机译:使用新型双波长激光系统评估作物叶面氮及其对进行基于激光的植物生理学的意义
Geospatial Laboratory for Environmental Dynamics, University of Idaho, Moscow, ID 83844-1135, USA,McCall Outdoor Science School, University of Idaho, McCall, ID 83638, USA;
Geospatial Laboratory for Environmental Dynamics, University of Idaho, Moscow, ID 83844-1135, USA,McCall Outdoor Science School, University of Idaho, McCall, ID 83638, USA;
Geospatial Laboratory for Environmental Dynamics, University of Idaho, Moscow, ID 83844-1135, USA,McCall Outdoor Science School, University of Idaho, McCall, ID 83638, USA;
Aalen University, Department of Optoelectronics and Laser Technology, 73431 Aalen, Germany;
Foliar biochemistry; Leaf-level bidirectional reflection; distribution function (BRDF_(leaf)); Precision agriculture; Laser ratio index_(green,red); Normalized difference laser index_(green,red); Light detection and ranging (LiDAR);
机译:热带单子叶植物和双子叶植物物种C 4 sub>叶片解剖,生理和农艺特性的开创性研究:与C 3 sub>种植系统相比,对作物水分关系和生产力的影响
机译:作物氮素利用效率:氮素吸收的生理限制[综述]
机译:作物不同种植时期和氮叶施用对向日葵生长和产量的影响
机译:利用主动和被动系统确定氮胁迫下植物的叶面反射率和荧光响应
机译:评估冬季生产系统中低温暴露,非结构性碳水化合物含量和叶面施氮与草莓(Fragaria x ananassa Duch。)移植活力和结果模式之间的关系。
机译:在半干旱油菜作物-土壤系统中耕作和施氮增加了地下碳的分配和植物对氮的吸收
机译:使用高精度激光的生物印刷技术评估2D免疫系统中的几何体(会议介绍)(提款通知)