339-12Barley Cultivar Ranking Under Contrasting Tillage Systems In the U.S. Great Plains.
See more from this Division: ASA Section: Agronomic Production SystemsSee more from this Session: Semi-Arid Dryland Cropping Systems
Barley production is shifting westward in the North American Great Plains because of persistent disease pressure in eastern regions. High-residue farming practices are replacing conventional tillage methods in this dryland semiarid region because of soil water conservation and, as a result, more barley is being grown in conservation-tillage systems than in the past. Our objective was to determine if barley cultivar ranking changes when switching from low to high-residue farming systems. Six barley cultivars were grown under clean- and no-till management in southwestern North Dakota during 2009, 2010, and 2011. An interaction between tillage systems and cultivars was not detected for grain yield (P = 0.89). Similarly, yield was unaffected by tillage system and averaged 3961 kg ha-1. Mean grain yield for the two-rowed cultivar Pinnacle was 5484 kg ha-1, which was comparable or greater than yields produced by the five other cultivars (P < 0.01). Kernel weight may explain partially the relative yield advantage of Pinnacle, which was heavier than that of all other cultivars, except for the 2-rowed cultivar Conlon. Kernel weight was heavier in no-till than clean-till plots during 2011, but an interaction between tillage systems and cultivars was not detected (P = 0.17). Similarly, interactions between tillage systems and cultivars were not detected for other barley traits considered in this study, except for grain moisture content at harvest, which was higher under no-till for both Conrad and Pinnacle than other cultivars. Results of this study indicate that barley recommendations based on cultivar adaptation in low-residue environments can be extended to high-residue environments in western portions of the Great Plains region and similar dryland semiarid areas.
See more from this Session: Semi-Arid Dryland Cropping Systems