水平结构配置对冬小麦冠层垂直结构、微环境及产量的影响

[an error occurred while processing this directive]

熊淑萍¹, 曹文博¹, 曹锐¹, 张志勇¹, 付新露¹, 徐赛俊¹, 潘虎强¹, 王小纯², 马新明¹^,^*(

)

Effects of horizontal structure on canopy vertical structure, microenvironment and yield of Triticum aestivum

XIONG Shu-Ping¹, CAO Wen-Bo¹, CAO Rui¹, ZHANG Zhi-Yong¹, FU Xin-Lu¹, XU Sai-Jun¹, PAN Hu-Qiang¹, WANG Xiao-Chun², MA Xin-Ming¹^,^*(

)

图3. 水平结构配置对冬小麦叶面积指数(LAI)的影响(平均值±标准差)。FS, 开花期; AF1, 开花后10天; AF2, 开花后20天; AF3, 开花后30天。R₁, 20 cm + 20 cm行距模式; R₂, 12 cm + 12 cm + 12 cm + 24 cm行距模式。D₁, 120.0 kg·hm^-2播量; D₂, 157.5 kg·hm^-2播量; D₃, 195.0 kg·hm^-2播量。

Fig. 3. Effect of horizontal configuration on leaf area index (LAI) of Triticum aestivum (mean ± SD). FS, anthesis; AF1, 10 days after anthesis; AF2, 20 days after anthesis; AF3, 30 days after anthesis. R₁, 20 cm + 20 cm row spacing model; R₂, 12 cm + 12 cm + 12 cm + 24 cm row spacing model. D₁, 120.0 kg·hm^-2sowing rate; D₂, 157.5 kg·hm^-2 sowing rate; D₃, 195.0 kg·hm^-2 sowing rate.