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Nutritional and Functional Attributes of Fruit Products

  • Delia B. Rodriguez-Amaya
  • Jaime Amaya-Farfan
Chapter
Part of the Food Engineering Series book series (FSES)

Abstract

The consumption of fruits is widely recommended because of their high contents of micronutrients and bioactive compounds. These health-promoting fruit components, however, can be altered or lost during processing and storage and efforts should be taken to ensure their maximum retention. This review focuses on carotenoids, vitamin C, flavonoids, and folates and addresses the effects of both thermal and nonthermal processing. Thermal processing has long been known to provoke significant losses of these compounds, these losses increasing with the severity of the processing conditions. Nonthermal processing is more likely to preserve them, but enzymatic degradation can occur in minimally processed fruits as a consequence of the loss of compartmentalization brought about by the cutting operations. Physical losses during peeling and juicing can also be substantial. Interaction between food components can also be a problem. For example, ascorbic acid indirectly promotes the degradation of anthocyanins, but enhances the stability of folates. Nevertheless, knowledge of the alterations during processing and storage and the influencing factors can lead to measures that can minimize undesirable changes.

Keywords

Carotenoids Vitamin C Flavonoids Folates Thermal processing Nonthermal 

References

  1. Amarowicz, R., R. Carle, G. Dongowski, A. Durazzo, R. Galensa, D. Kammerer, G. Maiani, and M.K. Piskula. 2009. Influence of postharvest processing and storage on the content of phenolic acids and flavonoids in foods. Molecular Nutrition & Food Research 53: S151–S183.CrossRefGoogle Scholar
  2. Asami, D.K., Y.J. Hong, D.M. Barrett, and A.E. Mitchell. 2003. Comparison of the total phenolic and ascorbic acid content of freeze-dried and air-dried marionberry, strawberry, and corn grown using conventional, organic, and sustainable agricultural practices. Journal of Agricultural and Food Chemistry 51: 1237–1241.CrossRefGoogle Scholar
  3. Bailey, L. B., and J. F. Gregory. 2006. Folate. In Present knowledge in nutrition, ed. B.A. Bowman and R.M. Russell, 9th ed., 278–301. Washington, DC: ILSI Press.Google Scholar
  4. Ben-Amotz, A., and Y. Levy. 1996. Bioavailability of a natural mixture compared with synthetic all-trans-β-carotene in human serum. American Journal of Clinical Nutrition 63: 729–734.CrossRefGoogle Scholar
  5. Boileau, T.W.M., A.C. Boileau, and J.W. Erdman Jr. 2002. Bioavailability of all-trans and cis-isomers of lycopene. Experimental Biology and Medicine 227: 914–919.CrossRefGoogle Scholar
  6. Bridle, P., and C.F. Timberlake. 1997. Anthocyanins as natural food colours—Selected aspects. Food Chemistry 58: 103–109.CrossRefGoogle Scholar
  7. Brownmiller, C., L.R. Howard, and R.I. Prior. 2008. Processing and storage effects on monomeric anthocyanins, percent polymeric color, and antioxidant capacity of processed blueberry products. Journal of Food Science 73: H72–H79.CrossRefGoogle Scholar
  8. Butz, P., Y. Serfert, A. Fernandez Garcia, S. Dietrich, R. Lindauer, A. Bognar, and B. Tauscher. 2004. Influence of high-pressure treatment at 25 °C and 80 °C on folates in orange juice and model media. Journal of Food Science 69: SNQ117–SNQ121.Google Scholar
