Effect of clarification on some characteristics of pomegranate juice processed by two different methods during storage

Authors

DOI:

https://doi.org/10.5965/223811712222023321

Keywords:

pomegranate juice, clarifiers, microwave

Abstract

This study aimed to assess the effectiveness of two clarifying procedures and their effects on some properties in thermally or microwave-pasteurized pomegranate juices. The experiment consisted in combining pectinase and protease as well as chitosan and gelatin once they were being stored in the refrigerator. The experiment consisted in three parts, being the first one a fresh juice without any clarification treatment, whereas, the second one was the fresh juice treated with clarifying agent consisted of pectinase and protease mixture ratio (2:1) at 0.75 v/v,and 50 °C for 20 min. Finally, the third one was fresh juice treated with chitosan and gelatin mixture at 0.4 and 0.8) g/L, respectively, at 50 °C for (20) min. The pasteurization of all three experiments was done by using two techniques, i.e., one with thermal water bath at 85 °C for two min and the microwave at 400 Watts for two min. All pomegranate juice bottles were stored at 4 °C for three months. The results showed a significant effect of the clarification method variable on the properties studied, especially turbidity, polyphenol and anthocyanin values. Moreover, the juice clarified with the enzymatic clarification method had better characteristics than the traditional ones during storage, what has therefore a better commercial appeal. The area of significance was founded with the use of traditional clarification with concentration at (0.4 and 0.8) g/l, and microwave pasteurization with 400 watts and zero month of storage at 4 °C, respectively, which is provided a minimum turbidity value.

Downloads

Download data is not yet available.

References

ALPER N et al. 2005. Influence of processing and pasteurization on color values and total phenolic compounds of pomegranate juice. Journal of food processing and preservation 29: 357-368.‏

ALUKO A et al. 2023. Effect of clarification on physicochemical properties and nutrient retention of pressed and blended cashew apple juice. Food Science & Nutrition 11: 1-13.

AMOBONYE A et al. 2022. Pear Juice Clarification Using Polygalacturonase from Beauveria bassiana: Effects on Rheological, Antioxidant and Quality Properties. Polish Journal of Food and Nutrition Sciences 72: 57-67.‏

ASKIN B et al. 2022. Changes in anthocyanins and colour of black mulberry (Morus nigra) juice during clarification and pasteurization. Journal of Food Measurement and Characterization 16: 784-792.

CANO‐LAMADRID M et al. 2019. A Critical Overview of Labeling Information of Pomegranate Juice‐Based Drinks: Phytochemicals Content and Health Claims. Journal of food science 84: 886-894.

CASSANO A et al. 2011. Clarification and concentration of pomegranate juice (Punica granatum L.) using membrane processes. Journal of Food Engineering 107: 366-373. ‏

CERRETI M et al. 2017. Optimization of pectinase and protease clarification treatment of pomegranate juice. LWT-Food Science and Technology 82: 58-65.

CHATTERJEE S et al. 2004. Clarification of fruit juice with chitosan. Process biochemistry 39: 2229-2232.

CONIDI C et al. 2020. Perspective of membrane technology in pomegranate juice processing: a review. Foods 9: 889.‏

DAVARCI A et al. 2019. Influence of processing steps on phenolic composition of clarified and unclarified pomegranate juices as characterized by LC‐DAD‐ESI‐MS/MS. Journal of Food Processing and Preservation 43: e14018.‏

DERELI U et al. 2015. Effects of Clarification and Pasteurization on the Phenolics, Antioxidant Capacity, Color Density and Polymeric Color of Black Carrot (D aucus Carota L.) Juice. Journal of food biochemistry 39: 528-537.

DIBLAN & ÖZKAN M. 2021. Effects of various clarification treatments on anthocyanins, color, phenolics and antioxidant activity of red grape juice. Food Chemistry 352: 129321.

ERKAN-KOÇ B et al. 2015. Effects of various protein-and polysaccharide-based clarification agents on antioxidative compounds and colour of pomegranate juice. Food chemistry 184: 37-45.‏

GHOSH P et al. 2016. Optimization of process parameters for enhanced production of Jamun juice using Pectinase (Aspergillus aculeatus) enzyme and its characterization. Biotech 6: 1-11.‏

GIMÉNEZ-BASTIDA JA et al. 2021. Evidence for health properties of pomegranate juices and extracts beyond nutrition: A critical systematic review of human studies. Trends in Food Science & Technology 114: 410-423.‏

HEGAZI NM et al. 2021. Pomegranate juice as a super-food: A comprehensive review of its extraction, analysis, and quality assessment approaches. Journal of Food Composition and Analysis 97: 103773.

