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Oxygen Treatments Pre- and During Fermentation

Oxygen Treatments Pre- and During Fermentation. Linda F. Bisson Department of Viticulture and Enology University of California, Davis. Oxygen During Juice Fermentation. Low level exposure in juice during pressing operation Hyperoxygenation to get rid of browning potential

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Oxygen Treatments Pre- and During Fermentation

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  1. Oxygen Treatments Pre- and During Fermentation Linda F. Bisson Department of Viticulture and Enology University of California, Davis

  2. Oxygen During Juice Fermentation • Low level exposure in juice during pressing operation • Hyperoxygenation to get rid of browning potential • Deliberate addition to fermentation to stimulate yeast

  3. Intended Goals of Aeration • Mixing • Providing oxygen as nutrient for yeast or ML bacteria • Stimulation of non-Saccharomyces organisms • Aroma maturation • Color maturation • Tannin/mouth feel maturation

  4. Unintended Goals of Aeration • Stimulation of spoilage organisms • Loss of aromatic characters • Creation of off-characters due to oxidation reactions

  5. Mixing • Avoid stratification • Enhance extraction • Remove inhibitory Carbon Dioxide • Provide oxygen for metabolism

  6. Mixing • Avoid stratification • Distribute Ethanol Levels • Mix Yeast • Bring in new nutrients • Distribute inhibitory non-volatile end products • Enhance extraction • Remove inhibitory Carbon Dioxide • Provide oxygen for metabolism

  7. Providing Oxygen as a Nutrient • Oxygen enables adaptation • Allows aerobic organisms to make energy for adaptation of cell to juice conditions • Oxygen is a survival factor • Allows formation of desired lipid/phospholipid composition • Enables formation of sterols • Maintains cytoplasmic redox status • Catalyst in biochemical reactions

  8. Timing of Oxygen Addition • Grape surface microbes tend to be aerobes and will deplete oxygen • Organisms need oxygen to survive • Organisms need oxygen to metabolize • Grape and mold oxidases will consume molecular oxygen as substrate • Phenolic compounds in juice will react with oxygen

  9. Timing of Oxygen Addition • To benefit yeast: • Need to add oxygen once fermentative yeast populations are established • Use of sulfite to inhibit enzymatic consumption of molecular oxygen • Use of heat treatments to inhibit enzymatic consumption of molecular oxygen

  10. Stimulation of non- Saccharomyces Organisms • Acetic Acid bacteria on fruit • Lactic Acid bacteria on fruit • Non-Saccharomyces yeasts • Aerobes on surfaces of winery equipment • Enables transition to fermentative modes of metabolism • Generation of complexity

  11. Aroma Maturation • Manipulation of juice chemistry • Challenging because of multiple possible fates of added O2 • Redox reactions difficult to predict and control • Loss of volatile aromas

  12. Color Maturation • Formation of stable pigments • Browning reactions

  13. Tannin/Mouth Feel Maturation • Anita to cover

  14. Stimulation of Spoilage Organisms • Oxygen is essential to most organisms • Needed for oxidative metabolism or respiration • Needed as electron acceptor in many reactions • Chemical catalyst • Can enable survival not just growth

  15. Loss of Aroma Characters • Loss due to volatility • Loss due to chemical reactivity • Loss due to microbial activity • Loss due to enzymatic activity

  16. Creation of Off-Characters • Aldehydes from chemical reactions • Off-colors from oxidative reactions • Stimulation of oxidative organisms

  17. Timing of Aeration • Pre-fermentation • During fermentation • Post-fermentation: ML • Post-fermentation: aging

  18. Pre-Fermentation Aeration • Fates of oxygen in Juice: Microbial consumption Enzymatic consumption Chemical consumption

  19. Fates of Oxygen During Fermentation • Microbial consumption • Ethanol inhibition of PPO, not of laccase

  20. Aeration Winery Trials • Impact of aeration during pumpover in Grenache • Impact of oxygen treatments in commercial Chardonnay

  21. The Grenache Trial • Pumpovers were twice daily with sufficient time to pump over one tank volume • Three treatments • Normal Pumpover with no added air • Pump with constant aeration via insertion of air into stream • Insertion of nitrogen instead of air in to the stream • Used different closures on the three treatments

  22. Confounding Variables • Impact of oxygen versus simple mixing (thus the Nitrogen control) • Impact of microbes stimulated in control and aeration treatments (secondary effects)

  23. Grenache Juice Analysis

  24. Findings • All fermentations completed • Nitrogen-sparged sample fermented slightly faster • Air-sparged sample showed a lag consistent with growth of other organisms • Air-sparged sped up as ethanol increased, consistent with oxygen as survival factor

  25. Commercial Chardonnay Trial • Five Treatments: • Control • Nitrogen-sparged juice • Aeration pre-inoculation • Aeration at 18-20 Brix • Aeration of wine as control

  26. Fermentation Curves

  27. Fermentation Curves

  28. Conclusions • Yeast strains showed differences • No differences noted by treatment of fermentation • Wines available on side table

  29. Grenache Tasting • Glass 1: Control, no sparge • Glass 2: Air sparge • Glass 3: Nitrogen sparge • Glass 4: Cork closure • Glass 5: Synthetic Closure • Glass 6: Synthetic Closure

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