  9. Castañeda-Ovando, A., M.L. Pacheco-Hernández, M.E. Páez-Hernández, J.A. Rodríguez, and C.A. Galàn-Vidal. 2009. Chemical studies of anthocyanins: A review. Food Chemistry 113: 859–871.CrossRefGoogle Scholar
  10. Cho, J., J.S. Kang, P.H. Long, J. Jing, Y. Back, and K.S. Chung. 2003. Antioxidant and memory enhancing effects of purple sweet potato anthocyanin and Cordyceps mushroom extract. Archives of Pharmacal Research 26:821–825.CrossRefGoogle Scholar
  11. Chong, M.F.F., R. Macdonald, and J.A. Lovegrove. 2010. Fruit polyphenols and CVD risk: A review of human intervention studies. British Journal of Nutrition 104: S28–S39.CrossRefGoogle Scholar
  12. Cortés, C., F. Torregrosa, M.J. Esteve, and A. Frígola. 2006. Carotenoid profile modification during refrigerated storage in untreated and pasteurized orange juice and orange juice treated with high-intensity pulsed electric fields. Journal of Agricultural and Food Chemistry 54: 6247–6254.CrossRefGoogle Scholar
  13. de Ancos, B., M.P. Cano, A. Hernandez, and M. Monreal. 1999. Effects of microwave heating on pigment composition and colour of fruit purees. Journal of the Science of Food and Agriculture 79: 663–670.CrossRefGoogle Scholar
  14. de Ancos, B., E. Gonzalez, and M.P. Cano. 2000. Effect of high-pressure treatment on the carotenoid composition and the radical scavenging activity of persimmon fruit purees. Journal of Agricultural and Food Chemistry 48: 3542–3548.CrossRefGoogle Scholar
  15. de Ancos, B., S. Sgroppo, L. Plaza, and M.P. Cano. 2002. Possible nutritional and health-related value promotion in orange juice preserved by high-pressure treatment. Journal of the Science of Food and Agriculture 82: 790–796.CrossRefGoogle Scholar
  16. del Caro, A., A. Piga, V. Vacca, and M. Agabbio. 2004a. Changes of flavonoids, vitamin C and antioxidant capacity in minimally processed citrus segments and juices during storage. Food Chemistry 84: 99–105.CrossRefGoogle Scholar
  17. del Caro, A., A. Piga, I. Pinna, P.M. Fenu, and M. Agabbio. 2004b. Effect of drying conditions and storage period on polyphenolic content, antioxidant capacity, and ascorbic acid of prunes. Journal of Agricultural and Food Chemistry 52: 4780–4784.CrossRefGoogle Scholar
  18. Duthie, G.G., S.J. Duthie, and J.A.M. Kyle. 2000. Plant polyphenol in cancer and heart disease: Implications as nutritional antioxidants. Nutrition Research Reviews 13: 79–106.CrossRefGoogle Scholar
  19. Fang, Z., M. Zhang, Y. Sun, and J. Sun. 2006. How to improve bayberry (Myrica rubra Sieb. et Zucc.) juice color quality: Effect of processing on bayberry anthocyanins and polyphenolics. Journal of Agricultural and Food Chemistry 54: 99–106.CrossRefGoogle Scholar
  20. Fernandez García, A., P. Butz, A. Bògnar, and B. Tauscher. 2001. Antioxidative capacity, nutrient content and sensory quality of orange juice and an orange-lemon-carrot juice product after high pressure treatment and storage in different packaging. European Food Research and Technology 213: 290–296.CrossRefGoogle Scholar
  21. Fish, W.W., and A.R. Davis. 2003. The effects of frozen storage conditions on lycopene stability in watermelon tissue. Journal of Agricultural and Food Chemistry 51: 3582–3585.CrossRefGoogle Scholar
  22. Fuleki, T., and J.M. Ricardo-da-Silva. 2003. Effects of cultivar and processing method on the contents of catechins and procyanidins in grape juice. Journal of Agricultural and Food Chemistry 51: 640–646.CrossRefGoogle Scholar
