, Fermented Vegetables, Food Microbiology, pp.841-855, 2013.
, Fermented Foods and Beverages of the World, 2010.
, Health-Promoting Components in Fermented Foods: An Up-to-Date Systematic Review, Nutrients, vol.11, 2019.
, Aliments fermentés & bénéfices santé : un défi pour la recherche, 2020.
, 22 -Postharvest Senescence of Vegetables and its Regulation, Plant Cell Death Processes, pp.319-329, 2004.
, Advances in Postharvest Technologies of Vegetable Crops, 2018.
, Domestic cooking methods affect the nutritional quality of red cabbage, Food Chemistry, vol.161, pp.162-167, 2014.
, Fruits and vegetables, as a source of nutritional compounds and phytochemicals: Changes in bioactive compounds during lactic fermentation, Food Research International, vol.104, pp.86-99, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01690368
, Discovery of Novel Sources of Vitamin B12 in Traditional Korean Foods from Nutritional Surveys of Centenarians, Current Gerontology and Geriatrics Research. Review Article, 2011.
, One Health, Fermented Foods, and Gut Microbiota. Foods 7, 2018.
, Safety of Fermented Fruits and Vegetables, pp.355-367, 2016.
, Consecutive Outbreaks of Enterotoxigenic Escherichia coli O6 in Schools in South Korea Caused by Contamination of Fermented Vegetable Kimchi, Foodborne Pathog Dis, vol.13, pp.535-543, 2016.
, Functional Properties of Microorganisms in Fermented Foods, Front Microbiol, vol.7, 2016.
, Introduction to the LAB, Lactic Acid Bacteria, pp.1-12, 2014.
, 22 -Quality improvement and fermentation control in vegetables, Advances in Fermented Foods and Beverages, pp.515-539, 2015.
, Effects of different temperatures on bacterial diversity and volatile flavor compounds during the fermentation of suancai, vol.118, p.108773, 2020.
, Manganese, superoxide dismutase, and oxygen tolerance in some lactic acid bacteria, Journal of Bacteriology, vol.146, pp.928-936, 1981.
, Heme and menaquinone induced electron transport in lactic acid bacteria, Microb Cell Fact, vol.8, p.28, 2009.
, A taxonomic note on the genus Lactobacillus: Description of 23 novel genera, emended description of the genus Lactobacillus Beijerinck 1901, and union of Lactobacillaceae and Leuconostocaceae, Int J Syst Evol Microbiol, 2020.
, Physiologically 'related' genera, Lactic Acid Bacteria, pp.507-508, 2014.
, Physiology of the LAB, Lactic Acid Bacteria, pp.13-30, 2014.
, Methods for the Microbiological Examination of Food, Food Microbiology, pp.370-376, 2008.
, Advances in Fermented Foods and Beverages: Improving Quality, Technologies and Health Benefits, 2014.
, Elective and selective media for lactic acid bacteria, International Journal of Food Microbiology, vol.2, pp.55-68, 1985.
, Culturedependent and -independent analysis of bacterial community structure in Jiangshui, a traditional Chinese fermented vegetable food, LWT, vol.96, pp.244-250, 2018.
, Identification and characterization of Leuconostoc fallax strains isolated from an industrial sauerkraut fermentation, Appl Environ Microbiol, vol.68, pp.2877-2884, 2002.
, Microbial Diversity Analysis of Fermented Mung Beans (Lu-Doh-Huang) by Using Pyrosequencing and Culture Methods, vol.8, p.63816, 2013.
, Quality and microbial flora changes of radish paocai during multiple fermentation rounds, Food Control, vol.106, p.106733, 2019.
, Bacterial community and composition in Jiang-shui and Suan-cai revealed by high-throughput sequencing of 16S rRNA, International Journal of Food Microbiology, vol.306, p.108271, 2019.
, Characterisation of the bacterial community structures of sunki, a traditional unsalted pickle of fermented turnip leaves, Journal of Bioscience and Bioengineering, 2019.
, Assessment of 16S rRNA gene primers for studying bacterial community structure and function of aging flue-cured tobaccos, AMB Express, vol.8, p.182, 2018.
, Suitability of various DNA extraction methods for a traditional Chinese paocai system, vol.8, pp.642-650, 2017.
