Optimization of Nutritional Composition, Bioactive Compounds and Antioxidant Activity in Broccoli (Brassica oleracea) Microgreen Sprinkler using Alternate Drying Techniques

Journal of dairying, foods & home sciences Pub Date : 2023-03-16 DOI:10.18805/ajdfr.dr-1955

P. Bhatt, Sonika Sharma, K. Grover, Savita Sharma, Khushdeep Dharni, A. S. Dhatt

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引用次数: 0

Abstract

Background: Fresh microgreens are nutrient dense crops with high moisture content, thus have a short life span. Application of different drying techniques enhanced its shelf life but leads to nutrient losses. There is permanent need to enhance the nutrient retention in dried microgreen. Methods: The research study of microgreens investigated during 2019-2020 at Punjab Agricultural University. Broccoli (Brassica oleracea var. Palam Samridhi) seeds were soaked overnight and grown in outdoor setting and harvested at 10th day after germination. The harvested broccoli microgreens were dried using shade drying, tray drying and microwave drying. Dried samples were analyzed for nutritional parameters. Result: Microgreens contain significantly higher nutrients (Ca, Fe, Zn, Mg, K, ascorbic acid and b carotene), bioactive compounds (chlorophyll, total flavanoids and total phenols) and antioxidant activity as compared to their sprouts and mature counterparts. These are excellent sources of Fe, Ca, Zn, Mg, Vitamin C and beta carotene (pro-vitamin A), meeting per cent estimated average requirements (EAR) of 536%, 373%, 264%, 228%, 38%, 20% for Indian adult. To address the problem of perishability, there is a need to prolong their shelf life while retaining the nutritional quality. The present research has identified the optimum drying technique, on basis of nutrient retention, from a set of alternate techniques. Significant higher content of ascorbic acid (16.80 mg/100 g), chlorophyll (3.63 g/100 g), antioxidant activity (67.55%), Zn (35.23 mg/100 g), Fe (57.66 mg/100 g), Ca (2857 mg/100 g), K (334.23 mg/100 g) and Mg (706.43 mg/100 g) were observed in microwave dried microgreens. Incorporation of dried microgreen powder in food sprinkler resulted in a significant increase in vitamins, minerals, bioactive compounds and antioxidant activity as compared to the control.

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交替干燥技术优化花椰菜(Brassica oleracea)微绿喷雾器营养成分、生物活性成分及抗氧化活性

背景：新鲜微绿是一种营养丰富、水分含量高、寿命短的作物。不同干燥技术的应用提高了其保质期，但会导致营养损失。一直需要提高干燥微绿中的营养保留率。方法：对旁遮普农业大学2019-2020年期间调查的微绿进行研究。将西兰花（Brassica oleracea var.Palam Samridhi）种子浸泡过夜，在室外环境中生长，并在发芽后第10天收获。收获的西兰花微绿采用遮荫干燥、托盘干燥和微波干燥。对干燥样品进行营养参数分析。结果：与芽苗菜和成熟蔬菜相比，Microgreens含有显著更高的营养成分（Ca、Fe、Zn、Mg、K、抗坏血酸和b胡萝卜素）、生物活性化合物（叶绿素、总黄烷酸和总酚）和抗氧化活性。这些都是铁、钙、锌、镁、维生素C和β-胡萝卜素（原维生素A）的良好来源，满足印度成年人536%、373%、264%、228%、38%和20%的估计平均需求量（EAR）。为了解决易腐烂的问题，需要延长它们的保质期，同时保持营养质量。本研究从一系列替代技术中确定了基于营养保留的最佳干燥技术。在微波干燥的微绿中观察到抗坏血酸（16.80 mg/100 g）、叶绿素（3.63 g/100 g）、抗氧化活性（67.55%）、锌（35.23 mg/100 g。与对照相比，将干燥的微绿粉末掺入食品洒水器中，维生素、矿物质、生物活性化合物和抗氧化活性显著增加。

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来源期刊

Journal of dairying, foods & home sciences

CiteScore

0.70

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0.00%

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