant activity and related bioactive compounds during postharvest storage of yellow and purple plum cultivars. Postharvest Biology and Technology, 51, 354–363.
Díaz-Mula, H. M., Martínez-Romero, D., Castillo, S., Serrano, M., & Valero, D. (2011a). Modified atmosphere packaging of yellow and purple plum cultivars. 1. Effect on organoleptic quality. Postharvest Biology and Technology, 61, 103–109.
Díaz-Mula, H. M., Zapata, P. J., Guillén, F., Valverde, J. M., Valero, D., & Serrano, M. (2011b). Modified atmosphere packaging of yellow and purple plum cultivars. 2. Effect on bioactive compounds and antioxidant activity. Postharvest Biology and Technology, 61, 110–116.
Ding, B., Li, Y. C., Li, Y. H., Liu, J., & Bi, Y. (2010). Effect of intermittent warming combined with modified atmosphere packaging on chilling injury of plum. Acta Horticulturae, 877, 531–537.
Dong, L., Zhou, H. W., Sonego, L., Lers, A., & Lurie, S. (2001). Ripening of ‘Red Rosa’ plums: Effect of ethylene and 1-methylcyclopropene. Australian Journal of Plant Physiology, 28, 1039–1045.
Eksteen, G. J., & Truter, A. B. (1987). Controlled atmosphere storage of deciduous fruit in South Africa. International Journal of Refrigeration, 10, 14–17.
El-Sharkawy, I., Kim, W. S., El-Kereamy, A., Jayasankar, S., Svircev, A. M., & Brown, D. C. W. (2007). Isolation and characterization of four ethylene signal transduction elements in plums (Prunus salicina L.) Journal of Experimental Botany, 58, 3631–3643.
El-Sharkawy, I., Kim, W. S., Jayasankar, S., Svircev, A. M., & Brown, D. C. W. (2008). Differential regulation of four members of the ACC synthase gene family in plum. Journal of Experimental Botany, 59, 2009–2027.
El-Sharkawy, I., Sherif, S., Mila, I., Bouzayen, M., & Jayasankar, S. (2009). Molecular characterization of seven genes encoding ethylene-responsive transcriptional factors during plum fruit development and ripening. Journal of Experimental Botany, 60, 907–922.
El-Sharkawy, I., Sherif, S., Mahboob, A., Abubaker, K., Bouzayen, M., & Jayasankar, S. (2012). Expression of auxin-binding protein1 during plum fruit ontogeny supports the potential role of auxin in initiating and enhancing climacteric ripening. Plant Cell Reports, 31, 1911–1921.
El-Sharkawy, I., Sherif, S., Qubbaj, T., Sullivan, A. J., & Jayasankar, S. (2016). Stimulated auxin levels enhance plum fruit ripening, but limit shelf-life characteristics. Postharvest Biology and Technology, 112, 215–223.
Elzayat, H. E. E., & Moline, H. E. (1995). Effect of some gas mixtures on storage quality of plums. Journal of Food Quality, 18, 511–519.
Erkan, M., & Eski, H. (2012). Combined treatment of modified atmosphere packaging and 1-methylcyclopropene improves postharvest quality of Japanese plums. Turkish Journal of Agriculture and Forestry, 36, 563–575.
Erogul, D., & Sen, F. (2016). The effect of preharvest gibberellic acid applications on fruit quality of ‘Angelino’ plums during storage. Scientia Horticulturae, 202, 111–116.
Etievant, P. X., Guichard, E. A., & Issanchou, S. N. (1997). The flavour components of Mirabelle plums. Examination of the aroma constituents of fresh fruits: Variation of head-space composition induced by deep-freezing and thawing. Sciences des Aliments, 6, 417–432.
Fan, X., Mattheis, J. P., Fellman, J. K., & Patterson, M. E. (1997). Effect of methyl jasmonate on the ethylene and volatile production by Summerred apples depends on fruit developmental stage. Journal of Agricultural and Food Chemistry, 45, 208–211.
Fan, X., Mattheis, J. P., & Fellman, J. K. (1998). A role for jasmonates in climacteric fruit ripening. Planta, 204, 444–449.
Fang, Z. Z., Zhou, D. R., Ye, X. F., Jiang, C. C., & Pan, S. L. (2016). Identification of candidate anthocyanin-related genes by transcriptomic analysis of ‘Furongli’ plum (Prunus salicina Lindl.) during fruit ripening using RNA-Seq. Frontiers in Plant Science, 7, 1338. https://doi.org/10.3389/fpls.2016.01338.
