This study optimized clarifying Muscat blanc must with either Ca- or Na- bentonite and related mixes in a dose range of 10÷100 g/hL through a central composite design. Response surface methodology (RSM) estimated the combined effect of the bentonite type and dose on free (i.e., aglycons) and glycosylated aroma compounds. Heat stability, turbidity, and color were further analyzed. Results indicate that Na-prevalent bentonite mixes significantly reduced the must haziness, while mixes with 50% Ca-bentonite or higher led to negligible decreases. The surface plots from RSM predicted that aglycons of aroma compounds were removed by Na-bentonite at lower doses and by Ca-bentonite regardless of the dose. Further, the model estimated the removal of glycosylated aroma compounds, especially by Ca-prevalent bentonite at 50 g/hL. Despite the study’s experimental limitations, these outcomes will help the enological sector improve aromatic sparkling wine production.
Colangelo, D., Torchio, F., Rolle, L., Gerbi, V., De Faveri, D. M., Lambri, M., Using Response Surface Methodology to Model the Clarifying Process of Muscat blanc Must for the Production of a Sweet Sparkling Wine, <<AMERICAN JOURNAL OF ENOLOGY AND VITICULTURE>>, 2019; 70 (1): 42-49. [doi:10.5344/ajev.2018.18043] [http://hdl.handle.net/10807/139488]
Using Response Surface Methodology to Model the Clarifying Process of Muscat blanc Must for the Production of a Sweet Sparkling Wine
Colangelo, DonatoPrimo
Writing – Original Draft Preparation
;Torchio, FabrizioSecondo
Methodology
;De Faveri, Dante MarcoPenultimo
Membro del Collaboration Group
;Lambri, MilenaUltimo
Supervision
2019
Abstract
This study optimized clarifying Muscat blanc must with either Ca- or Na- bentonite and related mixes in a dose range of 10÷100 g/hL through a central composite design. Response surface methodology (RSM) estimated the combined effect of the bentonite type and dose on free (i.e., aglycons) and glycosylated aroma compounds. Heat stability, turbidity, and color were further analyzed. Results indicate that Na-prevalent bentonite mixes significantly reduced the must haziness, while mixes with 50% Ca-bentonite or higher led to negligible decreases. The surface plots from RSM predicted that aglycons of aroma compounds were removed by Na-bentonite at lower doses and by Ca-bentonite regardless of the dose. Further, the model estimated the removal of glycosylated aroma compounds, especially by Ca-prevalent bentonite at 50 g/hL. Despite the study’s experimental limitations, these outcomes will help the enological sector improve aromatic sparkling wine production.
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