The capability of adapting and salt-tolerance of varieties were evaluated synthetically.
并对各品种适应和抵抗盐碱的能力进行了综合评价。
The second part was the influences of foreign proline and salt on the salt-tolerance of rice seedlings.
第二部分,外源脯氨酸和盐对水稻耐盐性的影响。
These results showed that it could be possible to improve the salt-tolerance of crops with genetic technology.
这些结果表明利用基因工程手段提高作物的耐盐性是可行的。
It is not only very important to improve crops to research the salt-tolerance in plants, but also is a part of basic researchs.
植物耐盐性研究不仅对作物遗传改良有重要意义,而且还是植物基础生物学研究的一个重要组成部分。
It follows that the compartmentalized ion distribution on the organ level is one of salt-tolerance mechanisms in cucumber plants.
可见,离子在器官水平的区域化分布是黄瓜植株耐盐性的重要机理之一。
Thereafter, Mining LCT1 natural diversity in wheat is important to improve salt-tolerance by traditional breeding and genetics engineering.
因此,发掘小麦品种中LCT1自然变异,对于通过常规育种或基因工程提高小麦耐盐性具有重要意义。
Therefore, the research on the mechanism of plant salt-tolerance and breeding for salt-tolerant crops will become an attention research field.
因此植物耐盐的机理的研究和耐盐植物的培育将成为相关学科研究的热点。
Brine irrigating in pot and field salt tolerant test in order to screen the salt-tolerance plants in the heavy salt soils of the Yellow river tidal flat.
采用盐水胁迫发芽、盐水浇灌盆栽和田间耐盐实验,研究植物的耐盐能力,筛选黄河三角洲滩涂重度盐渍土适生的耐盐植物。
The ability of salt-tolerance, bile-tolerance and rate of assimilating cholesterol were 6. 0%, 1. 5%, about 80% respectively, which proved the strain was good.
该菌株耐盐和耐胆酸盐能力分别达到6 0%和1.5%,同化胆固醇达80%,证明是一株性能优良的益生菌株。
Studying the salt-tolerance mechanism of euhalophytes and improving plant ability of salt tolerance by genetic engineering breeding has become one of the central issues.
研究真盐生植物的耐盐机理、利用遗传王程育种提高植物的耐盐性已成为当前的研究热点之一。
Soil salinity is a serious.Therefore, Salt Tolerance Plant species selection and select local native plant species.
因为土壤盐碱很严重,因此,植物选择耐盐碱品种及选择乡土树种。
Up to now, little is known about the genetic mechanisms of mangroves for salt tolerance.
但到目前为止,对红树植物的耐盐分子机制还知之甚少。
Salt tolerance of plant are complex traits controlled by many genes and involved by many metabolize approaches.
植物耐盐性状是一个由多基因控制、涉及多代谢途径的复杂性状。
Strong hydrate group which connecting to polysaccharide can enhance the degree of salt tolerance of thickeners.
所接入的离子若是强水化基团,增稠剂的耐盐性将会增强。
AM fungi can raise activity of protective enzymes and modulate isozymes of SOD and POD to express in salt tolerance.
接种am真菌能够提高植物保护酶系统活性,调节SOD、POD同工酶向利于提高植物耐盐性方向表达。
It is putative that some physiological mechanism in metabolism and regulation is developed by Kosteletzkya virginica as an adaptive response to salt tolerance in process of chronic evolution.
上述结果推测:海滨锦葵已经在长期的高盐环境下进化出独特的耐盐生理的调控和代谢机制。
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。
I am mainly responsible for plant design. Soil salinity is a serious. Therefore, Salt Tolerance plant species selection and select local native plant species.
我主要负责植物设计。因为土壤盐碱很严重,因此,植物选择耐盐碱品种及选择乡土树种。
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。
Plant Designer: I am mainly responsible for plant design. Soil salinity is a serious. Therefore, Salt Tolerance plant species selection and select local native plant species.
我主要负责植物设计。因为土壤盐碱很严重,因此,植物选择耐盐碱品种及选择乡土树种。
This paper reported response of Puccinellia regrowth to soil salinity and salt tolerance limit of the plant.
本文报导了盆栽碱茅草刈割后再生对土壤含盐量的反应和植物再生的耐盐限度。
These suggest that the salt tolerance of SR1 is not stable; its increase of salt tolerance was a physiological adaptation, not mutation.
由以上结果可知,SR 1耐盐性的提高是不稳定的,其耐盐性的提高并非基因突变引起。
Through collection, sorting out and analysis of data, more than 10 kinds of indicators can be used in salt tolerance identification of wheat.
通过对近10年国内外研究资料的整理和分析认为,有10多项指标可用于小麦的耐盐性鉴定。
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 HAL1 gene was transformed into tobacco by Agrobacterium through leaf disc transformation and the salt tolerance character of transgenic tobacco was analysised.
用农杆菌介导的叶盘法将HAL1基因转入模式植物烟草,对转基因烟草的耐盐性进行评价;
Salt tolerance, like other important agronomic traits in crop plants, is complex trait controlled by quantitative trait loci (QTL).
和其它重要的农艺性状一样,植物的耐盐性是由多个数量性状基因(QTL)控制的复杂性状。
Osmotic regulation ability is an essential character for plants to salt tolerance.
渗透调节能力是植物耐盐性的最基本特征之一。
Experimental study is performed on its temperature resistance, high temperature stability, salt tolerance, static shear force changed with time and its compatibility.
对该体系的抗温性、高温稳定性、抗盐性、静切力随时间的变化及配伍性进行了试验研究。
Experimental study is performed on its temperature resistance, high temperature stability, salt tolerance, static shear force changed with time and its compatibility.
对该体系的抗温性、高温稳定性、抗盐性、静切力随时间的变化及配伍性进行了试验研究。
应用推荐