  23. Galvano F., L. la Fauci, G. Lazzarino, V. Fogliano, A. Ritieni, S. Ciappellano, N. C. Battistini, B. Tavazzi, and G. Galvano. 2004. Cyanidins: metabolism and biological properties. The Journal of Nutritional Biochemistry 15: 2–11.CrossRefGoogle Scholar
  24. Gaziano, J.M., E.J. Johnson, R.M. Russell, J.E. Manson, M.J. Stampfer, P.M. Ridker, B. Frei, C.H. Hennekens, and N.I. Krinsky. 1995. Discrimination in absorption or transport of β-carotene isomers after oral supplementation with either all-trans- or 9-cis-β-carotene. American Journal of Clinical Nutrition 61: 1248–1252.CrossRefGoogle Scholar
  25. Gil, M.I., E. Aguayo, and A.A. Kader. 2006. Quality changes and nutrient retention in fresh-cut versus whole fruits during storage. Journal of Agricultural and Food Chemistry 54: 4284–4296.CrossRefGoogle Scholar
  26. Gil-Izquierdo, A., M.I. Gil, and Federico Ferreres. 2002. Effect of processing techniques at industrial scale on orange juice antioxidant and beneficial health compounds. Journal of Agricultural and Food Chemistry 50: 5107–5114.CrossRefGoogle Scholar
  27. Godoy, H.T., and D.B. Rodriguez-Amaya. 1987. Changes in individual carotenoids on processing and storage of mango (Mangifera indica) slices and purée. International Journal of Food Science and Technology 22: 451–460.CrossRefGoogle Scholar
  28. ———. 1991. Comportamento dos carotenóides de purê de mamão (Carica papaya) sob processamento e estocagem. Ciência e Tecnologia de Alimentos 11: 210–220.Google Scholar
  29. Gössinger, M., S. Moritz, M. Hermes, S. Wendelin, H. Scherbichler, H. Halbwirth, K. Stich, and E. Bedrghofer. 2009. Effects of processing parameters on color stability of strawberry nectar from puree. Journal of Food Engineering 90: 171–178.CrossRefGoogle Scholar
  30. Gregory III, J.F. 2008. Vitamins. In Fennema’s food chemistry, ed. S. Damodaran, K.L. Parkin, and O.R. Fennema, 439–521. Boca Raton, FL: CRC.Google Scholar
  31. Ho, C.T., M.M. Rafi, and G. Ghai. 2008. Bioactive substances: Nutraceuticals and toxicants. In Fennema’s food chemistry, ed. S. Damodaran, K.L. Parkin, and O.R. Fennema, 751–779. Boca Raton, FL: CRC.Google Scholar
  32. Indrawati, C. Arroqui, I. Messagie, M.T. Nguyen, A. van Loey, and M. Hendrickx. 2004. Comparative study on pressure and temperature stability of 5-methyltetrahydrofolic acid in model systems and in food products. Journal of Agricultural and Food Chemistry 52: 485–492.CrossRefGoogle Scholar
  33. Indrawati, I., A. van Loey, and M. Hendrickx. 2005. Pressure and temperature stability of 5-methyltetrahydrofolic acid: A kinetic study. Journal of Agricultural and Food Chemistry 53: 3081–3087.CrossRefGoogle Scholar
  34. Institute of Medicine. 2006. Dietary DRI reference intakes: The essential guide to nutrient requirements. Washington, DC: National Academy of Sciences.Google Scholar
  35. Jägerstad, M., V. Piironen, C. Walker, G. Ros, E. Carnovale, M. Holasova, and H. Nau. 2005. Increasing natural food folates through bioprocessing and biotechnology. Trends in Food Science and Technology 16: 298–306.CrossRefGoogle Scholar
  36. Jiménez, M., and F. García-Carmona. 1999. Oxidation of the flavonol quercetin by polyphenol oxidase. Journal of Agricultural and Food Chemistry 47: 56–60.CrossRefGoogle Scholar
  37. Johnston, C.S. 2006. Vitamin C. In Present knowledge in nutrition, vol. 1, 9th ed, ed. B.A. Bowman and R.M. Russell, 233–241. Washington, DC: International Life Sciences Institute Press.Google Scholar
