比叶面积(specific leaf area,SLA)和叶干物质含量(leaf dry matter content,LDMC)是植物叶片的两个关键性状,能够较好地反映植物生长策略及植物利用资源的能力、生物量大小和生态系统功能[2-3].
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...了不同草地植物群落在封育和放牧下的高度(height)、比叶面积(specific leaf area,SLA)、叶片干物质含量(leaf dry matter content,LDMC)、叶片面积(leaf area,LA)、叶片氮含量(leaf nitrogen content,LNC)和叶片碳同位素(leaf carbon isotopes)6个相关于植物生理...
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然后根据以上性状进一步计算出叶片干物质含量(Leaf dry matter content, LDMC)[14]、比叶面积(Specific leaf area, SLA)[15]、叶片体积(Leaf v...
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然后根据以上性状进一步计算出叶片干物质含量(Leaf dry matter content, LDMC)[14]、比叶面积(Specific leaf area, SLA)[15]、叶片体积(Leaf v...
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The relationship of production of population dry matter was strong with the leaf characters such as ratio of leaf weight with leaf area, chlorophyll content and population photosynthetic rate.
比叶重、叶绿素含量和群体光合速率等叶片性状与群体干物质生产密切相关。
The cucumber plant of 1/500 with soil culture and 1/1000 with substrate culture obtained the higher plant height, leaf area, leaf number and content of dry matter than other treatments markedly.
土壤栽培和基质栽培黄瓜分别以1/500浓度和1/1000浓度处理植株干物质的积累、株高、叶片数和叶面积均显著高于其它处理。
There was close relationship between dry matter accumulation and the content of nutrients in the plant and the leaf tissue under drought stress.
干旱胁迫下烤烟干物质积累与烟株和叶片中的养分含量密切相关。
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