Chemical, physical, and sensory attributes of Sauvignon blanc wine fermented in different kinds of vessels
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2020Metadata
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Gil i Cortiella, Mariona
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Chemical, physical, and sensory attributes of Sauvignon blanc wine fermented in different kinds of vessels
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Abstract
The use of vessels that are alternative to conventional cylindrical stainless steel tanks and traditional oak barrels
during winemaking has increased in recent years. Examples of these alternative vessels include fashionable, ovalshaped
vessels or classic clay jars. A Sauvignon blanc grape juice was fermented (by using a commercial starter
made of two different commercial strains from Oenobrands/Anchor Oenology) in four different vessels in triplicate:
150 L cylindrical stainless steel tanks (as a control), 980 L polyethylene oval-shaped tanks, 450 L
concrete oval-shaped tanks, and 225 L clay jars. Afterwards, the finished wines were chemically, physically, and
sensorially characterized. The wine fermented in the concrete vessels had a slightly higher pH (about 0.05 pH
units) and lower titratable acidity (about 0.20 g/L of tartaric acid equivalents) value than those of the control
wine. The wine fermented in the clay jars showed the lowest amounts of C10, C12, and C14 volatile compounds
(containing about 69% of those compounds when compared with the control wine). The wine fermented in the
polyethylene oval-shaped tanks was described as the most bitter, while the wine fermented in the concrete ovalshaped
tanks was described as the least fruity when wines were sensory analyzed by a panel of 11 wine experts.
The wines fermented in the oval-shaped vessels showed lower volatile acidity (about 25% reduction of volatile
acidity when compared with wines fermented in non-oval-shaped vessels), higher residual sugars (wines fermented
in the oval-shaped vessels contained about 1.7 g/L of residual sugars, while wines fermented in the nonoval-
shaped vessels contained about 1.4 g/L of residual sugars), higher phosphorous content (with an increase of
about 12%), and required a lower dose of bentonite to achieve protein stability (about 64 g/hL of bentonite) than
those of the other wines (about 75 g/hL of bentonite). Even though some statistical differences were found
among wines fermented in the different vessels, it should be noted that the differences were very small. Thus, it
seems that the impact of the fermentation vessel type on final wine features is lower than expected.
Patrocinador
Comision Nacional de Investigacion Cientifica y Tecnologica (CONICYT)
FONDECYT-11160510
FONDEQUIP EQM-140007
FONDEQUIP EQM-130129
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Artículo de publicación ISI Artículo de publicación SCOPUS
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Innovative Food Science and Emerging Technologies 66 (2020) 102521
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