机译:植物密度造成田间玉米根系结构的基因型差异
China Agr Univ Coll Resources &
Environm Sci MOA Key Lab Plant Soil Interact Beijing 100193 Peoples R China;
China Agr Univ Coll Resources &
Environm Sci MOA Key Lab Plant Soil Interact Beijing 100193 Peoples R China;
China Agr Univ Coll Resources &
Environm Sci MOA Key Lab Plant Soil Interact Beijing 100193 Peoples R China;
China Agr Univ Coll Resources &
Environm Sci MOA Key Lab Plant Soil Interact Beijing 100193 Peoples R China;
China Agr Univ Coll Resources &
Environm Sci MOA Key Lab Plant Soil Interact Beijing 100193 Peoples R China;
China Agr Univ Coll Resources &
Environm Sci MOA Key Lab Plant Soil Interact Beijing 100193 Peoples R China;
China Agr Univ Coll Resources &
Environm Sci MOA Key Lab Plant Soil Interact Beijing 100193 Peoples R China;
China Agr Univ Coll Resources &
Environm Sci MOA Key Lab Plant Soil Interact Beijing 100193 Peoples R China;
Genotypic plasticity; Inter-row; Intra-row; Root system architecture; Plant density; Maize;
机译:植物密度造成田间玉米根系结构的基因型差异
机译:田间玉米叶片出现率和叶片伸长率温度响应的基因型差异
机译:优化土壤 - 芯策略量化现场生物玉米根长密度分布:使用3-D根架构模型的虚拟取芯试验
机译:玉米/大豆种间相互作用下根系结构差异的量化
机译:营养生长和生殖生长阶段田间生长的玉米对植物密度和氮胁迫的光合作用相关生理反应。
机译:优化土壤取芯策略以量化田间种植玉米的根长-密度分布:使用3-D根结构模型的虚拟取芯试验
机译:生物生长玉米叶片外观率和叶伸长率温度响应的基因型差异