Farag, K. M., & Attia, S. M. (2016). Enhancing coloration and extending the shelf life of plums while alleviating leaf abscission by utilizing lisophosphatidylethanolamine and oleic acid. Journal of Plant Production Mansoura University, 7, 791–799.
Fischer, R. L., & Bennett, A. B. (1991). Role of cell wall hydrolysis in fruit ripening. Annual Review of Plant Physiology and Plant Molecular Biology, 42, 675–703.
Gil, M. I., Tomas-Barberan, F. A., Hess-Pierce, B., & Kader, A. A. (2002). Antioxidant capacities, phenolic compounds, carotenoids, and vitamin C contents of nectarine, peach, and plum cultivars from California. Journal of Agricultural and Food Chemistry, 50, 4976–4982.
Giuggioli, N. R., Sottile, F., & Peano, C. (2016). Quality indicators for modified atmosphere packaging (MAP) storage of high-quality European plum (Prunus domestica L.) cultivars. Italian Journal of Food Science, 28, 376–390.
Gomez, E., & Ledbetter, C. A. (1994). Comparative study of the aromatic profiles of two different plum species: Prunus salicina Lindl and Prunus simonii L. Journal of the Science of Food and Agriculture, 65, 111–115.
Gomez, E., Ledbetter, C. A., & Hartsell, P. L. (1993). Volatile compounds in apricot, plum, and their interspecific hybrids. Journal of Agricultural and Food Chemistry, 41, 1669–1676.
Gonçalves, F. P., Martins, M. C., Junior, G. J. S., Lourenço, S. A., & Amorim, L. (2010). Postharvest control of brown rot and Rhizopus rot in plums and nectarines using carnauba wax. Postharvest Biology and Technology, 58, 211–217.
Guerra, M., & Casquero, P. A. (2008). Effect of harvest date on cold storage and postharvest quality of plum cv. Green Gage. Postharvest Biology and Technology, 47, 325–332.
Guerra, M., & Casquero, P. A. (2009). Site and fruit maturity influence on the quality of European plum in organic production. Scientia Horticulturae, 122, 540–544.
Halliwell, B. (1999). Antioxidant defence mechanisms: From the beginning to the end (of the beginning). Free Radical Research, 31, 261–272.
Harman, Y., & Sen, F. (2016). The effect of different concentrations of pre-harvest gibberellic acid on the quality and durability of ‘Obilnaja’ and ‘Black Star’ plum varieties. Food Science and Technology (Campinas), 36(2), 362–368.
Hewett, E. W. (2006). An overview of preharvest factors influencing postharvest quality of horticultural products. International Journal of Postharvest Technology and Innovation, 1, 4–15.
Hussain, P. R., Dar, M. A., & Wani, A. M. (2013). Impact of radiation processing on quality during storage and post-refrigeration decay of plum (Prunus domestica L.) cv. Santaroza. Radiation Physics and Chemistry, 85, 234–242.
Hussain, P. R., Suradkar, P. P., Wani, A. M., & Dar, M. A. (2015). Retention of storage quality and post-refrigeration shelf-life extension of plum (Prunus domestica L.) cv. Santa Rosa using combination of carboxymethyl cellulose (CMC) coating and gamma irradiation. Radiation Physics and Chemistry, 107, 136–148.
Kader, A. A. (2002). Pre- and postharvest factors affecting fresh produce quality, nutritional value, and implications for human health. In Proceedings of the Internation Congress Food Production and Quality of Life (pp. 109–119, vol. 1), Sassary, Italy.
Kader, A. A. (2003). A summary of CA requirements and recommendations for fruits other than apples and pears. Acta Horticulturae, 600, 737–740.
Karaman, S., Ozturk, B., Genc, N., & Celik, S. M. (2013). Effect of preharvest application of methyl jasmonate on fruit quality of plum (Prunus salicina Lindell cv. “Fortune”) at harvest and during cold storage. Journal of Food Processing & Preservation, 37, 1049–1059.
Kays, S. J. (1999). Preharvest factors affecting appearance. Postharvest Biology and Technology, 15, 233–247.
Ke, D., & Kader, A. A. (1992). External and internal factor influence fruit tolerance to low-oxygen atmospheres. Journal of the American Society for Horticultural Science, 117, 913–918.
