1.
Calculation System of Light Distribution within Crop Canopy Based on Radiosity Method
基于辐射照度的作物冠层光分布计算系统设计
2.
Non-destructive Crop Canopy Analyzer Based on Spectral Principle
基于光谱学原理的无损式作物冠层分析仪
3.
Time Series Analysis of Transport Processes and Estimation of Transfer Resistance Within and Above a Crop Canopy
作物冠层传输过程中的时间序列分析与阻力估算
4.
Two Kinds of Modified Spectral Indices for Retrieval of Crop Canopy Chlorophyll Content
两种用于作物冠层叶绿素含量提取的改进光谱指数
5.
Research Advance in Relationship between Canopy Temperature and Crop Water Status
冠层温度与作物水分状况关系研究进展
6.
Research on the effect of drug-eluting stent(DES) in the treatment of coronary artery disease(CAD)-with clinical analysis of 31 cases;
冠脉药物涂层支架在冠心病的应用研究
7.
Canopy rainfall redistribution of three forest vegetation types in Mid-Yunnan
滇中3种林冠层对降雨的再分配作用
8.
Biocompatibility of TMP-eluting Stents in Normal Porcine Coronary Arteries;
川芎嗪涂层冠脉支架生物相容性实验研究
9.
Analysis of Correlative Factors of In-stent Restenosis after Coronary Implantation of Drug-eluting Stent
冠状动脉药物涂层支架内再狭窄相关因素分析
10.
Testing the Neutral Theory of Insect Communities in the Canopy of Wetland Herbaceous Plants
湿地草本植物冠层昆虫群落的中性理论验证
11.
Study on estimating cotton LAI and aboveground fresh biomass using fractional interception of photosynthetically active radiation data
基于棉花冠层FPAR的LAI和地上鲜生物量估算研究
12.
Composition and structure of canopy arthropods in young and old Pinus massoniana stands
不同林龄马尾松冠层节肢动物群落组成和结构
13.
Role of Typical Arbor Layer in Neutralizing Acid Rain in Northern Taihu District
太湖北部典型乔木冠层对酸性降雨的中和作用
14.
The writer lias discussed the structure of horizontal and vertical on the seasonal rainforest.
依立木高度、树冠形态、各层植物叶之解剖结构划分层次;
15.
Hydrology Mechanism Study on Forest Canopy and Litter Layers of Water Conservation Forest in Qilian Mountains;
祁连山水源涵养林林冠层与枯落物层水文机理研究
16.
Rainfall Interception Capability of Canopy Layer and Water-holding Capability of Litter of the Plant Community in Returning Farmland to Forest Project in Datong County
大通退耕地植物群落植冠层截留性能和枯落物容水性能研究
17.
The ability to move air through plant canopies is related directly to the tightness of the green house.
空气通过植物冠层移动的能力直接与温室的密闭程度有关。
18.
If we could design a plant with an ideal canopy, what would it be like?
假如我们能够设计一种有理想冠层的植物,它会像是什么样呢?