  38. Kader, F., J. Nicolas, and M. Metche. 1999. Degradation of pelargonidin-3-glucoside in the presence of chlorogenic acid and blueberry polyphenol oxidase. Journal of the Science of Food and Agriculture 79: 517–522.CrossRefGoogle Scholar
  39. Kader, F., M. Irmouli, J.P. Nicolas, and M. Metche. 2002. Involvement of blueberry peroxidases in the mechanisms of anthocyanin degradation in blueberry juice. Journal of Food Science 67: 910–915.CrossRefGoogle Scholar
  40. Kaya, A., O. Aydin, and S. Kolayli. 2010. Effect of different drying conditions on the vitamin C (ascorbic acid) content of Haward kiwifruits (Actinidia deliciosa Planch). Food and Bioproducts Processing 88: 165–173.CrossRefGoogle Scholar
  41. Klopotek, Y., K. Otto, and V. Böhm. 2005. Processing strawberries to different products alters contents of vitamin C, total phenolics, total anthocyanins and antioxidant capacity. Journal of Agricultural and Food Chemistry 53: 5640–5646.CrossRefGoogle Scholar
  42. Krinsky, N.I., and E.J. Johnson. 2005. Carotenoid actions and their relation to health and disease. Molecular Aspects of Medicine 26: 459–516.CrossRefGoogle Scholar
  43. Lee, H. S., and G. A. Coates. 2002. Characterization of color fade during frozen storage of red grapefruit juice concentrates. Journal of Agricultural and Food Chemistry 50: 3988–3991.CrossRefGoogle Scholar
  44. Lee, H.S., and G.A. Coates. 2003. Effect of thermal pasteurization on Valencia orange juice color and pigments. Lebensmittel-Wissenchaft und Technologie 36: 153–156.CrossRefGoogle Scholar
  45. Lee, S.K., and A.A. Kader. 2000. Preharvest and postharvest factors influencing vitamin C content of horticultural crops. Postharvest Biology and Technology 20: 207–220.CrossRefGoogle Scholar
  46. Lee, J., R.W. Durst, and R.E. Wrolstad. 2002. Impact of juice processing on blueberry anthocyanins and polyphenolics: Comparison of two pretreatments. Journal of Food Science 67: 1660–1667.CrossRefGoogle Scholar
  47. Lohachoompol, V., G. Srzednicki, and J. Craske. 2004. The change of total anthocyanins in blueberries and their antioxidant effect after drying and freezing. Journal of Biomedicine and Biotechnology 5: 248–252.CrossRefGoogle Scholar
  48. Lule, S.U., and W. Xia. 2005. Food phenolics, pros and cons: A review. Food Reviews International 21: 367–388.CrossRefGoogle Scholar
  49. Mejia-Meza, E.I., J.A. Yáñez, C.M. Remsberg, J.K. Takemoto, N.M. Davies, B. Rasco, and C. Clary. 2010. Effect of dehydration on raspberries: Polyphenol and anthocyanin retention, antioxidant capacity, and antiadipogenic activity. Journal of Food Science 75: 5–12.CrossRefGoogle Scholar
  50. Middleton Jr., E., C. Kandaswami, and T.C. Theoharides. 2000. The effects of plant flavonoids on mammalian cells: Implications for inflammation, heart disease, and cancer. Pharmacological Reviews 52: 673–751.PubMedGoogle Scholar
  51. Ngo, T., R.E. Wrolstad, and Y. Zhao. 2007. Color quality of Oregon strawberries—Impact of genotype, composition, and processing. Journal of Food Science 72: 25–32.CrossRefGoogle Scholar
  52. Nguyen, M.T., Indrawati, and M. Hendrickx. 2003. Model studies on the stability of folic acid and 5-methyltetrahydrofolic acid degradation during the thermal treatment in combination with high hydrostatic pressure. Journal of Agricultural and Food Chemistry 51: 3352–3357.CrossRefGoogle Scholar
  53. Nguyen, M.T., I. Oey, M. Hendrickx, and A. van Loey. 2006. Kinetics of (6R,S) 5-formyltetrahydrofolic acid isobaric-isothermal degradation in a model system. European Food Research and Technology 223: 325–331.CrossRefGoogle Scholar