Khan, A. S. (2016). Differences in fruit growth and ripening of early-, mid- and late-season maturing Japanese plum cultivars. Fruits, 71, 329–338.
Khan, A. S., & Ali, S. (2018). Preharvest sprays affecting shelf life and storage potential of fruits. In M. W. Siddiqui (Ed.), Preharvest modulation of postharvest fruit and vegetable quality (1st ed., pp. 209–255). San Diego, CA: Academic Press.
Khan, A. S., & Singh, Z. (2007a). Methyl jasmonate promotes fruit ripening and improves fruit quality in Japanese plum. The Journal of Horticultural Science and Biotechnology, 82, 695–706.
Khan, A. S., & Singh, Z. (2007b). 1-MCP regulates ethylene biosynthesis and fruit softening during ripening of ‘Tegan Blue’ plum. Postharvest Biology and Technology, 43, 298–306.
Khan, A. S., & Singh, Z. (2008a). 1-MCP application affects ethylene production, storage life and quality of ‘Tegan Blue’ plum. Acta Horticulturae, 774, 143–150.
Khan, A. S., & Singh, Z. (2008b). 1-Methylcyclopropene application and modified atmosphere packaging affect ethylene biosynthesis, fruit softening, and quality of ‘Tegan Blue’ Japanese plum during cold storage. Journal of the American Society for Horticultural Science, 133, 290–299.
Khan, A. S., & Singh, Z. (2008c). Influence of pre and postharvest applications of putrescine on ethylene production, storage life and quality of ‘Angelino’ plum. Acta Horticulturae, 768, 125–133.
Khan, A. S., & Singh, Z. (2009). 1-MCP application suppresses ethylene biosynthesis and retards fruit softening during cold storage of ‘Tegan Blue’ Japanese plum. Plant Science, 176, 539–544.
Khan, A. S., Singh, Z., & Abbasi, N. A. (2007). Pre-storage putrescine application suppresses ethylene biosynthesis and retards fruit softening during low temperature storage in ‘Angelino’ Plum. Postharvest Biology and Technology, 46, 36–46.
Khan, A. S., Singh, Z., Abbasi, N. A., & Swinny, E. E. (2008). Pre- or postharvest applications of putrescine and low temperature storage affect fruit ripening and quality of ‘Angelino’ plum. Journal of the Science of Food and Agriculture, 88, 1686–1695.
Khan, A. S., Singh, Z., & Swinny, E. E. (2009). Postharvest application of 1-Methylcyclopropene modulates fruit ripening, storage life and quality of ‘Tegan Blue’ Japanese plum kept in ambient and cold storage. International Journal of Food Science and Technology, 44, 1272–1280.
Khan, A.S., & Singh, Z. (2010). Pre-harvest application of putrescine influences Japanese plum fruit ripening and quality. Food Science and Technology International, 16, 53–64.
Khan, A. S., Singh, Z., & Ali, S. (2017). Methyl jasmonate in postharvest. In R. B. H. Wills & J. Golding (Eds.), Advances in postharvest fruit and vegetable technology (1st ed., pp. 211–236). Boca Raton, FL: CRC Press.
Kim, D. O., Chun, O. K., Kim, Y. J., Moon, H. Y., & Lee, C. Y. (2003a). Quantification of polyphenolics and their antioxidant capacity of fresh plums. Journal of Agricultural and Food Chemistry, 51, 6509–6415.
Kim, D. O., Jeong, S. W., & Lee, C. Y. (2003b). Antioxidant capacity of phenolic phytochemicals from various cultivars of plums. Food Chemistry, 81, 321–326.
Kirmani, S. N., Mir, M. M., Iqbal, U., Jan, A., Javaid, K., Malik, A. R., & Khan, F. A. (2015). Impact of preharvest chemical application on plum (Prunus salicina L.) cv. Santa Rosa quality during storage. Bioscience, 10, 211–215.
Kluge, R. A., Bihalva, A. B., & Cantillano, R. F. F. (1999). Influence of ripening stage and polyethylene packaging on cold storage of plum. Pesquisa Agropecuária Brasileira, 34, 323–329.
Kondo, S., & Fukuda, K. (2001). Changes of jasmonates in grape berries and their possible roles in fruit development. Scientia Horticulturae, 91, 275–288.
