| 1. | 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? |
| 2. | 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。 |
| 3. | The most efficient plants would have open canopies that allow light to reach the lowest and most central leaves .
效率最高的植物会有敞开的冠层,从而使得光线到达最低与最中心的叶子处。 |
| 4. | The response of canopy reflectance spectru
棉花叶面积指数冠层反射率光谱响应及其反演 |
| 5. | Analysis of the influence factors on winter wheat canopy temperature
冬小麦冠层温度及其影响因素探析 |
| 6. | The periodic characteristic of wind speed above and within a maize canopy
玉米冠层内外风速变化周期特征的研究 |
| 7. | Low temperature phenomena of wheat and mungbean canopy of different genotypes
不同基因型小麦与绿豆冠层冷温现象研究 |
| 8. | The application of wavelet transform in meteorological study within plant canopy
小波变换方法在植物冠层微气象研究中的应用 |
| 9. | The desin of urban canopy parameterization of mm5 and its ' numerical simulations
5模式中城市冠层参数化方案的设计及其数值试验 |
| 10. | Simulation study on the extinction coefficient of winter wheat in huang - huai - hai plain of china
黄淮海冬小麦冠层消光系数农业气象数值模拟 |