  54. Nichenametla, S.N., T.G. Taruscio, D.L. Barney, and J.H. Exon. 2006. A review of the effects and mechanisms of polyphenolics in cancer. Critical Reviews in Food Science and Nutrition 46: 161–183.CrossRefGoogle Scholar
  55. Nienaber, U., and T.H. Shellhammer. 2001. High-pressure processing of orange juice: Combination treatments and shelf-life study. Journal of Food Science 66: 332–336.CrossRefGoogle Scholar
  56. Oms-Oliu, G., I. Odriozola-Serrano, R. Soliva-Fortuny, and O. Martín-Belloso. 2009. Effects of high-intensity pulsed electric field processing conditions on lycopene, vitamin C and antioxidant capacity of watermelon juice. Food Chemistry 115: 1312–1319.CrossRefGoogle Scholar
  57. Padula, M., and D.B. Rodriguez-Amaya. 1987. Changes in individual carotenoids and vitamin C on processing and storage on processing and storage of guava juice. Acta Alimentaria 16: 209–216.Google Scholar
  58. Patras, A., N.P. Brunton, C. O’Donnell, and B.K. Tiwari. 2010. Effect of thermal processing on anthocyanin stability in foods; mechanisms and kinetics of degradation. Trends in Food Science & Technology 21: 3–11.CrossRefGoogle Scholar
  59. Perkins-Veazie, P., and J.K. Collins. 2004. Flesh quality and lycopene stability of fresh-cut water melon. Postharvest Biology and Technology 31: 159–166.CrossRefGoogle Scholar
  60. Plaza, L., I. Crespo, S. de Pascual-Teresa, B. de Ancos, C. Sánches-Moreno, M. Muñoz, and M.P. Cano. 2011a. Impact of minimal processing on orange bioactive compounds during refrigerated storage. Food Chemistry 124: 646–651.CrossRefGoogle Scholar
  61. Plaza, L., C. Sánchez-Moreno, B. de Ancos, P. Elez-Martínez, O. Martín-Belloso, and M.P. Cano. 2011b. Carotenoid and flavanone content during refrigerated storage of orange juice processed by high-pressure, pulsed electric fields and low pasteurization. LWT--Food Science and Technology 44: 834–839.CrossRefGoogle Scholar
  62. Polydera, A.C., N.G. Stoforos, and P.S. Taoukis. 2003. Comparative shelf life study and vitamin C loss kinetics in pasteurized and high pressure processed reconstituted orange juice. Journal of Food Engineering 60: 21–29.CrossRefGoogle Scholar
  63. ———. Quality degradation kinetics of pasteurized and high pressure processed fresh Navel orange juice: Nutritional parameters and shelf life. Innovative Food Science and Emerging Technologies 6: 1–9.Google Scholar
  64. Pott, I., M. Marx, S. Neidhart, W. Mühlbauer, and R. Carle. 2003. Quantitative determination of β-carotene stereoisomers in fresh, dried, and solar-dried mangoes (Mangifera indica L.). Journal of Agricultural and Food Chemistry 51: 4527–4531.CrossRefGoogle Scholar
  65. Reed, J. 2002. Cranberry flavonoids, atherosclerosis and cardiovascular health. Critical Reviews in Food Science and Nutrition 42: 301–316.CrossRefGoogle Scholar
  66. Rivera-López, J., F.A. Vásquez-Ortiz, J.F. Ayala-Zavala, R.R. Sotelo-Mundo, and G.A. González-Aguilar. 2005. Cutting shape and storage temperature affect overall quality of fresh-cut papaya cv. ‘Maradol’. Journal of Food Science 70: 482–489.CrossRefGoogle Scholar
  67. Rodriguez, E.B., and D.B. Rodriguez-Amaya. 2007. Formation of apocarotenals and epoxycarotenoids from β-carotene by chemical reactions and autoxidation in model systems and processed foods. Food Chemistry 101: 563–572.CrossRefGoogle Scholar
