Assessing the Impact of Simultaneous Co-Fermentation on Malolactic Bioconversion and the Quality of Cider Made with Low-Acidity Apples
Maria Luísa Cerri,
Tatiane Aparecida Gomes,
Matheus de Melo Carraro,
José Pedro Wojeicchowski,
Ivo Mottin Demiate,
Luiz Gustavo Lacerda,
Aline Alberti,
Alessandro Nogueira
Affiliations
Maria Luísa Cerri
Graduate Program in Food Science and Technology, State University of Ponta Grossa, Av. Carlos Cavalcanti 4748, Uvaranas, Ponta Grossa CEP 84030-900, PR, Brazil
Tatiane Aparecida Gomes
Graduate Program in Food Science and Technology, State University of Ponta Grossa, Av. Carlos Cavalcanti 4748, Uvaranas, Ponta Grossa CEP 84030-900, PR, Brazil
Matheus de Melo Carraro
Graduate Program in Food Science and Technology, State University of Ponta Grossa, Av. Carlos Cavalcanti 4748, Uvaranas, Ponta Grossa CEP 84030-900, PR, Brazil
José Pedro Wojeicchowski
Graduate Program in Food Science and Technology, State University of Ponta Grossa, Av. Carlos Cavalcanti 4748, Uvaranas, Ponta Grossa CEP 84030-900, PR, Brazil
Ivo Mottin Demiate
Graduate Program in Food Science and Technology, State University of Ponta Grossa, Av. Carlos Cavalcanti 4748, Uvaranas, Ponta Grossa CEP 84030-900, PR, Brazil
Luiz Gustavo Lacerda
Graduate Program in Food Science and Technology, State University of Ponta Grossa, Av. Carlos Cavalcanti 4748, Uvaranas, Ponta Grossa CEP 84030-900, PR, Brazil
Aline Alberti
Graduate Program in Food Science and Technology, State University of Ponta Grossa, Av. Carlos Cavalcanti 4748, Uvaranas, Ponta Grossa CEP 84030-900, PR, Brazil
Alessandro Nogueira
Graduate Program in Food Science and Technology, State University of Ponta Grossa, Av. Carlos Cavalcanti 4748, Uvaranas, Ponta Grossa CEP 84030-900, PR, Brazil
This study investigated the synergistic effects of combining Saccharomyces cerevisiae and Oenococcus oeni during the alcoholic fermentation of a low-acidity cider. The initial population of indigenous wild lactic acid bacteria (LAB) in the apple must was 104 CFU/mL. Alcoholic fermentations were carried out without (Cider I) and with (Cider II) the O. oeni inoculation at 105 CFU/mL. As S. cerevisiae grows, a declining trend was observed in indigenous and inoculated LAB populations. While the wild LAB exhibited higher sensitivity than O. oeni, they were not eliminated during alcoholic fermentation. The addition of O. oeni impacted the growth and metabolic activity of S. cerevisiae. The bioconversion of malic acid into lactic acid predominantly occurred during the growth phase (43–66%) and stationary phase (4–27%). The resurgence of O. oeni following alcoholic fermentation significantly impacted the production of volatile compounds. After 20 days of fermentation, Cider II displayed a twofold increase in these compounds, resulting in a more favorable sensory profile according to evaluators. Consequently, malolactic fermentation (MLF) coincided with alcoholic fermentation, leading to a reduction in malic acid content. Furthermore, post alcoholic fermentation, MLF positively enhanced the aromatic quality of low-acid cider made from apples with low acidity.
