1、

After heading, flag leaf stomatal conductance, net photosynthetic rate increased with the increase of the application of nitrogen and potassium.

抽穗后剑叶气孔导度、净光合速率随着氮钾用量的增加而增加。

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2、

Genetic analysis on morpho-physiological traits of barley flag leaf

大麦剑叶形态生理性状的遗传分析

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3、

A Study on Biochemical Characters of Flag Leaf Drought Resistance after Anthesis on Different Wheat Varieties

不同抗旱性小麦品种花后旗叶生化特性的研究

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4、

The ears have the most influence to the grain yield among the non-leaf organs, mainly through increasing 1000-grain weight. The flag leaf affect the grain yield obviously among leaf organs, mainly through increasing the grain numbers/ ear.

非叶光合器官中穗对产量的影响最大,主要是对千粒重影响明显,叶光合器官中旗叶对产量影响较大,叶主要是对穗粒数的影响显著。

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5、

The NR activities of flag leaf and root were increased significantly.

旗叶和根系中硝酸还原酶(NR)活性亦显著提高。

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6、

Correlation Analysis between the Space of Flag Leaf, Young Spike Length and Meiosis Dynamics of Wheat

小麦旗叶距、幼穗长度与减数分裂动态相关性分析

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7、

The improvement of stay-green can increase stem and leaf water content, but can't increase kernel water content. Correlation analysis revealed that flag leaf area increased grain yield by increasing spikelet number per panicle.

相关分析表明,较大的剑叶可以增加穗粒数并显著增加产量,然而叶绿度和持绿性与产量、产量性状无关或呈显著负相关。

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8、

Nitrogen application and CO2 concentration have the opposite effect. It also maintain chlorophyll fluorescence reaction center highly open, relieve Pn decrease in flag leaf. 3.

增施氮肥与CO2浓度有相反效应,通过提高N素营养可以维持ΦPSⅡ反应中心高度开放,缓解了CO2浓度带来的旗叶光合能力的下降。

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9、

Dian-type sterile line Japonica higher plant height in the 117.2 cm around flag leaf has a long, straight, narrow features.

滇型粳型三系不育系株高较高在117.2cm左右,剑叶具有长、直、窄的特性。

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10、

The result indicated that there was negative relationship between the angle of flag leaf and primary branches of Shennong 606;

结果表明不同株型品种叶片角度与枝梗数存在一定的相关性,其中:沈农606剑叶基角和剑叶开张角与一次枝梗数呈负相关;

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11、

the inheritance of length, width of flag leaf and leaf sheath length of top 2nd leaf fit additive-dominance model in first year, fit additive model in second year;

旗叶长、宽和倒二叶鞘长第一年均为加性一显性模型遗传,第二年均为加性模型遗传;

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12、

the inheritance of open angle of flag leaf was affected by environment, fit additive-dominance-epistasis model in first year, fit additive-dominance model in second year;

旗叶开张角遗传受环境条件影响,第一年为加性-显性-上位性模型遗传,第二年为加性-显性模型遗传;

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13、

Change Regularity of Water Potential in Wheat Flag Leaf in Day and Night

小麦开花期旗叶水势晴天昼夜变化规律研究

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14、

Effects of Flag Leaf on Grain Protein and Yield in Wheat

小麦旗叶对产量性状及籽粒蛋白含量作用的研究

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15、

Soluble protein in flag leaf, which implies senescence of flag leaf, tented to decline with the increase of nitrogen fertilization.

在氮素代谢方面,增施氮肥使小麦旗叶中硝酸还原酶活性增加,旗叶中可溶性蛋白含量降低,可明显延缓小麦叶片的衰老;

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16、

Effects of Different Soil Water on Senescence of Flag Leaf and Root in Winter Wheat on Immature Soil

生土地上不同土壤水分对冬小麦旗叶和根系衰老的影响

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17、

QTL Analysis for Flag Leaf and Grain Shape and Populations Construction Derived from Related Residual Heterozygous Lines in Rice

水稻剑叶形态与稻米粒形QTL分析及相应剩余杂合体衍生群体的构建

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18、

Thus it is important to genetically analyze the morphological characteristics, such as the leaf size of functional leaves, especially flag leaf in rice improvement.

因此,对功能叶尤其是剑叶形态和大小的遗传分析对于提高作物产量十分重要。

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19、

Effects of drought on photosynthesis of flag leaf and dry matter remobilization of main stem in different varieties of winter wheat

干旱对不同抗旱性冬小麦旗叶光合及主茎干物质转运的影响Na~+与多浆旱生植物霸王抗旱性研究

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20、

preliminary study on photochemical activities in chloroplasts of flag leaf sheathes for super hybrid rice liangyoupeijiu

超级杂交稻两优培九剑叶叶鞘叶绿体光化学活性的初步研究

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