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Critical Reviews in Food Science and Nutrition Volume 57, 2017 - Issue 3
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Articles

Alternatives to conventional thermal treatments in fruit-juice processing. Part 2: Effect on composition, phytochemical content, and physicochemical, rheological, and organoleptic properties of fruit juices

Cecilia Jiménez-SánchezDepartment of Analytical Chemistry, University of Granada, Granada, Spain;Research and Development of Functional Food Centre (CIDAF), PTS Granada, Granada, Spain
,
Jesús Lozano-SánchezDepartment of Analytical Chemistry, University of Granada, Granada, Spain;Research and Development of Functional Food Centre (CIDAF), PTS Granada, Granada, Spain;Department of Agricultural and Food Sciences, Alma Mater Studiorum, University of Bologna, Bologna, Italy
,
Antonio Segura-CarreteroDepartment of Analytical Chemistry, University of Granada, Granada, Spain;Research and Development of Functional Food Centre (CIDAF), PTS Granada, Granada, SpainCorrespondence[email protected]
&
Alberto Fernández-GutiérrezDepartment of Analytical Chemistry, University of Granada, Granada, Spain;Research and Development of Functional Food Centre (CIDAF), PTS Granada, Granada, Spain
Pages 637-652 | Published online: 28 Oct 2016

References

  • Abid, M., Jabbar, S., Hu, B., Hashim, M. M., Wu, T., Lei, S., Khan, M. A., and Zeng, X. (2014a). Thermosonication as a potential quality enhancement technique of apple juice. Ultrason Sonochem. 21:984–990.
  • Abid, M., Jabbar, S., Wu, T., Hashim, M. M., Hu, B., Lei, S., and Zeng, X. (2014b). Sonication enhances polyphenolic compounds, sugars, carotenoids and mineral elements of apple juice. Ultrason Sonochem. 21:93–97.
  • Abid, M., Jabbar, S., Wu, T., Hashim, M. M., Hu, B., Lei, S., Zhang, X., and Zeng, X. (2013). Effect of ultrasound on different quality parameters of apple juice. Ultrason Sonochem. 20:1182–1187.
  • Adekunte, A., Tiwari, B. K., Scannell, A., Cullen, P. J., and O'Donnell, C. (2010a). Modelling of yeast inactivation in sonicated tomato juice. Int. J. Food Microbiol. 137:116–120.
  • Adekunte, A. O., Tiwari, B. K., Cullen, P. J., Scannell, A. G. M., and O'Donnell, C. P. (2010b). Effect of sonication on colour, ascorbic acid and yeast inactivation in tomato juice. Food Chem. 122:500–507.
  • Aguilar-Rosas, S. F., Ballinas-Casarrubias, M. L., Nevarez-Moorillon, G. V., Martin-Belloso, O., and Ortega-Rivas, E. (2007). Thermal and pulsed electric fields pasteurization of apple juice: Effects on physicochemical properties and flavour compounds. J. Food Eng. 83:41–46.
  • Aguiló-Aguayo, I., Soliva-Fortuny, R., and Martín-Belloso, O. (2010a). Optimizing critical high-intensity pulsed electric fields treatments for reducing pectolytic activity and viscosity changes in watermelon juice. Eur. Food Res. Technol. 231:509–517.
  • Aguiló-Aguayo, I., Montero-Calderón, M., Soliva-Fortuny, R., and Martín-Belloso, O. (2010b). Changes on flavor compounds throughout cold storage of watermelon juice processed by high-intensity pulsed electric fields or heat. J. Food Eng. 100:43–49.
  • Aguiló-Aguayo, I., Oms-Oliu, G., Soliva-Fortuny, R., and Martín-Belloso, O. (2009). Flavour retention and related enzyme activities during storage of strawberry juices processed by high-intensity pulsed electric fields or heat. Food Chem. 116:59–65.
  • Aguiló-Aguayo, I., Soliva-Fortuny, R., and Martín-Belloso, O. (2010c). Volatile compounds and changes in flavour-related enzymes during cold storage of high-intensity pulsed electric fieldand heat-processed tomato juices. J. Sci. Food Agric. 90:1597–1604.
  • Akin, E., and Evrendilek, G. A. (2009). Effect of pulsed electric fields on physical, chemical, and microbiological properties of formulated carrot juice. Food Sci. Technol. Int. 15:275–282.
  • Alighourchi, H., Barzegar, M., and Abbasi, S. (2008). Effect of gamma irradiation on the stability of anthocyanins and shelf-life of various pomegranate juices. Food Chem. 110:1036–1040.
  • Ayed, N., Yu, H., and Lacroix, M. (1999). Improvement of anthocyanin yield and shelf-life extension of grape pomace by gamma irradiation. Food Res. Int. 32:539–543.
  • Azhuvalappil, Z., Fan, X., Geveke, D. J., and Zhang, H. Q. (2010). Thermal and nonthermal processing of apple cider: Storage quality under equivalent process conditions. J Food Qual. 33:612–631.
  • Bakowska, A., Kucharska, A. Z., and Oszmiański, J. (2003). The effects of heating, UV irradiation, and storage on stability of the anthocyanin-polyphenol copigment complex. Food Chem. 81:349–355.
  • Bermúdez-Aguirre, D., and Barbosa-Cánovas, G. V. (2012). Inactivation of Saccharomyces cerevisiae in pineapple, grape and cranberry juices under pulsed and continuous thermo-sonication treatments. J. Food Eng. 108:383–392.
  • Bhat, R., Ameran, S. B., Voon, H. C., Karim, A. A., and Tze, L. M. (2011a). Quality attributes of starfruit (Averrhoa carambola L.) juice treated with ultraviolet radiation. Food Chem. 127:641–644.
  • Bhat, R., Kamaruddin, N. S. B. C., Min-Tze, L., and Karim, A. A. (2011b). Sonication improves kasturi lime (Citrus microcarpa) juice quality. Ultrason Sonochem. 18:1295–1300.
  • Bi, X., Liu, F., Rao, L., Li, J., Liu, B., Liao, X., and Wu, J. (2013). Effects of electric field strength and pulse rise time on physicochemical and sensory properties of apple juice by pulsed electric field. Innovative Food Sci. Emerg. Technol. 17:85–92.
