Sensory characterization of stevia-substituted low-calorie apricot drinks

Year 2025, Volume: 38 Issue: 1, 21 - 27, 09.04.2025

Hatice Reyhan Öziyci , Mustafa Karhan

https://doi.org/10.29136/mediterranean.1532219

Abstract

The objective of this study was to investigate the sensory characteristics of apricot drinks that were sweetened using stevia. The sensory examination of stevia powder revealed comparable levels of sweetness to sucrose, albeit with a more prominent perception of bitterness. When the substitution rate of stevia was 75%, the sweetness and overall preference parameters obtained the highest scores among the other apricot drink samples. Nevertheless, the utilization of pure stevia extract resulted in unfavorable flavor attributes (e.g., bitter, metallic, and acidic tastes, as well as chemical and synthetic odors). An increase in the concentration of stevia, combined with the reduction in sucrose content, resulted in a notable decrease in the energy content of the samples, while maintaining an acceptable sensory profile. The apricot drinks containing 75% stevia significantly decreased energy levels by 60% and received great ratings from the panelists. However, the utilization of pure stevia has led to the development of sour, pronounced, and metallic tastes, as well as disagreeable odors. On the other hand, the use of stevia at sucrose-substitution ratios of 25% or 50% showed positive taste characteristics.

Keywords

Apricot drinks , Low-calorie beverages , Sensory analysis , Stevia , Sweetener substitution

Ethical Statement

This research was granted by the Akdeniz University Science and Engineering Sciences Scientific Research and Publication Ethics Committee (Document Number: 22.02.2024-861378, Meeting Number: 03, Decision Number: 06).

