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a Agric. & Agri-Food Canada, Eastern Cereal and Oilseed Res. Ctr. (ECORC), Central Exp. Farm, Ottawa, ON, Canada K1A 0C6
morrisonmj{at}em.agr.ca
Received for publication October 1, 1998. In Canada, yield of short-season soybean [Glycine max (L.) Merr.] cultivars has increased by approximately 0.5% per year since they were first cultivated in the early 1930s. Future yield gains may be dependent on an understanding of the changes made to soybean cultivars by breeding and selection. Our objective was to examine physiological differences associated with seed yield increase within a group of historical cultivars. At Ottawa, Ontario, we grew 14 cultivars representing seven decades of breeding and selection (1934–1992) in a randomized complete block design with four replications, across 4 years. Growth analysis provided data on leaf area and dry weight. Photosynthetic rate per leaf area was measured at several stages of development each year. Yield and harvest index were determined at maturity. The number of days to maturity and the total plant dry weight were not affected by the year of cultivar release. Seed yield, harvest index, and photosynthetic rate were found to have increased by 0.5% per year, while leaf area index decreased by 0.4% per year. The increase in seed yield with year of release was significantly correlated with an increase in harvest index, photosynthesis, and stomatal conductance and a decrease in leaf area index. Today's cultivars are more efficient at producing and allocating carbon resources to seeds than were their predecessors.
Abbreviations: MG, maturity group • CAP, canopy apparent photosynthesis • NAR, net assimilation rate • LAI, leaf area index • LAR, leaf area ratio • SLA, specific leaf area • HI, harvest index, TDW, total dry weight
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