  68. ———. 2009. Lycopene epoxides and apo-lycopenals formed by chemical reactions and autoxidation in model systems and processed foods. Journal of Food Science 74: 674–682.Google Scholar
  69. Rodriguez-Amaya, D.B. 1997. Carotenoids and food preparation: The retention of provitamin carotenoids in prepared, processed, and stored foods. Washington, DC: USAID-OMNI.Google Scholar
  70. ———. 1999. Changes in carotenoids during processing and storage of foods. Archivos Latinoamericanos de Nutrición 49: 38S–47S.Google Scholar
  71. ———. 2002. Effects of processing and storage on food carotenoids. Sight and Life Newsletter 3(Special Issue): 25–35.Google Scholar
  72. Rodriguez-Amaya, D.B., M. Kimura, H.T. Godoy, and J. Amaya-Farfan. 2008a. Updated Brazilian database on food carotenoids: Factors affecting carotenoid composition. Journal of Food Composition and Analysis 21: 445–463.CrossRefGoogle Scholar
  73. Rodriguez-Amaya, D.B., J. Amaya-Farfan, and E.B. Rodriguez. 2008b. Carotenoids in fruits: Biology, chemistry, technology and health benefits. In Current trends in phytochemistry, ed. F. Epifano, 167–188. Kerala, India: Research Signpost.Google Scholar
  74. Ross, J.A., and C.M. Kasum. 2002. Dietary flavonoids: Bioavailability, metabolic effects, and safety. Annual Reviews of Nutrition 22: 19–34.CrossRefGoogle Scholar
  75. Rossi, M., E. Giussani, R. Morelli, R. lo Scalzo, R.C. Nani, and D. Torreggiani. 2003. Effect of fruit blanching on phenolics and radical scavenging activity of highbush blueberry juice. Food Research International 36: 999–1005.CrossRefGoogle Scholar
  76. Sadilova, E., F.C. Stintzing, and R. Carle. 2006. Thermal degradation of acylated and nonacylated anthocyanins. Journal of Food Science 71: 504–512.CrossRefGoogle Scholar
  77. Sadilova, E., R. Carle, and F.C. Stintzing. 2007. Thermal degradation of anthocyanins and its impact on color and in vitro antioxidant capacity. Molecular Nutrition & Food Research 51: 1461–1471.CrossRefGoogle Scholar
  78. Sánchez-Moreno, C., L. Plaza, B. de Ancos, and M.P. Cano. 2003. Vitamin C, provitamin A carotenoids, and other carotenoids in high-pressurized orange juice during refrigerated storage. Journal of Agricultural and Food Chemistry 51: 647–653.CrossRefGoogle Scholar
  79. Sánchez-Moreno, C., L. Plaza, P. Elez-Martínez, B. de Ancos, O. Martín-Belloso, and M.P. Cano. 2005. Impact of high pressure and pulsed electric fields on bioactive compounds and antioxidant activity of orange juice in comparison with traditional thermal processing. Journal of Agricultural and Food Chemistry 53: 4403–4409.CrossRefGoogle Scholar
  80. Schierle, J., W. Bretzel, I. Büchler, N. Faccin, D. Hess, K. Steiner, and W. Schüep. 1997. Content and isomeric ratio of lycopene in food and human blood plasma. Food Chemistry 59: 459–465.CrossRefGoogle Scholar
  81. Schwartz, S.J., J.H. von Elbe, and M.M. Giusti. 2008. Colorants. In Fennema’s food chemistry, ed. S. Damodaran, K.L. Parkin, and O.R. Fennema, 571–638. Boca Raton, FL: CRC.Google Scholar
  82. Skrede, G., R.E. Wrolstad, and R.W. Durst. 2000. Changes in anthocyanins and polyphenolics during juice processing of highbush blueberries (Vaccinium corymbosum L.). Journal of Food Science 65: 357–364.CrossRefGoogle Scholar
  83. Stahl, W., W. Schwarz, A.R. Sundquist, and H. Sies. 1992. Cis-trans isomers of lycopene and β-carotene in human serum and tissues. Archives of Biochemistry and Biophysics 294: 173–177.CrossRefGoogle Scholar
