Abstract
Grapes of five white cultivars were crushed to provide a total of 104 samples of five cultivars. After centrifugation, several chemical analyses were performed on musts including an assessment of hydrogen sulfide (H<sub>2</sub>S) development during fermentation. Statistical evaluation established significant correlations (0.001 level) of: free amino nitrogen (FAN) with H<sub>2</sub>S and soluble solids; protein nitrogen with titratable acidity, turbidity, total nitrogen, and nonprotein nitrogen; ammonia nitrogen with soluble solids, titratable acidity, and pH; nonprotein nitrogen with turbidity and total nitrogen; and, finally, pH with titratable acidity. Considered the most important of these correlations was that between FAN and H<sub>2</sub>S. Subsequent fermentations, using nonfoaming yeast and protease, were each characterized by several distinct consequences including the stimulation of H<sub>2</sub>S. These experiments demonstrated that actively fermenting yeasts are capable of extracellular proteolytic activity and that the degradation of must proteins is implicated in the formation of H<sub>2</sub>S. Clarification of settled musts by centrifugation had a small but marked effect. Bentonite treatment and removal of the bentonite-protein sediment before fermentation substantially decreased the development of H<sub>2</sub>S but adversely affected fermentation activity. By contrast, fermentations conducted in contact with bentonite stimulated both H<sub>2</sub>S development and fermentation rates, as did the pasteurization of must. Enhancement of the assimilable nitrogen content of musts resulted in the most effective control of H<sub>2</sub>S. Fermentation rates were accelerated, and, in some instances, suppression of H<sub>2</sub>S was complete. It thus appears that the formation of H<sub>2</sub>S occurs indirectly as a result of the nitrogen demand of yeasts and not because of their sulfur requirements as such.
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