只有少数特别耐盐的生物体留下了。
Only a few organisms especially tolerant of very salty conditions remained.
盐碱地含有高浓度的氯化钠和其他盐类,限制了植物的生长,研究继续集中于开发耐盐的农作物品种。
Saline soils, which have high concentrations of sodium chloride and other salts, limit plant growth, and research continues to focus on developing salt-tolerant varieties of agricultural crops.
从海水样品中分离到耐盐株黄腐粘球菌HW-1(ATCCBAA-855)。
The halotolerant strain Myxococcus fulvus HW-1 (ATCC BAA-855) was isolated from a seawater sample.
树种耐盐临界值,应以林木生长期测定为准。
Critical value of salinity tolerance should be determined during tree growth period.
渗透调节能力是植物耐盐性的最基本特征之一。
Osmotic regulation ability is an essential character for plants to salt tolerance.
大叶独行菜耐盐及广谱抗逆性的基础机理研究。
The mechanism of salt tolerance and universal stress resistance in Lepidium latifolium.
他坚信短期内科学可以修饰植物使得它们更耐旱、耐盐。
For the short term Jansson is confident that science can modify plants so they are more drought resistant and salt tolerant.
以潮汐水道的繁复、泥滩和耐盐的红树林的小岛屿而著名。
They feature a complex network of tidal waterways, mudflats and small islands of salt-tolerant mangrove forests.
所接入的离子若是强水化基团,增稠剂的耐盐性将会增强。
Strong hydrate group which connecting to polysaccharide can enhance the degree of salt tolerance of thickeners.
分离与鉴定植物耐盐基因对耐盐育种起着十分重要的作用。
Isolation and identification of salt tolerant genes play an important role in salt-tolerant breeding.
对皂荚胶及皂荚胶与黄原胶复配胶的耐盐稳定性进行了研究。
In the article, the salt resistance of Gleditsia Gum Xanthan and their blended Gum were studied.
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。
These results showed that it could be possible to improve the salt-tolerance of crops with genetic technology.
盐土农业的关键是选育有经济价值的耐盐植物以适应盐渍环境。
The kernel of solonchak agriculture is to breed halophyte with high economy to endure the saline environment.
嗜盐菌和耐盐酵母菌在处理高含盐废水方面有广阔的应用前景。
Halophile and salt-tolerant yeast have wide perspective and practicability on the treatment of wastewater with high salinity.
这些基因的克隆为利用遗传工程技术改良作物耐盐性打下了基础。
The cloning of these genes provides a basis for the engineering of crop plants for enhanced salt tolerance in the future.
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。
Salt tolerance of plant are complex traits controlled by many genes and involved by many metabolize approaches.
从富含蛋白质的泥土样中筛选到耐盐和耐碱蛋白酶产生菌各一株。
One salt-enduring strain and one alkaline proteinase strain were isolated from rich-protein containing soil samples.
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.
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。
It follows that the compartmentalized ion distribution on the organ level is one of salt-tolerance mechanisms in cucumber plants.
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。
Therefore, the research on the mechanism of plant salt-tolerance and breeding for salt-tolerant crops will become an attention research field.
如何利用大面积的盐碱地,提高作物耐盐性是生物科学的一个重要研究课题。
How to use the great area saline soil and improve the tolerance of salt is an important research subject in bioscience.
对该堵水剂的性能评价表明,它具有耐温、耐盐、吸附性强、选择性好的特点。
The performance evaluation results showed that the plugging agent had heat resistance, salt tolerance, strong adsorption, and better selectivity.
这些结果说明opbp1基因可能作为一转录因子来调节烟草耐盐相关的基因。
These results suggested that OPBP1, as a transcription factor is involved in the regulation of salt stress related genes.
电生理学的研究表明,根细胞离子通道对于矿质吸收、转运及植物耐盐具有重要作用。
Electrophysiological studies have shown that ion channels play an important role in mineral uptake, translocation and salt resistance.
在盐性环境下,AM真菌能促进植物的生长和对矿质营养的获取,提高植物的耐盐性。
In addition, AM can improve the growth and mineral acquisition , thus enhance the salinity tolerance of mycorrhizal plants.
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。
These suggest that the salt tolerance of SR1 is not stable; its increase of salt tolerance was a physiological adaptation, not mutation.
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;
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;
The HAL1 gene was transformed into tobacco by Agrobacterium through leaf disc transformation and the salt tolerance character of transgenic tobacco was analysised.
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