  84. Stahl, W., W. Schwarz, J. von Laar, and H. Sies. 1995. All-trans-β-carotene preferentially accumulates in human chylomicrons and very low density lipoproteins compared with the 9-cis geometrical isomer. The Journal of Nutrition 125: 2128–2133.CrossRefGoogle Scholar
  85. Stintzing, F.C., and R. Carle. 2004. Functional properties of anthocyanins and betalains in plants, food, and in human nutrition. Trends in Food Science & Technology 15: 19–38.CrossRefGoogle Scholar
  86. Taiwo, K.A., A. Angersbach, and D. Knorr. 2003. Effects of pulsed electric field on quality factors and mass transfer during osmotic dehydration of apples. Journal of Food Process Engineering 26: 31–48.CrossRefGoogle Scholar
  87. Tapiero, H., D.M. Townsend, and K.D. Tew. 2004. The role of carotenoids in the prevention of human pathologies. Biomedicine & Pharmacotherapy 58: 100–110.CrossRefGoogle Scholar
  88. Tonon, R.V., C. Brabet, and M.D. Hubinger. 2008. Influence of process conditions on the physicochemical properties of acai (Euterpe oleraceae Mart.) powder produced by spray drying. Journal of Food Engineering 88: 411–418.CrossRefGoogle Scholar
  89. Torregrosa, F., C. Cortés, M.J. Esteve, and A. Frígola. 2005. Effect of high-intensity pulsed electric fields processing and conventional heat treatment on orange-carrot juice carotenoids. Journal of Agricultural and Food Chemistry 53: 9519–9525.CrossRefGoogle Scholar
  90. Vanamala, J., G. Cobb, N.D. Turner, J.R. Lupton, K.S. Yoo, L.M. Pike, and B.S. Patil. 2005. Bioactive compounds of grapefruit (Citrus paradise Cv. Rio Red) respond differently to postharvest irradiation, storage, and freeze drying. Journal of Agricultural and Food Chemistry 53: 3980–3985.CrossRefGoogle Scholar
  91. Vásquez-Caicedo, A.L., P. Sruamsiri, R. Carle, and S. Neidhart. 2005. Journal of Agricultural and Food Chemistry 53: 4827–4835.CrossRefGoogle Scholar
  92. Voutilainen, S., T. Nurmi, J. Mursu, and T.H. Rissanen. 2006. Carotenoids and cardiovascular health. American Journal of Clinical Nutrition 83: 1265–1271.CrossRefGoogle Scholar
  93. Wright, K.P., and A.A. Kader. 1997. Effect of controlled-atmosphere storage on the quality and carotenoid content of sliced persimmons and peaches. Postharvest Biology and Technology 10: 89–97.CrossRefGoogle Scholar
  94. Wu, X., G. Cao, and R.L. Prior. 2002. Absorption and metabolism of anthocyanins in human subjects following consumption of elderberry or blueberry. Journal of Nutrition 132: 1865–1871.CrossRefGoogle Scholar
  95. Zechmeister, L. 1962. Cis-trans isomeric carotenoids, vitamins A and arylpolyenes. Vienna: Springer.CrossRefGoogle Scholar
  96. Zhang, C., B. Trierweiler, W. Li, P. Butz, Y. Xu, C.E. Rüfer, Y. Ma, and X. Zhao. 2011. Comparison of thermal, ultraviolet-c, and high pressure treatments on quality parameters of watermelon juice. Food Chemistry 126: 254–260.CrossRefGoogle Scholar
  97. Zulueta, A., F.J. Barba, M.J. Esteve, and A. Frígola. 2010. Effects on the carotenoids pattern and vitamin A of a pulsed electric field-treated orange juice-milk beverage and behavior during storage. European Food Research and Technology 231: 525–534.CrossRefGoogle Scholar

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© Springer Science+Business Media, LLC, part of Springer Nature 2018

Authors and Affiliations

  • Delia B. Rodriguez-Amaya
    • 1
  • Jaime Amaya-Farfan
    • 1
  1. 1.University of CampinasCampinasBrazil

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