Effect of cultivar and agronomic management on feed barley production in Alberta environments

Autor: L.A. Thompson, Donald Pauly, Sheri Strydhorst, Linda M. Hall, Kabal Singh Gill, Robyne Bowness, Rong-Cai Yang
Rok vydání: 2018
Předmět:
Zdroj: Canadian Journal of Plant Science. 98:1304-1320
ISSN: 1918-1833
0008-4220
DOI: 10.1139/cjps-2018-0042
Popis: The area sown to barley (Hordeum vulgare L.) in Alberta, Canada, and the rate of yield increase relative to other major crops have declined in recent decades. Advanced agronomic management of feed barley may increase the seeded area and differentially influence cultivar performance. Field experiments were conducted from 2014 to 2016 at 11 rainfed and three irrigated environments in Alberta to evaluate the performance of 10 feed barley cultivars under standard and advanced agronomic management. Advanced management included supplemental postemergence N, the plant growth regulator chlormequat chloride, and two foliar fungicide applications. Cultivars responded similarly to management in the low disease pressure environments encountered in the study. The two-row cultivars CDC Austenson, Xena, and CDC Coalition were the highest yielding overall, while Champion had the greatest yields in moisture-limited environments. The feed grain quality of two-row cultivars was superior to six-row cultivars. Recently released six-row cultivars were among the lowest yielding. Negative or static yield increases were observed for all newer cultivars (2006–2013 registrations) compared with the older cultivar, Xena (2000 registration). In comparison, the overall 9.3% yield increase from advanced management was notable. Advanced management yield increases were greater (8%–18%) in environments with 251–502 mm of precipitation and smaller (1%–3%) in moisture-limited environments. Management had negligible effects on lodging and grain quality. Optimal yield and quality were achieved with the two-row cultivars, CDC Austenson, Xena, or CDC Coalition, and advanced management in high precipitation environments. In environments with less precipitation, optimal yields were achieved with Champion and standard management.
Databáze: OpenAIRE
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