Structural and functional properties and digital image texture analysis of gelatin, pectin, and carrageenan gels with honey addition

IF 2.8 3区 农林科学 Q2 FOOD SCIENCE & TECHNOLOGY
María S. Varela, María A. Palacio, Alba S. Navarro, Diego K. Yamul
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引用次数: 2

Abstract

Gels combined with honey might generate new possibilities of textures in food development. This work explores the structural and functional properties of gelatin (5 g/100 g), pectin (1 g/100 g), and carrageenan (1 g/100 g) gels with different content of honey (0–50 g/100 g). Honey decreased the transparency of gels and made them more yellow-greenish; all of them were firm and uniform, especially at the highest honey content. The water holding capacity increased (63.30–97.90 g/100 g) and moisture content, water activity (0.987–0.884) and syneresis (36.03–1.30 g/100 g) decreased with the addition of honey. This ingredient modified mainly the textural parameters of gelatin (Hardness: 0.82–1.35 N) and carrageenan gels (Hardness: 2.46–2.81 N), whereas only the adhesiveness and the liquid like-behavior were increased in the pectin gels. Honey increased the solid behavior of gelatin gels (G': 54.64–173.37 Pa) but did not modify the rheological parameters of the carrageenan ones. Honey also had a smoothing effect on the microstructure of gels as observed in the scanning electron microscopy micrographs. This effect was also confirmed by the results of the gray level co-occurrence matrix and fractal model's analysis (fractal dimension: 1.797–1.527; lacunarity: 1.687–0.322). The principal component and cluster analysis classified samples by the hydrocolloid used, except the gelatin gel with the highest content of honey, which was differentiated as a separate group. Honey modified the texture, rheology, and microstructure of gels indicating that it is possible to generate new products to be used in other food matrices as texturizers.

Abstract Image

添加蜂蜜的明胶、果胶和卡拉胶凝胶的结构和功能特性以及数字图像纹理分析。
凝胶与蜂蜜结合可能会在食品开发中产生新的质地可能性。这项工作探讨了明胶(5 g/100 g) ,果胶(1 g/100 g) 和卡拉胶(1 g/100 g) 不同蜂蜜含量的凝胶(0-50 g/100 g) 。蜂蜜降低了凝胶的透明度,使其更黄绿色;它们都是坚硬均匀的,尤其是在蜂蜜含量最高的时候。持水量增加(63.30-97.90 g/100 g) 水分含量、水分活度(0.987-0.884)和脱水作用(36.03-1.30 g/100 g) 随着蜂蜜的添加而减少。该成分主要改变明胶的结构参数(硬度:0.82-1.35 N) 和卡拉胶凝胶(硬度:2.46-2.81 N) ,而果胶凝胶中只有粘附性和类液体行为增加。蜂蜜增加了明胶凝胶的固体行为(G':54.64-173.37 Pa),但没有改变卡拉胶的流变参数。在扫描电子显微镜显微照片中观察到,蜂蜜对凝胶的微观结构也有平滑作用。灰度共生矩阵和分形模型的分析结果也证实了这一效果(分形维数:1.797-1.527;空隙率:1.687-0.322)。主成分和聚类分析根据所用的水胶体对样品进行分类,但蜂蜜含量最高的明胶凝胶除外,它被区分为一个单独的组。蜂蜜改变了凝胶的质地、流变性和微观结构,这表明有可能产生新的产品,用作其他食品基质的纹理化剂。
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来源期刊
Journal of texture studies
Journal of texture studies 工程技术-食品科技
CiteScore
6.30
自引率
9.40%
发文量
78
审稿时长
>24 weeks
期刊介绍: The Journal of Texture Studies is a fully peer-reviewed international journal specialized in the physics, physiology, and psychology of food oral processing, with an emphasis on the food texture and structure, sensory perception and mouth-feel, food oral behaviour, food liking and preference. The journal was first published in 1969 and has been the primary source for disseminating advances in knowledge on all of the sciences that relate to food texture. In recent years, Journal of Texture Studies has expanded its coverage to a much broader range of texture research and continues to publish high quality original and innovative experimental-based (including numerical analysis and simulation) research concerned with all aspects of eating and food preference. Journal of Texture Studies welcomes research articles, research notes, reviews, discussion papers, and communications from contributors of all relevant disciplines. Some key coverage areas/topics include (but not limited to): • Physical, mechanical, and micro-structural principles of food texture • Oral physiology • Psychology and brain responses of eating and food sensory • Food texture design and modification for specific consumers • In vitro and in vivo studies of eating and swallowing • Novel technologies and methodologies for the assessment of sensory properties • Simulation and numerical analysis of eating and swallowing
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