  • Brat, P., Olle, D., Reynes, M., Alter, P., Brillouet, J., and Cogat, P. O. (2002). Preparation of tropical fruit purees by flash vacuum-expansion. Int. Symp. on Tropical Subtropical Fruits. 535–541.
  • Caminiti, I. M., Noci, F., Morgan, D. J., Cronin, D. A., and Lyng, J. G. (2012). The effect of pulsed electric fields, ultraviolet light or high intensity light pulses in combination with manothermosonication on selected physico-chemical and sensory attributes of an orange and carrot juice blend. Food Bioprod. Process. 90:442–448.
  • Caminiti, I. M., Noci, F., Muñoz, A., Whyte, P., Morgan, D. J., Cronin, D. A., and Lyng, J. G. (2011). Impact of selected combinations of non-thermal processing technologies on the quality of an apple and cranberry juice blend. Food Chem. 124:1387–1392.
  • Caminiti, I. M., Palgan, I., Muñoz, A., Noci, F., Whyte, P., Morgan, D. J., Cronin, D. A., and Lyng, J. G. (2012). The Effect of Ultraviolet Light on Microbial Inactivation and Quality Attributes of Apple Juice. Food Bioprocess Technol. 5:680–686.
  • Caminiti, I. M., Palgan, I., Noci, F., Muñoz, A., Whyte, P., Cronin, D. A., Morgan, D. J., and Lyng, J. G. (2011). The effect of pulsed electric fields (PEF) in combination with high intensity light pulses (HILP) on Escherichia coli inactivation and quality attributes in apple juice. Innovative Food Sci. Emerg. Technol. 12:118–123.
  • Caminiti, I. M., Palgan, I., Noci, F., Muñoz, A., Whyte, P., Cronin, D. A., Morgan, D. J., and Lyng, J. G. (2009). Evaluation of Escherichia coli inactivation and quality attributes in apple juice subjected to Pulsed electric fields (PEF) in combination with high intensity light pulses (HILP). 5th International Technical Symposium on Food Processing, Monitoring Technology in Bioprocesses and Food Quality Management, Potsdam, Germany. pp. 396–406.
  • Cao, X., Bi, X., Huang, W., Wu, J., Hu, X., and Liao, X. (2012). Changes of quality of high hydrostatic pressure processed cloudy and clear strawberry juices during storage. Innovative Food Sci. Emerg. Technol. 16:181–190.
  • Carreño, J. M., Gurrea, M. C., Sampedro, F., and Carbonell, J. V. (2011). Effect of high hydrostatic pressure and high-pressure homogenisation on Lactobacillus plantarum inactivation kinetics and quality parameters of mandarin juice. Eur. Food Res. Technol. 232:265–274.
  • Cendres, A., Chemat, F., Maingonnat, J., and Renard, C. M. G. C. (2011). An innovative process for extraction of fruit juice using microwave heating. LWT - Food Sci. Technol. 44:1035–1041.
  • Cendres, A., Chemat, F., Page, D., Le Bourvellec, C., Markowski, J., Zbrzezniak, M., Renard, C. M. G. C., and Plocharski, W. (2012). Comparison between microwave hydrodiffusion and pressing for plum juice extraction. LWT - Food Sci. Technol. 49:229–237.
  • Chen, D., Xi, H., Guo, X., Qin, Z., Pang, X., Hu, X., Liao, X., and Wu, J. (2013). Comparative study of quality of cloudy pomegranate juice treated by high hydrostatic pressure and high temperature short time. Innovative Food Sci. Emerg. Technol.
  • Cheng, L. H., Soh, C. Y., Liew, S. C., and Teh, F. F. (2007). Effects of sonication and carbonation on guava juice quality. Food Chem. 104:1396–1401.
  • Choi, L. H., and Nielsen, S. S. (2005). The effects of thermal and nonthermal processing methods on apple cider quality and consumer acceptability. J. Food Qual. 28:13–29.
  • Clydesdale, F. M. (1978). Colorimetry-methodology and applications. CRC Crit. Rev. Food Sci. Nutr. 10:243–301.
  • Corrales, M., Butz, P., and Tauscher, B. (2008). Anthocyanin condensation reactions under high hydrostatic pressure. Food Chem. 110:627–635.
  • Cortés, C., Esteve, M. J., and Frígola, A. (2008). Effect of refrigerated storage on ascorbic acid content of orange juice treated by pulsed electric fields and thermal pasteurization. Eur. Food Res. Technol. 227:629–635.
  • Cortés, C., Esteve, M. J., Rodrigo, D., Torregrosa, F., and Frígola, A. (2006). Changes of colour and carotenoids contents during high intensity pulsed electric field treatment in orange juices. Food Chem. Toxicol. 44:1932–1939.
  • Costa, M. G. M., Fonteles, T. V., de Jesus, A. L. T., Almeida, F. D. L., de Miranda, M. R. A., Fernandes, F. A. N., and Rodrigues, S. (2013). High-intensity ultrasound processing of pineapple juice. Food Bioprocess Technol. 6:997–1006.
  • Cserhalmi, Z., Sass-Kiss, Á., Tóth-Markus, M., and Lechner, N. (2006). Study of pulsed electric field treated citrus juices. Innovative Food Sci. Emerg. Technol. 7:49–54.
  • De Ancos, B., Cano, M. P., Hernandez, A., and Monreal, M. (1999). Effects of microwave heating on pigment composition and colour of fruit purees. J. Sci. Food Agric. 79:663–670.
  • Del Pozo-Insfran, D., Balaban, M. O., and Talcott, S. T. (2006). Enhancing the retention of phytochemicals and organoleptic attributes in muscadine grape juice through a combined approach between dense phase CO2 processing and copigmentation. J. Agr. Food Chem. 54:6705–6712.
  • Demirdöven, A., and Baysal, T. (2012). Optimization of ohmic heating applications for pectin methylesterase inactivation in orange juice. J. Food Sci. Technol.:1–10.
  • Demirdöven, A., and Baysal, T. (2009). The use of ultrasound and combined technologies in food preservation. Food Rev. Int. 25:1–11.
  • Elez-Martínez, P., and Martín-Belloso, O. (2007). Effects of high intensity pulsed electric field processing conditions on vitamin C and antioxidant capacity of orange juice and gazpacho, a cold vegetable soup. Food Chem. 102:201–209.