Kondo, S., Tomiyama, A., & Seto, H. (2000). Changes of endogenous jasmonic acid and methyl jasmonate in apples and sweet cherries during fruit development. Journal of the American Society for Horticultural Science, 125, 282–287.
Kotze, W. A. G., Nolte, S. H., Dodd, M. C., Gurgen, K. H., & Crouse, K. (1989). Is it possible to restrict the incidence of internal breakdown in plums? Deciduous Fruit Grower, 39, 64–68.
Krammer, G., Winterhalter, P., Schwab, M., & Schreier, P. (1991). Glycosidically bound aroma compounds in the fruits of Prunus species: apricot (P. armeniaca, L.), peach (P. persica, L.), yellow plum (P. domestica, L. ssp. syriaca). Journal of Agricultural and Food Chemistry, 39, 778–781.
Kucuker, E., & Ozturk, B. (2014). Effects of pre-harvest methyl jasmonate treatment on post-harvest fruit quality of Japanese plums. African Journal of Traditional, Complementary, and Alternative Medicines, 11, 105–117.
Kucuker, E., Ozturk, B., Aksit, H., & Genc, N. (2015). Effect of pre-harvest aminoethoxyvinylglycine (AVG) application on bioactive compounds and fruit quality of plum (Prunus salicina lindell cv. Black Beauty) at the time of harvest and during cold storage. Journal of Animal and Plant Science, 25, 763–770.
Larrigaudière, C., Canda, A. P., Ubach, D., & Graell, J. (2009). Physiological response of ‘Larry Ann’ plums to cold storage and 1-MCP treatment. Postharvest Biology and Technology, 51, 56–61.
Lavilla, T., Recasens, I., & Lopez, M. L. (2001). Production of volatile aromatic compounds in Big Top nectarines and Royal Glory peaches during maturity. Acta Horticulturae, 553, 233–234.
Liu, C., Yuan, C., Chen, Y., Li, H., & Liu, J. (2014). Combined effects of ascorbic acid and chitosan on the quality maintenance and shelf life of plums. Scientia Horticulturae, 176, 45–53.
Luo, Z. S., Xie, J., Xu, T. Q., & Zhang, L. (2009). Delay ripening of ‘Qingnai’ plum (Prunus salicina Lindl.) with 1-methylcyclopropene. Plant Science, 177, 705–709.
Luo, Z. S., Zhang, L., Xu, T. Q., Xie, J., & Xi, J. Y. (2010). Effect of hot-air treatment on the ripening of ‘Qingnai’ plum (Prunus salicina Lindl.) The Journal of Horticultural Science and Biotechnology, 85, 12–16.
Luo Z, Chen C, Xie J (2011). Effect of salicylic acid treatment on alleviating postharvest chilling injury of ‘Qingnai’ plum fruit. Postharvest Biology and Technology 62:115–120.
Manganaris, G. A., Crisosto, C. H., Bremer, V., & Holcraft, D. (2008a). Novel 1-methylcyclopropene immersion formulation extends shelf life of advanced maturity ‘Joanna Red’ plums (Prunus salicina Lindell). Postharvest Biology and Technology, 47, 429–433.
Manganaris, G. A., Vicente, A. R., Crisosto, C. H., & Labavitch, J. M. (2008b). Cell wall modifications in chilling-injured plum fruit (Prunus salicina). Postharvest Biology and Technology, 48, 77–83.
Manganaris, G. A., Vicente, A. R., Crisosto, C. H., & Labavitch, J. M. (2008c). Effect of delayed storage and continuous ethylene exposure on flesh reddening of ‘Royal Diamond’ plums. Journal of the Science of Food and Agriculture, 88, 2180–2185.
Manjunatha, G., Lokesh, V., & Neelwarne, B. (2010). Nitric oxide in fruit ripening: trends and opportunities. Biotechnology Advances, 28, 489–499.
Maré, L., Huysamer, M., Dodd, M. C., Truter, A. B., Kemp, A. T., & Holcroft, D. M. (2005). Extension of the storage life of plums (Prunus salicina) using controlled atmosphere shipping. Acta Horticulturae, 682, 1689–1695.
Martínez-Romero, D., Zapata, P. J., Guillén, F., Paladines, D., Castillo, S., Valero, D., & Serrano, M. (2017). The addition of rosehip oil to Aloe gels improves their properties as postharvest coatings for maintaining quality in plum. Food Chemistry, 217, 585–592.
