Salinity stress can keep MDA and relative conductance rising, increase the extent of membranes injury.
盐分胁迫可使MDA含量持续升高,叶片相对电导率不断升高,膜伤害程度不断加大。
Under the high salinity stress, tubule system in the chloride cell in the fish gill is developed, the number of mitochondria is increased and cell clearance is enhanced.
在高盐胁迫下,许氏平细鳃中氯细胞的微细小管系统发达、密集,线粒体数量增多,与相邻细胞的间隙较大。
Salinity stress can also destroy membranes system, the main functions : POD, and CAT in leaves rise at the beginning and then decline with the time and the increase of concentration.
盐分胁迫可破坏番茄幼苗的膜保护系统,具体作用如下:叶片中的POD,CAT活性随处理时间的延长表现为先上升后下降,随处理浓度的增加先升高后降低。
The expression of 3 OSR genes, including OSR2, OSR3 and OSR4, was enhanced, while that of another gene OSR9 was inhibited by osmotic stress and high salinity treatments.
数据库分析结果显示OSR家族基因的表达总体较弱,其中OSR2、OSR3和OSR4的表达受高渗和高盐处理诱导,而OSR9的表达受高渗和高盐处理抑制。
By pot growing method, effects of different salinity-alkalinity complex stress on tiller number and thy matter accumulation of rice were studied.
采用盆栽法研究了不同盐碱度对水稻分蘖数、 分蘖前期和分蘖末期干物质积累状况及产量的影响。
Salt expansion processes in subgrade of Sulfuric saline soil are the external performance of moisture temperature, salinity and stress fields interacting with each other.
硫酸盐渍土路基水分场、温度场、盐分场和应力场相互影响,相互作用,其盐胀的过程就是四场相互交融的外在表现。
Through experimental research on the relations among soil salinity, soil moisture, effect of salt stress on growth of c.
对含盐土的渗透系数进行了室内试验研究。
The transgenic plants comprising the transcription factor gene are tolerant and resistant to harmful environmental conditions such as water stress and high salinity.
包括该转录因子基因的转基因植物对如水胁迫和高盐的不利环境条件具有耐受性和抗性。
The results showed that salinity - alkalinity stress postponed the beginning time of the first tiller, reduced by 50 % of tiller number and effective tiller number.
结果表明:盐碱胁迫推迟了一次分蘖的时间,降低了水稻分蘖数和有效分蘖数约50 %。
High salinity causes ion imbalance and hyperosmotic stress in plants.
高盐会破坏植物的离子平衡并引起高渗胁迫。
Abiotic stresses, such as drought, salinity, extreme temperatures, chemical toxicity, and oxidative stress, are serious threats to agriculture and result in the deterioration of the environment.
干旱、盐害、极端温度、化学毒害和氧化胁迫等非生物胁迫严重影响农业生产,并导致环境退化。
Salinity is one of the major abiotic stress factors that adversely effect the crop plant growth and yield.
盐胁迫是影响作物生长和产量的主要非生物因素之一。
Salinity is one of the major abiotic stress factors that adversely effect the crop plant growth and yield.
盐胁迫是影响作物生长和产量的主要非生物因素之一。
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