1. 玉米自交系 ZOL-1 姊妹系的农艺性状分析.
- Author
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黄 婷, 张思亲, 王治中, 李 靖, 刘所琼, and 赵自仙
- Subjects
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PATH analysis (Statistics) , *GREY relational analysis , *CORN breeding , *STATISTICAL correlation , *LEAF area , *SEED industry , *CORN , *CORN seeds - Abstract
[Objective] The single cross of maize sister lines can increase its seed production. Because of seed production is the result of multiple agronomic traits of the parents, it is important to reveal the relative importance of each trait to yield for the selection of suitable sister lines. [Method] The relationship among 15 main agronomic traits and yields of the maize inbred line ZOL-1 sister lines was analyzed by grey correlation analysis, correlation analysis and path analysis. [Result ] Grey correlation analysis showed that the order of the influence of 15 traits on yield was rows per ear > ear diameter > kernels per row > plant height > ear length > ear height > days from emergence to silk > three leaves area near ear > bare top length = leaves per plant> days from emergence to pollen > 100-kernel weight> shelling percentage > green leaves at harvest> days from emergence to tassel. Correlation analysis showed that the traits that were significantly positively correlated with yield were kernels per row, ear length, plant height, ear diameter, rows per ear, and three leaves area near ear, the traits showing a significant positive correlation were ear height and 100-kernel weight. Path analysis showed that the direct effect of each trait on yield was kernels per row > rows per ear > 100-kernel weight > plant height > ear diameter > three leaves area near ear > days from emergence to tassel > ear length > leaves per plant > days from emergence to pollen > shelling percentage > days from emergence to silk > bare top length > ear height > green leaves at harvest. [Conclusion] Plant height, ear diameter, ear row number, and kernels per row were the main factors affecting the yield of the sister lines of the maize inbred line ZOL-1, which could be used as reference indicators for the selection of maize sister lines and hybrid hybrids. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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