1) Neutral salt stress

中性盐胁迫
2) Alkaline salt stress

碱性盐胁迫
3) salt-inducible character

盐胁迫诱导特性
1.
A micro-volume spectrometry for determination of heme oxygenase activity in plants and preliminary research on its salt-inducible character
植物血红素加氧酶活性的微量比色测定法与盐胁迫诱导特性的初步研究
4) salt stress

盐胁迫
1.
Response of the Arabidopsis ein2-1 mutant to salt stress;

拟南芥ein2-1突变体对盐胁迫的响应
2.
Effects of selenium on the antioxidant capacity and membrane lipid peroxidation of pakchoi cabbage under salt stress;
盐胁迫条件下硒对小白菜抗氧化活性及膜脂过氧化作用的影响
3.
Effects of short-term and long-term salt stresses on growth of new selections of warm season turfgrasses;
短期和长期盐胁迫对暖季型草坪草新选系生长的影响
5) salinity stress

盐胁迫
1.
Effects of salinity stress on invertase expression and carbohydrate metabolism in tomato seedling;
盐胁迫对番茄幼苗转化酶表达及糖代谢的影响
2.
Using different concentration of NaCl treating seedlings,the effects of salinity stress on development,contents of proline and soluble sugar of two summer squash breeds,which were different in tolerance on salinity stress,were investigated.
以两个耐盐性不同的西葫芦品种白美西葫芦(盐敏感)和黑皮西葫芦(耐盐)为材料,用不同浓度的NaC l溶液进行处理,研究盐胁迫对西葫芦幼苗生长、叶片脯氨酸与可溶性糖含量的影响。
3.
A hydroponic experiment was carried out about cucumber seedlings of two different cultivars in salinity tolerance to explore the effects of exogenous spermidine on polyamine content and antioxidant system in roots of the seedlings under salinity stress.
采用营养液栽培,研究了外源亚精胺(Spd)对盐胁迫下抗盐能力不同的2个黄瓜品种"长春密刺"和"津春2号"幼苗根系生长以及根系中多胺(PAs)含量和抗氧化系统的影响。
6) salt tolerance

盐胁迫
1.
The research of physiological response and evaluation salt tolerance at seeding stage Festuca;
羊茅属植物耐盐性评价及其对盐胁迫的生理反应
2.
Morphological and physiological changes accompanying the induction of salt tolerance in Neolitsea sericea seedlings;
盐胁迫下舟山新木姜子1年生苗形态变化及生理反应
3.
0 were induced respectively in salt tolerance rice 779.

耐盐的 779水稻幼苗中 ,盐胁迫后诱导出 66k D/ p1 5 。
补充资料:生理中性盐
当把植物培养在硝酸铵的溶液中时,植物对溶液中的铵离子和硝酸根的吸收量是相等的,这样就不会引起溶液中发生酸碱度的变化。植物生理学者把这一类盐叫生理中性盐。由于土壤溶液里含有多种弱酸和盐类,也可能含有两性化合物(如蛋白质等),所以土壤溶液具有强大的缓冲能力,生理酸性和生理碱性一般都不易表现。不过在溶液培养法培养植物时,要特别注意培养液ph值的变化。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条