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Grapevine decline is associated with difference in soil microbial composition and activity
(Oeno One. vol. 55, n° 3, pp. 67-84, 2021)Article de revueLibre acceso -
Impact of Lachancea thermotolerans on Chemical Composition and Sensory Profiles of Viognier Wines
(Journal of Fungi. vol. 8, n° 5, 2022-05)Article de revueLibre acceso -
Combined effect of the Saccharomyces cerevisiae lag phase and the non-Saccharomyces consortium to enhance wine fruitiness and complexity
(Applied Microbiology and Biotechnology. vol. 101, n° 20, pp. 7603-7620, 2017-09-14)Article de revue -
Bioprotection by non-Saccharomyces yeasts in oenology : evaluation of O2 consumption and impact on acetic acid bacteria
(International Journal of Food Microbiology. pp. 110338, 2023-07-23)Article de revueLibre acceso -
New malic acid producer strains of Saccharomyces cerevisiae for preserving wine acidity during alcoholic fermentation
(Food Microbiology. vol. 112, pp. 104209, 2023-06)Article de revue -
Microbial dysbiosis in roots and rhizosphere of grapevines experiencing decline is associated with active metabolic functions
(Frontiers in Plant Science. vol. 15, 2024-04-02)Article de revueLibre acceso -
In grapevine decline, microbiomes are affected differently in symptomatic and asymptomatic soils
(Applied Soil Ecology. vol. 183, 2023-03)Article de revueLibre acceso -
Population dynamics and yeast diversity in early winemaking stages without sulfites revealed by three complementary approaches
(Applied Sciences (Switzerland). vol. 11, n° 6, 2021-03-11)Article de revueLibre acceso -
Yeast and filamentous fungi microbial communities in organic red grape juice : effect of vintage, maturity stage, SO2, and bioprotection
(Frontiers in Microbiology. vol. 12, 2021-12-24)Article de revueLibre acceso -
Non-Saccharomyces yeasts as bioprotection in the composition of red wine and in the reduction of sulfur dioxide
(LWT. vol. 149, 2021)Article de revueLibre acceso