TY - JOUR T1 - Impact of Training System, Vine Spacing, and Basal Leaf Removal on Riesling. Vine Performance, Berry Composition, Canopy Microclimate, and Vineyard Labor Requirements JF - American Journal of Enology and Viticulture JO - Am J Enol Vitic. SP - 63 LP - 76 DO - 10.5344/ajev.1996.47.1.63 VL - 47 IS - 1 AU - Andrew G. Reynolds AU - Douglas A. Wardle AU - Andrew P. Naylor Y1 - 1996/01/01 UR - http://www.ajevonline.org/content/47/1/63.abstract N2 - Own-rooted Riesling vines were subjected, over a five-year period, to five training treatments [alternate double crossarm (ADC); Lenz Moser (LM); low cordon (LC); low-V (LV); pendelbogen (PB)] and three within-row vine spacings (1.4, 1.8, and 2.4 m), with and without basal leaf removal applied to one-half of each vine at approximately 45 days post-bloom. Weight of cane prunings (vine size) was nearly optimal in ADC, LM, and PB systems, but was excessive in the other two training treatments. Increased vine spacing decreased vine size linearly on a per meter of row basis. Canopy density was optimized by ADC and PB training, and these two systems also had the least number of shaded leaves. Both ADC and LV systems tended to have the greatest number of exposed clusters. Yields of divided canopies (ADC and LV) averaged 55% higher than single curtain systems, but cluster weights were lower, and ADC berry weights were also lower. The ADC system produced fruit with lowest °Brix, but also with lowest titratable acidity (TA) and pH, and highest free volatile terpene (FVT) and potentially-volatile terpene (PVT) content. Leaf removal consistently reduced TA, canopy density, and shaded leaves, and significantly increased cluster exposure, FVT, and PVT. Vine spacing had a limited influence on yield and fruit composition, but interacted with training system and leaf removal on some components. ADC training led to higher leaf and cluster exposure, and higher cluster temperatures than LC training, with little difference in transpiration rate and leaf water potential. Labor requirements per m of canopy were lowest in ADC vines. ER -