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salt force
相关语句
  盐胁迫
     The direct domino effect of seven output composition elements on mono-plant grain output changed with the change of salt force concentration.
     7个产量构成因素对单株籽粒产量的直接效应大小随着盐胁迫浓度的变化而发生改变。
短句来源
     The result showed that the growth of the rice seeding decreased under the condition of salt force,the rate of root and hat reduced;
     结果表明:在盐胁迫条件下,水稻幼苗的生长减慢,根冠比值减小;
短句来源
     Compared with CK,the growth quantity and the rate of root and hat of 52-7 were bigger under the condition of salt force;
     与对照品种比较,52—7在盐胁迫下的生长量和根冠比较大;
短句来源
  “salt force”译为未确定词的双语例句
     Soil water affected the root growing directly. Light salt force in water conduced to the root growth. But enough water was harmful for the root of tall fescue.
     土壤水分直接影响根系的生长,轻度水分胁迫有助于根系的生长,充足水分条件并不利于高羊茅根系生长。
短句来源
  相似匹配句对
     ON THE FORCE
     论力
短句来源
     The influence of salt on stretching force of DNA
     盐离子对DNA延伸力的影响
短句来源
     The Salt on the Table
     Salt与餐桌文化
短句来源
     The Simulation Experiments of the Driving Force for Natural Circulation in Salt Evaporators
     制盐蒸发器高速自然循环推动力模拟试验
短句来源
     The Force of Conflicts
     冲突之力
短句来源
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This essay discusses the influence of salt-force to cotton in physiology and grow and how to improve salt-resistant of cotton.

本文阐述了盐胁迫对棉花的生理代谢及生长发育的影响 ,同时论述了如何提高棉花的抗盐性 .

The relationship of thirty-two rice strains being changed to beet BADH gene in different salt concentration forces between the seven output composition elements of tillering and ear-forming ratio, valid mono-plant ear numbers, ear length of main stem, total grain number of every ear, actual grain number of every ear, seed ratio and kilo-grain weight and mono-plant grain output was analyzed plural-statistically. The results showed the obvious slanting regression relationship between valid mono-plant ear number,...

The relationship of thirty-two rice strains being changed to beet BADH gene in different salt concentration forces between the seven output composition elements of tillering and ear-forming ratio, valid mono-plant ear numbers, ear length of main stem, total grain number of every ear, actual grain number of every ear, seed ratio and kilo-grain weight and mono-plant grain output was analyzed plural-statistically. The results showed the obvious slanting regression relationship between valid mono-plant ear number, actual grain number of every ear, kilo-grain weight and mono-plant grain output under NaCl force in quality concentration of 0.0, 3.0 and 5.0 g/L but unobvious slanting regression relationship between the other four output elements and mono-plant grain output. The direct domino effect of seven output composition elements on mono-plant grain output changed with the change of salt force concentration.

对转甜菜碱醛脱氢酶(BADH)基因水稻的32个品系在不同盐浓度胁迫下的分蘖成穗率、单株有效穗数、主茎穗长、每穗总粒数、每穗实粒数、结实率、千粒重等7个产量构成因素与单株籽粒产量的关系进行了多元统计分析。结果表明:在质量浓度为0.0,3.0,5.0g/L的NaCl胁迫下,单株有效穗数、每穗实粒数、千粒重3个产量因素与单株籽粒产量的偏回归关系均达到显著,而其它4个产量因素与单株籽粒产量的偏回归关系则未达到显著。7个产量构成因素对单株籽粒产量的直接效应大小随着盐胁迫浓度的变化而发生改变。

There are many differences between the structure of halophyte and the structure of non-halophyte. The ion transportation system of halophyte more positively use the salt which come from the external environment than the non-halophyte, some of the halophyte even has the salt gland which can secrete the surplus salt to the external. In addition, many plants that are able to tolerance the salt can secrete the Osmoprotectants, most of that have the powerful ability to combine with water,...

There are many differences between the structure of halophyte and the structure of non-halophyte. The ion transportation system of halophyte more positively use the salt which come from the external environment than the non-halophyte, some of the halophyte even has the salt gland which can secrete the surplus salt to the external. In addition, many plants that are able to tolerance the salt can secrete the Osmoprotectants, most of that have the powerful ability to combine with water, the ability makes the plants bear the salt-force and the arid-force. In the study of gene engineering, we can transform all these osmoprotectants' gene into the plant in order to make the plant tolerance the salt-force.

盐生和非盐生植物自身的结构就有很大的差异,盐生植物的离子运输系统较非盐生植物更积极主动的利用外界的盐分,有的盐生植物甚至生有盐腺可将多余的盐分泌出体外.另有许多耐盐的植株可分泌渗调质,由于这些物质大多数与水具有较强的亲和能力从而使得植株对盐胁迫和干旱胁迫具有一定的抗性,基因工程研究中,把合成这些渗调质的基因导入植物中将使植株具有较强的抗盐性.

 
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