  • Elez-Martínez, P., Soliva-Fortuny, R. C., and Martín-Belloso, O. (2006). Comparative study on shelf life of orange juice processed by high intensity pulsed electric fields or heat treatment. Eur. Food Res. Technol. 222:321–329.
  • Elsinghorst, A., and Tikekar, R. V. (2014). Generation of oxidative species from ultraviolet light induced photolysis of fructose. Food Chem. 154:276–281.
  • Engmann, F. N., Ma, Y., Zhang, H., Yu, L., and Deng, N. (2014). The application of response surface methodology in studying the effect of heat and high hydrostatic pressure on anthocyanins, polyphenol oxidase, and peroxidase of mulberry (Morus nigra) juice. J. Sci. Food Agric.
  • Esteve, M. I., Barba, F. J., Palop, S., and Frígola, A. (2009). The effects of non-thermal processing on carotenoids in orange juice. Czech J. Food Sci. 27:S304–S306.
  • Evrendilek, G. A., Jin, Z. T., Ruhlman, K. T., Qiu, X., Zhang, Q. H., and Richter, E. R. (2000). Microbial safety and shelf-life of apple juice and cider processed by bench and pilot scale PEF systems. Innovative Food Sci. Emerg. Technol. 1:77–86.
  • Fabroni, S., Amenta, M., Timpanaro, N., and Rapisarda, P. (2010). Supercritical carbon dioxide-treated blood orange juice as a new product in the fresh fruit juice market. Innovative Food Sci. Emerg. Technol. 11:477–484.
  • Falguera, V., Garza, S., Pagán, J., Garvín, A., and Ibarz, A. (2013). Effect of UV-Vis irradiation on enzymatic activities and physicochemical properties of four grape musts from different varieties. Food Bioprocess Technol. 6:2223–2229.
  • Falguera, V., Pagán, J., and Ibarz, A. (2011). Effect of UV irradiation on enzymatic activities and physicochemical properties of apple juices from different varieties. LWT - Food Sci. Technol. 44:115–119.
  • Feng, M., Ghafoor, K., Seo, B., Yang, K., and Park, J. (2013). Effects of ultraviolet-C treatment in Teflon®-coil on microbial populations and physico-chemical characteristics of watermelon juice. Innovative Food Sci. Emerg. Technol. 19:133–139.
  • Fernandes, F. A. N., Gallão, M. I., and Rodrigues, S. (2009). Effect of osmosis and ultrasound on pineapple cell tissue structure during dehydration. J. Food Eng. 90:186–190.
  • Fernández-García, E., Carvajal-Lérida, I., Jarén-Galán, M., Garrido-Fernández, J., Pérez-Gálvez, A., and Hornero-Méndez, D. (2012). Carotenoids bioavailability from foods: From plant pigments to efficient biological activities. Food Res. Int. 46:438–450.
  • Ferrari, G., Maresca, P., and Ciccarone, R. (2010). The application of high hydrostatic pressure for the stabilization of functional foods: Pomegranate juice. J. Food Eng. 100:245–253.
  • Fonteles, T. V., Costa, M. G. M., de Jesus, A. L. T., de Miranda, M. R. A., Fernandes, F. A. N., and Rodrigues, S. (2012). Power ultrasound processing of cantaloupe melon juice: Effects on quality parameters. Food Res. Int. 48:41–48.
  • Fratianni, A., Cinquanta, L., and Panfili, G. (2010). Degradation of carotenoids in orange juice during microwave heating. LWT - Food Sci. Technol. 43:867–871.
  • Gasperi, F., Aprea, E., Biasioli, F., Carlin, S., Endrizzi, I., Pirretti, G., and Spilimbergo, S. (2009). Effects of supercritical CO2 and N2O pasteurisation on the quality of fresh apple juice. Food Chem. 115:129–136.
  • Géczi, G., Horváth, M., Kaszab, T., and Alemany, G. G. (2013). No major differences found between the effects of microwave-based and conventional heat treatment methods on two different liquid foods. PLoS ONE. 8(1):e53720.
  • Geveke, D. J., Brunkhorst, C., and Fan, X. (2007). Radio frequency electric fields processing of orange juice. Innovative Food Sci. Emerg. Technol. 8:549–554.
  • Gómez, P. L., Welti-Chanes, J., and Alzamora, S. M. (2011). Hurdle technology in fruit processing. Ann. Rev. Food Sci. Technol. 2:447–465.
  • Gómez-López, V. M., Devlieghere, F., Bonduelle, V., and Debevere, J. (2005). Factors affecting the inactivation of micro-organisms by intense light pulses. J. Appl. Microbiol. 99:460–470.
  • Gómez-López, V. M., Orsolani, L., Martínez-Yépez, A., and Tapia, M. S. (2010). Microbiological and sensory quality of sonicated calcium-added orange juice. LWT - Food Sci. Technol. 43:808–813.
  • Grimi, N., Lebovka, N. I., Vorobiev, E., and Vaxelaire, J. (2009). Effect of a pulsed electric field treatment on expression behavior and juice quality of Chardonnay grape. Food Biophys. 4:191–198.
  • Grimi, N., Mamouni, F., Lebovka, N., Vorobiev, E., and Vaxelaire, J. (2011). Impact of apple processing modes on extracted juice quality: Pressing assisted by pulsed electric fields. J. Food Eng. 103:52–61.
  • Grimi, N., Praporscic, I., Lebovka, N., and Vorobiev, E. (2007). Selective extraction from carrot slices by pressing and washing enhanced by pulsed electric fields. Separat. Purif. Technol. 58:267–273.
  • Guo, M., Wu, J., Xu, Y., Xiao, G., Zhang, M., and Chen, Y. (2011). Effects on microbial inactivation and quality attributes in frozen lychee juice treated by supercritical carbon dioxide. Eur. Food Res. Technol. 232:803–811.
  • Guerrero-Beltrán, J. A., and Barbosa-Cánovas, G. V. (2005). Reduction of Saccharomyces cerevisiae, Escherichia coli and Listeria innocua in apple juice by ultraviolet light. J. Food Process. Eng. 28:437–452.
  • Hart, E. J., and Henglein, A. (1985). Free radical and free atom reactions in the sonolysis of aqueous iodide and formate solutions. J. Phys. Chem. 89:4342–4347.
  • Hartyáni, P., Dalmadi, I., Cserhalmi, Z., Kántor, D., Tóth-Markus, M., and Sass-Kiss, A. (2011). Physical-chemical and sensory properties of pulsed electric field and high hydrostatic pressure treated citrus juices. Innovative Food Sci. Emerg. Technol. 12:255–260.
