研究了盐胁迫对棉花组织培养的影响。
This paper studied the effect of salt stress on cotton tissue culture.
盐胁迫抑制了愈伤组织的分化和植株再生。
NaCl stress inhibited the differentiation of callus and plant regeneration.
玉米两个品种具有很强地抗低盐胁迫的能力。
The tolerance of two varieties to low NaCl stress is very strong.
盐胁迫是影响作物生长和产量的一个重要因素。
Salt stress is believed to cause the major problems in agriculture by reducing crop growth and productivity.
盐胁迫已经成为限制农业生产的主要因子之一。
Salt stress has been became one of the main factors threatening agricultural productivity.
盐胁迫是限制全球作物生产的主要环境因子之一。
Salt stress is one of the environmental factors those greatly limit crop production in the world.
然而,盐胁迫对NADPH氧化酶活性的影响还不清楚。
But it is unclear that the effect of salt stress on the activity of NADPH oxidase.
目的]研究盐胁迫下外源甜菜碱对番茄幼苗光合作用的影响。
The research aimed to study the effects of betaine on photosynthesis of tomato under salt stress.
说明高碱胁迫对植物的伤害要远远大于高盐胁迫对植物的伤害。
Note the high alkaline stress damage to the plant is much larger than the high salt stress on plant damage.
本文对大豆在盐胁迫条件下农艺性状及籽粒化学品质进行了研究。
Agricultural characters and chemical qualities of seed in soybeans were studied under salt stress conditions.
近年来,植物盐胁迫信号传导途径一直是植物耐盐性研究的热点。
The salt stress signal transduction pathway has been the hot spot in the study of salt tolerance in plants in recent years.
在相同盐浓度下,碱胁迫的有机酸或草酸含量均明显大于盐胁迫。
Under the same salt concentration, organic acid or alkaline stress were significantly higher than oxalic acid salt.
在盐胁迫下,硅降低了玉米幼苗根系质膜透性,增强了根系的活力;
The treatment could also decrease plasma membrane permeability of maize roots, increase activity of roots.
因此,深入研究植物的盐胁迫信号传导是提高植物耐盐性的前提和基础。
It is the premise and basis of improving salt tolerance in plants to study the salt stress signal transduction pathway in plants deeply.
因此,研究百合盐胁迫反应及其耐盐性,在理论和应用方面都具有重要意义。
Therefore, the study of lily salt stress response and salt tolerance in theory and applications are of great significance.
胶粒缓解了盐胁迫造成的叶绿素含量的降低,提高盐胁迫下植物的光合能力。
Waste particles mitigated the salt stress which caused reduction of chlorophyll content, increased plants photosynthetic capacity under salt stress.
盐胁迫对不同苜蓿品种生物量有显著影响,表现为随盐胁迫的增加生物量下降;
Salt stress significantly affected alfalfa biomass, which represented that alfalfa biomass was decreased with the increase of salt stress degree.
本实验再一次证明了这样一种观点,就是盐胁迫和碱胁迫是两种性质不同的胁迫。
In this study, proved the view that salt stress and alkaline stress are two different nature of the stress again.
研究表明:盐胁迫对叶片生长、苗高生长及苗木生物量积累均产生不同程度的影响。
The results indicated that there was genotypic difference in leaf growth, height and dry biomass in response to salt stress.
各细胞器的SOD对盐胁迫反应敏感程度不同,依次为叶绿体>线粒体>细胞溶质。
The sensitivities of SOD in various organelles to salt stress were different, with the highest in chloroplast, then in mitochondria and the most tolerant in cytosol.
研究了盐胁迫对不同生境盐地碱蓬出苗、幼苗生长、离子积累和荧光参数等的影响。
We investigated the effect of salinity on seedling emergence, seedling growth, ion accumulation and chlorophyll fluorescence parameters of Suaeda salsa l.
实验表明,EST和PRX同工酶表达的变化与番茄对盐胁迫的遗传适应性有密切关系。
The results indicate that there are close relationships between the changes of EST and PRX isozymegene expression and the genetic salt-stress adaptability in tomato.
采用幼苗水培实验,研究外源硅对盐胁迫下黄瓜幼苗生长过程中吸收某些矿质元素的影响。
Seed water culture experiments were conducted to study the effects of silicon on the cucumber seeding growth under salt stress.
本文综述了水分胁迫,温度胁迫,盐胁迫对植物造成的伤害以及研究胁迫常用的方法指标。
It is summarized in this article the damage caused by water stress, temperature stress, salt stress to plants. The methods we often used in research are also reviewed.
盐胁迫明显抑制了无性系苗高的生长,其中W_1和D_(56)在盐胁迫下生长量较大。
Salt stress obviously suppressed the growth of the black locust clones, but growth amount of W1 and D_(56) among them was relatively heavy.
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。
This essay discusses the influence of salt-force to cotton in physiology and grow and how to improve salt-resistant of cotton.
结果表明,外源脯氨酸对盐胁迫下大豆愈伤组织SOD和POD活性均有不同程度的促进作用。
The result showed that exogenous proline can increase activity of SOD and POD of soybean callus under salt stress.
结果表明,外源脯氨酸对盐胁迫下大豆愈伤组织SOD和POD活性均有不同程度的促进作用。
The result showed that exogenous proline can increase activity of SOD and POD of soybean callus under salt stress.
应用推荐