摘要
以2009年贵州省玉米新品种区域试验C组各承试点的产量为资料,应用AMMI(additive main effects and multiplicative interaction,又称为主效可加互作可乘)模型对小区产量的基因型、环境和基因型与环境(G×E)互作进行了探讨。结果表明:AMMI模型很好地解释了玉米新品种产量性状的基因型效应、环境效应和G×E互作效应。根据AMMI双标图和分析结果可以得出以下结论:小区产量高且稳定的品种有C2、C6和C8(10.689~11.433kg),相对稳定的品种有C7、C10和CK(10.071~10.594kg),高产但较不稳定的品种有C3和C4(10.571~11.055kg),产量低也不稳定的品种是C1、C5和C9(9.543~10.157kg);试点E1、E5和E2的分辨力较强,E6、E7和E3的分辨力较弱。
Those 11 rice varieties were rooted in C group of regional tests in 2009 year and were analyzed as the experiment materials.The maize yield/plant was measured and analyzed by AMMI(additive main effects and multiplicative interaction) model.The article discussed the genotype,environment and interactive effects of genotype by environment(G×E) of maize yield/plant.The model explained clearly the genotype, environment and G×E interactions on yield trait in maize cultivars.AMMI plots and data analysis showed that the most stable and high output cultivars were C2,C6 and C8(10.689 - 11.433 kg).The relative stable ones were C7,C10 and CK(10.071 -10.594 kg).The high yield but less unstable cultivars were C3 and C4(10.571 -11.055 kg).The lower yield and unstable cultivars were C1,C5 and C9(9.543 - 10.157 kg).Test site E1,E2 and E5 had strong discrimination,and Test site E3,E6 and E7 had relatively weak discrimination.
出处
《农技服务》
2011年第4期411-413,424,共4页
AGRICULTURAL TECHNOLOGY SERVICE
基金
2010年遵义市农业攻关项目(遵市科合[2010]3号)