Medina-Meza, I. G., & Barbosa-Cánovas, G. V. (2015). Assisted extraction of bioactive compounds from plum and grape peels by ultrasonics and pulsed electric fields. Journal of Food Engineering, 166, 268–275.
Melgarejo, P., Calín-Sánchez, Á., Hernández, F., Szumny, A., Martínez, J. J., Legua, P., Martínez, R., & Carbonell-Barrachina, A. A. (2012). Chemical, functional and quality properties of Japanese plum (Prunus salicina Lindl.) as affected by mulching. Scientia Horticulturae, 134, 114–120.
Menniti, A. M., Donati, I., & Gregori, R. (2006). Responses of 1-MCP application in plums stored under air and controlled atmospheres. Postharvest Biology and Technology, 39, 243–246.
Meredith, F. I., Senter, S. D., Forbus, W. R., Robertson, J. A., & Okie, W. R. (1992). Postharvest quality and sensory attributes of ‘Byrongold’ and ‘Rubysweet’ plums. Journal of Food Quality, 15, 199–209.
Minas, I. S., Crisosto, G. M., Holcroft, D., Vasilakakis, M., & Crisosto, C. H. (2013). Postharvest handling of plums (Prunus salicina Lindl.) at 10°C to save energy and preserve fruit quality using an innovative application system of 1-MCP. Postharvest Biology and Technology, 76, 1–9.
Mitchell, F. G. (1986). Influence of cooling and temperature maintenance on stone fruit quality. Deciduous Fruit Grower, 36, 205–211.
Naor, A., Klein, I., Hupert, H., Grinblat, Y., Peres, M., & Kaufman, A. (1999). Water stress and crop level interactions in relation to nectarine yield, fruit size distribution, and water potentials. Journal of the American Society for Horticultural Science, 124, 189–193.
Naor, A., Hupert, H., Greenblat, Y., Peres, M., Kaufman, A., & Klein, I. (2001). The response of nectarine fruit size and midday stem water potential to irrigation level in stage iii and crop load. Journal of the American Society for Horticultural Science, 126, 140–143.
Northover, J., & Cerkauskas, R. F. (1998). Fungicidal suppression of symptomless latent infections of Monilinia fructicola in European plums. Canadian Journal of Plant Pathology, 20, 234–242.
Obenland, D. M., Crisosto, C. H., & Rose, J. K. C. (2003). Expansin protein levels decline with the development of mealiness in peaches. Postharvest Biology and Technology, 29, 11–18.
Ozturk, B., Kucuker, E., Karaam, S., & Ozkan, Y. (2012). The effects of cold storage and aminoethoxyvinylglycine (AVG) on bioactive compounds of plum fruit (Prunus salicina Lindell cv. ‘Black Amber’). Postharvest Biology and Technology, 72, 35–41.
Ozturk, B., Kucuker, E., Karaman, S., Yıldız, K., & Kılıc, K. (2013). Effect of aminoethoxyvinylglycine and methyl jasmonate on individual phenolics and post-harvest fruit quality of three different Japanese plums (Prunus salicina Lindell). International Journal of Food Engineering, 9(4), 421–432.
Ozturk, B., Kucuker, E., Yıldız, K., & Celik, S. M. (2015). Changes of bioactive compounds and ethylene production of Japanese plums treated with pre-harvest aminoethoxyvinylglycine. International Journal of Food Properties, 18, 2165–2186.
Palou, L., Crisosto, C. H., Garner, D., & Basinal, L. M. (2003). Effect of continuous exposure to exogenous ethylene during cold storage on postharvest decay development and quality attributes of stone fruits and table grapes. Postharvest Biology and Technology, 27, 243–254.
Peano, C., Giuggioli, N. R., Girgenti, V., Palma, A., D’Aquino, S., & Sottile, F. (2017). Effect of palletized map storage on the quality and nutritional compounds of the Japanese plum cv. Angeleno (Prunus salicina Lindl.) Journal of Food Processing and Preservation, 41, e12786. https://doi.org/10.1111/jfpp.12786.
Plich, H., & Michalczuk, L. (1999). The effect of storage conditions and date of picking on storability and quality of some plum (Prunus domestica L.) fruit cultivars. Acta Horticulturae, 485, 301–307.
Plich, H., & Wójcik, P. (2002). The effect of calcium and boron foliar application on postharvest plum fruit quality. Acta Horticulturae, 594, 445–451.