, Detection of an amplification bias associated to Leuconostocaceae family with a universal primer routinely used for monitoring microbial community structures within food products, BMC Res Notes, vol.11, p.802, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02048857
, Performance of 16s rDNA Primer Pairs in the Study of Rhizosphere and Endosphere Bacterial Microbiomes in Metabarcoding Studies, Front Microbiol, vol.7, 2016.
, Carrot Juice Fermentations as Man-Made Microbial Ecosystems Dominated by Lactic Acid Bacteria, Appl Environ Microbiol, vol.84, 2018.
, The Diversity of Archaea and Bacteria in Association with the Roots of Zea mays L, Microb Ecol, vol.41, pp.252-263, 2001.
, Review: Diversity of Microorganisms in Global Fermented Foods and Beverages, Front Microbiol, vol.7, 2016.
, Bacterial community structure in kimchi, a Korean fermented vegetable food, as revealed by 16S rRNA gene analysis, International Journal of Food Microbiology, vol.103, pp.91-96, 2005.
, , 2011.
, Metagenomic Analysis of Kimchi, a Traditional Korean Fermented Food, Appl Environ Microbiol, vol.77, pp.2264-2274
, Monitoring of the microbiota profile in nukadoko, a naturally fermented rice bran bed for pickling vegetables, Journal of Bioscience and Bioengineering, vol.118, pp.520-525, 2014.
, Microbial population dynamics during spontaneous fermentation of Asparagus officinalis L. young sprouts, Eur Food Res Technol, vol.239, pp.297-304, 2014.
, Assessment of the bacterial community in directly brined Aloreña de Málaga table olive fermentations by metagenetic analysis, Int J Food Microbiol, vol.236, pp.47-55, 2016.
, Characterization of Microbial Community during the Fermentation of Chinese Homemade paocai, a Traditional Fermented Vegetable Food, Food Sci Technol Res, vol.22, pp.467-475, 2016.
, Assessment of bacterial profiles in aged, home-made Sichuan paocai brine with varying titratable acidity by PacBio SMRT sequencing technology, Food Control, vol.78, pp.14-23, 2017.
, Next-Generation Sequencing Analyses of Bacterial Community Structures in Soybean Pastes Produced in Northeast China: Bacterial communities in Chinese soybean pastes?, Journal of Food Science, vol.82, pp.960-968, 2017.
, Bacterial community diversity of traditional fermented vegetables in China, LWT, vol.86, pp.40-48, 2017.
, Lactobacillus casei starter culture improves vitamin content, increases acidity and decreases nitrite concentration during sauerkraut fermentation, International Journal of Food Science & Technology, vol.53, pp.1925-1931, 2018.
, Influence of iodized table salt on fermentation characteristics and bacterial diversity during sauerkraut fermentation, Food Microbiology, vol.76, pp.473-480, 2018.
, Microbial Community Analysis of Sauerkraut Fermentation Reveals a Stable and Rapidly Established Community, vol.7, p.77, 2018.
, Characterization of the microbiota and volatile components of kocho, a traditional fermented food of Ethiopia, vol.5, p.1842, 2019.
, Comparison of microbial communities and physiochemical characteristics of two traditionally fermented vegetables, Food Research International, vol.128, p.108755, 2020.
, Effects of garlic addition on bacterial communities and the conversions of nitrate and nitrite in a simulated pickle fermentation system, Food Control, vol.113, p.107215, 2020.
, Inventory and monitoring of wine microbial consortia, Appl Microbiol Biotechnol, vol.75, pp.149-164, 2007.
URL : https://hal.archives-ouvertes.fr/hal-02660229
, Vegetable By-Product Lacto-Fermentation as a New Source of Antimicrobial Compounds, 2019.
, Fermented Foods as a Dietary Source of Live Organisms, Front Microbiol, vol.9, p.1785, 2018.
, Biogenic Amine Contents and Microbial Characteristics of Cambodian Fermented Foods, vol.2, 0198.
, Studying the dynamics of microbial populations during food fermentation, FEMS Microbiol Rev, vol.28, pp.251-260, 2004.
, However, certain trends have led to the hypothesis that a pH and an advanced age of the sample could have a negative impact on its bacterial abundance