  • Hartyáni, P., Dalmadi, I., and Knorr, D. (2013). Electronic nose investigation of Alicyclobacillus acidoterrestris inoculated apple and orange juice treated by high hydrostatic pressure. Food Control. 32:262–269.
  • Heinz, V., Toepfl, S., and Knorr, D. (2003). Impact of temperature on lethality and energy efficiency of apple juice pasteurization by pulsed electric fields treatment. Innovative Food Sci. Emerg. Technol. 4:167–175.
  • Hsu, K., Tan, F., and Chi, H. (2008). Evaluation of microbial inactivation and physicochemical properties of pressurized tomato juice during refrigerated storage. LWT - Food Sci. Technol. 41:367–375.
  • Ibarz, A., Barbosa-Cánovas, G. V. (2003). Unit Operations in Food Engineering. CRC Press, Boca Ratón, FL.
  • Ibarz, A., Pagán, J., Panadés, R., and Garza, S. (2005). Photochemical destruction of color compounds in fruit juices. J. Food Eng. 69:155–160.
  • Icier, F., and Tavman, S. (2006). Ohmic heating behaviour and rheological properties of ice cream mixes. Int. J. Food Prop. 9:679–689.
  • Igual, M., Contreras, C., and Martínez-Navarrete, N. (2010a). Non-conventional techniques to obtain grapefruit jam. Innovative Food Sci. Emerg. Technol. 11:335–341.
  • Igual, M., García-Martínez, E., Camacho, M. M., and Martínez-Navarrete, N. (2010b). Effect of thermal treatment and storage on the stability of organic acids and the functional value of grapefruit juice. Food Chem. 118:291–299.
  • Jabbar, S., Abid, M., Hu, B., Wu, T., Hashim, M. M., Lei, S., Zhu, X., and Zeng, X. (2014). Quality of carrot juice as influenced by blanching and sonication treatments. LWT - Food Sci. Technol. 55:16–21.
  • Jo, C., Ahn, D. U., and Lee, K. H. (2012). Effect of gamma irradiation on microbiological, chemical, and sensory properties of fresh ashitaba and kale juices. Radiat. Phys. Chem. 81:1076–1078.
  • Jo, C., and Lee, K. H. (2012). Comparison of the efficacy of gamma and UV irradiation in sanitization of fresh carrot juice. Radiat. Phys. Chem. 81:1079–1081.
  • Kaur, C., George, B., Deepa, N., Jaggi, S., and Kapoor, H. C. (2007). Viscosity and quality of tomato juice as affected by processing methods. J. Food Qual. 30:864–877.
  • Kim, H. K., Leem, K., Lee, S., Kim, B., Hahm, Y. T., Cho, H., and Lee, J. Y. (2012). Effect of high hydrostatic pressure on immunomodulatory activity of cloudy apple juice. Food Sci. BioTechnol. 21:175–181.
  • Kim, Y., Park, S., Cho, Y., and Park, J. (2001). Effects of combined treatment of high hydrostatic pressure and mild heat on the quality of carrot juice. J. Food Sci. 66:1355–1360.
  • Kincal, D., Hill, W. S., Balaban, M., Portier, K. M., Sims, C. A., Wei, C. I., and Marshall, M. R. (2006). A continuous high-pressure carbon dioxide system for cloud and quality retention in orange juice. J. Food Sci. 71: C338–C344.
  • Knorr, D., Zenker, M., Heinz, V., and Lee, D. (2004). Applications and potential of ultrasonics in food processing. Trend Food Sci. Technol. 15:261–266.
  • Laboissière, L. H. E. S., Deliza, R., Barros-Marcellini, A. M., Rosenthal, A., Camargo, L. M. A. Q., and Junqueira, R. G. (2007). Effects of high hydrostatic pressure (HHP) on sensory characteristics of yellow passion fruit juice. Innovative Food Sci. Emerg. Technol. 8:469–477.
  • Lee, H., Kim, H., Cadwallader, K. R., Feng, H., and Martin, S. E. (2013). Sonication in combination with heat and low pressure as an alternative pasteurization treatment – Effect on Escherichia coli K12 inactivation and quality of apple cider. Ultrason Sonochem. 20:1131–1138.
  • Lee, J. W., Kim, J. K., Srinivasan, P., Choi, J., Kim, J. H., Han, S. B., Kim, D., and Byun, M. W. (2009). Effect of gamma irradiation on microbial analysis, antioxidant activity, sugar content and color of ready-to-use tamarind juice during storage. LWT - Food Sci. Technol. 42:101–105.
  • Lee, S., Chung, H., and Kang, D. (2006). Combined treatment of high pressure and heat on killing spores of Alicyclobacillus acidoterrestris in apple juice concentrate. J. Food Prot. 69:1056–1060.
  • Lee, S., Sagong, H., Ryu, S., and Kang, D. (2012). Effect of continuous ohmic heating to inactivate Escherichia coli O157: H7, Salmonella Typhimurium and Listeria monocytogenes in orange juice and tomato juice. J. Appl. Microbiol. 112:723–731.
  • Leizerson, S., and Shimoni, E. (2005a). Effect of ultrahigh-temperature continuous ohmic heating treatment on fresh orange juice. J. Agric. Food Chem. 53:3519–3524.
  • Leizerson, S., and Shimoni, E. (2005b). Stability and sensory shelf life of orange juice pasteurized by continuous ohmic heating. J. Agric. Food Chem. 53:4012–4018.
  • Lieu, L. N., and Le, V. V. M. (2010). Application of ultrasound in grape mash treatment in juice processing. Ultrason Sonochem. 17:273–279.
  • Lima, M., Heskitt, B. F., Burianek, L. L., Nokes, S. E., and Sastry, S. K. (1999). Ascorbic acid degradation kinetics during conventional and ohmic heating. J. Food Process. Preserv. 23:421–434.
  • Liu, Y., Zhao, X. Y., Zou, L., and Hu, X. S. (2013). Effect of high hydrostatic pressure on overall quality parameters of watermelon juice. Food Sci. Technol. Int. 19:197–207.
  • Manzocco, L., Quarta, B., and Dri, A. (2009). Polyphenoloxidase inactivation by light exposure in model systems and apple derivatives. Innovative Food Sci. Emerg. Technol. 10:506–511.
