Anti-browning Effect of Combined Calcium Lactate and Heat Treatment in Fresh-cut Organic Thai Eggplant cv. Chao Phraya
Abstract
Organic fresh-cut Thai eggplants cv. Chao Phraya were treated with 0.5% calcium lactate at ambient, 50°C or 60°C for 1 and 5 minutes before storage at 10°C with 90% relative humidity for 6 days. No calcium lactate treatment served as the control which turned brown very rapidly, reaching the browning limit of acceptability in less than one day. Calcium lactate at 50-60°C for 1 minute markedly slowed browning based on sensory scores, lightness (L*) values and brown pigment concentration. The treated eggplants had very slight browning symptoms after one day and reached the browning limit of acceptability after 4-5 days of storage. Correspondingly, the activities of polyphenol oxidase (PPO), peroxidase (POD) and phenylalanine ammonia lyase (PAL) were lowest while phenolics contents were highest among treatments. Prolonging the combined treatment duration to 5 minutes induced browning that was comparable to the control. Ambient calcium lactate treatment for 1 and 5 minutes had comparable intermediate responses in browning development and changes in phenolics content, PPO, POD and PAL activities. The treated fresh-cut eggplants reached the browning limit of acceptability in 2-3 days of storage.
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Abeele, C. V., Raes, K., & Sampers, I. (2019). Effect of mild heat treatment on browning‐related parameters in fresh-cut Iceberg lettuce. Journal of Food Biochemistry, 43(7), e12906. DOI
Ajmera, R. (2023). 7 Surprising Health Benefits of Eggplants. Healthline; Healthline Media. website
Araji, S., Grammer, T. A., Gertzen, R., Anderson, S. D., Petkovsek, M. M., Veberic, R., Phu, M. L., Solar, A., Leslie, C. A., Dandekar, A. M., & Escobar, M. A. (2014). Novel roles for the polyphenol oxidase enzyme in secondary metabolism and the regulation of cell death in walnut. Plant Physiology, 164(3), 1191-1203. DOI
Artés-Hernández, F., Martínez-Hernández, G. B., Aguayo, E., Gómez, P. A., & Artés, F. (2017). Fresh-cut fruit and vegetables: Emerging eco-friendly techniques for sanitation and preserving safety. In I. Kahramanoglu (Ed.), Postharvest Handling. InTech. DOI
Bradford, M. M. (1976). A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. Analytical Biochemistry, 72(1-2), 248-254. DOI
Chaurasia, J., Kumar, U., Warang, O., Pratap, R., Kumar, A., Sonkar, V. L., & Bisht, R. (2024). Essential principles of postharvest heat treatments in fruit crops. International Journal of Environment and Climate Change, 14(1), 855-870. DOI
Chen, X., Ren, L., Li, M., Qian, J., Fan, J., & Du, B. (2017). Effects of clove essential oil and eugenol on quality and browning control of fresh-cut lettuce. Food Chemistry, 214, 432-439. DOI
Cirilli, M., Caruso, G., Gennai, C., Urbani, S., Frioni, E., Ruzzi, M., Servili, M., Gucci, R., Poerio, E., & Muleo, R. M. (2017). The role of polyphenoloxidase, peroxidase, and β-glucosidase in phenolics accumulation in Olea europaea L. fruits under different water regimes. Frontiers in Plant Science, 8, 1-13. DOI
Degl’Innocenti, E., Guidi, L., Pardossi, A., & Tognoni, F. (2005). Biochemical study of leaf browning in minimally processed leaves of lettuce (Lactuca sativa L. var. Acephala). Journal of Agricultural and Food Chemistry, 53(26), 9980-9984. DOI
Feng, Y., Feng, C., Wang, Y., Gao, S., Sun, P., Yan, Z., Su, X., Sun, Y., & Zhu, Q. (2022). Effect of CaCl2 treatment on enzymatic browning of fresh-cut luffa (Luffa cylindrica). Horticulturae, 8(6) 473. DOI
Hisaminato, H., Murata, M., & Homma, S. (2001). Relationship between the enzymatic browning and phenylalanine ammonia-lyase activity of cut lettuce, and the prevention of browning by inhibitors of polyphenol biosynthesis. Bioscience, Biotechnology, and Biochemistry, 65(5), 1016-1021. DOI
Jiang, Y -M., & Chen, F. (1995). A study on polyamine change and browning of fruit during cold storage of litchi (Litchi chinensis Sonn.). Postharvest Biology and Technology, 5(3), 245-250. DOI
Khurnpoon, L., & Siriphanich, J. (2018). The roles of calcium lactate on bruised damage in papaya fruit. International Journal of Agricultural Technology, 14(6), 871-880. PDF
Kong, J. -Q. (2015). Phenylalanine ammonia-lyase, a key component used for phenylpropanoids production by metabolic engineering. RSC Advances, 5(77), 62587-62603. DOI
