不同氮素利用效率油菜籽氮素积累与分配

Q3 Agricultural and Biological Sciences Acta Agronomica Sinica Pub Date : 2011-10-01 DOI:10.1016/S1875-2780(11)60049-7
Qing-Song ZUO, Yun-Long GE, Liu Rong, Yin Cui-Yan, Tang Yao, Guang YANG, Suo-Hu LENG
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引用次数: 2

摘要

本研究旨在了解不同类型油菜氮素积累和分配特征。L),解释氮素效率对种子生产的作用机制。2007年和2008年,在N0(纯氮0 kg ha - 1)和N1(纯氮150 kg ha - 1)条件下,对6种氮素生产效率(NUEg)的98个常规油菜籽品种进行了试验。测定了植株成熟期不同部位的干物质质量和氮含量。品种间NUEg含量差异显著,添加NUEg可提高油菜籽产量。NUEg与总氮积累量无显著相关,但与茎内氮分配比呈负相关(r = - 0.5941, P <N0处理0.01;r = - 0.4141, P <N1处理0.01)和壳(r = - 0.6007, P <N0为0.01;和r = - 0.5374, P <0.01 (N1),与种子氮素积累比呈正相关(r = 0.7954, P <N0为0.01;和r = 0.7239, P <0.01 (N1)。NUEg与种子总数呈极显著相关(r = 0.5945, P <N0为0.01;和r = 0.5412, P <0.01 (N1)。NUEg和氮素积累总量对油菜籽产量均有显著影响。因此,油菜品种应培育出高水平的氮素积累和籽粒转运。
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Nitrogen Accumulation and Distribution in Rapeseed with Different Nitrogen Utilization Efficiencies for Grain Production

The objectives of this study were to understand the characteristics of nitrogen accumulation and partition in different types ofrapeseed (Brassica napus. L) and explain the mechanism of nitrogen efficiency for seed production. A total of 98 conventional rapeseed varieties in 6 types of nitrogen use efficiency for grain production (NUEg) were planted under N0 (pure nitrogen 0 kg ha−1) and N1 (pure nitrogen 150 kg ha−1) conditions in 2007 and 2008. The dry matter weights and nitrogen contents of different parts of plants at ripening stage were determined. Significant difference of NUEg was observed among varieties, and seed yield of rapeseed was increased with NUEg. NUEg had no significant correlation with total nitrogen accumulation, but was negatively correlated with the ratios of nitrogen distribution in stem (r = −0.5941, P < 0.01 in treatment N0; and r = −0.4141, P < 0.01 in treatment N1) and shell (r = −0.6007, P < 0.01 in N0; and r = −0.5374, P < 0.01 in N1) and positively correlated with the ratio of nitrogen accumulation in seed (r = 0.7954, P < 0.01 in N0; and r = 0.7239, P < 0.01 in N1). Besides, NUEg had significant correlation with total number of seeds (r = 0.5945, P < 0.01 in N0; and r = 0.5412, P < 0.01 in N1). Both NUEg and total amount of nitrogen accumulation had significant impacts on rapeseed yield. Therefore, rapeseed variety should be developed with high levels of nitrogen accumulation and translocation into seeds.

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30 weeks
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