  • Marsellés-Fontanet, Á. R., Puig-Pujol, A., Olmos, P., Mínguez-Sanz, S., and Martín-Belloso, O. (2013). A comparison of the effects of pulsed electric field and thermal treatments on grape juice. Food Bioprocess Technol. 6:978–987.
  • Mert, M., Buzrul, S., and Alpas, H. (2013). Effects of high hydrostatic pressure on microflora and some quality attributes of grape juice. High Pressure Res. 33:55–63.
  • Min, S., Jin, Z. T., Min, S. K., Yeom, H., and Zhang, Q. H. (2003). Commercial-scale pulsed electric field processing of orange juice. J. Food Sci. 68:1265–1271.
  • Mishra, B. B., Gautam, S., and Sharma, A. (2011). Shelf life extension of sugarcane juice using preservatives and gamma radiation processing. J. Food Sci. 76: M573–M578.
  • Morales-de la Peña, M., Salvia-Trujillo, L., Rojas-Graü, M. A., and Martín-Belloso, O. (2010). Impact of high intensity pulsed electric field on antioxidant properties and quality parameters of a fruit juice-soymilk beverage in chilled storage. LWT - Food Sci. Technol. 43:872–881.
  • Morel-Salmi, C., Souquet, J., Bes, M., and Cheynier, V. (2006). Effect of flash release treatment on phenolic extraction and wine composition. J. Agric. Food Chem. 54:4270–4276.
  • Mullen, W., Marks, S. C., and Crozier, A. (2007). Evaluation of phenolic compounds in commercial fruit juices and fruit drinks. J. Agric. Food Chem. 55:3148–3157.
  • Nguyen, P., and Mittal, G. S. (2007). Inactivation of naturally occurring microorganisms in tomato juice using pulsed electric field (PEF) with and without antimicrobials. Chem. Eng. Process.: Process Intensification. 46:360–365.
  • Noci, F., Riener, J., Walkling-Ribeiro, M., Cronin, D. A., Morgan, D. J., and Lyng, J. G. (2008). Ultraviolet irradiation and pulsed electric fields (PEF) in a hurdle strategy for the preservation of fresh apple Juice. J. Food Eng. 85:141–146.
  • Odriozola-Serrano, I., Aguiló-Aguayo, I., Soliva-Fortuny, R., Gimeno-Añó, V., and Martín-Belloso, O. (2007). Lycopene, vitamin C, and antioxidant capacity of tomato juice as affected by high-intensity pulsed electric fields critical parameters. J. Agric. Food Chem. 55:9036–9042.
  • Odriozola-Serrano, I., Soliva-Fortuny, R., Hernández-Jover, T., and Martín-Belloso, O. (2009a). Carotenoid and phenolic profile of tomato juices processed by high intensity pulsed electric fields compared with conventional thermal treatments. Food Chem. 112:258–266.
  • Odriozola-Serrano, I., Aguiló-Aguayo, I., Soliva-Fortuny, R., and Martín-Belloso, O. (2013). Pulsed electric fields processing effects on quality and health-related constituents of plant-based foods. Trend. Food Sci. Technol. 29:98–107.
  • Odriozola-Serrano, I., Soliva-Fortuny, R., and Martín-Belloso, O. (2009b). Impact of high-intensity pulsed electric fields variables on vitamin C, anthocyanins and antioxidant capacity of strawberry juice. LWT - Food Sci. Technol. 42:93–100.
  • Odriozola-Serrano, I., Soliva-Fortuny, R., and Martín-Belloso, O. (2008a). Changes of health-related compounds throughout cold storage of tomato juice stabilized by thermal or high intensity pulsed electric field treatments. Innovative Food Sci. Emerg. Technol. 9:272–279.
  • Odriozola-Serrano, I., Soliva-Fortuny, R., and Martín-Belloso, O. (2008b). Phenolic acids, flavonoids, vitamin C and antioxidant capacity of strawberry juices processed by high-intensity pulsed electric fields or heat treatments. Eur. Food Res. Technol. 228:239–248.
  • Oms-Oliu, G., Odriozola-Serrano, I., Soliva-Fortuny, R., and Martín-Belloso, O. (2009). Effects of high-intensity pulsed electric field processing conditions on lycopene, vitamin C and antioxidant capacity of watermelon juice. Food Chem. 115:1312–1319.
  • Orlowska, M., Koutchma, T., Grapperhaus, M., Gallagher, J., Schaefer, R., and Defelice, C. (2012). Continuous and pulsed ultraviolet light for nonthermal treatment of liquid foods. Part 1: Effects on quality of fructose solution, apple juice, and milk. Food Bioprocess Technol.:1–13.
  • Oulé, K. M., Dickman, M., and Arul, J. (2013). Properties of orange juice with supercritical carbon dioxide treatment. Int J. Food Prop. 16:1693–1710.
  • Palgan, I., Caminiti, I. M., Muñoz, A., Noci, F., Whyte, P., Morgan, D. J., Cronin, D. A., and Lyng, J. G. (2011a). Combined effect of selected non-thermal technologies on Escherichia coli and Pichia fermentans inactivation in an apple and cranberry juice blend and on product shelf life. Int. J. Food Microbiol. 151:1–6.
  • Palgan, I., Caminiti, I. M., Muñoz, A., Noci, F., Whyte, P., Morgan, D. J., Cronin, D. A., and Lyng, J. G. (2011b). Effectiveness of high intensity light pulses (HILP) treatments for the control of Escherichia coli and Listeria innocua in apple juice, orange juice and milk. Food Microbiol. 28:14–20.
  • Pan, J., Wang, H., Xie, H., Yang, Y., and Zeng, Q. (2011). Effect of ultra high hydrostatic pressure on concentrations of limonene, A- terpineol and carvone in navel orange juice. J. Food Process Eng. 34:728–745.
  • Paranjpe, S.S. and Morgan, M. T. (2007). Improving grape juice yield and quality using flash vacuum expansion. 2007 ASABE Annual International Meeting, Technical Papers. 12 BOOK.
  • Paranjpe, S. S., Ferruzzi, M., and Morgan, M. T. (2012). Effect of a flash vacuum expansion process on grape juice yield and quality. LWT - Food Sci. Technol. 48:147–155.