Krongyut, W., Kingwatee, N., & Shaban, N. T. (2024). Efficacy of calcium lactate in reducing browning of fresh-cut organic Thai eggplant cv. Chao phraya. AGRIVITA Journal of Agricultural Science, 46(3), 481-490. DOI
Lichanporn, I., Srilaong, V., Wongs-Aree, C., & Kanlayanarat, S. (2009). Postharvest physiology and browning of longkong (Aglaia dookkoo Griff.) fruit under ambient conditions. Postharvest Biology and Technology, 52(3), 294-299. DOI
Lichter, A., Dvir, O., Rot, I., Akerman, M., Regev, R., Wiesblum, A., Fallik, E., Zauberman, G., & Fuchs, Y. (2000). Hot water brushing: An alternative method to SO2 fumigation for color retention of litchi fruits. Postharvest Biology and Technology, 18(3), 235-244. DOI
Liu, X., Zhang, A., Shang, J., Zhu, Z., Li, Y., Wu, X., & Zha, D. (2021). Study on browning mechanism of fresh-cut eggplant (Solanum melongena L.) based on metabolomics, enzymatic assays and gene expression. Scientific Reports, 11, 6937. DOI
Martín-Diana, A. B., Rico, D., Barry-Ryan, C., Frias, J. M., Mulcahy, J., & Henehan, G. T. M. (2005). Calcium lactate washing treatments for saladcut Iceberg lettuce: Effect of temperature and concentration on quality retention parameters. Food Research International, 38(7), 729-740. DOI
Martín-Diana, A. B., Rico, D., Frías, J., Henehan, G. T. M., Mulcahy, J., Barat, J. M., & Barry-Ryan, C. (2006). Effect of calcium lactate and heat-shock on texture in fresh-cut lettuce during storage. Journal of Food Engineering, 77(2006), 1069-1077. DOI
Moon, K. M., Kwon, E. B., Lee, B., & Kim, C. Y. (2020). Recent trends in controlling the enzymatic browning of fruit and vegetable products. Molecules, 25(12), 2754. DOI
Naser, F., Rabiei, V., Razavi, F., & Khademi, O. (2018). Effect of calcium lactate in combination with hot water treatment on the nutritional quality of persimmon fruit during cold storage. Scientia Horticulturae, 233, 114-123. DOI
NCBI. (2024). PubChem Compound Summary for CID 13144, Calcium lactate. National Center for Biotechnology Information. website
Phanumong, P., Sangsuwan, J., Kim, S. M., & Rattanapanone, N. (2016). The improvement of texture and quality of minimally processed litchi fruit using various calcium salts. Journal of Food Processing and Preservation, 40, 1297-1308. DOI
Rageh, M. A., & Abou-Elwafa, S. M. (2018). Effect of hot calcium chloride and acetic acid solutions or hot water treatment on inhibiton of total microbial counts and browning in lettuce stem cut during cold storage. Annuals of Agricultural Science, Moshtohor, 56(3), 709-720. DOI
Ren, H., Zhao, X., Li, W., Hussain, J., Qi, G, & Liu, S. (2021) Calcium signaling in plant programmed cell death. Cells. 10(5), 1089. DOI
Rico, D., Martín-Diana, A. B., Frías, J. M., Barat, J. M., Henehan, G. T. M., & Barry-Ryan, C. (2007). Improvement in texture using calcium lactate and heat shock treatments for stored ready-to-eat carrots. Journal of Food Engineering, 79(4), 1196-1206. DOI
Sarengaowa, Wang, L., Liu, Y., Yang, C., Feng, K., & Hu, W. (2022). Effect of ascorbic acid combined with modified atmosphere packaging for browning of fresh-cut eggplant. Coatings, 12, 1580. DOI
Sharma, A., Shahzad, B., Rehman, A., Bhardwaj, R., Landi, M., & Zheng, B. (2019). Response of phenylpropanoid pathway and the role of polyphenols in plants under abiotic stress. Molecules, 24(13), 2452. DOI
Supapvanich, S., Pimsanga, J., & Srisujan, P. (2011). Physiochemical changes in freshcut wax apple (Syzygium samarangenese [Blume] Merrill & L. M. Perry) during storage. Food Chemistry, 127(3), 912-917. DOI
Techakanon, C., & Barrett, D. M. (2017). The effect of calcium chloride and calcium lactate pretreatment concentration on peach cell integrity after high-pressure processing. International Journal of Food Science Technology, 52(3), 635-643. DOI
Tinello, F., & Lante, A. (2018). Recent advances in controlling polyphenol oxidase activity of fruit and vegetable products. Innovative Food Science & Emerging Technologies, 50, 73-83. DOI
Zhang, Z., Pang, X., Xuewu, D., Ji, Z., & Jiang, Y. (2005). Role of peroxidase in anthocyanin degradation in litchi fruit pericarp. Food Chemistry, 90(1-2), 47-52. DOI
Zhang, S. (2023). Recent advances of polyphenol oxidases in plants. Molecules, 28(5), 2158. DOI
Zheng, H., Liu, W., Liu, S., Liu, C., & Zheng, L. (2019). Effects of melatonin treatment on the enzymatic browning and nutritional quality of fresh-cut pear fruit. Food Chemistry, 299, 125116. DOI
DOI: http://doi.org/10.17503/agrivita.v47i1.4493
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