Utilizing response surface methodology to evaluate the process parameters of indigenous cucumber fermentation

H. Gül, M. Güngörmüşler
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Abstract

Abstract Commercial pickled cucumbers are produced in variety of salt concentrations including brines up to 15% sodium chloride due to the preventive nature of the salt towards microbial growth. Although it is deemed necessary for manufacturers to utilize high amounts of salts to prolong shelf life, the high content creates a burden for the growth of beneficial microorganisms including probiotics. In this study, the production of naturally fermented cucumbers and their microbial viability were tested with the help of an experimental design tool, Box-Behnken Design (BBD), to evaluate the optimal conditions for the production process and to maintain the highest viability of potential beneficial microorganisms during storage. Accordingly, the operational conditions including salt concentration (2, 5, or 8%), fermentation temperature (20, 25, or 30 °C), and brine filling (pretreatment) temperature (80, 85, or 90 °C) were optimized with a significant fit to a quadratic model (p < 0.05). The trends for sugar consumption and total acid production were monitored to demonstrate the correlation between the above-mentioned operational parameters for the fermentation process of pickled cucumbers with indigenous microorganisms. Overall, 5% salt content, 70 °C filling temperature and 25 °C fermentation medium was determined to maintain over 6 log cfu/mL viability. The results represent a valuable contribution to the pickle industry including a know-how of process parameters.
利用响应面法评价乡土黄瓜发酵工艺参数
商业腌黄瓜是在各种盐浓度下生产的,包括高达15%氯化钠的盐水,因为盐对微生物生长有预防作用。尽管制造商认为有必要使用大量的盐来延长保质期,但高含量的盐对包括益生菌在内的有益微生物的生长造成了负担。本研究采用Box-Behnken design (BBD)实验设计工具,对自然发酵黄瓜的生产及其微生物活力进行了测试,以评估生产过程的最佳条件,并在储存过程中保持潜在有益微生物的最高活力。因此,优化了操作条件,包括盐浓度(2、5或8%)、发酵温度(20、25或30°C)和盐水填充(预处理)温度(80、85或90°C),并显著拟合到二次模型(p < 0.05)。通过对糖消耗量和总酸产量的变化趋势进行监测,验证了上述操作参数与本地微生物对酸黄瓜发酵过程的影响。总体而言,5%的盐含量,70°C的灌装温度和25°C的发酵培养基确定保持超过6 log cfu/mL的活力。结果代表了一个有价值的贡献,泡菜工业包括工艺参数的专有技术。
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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