耐鹽堿植物 的英文怎麼說

中文拼音 [nàiyánjiǎnzhí]
耐鹽堿植物 英文
saline-alkali tolerant plant
  • : 動詞(受得住; 禁得起) be able to bear or endure
  • : 名詞1. (食鹽; 鹽類) salt 2. (姓氏) a surname
  • : 名詞1. (含氫氧根的化合物的統稱) alkali2. (碳酸鈉) soda
  • : Ⅰ動詞1. (栽種) plant; grow; cultivate 2. (樹立) establish; set up Ⅱ名詞(姓氏) a surname
  • : 名詞1 (東西) thing; matter; object 2 (指自己以外的人或與己相對的環境) other people; the outsi...
  • 植物 : plant; flora; botany; stray; greenery; phyton; phytum; phyta; phyt ; phyto ; phyte : 草本植物 her...
  1. Major anti - wind and alkali - resisting landscape plants of south china ' s seaside region

    華南濱海區主要抗風園林綠化及其種要點
  2. The results show that the resources of leguminous plants are very scarce, and the growth of rhizobium is related to special ecological condition and topographical features

    調查結果顯示: ( 1 )本地區豆科資源貧乏,但適應性強,大多數都具有抗乾旱、特勝。
  3. It suggests that on the basis of further understanding the mechanism for glycinebetaine to improve plant salt resistance, the transformation of the genes relating to glycinebetaine biosynthesis should be carried out in major crops so that new plant varieties resistant to salt can be obtained

    提出在進一步弄清甜菜提高性作用機理的基礎上,應在重要作中開展甜菜合成相關基因的導入,以期獲得新品種。
  4. The paper systematically discusses the mechanism for glycinebetaine to improve plant salt resistance and its research advances in genetic engineering at home and abroad as well as summarizing the research progresses about the key enzymes and their genetic engineering in glycinebetaine biosynthesis. it suggests that on the basis of further understanding the mechanism for glycinebetaine to improve plant salt resistance, the transformation of the genes relating to glycinebetaine biosynthesis should be carried out in major crops so that new plant varieties resistant to salt can be obtained

    系統地討論了甜菜在提高性中的作用機理及其國內外研究進展,並對甜菜合成過程中關鍵酶及其遺傳工程的研究進展進行了綜述.提出在進一步弄清甜菜提高性作用機理的基礎上,應在重要作中開展甜菜合成相關基因的導入,以期獲得新品種
  5. In this research project, the agrobacterium tumefaciens mediated transformation of badh gene of tetraploid black locust has been studied, for the purpose of improving resistance to soline - alkali and drought of tetraploid black locust ; of playing more important role in developing of waste lands, ameliorating of soline - alkali soil, and greening and beautifying of surface - mined lands, mine waste dumps, slopes of roads and railroads where restoration of vegetative cover has proven difficult ; of fully making benefits of its ability to fix atmospheric nitrogen in the soil

    為了進一步提高四倍體刺槐的性和抗旱性,進一步擴大其適宜種的生態范圍,充分發揮其固氮、改良土壤的特性,在我國的城鎮綠化、荒山造林、地改良以及采礦跡地、公路、鐵路邊坡等生長困難土地的被恢復中發揮其優勢,本實驗對四倍體刺槐進行了農桿菌介導的甜菜醛脫氫酶基因轉化的研究。
  6. Based on the practical experience in the past two decades it is clear that the breeding of salt, drought and cold tolerant crop varieties by cloning the controlling genes is the ultimate, most economical and most reliable measure for utilizing salted soil

    二十多年來的地改造和農作育種的實踐證明,開發旱、寒、漬基因,培育出高度旱、寒、漬的品種是開發利用漬化土地的最根本、最經濟和最穩妥的途徑。
  7. Properties : it has excellent acid, aline and salt resistance. hence has excellent anticorrosive antibacterial and properities against plant and other attacks when buried under ground

    產品特點:該產品具有優良的酸、等化學腐蝕、抗微生侵蝕、抗根系的侵蝕及地下水的化學影響
  8. S. salsa is an euhalophyte with succulent leaves that can survive under seawater - level salinity. it has formed some specific mechanisms in salinity tolerance during the evolution

    蓬( suaedasalsa )是一種葉肉質化的真,在長期的進化過程中可能形成了一些特殊的機制。
  9. Suaeda liaotungensis kitag is a halophyte with high salt tolerance ability. this research performed a systemic study on betaine, betaine synthetase and the genes encoding betaine synthetase in suaeda liaotungensis

    遼寧蓬( suaedaliaotungensiskitag )是一種性很強的,本文對其甜菜、甜菜合成酶、甜菜合成酶基因進行了較為系統的研究。
  10. Consequently, study on the mechanisms of salt - tolerance in plants and breeding of salt - tolerant plants has become a key issue in plant biology nowadays. as an important plant osmotic regulators, glycine betaine in plants, under the osmotic stress, can be accumulated in order to give the plants high salt - tolerance by reducing osmotic pressure and maintaining proteinic structure in cell

    甘氨酸甜菜( glycinebetaine )是一種重要的調滲質,在脅迫下有些能通過體內甘氨酸甜菜的積累保護細胞內蛋白質的結構和功能,降低細胞水勢,從而來增加自身的能力。
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