  • Patil, S., Torres, B., Tiwari, B. K., Wijngaard, H. H., Bourke, P., Cullen, P. J., O'Donnell, C. P., and Valdramidis, V. P. (2010a). Safety and quality assessment during the ozonation of cloudy apple juice. J. Food Sci. 75: M437–M443.
  • Patil, S., Valdramidis, V. P., Cullen, P. J., Frias, J., and Bourke, P. (2010b). Inactivation of Escherichia coli by ozone treatment of apple juice at different pH levels. Food Microbiol. 27:835–840.
  • Picouet, P. A., Landl, A., Abadias, M., Castellari, M., and Viñas, I. (2009). Minimal processing of a Granny Smith apple purée by microwave heating. Innovative Food Sci. Emerg. Technol. 10:545–550.
  • Polydera, A. C., Stoforos, N. G., and Taoukis, P. S. (2003). Comparative shelf life study and vitamin C loss kinetics in pasteurised and high pressure processed reconstituted orange juice. J. Food Eng. 60:21–29.
  • Praporscic, I., Lebovka, N., Vorobiev, E., and Mietton-Peuchot, M. (2007). Pulsed electric field enhanced expression and juice quality of white grapes. Separat Purif. Technol. 52:520–526.
  • Puértolas, E., López, N., Saldaña, G., Álvarez, I., and Raso, J. (2010). Evaluation of phenolic extraction during fermentation of red grapes treated by a continuous pulsed electric fields process at pilot-plant scale. J. Food Eng. 98:120–125.
  • Puértolas, E., Saldaña, G., Condón, S., Álvarez, I., and Raso, J. (2009). A comparison of the effect of macerating enzymes and pulsed electric fields technology on phenolic content and color of red wine. J. Food Sci. 74: C647–C652.
  • Queiroz, C., Moreira, C. F. F., Lavinas, F. C., Lopes, M. L. M., Fialho, E., and Valente-Mesquita, V. L. (2010). Effect of high hydrostatic pressure on phenolic compounds, ascorbic acid and antioxidant activity in cashew apple juice. High Pressure Res. 30:507–513.
  • Rao, M. A. (1999). Rheology of Fluid and Semisolid Foods: Principles and Applications. Aspen Publishers, Gaithersburg.
  • Salvia-Trujillo, L., Morales-De La Peña, M., Rojas-Graü, A., and Martín-Belloso, O. (2011). Changes in water-soluble vitamins and antioxidant capacity of fruit juice-milk beverages as affected by high-intensity pulsed electric fields (HIPEF) or heat during chilled storage. J. Agric. Food Chem. 59:10034–10043.
  • Santhirasegaram, V., Razali, Z., and Somasundram, C. (2013). Effects of thermal treatment and sonication on quality attributes of Chokanan mango (Mangifera indica L.) juice. Ultrason Sonochem. 20:1276–1282.
  • Schilling, S., Alber, T., Toepfl, S., Neidhart, S., Knorr, D., Schieber, A., and Carle, R. (2007). Effects of pulsed electric field treatment of apple mash on juice yield and quality attributes of apple juices. Innovative Food Sci. Emerg. Technol. 8:127–134.
  • Schilling, S., Toepfl, S., Ludwig, M., Dietrich, H., Knorr, D., Neidhart, S., Schieber, A., and Carle, R. (2008). Comparative study of juice production by pulsed electric field treatment and enzymatic maceration of apple mash. Eur. Food Res. Technol. 226:1389–1398.
  • Seshadri, R., Weiss, J., Hulbert, G. J., and Mount, J. (2003). Ultrasonic processing influences rheological and optical properties of high-methoxyl pectin dispersions. Food Hydrocoll. 17:191–197.
  • Shamsudin, R., Ling, C. S., Adzahan, N. M., and Daud, W. R. W. (2013). Rheological properties of ultraviolet-irradiated and thermally pasteurized Yankee pineapple juice. J. Food Eng. 116:548–553.
  • Sila, D. N., Van Buggenhout, S., Duvetter, T., Fraeye, I., De Roeck, A., Van Loey, A., and Hendrickx, M. (2009). Pectins in processed fruits and vegetables: Part II - Structure-function relationships. Compr. Rev. Food Sci. Food Safety. 8:86–104.
  • Šimunek, M., Jambrak, A. R., Petrovic, M., Juretic, H., Major, N., Herceg, Z., Hruškar, M., and Vukušic, T. (2013). Aroma profile and sensory properties of ultrasound-treated apple juice and nectar. Food Technol. BioTechnol. 51:101–111.
  • Slavov, A., Karagyozov, V., Denev, P., Kratchanova, M., and Kratchanov, C. (2013). Antioxidant activity of red beet juices obtained after microwave and thermal pretreatments. Czech J. Food Sci. 31:139–147.
  • Song, H., Byun, M., Jo, C., Lee, C., Kim, K., and Kim, D. (2007). Effects of gamma irradiation on the microbiological, nutritional, and sensory properties of fresh vegetable juice. Food Control. 18:5–10.
  • Song, H., Kim, D., Jo, C., Lee, C., Kim, K., and Byun, M. (2006). Effect of gamma irradiation on the microbiological quality and antioxidant activity of fresh vegetable juice. Food Microbiol. 23:372–378.
  • Stewart, C. M., Tompkin, R. B., and Cole, M. B. (2002). Food safety: New concepts for the new millennium. Innovative Food Sci. Emerg. Technol. 3:105–112.
  • Stinco, C. M., Fernández-Vázquez, R., Heredia, F. J., Meléndez-Martínez, A. J., and Vicario, I. M. (2013). Bioaccessibility, antioxidant activity and colour of carotenoids in ultrafrozen orange juices: Influence of thawing conditions. LWT - Food Sci. Technol. 53:458–463.
  • Suárez-Jacobo, Á., Rüfer, C. E., Gervilla, R., Guamis, B., Roig-Sagués, A. X., and Saldo, J. (2011). Influence of ultra-high pressure homogenisation on antioxidant capacity, polyphenol and vitamin content of clear apple juice. Food Chem. 127:447–454.
  • Sung, H., Song, W., Kim, K., Ryu, S., and Kang, D. (2014). Combination effect of ozone and heat treatments for the inactivation of Escherichia coli O157: H7, Salmonella Typhimurium, and Listeria monocytogenes in apple juice. Int. J. Food Microbiol. 171:147–153.
