FIELD EVALUATION OF SOYBEAN (GLYCINE MAX) GENOTYPES FOR WEED COMPETITIVENESS

1997 
Klaus J. Puettmann Department of Forest Resources, University of Minnesota, St. Paul, MN 55108 In the first of 2 field studies, weed biomass and soybean seed yield were used to evaluate 16 soybean genotypes for competitive ability against 12 weed species at Rosemount, MN, in 1992 and 1993. The yield and ranking of soybean genotypes often varied with the weed species. Grass weed species reduced yields the most, and small-seeded broadleaf weeds reduced yields the least across years. 'Parker' was highly competitive, as it suppressed weed biomass and produced high soybean yield. 'Kato,' 'Kasota,' 'Dawson,' and 'Glenwood' minimized weed biomass and maintained soybean yield while in competition with grass weeds but yielded poorly relative to other soybean genotypes in weed-free conditions. 'Lambert' produced high soybean yield in weed-free conditions, but yield dropped markedly when in competition with grass weeds. 'Grande,' 'Heifeng 25,' and 'Norman' soybeans were poor competitive genotypes in weedy situations and low yielding in weed-free conditions. A 2nd field study conducted at Rosemount and St. Paul, MN, during 1993 evaluated 16 soybean genotypes under 4 levels and durations of weed pressure for weed competitiveness. Parker, 'Sturdy,' and M89-794 were most competitive in suppressing weed biomass and producing high yields. Lambert yielded fairly well but allowed high weed biomass. M89-1743, M89-1006, 'Archer,' and 'Ozzie' yielded poorly and did not suppress weed biomass production. No relationship was found between weed competitiveness and soybean canopy area, height, and volume measured 30-45 d after planting (DAP).
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