| 1. | Compartive studies on salt resistance in seed germination of four grass varieties
四种牧草材料种子萌发的耐盐性比较研究 |
| 2. | Study on mechanisms of salt resistance of crop . ionic absorption and translocation of five wheat varieties
小麦对盐分离子的吸收与运移 |
| 3. | The water absorbent hybrid showed much better water absorption , salt resistance properties
交联剂用量少,成本低,吸水性能好,耐盐性能优良。 |
| 4. | A heat treatment to composite membrane , preferred at a 70 hot air bath for 20 minutes can improve the salt resistance of the composite membrane
对复合膜进行适当的热处理可以进一步改善复合膜的脱盐性能,以70热空气浴, 20min为宜。 |
| 5. | The seeds of ceratoides l . had great power of drought resistance and salt resistance , meanwhile , there are great differences between species , ecotypes or plants with different age
该属种子萌发时有较强的耐旱性和耐盐性,且存在种间、生态型间及株龄间的差异。 |
| 6. | Properties : it has excellent acid , aline and salt resistance . hence has excellent anticorrosive antibacterial and properities against plant and other attacks when buried under ground
产品特点:该产品具有优良的耐酸、碱、盐等化学腐蚀、抗微生物侵蚀、抗根系植物的侵蚀及地下水的化学影响 |
| 7. | The effectiveness has been checked through the properties of clay samples tested on the changes of weight , color , gas permeability , solvent resistance , water resistance and salt resistance
通过对加固前后土样的重量、颜色、透气性、耐溶剂性、抗水解性和耐盐安定性等主要性能的分析,评价了加固效果。 |
| 8. | The product is white powder , non - toxic , odorless . and the montmorillonite content can reached 94 % , it has the character of acid resistance , salt resistance , stability and cohesiveness
产品为白色粉末,无毒,无味,蒙脱石含量可达94以上,具有良好的耐盐,耐酸性,此外,改产品还具有很好的稳定性和粘结性。 |
| 9. | The reasons of strong salt resistance had three aspects : ( 1 ) wheatgrass could reduce the potentiality penetration in cell by increasing the osmoregulatotory substance , so the plants could absorb more water by roots
得出冰草植株耐盐有三个原因: 1 、冰草植株能够增加可溶性渗透调节物质,以降低细胞渗透势,保持植株根系吸水。 |
| 10. | It suggests that on the basis of further understanding the mechanism for glycinebetaine to improve plant salt resistance , the transformation of the genes relating to glycinebetaine biosynthesis should be carried out in major crops so that new plant varieties resistant to salt can be obtained
提出在进一步弄清甜菜碱提高植物抗盐性作用机理的基础上,应在重要作物中开展甜菜碱合成相关基因的导入,以期获得耐盐植物新品种。 |