Project Number

2210419

References

• Alizadeh M, Maryam Azizi-lalabadi HH, Sorayya K (2014) Effect of Stevia as a Substitute for Sugar on Physicochemical and Sensory Properties of Fruit Based Milk Shake. Journal of Scientific Research and Reports 3(11): 1421-29. doi: 10.9734/JSRR/2014/8623.
• Andersen GBH, Christensen, CLD, Castura, JC, Alexi, N., Byrne, DV, Kidmose, U (2024). Sugar Replacement in Chocolate-Flavored Milk: Differences in Consumer Segments’ Liking of Sweetener Systems Relate to Temporal Perception. Beverages 10(3) 54. doi: 10.3390/beverages10030054.
• Anonymous (2014) Low calorie food market size & trends. Grand View Research. Retrieved from https://www.grandviewresearch.com/industry-analysis/low-calorie-food-market. Accessed 05 January, 2025.
• Anonymous (2024) Low calorie food market size, growth & forecast to 2032. Credence Research. Retrieved from https://www.credenceresearch.com/report/low-calorie-food-market. Accessed 05 January, 2025.
• AOAC (1990a) 934.06. Loss on Drying (Moisture) in Dried Fruit. Official Methods of Analysis. 15th Ed. Arlington: Association of Official Analytical Chemists.
• AOAC (1990b) 940.26. Ash of Fruits and Fruit Products. Official Methods of Analysis. 15th Ed. Arlington: Association of Official Analytical Chemists.
• AOAC (1990c) 948.22. Fat (Crude) in Nuts and Nut Products. Gravimet. Official Methods of Analysis. 15th Ed. Arlington: Association of Official Analytical Chemists.
• AOAC (1990d) 978.04. Nitrogen (Total) (Crude Protein) in Plants. Official Methods of Analysis. 15th Ed. Arlington: Association of Official Analytical Chemists.
• AOAC (1990e) 985.29. Total Dietary Fiber in Foods–Enzymatic Gravimetric Method. Official Methods of Analysis. 15th Ed. Arlington: Association of Official Analytical Chemists.
• Balaswamy K, Rao PP, Rao GN, Nagender A, Satyanarayana A (2014) Production of Low Calorie Ready-to-Serve Fruit Beverages Using a Natural Sweetener, Stevia (Stevia rebaudiana L.). Focusing on Modern Food Industry 3: 59. doi: 10.14355/fmfi.2014.03.008.
• Braun V, Clarke V (2023) Thematic Analysis. In: Cooper, H, Coutanche, MN, McMullen, LM, Panter, AT, Rindskopf, D, Sher, KJ (Ed.s), APA handbook of research methods in psychology: Research designs: Quantitative, qualitative, neuropsychological, and biological. American Psychological Association, pp. 57-71.
• Díaz-García A, Salvá-Ruíz B, Bautista-Cruz N, Condezo-Hoyos L (2021) Optimization of a Natural Low-Calorie Antioxidant Tea Prepared from Purple Corn (Zea mays L.) Cobs and Stevia (Stevia rebaudiana Bert.). LWT 150:-111952. doi: 10.1016/j.lwt.2021.111952.
• Ewis AM (2021) Making of low calorie functional yoghurt drink enriched with oat seed and stevia leaves powders (as sweeteners). Journal of Food and Dairy Sciences 12(3): 59-64. doi: 10.21608/jfds.2021.160410.
• FAO (2003) Food Energy – Methods of Analysis and Conversion Factors. 77. The Food and Agriculture Organization Rome, Italy.
• Hosseini S, Goli SAH, Keramat, J (2015) Production and characterization of low-calorie orange nectar containing stevioside. Journal of Food Science and Technology 52: 6365-74. doi: 10.1007/s13197-015-1739-x.
• Karaağaç RM, Pınarlı Falakacılar Ç (2023) Kısıtlı enerji alımının metabolik etkileri. Sağlık ve Spor Bilimleri Dergisi 6(3): 73-78.
• Mielby LH, Andersen BV, Jensen S, Kildegaard H, Kuznetsova A, Eggers N, Brockhoff PB, Byrne DV (2016) Changes in sensory characteristics and their relation with consumers’ liking, wanting and sensory satisfaction: using dietary fibre and lime flavour in Stevia rebaudiana sweetened fruit beverages. Food Research International 82: 14-21. doi: 10.1016/j.foodres.2016.01.010.
• Parpinello GP, Versari A, Castellari M, Galassi S (2001) Stevioside as a replacement of sucrose in peach juice: Sensory evaluation. Journal of Sensory Studies 16(5): 471-84. doi: 10.1111/j.1745-459X.2001.tb00314.x.
• Reale A, Di Renzo T, Russo A, Niro S, Ottombrino A, Pellicano MP (2020) Production of low‐calorie apricot nectar sweetened with stevia: impact on qualitative, sensory, and nutritional profiles. Food Science & Nutrition 8(4): 1837-47. doi: 10.1002/fsn3.1464.
• Stone H, Bleibaum RN, Thomas HA (2020) Sensory Evaluation Practices. Academic Press.
• Tao R, Cho S (2020) Consumer-based sensory characterization of steviol glycosides (Rebaudioside A, D, and M). Foods 9(8): 1026. doi: 10.3390/foods9081026.
• Tavares PPLG, dos Anjos EA, Nascimento RQ, da Silva Cruz LF, Lemos PVF, Druzian JI, de Oliveira TTB, de Andrade RB, da Costa Souza AL, de Oliveira Mamede ME (2021) Chemical, microbiological and sensory viability of low-calorie, dairy-free kefir beverages from tropical mixed fruit juices. CyTA-Journal of Food 19(1): 457-64. doi: 10.1080/19476337.2021.1906753.
• Usman M, Hashmi MS, Ahmad A, Ahmad F, Alam Z (2024) Assessment of physicochemical and sensory characteristics of stevia sweetened, low-caloric orange drink. Sarhad Journal of Agriculture 40(2). doi: 10.17582/journal.sja/2024/40.2.354.361.
• Wang Z, Yuan Y, Liu Y, Zhang M, Hua X (2022) Modification on the length of glucosyl chain in glucosyl steviol glycosides and its effect on product taste quality. European Food Research and Technology 248(7): 1703-13. doi: 10.1007/s00217-022-03997-x.