An experiment was conducted on Fluvisols of Awassa for two consecutive years (2005-2006) to determine effects of planting pattern and plant density on dry matter accumulation, nodulation, protein and oil content in ...An experiment was conducted on Fluvisols of Awassa for two consecutive years (2005-2006) to determine effects of planting pattern and plant density on dry matter accumulation, nodulation, protein and oil content in early and late maturing soybean varieties. Results indicated that Awassa-95 variety produced significantly higher (P 〈 0.05) number of nodules/plant (NDN), nodule dry matter (NDM) and leaf dry matter (LDM at R2 (mid flowering) stage of soybean growth than that of variety Belessa-95). Similarly, variety Awassa-95 (45%) produced significantly higher protein content than variety Belessa-95 (40%). However, variety Belessa-95 accumulated significantly higher (P 〈 0.01) dry matter in straw, grain and total biomass at R7 (physiological maturity) stage of soybean growth than variety Awassa-95. Similarly, oil content of variety Belessa-95 (18.1%) was significantly (P 〈 0.05) higher than that of variety Awassa-95 (15.9%). Equidistant rows produced significantly higher (P 〈 0.05) NDM than either rectangular or paired rows. Moreover, soybean plants grown in both rectangular and equidistant rows produced significantly higher (P 〈 0.01) straw dry matter than those grown in paired rows; but, grain dry matter/plant (GDM) was significantly higher (P 〈 0.01) paired and rectangular rows compared to equidistant rows. Plant density also affected the per plant GDM production as it was significantly higher (P 〈 0.01) in 20 and 30 plants/m2 than higher plant densities (40 and 50 plants/m2). However, dry matter and yield components had strong negative association with protein content. In fact, strong positive correlation (R 〉 0.600) occurred between grain yield and its components with dry matter components at R2 (stem dry matter (SDM), leaf dry matter (LDM) and stem + nodule + leaf dry matter together known as TDM) and straw dry matter at R7 in both varieties. This study depicted that soybean plants that produce higher dry matter components at R2 would probably produce more straw dry matter, greater grain yield components and higher grain yield dry matter at later stages.展开更多
文摘An experiment was conducted on Fluvisols of Awassa for two consecutive years (2005-2006) to determine effects of planting pattern and plant density on dry matter accumulation, nodulation, protein and oil content in early and late maturing soybean varieties. Results indicated that Awassa-95 variety produced significantly higher (P 〈 0.05) number of nodules/plant (NDN), nodule dry matter (NDM) and leaf dry matter (LDM at R2 (mid flowering) stage of soybean growth than that of variety Belessa-95). Similarly, variety Awassa-95 (45%) produced significantly higher protein content than variety Belessa-95 (40%). However, variety Belessa-95 accumulated significantly higher (P 〈 0.01) dry matter in straw, grain and total biomass at R7 (physiological maturity) stage of soybean growth than variety Awassa-95. Similarly, oil content of variety Belessa-95 (18.1%) was significantly (P 〈 0.05) higher than that of variety Awassa-95 (15.9%). Equidistant rows produced significantly higher (P 〈 0.05) NDM than either rectangular or paired rows. Moreover, soybean plants grown in both rectangular and equidistant rows produced significantly higher (P 〈 0.01) straw dry matter than those grown in paired rows; but, grain dry matter/plant (GDM) was significantly higher (P 〈 0.01) paired and rectangular rows compared to equidistant rows. Plant density also affected the per plant GDM production as it was significantly higher (P 〈 0.01) in 20 and 30 plants/m2 than higher plant densities (40 and 50 plants/m2). However, dry matter and yield components had strong negative association with protein content. In fact, strong positive correlation (R 〉 0.600) occurred between grain yield and its components with dry matter components at R2 (stem dry matter (SDM), leaf dry matter (LDM) and stem + nodule + leaf dry matter together known as TDM) and straw dry matter at R7 in both varieties. This study depicted that soybean plants that produce higher dry matter components at R2 would probably produce more straw dry matter, greater grain yield components and higher grain yield dry matter at later stages.