  • Supeno,  , and Kruus, P. (2000). Sonochemical formation of nitrate and nitrite in water. Ultrason Sonochem. 7:109–113.
  • Tannenbaum, S. R., Archer, M. C., and Young, V. R. (1985). Vitamins and minerals. In: Food Chemistry, Marcel Dekker Inc., New York, pp. 488–493.
  • Tikekar, R. V., Anantheswaran, R. C., and LaBorde, L. F. (2011). Ascorbic Acid Degradation in a Model Apple Juice System and in Apple Juice during Ultraviolet Processing and Storage. J. Food Sci. 76:62–71.
  • Tiwari, B. K., Muthukumarappan, K., O'Donnell, C. P., Chenchaiah, M., and Cullen, P. J. (2008). Effect of ozonation on the rheological and colour characteristics of hydrocolloid dispersions. Food Res. Int. 41:1035–1043.
  • Tiwari, B. K., Muthukumarappan, K., O'Donnell, C. P., and Cullen, P. J. (2008a). Colour degradation and quality parameters of sonicated orange juice using response surface methodology. LWT - Food Sci. Technol. 41:1876–1883.
  • Tiwari, B. K., Muthukumarappan, K., O'Donnell, C. P., and Cullen, P. J. (2008b). Kinetics of freshly squeezed orange juice quality changes during ozone processing. J. Agric. Food Chem. 56:6416–6422.
  • Tiwari, B. K., Muthukumarappan, K., O'Donnell, C. P., and Cullen, P. J. (2008c). Modelling colour degradation of orange juice by ozone treatment using response surface methodology. J. Food Eng. 88:553–560.
  • Tiwari, B. K., O'Donnell, C. P., Patras, A., and Cullen, P. J. (2008d). Anthocyanin and ascorbic acid degradation in sonicated strawberry juice. J. Agr. Food Chem. 56:10071–10077.
  • Tiwari, B. K., O'Donnell, C. P., Brunton, N. P., and Cullen, P. J. (2009a). Degradation kinetics of tomato juice quality parameters by ozonation. Int. J. Food Sci. Technol. 44:1199–1205.
  • Tiwari, B. K., O'Donnell, C. P., and Cullen, P. J. (2009b). Effect of non thermal processing technologies on the anthocyanin content of fruit juices. Trend. Food Sci. Technol. 20:137–145.
  • Tiwari, B. K., O'Donnell, C. P., Muthukumarappan, K., and Cullen, P. J. (2009c). Anthocyanin and colour degradation in ozone treated blackberry juice. Innovative Food Sci. Emerg. Technol. 10:70–75.
  • Tiwari, B. K., O'Donnell, C. P., Muthukumarappan, K., and Cullen, P. J. (2009d). Effect of sonication on orange juice quality parameters during storage. Int. J. Food Sci. Technol. 44:586–595.
  • Tiwari, B. K., O'Donnell, C. P., Patras, A., Brunton, N., and Cullen, P. J. (2009e). Anthocyanins and color degradation in ozonated grape juice. Food Chem. Toxicol. 47:2824–2829.
  • Tiwari, B. K., O'Donnell, C. P., Patras, A., Brunton, N., and Cullen, P. J. (2009f). Effect of ozone processing on anthocyanins and ascorbic acid degradation of strawberry juice. Food Chem. 113:1119–1126.
  • Tiwari, B. K., Muthukumarappan, K., O'Donnell, C. P., and Cullen, P. J. (2009g). Inactivation kinetics of pectin methylesterase and cloud retention in sonicated orange juice. Innovative Food Sci. Emerg. Technol. 10:166–171.
  • Tiwari, B. K., Patras, A., Brunton, N., Cullen, P. J., and O'Donnell, C. P. (2010). Effect of ultrasound processing on anthocyanins and color of red grape juice. Ultrason Sonochem. 17:598–604.
  • Tolstoguzov, V. B. (1990). Ionic strength and poly ion charges. Int. Food Ingredients. 2:8–9.
  • Tomlin, B. D., Jones, S. E., Teixeira, A. A., Correll, M. J., and Reyes-De-Corcuera, J. I. (2014). Kinetics of viscosity reduction of pectin solutions using a pectinase formulation at high hydrostatic pressure. J Food Eng. 129:47–52.
  • Torlak, E. (2014). Efficacy of ozone against Alicyclobacillus acidoterrestris spores in apple juice. Int. J. Food Microbiol. 172:1–4.
  • Torregrosa, F., Esteve, M. J., Frígola, A., and Cortés, C. (2006). Ascorbic acid stability during refrigerated storage of orange-carrot juice treated by high pulsed electric field and comparison with pasteurized juice. J. Food Eng. 73:339–345.
  • Torres, B., Tiwari, B. K., Patras, A., Wijngaard, H. H., Brunton, N., Cullen, P. J., and O'Donnell, C. P. (2011). Effect of ozone processing on the colour, rheological properties and phenolic content of apple juice. Food Chem. 124:721–726.
  • Tumpanuvatr, T., and Jittanit, W. (2012). The temperature prediction of some botanical beverages, concentrated juices and purees of orange and pineapple during ohmic heating. J. Food Eng. 113:226–233.
  • Turk, M. F., Baron, A., and Vorobiev, E. (2010). Effect of pulsed electric fields treatment and mash size on extraction and composition of apple juices. J. Agric. Food Chem. 58:9611–9616.
  • Turk, M. F., Billaud, C., Vorobiev, E., and Baron, A. (2012a). Continuous pulsed electric field treatment of French cider apple and juice expression on the pilot scale belt press. Innovative Food Sci. Emerg. Technol. 14:61–69.
  • Turk, M. F., Vorobiev, E., and Baron, A. (2012b). Improving apple juice expression and quality by pulsed electric field on an industrial scale. LWT - Food Sci. Technol. 49:245–250.
  • Valappil, Z. A., Fan, X., Zhang, H. Q., and Rouseff, R. L. (2009). Impact of thermal and nonthermal processing technologies on unfermented apple cider aroma volatiles. J. Agric. Food Chem. 57:924–929.
  • Vallverdú-Queralt, A., Odriozola-Serrano, I., Oms-Oliu, G., Lamuela-Raventós, R. M., Elez-Martínez, P., and Martín-Belloso, O. (2013). Impact of high-intensity pulsed electric fields on carotenoids profile of tomato juice made of moderate-intensity pulsed electric field-treated tomatoes. Food Chem. 141:3131–3138.