Raynal, J., Moutounet, M., & Souquet, J. M. (1989). Intervention of phenolic compounds in plum technology. 1. Changes during drying. Journal of Agricultural and Food Chemistry, 37, 1046–1050.
Rieger, M. (2006). Plum (Prunus domestica, Prunus salicina). InIntroduction to fruit crops (pp. 369–382). New York: Food Products.
Robertson, J. A., Meredith, F. I., Lyon, B. G., & Norton, J. D. (1991). Effect of cold storage on the quality characteristics of ‘Au-Rubrum’ plums. Journal of Food Quality, 14, 107–117.
Salem, A. E., Naweto, M., & Mostafa, M. (2016). Combined effect of gamma irradiation and chitosan coating on physical and chemical properties of plum fruits. Journal of Nuclear Technology in Applied Science, 4, 91–102.
Saltveit, M. E. (1999). Effect of ethylene on quality of fresh fruits and vegetables. Postharvest Biology and Technology, 15, 279–292.
Saltveit, M. E. (2003). Is it possible to find an optimal controlled atmosphere? Postharvest Biology and Technology, 27, 3–13.
Samperio, A., Prieto, M. H., Blanco-Cipollone, F., Vivas, A., & Moñino, M. J. (2015). Effects of post-harvest deficit irrigation in ‘Red Beaut’ Japanese plum: Tree water status, vegetative growth, fruit yield, quality and economic return. Agricultural Water Management, 150, 92–102.
Serrano, M., Martínez-Romero, D., Guillen, F., & Valero, D. (2003). Effects of exogenous putrescine on improving shelf life of four plum cultivars. Postharvest Biology and Technology, 30, 259–271.
Serrano, M., Martinez-Romero, D., Castillo, S., Guillen, F., & Valero, D. (2004). Role of calcium and heat treatments in alleviating physiological changes induced by mechanical damage in plum. Postharvest Biology and Technology, 34, 155–167.
Shah, H. M. S., Khan, A. S., & Ali, S. (2017). Pre-storage kojic acid application delays pericarp browning and maintains antioxidant activities of litchi fruit. Postharvest Biology and Technology, 132, 154–161.
Sharma, S., & Sharma, R. R. (2014). Nitric oxide inhibits activities of PAL and PME enzymes and reduces chilling injury in ‘Santa Rosa’ Japanese plum (Prunus salicina Lindell). Journal of Plant Biochemistry and Biotechnology, 24, 292–297.
Sharma, S., & Sharma, R. R. (2016). Impact of staggered treatments of novel molecules and ethylene absorbents on postharvest fruit physiology and enzyme activity of ‘Santa Rosa’ plums. Scientia Horticulturae, 198, 242–248.
Singh, SP (2010). Postharvest oxidative stress in plums: Mechanism and implications for storage and fruit quality. PhD thesis, Curtin University, WA Australia.
Singh, S. P., & Singh, Z. (2008). Major flavor components in some commercial cultivars of Japanese plum. Journal of the American Pomological Society, 62, 185–190.
Singh, Z., & Khan, A.S. (2010). Physiology of plum fruit ripening. Stewart Postharvest Review, 2, 1–10.
Singh, S. P., & Singh, Z. (2012). Postharvest oxidative behaviour of 1-methylcyclopropene treated Japanese plums (Prunus salicina Lindell) during storage under controlled and modified atmospheres. Postharvest Biology and Technology, 74, 26–35.
Singh, S. P., & Singh, Z. (2013). Controlled and modified atmospheres influence chilling injury, fruit quality and antioxidative system of Japanese plums (Prunus salicina Lindell). International Journal of Food Science and Technology, 48, 363–374.
Singh, S. P., Singh, Z., & Swinny, E. E. (2009a). Sugars and organic acids in Japanese plums (Prunus salicina Lindell) as influenced by maturation, harvest date, storage temperature and period. International Journal of Food Science and Technology, 44, 1973–1982.
Singh, S. P., Singh, Z., & Swinny, E. E. (2009b). Postharvest nitric oxide fumigation delays fruit ripening and alleviates chilling injury during cold storage of Japanese plums (Prunus salicina Lindell). Postharvest Biology and Technology, 53, 101–108.
