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,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。
The salt stress signal transduction pathway has been the hot spot in the study of salt tolerance in plants in recent years.
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 mechanism of salt tolerance and universal stress resistance in Lepidium latifolium.
大叶独行菜耐盐及广谱抗逆性的基础机理研究。
The physiological and biochemical mechanisms of crop salt tolerance are reviewed from three aspects including resistance to iron stress, osmotic stress and programmed cell death.
本文从作物耐离子胁迫、耐渗透胁迫和细胞编程性死亡调节三个方面概述了作物耐盐的生理生化机制;
Salt stress is one of the main abiotic stresses affecting crop yield and it would be very important by using the salt tolerance related markers in rapeseed breeding to improve the oilseed production.
盐胁迫是非生物胁迫中影响作物产量的一个主要因素,利用分子标记方法选育油菜耐盐品种对提高油菜产量具有重要意义。
Therefore, the study of lily salt stress response and salt tolerance in theory and applications are of great significance.
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。
Abiotic stress always cause great threat on plant growth and huge yield loss when climate is serious. So its very important to reveal the mechanism of plant resistant or tolerance to salt stress.
在并不适合植物生长发育的外界环境条件即非生物胁迫下,会影响植物的生长和发育,严重时可造成作物大减产甚至绝收。
These results suggested that pre-soaking seeds with NO donor (SNP) increased the salt-tolerance of wheat seedlings partly due to alleviating the oxidative damage induced by salt stress.
这些结果表明:SNP浸种预处理能提高小麦幼苗对盐胁迫的抵抗力主要是由于其缓解了盐诱导的叶片氧化损伤所致。
In this study, we made a good foundation for improvement of drought and salt stress tolerance in alfalfa and future gain valuable safe transgenic alfalfa products by genetic engineering.
本论文的研究结果为今后通过基因工程方法改良苜蓿品质,增强抗干旱盐渍的能力,提供安全的转基因苜蓿产品奠定了基础。
It mainly distributed in arid-desert areas of northwest in China, it has strong tolerance to the drought stress, salt stress, wind erosion stress.
主要分布在中国西北荒漠地区,是一种耐干旱、耐盐碱、耐风蚀的优良的防风固沙植物。
It mainly distributed in arid-desert areas of northwest in China, it has strong tolerance to the drought stress, salt stress, wind erosion stress.
主要分布在中国西北荒漠地区,是一种耐干旱、耐盐碱、耐风蚀的优良的防风固沙植物。
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