Optimization of ultrasonication-assisted enzymatic extraction of Kangra orthodox black tea for the development of low-calorie ready-to-drink tea

IF 2.9 3区农林科学 Q2 FOOD SCIENCE & TECHNOLOGY

Journal of Food Measurement and Characterization Pub Date : 2024-10-05 DOI:10.1007/s11694-024-02891-2

Chahat Thakur, Manisha Kaushal, Devina Vaidya, Anil Kumar Verma, Anil Gupta

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Abstract

The quest for healthier beverage options has led to the development of low-calorie alternatives to conventional sugary drinks. This study focused on the use of ultrasonication-enzymatic extraction to produce a low-calorie ready-to-drink Kangra orthodox black tea with the natural sweetener Stevia rebaudiana. By employing sonication time (9 to 45 min) and temperature (35 to 55 °C) as independent variables, statistical analysis revealed significant effects of these parameters on key quality indicators. In the ultrasonicated-assisted enzymatic extraction, the optimal conditions were 27.58 min at 45.06 °C with 0.0095% Tannase, to maximize the water extract content, total phenolic content, antioxidant capacity, caffeine, tannins content, colour, theaflavins, thearubigins, total colour, brightness, a*, b* colour value and overall acceptability and to minimize the pH, tea cream, and colour value L* of the ultrasonicated-assisted enzymatic extraction of Kangra orthodox black tea. The predicted water extract was 47.69%, the total phenolic content was 233.77 µg GAE/100 mL, the antioxidant capacity was 78.50 mM TE/mL, caffeine was 35.30 µg CAE/100 mL, tannins were 167.14 µg TAE/100 mL, theaflavins were 0.88%, thearubigins were 8.49%, the total colour percentage was 9.22%, the brightness was 14.98%, a* was 5.02, b* was 8.88, the overall acceptability was 8.14, the pH was 5.61, tea cream was 0.36 g/100 mL, and the L* colour value was 23.66 under optimum ultrasonication-assisted enzymatic extraction conditions. To improve the overall palatability of the Kangra Orthodox ready-to-drink tea, sugar (7–11° Brix) was utilized to balance the taste. The optimal sugar concentration for ready-to-drink Kangra orthodox tea based on a sensory score of 10° Brix was the highest. The substitution of sucrose with stevia up to 60% led to an equi-sweet taste eliminating any characteristic bitter aftertaste, in addition to a substantial decline in energy value from 31.44 to 15.72 kcal/100 g. A low-calorie Kangra Orthodox ready-to-drink tea beverage was developed that contained a high level of functional compounds at a reduced energy level. This tea offers a healthy alternative to traditional sweetened beverages and is potentially appealing to a broad market of health-conscious consumers.

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为开发低热量即饮茶优化超声波辅助酶解康拉正宗红茶提取工艺

对健康饮料的追求促使人们开发低热量饮料来替代传统的含糖饮料。本研究的重点是利用超声波酶解萃取技术生产添加了天然甜味剂甜叶菊的低热量即饮康拉正宗红茶。通过采用超声时间（9 至 45 分钟）和温度（35 至 55 °C）作为自变量，统计分析显示这些参数对关键质量指标有显著影响。在超声辅助酶提取中，最佳条件是在 45.06 °C、27.58 分钟和 0.0095%的单宁酶，使康格拉正山小种红茶的水提取物含量、总酚含量、抗氧化能力、咖啡碱、单宁含量、色泽、茶黄素、茶红素、总色泽、亮度、a*、b*色值和总体可接受性最大化，pH值、茶膏和色值L*最小化。预测的水提取率为 47.69%，总酚含量为 233.77 µg GAE/100 mL，抗氧化能力为 78.50 mM TE/mL，咖啡因为 35.30 µg CAE/100 mL，单宁酸为 167.14 µg TAE/100 mL，茶黄素为 0.88%，茶红素为 8.在最佳超声波辅助酶解提取条件下，总色度为 9.22%，白度为 14.98%，a*为 5.02，b*为 8.88，总体可接受性为 8.14，pH 为 5.61，茶膏为 0.36 克/100 毫升，L*色值为 23.66。为了提高 Kangra Orthodox 即饮茶的整体口感，使用了糖（7-11° Brix）来平衡口感。根据 10° Brix 的感官评分，Kangra 正宗即饮茶的最佳糖浓度最高。用甜菊糖替代蔗糖（最高达 60%）后，口感等同于甜味，没有任何特有的苦涩回味，能量值也从 31.44 千卡/100 克大幅降至 15.72 千卡/100 克。这种茶为传统的甜饮料提供了一种健康的替代品，对具有健康意识的广大消费者具有潜在的吸引力。

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来源期刊

Journal of Food Measurement and Characterization Agricultural and Biological Sciences-Food Science

CiteScore

6.00

自引率

11.80%

发文量

425

期刊介绍： This interdisciplinary journal publishes new measurement results, characteristic properties, differentiating patterns, measurement methods and procedures for such purposes as food process innovation, product development, quality control, and safety assurance. The journal encompasses all topics related to food property measurement and characterization, including all types of measured properties of food and food materials, features and patterns, measurement principles and techniques, development and evaluation of technologies, novel uses and applications, and industrial implementation of systems and procedures.