Stanger, M. C., Steffens, C. A., Amarante, C. V. T. D., Brackmann, A., & Anese, R. O. (2017). Quality preservation of ‘Laetitia’ plums in active modified atmosphere storage. Revista Brasileira de Fruticultura, 39, 1–7.
Steffens, C. A., Amarante, C. V. T. D., Alves, E. O., & Brackmann, A. (2014a). Fruit quality preservation of ‘Laetitia’ plums under controlled atmosphere storage. Annals of the Brazilian Academy of Sciences, 86, 485–494.
Steffens, C. A., Amarante, C. V. T. D., Alves, E. O., Brackmann, A., Corrêa, T. R., & Espindola, B. P. (2014b). Storage of ‘Laetitia’ plums (Prunus salicina) under controlled atmosphere conditions. African Journal of Biotechnology, 13, 3239–3243.
Sun, J. H., Chen, J. Y., Kuang, J. F., Chen, W. X., & Lu, W. J. (2010). Expression of sHSP genes as affected by heat shock and cold acclimation in relation to chilling tolerance in plum fruit. Postharvest Biology and Technology, 55, 91–96.
Taylor, M. A. (1996). Internal disorders in South African plums. Deciduous Fruit Grower, 46, 328–335.
Taylor, M. A., Jacobs, G., Rabe, E., & Dodd, M. C. (1993a). Physiological factors associated with overripeness, internal breakdown and gel breakdown in plums stored at low temperature. Journal of Horticultural Science, 68, 825–830.
Taylor, M. A., Rabe, E., Dodd, M. C., & Jacobs, G. (1993b). Influence of sampling date and position in the tree on mineral nutrients, maturity and gel breakdown in cold stored ‘Songold’ plums. Scientia Horticulturae, 54, 131–141.
Taylor, M. A., Rabe, E., Jacobs, G., & Dodd, M. C. (1993c). Physiological and anatomical changes associated with ripening in the inner and outer mesocarp of cold stored ‘Songold’ plums and concomitant development of internal disorders. Journal of Horticultural Science, 68, 911–918.
Taylor, M. A., Rabe, E., Dodd, M. C., & Jacobs, G. (1994a). Effect of storage regimes on pectolytic enzymes, pectic substances, internal conductivity and gel breakdown in cold stored ‘Songold’ plums. Journal of Horticultural Science, 69, 527–534.
Taylor, M. A., Rabe, E., Jacobs, G., & Dodd, M. C. (1994b). Effect of harvest maturity on pectic substances, internal conductivity, soluble solids and gel breakdown in cold stored ‘Songold’ plums. Postharvest Biology and Technology, 5, 285–294.
Toivonen, P. M. A. (2004). Postharvest storage procedures and oxidative stress. HortScience, 39, 938–942.
Tomás-Barberán, F. A., Gil, M. I., Cremin, P., Waterhouse, A. L., Hess-Pierce, B., & Kader, A. A. (2001). HPLC-DAD-ESIMS analysis of phenolic compounds in nectarines, peaches, and plums. Journal of Agricultural and Food Chemistry, 49, 4748–4760.
Tromp, J. (2005). Ripening and fruit quality. In J. Tromp, A. D. Webster, & S. J. Wertheim (Eds.), Fundamentals of temperate zone tree fruit production (pp. 295–310). Leiden: Backhuys Publishers.
Usenik, V., Kastelec, D., Veberič, R., & Štampar, F. (2008). Quality changes during ripening of plums (Prunus domestica L.) Food Chemistry, 111, 830–836.
Valero, D., Pérez-Vicente, A., Martínez-Romero, D., Castillo, S., Guillen, F., & Serrano, M. (2002). Plum storability improved after calcium and heat postharvest treatments: Role of polyamines. Journal of Food Science, 67, 2571–2575.
Valero, D., Martınez-Romero, D., Valverde, M. J., Guillen, F., & Serrano, F. (2003). Quality improvement and extension of shelf life by 1-methylcyclopropene in plum as affected by ripening stage at harvest. Innovative Food Science & Emerging Technologies, 4, 339–348.
Valero, D., Díaz-Mula, H. M., Zapata, P. J., Guillén, F., Martínez-Romero, D., Castillo, S., & Serrano, M. (2013). Effects of alginate edible coating on preserving fruit quality in four plum cultivars during postharvest storage. Postharvest Biology and Technology, 77, 1–6.
Vangdal, E., & Børve, J. (2002). Pre- and postharvesting Ca-treatment of plums (Prunus domestica L.) Acta Horticulturae, 577, 125–128.
