Evolution of volatile compounds from milk to curd during manufacturing of Mozzarella

IF 1.1 4区农林科学 Q3 AGRICULTURE, DAIRY & ANIMAL SCIENCE

Mljekarstvo Pub Date : 2020-01-08 DOI:10.15567/mljekarstvo.2020.0105

G. Natrella, M. Faccia, J. Lorenzo, P. Palo, G. Gambacorta

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引用次数: 4

Abstract

The aim of this study was to investigate the evolution of the volatile compounds (VOC) from milk to curd during mozzarella manufacturing, in connection with the technique used for curd acidification (traditional = natural whey starter fermentation; industrial = direct acidification by citric acid addition). Overall, 40 compounds were identified from the entire set of samples, belonging to different chemical classes. All compounds detected in milk were also found in the curd, but at much higher concentration. In addition, many other compounds formed during curd production. By comparison of the samples from the 2 acidification techniques, and analysing the scientific literature to explain the source of the volatile compounds, it was found that microbial activity played a main role in VOC formation. In fact, the curd obtained by natural whey starter fermentation showed the most complex profile, whereas that of the curd obtained by direct acidification was much simpler. The most important odour-active compounds that could contribute to flavour of the curd made by traditional technology were 3-methylbutanal, ethyl acetate and 2,3-butanedione, responsible for ethereal, fruity and buttery odour. For direct acidification they were 3-methylbutanal (at lower level), nonanal and decanal (herbal/fruity odour). The PCA analysis showed clear clusterization of the three types of samples: milks and direct acidified curds were rather close in the bi-plot graph, whereas traditional curds were spread all along the space. The research is currently in progress, for assessing the evolution of the volatile compounds during the next technological steps of mozzarella manufacturing.

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马苏里拉奶酪生产过程中挥发性化合物从牛奶到凝乳的演变

本研究的目的是研究马苏里拉奶酪生产过程中挥发性化合物（VOC）从牛奶到凝乳的演变，以及凝乳酸化技术（传统=天然乳清发酵剂发酵；工业=添加柠檬酸直接酸化）。总的来说，从整套样品中鉴定出40种化合物，属于不同的化学类别。在牛奶中检测到的所有化合物也在凝乳中发现，但浓度要高得多。此外，在凝乳生产过程中还会形成许多其他化合物。通过比较两种酸化技术的样品，并分析科学文献来解释挥发性化合物的来源，发现微生物活性在VOC的形成中起着主要作用。事实上，通过天然乳清发酵剂发酵获得的凝乳表现出最复杂的特性，而通过直接酸化获得的凝乳则简单得多。传统工艺制作的豆腐最重要的气味活性化合物是3-甲基丁醛、乙酸乙酯和2,3-丁二酮，它们具有空灵、果味和黄油味。对于直接酸化，它们是3-甲基丁醛（较低水平）、壬醛和癸醛（草药/水果气味）。主成分分析显示，三种类型的样本有明确的聚类：牛奶和直接酸化凝乳在双图中相当接近，而传统凝乳则遍布整个空间。这项研究目前正在进行中，旨在评估马苏里拉奶酪制造的下一步技术步骤中挥发性化合物的演变。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Mljekarstvo Agricultural and Biological Sciences-Animal Science and Zoology

CiteScore

1.90

自引率

41.70%

发文量

审稿时长

12 weeks

期刊介绍： Mljekarstvo is an open access, peer-reviewed international quarterly scientific journal. The first issue was published in 1951, by the Croatian Dairy Operators'' Association (today: Croatian Dairy Union, publisher). In a paper at a Union conference held 28 October 1951 in Zagreb it was said: "Our desire is that this magazine does not meet the fate of its predecessors, but that it continues to reflect the creative efforts and to provide guidelines for the producers as well as all other operators employed in the dairy industry." It is our pleasure today to say that wishes of the enthusiasts who attended the conference have come true, and the magazine Mljekarstvo during the last six decades was a reflection of the creative efforts of numerous dairy scientists and experts, and through its texts it served as a guideline in improving production and processing of milk and dairy products. Mljekarstvo has been following all the achievements of the dairy profession in Croatia, and it also gives the short surveys of world achievements. The result of the research of local and foreign scientists and experts always find their place in the magazine Mljekarstvo. It has been edited by our outstanding dairy experts employed at colleges, research institutions and dairy companies.