烟草是中国一种重要的经济作物,而氮是植物必需的矿质养分,研究烟草碳氮代谢规律,对指导烟草的生产具有重要的作用。
Tobacco is an important economic crop, and nitrogen is essential mineral element. Studies on carbon and nitrogenous metabolism of tobacco have important action on tobacco production.
但是在代谢网络背景下,其在改变氮同化和碳代谢中的生理功能还不是很清楚。
However, the basis of its physiological function that may alter the rate of nitrogen assimilation and carbon metabolism within the context of metabolic networks remains unclear.
通过盆栽试验,研究了锌铬复合胁迫对水稻植株碳氮代谢的影响。
The effects of compound stresses of Zn and Cr on carbon and nitrogen metabolisms of rice plant were investigated in a soil pot experiment at tillering stage.
低氮水平下由氮代谢转化为碳代谢的时间提前,高氮水平下由氮代谢转向碳代谢的时间推后。
In low nitrogen level, the time from nitrogen metabolism to carbon metabolism was shorten; however, in high nitrogen level, the time was deferred.
通过对不同基追肥比例对烤烟干物质累积和碳氮代谢的影响研究,结果表明:1。
According to the research of the accumulation of dry matter and carbon-nitrogen metabolism which are affected by the ratio between basal fertilizer and top-dressing, the results show that, 1.
随着新陈代谢作用的进行,以氨基糖为代表的微生物细胞壁残留物不断在土壤中积累,并进一步参与土壤碳、氮循环。
During the metabolism, the microbial residues represented as amino sugars were accumulated in soil and probably concerned in further carbon and nitrogen cycling.
整个灌浆期氮素供应充足提高了籽粒库活性和碳氮代谢水平,促进了籽粒库容建成和库充实;
Sufficient nitrogen supply during grain filling period promoted kernel growth by improving carbon-nitrogen metabolism and sink activity of kernels.
以盆栽“寒富”苹果为试材,研究了不同水分胁迫处理对“寒富”苹果碳氮代谢的影响。
Using potted Hanfu apple as materials, carbon and nitrogen substance metabolism of Hanfu apple under different water stress was studied.
高淀粉玉米产量和品质的形成与干物质积累、养分吸收、碳氮代谢、籽粒库的糖分与淀粉形成关系密切。
Yield and the quality formation of the high starch maize is closely related to dry matter accumulation, the nutrient uptake, carbon and nitrogen metabolism, and the grain sugar and starch formation.
施肥对烟株的碳氮代谢有一定影响。
揭示了持绿小麦的叶片衰老和植株碳氮代谢特征。
The experimentation indicate the senescent traits of leaf and carbon and nitrogen assimilation in stay green wheat.
本文综述了植物中的14-3-3蛋白及其主要功能,并重点综述了14-3-3蛋白对植物基本碳、氮代谢的调控。
In the present review, summarize 14-3-3 proteins in plants and crucial physiological action, and focus on the regulation of carbohydrate and nitrogen metabolism by 14-3-3 proteins.
由上可知,打顶后大量的含碳、氮化合物运输到根系中,根系中碳氮代谢强度增大。
All these showed that the intensity of carbon and nitrogen metabolism strengthened in root system because massive carbon and nitrogen compounds transported to root system after topping.
由上可知,打顶后大量的含碳、氮化合物运输到根系中,根系中碳氮代谢强度增大。
All these showed that the intensity of carbon and nitrogen metabolism strengthened in root system because massive carbon and nitrogen compounds transported to root system after topping.
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