PT - JOURNAL ARTICLE AU - Peter Buffon AU - Hildegarde Heymann AU - David E. Block TI - Sensory and Chemical Effects of Cross-Flow Filtration on White and Red Wines AID - 10.5344/ajev.2014.13090 DP - 2014 Sep 01 TA - American Journal of Enology and Viticulture PG - 305--314 VI - 65 IP - 3 4099 - http://www.ajevonline.org/content/65/3/305.short 4100 - http://www.ajevonline.org/content/65/3/305.full SO - Am. J. Enol. Vitic.2014 Sep 01; 65 AB - Cross-flow filtration is an increasingly common postfermentation process in the wine industry. Our hypothesis was that cross-flow filtration would not have a significant impact on the sensory or chemical properties of white or red wines because of the nature of the membranes used in this process. To investigate this, a California white wine blend and a California red wine blend were filtered in three 570 L lots using a Bucher Vaslin cross-flow unit with a nominal 0.22-micron polyethersulfone membrane. The unfiltered control was sent directly to the bottling line without filtration. Panelists evaluated the wines nine times during an eight-month descriptive analysis panel with replicated tasting at each time point. UV-vis spectrophotometry and the Adams–Harbertson assay were used to determine color and phenolic content of the filtered and unfiltered wines, respectively. The effect of filtration was significant for one sensory attribute out of 16 total measured in the white wine. Similar analysis indicated that six sensory attributes were significantly different out of 16 total in the red wine. Unfiltered red wines were higher in earthy, grassy, oak, and smoke aromas compared to filtered wines and lower in mixed berry and stone fruit aromas compared to the filtered wines, but only after two months in bottle. Cross-flow filtration was found to have a stabilizing effect on the sensory profile of both wines. For both wines there were significant changes in color and phenolic profile with filtration, but it is not clear, especially for red wines, whether the changes in phenolic compound concentration were great enough to be detected sensorially.