KUJAWSKA M et al. 2019. Neuroprotective effects of pomegranate juice against Parkinson’s disease and presence of ellagitannins-derived metabolite—urolithin A—in the brain. International journal of molecular sciences 21: 202.‏

MENG Y et al. 2021. Modeling and optimization of sugarcane juice clarification process. Journal of Food Engineering 291: 1-33.

MIRZAAGHAEI M et al. 2016. Application of sepiolite in clarification of pomegranate juice: changes on quality characteristics during process. International Journal of Food Science & Technology 51: 1666-1673.‏

PARFAIT KKK et al. 2022. Sensory profile and physico-Chemical characteristics of clarified and pasteurized cashew apple juice during storage. Journal of Food and Nutrition Research 10: 180-187.‏

PINELO M et al. 2010. Juice clarification by protease and pectinase treatments indicates new roles of pectin and protein in cherry juice turbidity. Food and bioproducts processing 88: 259-265.‏

SHAH NNAK et al. 2015. Effects of pectinase clarification treatment on phenolic compounds of pummelo (Citrus grandis l. Osbeck) fruit juice. Journal of food science and technology 52: 5057-5065.‏

SOKAL RR & ROHLF FJ. 1995. Biometry, the Principles and Practice of Statistics in Biological Research. 3.ed. New York: W. H. Freeman and Co.

TASTAN O & BAYSAL T. 2015. Clarification of pomegranate juice with chitosan: Changes on quality characteristics during storage. Food chemistry 180: 211-218.

TAŞTAN Ö & BAYSAL T. 2017. Chitosan as a novel clarifying agent on clear apple juice production: Optimization of process conditions and changes on quality characteristics. Food chemistry 237: 818-824.‏

TURFAN Ö et al. 2011. Anthocyanin and colour changes during processing of pomegranate (Punica granatum L., cv. Hicaznar) juice from sacs and whole fruit. Food Chemistry 129: 1644-1651.

TURFAN Ö et al. 2012. Effects of clarification and storage on anthocyanins and color of pomegranate juice concentrates. Journal of Food Quality 35: 272-282.‏

VAILLANT F et al. 2001. Strategy for economical optimisation of the clarification of pulpy fruit juices using crossflow microfiltration. Journal of food engineering 48: 83-90.

VARDIN H & FENERCIOǦLU H. 2003. Study on the development of pomegranate juice processing technology: clarification of pomegranate juice. Food/nahrung, 47: 300-303.‏

VIUDA‐MARTOS M et al. 2010. Pomegranate and its many functional components as related to human health: a review. Comprehensive reviews in food science and food safety 9: 635-654.‏

WANG H et al. 2022. Effects of fruit storage temperature and time on cloud stability of not from concentrated apple juice. Foods 11: 2568.-2583.

YILDIZ D et al. 2022. Heat treatment and microwave applications on homemade sour cherry juice: The effect on anthocyanin content and some physicochemical properties. Current Plant Biology 29: 1-5.

YOUSEFNEZHAD B et al. 2017. Pretreatment of pomegranate and red beet juices by centrifugation before membrane clarification: a comparative study. Journal of Food Processing and Preservation 41: e12765.

Downloads

Published

2023-05-31

How to Cite

AL-JAMMAAS, Oday Hasan Ali; YASEEN, Sabraa Saad; AL-JANABI , Ahmed Muhsin Ali Ahmed. Effect of clarification on some characteristics of pomegranate juice processed by two different methods during storage. Revista de Ciências Agroveterinárias, Lages, v. 22, n. 2, p. 321–328, 2023. DOI: 10.5965/223811712222023321. Disponível em: https://periodicos.udesc.br/index.php/agroveterinaria/article/view/23396. Acesso em: 19 may. 2024.

Issue

Vol. 22 No. 2 (2023)

Section

Research Article - Multisections and Related Areas

License

Copyright (c) 2023 Authors & Revista de Ciências Agroveterinárias

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

Authors publishing in this journal are in agreement with the following terms:

a) Authors maintain the copyrights and concede to the journal the copyright for the first publication, according to Creative Commons Attribution Licence.

b) Authors have the authority to assume additional contracts with the content of the manuscript.

c) Authors may supply and distribute the manuscript published by this journal.