贮藏对富含南瓜(cucurbita moschata L.)的饮料粉的理化性质、生物活性化合物和感官特性的影响

IF 4.8 Q1 AGRICULTURE, MULTIDISCIPLINARY
Md. Abdul Halim , Md. Abdul Wazed , Sami Al Obaid , Mohammad Javed Ansari , Anika Tahosin , Md. Tajminur Rahman , Fatehatun Noor , N.H.M. Rubel Mozumder , Anwara Akter Khatun
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引用次数: 0

摘要

南瓜是一种急需的蔬菜,南瓜加工过程中会产生大量南瓜肉未被利用的情况,因此需要对南瓜进行适当加工才能使用。本研究的目标是制备富含南瓜的饮料粉,报告储存对饮料粉的生物活性化合物和理化特性的影响,并评估用饮料粉制备的饮料的感官特性。根据饮料粉的物理性质、基本成分、矿物质、酚类化合物以及通过 DPPH(2,2-二苯基-1-苦基肼)、FRAP(铁还原抗氧化力)和 ABTS(2,2′-偶氮-双(3-乙基苯并噻唑啉-6-磺酸)酸)测定的抗氧化能力,对饮料粉进行了配制和评估。饮料粉是用南瓜浆和南瓜籽粉按 50:50(S1)、20:30(S2)、30:20(S3)和 40:10(S4)的比例混合制成的。通过感官评估,选出了最受欢迎的组合。对最受欢迎的产品进行了营养分析和贮藏研究,并将其作为优质产品的标准。样品 S3 的蛋白质、脂肪、纤维和灰分含量最高,而样品 S1 的碳水化合物含量最高。同时还发现,添加南瓜粉提高了饮料粉中镁、磷和铁的含量。然而,样品 S1 的 DPPH 自由基清除能力、总酚含量和 FRAP 能力最高。在贮藏过程中,观察到水分含量、总糖和还原糖显著增加,而蛋白质、脂肪、灰分、纤维和可滴定酸度显著下降。此外,类胡萝卜素、维生素 C 和抗氧化特性在常温长期储藏期间也出现了明显下降。此外,还对南瓜粉饮料进行了感官分析,结果表明,随着南瓜粉含量的增加,饮料的颜色和口感没有受到影响。含 20% 南瓜浆和 30% 南瓜籽粉的饮料(S2)在质地、口感和总体可接受性方面得分最高。然而,S1 和 S3 的营养成分更高,因此是最佳实例。因此,利用南瓜制成的饮料粉可能是保存南瓜及其生物活性成分的有效方法。总之,南瓜粉可以成功地掺入粉末饮料或其他传统产品中,它也被认为是满足日常营养需求的绝佳食物来源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Effect of storage on physicochemical properties, bioactive compounds and sensory attributes of drinks powder enriched with pumpkin (cucurbita moschata L.)

Effect of storage on physicochemical properties, bioactive compounds and sensory attributes of drinks powder enriched with pumpkin (cucurbita moschata L.)

Pumpkin is an imperious vegetable and a large part of the pumpkin flesh goes unused resulting from pumpkin processing, so it needs to be processed properly to be used. The current study's goal was to prepare a drink powder enriched with pumpkin report the impact of storage on bioactive compounds and physicochemical characteristics of drink powder, and also evaluate the sensory properties of beverages prepared from drink powder. The powders were formulated and evaluated based on their physical properties, proximal compositions, minerals, phenolic compounds, and antioxidant ability as measured by DPPH (2,2-Diphenyl-1-picrylhydrazyl), FRAP (Ferric Reducing Antioxidant Power), and ABTS (2,2′-azino-bis-(3-ethylbenzothiazoline-6-sulfonic) acid). Drink powder was made with a mixture of ingredients that were substituted with pumpkin pulp and seed powder in the proportions of 50:50 (S1), 20:30 (S2), 30:20 (S3), and 40:10 (S4). A sensory evaluation was carried out to select the most accepted combination. The most accepted product was subjected to nutritional analysis and storage studies, which were taken as criteria for good quality. Sample S3 had the highest protein, fat, fiber, and ash content while sample S1 had the highest carbohydrate content. It was also observed that enrichment with pumpkin powder enhanced the Mg, P, and Fe content of the drink powder. However, sample S1 had the highest DPPH radical scavenging ability, total phenolic content, and FRAP ability. During storage, a significant increase in moisture content, total sugar, and reducing sugar while a significant decrease in protein, fat, ash, fiber, and titratable acidity was observed. In addition, carotenoids, vitamin C, and antioxidant properties showed significant decreases during long-term storage at ambient temperature. Furthermore, sensory analysis was performed on pumpkin powder beverages, and based on results the color and texture of the drinks were not affected as the pumpkin powder content was increased. The drinks with 20 % pumpkin pulp and 30 % seed powder (S2) obtained the highest score for texture, taste, and overall acceptability assessed. However, the S1 and S3 are the best instances due to their better nutritional content. Hence, the drink powder that utilizes pumpkin may be an efficient means to preserve pumpkin and conserve its bioactive ingredients. In conclusion, pumpkin powder can be successfully incorporated into powdered drinks or other traditional products and also it is recognized as an excellent food source to meet daily nutritional needs.

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来源期刊
CiteScore
5.40
自引率
2.60%
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