Continuous automated microbial monitoring in laboratory-scale winemaking experiments

IF 2.2 3区 农林科学 Q3 FOOD SCIENCE & TECHNOLOGY
Alexis Joran, Konstanze T. Schiessl, Géraldine Klein, M. Besmer, Camille Eicher, H. Alexandre
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Abstract

The management of microbial flora is a key element of the winemaking process. It impacts process time, fermentation quality (e.g., production of alcohol, development of aroma compounds, absence of undesirable microorganisms) and the overall quality of the final wine product. In microbial flora management, real-time microbial monitoring is crucial. When applying currently used classical methods (e.g., cultivation on plates) or more recent technologies (e.g., flow cytometry), the flora sampling frequency is not optimal and taking around-the-clock measurements involves high labour costs. The objective of this study was to evaluate the feasibility of automated microbial monitoring based on an online flow cytometry system for different laboratory-scale applications in the field of winemaking. Initially, a protocol for automated sampling, double-staining and analysis was validated on yeast and bacterial populations after rehydration of the starter cultures. The system was then tested on a variety of increasingly complex biological systems, simulating its applications in the winemaking process. First, a yeast starter culture preparation for “prise de mousse” was tested. Then, a mixed-culture alcoholic fermentation was monitored. Finally, a microbial-focused observation of wine aging was emulated. By overcoming specific constraints linked to the must medium (e.g., sugars, alcohol contents, production of gas, fermentation duration), the results show the potential of this technology for (1) automated yeast or bacterial monitoring in a wide range of laboratory-scale wine environments, (2) simultaneous monitoring of both total and intact populations of multiple microorganisms, (3) long observation periods, and (4) high sampling frequencies for high-resolution data. It could be particularly useful for facilitating and improving control of potential contaminants or stuck fermentations, as well as better piloting starter preparations, alcoholic fermentations, or malolactic fermentations.
实验室规模酿酒实验中微生物的连续自动化监测
微生物菌群的管理是酿酒过程中的一个关键因素。它影响加工时间,发酵质量(例如,酒精的生产,香气化合物的发展,不良微生物的缺乏)和最终葡萄酒产品的整体质量。在微生物菌群管理中,实时微生物监测是至关重要的。当应用当前使用的经典方法(例如,平板培养)或较新的技术(例如,流式细胞术)时,菌群采样频率不是最佳的,并且全天候测量涉及高劳动力成本。本研究的目的是评估基于在线流式细胞术系统的自动化微生物监测在不同实验室规模的酿酒领域应用的可行性。最初,对发酵剂复水化后的酵母和细菌群体进行了自动取样、双染色和分析的方案验证。该系统随后在各种日益复杂的生物系统上进行了测试,模拟其在酿酒过程中的应用。首先,对一种用于“慕斯蛋糕”的酵母发酵剂进行了试验。然后,监测混合培养酒精发酵。最后,模拟了以微生物为重点的葡萄酒陈酿过程。通过克服与必须培养基相关的特定限制(例如,糖,酒精含量,气体产生,发酵持续时间),结果显示了该技术在以下方面的潜力:(1)在广泛的实验室规模的葡萄酒环境中自动监测酵母或细菌;(2)同时监测多种微生物的总数和完整种群;(3)长观察期;(4)高分辨率数据的高采样频率。这对于促进和改进对潜在污染物或发酵粘滞的控制,以及更好地指导发酵剂制剂、酒精发酵或苹果酸乳酸发酵尤其有用。
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来源期刊
OENO One
OENO One Agricultural and Biological Sciences-Food Science
CiteScore
4.40
自引率
13.80%
发文量
85
审稿时长
13 weeks
期刊介绍: OENO One is a peer-reviewed journal that publishes original research, reviews, mini-reviews, short communications, perspectives and spotlights in the areas of viticulture, grapevine physiology, genomics and genetics, oenology, winemaking technology and processes, wine chemistry and quality, analytical chemistry, microbiology, sensory and consumer sciences, safety and health. OENO One belongs to the International Viticulture and Enology Society - IVES, an academic association dedicated to viticulture and enology.
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