  • Vanamala, J., Cobb, G., Loaiza, J., Yoo, K., Pike, L. M., and Patil, B. S. (2007). Ionizing radiation and marketing simulation on bioactive compounds and quality of grapefruit (Citrus paradisi c.v. Rio Red). Food Chem. 105:1404–1411.
  • Velázquez-Estrada, R. M., Hernández-Herrero, M. M., Guamis-López, B., and Roig-Sagués, A. X. (2012). Impact of ultra high pressure homogenization on pectin methylesterase activity and microbial characteristics of orange juice: A comparative study against conventional heat pasteurization. Innovative Food Sci. Emerg. Technol. 13:100–106.
  • Vervoort, L., Van der Plancken, I., Grauwet, T., Timmermans, R. A. H., Mastwijk, H. C., Matser, A. M., Hendrickx, M. E., and Van Loey, A. (2011). Comparing equivalent thermal, high pressure and pulsed electric field processes for mild pasteurization of orange juice: Part II: Impact on specific chemical and biochemical quality parameters. Innovative Food Sci. Emerg. Technol. 12:466–477.
  • Vikram, V. B., Ramesh, M. N., and Prapulla, S. G. (2005). Thermal degradation kinetics of nutrients in orange juice heated by electromagnetic and conventional methods. J. Food Eng. 69:31–40.
  • Walkling-Ribeiro, M., Noci, F., Cronin, D. A., Lyng, J. G., and Morgan, D. J. (2009). Shelf life and sensory evaluation of orange juice after exposure to thermosonication and pulsed electric fields. Food Bioprod Process. 87:102–107.
  • Walkling-Ribeiro, M., Noci, F., Cronin, D. A., Lyng, J. G., and Morgan, D. J. (2008a). Inactivation of Escherichia coli in a tropical fruit smoothie by a combination of heat and pulsed electric fields. J. Food Sci. 73: M395–M399.
  • Walkling-Ribeiro, M., Noci, F., Cronin, D. A., Riener, J., Lyng, J. G., and Morgan, D. J. (2008b). Reduction of Staphylococcus aureus and quality changes in apple juice processed by ultraviolet irradiation, pre-heating and pulsed electric fields. J. Food Eng. 89:267–273.
  • Wood, O. B., and Bruhn, C. M. (2000). Position of the American Dietetic Association: food irradiation. J. Am. Diet. Assoc. 100:246–253.
  • Wu, J., Gamage, T. V., Vilkhu, K. S., Simons, L. K., and Mawson, R. (2008). Effect of thermosonication on quality improvement of tomato juice. Innovative Food Sci. Emerg. Technol. 9:186–195.
  • Yeom, H. W., Streaker, C. B., Howard Zhang, Q., and Min, D. B. (2000). Effects of pulsed electric fields on the quality of orange juice and comparison with heat pasteurization. J. Agric. Food Chem. 48:4597–4605.
  • Yildiz, H., Bozkurt, H., and Icier, F. (2009). Ohmic and conventional heating of pomegranate juice: Effects on rheology, color, and total phenolics. Food Sci. Technol. Int. 15:503–512.
  • Yousefi, S., Emam-Djomeh, Z., Mousavi, S. M. A., and Askari, G. R. (2012). Comparing the effects of microwave and conventional heating methods on the evaporation rate and quality attributes of pomegranate (Punica granatum L.) juice concentrate. Food Bioprocess Technol. 5:1328–1339.
  • Zabetakis, I., Leclerc, D., and Kajda, P. (2000). The effect of high hydrostatic pressure on the strawberry anthocyanins. J. Agric. Food Chem. 48:2749–2754.
  • Zafra-Rojas, Q. Y., Cruz-Cansino, N., Ramírez-Moreno, E., Delgado-Olivares, L., Villanueva-Sánchez, J., and Alanís-García, E. (2013). Effects of ultrasound treatment in purple cactus pear (Opuntia ficus-indica) juice. Ultrason Sonochem. 20:1283–1288.
  • Zárate-Rodríguez, E., Ortega-Rivas, E., and Barbosa-Cánovas, G. V. (2000). Quality changes in apple juice as related to nonthermal processing. J. Food Qual. 23:337–349.
  • Zen, J., Tsai, D., and Yang, H. (2002). Direct determination of Vitamin C in fruit juices using a polyviologen-modified electrode. Electroanalysis. 14:1597–1600.
  • Zenker, M., Heinz, V., and Knorr, D. (2003). Application of ultrasound-assisted thermal processing for preservation and quality retention of liquid foods. J. Food Prot. 66:1642–1649.
  • Zhang, S., Wang, X., Yu, Y., and Guo, H. (2010a). Effects of microwave treatment of raw apple on browning of apple juice. Nongye Gongcheng Xuebao/Trans. Chin. Soc. Agr. Eng. 26:347–351.
  • Zhang, S., Wang, X., Yu, Y., and Guo, H. (2010b). Effects of microwave treatment of raw apple on browning of apple juice. Nongye Gongcheng Xuebao/Trans. Chin. Soc. Agr. Eng. 26:347–351.
  • Zhang, S. Y., and Wen, Y. J. (2013). Microwave pre-treatment reduced the browning of peach juice. Adv. Mater. Res. 774–776:614–620.
  • Zhang, Y., Gao, B., Zhang, M., Shi, J., and Xu, Y. (2010c). Pulsed electric field processing effects on physicochemical properties, flavor compounds and microorganisms of longan juice. J. Food Process Preserv. 34:1121–1138.
  • Zhang, Y., Hu, X. S., Chen, F., Wu, J. H., Liao, X. J., and Wang, Z. F. (2008). Stability and colour characteristics of PEF-treated cyanidin-3-glucoside during storage. Food Chem. 106:669–676.
  • Zhou, L., Wang, Y., Hu, X., Wu, J., and Liao, X. (2009). Effect of high pressure carbon dioxide on the quality of carrot juice. Innovative Food Sci. Emerg. Technol. 10:321–327.
  • Zhu, Z., Bals, O., Grimi, N., Ding, L., and Vorobiev, E. (2013). Qualitative characteristics and dead-end ultrafiltration of chicory juice obtained from pulsed electric field treated chicories. Ind. Crop. Prod. 46:8–14.

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