Using the PE Model, the canopy photosynthesis, evapotranspiration and water use efficiency (WUE) for different rice plant types were simulated.
利用PE模型,分别模拟了水稻前中期与后期不同株型的群体光合量、蒸散量以及水分利用效率。
The row-crop plant stand architect and canopy photosynthesis models are combining to construct sunlight greenhouse cucumber canopy photosynthesis in this paper.
本研究构建了日光温室黄瓜冠层光合作用数学模型。
The factor of cotton canopy is very important for researches on cotton photosynthesis and evapotranspiration and creation of cotton high yield plant type.
棉田群体冠层特征对于研究棉花光合作用、蒸散作用等和创建棉花理想的高产株型模式非常重要。
It indicates that improving canopy apparent photosynthesis rate in latter growing period and prolonging its duration are important to improve cotton yield.
因此,提高生育后期的群体光合速率,延长其高值持续时间,对于增加棉花产量及改善品质具有重要作用。
Structural model could be used to quantitatively describe the canopy in detail, calculate the potential photosynthesis capacity of different cultivar canopies and evaluate the rice ideotype, etc.
水稻结构模型能够描述水稻的空间结构变化,用以对水稻冠层进行分析,进行冠层光合潜力的计算,评估理想株型等;
Structural model could be used to quantitatively describe the canopy in detail, calculate the potential photosynthesis capacity of different cultivar canopies and evaluate the rice ideotype, etc.
水稻结构模型能够描述水稻的空间结构变化,用以对水稻冠层进行分析,进行冠层光合潜力的计算,评估理想株型等;
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