COLOR DEVELOPMENT DURING NATURAL FERMENTATION AND CHEMICAL ACIDIFICATION OF SALAMI-TYPE PRODUCTS

S. BARBUT
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引用次数: 18

Abstract

ABSTRACT

The impact of using natural fermentation with lactic acid bacteria (LAB), chemical acidification with liquid lactic acid, and encapsulated citric, gluconic or lactic acid were evaluated in raw and cooked salami-type products. Liquid lactic acid resulted in an immediate pH drop and significant increase in L*(lightness) and a*(redness) values, as well as clumping of the ground meat particles that exhibited moisture release due to excessive protein denaturation. Overnight LAB fermentation also resulted in increased L*and a*values, but unlike direct acid addition, did not cause moisture loss or clumping. Spectra data, collected after both treatments reached pH 4.6, revealed pretty similar curve shape, with higher values for the fermented product at 420–550 nm and 610–670 nm. The encapsulated acids, designed to release acid at about 62C, did not affect the color of the raw meat batters. Cooking of all treatments resulted in higher L*and a*values, both by about 50%. L*and a*values were pretty similar for all the acidified and non-acidified control. The only exception was a no-nitrite control, which showed a significantly (P < 0.05) lower a*value.

PRACTICAL APPLICATIONS

The use of different acidification methods to lower the pH of meat products (bacteria fermentation, direct acid addition, encapsulated acid) does affect the color of the product. When going through the process, care should be given to the rate of acidification. A slow acid production (fermentation) or acid release when the meat proteins have started to go through heat coagulation (by using acid encapsulated in hydrogenated vegetable oil) are recommended. Direct acid addition results in immediate lightening of the product as well as crumbling of the ground meat particles, which later negatively affect color and texture of the product.

腊肠类产品自然发酵和化学酸化过程中的颜色变化
摘要研究了乳酸菌自然发酵、液体乳酸化学酸化、柠檬酸、葡萄糖酸或乳酸包封对生、熟腊肠类产品的影响。液态乳酸导致pH值立即下降,L*(浅度)和a*(红度)值显著增加,以及由于蛋白质过度变性而表现出水分释放的碎肉颗粒结块。过夜LAB发酵也导致L*和a*值增加,但不像直接加酸,不会造成水分损失或结块。两种处理的pH值均达到4.6时,所收集的光谱数据显示出非常相似的曲线形状,发酵产物在420 ~ 550 nm和610 ~ 670 nm处的值更高。被封装的酸,设计为在约62℃时释放酸,不影响生肉面饼的颜色。所有处理的蒸煮均可提高L*和a*值,均提高约50%。所有酸化和未酸化对照的L*和a*值非常相似。唯一例外的是无亚硝酸盐对照,a*值显著(P < 0.05)降低。使用不同的酸化方法来降低肉制品的pH值(细菌发酵、直接加酸、包封酸)确实会影响产品的颜色。在进行这一过程时,应注意酸化的速度。建议缓慢产酸(发酵)或当肉蛋白开始经过热凝固(通过使用氢化植物油封装的酸)时释放酸。直接添加酸会使产品立即变淡,并使碎肉颗粒破碎,这对产品的颜色和质地产生负面影响。
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
Journal of Muscle Foods
Journal of Muscle Foods 工程技术-食品科技
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