PT - JOURNAL ARTICLE AU - Michael North AU - Beth Ann Workmaster AU - Amaya Atucha TI - Cold Hardiness of Cold Climate Interspecific Hybrid Grapevines Grown in a Cold Climate Region AID - 10.5344/ajev.2021.21001 DP - 2021 Jun 08 TA - American Journal of Enology and Viticulture PG - ajev.2021.21001 4099 - http://www.ajevonline.org/content/early/2021/06/10/ajev.2021.21001.short 4100 - http://www.ajevonline.org/content/early/2021/06/10/ajev.2021.21001.full AB - Cold climate interspecific hybrid grapevines (CCIHG) selected for their superior mid-winter cold hardiness have expanded grape production to cold climate regions. However, extreme weather events, such as polar vortexes, and high frequency of fall and spring freezes often result in yield and vine losses. The main objective of this study was to evaluate changes in bud cold hardiness of five CCIHG cultivars grown in the upper Midwest in order to identify relative risk for freeze damage throughout the dormant period, and to adapt a bud cold hardiness prediction model to CCIHG cultivars grown in cold climate regions. Bud cold hardiness was evaluated biweekly throughout the dormant period by measuring lethal temperatures for buds using differential thermal analysis (DTA). CCIHG cultivars in our study had an early acclimation response with increased levels of cold hardiness before the occurrence of freezing temperatures. Maximum levels of hardiness (-28 to -3°C) were observed both years in February, however deeper levels of freezing stress resistance, probably attained by freeze dehydration, were not detected using DTA. CCIHG cultivars had a rapid deacclimation response that was accelerated with additional chilling accumulation during spring. The reparametrizing of a discrete-dynamic cold hardiness prediction model by expanding the range of ecodormant threshold temperatures for CCIHG resulted in predictions with an average RMSE = 1.01. Although CCIHG cultivars have superior mid-winter bud cold hardiness, fast deacclimation responses increase the risk of freeze damage during spring, thus this trait should be evaluated for future CCIHG cultivar release. The development of tools, such as the discrete-dynamic cold hardiness prediction model for CCIHG cultivars, will aid growers in decision-making to minimize damage, as well as yield and vine losses.