Vangdal, E., Flatland, S., Nordbø, R., & Børve, J. (2007). Different strategies for foliar applications of calcium in plums (Prunus domestica L.). Acta Horticulturae, 734, 371–374.
Vasantha-Rupasinghe, H. P., Jayasankar, S., & Lay, W. (2006). Variation in total phenolics and antioxidant capacity among European plum genotypes. Scientia Horticulturae, 108, 243–246.
Velardo-Micharet, B., Pintado, C. M., Dupille, E., Ayuso-Yuste, M. C., Lozano, M., & Garcia, M. J. B. (2017). Effect of ripening stage, 1-MCP treatment and different temperature regimes on long term storage of ‘Songold’ Japanese plum. Scientia Horticulturae, 214, 233–243.
Vizzotto, M., Cisneros-Zevallos, L., Byrne, D. H., Ramming, D. W., & Okie, W. R. (2006). Total phenolic, carotenoid, and anthocyanin content and antioxidant activity of peach and plum genotypes. Acta Horticulturae, 713, 453–456.
Wang, C. Y. (1993). Approaches to reduce chilling injury of fruits and vegetables. Horticultural Reviews, 15, 63–95.
Wang, J., Pan, H., Wang, R., Hong, K., & Cao, J. (2016). Patterns of flesh reddening, translucency, ethylene production and storability of ‘Friar’ plum fruit harvested at three maturity stages as affected by the storage temperature. Postharvest Biology and Technology, 121, 9–18.
Ward, G., & Melvin-Carter, E. (2001). Strategies to reduce losses from internal breakdown in plums. Horticulture Australia Project No. SF 00024:1–66.
Watkins, C. B. (2006). The use of 1-methylcyclopropene (1-MCP) on fruits and vegetables. Biotechnology Advances, 24, 389–409.
Wu, F., Zhang, D., Zhang, H., Jiang, G., Su, X., & Qu, H. (2011). Physiological and biochemical response of harvested plum fruit to oxalic acid during ripening or shelf-life. Food Research International, 44, 1299–1305.
Zapata, P. J., Martínez-Esplá, A., Guillén, F., Díaz-Mula, H. M., Martínez-Romero, D., Serrano, M., & Valero, D. (2014). Preharvest application of methyl jasmonate (MeJA) in two plum cultivars. 2. Improvement of fruit quality and antioxidant systems during postharvest storage. Postharvest Biology and Technology, 98, 115–122.
Zhang, D., Spadaro, D., Garibaldi, A., & Gullino, M. L. (2010). Efficacy of the antagonist Aureobasidium pullulans PL5 against postharvest pathogens of peach, apple and plum and its modes of action. Biological Control, 54, 172–180.
Zhang, H., Li, R., & Liu, W. (2011). Effects of chitin and its derivative chitosan on postharvest decay of fruits: A review. International Journal of Molecular Sciences, 12, 917–934.
Zhang, J., Xie, J., Zhou, Y., Deng, L., & Yao Zeng, K. (2017). Inhibitory effect of Pichia membranaefaciens and Kloeckera apiculata against Monilinia fructicola and their biocontrol ability of brown rot in postharvest plum. Biological Control, 114, 51–58.
Zuzunaga, M., Serrano, M., Martinez-Romero, D., Valero, D., & Riquelme, F. (2001a). Comparative study of two plum (Prunus salicina Lindl.) cultivars during growth and ripening. Food Science and Technology International, 7, 123–130.
Zuzunaga, M., Serrano, M., Valero, D., Martinez-Romero, D., & Riquelme, F. (2001b). Responses to ethylene treatments in two plum cultivars. Acta Horticulturae, 553, 179–180.
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2018 Springer International Publishing AG, part of Springer Nature
About this chapter
Cite this chapter
Khan, A.S., Singh, Z., Ali, S. (2018). Postharvest Biology and Technology of Plum. In: Mir, S., Shah, M., Mir, M. (eds) Postharvest Biology and Technology of Temperate Fruits. Springer, Cham. https://doi.org/10.1007/978-3-319-76843-4_5
Download citation
DOI: https://doi.org/10.1007/978-3-319-76843-4_5
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-76842-7
Online ISBN: 978-3-319-76843-4
eBook Packages: Chemistry and Materials ScienceChemistry and Material Science (R0)