光呼吸

guāng hū xī
  • Photorespiration;light respiration
光呼吸光呼吸
光呼吸[guāng hū xī]
  1. 高光呼吸低光效的C3作物,要比低光呼吸高光效的C4作物对CO2需要量高得多。

    Comparing with C4 crops , C3 crops need more CO2 because of their high light respiration rate and low photosynthesis rate .

  2. 同时,又抑制了C3作物的光呼吸作用,减少了不必要的能量消耗。

    At the same time , light respiration rate of C3 crops was limited and lose of energy was reduced .

  3. 暗呼吸及光呼吸速率与叶水势降低的关系,呈现先升高而后下降的曲线类型。

    The curve pattern showed that the ratio of dark-respiration to photorespiration increased at first and decreased later on .

  4. 植物的光呼吸作用&C3植物和C4植物的生理差别

    Some of the characteristics of photorespiration in c_4 and c_3 species

  5. 对光呼吸在C3植物中的一种功能的探讨

    An approach to a function of photorespiration in c_3 plants

  6. 植物光合作用中的C2循环&光呼吸与农业生产的关系

    The relation between the c_2 cycle in plant photosynthesis and crop yield

  7. C3植物光呼吸及其生理功能

    Photorespiration of C_3 plant and its physiological function

  8. 大豆叶片CO2补偿点和光呼吸的关系

    Relationship Between the CO_2 Compensation Point and Photorespiration in Soybean Leaves

  9. CO2施肥对桃树暗呼吸和光呼吸的影响

    Effect of CO_2 enrichment on respiration and photorespiration of peach trees

  10. C4植物的光呼吸

    Photorespiration of c_ plants

  11. 红外线CO2气体分析仪测定光呼吸的方法

    Method of Measuring Photorespiration with Infrared CO_2 Gas Analyser

  12. 我们认为在C4和CAM植物中也存在光呼吸乙醇酸循环。

    It was considered that there was a glycolate cycle in C4 and CAM plants .

  13. 光呼吸是C3植物体内重要的代谢过程。

    Photorespiration is an important metabolic process in C3 plants .

  14. Ce(Ⅲ)对增强UV-B辐射胁迫下大豆幼苗光呼吸关键酶活性影响

    Effect of Cerium on the Key Enzymes of Photorespiration in Soybean Seedling Under Supplementary UV-B Radiation Stress

  15. 由于黄瓜为C3作物,光呼吸作用明显,因此在呼吸作用模型中除了考虑生长呼吸和维持呼吸,还考虑了光呼吸的影响;

    In respiration submodel include light respiration except for maintenance respiration and growth respiration .

  16. 在相应处理CO2浓度条件下暗呼吸速率变化不明显,而光呼吸速率明显下降。

    Under the corresponding treatment of CO2 concentration , the respiration rate was not affected evidently , while the photorespiration rate descended evidently ;

  17. 因此,C4植物仅通过与高水平CO2隔绝的细胞中进行光合作用来降低光呼吸。

    Thus C4 plants lessen photorespiration by carrying out photosynthesis only in cells that are insulated from high levels of CO2 .

  18. Rubisco是光合作用和光呼吸的关键酶,目前已成为高等植物中研究最深入的酶之一,而在低等藻类中关于该酶的相关研究却很少。

    Rubisco-1,5-bisphosphate carboxylase / oxylase ( Rubisco ) is the key enzyme in photosynthesis and photorespiration , which has become one of the most extensive studied enzymes in higher plants .

  19. 电子传递速率(ETR)和非光化学猝灭系数(NPQ)随日间光强的增大而升高,表明三叶漆可能通过增强光呼吸和热耗散抵御光抑制、保护光合机构。

    They increased in electron transport rate ( ETR ) and non-photochemical quenching ( NPQ ) with strong daytime light , which indicated that they counteracted photo-inhibition and protected photosynthetic structures by increasing respiration and thermal dissipation .

  20. 叶面喷施NaHSO3能够抑制盆栽小麦旗叶光呼吸从而提高光合速率,促进光合产物积累,造成籽粒产量增加。

    Under field condition , the photorespiration rate was inhibited and the photosynthesis rate was increased in flag leaves of wheat at reproductive stage by spraying NaHSO_3 , which might result in the increase of the carbohydrate assimilation and the yield of grain .

  21. 吲哚乙酸对烟草叶片光合作用和光呼吸的影响

    Effects of indoleacetic acid on Photosynthesis and Photorespiration in tobacco leaves

  22. 小麦幼苗光呼吸与活性氧累积的关系

    The Relation Between Photorespiration and Active Oxygen Species Accumulation in Wheat Seedlings

  23. 不同磷营养水平对烟草叶片光合作用和光呼吸的影响

    Effects of Inorganic Phosphate Nutrition on Photosynthesis and Photorespiration in Tobacco Leaves

  24. 氯化钠对高等植物光呼吸作用的影响

    Effect of Sodium Chloride on the Photorespiration of Higher Plants

  25. 强光下姜叶片的光呼吸及叶黄素循环

    Photorespiration and Xanthophyll Cycle in Adaptation to Strong Light in Ginger Leaves

  26. 用生化方法研究不同品种小麦的光呼吸

    Studies on photorespiration in several different varieties of wheat by biochemical methods

  27. 光呼吸抑制剂处理提高了叶片的净光合速率;环剥通过改变了光合产物的流向而改变浆果的品质。

    Girdling improves berry quality by change photosynthesis production flow .

  28. 硝态氮明显提高叶片的光呼吸速率。

    Under the nitrate nutrients , the photorespiration of leaf was obviously higher .

  29. 干旱胁迫下光呼吸在葡萄光保护中的作用

    Photoprotective Function of Photorespiration in Grapevine under Drought Stress

  30. 关于光呼吸的化学抑制的研究Ⅱ.各种光呼吸抑制剂效应的比较

    Research for Chemical Inhibition of Photorespiration ⅱ . Comparison Among Various Inhibitors of Photorespiration