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- Author or Editor: Elijah A. Bergmeier x
One of the most popular winegrapes (Vitis sp.) for red wine production in the midwestern United States is ‘Chambourcin’, a French-American hybrid. It is typically produced on own-rooted vines in the region, but the potential benefits of grafting it to improved rootstocks are becoming better-known. Nematodes present occasional serious winegrape production challenges in the midwestern United States, and are capable of transmitting pathogenic viruses. New rootstocks developed by University of California, Davis (UCD GRN series) are resistant to several species and races of nematodes, but have not been evaluated under midwestern U.S. production conditions. A study with ‘Chambourcin’ grafted to four of these new nematode-resistant rootstocks (‘UCD GRN-2’, ‘UCD GRN-3’, ‘UCD GRN-4’, and ‘UCD GRN-5’) and ‘Couderc 3309’, along with own-rooted vines was established in 2010 in southwest Missouri, and fruited in 2013–15. Three of the nematode-resistant rootstocks (GRN-2, 3, 4) performed as well as the standard ‘Couderc 3309’ and own-rooted vines, with yields among all rootstocks ranging from 10 to 13 kg/vine. The rootstock ‘UCD GRN-5’ generally performed poorly, however, manifested by low pruning weights and a high Ravaz index value (25) in 2013 that necessitated defruiting the vines in 2014. Fruit yields on ‘UCD GRN-5’ rootstocks were satisfactory in 2013 and 2015, but the vines eventually deteriorated, with 99% shootless nodes by 2017. Although more evaluations of these new rootstocks are needed in the midwestern United States, we conclude that ‘UCD GRN-2’, ‘UCD GRN-3’, and ‘UCD GRN-4’ show promise, whereas ‘UCD GRN-5’ does not appear suitable for growing conditions in southern Missouri.
An evaluation of establishment techniques and rootstocks for ‘Chambourcin’ hybrid grape (Vitis sp.) was conducted 2009–12. Our objective was to evaluate four establishment methods and their interactions with grafted and ungrafted vines in terms of vine morphology and early fruit production under southwest Missouri conditions. The study was established in May 2009, as a factorial experiment comparing four establishment methods (open-trained without protection—two shoots, grow tube protected—two shoots, paperboard carton protected—two shoots, and fan-trained without protection—six shoots) across two vine types (own-rooted and grafted to ‘Couderc 3309’ hybrid grape rootstock). All vines in four of 12 field replications were destructively harvested near the conclusion of the first growing season, with leaf area and total vine dry matter determined. In years 3 and 4, yield, fruit composition, and vegetative growth were determined from the eight remaining replications. The fan training method increased leaf area and total vine dry matter compared with the other methods, but none of the establishment techniques affected fruit yield. Trunks that were tube protected had longer internodes, smaller diameter, and less dry matter, whereas both protection devices reduced glyphosate injury. Vine type (grafted and ungrafted) did not impact total leaf area or dry weight during the establishment year, but grafted vines had increased trunk and root shank dry weights compared with own-rooted vines. Grafted vines produced greater fruit yield in 2012. The fan training method required more labor to execute; although it was successful at increasing leaf area and root dry weight, it increased susceptibility to glyphosate injury and did not promote increased precocity or early fruit yield.